WO2023280320A1 - Box retrieval device and robot - Google Patents
Box retrieval device and robot Download PDFInfo
- Publication number
- WO2023280320A1 WO2023280320A1 PCT/CN2022/104748 CN2022104748W WO2023280320A1 WO 2023280320 A1 WO2023280320 A1 WO 2023280320A1 CN 2022104748 W CN2022104748 W CN 2022104748W WO 2023280320 A1 WO2023280320 A1 WO 2023280320A1
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- WO
- WIPO (PCT)
- Prior art keywords
- box
- robot
- taking
- move
- suction cup
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G1/00—Storing articles, individually or in orderly arrangement, in warehouses or magazines
- B65G1/02—Storage devices
- B65G1/04—Storage devices mechanical
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G1/00—Storing articles, individually or in orderly arrangement, in warehouses or magazines
- B65G1/02—Storage devices
- B65G1/04—Storage devices mechanical
- B65G1/10—Storage devices mechanical with relatively movable racks to facilitate insertion or removal of articles
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G1/00—Storing articles, individually or in orderly arrangement, in warehouses or magazines
- B65G1/02—Storage devices
- B65G1/04—Storage devices mechanical
- B65G1/12—Storage devices mechanical with separate article supports or holders movable in a closed circuit to facilitate insertion or removal of articles the articles being books, documents, forms or the like
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G1/00—Storing articles, individually or in orderly arrangement, in warehouses or magazines
- B65G1/02—Storage devices
- B65G1/04—Storage devices mechanical
- B65G1/12—Storage devices mechanical with separate article supports or holders movable in a closed circuit to facilitate insertion or removal of articles the articles being books, documents, forms or the like
- B65G1/127—Storage devices mechanical with separate article supports or holders movable in a closed circuit to facilitate insertion or removal of articles the articles being books, documents, forms or the like the circuit being confined in a vertical plane
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G1/00—Storing articles, individually or in orderly arrangement, in warehouses or magazines
- B65G1/02—Storage devices
- B65G1/04—Storage devices mechanical
- B65G1/12—Storage devices mechanical with separate article supports or holders movable in a closed circuit to facilitate insertion or removal of articles the articles being books, documents, forms or the like
- B65G1/133—Storage devices mechanical with separate article supports or holders movable in a closed circuit to facilitate insertion or removal of articles the articles being books, documents, forms or the like the circuit being confined in a horizontal plane
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G1/00—Storing articles, individually or in orderly arrangement, in warehouses or magazines
- B65G1/02—Storage devices
- B65G1/04—Storage devices mechanical
- B65G1/137—Storage devices mechanical with arrangements or automatic control means for selecting which articles are to be removed
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G43/00—Control devices, e.g. for safety, warning or fault-correcting
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/74—Feeding, transfer, or discharging devices of particular kinds or types
- B65G47/90—Devices for picking-up and depositing articles or materials
- B65G47/91—Devices for picking-up and depositing articles or materials incorporating pneumatic, e.g. suction, grippers
Definitions
- the present application relates to the technical field of warehousing, and in particular, to a box picking device and a robot.
- the automated warehousing system has been widely used in various civil and industrial warehousing fields due to its advantages of making full use of storage space and improving the management level and efficiency of the warehouse.
- the box picking mechanism adopts various mechanical and electromagnetic picking methods to place the box from the shelf on the picking platform or place the box on the shelf from the picking platform.
- the box picking mechanism in the related art needs to be out of contact with the container and retract, there are problems such as slow retraction, easy damage, and affecting the efficiency of picking.
- the embodiment of the present application proposes a box unloading device and a robot, and the box unloading device can realize fast retraction, thereby improving the box picking efficiency of the box unloading device.
- the box taking device of the embodiment of the present application includes: a mounting seat, the mounting seat can move along the front and rear directions; Relatively moving, the first end of the box-taking part is used to cooperate with the cargo box; the first elastic part is arranged on the second end of the box-taking part, and the first elastic part
- the installation seat moves backward relative to the box-taking part, it can be compressed and has an elastic force, and after the first end of the box-taking part is disengaged from the cargo box, it can be compressed under the elastic force. Under the action, the box-taking part is pushed to move backward relative to the mounting seat.
- the mounting seat first drives the box picking piece to move forward so that the first end of the box picking piece is connected with the cargo box, and then drives the box picking piece to move backward and compress the first elastic part, so that the first elastic part has an elastic force, when the container is placed on the platform for picking up the goods, the first end of the box-taking part is separated from the container, and the box-taking part is relatively opposite under the elastic force of the first elastic part Because the mounting base will move backwards, so that the pick-up parts can quickly retract and avoid the container, without affecting the pick-and-place time of the container, and improve the efficiency of picking.
- the mounting seat has a chamber
- the first elastic member is located in the chamber
- the box removal member includes a suction cup rod and a suction cup
- the suction cup rod is passed through the mounting seat and
- the mounting base can move relative to the front and rear directions
- the second end of the suction cup rod extends into the cavity and is connected with the first elastic member
- the first end of the suction cup rod is connected with the suction cup
- the suction cup can cooperate with the cargo box.
- the box removal device further includes an air guide joint, the air guide joint is arranged at the second end of the suction cup rod and has an opening, The opening communicates with the channel.
- there are a plurality of box-removing parts and at least some of the plurality of box-removing parts are arranged at intervals along a first direction, and the first direction is orthogonal to the front-rear direction and the up-down direction, so There are multiple first elastic pieces, and the multiple first elastic pieces are in one-to-one correspondence with the multiple box-taking pieces.
- it also includes a second elastic member, the second elastic member is arranged at the first end of the box-taking part and when the mounting seat moves forward relative to the box-taking part, the first The second elastic member has an elastic force to push the mounting seat backward.
- the box removal device further includes: a mounting frame, the mounting frame has an accommodating space with at least one side open, and the mounting seat is arranged on the mounting frame and is arranged along the front and rear sides relative to the mounting frame. The direction can be moved; the transmission mechanism is arranged in the accommodation space, the transmission mechanism has a transmission surface for supporting and transporting the container, and the transmission mechanism can move in and out of the storage space along the front and rear directions. space for the cargo boxes to be transported.
- two transmission mechanisms are arranged at intervals along the first direction, the first direction is orthogonal to the front-rear direction and the up-down direction, and the mounting seat is disposed between the two transmission mechanisms, so
- the transmission mechanism includes two rotating parts arranged at intervals along the first direction and a transmission belt wound on the two rotating parts, and the upper surface of the transmission belt forms the transmission surface.
- the box removal device further includes: a main drive assembly, which is used to drive the mounting seat to move forward and backward; a guide assembly, which is used to guide the mounting seat along the Movement in the fore-and-aft direction is guided.
- the guide assembly includes: a guide rail laid on the mounting frame along the front-to-rear direction; a slider slidably arranged on the guide rail and connected to the mounting seat, the upper surface of the guide rail is lower on the transmission surface.
- the robot in the embodiment of the present application includes: a robot body; a box-taking device, the box-taking device is the box-taking device described in any one of the above, the mounting seat of the box-taking device is arranged on the robot body, and the box-taking device
- the mounting base of the box picking device is movable along the front and rear directions relative to the robot body.
- the mounting seat of the box picking device can also move between a first position and a second position relative to the robot body, the first position is higher than the second position, and the mounting The trajectory of the seat moving between the first position and the second position is a line segment or a curve segment.
- the robot further includes a first driving assembly, the first driving assembly is used to drive the mounting seat to move in the up and down direction relative to the robot body and includes: a bracket, the bracket is arranged on the on the robot body and relative to the robot body in the front and back and the up and down directions; the first rack, the first rack is arranged on the bracket and extends along the up and down direction, the first rack The top of a rack is connected with the mounting seat; the first gear is rotatably arranged on the robot body, and the first gear is meshed with the first rack to drive the The first rack moves in the up and down direction.
- the robot further includes a second driving assembly, the second driving assembly is used to drive the sliding seat to move in the forward and backward direction relative to the robot body and includes: a second rack, the first Two racks are arranged on the robot body and extend along the front-to-back direction; the second gear, the second gear meshes with the second rack, and the second gear can rotate to rotate on the second rack Moving in the forward and backward direction, the second gear is connected with the sliding seat.
- the robot body includes: a chassis; a door frame, the door frame is arranged on the chassis, and the box picking device is arranged on the door frame; a lifting assembly, the lifting assembly is configured In order to move up and down along the door frame, the lifting assembly is connected with the box unloading device to drive the box unloading device to move up and down relative to the door frame.
- the robot body further includes a temporary storage partition, a plurality of temporary storage partitions are arranged at intervals along the height direction of the door frame, and the temporary storage partition can temporarily store the For a container, the container removal device can realize the transfer of the container between the temporary storage partition and the container.
- the robot further includes: at least two auxiliary support devices, at least two auxiliary support devices are controlled by their respective drive assemblies, and are respectively distributed on opposite sides of the robot, at least two The auxiliary support device is configured to protrude relative to the robot to abut against or separate from the material racks on both sides of the robot.
- the auxiliary support device includes a fixed base, and a support element telescopically connected to the fixed base through a telescopic mechanism; the telescopic mechanism is controlled by the drive assembly and is It is configured to drive the supporting element to move relative to the fixed base so that the racks on the corresponding sides are abutted against or separated from each other.
- the robot also includes a telescopic fork device, the lifting assembly is connected to the telescopic fork device to drive the telescopic fork device to move up and down relative to the door frame, and the box picking device is located at On the telescopic fork device, the telescopic fork device includes a mobile pallet connected to the lifting assembly; multi-stage telescopic mechanisms arranged oppositely along the two sides of the mobile pallet, wherein each of the multi-stage telescopic mechanisms is provided with a The rear finger of the limited cargo box;
- the telescopic fork device also includes: an in-position detection device for detecting the position of the rear dial finger, a control device, and the control device is used to detect that the position of the rear dial finger exceeds the set position when the in-position detection device detects , control the mobile chassis and the lifting assembly to lock.
- control device is further configured to control the mobile chassis and the lifting assembly to release the locked state when the in-position detection device detects that the rear finger does not exceed the set position.
- Fig. 1 is a schematic diagram of a box picking device and a robot according to an embodiment of the present application.
- FIG. 2 is an enlarged schematic view of part A in FIG. 1 .
- Fig. 3 is a schematic diagram of an original state of a box picking device and a robot according to an embodiment of the present application.
- Fig. 4 is a schematic diagram of a box picking device and a robot picking state according to an embodiment of the present application.
- Fig. 5 is a schematic diagram of a box picking device and a robot pulling back state according to an embodiment of the present application.
- Fig. 6 is a schematic diagram of a withdrawing state of a picking box in a box picking device and a robot according to an embodiment of the present application.
- Fig. 7 is a top view of the original state of the box picking device and the robot according to the embodiment of the present application.
- FIG. 8 is a schematic cross-sectional view of A-A in FIG. 7 .
- Fig. 9 is a schematic cross-sectional view of B-B in Fig. 7 .
- FIG. 10 is an enlarged schematic view of part B in FIG. 8 .
- FIG. 11 is an enlarged schematic view of part C in FIG. 9 .
- FIG. 12 is a schematic structural view of the handling robot provided in Embodiment 1 of the present application when docking a cargo box.
- FIG. 13 is a schematic structural view of the handling robot provided in Embodiment 1 of the present application when it drags a cargo box into the accommodation space.
- FIG. 14 is a schematic structural view of the box picking device provided in Embodiment 1 of the present application when the picking component is retracted.
- Fig. 15 is a schematic structural view of the case picking device provided in Embodiment 1 of the present application when the picking component is stretched out.
- Fig. 16 is a schematic diagram of a box picking device and a fixed base in a robot according to an embodiment of the present application.
- Fig. 17 is a three-dimensional structural schematic view of the box unloading device and the robot according to the embodiment of the present application and the auxiliary support device in the robot according to the embodiment of the present application.
- Fig. 18 is a schematic front view of the auxiliary supporting device shown in Fig. 17 in the box picking device and the robot according to an embodiment of the present application.
- Fig. 19 is a schematic perspective view of a box picking device and an auxiliary supporting device in a robot according to an embodiment of the present application.
- Fig. 20 is a schematic perspective view of the three-dimensional structure of the box unloading device and the assembly of the auxiliary support device and the lifting assembly in the robot according to the embodiment of the present application.
- Fig. 21 is a schematic diagram of the first structure of the box unloading device and the telescopic fork device in the robot according to the embodiment of the present application.
- Fig. 22 is a schematic diagram of the second structure of the box unloading device and the telescopic fork device in the robot according to the embodiment of the present application.
- Fig. 23 is a schematic diagram of a state in which the telescopic fork device in the box unloading device and the robot is not in place according to an embodiment of the present application.
- the box removing device includes a mounting base 11 , a box picking member 12 and a first elastic member 13 .
- the mounting base 11 can move in a forward-backward direction (such as the direction marked in the figure).
- the box-taking part 12 is arranged on the mounting seat 11 and can move relatively with the mounting seat 11 in the front-rear direction.
- the first elastic member 13 is arranged on the second end of the box-getting part 12 (the rear end of the box-getting part 12 as shown in the figure), and the first elastic member 13 can be compressed when the mounting seat 11 moves backward relative to the box-getting part 12 And it has elastic force, and after the first end of the box picking piece 12 is disengaged from the cargo box 3, it can push the box picking piece 12 to move backward relative to the mounting seat 11 under the action of the elastic force.
- the mounting seat 11 first drives the box taking part 12 to move forward to The first end of the box-removing member 12 is mated with the container 3, and then the container-removing member 12 is driven to move backward and compress the first elastic member 13, so that the first elastic member 13 has elastic force.
- the first end of the box-taking part 12 will be separated from the container 3, and the box-taking part 12 will move toward the mounting seat 11 under the elastic force of the first elastic part 13. Move back, so that the take-up part 12 realizes fast retraction, avoids with the cargo box 3, does not affect the pick-and-place time of the cargo box 3, and improves the efficiency of picking up goods.
- the mounting seat 11 can drive the box picking part 12 to push the container 3 forward, so that the container 3 is placed on the shelf 4.
- the mount 11 has a cavity 111
- the first elastic member 13 is located in the cavity 111 .
- the box picking part 12 includes a suction cup rod 121 and a first suction cup 122.
- the suction cup rod 121 is passed through the mounting base 11 and can move relative to the mounting base 11 in the front-rear direction.
- the second end of the suction cup rod 121 extends into the chamber 111.
- the first end of the suction cup rod 121 is connected with the first suction cup 122 , and the first suction cup 122 can cooperate with the container 3 .
- the box-removing component 12 includes a suction cup rod 121 and a first suction cup 122 , so that the structure of the box-removing component 12 is simple and the manufacturing cost is saved.
- the case-removing device 1 of the embodiment of the present application connects the suction cup rod 121 to the case 3 through the cooperation of the first suction cup 122 with the case 3 , so that the connection between the case-removing member 12 and the case 3 is simple.
- the first elastic member 13 is a spring, and the first elastic member 13 is wound around the second end of the sucker rod 121 .
- one end of the first elastic member 13 is disposed on the second end of the suction cup rod 121 , and the other end is wound on the suction cup rod 121 along the length direction of the suction cup rod 121 .
- the other end of the first elastic member 13 abuts against the inner wall surface of the chamber 111 of the mounting seat 11. Moving backward, the other end of the first elastic member 13 is separated from the inner wall surface of the cavity 111 of the mounting base 11 .
- the first elastic member 13 by setting the first elastic member 13 as a spring, the first elastic member 13 has a simple structure, is easy to manufacture, and saves cost.
- the structure of the box-removing member 12 in this application is not limited to the above-mentioned method of using the first suction cup 122 , for example, the container-removing member 12 can adopt a fork-holding or hooking-type structure to cooperate with the container 3 .
- the box removal device 1 also includes an air guide joint 14, and the air guide joint 14 is arranged on the second end of the suction cup rod 121 and There is an opening (not shown) which communicates with the channel.
- the first suction cup 122 when the box taking device 1 is in use, the first suction cup 122 is in contact with the outer surface of the cargo box 3, and the air guide joint 14 is connected with a vacuum extractor or other vacuumable devices (not shown), so that the The air between the first suction cup 122 and the outer surface of the cargo box 3 is sucked away, so that the first suction cup 122 is adsorbed on the outer surface of the cargo box 3 , thus, the operation when the first suction cup 122 is connected to the cargo box 3 is simple.
- connection method between the vacuuming device and the first suction cup 122 is not limited to the above-mentioned method.
- the cavities of the first suction cup 122 communicate with each other.
- a plurality of first elastic members 13 correspond to a plurality of box-taking members 12 one-to-one.
- the plurality of box-taking parts 12 are arranged at intervals in the left-right direction, and the plurality of first elastic members 13 are also arranged at intervals in the left-right direction, and the plurality of first elastic members 13 and the plurality of take-out
- the boxes 12 correspond one to one.
- the vacuum state between the first suction cup 122 and the container 3 is broken, so that the first suction cup 122 is separated from the container 3.
- each box-taking part 12 can be Under the action of the corresponding first elastic member 13 , quick retraction is realized without affecting the pick-and-place time of the container 3 .
- a plurality of box-taking parts 12 includes a first group of box-taking parts 12 and a second group of box-taking parts 12 that are opposite and symmetrically arranged in the front-rear direction, and the first group of box-taking parts 12 and the second group of box-taking parts 12 are Each of the box parts 12 includes at least two box picking parts 12 arranged at intervals along the first direction.
- the mounting base 11 includes a front end and a rear end, and the front end and the rear end are arranged facing each other.
- a plurality of box-getting parts 12 includes a first group of symmetrically arranged box-getting parts 12 and a second group of box-getting parts 12. It is arranged on the rear end (not shown) of the mounting base 11, so that both the front end and the rear end of the mounting base 11 can take the box, and the box picking device 1 can also place the cargo box 3 on the shelf 4 from the picking platform , improving the usage rate of the mounting seat 11.
- Each of the first group of box-taking parts 12 and the second group of box-taking parts 12 includes at least two box-taking parts 12 arranged at intervals along the first direction, and each box-taking part 12 is correspondingly provided with a first An elastic piece 13 makes the connection between the box-taking piece 12 and the cargo box 3 stronger.
- the box-taking device 1 also includes a second elastic member 15, the second elastic piece 15 is arranged at the first end of the box-taking component 12 and is positioned at the mounting base 11 relative to the box-taking component 12. Compressed when moving forward.
- the front end of the second elastic member 15 is connected to the first suction cup 122 , and the second elastic member 15 extends along the length direction of the suction cup rod 121 .
- both the first elastic member 13 and the second elastic member 15 are in a state of no elastic force.
- the mounting base 11 drives the suction cup rod 121 to move forward so that the first suction cup 122 is connected with the cargo box 3, and the mounting base 11 moves forward relative to the suction cup rod 121 , the second elastic member 15 is compressed and generates an elastic force, thereby slowing down the impact of the first suction cup 122 on the cargo box 3 when the first suction cup 122 is in contact with the cargo box 3, and plays a buffering role, reducing the impact on the cargo box 3 and/or Or take out the damage of case device 1, extend the service life of case device 1.
- the mounting seat 11 drives the suction cup rod 121 to move backward, and the mounting seat 11 moves backward relative to the suction cup rod 121 to compress the first elastic member 13, so that the first elastic
- the element 13 generates an elastic force
- the second elastic element 15 returns to the state of no elastic force.
- the second elastic member 15 is a spring, and the second elastic member 15 is wound around the first end of the sucker rod 121 .
- One end of the second elastic member 15 is disposed on the first end of the suction cup rod 121 , and the other end is wound on the suction cup rod 121 along the length direction of the suction cup rod 121 .
- the second elastic member 15 by setting the second elastic member 15 as a spring, the second elastic member 15 has a simple structure, is easy to manufacture, and saves cost.
- the box-taking device 1 also includes a mounting frame 16 and a transmission mechanism 17 , the mounting frame 16 has an accommodating space 161 with at least one side opening, and the mounting seat 11 is located on the mounting frame 16
- the transmission mechanism 17 is arranged in the accommodation space 161.
- the transmission mechanism 17 has a transmission surface 171 for supporting and transporting the cargo box 3.
- the transmission mechanism 17 can move in and out along the front and rear directions. The cargo boxes 3 in the space 161 are transported.
- the box-taking device 1 provided in this embodiment can realize the docking with the container 3 by setting the mounting base 11, drag the container 3 on the shelf 4 into the accommodation space 161, or drag the container 3 on the mounting rack 16 3 Push out into the storage space 161 and push it onto the shelf 4, so as to realize the transfer of the cargo box 3 on the storage space 161 and the shelf 4; by setting the transmission mechanism 17, the cargo box 3 in and out of the storage space 161 can be supported and assisted
- the transmission can improve the transmission efficiency and transmission stability of the cargo box 3 , and can reduce the force required by the box unloading device 1 , and reduce the structural requirements for the box unloading device 1 .
- the mounting frame 16 preferably includes a horizontally arranged installation base plate 162 and a vertically arranged installation side plate 163, the lower end of the installation side plate 163 is vertically connected with the installation base plate 162, and two installation side plates 163 are opposite and spaced along the second direction,
- the accommodating space 161 is formed between the two installation side plates 163 , the transmission mechanism 17 and the installation seat 11 are installed on the installation bottom plate 162 , and the upper end of the installation side plate 163 is higher than the transmission surface 171 .
- the setting of the installation side plate 163 can also provide protection for the transmission mechanism 17 and the installation seat 11.
- the mounting base 11 can be connected to one side of the cargo box 3 , and the mounting base 11 can be connected to the side of the cargo box 3 through detachable connection methods such as magnetic adsorption, vacuum adsorption, or detachable mechanical connection.
- the setting of this kind of mounting seat 11 can reduce the space required for the docking of the mounting seat 11 and the cargo box 3, and prevent the mounting seat 11 from extending into both sides of the cargo box 3 to clamp the cargo box 3, thereby reducing the size of the cargo box.
- the space requirement between two adjacent cargo boxes 3 on the 3 increases the arrangement density of the cargo boxes 3 on the cargo box 3 .
- the detachable mechanical connection may be, but not limited to, clamping, plugging, or hooking.
- the mounting seat 11 can also adopt the existing clamping structure to pick and place the container 3 .
- the box-taking device 1 preferably further includes a casing 10 located outside the installation frame 16, the casing 10 has an opening, and the opening of the casing 10 coincides with the opening of the accommodating space 161, so as to improve the stability of the box-taking device 1.
- the housing 10 preferably includes a lateral side plate 102 forming a U-shaped structure and two opposite and spaced outer side plates 101.
- the two outer side plates 101 are respectively located on the outer sides of the two installation side plates 163 and are connected to the corresponding installation side plates 163.
- the connection is detachable, and the opening formed by the encirclement of the lateral side plate 102 and the two outer plates 101 is consistent with the opening of the accommodation space 161 .
- the arrangement of the housing 10 is beneficial to the protection of the box removing device 1, and can prevent the cargo box 3 from falling from the side away from the opening of the accommodating space 161, improving the safety and reliability of placing the cargo box 3 on the box picking device 1 .
- each outer plate 101 away from the lateral plate 102 is provided with a guide plate portion 103, and the two guide plate portions 103 approach each other obliquely along the direction away from the lateral plate 102, and the second direction is perpendicular to the first direction.
- the arrangement of the guide plate portion 103 is beneficial to guide the container 3 to enter and exit the accommodation space 161 .
- two transmission mechanisms 17 are arranged at intervals along the first direction, the first direction is orthogonal to the front-rear direction and the up-down direction, and the mounting seat 11 is arranged between the two transmission mechanisms 17, and the transmission mechanism 17 includes Two rotating parts are arranged at intervals along the first direction and a transmission belt 174 is wound on the two rotating parts. The upper surface of the driving belt 174 forms the transmission surface 171 .
- two transmission mechanisms 17 are arranged opposite and spaced apart along the second direction, and the distance between the two transmission mechanisms 17 is smaller than the width of the cargo box 3, and the mounting seat 11 is set Between the two transmission mechanisms 17, the two sides of the bottom of the container 3 can be respectively supported on the transmission surfaces 171 of the two transmission mechanisms 17 during the pick-and-place process of the container 3, thereby improving the stability and reliability of the transmission.
- this kind of setting can also reduce the structural interference between the mounting base 11 and the transmission mechanism 17 .
- only one transmission mechanism 17 may be provided, and the mounting seat 11 is provided above the transmission mechanism 17 .
- the transmission mechanism 17 adopts a belt-type transmission mechanism 17 , which is stable in transmission, low in cost, and will not cause scratches to the container 3 .
- the transmission mechanism 17 includes a driving rotating member 172 and a driven rotating member 173 arranged oppositely and at intervals along the first direction, and a transmission belt 174 wound on the driving rotating member 172 and the driven rotating member 173.
- the upper surface of the driving belt 174 The transmission surface 171 is formed.
- the two rotating parts are both rollers, and the rotating shaft of the roller is arranged along the second direction.
- This arrangement can increase the width of the transmission belt 174, thereby increasing the width of the transmission surface 171, and improving transmission safety and reliability.
- the driving rotating member 172 and the driven rotating member 173 can also be configured as pulleys.
- the active rotating part 172 is an electric drum, that is, the active rotating part 172 includes a cylinder body and a transmission drive unit arranged inside the cylinder body, which occupies a small space and has a compact structure. powerful.
- the driving rotating member 172 can also be a separate cylindrical structure, and the transmission mechanism 17 also includes a transmission motor disposed outside the driving rotating member 172 and a transmission structure connected between the transferring motor and the driving rotating member 172 .
- the transmission mechanism 17 can also be a drum type transmission mechanism 17, a roller type transmission mechanism 17 or a chain type transmission mechanism 17, and the roller type transmission mechanism 17, the roller type transmission mechanism 17 or the chain type transmission mechanism 17 All can be set with reference to the prior art, and this application will not give examples one by one.
- the box removal device 1 further includes a main drive assembly 18 and a guide assembly, the main drive assembly 18 is used to drive the mounting base 11 to move in the front-rear direction, and the guide assembly is used to guide the motion of the installation base 11 in the front-rear direction .
- the mounting base 11 also includes a pick-up assembly for docking with the container 3 , and the main drive assembly 18 is used to drive the pick-up assembly to move forward and backward, so as to drive the container 3 into and out of the accommodation space 161 .
- the docking mode of the pick-up assembly and the container 3 is a vacuum adsorption connection, that is, the pick-up assembly includes a second suction cup 181, an air pump assembly (not shown) for supplying air and vacuuming the second suction cup 181 .
- the air pump assembly includes an air pump and an air pipe connected between the second suction cup 181 and the air pump.
- the air pump vacuumizes the second suction cup 181 through the air pipe, so as to realize the vacuum adsorption of the second suction cup 181 to the cargo box 3; when the cargo box 3 needs to be released , the air pump feeds positive pressure gas into the second suction cup 181 through the air pipe, so that the release of the second suction cup 181 to the cargo box 3 can be realized.
- the way of vacuum adsorption is used to realize the docking of the picking component and the container 3, which is simple in structure, easy to realize and low in cost; at the same time, this kind of setting can conveniently make the picking component only act on one side of the container 3 to realize the docking
- the stable picking of the cargo box 3 makes it more convenient to pick and place the cargo box 3; at the same time, the vacuum adsorption method is used to pick and place the cargo box 3, without changing the structure of the cargo box 3, the improvement cost is low, and the versatility is strong
- the use of vacuum adsorption to pick and place the cargo box 3 can reduce the alignment accuracy requirements between the picking components and the cargo box 3 and improve the convenience of picking and placing the cargo box 3 .
- the mounting base 11 also includes a fixed frame 182, the second suction cup 181 is detachably connected to the fixed frame 182, and the fixed frame 182 is detachably connected to the main drive assembly 18, and the main drive assembly 18 drives the fixed frame 182 moves along the first direction, thereby driving the second suction cup 181 to move along the first direction.
- at least two second suction cups 181 are arranged at intervals along the second direction and/or the vertical direction, so as to improve the reliability of adsorption to the container 3 and reduce the suction force required by a single second suction cup 181 .
- Each second suction cup 181 can be independently provided with an air pipe, and the air pump supplies air to a single air pipe. Or, it is also possible to arrange an air distribution block near the end of the second suction cup 181 to distribute the gas, and the second suction cup 181 is arranged on the air distribution block, so that one air pipe can realize the supply of multiple second suction cups 181. Air, and ensure the uniformity and consistency of the second sucker 181 air supply.
- the main drive assembly 18 is driven by a main drive motor cooperating with a main drive assembly.
- the main driving motor is preferably disposed on the side of the installation frame 16 away from the opening of the accommodating space 161 to avoid interference with the container 3 .
- the main transmission assembly may, but is not limited to, adopt a transmission form such as a belt transmission, a rack and pinion transmission, a chain transmission, or a screw nut transmission that can realize the linear movement of the fixing frame 182 . This embodiment does not limit the transmission form and specific structural form of the main transmission assembly.
- the guide assembly can improve the stability of the pick-up assembly running along the front-rear direction, and the guide assembly is arranged on the installation base plate 162 and extends along the front-rear direction.
- the guide assembly includes a first guide piece and a second guide piece that are slidably connected.
- the first guide piece is laid on the installation base plate 162 along the first direction and is located between the two transmission mechanisms 17.
- the second guide piece slides with the first guide piece. Or rolling fit, the second guide is detachably connected to the fixing frame 182 .
- the guide assembly includes a guide rail 19 and a slider, and the guide rail 19 is laid on the installation frame 16 along the front-to-rear direction.
- the slider is slidably disposed on the guide rail 19 and connected to the mounting seat 11 , the upper surface of the guide rail 19 is lower than the transmission surface 171 .
- the first guide member is a guide rail 19
- the second guide member is a slider, that is, the guide assembly is a guide rail slider structure, and the upper surface of the guide rail 19 is lower than the transmission surface 171 .
- the first guide member may also be a guide rod
- the second guide member may be a guide sleeve slidingly sleeved on the guide rod.
- Other existing structures that can realize linear running guidance are all within the protection scope of this application, and this application does not limit this.
- the second suction cup 181 is positioned above the guide rail 19 to increase the height of the second suction cup 181 while reducing the height of the fixing frame 182, thereby improving the docking position of the second suction cup 181 and the cargo box 3 relative to the cargo box 3
- the height of the bottom improves the stability of the transport of the container 3, improves the compactness of the structure, and reduces structural interference.
- the robot according to the embodiment of the present application includes a robot body 2 and a box-removing device 1 , the mounting seat 11 of the box-removing device 1 is arranged on the robot body 2 and is movable in a front-rear direction relative to the robot body 2 .
- the mounting base 11 is located on the mounting frame 16, and the mounting frame 16 is located on the robot body 2.
- the mounting base 11 can move back and forth relative to the mounting frame 16. In other words, the mounting base 11 is connected to the robot body 2 through the mounting frame 16.
- the box picking device of the robot in the embodiment of the present application can realize fast retraction, avoiding the box 3, without affecting the picking and placing time of the box 3, and improving the picking efficiency.
- the box-taking device 1 is movably arranged on the robot body 2.
- the box-taking device 1 moves forward and is connected with the cargo box 3, and then
- the box fetching device 1 drives the cargo box 3 to move backward and pulls the cargo box 3 onto the robot body 2, so that the operation process is simple and convenient.
- the mounting base 11 of the box removing device 1 can also move between a first position (not shown) and a second position (not shown) relative to the robot body 2, the first position being higher than the second position. position, the trajectory of the mounting seat 11 moving between the first position and the second position is a line segment or a curve segment.
- the mounting base 11 moves in the vertical direction, as shown in FIG. Below the upper surface, when the mounting base 11 moves from the first position to the second position, it can move linearly along the vertical direction.
- the running track of the mounting base 11 is a curved segment
- the mounting base 11 performs a curved motion.
- the curve segment may be an arc segment, an arc segment, and the like.
- the first elastic member 13 is still in a compressed state and has elastic force, releasing the first suction cup 122 and the box 3.
- the sucker rod 121 withdraws quickly under the action of the elastic force of the first elastic member 13, and the box-taking device 1 moves downward in the vertical direction (up and down direction as shown in the figure), so that the box-taking The whole device 1 moves below the upper surface of the robot body 2 to avoid the cargo box 3 so that the cargo box 3 is not hindered when moving on the robot body 2 .
- the end surface of the container 3 is provided with transverse ribs.
- the box-taking device 1 of the embodiment of the present application after the first suction cup 122 and the cargo box 3 are released from the adsorption state, they can move backward under the elastic force of the first elastic member 13, so as to realize the rapid removal of the box-taking part 12. Retraction avoids the transverse ribs on the cargo box 3, reduces damage to the box picking device 1, and improves the picking efficiency.
- the pick-up platform only needs to be close to the length of the cargo box 3, and there is no need to set up additional space in the front and rear directions to accommodate the pick-up parts. 12, thus saving space in the front-back direction.
- the box-taking device 1 of the present application can also move backward to return, that is, the mounting seat 11 moves backward to return. Under the action, it can first move backward to stay away from the cargo box 3, and then move backward under the drive of the mounting seat 11 to return to its position.
- the box picking device 1 of the present application can quickly move away from the cargo box 3, improving the efficiency of picking up goods.
- the robot further includes a first driving assembly 21 for driving the mounting base 11 to move relative to the robot body 2 in an up and down direction.
- the first driving assembly 21 includes a bracket 211 , a first rack 212 and a first gear 213 .
- the bracket 211 is disposed on the robot body 2 and is movable in front, rear and up and down directions relative to the robot body 2 .
- the first rack 212 is disposed on the bracket 211 and extends along the vertical direction, and the top end of the first rack 212 is connected to the mounting seat 11 .
- the first gear 213 is rotatably arranged on the robot body 2, and the first gear 213 meshes with the first rack 212 to drive the first rack 212 to move up and down, and then drives the mounting base 11 relative to the robot body through the bracket 211 2 Move in the up and down direction.
- brackets 211 there are at least two brackets 211, wherein one bracket 211 is located at the left end of the mounting base 11, and the other bracket 211 is located at the right end of the mounting base 11, and the two brackets 211 are arranged oppositely in the front-rear direction.
- the upper end is connected with the mounting seat 11
- the lower end of the bracket 211 extends along the vertical direction and is arranged on the robot body 2 .
- the first rack 212 is arranged on the support 211 along the up and down direction, and the first gear 213 is rotatably arranged on the robot body 2.
- the first gear 213 is engaged with the first rack 212, and the first gear 213 is engaged with the first rack 212.
- a gear 213 drives the first rack 212 to move up and down, and then drives the bracket 211 to move up and down, thereby driving the mounting base 11 to move up and down. Therefore, the structure of the first driving assembly 21 is simple, and the operation is convenient.
- the first driving assembly 21 further includes a first motor (not shown), and the first motor is connected with the first gear 213 to drive the first gear 213 to rotate.
- a connecting block 6 is provided between the mounting base 11 and the upper end of the bracket 211 , so that the contact area between the mounting base 11 and the upper end of the bracket 211 is increased, so that the mounting base 11 and the bracket 211 are firmly connected.
- the robot also includes a sliding seat (not shown), the robot body 2 is provided with a guide rail 19 (not shown), the sliding seat is slidably arranged on the guide rail 19, and the first gear 213 and the bracket 211 are provided. on the slide.
- Guide rail 19 extends along the front-back direction of robot body 2, and slide seat is slidably installed on guide rail 19, and first gear 213 and support 211 are also located on the slide seat, so that first gear 213 and support 211 also follow guide rail 19 Sliding in the front and back direction of the box realizes the movement of the box taking device 1 along the front and back direction of the guide rail 19.
- the robot in the embodiment of the present application has a simple structure and is easy to operate.
- the robot further includes a second driving assembly 22, the second driving assembly 22 is used to drive the sliding seat to move in the forward and backward direction relative to the robot body 2, and the second driving assembly 22 Including a second rack 221 and a second gear (not shown), the second rack 221 is disposed on the robot body 2 and extends along the front-rear direction.
- the second gear meshes with the second rack 221 , the second gear can rotate to move forward and backward on the second rack 221 , and the second gear is connected with the sliding seat.
- the robot body 2 is provided with a second rack 221 extending in the front-to-back direction, and the second gear can move in the front-to-back direction on the second rack 221 through its own rotation, thereby driving the sliding seat Relative to the robot body 2, it moves forward and backward. Therefore, the robot in the embodiment of the present application has a simple structure and is easy to operate.
- the second driving assembly 22 further includes a second motor 222, and the second motor 222 is connected with the second gear to drive the second gear to rotate.
- the robot also includes a mounting plate 223, the second motor 222 is located on the mounting plate 223, and the slide seat is also located on the mounting plate 223, so that the second motor 222 drives the second gear along the second rack 221.
- the sliding seat is also driven to move back and forth on the second rack 221 , and then the box-taking device 1 is moved back and forth on the second rack 221 .
- the robot body 2 includes: a chassis 23; On: the lifting assembly 25, the lifting assembly 25 is configured to move up and down along the door frame 24, the lifting assembly 25 is connected with the box removal device 1 to drive the box removal device 1 relative to the door
- the frame 24 can move up and down.
- the chassis 23 is used to realize the movement of the handling robot on the ground, so as to realize the transportation of the cargo box 3 by the handling robot;
- the door frame 24 is arranged on the chassis 23 for fixing and supporting the box-taking device 1;
- the lifting mechanism is arranged on the door frame 24 so as to pick up the container 3 on the container 3 or place the container 3 on the container 3 .
- the chassis 23 includes a chassis body and a driving wheel mechanism arranged at the bottom of the chassis body, and the driving wheel mechanism is used to realize the movement of the chassis 23 .
- the drive wheel mechanism can be in the form of differential drive, specifically including a drive wheel motor, two drive wheels arranged at the bottom of the chassis body, and a connecting assembly connecting the drive wheel motor and the two drive wheels.
- Two driving wheels are respectively arranged on both sides of the chassis body, and the driving wheel motor is arranged inside the chassis body, and its rotating output shaft is connected with the driving wheel and drives the driving wheel to move, so as to realize the linear or turning motion of the chassis 23 .
- the driving wheel mechanism is arranged on both sides of the middle part of the chassis 23 , which is beneficial to improve the stability of the movement of the chassis 23 .
- a plurality of universal driven wheels can also be set on the chassis body, such as a pair of universal driven wheels can be respectively set at the front portion and the rear portion of the chassis body, and two pairs of universal driven wheels are arranged symmetrically relative to a pair of driving wheels. It is beneficial to further improve the smooth movement of the chassis 23, especially the stability of the turning movement of the chassis 23, and prevent the chassis 23 from toppling to one side during the movement.
- the driving wheel mechanism can also adopt other mechanisms that can drive the movement of the chassis body.
- This embodiment does not limit the specific form of the driving wheel mechanism, nor does it limit the specific structure of the chassis 23, as long as the structure that can drive the door frame 24 to move can be , such as the existing robot structure, etc.
- the door frame 24 includes two support columns 241 opposite and spaced apart, each support column 241 is all vertically arranged, the lower end of the support column 241 is connected with the chassis 23, and the upper end of the two support columns 241 A beam 242 is connected to prevent the two supporting columns 241 from shaking relative to each other.
- each support column 241 includes a plurality of detachably connected support rod segments, so as to improve the convenience of processing and assembly.
- the structure of the door frame 24 can refer to the prior art, and will not be repeated here.
- the box-taking device 1 is installed on the door frame 24 by a lifting mechanism, and the lifting mechanism includes a lifting frame 7 and a lifting drive assembly, and the lifting drive assembly is installed between the door frame 24 and the lifting frame 7, and is used to drive the lifting frame 7 to elevate.
- the case taking device 1 is installed on the lifting frame 7 .
- the lifting mechanism can be but not limited to a sprocket chain type lifting mechanism, a screw nut type lifting mechanism, a rack and pinion type lifting mechanism, etc., and the specific structure of the lifting mechanism and the connection between the lifting mechanism and the cargo picking device 1 can refer to the existing technology, which is not limited in this embodiment.
- the robot body 2 also includes a temporary storage partition 26, a plurality of temporary storage partitions 26 are arranged at intervals along the height direction of the door frame 24, and the temporary storage partition 26 can temporarily The cargo box 3 is stored, and the box taking device 1 can realize the transfer of the cargo box 3 between the temporary storage partition 26 and the cargo box 3 .
- each temporary storage partition 26 is vertically connected to the support column 241 , and each temporary storage partition 26 can be used to temporarily store one container 3 .
- the handling robot can transport a plurality of cargo boxes 3 at one time, improving the efficiency of cargo box 3 handling.
- each temporary storage partition 26 is detachably connected with the door frame 24, so that a reasonable number of temporary storage partitions can be set on the door frame 24 according to the height of the container 3, the height of the door frame 24 and the requirements of handling. 26.
- Improve the flexibility and versatility of the handling robot enable the temporary storage partition 26 to be processed and set up in a modular manner, improve the processing and use flexibility of the temporary storage partition 26, and facilitate the processing and assembly of the temporary storage partition 26 and handling.
- the specific structure of the temporary storage partition 26 can refer to the prior art, which is not the focus of this application and will not be repeated here.
- the box-taking device 1 and the temporary storage partition 26 are respectively located on opposite sides of the door frame 24, and the box-taking device 1 is connected with the elevating frame 7 through a rotating mechanism, so as to Rotate the box picking device 1 around the vertical axis to change the orientation of the opening of the accommodation space 161, so that the box 3 pick-and-place mechanism and the transmission mechanism 17 can realize the transfer of the box 3 between the mounting frame 16 and the temporary storage partition 26 .
- the setting of the rotating mechanism can refer to the existing setting, which is not the focus of this application and will not be repeated here.
- the robot body 2 also includes a detection component, the detection component is used to detect the working state of the handling robot and the external environment state; the controller is used to obtain the order information of the warehouse logistics, and based on the order information and the detection result of the detection component, Intelligently regulate the operation of the handling robot.
- the detection component is used to detect the working state of the handling robot and the external environment state
- the controller is used to obtain the order information of the warehouse logistics, and based on the order information and the detection result of the detection component, Intelligently regulate the operation of the handling robot.
- the robot further includes at least two auxiliary support devices 5, at least two auxiliary support devices 5 are controlled by respective drive assemblies 58, and are respectively distributed on opposite sides of the robot. , at least two auxiliary support devices 5 are configured to protrude relative to the robot to abut against or separate from the material racks on both sides of the robot.
- the auxiliary support device 5 includes a fixed base 50, and a support element 51 telescopically connected to the fixed base 50 through a telescopic mechanism.
- the telescoping mechanism is controlled by the driving assembly 58 and is configured to drive the supporting element 51 to move relative to the fixed base 50 to abut against or separate from the racks on the corresponding side.
- the auxiliary supporting device 5 includes a fixed base 50, and a support element 51 telescopically connected to the fixed base 50 through a telescopic mechanism, wherein the telescopic mechanism is controlled by the drive
- the component 58 is configured to drive the supporting element 51 to move relative to the fixed base 50 to abut against or separate from the material shelf on the corresponding side.
- the figure which is a front structural schematic diagram of the auxiliary support device 5 shown in the figure.
- the fixed base 50 is specifically a square plate, which is fixedly connected on the side wall of the door frame 24 by means of threaded connection or bonding, and the support element 51 has the same shape as the fixed base 50.
- the telescoping mechanism drives the support element 51 to move away from or close to the support element 51 under the action of the drive assembly 58 .
- the fixing base 50 is fixed on the door frame 24 , and its fixing position can be a lower area, a middle area or an upper area along the extending direction of the door frame 24 .
- the fixed base 50 can also be arranged on the lifting assembly 25 or the retrieving box assembly, so that it can reach any position in the extending direction of the door frame 24 along with the lifting assembly 25 .
- the telescoping mechanism includes a scissors unit, and the scissors unit includes a first link 52 mechanism and a second link 53 mechanism that are arranged crosswise and hinged together at the intersection point.
- first connecting rod 52 mechanism is hinged with the fixed base 50, and the other end is movably connected to the supporting element 51 in a slidable manner;
- second connecting rod 53 mechanism is connected to the supporting element 51 Hinged, the other end is movably connected to the fixed base 50 in a slidable manner.
- first connecting rod 52 mechanism includes two first connecting rods 52 arranged in parallel
- second connecting rod 53 mechanism includes two second connecting rods 53 arranged in parallel, wherein the two first connecting rods 52 have the same The two ends are hinged on the same hinge axis, the same ends of the two second connecting rods 53 are hinged on the same hinge axis, and the first connecting rod 52 and the second connecting rod 53 on the same side intersect and are hinged together.
- the lower ends of the two first connecting rods 52 are hinged on the first lower hinge shaft 54, and the upper ends of the two first connecting rods 52 are respectively hinged on the two first upper hinge shafts 55 arranged coaxially.
- the two first upper hinge shafts 55 are movably connected to the support element 51 in a slidable manner, the support element 51 is provided with two elongated holes 5a, and the two first upper hinge shafts 55 respectively pass through the two A strip-shaped hole 5a and slide up and down relative to the support member 51 along the strip-shaped hole 5a.
- the lower ends of the two second connecting rods 53 are respectively hinged on two second lower hinge shafts 56 coaxially arranged, and the two second lower hinge shafts 56 are fixedly or rotatably connected to the support element 51;
- the upper ends of the second connecting rods 53 are all hinged on the second upper hinge shaft 57, and the second upper hinge shaft 57 is movably connected to the fixed base 50 in a slidable manner.
- the fixed base 50 is also provided with Two elongated holes 5a, the second upper hinge shaft 57 passes through the two elongated holes 5a and can slide along the elongated holes 5a under the action of external force.
- the drive assembly 58 that drives this retractable mechanism includes a screw rod push rod motor, the casing of the screw rod push rod motor is fixedly connected on the fixed base 50, and its drive shaft is fixedly connected with the second upper hinge shaft 57 to control the forward rotation of the motor or Reversing can make its driving shaft drive the second upper hinge shaft 57 to slide up and down along the elongated hole 5a.
- both the fixed base 50 and the support element 51 are moved in a direction gradually approaching each other, that is, the cargo handling robot as a whole is in the working state in the figure, that is, the auxiliary support device 5 is in a retracted state relative to the door frame 24, and its support element 51 is not against the material shelf on the corresponding side, and the auxiliary supporting device 5 does not have a supporting function at this moment.
- the structure of the cargo handling robot in Embodiment 2 is basically the same as that of Embodiment 1.
- the main difference between the two is that the specific structure of the auxiliary support device 5' is different.
- the following will be combined with the drawings of the description 19 and accompanying drawing 20, to describe in detail the specific structure of the auxiliary supporting device 5' in the second embodiment, and the same parts as those in the first embodiment will not be repeated here.
- the reference numerals of other functional components are the same as the reference numerals in Fig. 16 to Fig. 18 of the first embodiment.
- FIG. 19 is a schematic diagram of the three-dimensional structure of the second specific embodiment of the cargo handling robot provided by the present disclosure in use; the figure is a front view of the structure shown in the figure; the figure is a schematic perspective view of the three-dimensional structure of the auxiliary support device 5' in the figure .
- the auxiliary support device 5' includes a fixed base 50', and a supporting element 51' telescopically connected to the fixed base 50' through a telescopic mechanism, wherein the telescopic mechanism is controlled by Controlled by the driving assembly 57' and configured to drive the supporting element 51' to move relative to the fixed base 50' to abut against or separate from the material shelf on the corresponding side.
- the fixed base 50' includes a base plate 500' and a rear vertical plate 501' fixedly connected to the lower surface of the base plate 500', a left side plate 502' and a right side plate 503', and the rear vertical plate 501' and the left side plate Guide grooves 504' are formed between 502'.
- the support element 51' is specifically a quadrangular prism rod. The support element 51' is driven by the telescopic mechanism under the action of the drive assembly 57' to protrude from the guide groove 504' or retract into the guide groove 504', and then realize the support element 51' It moves relative to the fixed base 50' to the purpose of abutting against or separating from the material shelf on the corresponding side.
- the base plate 500' of the fixed base 50' is fixed on the lower surface of the lifting assembly 25, so that the support element 51' is located within the width range of the cargo handling robot in a retracted state.
- the fixed base plate 500' can also be fixedly connected to the lower area, middle area or upper area of the door frame 24 along its extending direction, as long as the auxiliary supporting device 5' is in the retracted state and located at the cargo handling area.
- the width range of the robot it only needs to be able to stretch out from the width direction of the cargo handling robot when it is extended.
- the width of the cargo handling robot refers to the dimension on the vertical distance between two racks where it is located.
- the auxiliary support device 5' is connected to the lifting assembly 25, which can move along with the lifting assembly 25 along the extension direction of the middle door frame 24, so that it can be offset against the corresponding side material frame at any position of the door frame 24.
- the auxiliary supporting device 5' has flexible auxiliary functions and can meet the supporting requirements of different positions.
- the figure together is a three-dimensional structural schematic diagram of the assembly of the auxiliary supporting device 5' and the lifting assembly 25 in the figure.
- the telescopic mechanism includes a screw 52' nut transmission mechanism controlled by a drive assembly 57', and the screw 52' nut mechanism transmission mechanism is configured to drive the support element 51' to move relative to the fixed base 50' under the action of the drive assembly 57' To resist or separate from the material shelf on the corresponding side.
- the screw 52' of the nut drive mechanism is rotatably connected to the left side plate 502' and the right side plate 503' of the fixed base 50' through bearings and other structures, and its nut part includes mutual
- the nut block 53' and the slider 54' are fixedly connected, the nut block 53' is located between the left side plate 502' and the right side plate 503' and is screwed with the screw rod 52', and a slide groove is opened on the slider 54',
- a sliding rail 55' extending axially along the screw rod 52' is fixedly connected to the base plate 500', the sliding block 54' is slidably connected to the sliding rail 55' through a sliding groove, and the sliding block 54' is fixedly connected to the supporting element 51'.
- the support element 51' is guided and fit together with the base plate 500' through the guide rail 19 assembly, and the nut block 53' threaded with the threaded rod 52' is directly connected with the support element 51'.
- the driving assembly 57' includes a motor, and the casing of the motor is fixedly connected to the right side plate 503', and its armature shaft is used to drive the screw rod 52' to rotate. Controlling the turning of the armature shaft of the motor can realize the relative rotation of the nut block 53'. Sliding on the left or right direction of the screw rod 52', the slider 54' drives the support element 51' to extend or retract from the guide groove 504' of the fixed base 50' to the fixed base 50' in the guide groove 504'.
- an abutment plate 56' is hinged at the end of the support element 51', specifically, the support element 51' is opened One end of the abutment plate 56' is inserted into the installation groove and hinged to the support element 51' through the hinge shaft. in the slot.
- the abutment plate 56' has a first position and a second position: in the first position, the abutment plate 56' is received and pre-pressed in the guide groove 504' of the fixed base 50', and the abutment plate 56' and The extension direction of the support element 51' is consistent; in the second position, the abutment plate 56' is separated from the guide groove 504' of the fixed base 50', and the abutment plate 56' rotates to align with the support element 51 under the elastic restoring force. 'at a predetermined angle.
- the abutment plate 56' can be elastically connected to the supporting element 51' through a torsion spring, and when in the second position, the abutment plate 56' is made to It is arranged at an angle of ° with the supporting element 51'.
- an inclined pressing plate 505' is provided at the opening end of the guide groove 504' on the fixed base 50', and the inclined pressing plate 505' is configured so that when the supporting element 51' retracts to the fixed base When the seat 50' is in the guide groove 504', it is used to contact the abutment plate 56' to push the abutment plate 56'.
- the inclined pressing plate 505' extends outward relative to the opening end of the guide groove 504'.
- the robot further includes a telescopic fork device 1-4
- the lifting assembly 25 is connected with the telescopic fork device 1-4 to drive the telescopic fork device 1-4 relative to the door frame 24.
- the box-taking device 1 is arranged on the telescopic fork device 1-4
- the telescopic fork device 1-4 includes a mobile pallet 1-45 connected with the lifting assembly 25 and a multi-stage counter set along both sides of the mobile pallet 1-45.
- Telescopic mechanism 1-41 wherein each multi-stage telescopic mechanism 1-41 is provided with a rear finger 1-43A for limiting the container 3;
- the telescopic fork device 1-4 also includes an in-position detection device 1-44 and a control device, the in-position detection device 1-44 is used to detect the position of the rear finger 1-43A, and the control device is used to detect the When the position of the rear finger 1-43A exceeds the set position, the mobile chassis 23 and the lifting assembly 25 are controlled to be locked.
- control device is also used to control the mobile chassis 23 and the lifting assembly 25 to release the locked state when the finger 1-43A does not exceed the set position after detection by the in-position detection device 1-44.
- the robot also includes a telescopic fork device 1 - 4 that can move up and down along the height direction of the mast 24 , and a lifting assembly 25 that drives the telescopic fork device 1 - 4 to move up and down along the height direction of the mast 24 .
- a telescopic fork device 1 - 4 that can move up and down along the height direction of the mast 24
- a lifting assembly 25 that drives the telescopic fork device 1 - 4 to move up and down along the height direction of the mast 24 .
- the side of the door frame 24 facing away from the assembled temporary storage partition 26 is slidably provided with a lifting assembly 25 along its height direction, and the lifting assembly 25 can adopt any one of a rack and pinion mechanism, a screw mechanism or a synchronous belt mechanism way to complete the drive, so that the lifting assembly 25 is vertically lifted along the door frame 24.
- the telescopic fork device 1-4 for retrieving and returning the container 3 is arranged on the lifting assembly 25, and the telescopic fork device 1-4 is lifted to different heights with the lifting assembly 25, and the container of different heights 3 Perform the withdrawal and return operation.
- the telescopic fork device 1-4 When the telescopic fork device 1-4 is connected with the lifting assembly 25, the telescopic fork device 1-4 is connected with the lifting assembly 25 through a rotating assembly, and the rotating assembly is used to drive the telescopic fork device 1-4 to rotate horizontally.
- the telescopic fork device 1-4 includes a mobile pallet 1-45 connected to the lifting assembly 25, the mobile pallet 1-45 is connected to the lifting assembly 25 through a rotating assembly, and the mobile pallet 1-45 can rotate around the rotating assembly Center turns. The mobile pallet 1-45 moves in place with the shelf 4 and each layer of temporary storage partitions 26. Driven by the rotating assembly, the telescopic fork device 1-4 can realize the loading and unloading of the container 3 on the shelf 4 on both sides of the roadway. Thereby realize two-way fetching and returning cargo box 3.
- the telescopic fork device 1-4 also includes a multi-stage telescopic mechanism 1-41 oppositely arranged along both sides of the mobile pallet 1-45; the multi-stage telescopic mechanism 1-41 is provided with two , the multi-stage telescopic mechanism 1-41 is at least three-stage telescopic.
- the multi-stage telescopic mechanism 1-41 can also be a three-stage telescopic mechanism, a four-stage telescopic mechanism, a five-stage telescopic mechanism, etc., which will not be limited here.
- the multi-stage telescopic mechanism 1-41 When the multi-stage telescopic mechanism 1-41 is a three-stage telescopic mechanism, it includes: a first arm fixedly arranged on the moving tray 1-45, an intermediate arm slidably connected to the first arm, and a terminal arm slidably connected to the intermediate arm.
- the three arms can slide along the direction of picking up the goods, so as to realize the expansion and contraction of the multi-stage telescopic mechanism 1-41 along the way of picking up the goods.
- a front finger 1-42 When raising the operation of picking up and returning the cargo box 3, a front finger 1-42 is rotated and connected to the front end of the oppositely arranged terminal arm along the direction of picking up goods, and a rear finger is fixedly arranged at the rear end of the relatively set up terminal arm along the direction of picking up goods. 1-43A. Both the front dial finger 1-42 and the rear dial finger 1-43A move along with the terminal arm along the picking direction. It can be seen from the above description that whether the multi-stage telescopic mechanism 1-41 is a three-stage telescopic mechanism or a four-stage telescopic mechanism, the assembly positions of the front dial finger 1-42 and the rear dial finger 1-43A remain unchanged, and they are all assembled on the stub arm.
- the front finger 1-42 is connected to the terminal arm through the rotation of the steering gear, and the front finger 1-42 has two positions: a working position and an avoidance position.
- the steering gear drives the front finger 1-42 to rotate to a horizontal position.
- the two front fingers 1-42 are placed opposite to each other, so that when the multi-stage telescopic mechanism 1-41 shrinks, the container 3 to be transported can be pulled.
- the rear finger 1-43A is fixedly mounted on the end of the distal arm away from the front finger 1-42, and the rear finger 1-43A is used to push the container 3 on the mobile pallet 1-45 to the shelf 4 or the temporary storage partition 26 on for storage. As shown in the figure, two rear finger 1-43A can be arranged oppositely.
- the container 3 on the mobile pallet 1-45 is controlled by the rear finger 1 on both sides.
- -43A realizes blocking and pushing, thereby pushing the cargo box 3 on the mobile pallet 1-45 to the shelf 4 or the temporary storage partition 26 of the robot itself.
- the rear dial finger 1-43A can also be integrally connected between the end arms on both sides, and also block and push the container 3 on the mobile pallet 1-45 during the extension process of the multi-stage telescopic mechanism 1-41.
- the telescopic fork device 1-4 may have the situation that the fork cannot be retracted in place under abnormal conditions. At this time, if the robot continues to do follow-up actions, it will cause danger to the robot, the shelf 4, the container 3, and even the staff. For this reason, the application utilizes the rear dial finger 1-43A of fixed arrangement as positioning sign, detects the in-place information of multistage telescoping mechanism 1-41.
- the telescopic fork device 1-4 further includes: an in-position detection device 1-44 for detecting the position of the rear finger 1-43A.
- the position detecting device 1-44 is fixedly assembled on the moving tray 1-45, and is used for detecting the position information of the rear dial finger 1-43A.
- the in-position detection device 1-44 is any one of a diffuse reflection sensor, a laser sensor, a micro switch or a shape travel switch arranged on the moving tray 1-45 and corresponding to the rear finger 1-43A.
- a diffuse reflection sensor a laser sensor
- a micro switch or a shape travel switch arranged on the moving tray 1-45 and corresponding to the rear finger 1-43A.
- there are two rear dial fingers 1-43A arranged oppositely there are two in-position detection devices 1-44, which correspond to the two rear dial fingers 1-43A respectively, thereby enhancing the detection accuracy.
- the rear finger 1-43A is integrally connected between the end arms on both sides, the number of in-position detection devices 1-44 can be one or two.
- control device which adopts one of a PLC controller and a single-chip controller industrial computer. And after the control device receives the position information of the rear finger 1-43A fed back by the position detection device 1-44, it controls the corresponding work of the multi-stage telescopic mechanism 1-41, the mobile chassis 23, the lifting assembly 25 and the rotating assembly, all of which are existing control The technical means commonly used in the method will not be repeated here.
- the control device controls the mobile chassis 23, the lifting assembly 25 and the rotating assembly to lock.
- the control device is also used to control the mobile chassis 23, the lifting assembly 25 and the rotating assembly to release the locked state when the finger 1-43A does not exceed the set position after detection by the in-position detection device 1-44.
- the setting position is a reasonable interval, so that the rear finger 1-43A can run to this range under the slight mechanical movement error and control error, and at the same time ensure that the rear finger 1-43A runs to After this interval, the whole machine will not scratch other parts, shelves 4, cargo boxes 3, etc. when it lifts, rotates, and walks.
- the mobile chassis 23 moves to the shelf 4 where the container 3 is to be picked up, and the lifting assembly 25 drives the telescopic fork device 1-4 to rise To the 4th floor of the shelf with the same height as the container 3 to be picked up, the front finger 1-42 is in the avoidance position at this moment.
- the multi-stage telescopic mechanism 1-41 extends from the terminal arm along the middle arm on both sides of the container 3 to be picked up.
- the in-position detection device 1-44 detects that the position of the rear finger 1-43A exceeds The position is set, and the control device controls the mobile chassis 23, the lifting assembly 25 and the rotating assembly to be in a locked state.
- the middle arm extends along the first arm until the front finger 1-42 is located at the back of the container 3 .
- the steering gear rotates so that the front finger 1-42 is located at the working position, and then during the retraction process of the multi-stage telescopic mechanism 1-41, the front finger 1-42 pulls the container 3 from the shelf 4 to the mobile pallet 1-45.
- the in-position detection device 1-44 detects that the dial finger 1-43A returns to the set position, and controls the mobile chassis 23, the lifting assembly 25 and the rotation The component is released from the deadlock state.
- the control device controls the lifting assembly 25 to drive the telescopic fork device 1-4 to lift to the same height position as the temporary storage partition 26 layers of suitable vacancy, and controls the rotating assembly to drive the mobile pallet 1-45 degrees of rotation.
- the steering gear drives the front finger 1-42 to be in the avoidance position, and the multi-stage telescopic mechanism 1-41 pushes the container 3 on the mobile pallet 1-45 to the temporary storage partition 26 by the rear finger 1-43A during the extension process deposit.
- the position detection device 1-44 detects that the position of the rear finger 1-43A exceeds the set position.
- the control device controls the mobile chassis 23, the lifting assembly 25 and the rotating assembly to be in the lock position dead state.
- the above-mentioned method is also adopted for operation, and details will not be repeated here.
- the rear dial finger 1-43A is used as a fixed-point mechanism while the cargo box 3 is limited.
- the robot can perform subsequent operations and improve the robot. operational safety.
- first and second are used for descriptive purposes only, and cannot be interpreted as indicating or implying relative importance or implicitly specifying the quantity of indicated technical features. Thus, features defined as “first” and “second” may explicitly or implicitly include at least one of these features. In the description of the present application, “plurality” means at least two, such as two, three, etc., unless otherwise specifically defined.
- a first feature being "on” or “under” a second feature may mean that the first and second features are in direct contact, or that the first and second features are indirect through an intermediary. touch.
- “above”, “above” and “above” the first feature on the second feature may mean that the first feature is directly above or obliquely above the second feature, or simply means that the first feature is higher in level than the second feature.
- “Below”, “beneath” and “beneath” the first feature may mean that the first feature is directly below or obliquely below the second feature, or simply means that the first feature is less horizontally than the second feature.
- the terms “one embodiment,” “some embodiments,” “example,” “specific examples,” or “some examples” mean specific features, structures, materials, or features described in connection with the embodiment or examples. Features are included in at least one embodiment or example of the present application. In this specification, the schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the described specific features, structures, materials or characteristics may be combined in any suitable manner in any one or more embodiments or examples. In addition, those skilled in the art can combine and combine different embodiments or examples and features of different embodiments or examples described in this specification without conflicting with each other.
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Abstract
A box retrieval device (1) and a robot. The box retrieval device (1) comprises a mounting base (11), a box retrieval member (12), and a first elastic member (13). The mounting base (11) can move in the front-rear direction; the box retrieval member (12) is disposed on the mounting base (11), and the box retrieval member (12) and the mounting base (11) can relatively move in the front-rear direction; a first end of the box retrieval member (12) is used to match a cargo box (3); the first elastic member (13) is disposed at a second end of the box retrieval member (12); when the mounting base (11) moves backwards with respect to the box retrieval member (12), the first elastic member (13) can be compressed and has an elastic force; and after the first end of the box retrieval member (12) is disengaged from the cargo box (3), the first elastic member (13) can push, under the action of the elastic force, the box retrieval member (12) to move backwards relative to the mounting base (11). The box retrieval device (1) can be quickly retracted when being out of contact with the cargo box (3), and thus the box retrieval efficiency is improved.
Description
相关申请的交叉引用Cross References to Related Applications
本申请要求申请号为202121566645.3且申请日为2021年07月09日的中国专利申请、申请号为202111015903.3且申请日为2021年08月31日的中国专利申请、申请号为202122079689.X且申请日为2021年08月31日的中国专利申请、申请号为202122181459.4且申请日为2021年09月09日的中国专利申请、申请号为202111058253.0且申请日为2021年09月09日的中国专利申请以及申请号为2022209500417且申请日为2022年04月21日的中国专利申请的优先权和权益,上述中国专利申请的全部内容在此通过引用并入本申请。This application requires a Chinese patent application with the application number 202121566645.3 and the application date is July 09, 2021, a Chinese patent application with the application number 202111015903.3 and the application date is August 31, 2021, the application number is 202122079689.X and the application date It is a Chinese patent application dated August 31, 2021, a Chinese patent application with application number 202122181459.4 and a filing date on September 9, 2021, a Chinese patent application with application number 202111058253.0 and a filing date on September 9, 2021, and The priority and rights of the Chinese patent application with the application number 2022209500417 and the filing date of April 21, 2022, the entire content of the above Chinese patent application is hereby incorporated by reference into this application.
本申请涉及仓储技术领域,具体地,涉及一种取箱装置和机器人。The present application relates to the technical field of warehousing, and in particular, to a box picking device and a robot.
自动化仓储系统因可充分利用存储空间以及可提高仓库的管理水平和管理效率等优势已经被广泛应用在各种民用及工业的仓储领域。The automated warehousing system has been widely used in various civil and industrial warehousing fields due to its advantages of making full use of storage space and improving the management level and efficiency of the warehouse.
相关技术中,取箱机构采用多种机械、电磁等取货方式将货箱从货架上放置在取货平台上或者从取货平台上放置在货架上。然而,相关技术中的取箱机构需与货箱脱离接触并进行回撤时,存在回撤速度慢,容易被损坏,以及影响取货效率的问题。In the related art, the box picking mechanism adopts various mechanical and electromagnetic picking methods to place the box from the shelf on the picking platform or place the box on the shelf from the picking platform. However, when the box picking mechanism in the related art needs to be out of contact with the container and retract, there are problems such as slow retraction, easy damage, and affecting the efficiency of picking.
发明内容Contents of the invention
为此,本申请的实施例提出一种取箱装置和机器人,该取箱装置能够实现快速回撤,进而提高取箱装置的取箱效率。For this reason, the embodiment of the present application proposes a box unloading device and a robot, and the box unloading device can realize fast retraction, thereby improving the box picking efficiency of the box unloading device.
本申请实施例的取箱装置包括:安装座,所述安装座可沿前后方向移动;取箱件,所述取箱件设在所述安装座上且与所述安装座在前后方向上可相对移动,所述取箱件的第一端用于与所述货箱配合;第一弹性件,所述第一弹性件设在所述取箱件的第二端,所述第一弹性件在所述安装座相对于所述取箱件向后移动时可被压缩且具有弹性力,并在所述取箱件的第一端与所述货箱脱离配合后可在所述弹性力的作用下推动所述取箱件相对于所述安装座向后移动。The box taking device of the embodiment of the present application includes: a mounting seat, the mounting seat can move along the front and rear directions; Relatively moving, the first end of the box-taking part is used to cooperate with the cargo box; the first elastic part is arranged on the second end of the box-taking part, and the first elastic part When the installation seat moves backward relative to the box-taking part, it can be compressed and has an elastic force, and after the first end of the box-taking part is disengaged from the cargo box, it can be compressed under the elastic force. Under the action, the box-taking part is pushed to move backward relative to the mounting seat.
本申请实施例的取箱装置取箱时,安装座首先带动取箱件向前移动以使取箱件的第一端与货箱配合连接,然后带动取箱件向后移动并压缩第一弹性件,使得第一弹性件具有弹性力,当货箱被放置在取货平台上时,将取箱件的第一端与货箱脱离,取箱件在第一弹性件的弹性力作用下相对于安装座会向后移动,从而使取箱件实现快速回撤,与货箱避让,不影响货箱的取放时间,提高取货效率。When the box picking device of the embodiment of the present application picks up a box, the mounting seat first drives the box picking piece to move forward so that the first end of the box picking piece is connected with the cargo box, and then drives the box picking piece to move backward and compress the first elastic part, so that the first elastic part has an elastic force, when the container is placed on the platform for picking up the goods, the first end of the box-taking part is separated from the container, and the box-taking part is relatively opposite under the elastic force of the first elastic part Because the mounting base will move backwards, so that the pick-up parts can quickly retract and avoid the container, without affecting the pick-and-place time of the container, and improve the efficiency of picking.
在一些实施例中,所述安装座具有腔室,所述第一弹性件位于所述腔室内,所述取箱件包括吸盘杆和吸盘,所述吸盘杆穿设在所述安装座上且与所述安装座在前后方向上可相对移动,所述吸盘杆的第二端伸入所述腔室内且与所述第一弹性件相连,所述吸盘杆的第一端与所述吸盘相连,所述吸盘可与所述货箱配合。In some embodiments, the mounting seat has a chamber, the first elastic member is located in the chamber, the box removal member includes a suction cup rod and a suction cup, the suction cup rod is passed through the mounting seat and The mounting base can move relative to the front and rear directions, the second end of the suction cup rod extends into the cavity and is connected with the first elastic member, and the first end of the suction cup rod is connected with the suction cup , the suction cup can cooperate with the cargo box.
在一些实施例中,所述吸盘杆内具有与所述吸盘连通的通道,所述取箱装置还包括导气接头,所述导气接头设在所述吸盘杆的第二端且具有开口,所述开口与所述通道连通。In some embodiments, there is a passage in the suction cup rod communicating with the suction cup, and the box removal device further includes an air guide joint, the air guide joint is arranged at the second end of the suction cup rod and has an opening, The opening communicates with the channel.
在一些实施例中,所述取箱件为多个,多个所述取箱件中的至少部分沿第一方向间隔布置,所述第一方向正交于所述前后方向和上下方向,所述第一弹性件为多个,多个所述第一弹性件与多个所述取箱件一一对应。In some embodiments, there are a plurality of box-removing parts, and at least some of the plurality of box-removing parts are arranged at intervals along a first direction, and the first direction is orthogonal to the front-rear direction and the up-down direction, so There are multiple first elastic pieces, and the multiple first elastic pieces are in one-to-one correspondence with the multiple box-taking pieces.
在一些实施例中,还包括第二弹性件,所述第二弹性件设在所述取箱件的第一端且在所述安装座相对于所述取箱件向前移动时所述第二弹性件具有向后推动所述安装座的弹性力。In some embodiments, it also includes a second elastic member, the second elastic member is arranged at the first end of the box-taking part and when the mounting seat moves forward relative to the box-taking part, the first The second elastic member has an elastic force to push the mounting seat backward.
在一些实施例中,所述取箱装置还包括:安装架,所述安装架具有至少一侧开口的容纳空间,所述安装座设在所述安装架上且相对于所述安装架沿前后方向可移动;传输机构,所述传输机构设置于所述容纳空间中,所述传输机构具有用于支撑并输送所述货箱的传输面,所述传输机构能够沿前后方向对进出所述容纳空间的所述货箱进行传输。In some embodiments, the box removal device further includes: a mounting frame, the mounting frame has an accommodating space with at least one side open, and the mounting seat is arranged on the mounting frame and is arranged along the front and rear sides relative to the mounting frame. The direction can be moved; the transmission mechanism is arranged in the accommodation space, the transmission mechanism has a transmission surface for supporting and transporting the container, and the transmission mechanism can move in and out of the storage space along the front and rear directions. space for the cargo boxes to be transported.
在一些实施例中,所述传输机构沿第一方向间隔设置有两个,所述第一方向正交于前后方向和上下方向,所述安装座设置在两个所述传输机构之间,所述传输机构包括沿所述第一方向间隔设置的两个转动件以及绕设在两个转动件上的传动带,所述传动带的上表面形成所述传输面。In some embodiments, two transmission mechanisms are arranged at intervals along the first direction, the first direction is orthogonal to the front-rear direction and the up-down direction, and the mounting seat is disposed between the two transmission mechanisms, so The transmission mechanism includes two rotating parts arranged at intervals along the first direction and a transmission belt wound on the two rotating parts, and the upper surface of the transmission belt forms the transmission surface.
在一些实施例中,所述取箱装置还包括:主驱动组件,所述主驱动组件用于带动所述安装座沿前后方向运动;导向组件,所述导向组件用于为所述安装座沿前后方向的运动进行导向。In some embodiments, the box removal device further includes: a main drive assembly, which is used to drive the mounting seat to move forward and backward; a guide assembly, which is used to guide the mounting seat along the Movement in the fore-and-aft direction is guided.
在一些实施例中,所述导向组件包括:导轨,沿前后方向铺设于所述安装架上;滑块,滑动设置于所述导轨上并与所述安装座连接,所述导轨的上表面低于所述传输面。In some embodiments, the guide assembly includes: a guide rail laid on the mounting frame along the front-to-rear direction; a slider slidably arranged on the guide rail and connected to the mounting seat, the upper surface of the guide rail is lower on the transmission surface.
本申请实施例的机器人包括:机器人本体;取箱装置,所述取箱装置为上述任一项所述的取箱装置,所述取箱装置的安装座设在所述机器人本体上,且所述取箱装置的安装座相对于所述机器人本体沿所述前后方向可移动。The robot in the embodiment of the present application includes: a robot body; a box-taking device, the box-taking device is the box-taking device described in any one of the above, the mounting seat of the box-taking device is arranged on the robot body, and the box-taking device The mounting base of the box picking device is movable along the front and rear directions relative to the robot body.
在一些实施例中,所述取箱装置的安装座相对于所述机器人本体还可在第一位置和第二位置之间移动,所述第一位置高于所述第二位置,所述安装座在所述第一位置和所述第二位置之间移动的轨迹为线段或曲线段。In some embodiments, the mounting seat of the box picking device can also move between a first position and a second position relative to the robot body, the first position is higher than the second position, and the mounting The trajectory of the seat moving between the first position and the second position is a line segment or a curve segment.
在一些实施例中,所述机器人还包括第一驱动组件,所述第一驱动组件用于驱动所述安装座相对于所述机器人本体沿上下方向移动且包括:支架,所述支架设在所述机器人本体上且相对于所述机器人本体在所述前后和所述上下方向上可移动;第一齿条,所述第一齿条设在所述支架上且沿上下方向延伸,所述第一齿条的顶端与所述安装座相连;第一齿轮,所述第一齿轮可转动地设在所述机器人本体上,且所述第一齿轮与所述第一齿条啮合以驱动所述第一齿条沿上下方向移动。In some embodiments, the robot further includes a first driving assembly, the first driving assembly is used to drive the mounting seat to move in the up and down direction relative to the robot body and includes: a bracket, the bracket is arranged on the on the robot body and relative to the robot body in the front and back and the up and down directions; the first rack, the first rack is arranged on the bracket and extends along the up and down direction, the first rack The top of a rack is connected with the mounting seat; the first gear is rotatably arranged on the robot body, and the first gear is meshed with the first rack to drive the The first rack moves in the up and down direction.
在一些实施例中,所述机器人还包括第二驱动组件,所述第二驱动组件用于驱动所述滑座相对于所述机器人本体沿前后方向移动且包括:第二齿条,所述第二齿条设在所述机器人本体上且沿前后方向延伸;第二齿轮,所述第二齿轮与所述第二齿条啮合,所述第二齿轮可转动以在所述第二齿条上沿前后方向移动,所述第二齿轮与所述滑座相连。In some embodiments, the robot further includes a second driving assembly, the second driving assembly is used to drive the sliding seat to move in the forward and backward direction relative to the robot body and includes: a second rack, the first Two racks are arranged on the robot body and extend along the front-to-back direction; the second gear, the second gear meshes with the second rack, and the second gear can rotate to rotate on the second rack Moving in the forward and backward direction, the second gear is connected with the sliding seat.
在一些实施例中,所述机器人本体包括:底盘;门架,所述门架设置于所述底盘上,所述取箱装置设在所述门架上;升降组件,所述升降组件被配置为沿着所述门架上下移动,所述升降组件与所述取箱装置相连以驱动所述取箱装置相对于所述门架可上下移动。In some embodiments, the robot body includes: a chassis; a door frame, the door frame is arranged on the chassis, and the box picking device is arranged on the door frame; a lifting assembly, the lifting assembly is configured In order to move up and down along the door frame, the lifting assembly is connected with the box unloading device to drive the box unloading device to move up and down relative to the door frame.
在一些实施例中,所述机器人本体还包括暂存隔板,所述暂存隔板沿所述门架的高度方向间隔设置有多个,且所述暂存隔板上能够暂存所述货箱,所述取箱装置能够实现所述货箱在所述暂存隔板和货箱之间的转移。In some embodiments, the robot body further includes a temporary storage partition, a plurality of temporary storage partitions are arranged at intervals along the height direction of the door frame, and the temporary storage partition can temporarily store the For a container, the container removal device can realize the transfer of the container between the temporary storage partition and the container.
在一些实施例中,所述机器人还包括:至少两个辅助支撑装置,至少两个所述辅助支撑装置受控于各自的驱动组件,并分别分布在所述机器人相对的两侧,至少两个所述辅助支撑装置被构造为相对于所述机器人伸出至与所述机器人两侧的料架相抵或分离。In some embodiments, the robot further includes: at least two auxiliary support devices, at least two auxiliary support devices are controlled by their respective drive assemblies, and are respectively distributed on opposite sides of the robot, at least two The auxiliary support device is configured to protrude relative to the robot to abut against or separate from the material racks on both sides of the robot.
在一些实施例中,所述辅助支撑装置包括固定基座,以及通过伸缩机构以可伸缩的方式连接在所述固定基座上的支撑元件;所述伸缩机构受控于所述驱动组件且被构造为驱动所述支撑元件相对于所述固定基座移动至于对应侧的所述料架相抵或分离。In some embodiments, the auxiliary support device includes a fixed base, and a support element telescopically connected to the fixed base through a telescopic mechanism; the telescopic mechanism is controlled by the drive assembly and is It is configured to drive the supporting element to move relative to the fixed base so that the racks on the corresponding sides are abutted against or separated from each other.
在一些实施例中,所述机器人还包括伸缩叉装置,所述升降组件与所述伸缩叉装置相连以驱动所述伸缩叉装置相对于所述门架可上下移动,所述取箱装置设在伸缩叉装置上,所述伸缩叉装置包括与所述升降组件连接的移动托盘;沿所述移动托盘的两侧相对设置的多级伸缩机构,其中,每个所述多级伸缩机构设置有用于限位货箱的后拨指;In some embodiments, the robot also includes a telescopic fork device, the lifting assembly is connected to the telescopic fork device to drive the telescopic fork device to move up and down relative to the door frame, and the box picking device is located at On the telescopic fork device, the telescopic fork device includes a mobile pallet connected to the lifting assembly; multi-stage telescopic mechanisms arranged oppositely along the two sides of the mobile pallet, wherein each of the multi-stage telescopic mechanisms is provided with a The rear finger of the limited cargo box;
所述伸缩叉装置还包括:用于检测所述后拨指位置的到位检测装置,控制装置,所述 控制装置用于在所述到位检测装置检测到所述后拨指的位置超出设定位置时,控制所述移动底盘及所述升降组件锁死。The telescopic fork device also includes: an in-position detection device for detecting the position of the rear dial finger, a control device, and the control device is used to detect that the position of the rear dial finger exceeds the set position when the in-position detection device detects , control the mobile chassis and the lifting assembly to lock.
在一些实施例中,所述控制装置还用于在所述到位检测装置检测所述后拨指未超出所述设定位置时,控制所述移动底盘及所述升降组件解除锁死状态。In some embodiments, the control device is further configured to control the mobile chassis and the lifting assembly to release the locked state when the in-position detection device detects that the rear finger does not exceed the set position.
图1是根据本申请实施例的取箱装置和机器人示意图。Fig. 1 is a schematic diagram of a box picking device and a robot according to an embodiment of the present application.
图2是图1中A部分的放大示意图。FIG. 2 is an enlarged schematic view of part A in FIG. 1 .
图3是根据本申请实施例的取箱装置和机器人原始状态的示意图。Fig. 3 is a schematic diagram of an original state of a box picking device and a robot according to an embodiment of the present application.
图4是根据本申请实施例的取箱装置和机器人取货状态的示意图。Fig. 4 is a schematic diagram of a box picking device and a robot picking state according to an embodiment of the present application.
图5是根据本申请实施例的取箱装置和机器人拉回状态的示意图。Fig. 5 is a schematic diagram of a box picking device and a robot pulling back state according to an embodiment of the present application.
图6是根据本申请实施例的取箱装置和机器人中取件箱撤回状态的示意图。Fig. 6 is a schematic diagram of a withdrawing state of a picking box in a box picking device and a robot according to an embodiment of the present application.
图7是根据本申请实施例的取箱装置和机器人原始状态时的俯视图。Fig. 7 is a top view of the original state of the box picking device and the robot according to the embodiment of the present application.
图8是图7中A-A的剖面示意图。FIG. 8 is a schematic cross-sectional view of A-A in FIG. 7 .
图9是图7中B-B的剖面示意图。Fig. 9 is a schematic cross-sectional view of B-B in Fig. 7 .
图10是图8中B部分的放大示意图。FIG. 10 is an enlarged schematic view of part B in FIG. 8 .
图11是图9中C部分的放大示意图。FIG. 11 is an enlarged schematic view of part C in FIG. 9 .
图12是本申请实施例一提供的搬运机器人在对接货箱时的结构示意图。FIG. 12 is a schematic structural view of the handling robot provided in Embodiment 1 of the present application when docking a cargo box.
图13是本申请实施例一提供的搬运机器人将货箱拖入容纳空间时的结构示意图。FIG. 13 is a schematic structural view of the handling robot provided in Embodiment 1 of the present application when it drags a cargo box into the accommodation space.
图14是本申请实施例一提供的取箱装置在拾取组件回缩时的结构示意图。FIG. 14 is a schematic structural view of the box picking device provided in Embodiment 1 of the present application when the picking component is retracted.
图15是本申请实施例一提供的取箱装置在拾取组件伸出时的结构示意图。Fig. 15 is a schematic structural view of the case picking device provided in Embodiment 1 of the present application when the picking component is stretched out.
图16是根据本申请实施例的取箱装置和机器人中固定基座的示意图。Fig. 16 is a schematic diagram of a box picking device and a fixed base in a robot according to an embodiment of the present application.
图17是根据本申请实施例的取箱装置和机器人中根据本申请实施例的取箱装置和机器人中辅助支撑装置的立体结构示意图。Fig. 17 is a three-dimensional structural schematic view of the box unloading device and the robot according to the embodiment of the present application and the auxiliary support device in the robot according to the embodiment of the present application.
图18是根据本申请实施例的取箱装置和机器人中图17所示辅助支撑装置的主视结构示意图。Fig. 18 is a schematic front view of the auxiliary supporting device shown in Fig. 17 in the box picking device and the robot according to an embodiment of the present application.
图19是根据本申请实施例的取箱装置和机器人中辅助支撑装置的立体结构示意图。Fig. 19 is a schematic perspective view of a box picking device and an auxiliary supporting device in a robot according to an embodiment of the present application.
图20是根据本申请实施例的取箱装置和机器人中辅助支撑装置和升降组件两者装配体的立体结构示意图。Fig. 20 is a schematic perspective view of the three-dimensional structure of the box unloading device and the assembly of the auxiliary support device and the lifting assembly in the robot according to the embodiment of the present application.
图21是根据本申请实施例的取箱装置和机器人中伸缩叉装置的第一种结构示意图。Fig. 21 is a schematic diagram of the first structure of the box unloading device and the telescopic fork device in the robot according to the embodiment of the present application.
图22是根据本申请实施例的取箱装置和机器人中伸缩叉装置的第二种结构示意图。Fig. 22 is a schematic diagram of the second structure of the box unloading device and the telescopic fork device in the robot according to the embodiment of the present application.
图23是根据本申请实施例的取箱装置和机器人中伸缩叉装置未到位的状态示意图。Fig. 23 is a schematic diagram of a state in which the telescopic fork device in the box unloading device and the robot is not in place according to an embodiment of the present application.
附图标记:1、取箱装置;11、安装座;111、腔室;12、取箱件;121、吸盘杆;122、第一吸盘;13、第一弹性件;14、导气接头;15、第二弹性件;16、安装架;161、容纳空间;162、安装底板;163、安装侧板;17、传输机构;171、传输面;172、主动转动件;173、从动转动件;174、传动带;18、主驱动组件;181、第二吸盘;182、固定架;19、导轨;10、外壳;101、外侧板;103、导向板部;102、横侧板;2、机器人本体;21、第一驱动组件;211、支架;212、第一齿条;213、第一齿轮;22、第二驱动组件;221、第二齿条;222、第二电机;223、安装板;23、底盘;24、门架;241、支撑柱;242、横梁;25、升降组件;26、暂存隔板;3、货箱;4、货架;6、连接块;7、升降架;5、辅助支撑装置;50、固定基座;51、支撑元件;52、第一连杆;53、第二连杆;54、第一下铰接轴;55、第一上铰接轴;56、第二下铰接轴;57、第二上铰接轴;58、驱动组件;5'、辅助支撑装置;50'、固定基座;500'、基板;501'、后立板;502'、左侧板;503'、右侧板;504'、导向槽;505'、倾斜压板;51'、支撑元件;52'、丝杆;53'、螺母块;54'、滑块;55'、滑轨;56'、抵接板;57'、驱动组件;1-4、伸缩叉装置;1-41、多级伸缩机构;1-42、前拨指;1-43A、后拨指;1-44、到位检测装置;1-45、移动托盘。Reference numerals: 1, box taking device; 11, mounting base; 111, chamber; 12, box taking piece; 121, suction cup rod; 122, first suction cup; 13, first elastic member; 14, air guide joint; 15. Second elastic member; 16. Mounting frame; 161. Accommodating space; 162. Installing bottom plate; 163. Installing side plate; 17. Transmission mechanism; 171. Transmission surface; 172. Active rotating part; ; 174, transmission belt; 18, main drive assembly; 181, second sucker; 182, fixed frame; 19, guide rail; 10, shell; Body; 21, first drive assembly; 211, bracket; 212, first rack; 213, first gear; 22, second drive assembly; 221, second rack; 222, second motor; 223, mounting plate 23. Chassis; 24. Door frame; 241. Support column; 242. Beam; 25. Lifting assembly; 26. Temporary storage partition; 5. Auxiliary support device; 50. Fixed base; 51. Support element; 52. First connecting rod; 53. Second connecting rod; 54. First lower hinge shaft; 55. First upper hinge shaft; 56. The first Second lower hinge shaft; 57, second upper hinge shaft; 58, drive assembly; 5', auxiliary support device; 50', fixed base; 500', base plate; 501', rear vertical plate; 502', left side plate ;503', right side plate; 504', guide groove; 505', inclined platen; 51', support element; 52', screw rod; 53', nut block; 56', abutment plate; 57', drive assembly; 1-4, telescopic fork device; 1-41, multi-stage telescopic mechanism; 1-42, front finger; 1-43A, rear finger; 1-44, In-position detection device; 1-45. Moving pallet.
下面详细描述本申请的实施例,所述实施例的示例在附图中示出。下面通过参考附图描述的实施例是示例性的,旨在用于解释本申请,而不能理解为对本申请的限制。Embodiments of the application are described in detail below, examples of which are illustrated in the accompanying drawings. The embodiments described below by referring to the figures are exemplary, and are intended to explain the present application, and should not be construed as limiting the present application.
如图1至图11所示,根据本申请实施例的取箱装置包括安装座11、取箱件12和第一弹性件13。安装座11可沿前后(例如图中所标示的方向)方向移动。取箱件12设在安装座11上且与安装座11在前后方向上可相对移动,取箱件12的第一端(如图中取箱件12的前端)用于与货箱3配合。第一弹性件13设在取箱件12的第二端(如图中取箱件12的后端),第一弹性件13在安装座11相对于取箱件12向后移动时可被压缩且具有弹性力,并在取箱件12的第一端与货箱3脱离配合后可在弹性力的作用下推动取箱件12相对于安装座11向后移动。As shown in FIG. 1 to FIG. 11 , the box removing device according to the embodiment of the present application includes a mounting base 11 , a box picking member 12 and a first elastic member 13 . The mounting base 11 can move in a forward-backward direction (such as the direction marked in the figure). The box-taking part 12 is arranged on the mounting seat 11 and can move relatively with the mounting seat 11 in the front-rear direction. The first elastic member 13 is arranged on the second end of the box-getting part 12 (the rear end of the box-getting part 12 as shown in the figure), and the first elastic member 13 can be compressed when the mounting seat 11 moves backward relative to the box-getting part 12 And it has elastic force, and after the first end of the box picking piece 12 is disengaged from the cargo box 3, it can push the box picking piece 12 to move backward relative to the mounting seat 11 under the action of the elastic force.
如图1至图6所示,本申请实施例的取箱装置取箱(将货箱3从货架4取放到取货平台上)时,安装座11首先带动取箱件12向前移动以使取箱件12的第一端与货箱3配合连接,然后带动取箱件12向后移动并压缩第一弹性件13,使得第一弹性件13具有弹性力。当货箱3被放置在取货平台上时,将取箱件12的第一端与货箱3脱离,取箱件12在第一弹性件13的弹性力作用下相对于安装座11会向后移动,从而使取箱件12实现快速回撤,与货箱3避让,不影响货箱3的取放时间,提高取货效率。As shown in Figures 1 to 6, when the box taking device of the embodiment of the present application takes the box (the container 3 is taken from the shelf 4 and placed on the goods picking platform), the mounting seat 11 first drives the box taking part 12 to move forward to The first end of the box-removing member 12 is mated with the container 3, and then the container-removing member 12 is driven to move backward and compress the first elastic member 13, so that the first elastic member 13 has elastic force. When the container 3 is placed on the platform for picking up goods, the first end of the box-taking part 12 will be separated from the container 3, and the box-taking part 12 will move toward the mounting seat 11 under the elastic force of the first elastic part 13. Move back, so that the take-up part 12 realizes fast retraction, avoids with the cargo box 3, does not affect the pick-and-place time of the cargo box 3, and improves the efficiency of picking up goods.
取箱装置1将货箱3从取货平台放置到货架4上时,安装座11可以带动取箱件12向前推动货箱3,以将货箱3放置在货架4上。When the box picking device 1 places the container 3 from the picking platform on the shelf 4, the mounting seat 11 can drive the box picking part 12 to push the container 3 forward, so that the container 3 is placed on the shelf 4.
在一些实施例中,安装座11具有腔室111,第一弹性件13位于腔室111内。取箱件12包括吸盘杆121和第一吸盘122,吸盘杆121穿设在安装座11上且与安装座11在前后方向上可相对移动,吸盘杆121的第二端伸入腔室111内且与第一弹性件13相连,吸盘杆121的第一端与第一吸盘122相连,第一吸盘122可与货箱3配合。In some embodiments, the mount 11 has a cavity 111 , and the first elastic member 13 is located in the cavity 111 . The box picking part 12 includes a suction cup rod 121 and a first suction cup 122. The suction cup rod 121 is passed through the mounting base 11 and can move relative to the mounting base 11 in the front-rear direction. The second end of the suction cup rod 121 extends into the chamber 111. And connected with the first elastic member 13 , the first end of the suction cup rod 121 is connected with the first suction cup 122 , and the first suction cup 122 can cooperate with the container 3 .
如图2和图5所示,安装座11带动取箱件12将货箱3拉动至取货平台的过程中,由于吸盘杆121与安装座11之间可相对移动,所以吸盘杆121相对于货箱3向前移动并压缩第一弹性件13,使得第一弹性件13产生弹性力,当货箱3被放置在取货平台上后,使吸盘杆121与货箱3脱离,取箱件12在第一弹性件13的弹性力作用下相对于安装座11会向后移动,使取箱件12快速回撤,与货箱3避让提高取货效率。As shown in Fig. 2 and Fig. 5, during the process in which the mounting base 11 drives the box picker 12 to pull the cargo box 3 to the picking platform, since the suction cup rod 121 and the mounting base 11 can move relatively, the suction cup rod 121 is relatively The cargo box 3 moves forward and compresses the first elastic member 13, so that the first elastic member 13 generates an elastic force. When the cargo box 3 is placed on the platform for picking up goods, the suction cup rod 121 is separated from the cargo box 3, and the box parts are taken out. 12 will move backward relative to the mounting seat 11 under the action of the elastic force of the first elastic member 13, so that the box-retrieving member 12 can be withdrawn quickly, avoiding the cargo box 3 and improving the efficiency of picking up goods.
如图2所示,取箱件12包括吸盘杆121和第一吸盘122,使得取箱件12的结构简单,节省制作成本。本申请实施例的取箱装置1通过第一吸盘122与货箱3配合使得吸盘杆121与货箱3相连,从而使得取箱件12与货箱3之间的连接方式简单。As shown in FIG. 2 , the box-removing component 12 includes a suction cup rod 121 and a first suction cup 122 , so that the structure of the box-removing component 12 is simple and the manufacturing cost is saved. The case-removing device 1 of the embodiment of the present application connects the suction cup rod 121 to the case 3 through the cooperation of the first suction cup 122 with the case 3 , so that the connection between the case-removing member 12 and the case 3 is simple.
具体地,第一弹性件13为弹簧,第一弹性件13绕设在吸盘杆121的第二端上。Specifically, the first elastic member 13 is a spring, and the first elastic member 13 is wound around the second end of the sucker rod 121 .
如图2和图4所示,第一弹性件13的一端设置在吸盘杆121的第二端上,另一端沿着吸盘杆121的长度方向缠绕设置在吸盘杆121上。当取箱装置1为原始状态时,第一弹性件13的另一端与安装座11腔室111的内壁面抵接,当取箱装置1为取货状态时,吸盘杆121相对于安装座11向后移动,第一弹性件13的另一端与安装座11腔室111的内壁面脱离。As shown in FIG. 2 and FIG. 4 , one end of the first elastic member 13 is disposed on the second end of the suction cup rod 121 , and the other end is wound on the suction cup rod 121 along the length direction of the suction cup rod 121 . When the box-taking device 1 is in the original state, the other end of the first elastic member 13 abuts against the inner wall surface of the chamber 111 of the mounting seat 11. Moving backward, the other end of the first elastic member 13 is separated from the inner wall surface of the cavity 111 of the mounting base 11 .
本实施例通过将第一弹性件13设置为弹簧,第一弹性件13的结构简单,制作容易,节省成本。In this embodiment, by setting the first elastic member 13 as a spring, the first elastic member 13 has a simple structure, is easy to manufacture, and saves cost.
可以理解的是,本申请中取箱件12的结构并不限于上述采用第一吸盘122的方式,例如取箱件12可以采用抱叉式或钩取式等结构以与货箱3配合。It can be understood that the structure of the box-removing member 12 in this application is not limited to the above-mentioned method of using the first suction cup 122 , for example, the container-removing member 12 can adopt a fork-holding or hooking-type structure to cooperate with the container 3 .
在一些实施例中,吸盘杆121内具有与第一吸盘122连通的通道(未示出),取箱装置1还包括导气接头14,导气接头14设在吸盘杆121的第二端且具有开口(未示出),开口与通道连通。In some embodiments, there is a channel (not shown) communicating with the first suction cup 122 in the suction cup rod 121, and the box removal device 1 also includes an air guide joint 14, and the air guide joint 14 is arranged on the second end of the suction cup rod 121 and There is an opening (not shown) which communicates with the channel.
如图4所示,取箱装置1使用时,第一吸盘122与货箱3的外表面接触,导气接头14处连接真空抽取机或其他可抽真空的装置(未示出),以将第一吸盘122与货箱3外表面之间的空气抽走,使得第一吸盘122吸附在货箱3的外表面上,由此,第一吸盘122与货箱 3连接时操作简单。As shown in Figure 4, when the box taking device 1 is in use, the first suction cup 122 is in contact with the outer surface of the cargo box 3, and the air guide joint 14 is connected with a vacuum extractor or other vacuumable devices (not shown), so that the The air between the first suction cup 122 and the outer surface of the cargo box 3 is sucked away, so that the first suction cup 122 is adsorbed on the outer surface of the cargo box 3 , thus, the operation when the first suction cup 122 is connected to the cargo box 3 is simple.
可以理解的是,抽真空的装置与第一吸盘122的连接方式并不限于上述方式,例如在另一些示例中,真空抽取机或其他可抽真空的装置直接与第一吸盘122密封连接且与第一吸盘122的空腔连通。It can be understood that the connection method between the vacuuming device and the first suction cup 122 is not limited to the above-mentioned method. The cavities of the first suction cup 122 communicate with each other.
在一些实施例中,取箱件12为多个,多个取箱件12中的至少部分沿第一方向间隔布置,第一方向正交于前后方向和上下方向,第一弹性件13为多个,多个第一弹性件13与多个取箱件12一一对应。In some embodiments, there are multiple box-taking parts 12, and at least some of the multiple box-taking parts 12 are arranged at intervals along the first direction. A plurality of first elastic members 13 correspond to a plurality of box-taking members 12 one-to-one.
如图1所示,多个取箱件12中的至少部分在左右方向上间隔布置,多个第一弹性件13也在左右方向上间隔布置,且多个第一弹性件13与多个取箱件12一一对应。当货箱3被放置在取货平台上后,破除第一吸盘122与货箱3之间的真空状态,使第一吸盘122与货箱3脱离,这时,每一个取箱件12都可在其对应的第一弹性件13的作用下实现快速回撤,不影响货箱3的取放时间。As shown in Figure 1, at least some of the plurality of box-taking parts 12 are arranged at intervals in the left-right direction, and the plurality of first elastic members 13 are also arranged at intervals in the left-right direction, and the plurality of first elastic members 13 and the plurality of take-out The boxes 12 correspond one to one. After the container 3 is placed on the platform for picking up goods, the vacuum state between the first suction cup 122 and the container 3 is broken, so that the first suction cup 122 is separated from the container 3. At this time, each box-taking part 12 can be Under the action of the corresponding first elastic member 13 , quick retraction is realized without affecting the pick-and-place time of the container 3 .
在一些实施例中,多个取箱件12包括在前后方向上相对且对称布置的第一组取箱件12和第二组取箱件12,第一组取箱件12和第二组取箱件12中的每一者包括至少两个沿第一方向间隔布置的取箱件12。In some embodiments, a plurality of box-taking parts 12 includes a first group of box-taking parts 12 and a second group of box-taking parts 12 that are opposite and symmetrically arranged in the front-rear direction, and the first group of box-taking parts 12 and the second group of box-taking parts 12 are Each of the box parts 12 includes at least two box picking parts 12 arranged at intervals along the first direction.
如图1和图2所示,安装座11包括前端和后端,前端和后端正对设置。多个取箱件12包括对称布置的第一组取箱件12和第二组取箱件12,比如,第一组取箱件12设置在安装座11的前端,第二组取箱件12设置在安装座11的后端(未示出),以使安装座11的前端和后端均可取箱,同时该取箱装置1还可将货箱3从取货平台上放置在货架4上,提高了安装座11的使用率。As shown in FIG. 1 and FIG. 2 , the mounting base 11 includes a front end and a rear end, and the front end and the rear end are arranged facing each other. A plurality of box-getting parts 12 includes a first group of symmetrically arranged box-getting parts 12 and a second group of box-getting parts 12. It is arranged on the rear end (not shown) of the mounting base 11, so that both the front end and the rear end of the mounting base 11 can take the box, and the box picking device 1 can also place the cargo box 3 on the shelf 4 from the picking platform , improving the usage rate of the mounting seat 11.
第一组取箱件12和第二组取箱件12中的每一者包括至少两个沿第一方向间隔布置的取箱件12,且每个取箱件12上均对应设置有一个第一弹性件13,使得取箱件12与货箱3之间的连接更牢固。Each of the first group of box-taking parts 12 and the second group of box-taking parts 12 includes at least two box-taking parts 12 arranged at intervals along the first direction, and each box-taking part 12 is correspondingly provided with a first An elastic piece 13 makes the connection between the box-taking piece 12 and the cargo box 3 stronger.
在一些实施例中,如图2所示,取箱装置1还包括第二弹性件15,第二弹性件15设在取箱件12的第一端且在安装座11相对于取箱件12向前移动时被压缩。In some embodiments, as shown in FIG. 2 , the box-taking device 1 also includes a second elastic member 15, the second elastic piece 15 is arranged at the first end of the box-taking component 12 and is positioned at the mounting base 11 relative to the box-taking component 12. Compressed when moving forward.
如图3至图6所示,第二弹性件15的前端与第一吸盘122相连,第二弹性件15沿着吸盘杆121的长度方向延伸。当取箱装置1处于原始状态时,如图3所示,第一弹性件13和第二弹性件15均为无弹性力状态。当取箱装置1处于取货状态时,如图4所示,安装座11带动吸盘杆121向前移动以使第一吸盘122与货箱3相连,安装座11相对于吸盘杆121向前运动,第二弹性件15被压缩且产生弹性力,从而在第一吸盘122与货箱3接触时减缓第一吸盘122对货箱3的冲击,起到缓冲作用,减小对货箱3和/或取箱装置1的损坏,延长取箱装置1的使用寿命。当取箱装置1处于拉回状态时,如图5所示,安装座11带动吸盘杆121向后移动,安装座11相对于吸盘杆121向后移动压缩第一弹性件13,使第一弹性件13产生弹性力,第二弹性件15则回位到无弹力状态。当货箱3被放置在取货平台上后,如图6所示,第一吸盘122与货箱3脱离,吸盘杆121在第一弹性件13的弹性力作用下相对于安装座11会向后移动,使吸盘杆121快速回撤,与货箱3避让提高取货效率。As shown in FIGS. 3 to 6 , the front end of the second elastic member 15 is connected to the first suction cup 122 , and the second elastic member 15 extends along the length direction of the suction cup rod 121 . When the box removing device 1 is in the original state, as shown in FIG. 3 , both the first elastic member 13 and the second elastic member 15 are in a state of no elastic force. When the box picking device 1 is in the state of picking up goods, as shown in Figure 4, the mounting base 11 drives the suction cup rod 121 to move forward so that the first suction cup 122 is connected with the cargo box 3, and the mounting base 11 moves forward relative to the suction cup rod 121 , the second elastic member 15 is compressed and generates an elastic force, thereby slowing down the impact of the first suction cup 122 on the cargo box 3 when the first suction cup 122 is in contact with the cargo box 3, and plays a buffering role, reducing the impact on the cargo box 3 and/or Or take out the damage of case device 1, extend the service life of case device 1. When the box-taking device 1 is in the pull-back state, as shown in Figure 5, the mounting seat 11 drives the suction cup rod 121 to move backward, and the mounting seat 11 moves backward relative to the suction cup rod 121 to compress the first elastic member 13, so that the first elastic The element 13 generates an elastic force, and the second elastic element 15 returns to the state of no elastic force. After the cargo box 3 is placed on the cargo picking platform, as shown in FIG. After moving, the sucker rod 121 is withdrawn quickly, avoiding with the cargo box 3 and improving the efficiency of picking up goods.
具体地,第二弹性件15为弹簧,第二弹性件15绕设在吸盘杆121的第一端上。Specifically, the second elastic member 15 is a spring, and the second elastic member 15 is wound around the first end of the sucker rod 121 .
第二弹性件15的一端设置在吸盘杆121的第一端上,另一端沿着吸盘杆121的长度方向缠绕设置在吸盘杆121上。本实施例通过将第二弹性件15设置为弹簧,第二弹性件15的结构简单,制作容易,节省成本。One end of the second elastic member 15 is disposed on the first end of the suction cup rod 121 , and the other end is wound on the suction cup rod 121 along the length direction of the suction cup rod 121 . In this embodiment, by setting the second elastic member 15 as a spring, the second elastic member 15 has a simple structure, is easy to manufacture, and saves cost.
如图12-图15所示,在一些实施例中,取箱装置1还包括安装架16和传输机构17,安装架16具有至少一侧开口的容纳空间161,安装座11设在安装架16上且相对于安装架16沿前后方向可移动,传输机构17设置于容纳空间161中,传输机构17具有用于支撑并输送货箱3的传输面171,传输机构17能够沿前后方向对进出容纳空间161的所述货箱3进行传输。As shown in FIGS. 12-15 , in some embodiments, the box-taking device 1 also includes a mounting frame 16 and a transmission mechanism 17 , the mounting frame 16 has an accommodating space 161 with at least one side opening, and the mounting seat 11 is located on the mounting frame 16 The transmission mechanism 17 is arranged in the accommodation space 161. The transmission mechanism 17 has a transmission surface 171 for supporting and transporting the cargo box 3. The transmission mechanism 17 can move in and out along the front and rear directions. The cargo boxes 3 in the space 161 are transported.
具体地,本实施例提供的取箱装置1,通过设置安装座11能够实现与货箱3的对接, 将货架4上的货箱3拖入容纳空间161,或将安装架16上的货箱3推出容纳空间161中并推入货架4上,从而实现货箱3在容纳空间161和货架4上的转移;通过设置传输机构17,能够对进出容纳空间161中的货箱3进行支撑和辅助传输,能够提高对货箱3的传输效率和传输稳定性,且能够减小取箱装置1所需受力,降低对取箱装置1的结构要求。Specifically, the box-taking device 1 provided in this embodiment can realize the docking with the container 3 by setting the mounting base 11, drag the container 3 on the shelf 4 into the accommodation space 161, or drag the container 3 on the mounting rack 16 3 Push out into the storage space 161 and push it onto the shelf 4, so as to realize the transfer of the cargo box 3 on the storage space 161 and the shelf 4; by setting the transmission mechanism 17, the cargo box 3 in and out of the storage space 161 can be supported and assisted The transmission can improve the transmission efficiency and transmission stability of the cargo box 3 , and can reduce the force required by the box unloading device 1 , and reduce the structural requirements for the box unloading device 1 .
安装架16优选包括水平设置的安装底板162和竖直设置的安装侧板163,安装侧板163的下端与安装底板162垂直连接,安装侧板163沿第二方向相对且间隔设置有两个,两个安装侧板163之间形成有上述的容纳空间161,传输机构17及安装座11均安装于安装底板162上,且安装侧板163上端高于传输面171。通过设置两个安装侧板163,有利于对进入容纳空间161的货箱3进行保护,避免货箱3因意外而从安装架16的侧部掉落,提高货箱3取放过程中的安全性和可靠性;同时,安装侧板163的设置,也能够为传输机构17和安装座11提供保护。The mounting frame 16 preferably includes a horizontally arranged installation base plate 162 and a vertically arranged installation side plate 163, the lower end of the installation side plate 163 is vertically connected with the installation base plate 162, and two installation side plates 163 are opposite and spaced along the second direction, The accommodating space 161 is formed between the two installation side plates 163 , the transmission mechanism 17 and the installation seat 11 are installed on the installation bottom plate 162 , and the upper end of the installation side plate 163 is higher than the transmission surface 171 . By arranging two installation side panels 163, it is beneficial to protect the cargo box 3 entering the accommodation space 161, avoiding the cargo box 3 from falling from the side of the installation frame 16 due to accidents, and improving the safety of the cargo box 3 in the process of picking and placing At the same time, the setting of the installation side plate 163 can also provide protection for the transmission mechanism 17 and the installation seat 11.
优选地,安装座11能够与货箱3的一侧面对接,且安装座11采用磁吸附、真空吸附或者可拆卸的机械连接方式等可拆卸连接方式与货箱3的一侧面对接。该种安装座11的设置,能够减小安装座11与货箱3对接所需空间,避免安装座11伸入到货箱3的两侧对货箱3进行夹抱,从而减小了货箱3上相邻两个货箱3之间的间隙需求,提高货箱3在货箱3上的排布密度。可拆卸的机械连接方式可以但不限定为卡接、插接或挂接等方式。在其他实施例中,安装座11也可以采用现有的夹抱式结构对货箱3进行取放。Preferably, the mounting base 11 can be connected to one side of the cargo box 3 , and the mounting base 11 can be connected to the side of the cargo box 3 through detachable connection methods such as magnetic adsorption, vacuum adsorption, or detachable mechanical connection. The setting of this kind of mounting seat 11 can reduce the space required for the docking of the mounting seat 11 and the cargo box 3, and prevent the mounting seat 11 from extending into both sides of the cargo box 3 to clamp the cargo box 3, thereby reducing the size of the cargo box. The space requirement between two adjacent cargo boxes 3 on the 3 increases the arrangement density of the cargo boxes 3 on the cargo box 3 . The detachable mechanical connection may be, but not limited to, clamping, plugging, or hooking. In other embodiments, the mounting seat 11 can also adopt the existing clamping structure to pick and place the container 3 .
在一些实施例中,取箱装置1优选还包括位于围设于安装架16外侧的外壳10,外壳10具有开口,且外壳10的开口与容纳空间161的开口重合,以提高取箱装置1的外形美观性。外壳10优选包括合围形成U型结构的横侧板102和两个相对且间隔设置的外侧板101,两个外侧板101分别位于两个安装侧板163部的外侧并与对应的安装侧板163可拆卸连接,横侧板102和两个外侧板101合围形成的开口与容纳空间161的开口一致。外壳10的设置,有利于对取箱装置1进行保护,且能够避免货箱3从背离容纳空间161开口的一侧掉落,提高货箱3在取箱装置1上的放置安全性和可靠性。In some embodiments, the box-taking device 1 preferably further includes a casing 10 located outside the installation frame 16, the casing 10 has an opening, and the opening of the casing 10 coincides with the opening of the accommodating space 161, so as to improve the stability of the box-taking device 1. Aesthetics. The housing 10 preferably includes a lateral side plate 102 forming a U-shaped structure and two opposite and spaced outer side plates 101. The two outer side plates 101 are respectively located on the outer sides of the two installation side plates 163 and are connected to the corresponding installation side plates 163. The connection is detachable, and the opening formed by the encirclement of the lateral side plate 102 and the two outer plates 101 is consistent with the opening of the accommodation space 161 . The arrangement of the housing 10 is beneficial to the protection of the box removing device 1, and can prevent the cargo box 3 from falling from the side away from the opening of the accommodating space 161, improving the safety and reliability of placing the cargo box 3 on the box picking device 1 .
进一步地,每个外侧板101远离横侧板102的一端均设置有导向板部103,两个导向板部103沿远离横侧板102的方向相互倾斜靠近,第二方向与第一方向垂直。导向板部103的设置,有利于为货箱3进出容纳空间161进行导向。Further, the end of each outer plate 101 away from the lateral plate 102 is provided with a guide plate portion 103, and the two guide plate portions 103 approach each other obliquely along the direction away from the lateral plate 102, and the second direction is perpendicular to the first direction. The arrangement of the guide plate portion 103 is beneficial to guide the container 3 to enter and exit the accommodation space 161 .
在一些实施例中,传输机构17沿第一方向间隔设置有两个,所述第一方向正交于前后方向和上下方向,安装座11设置在两个传输机构17之间,传输机构17包括沿第一方向间隔设置的两个转动件以及绕设在两个转动件上的传动带174,传动带174的上表面形成传输面171。In some embodiments, two transmission mechanisms 17 are arranged at intervals along the first direction, the first direction is orthogonal to the front-rear direction and the up-down direction, and the mounting seat 11 is arranged between the two transmission mechanisms 17, and the transmission mechanism 17 includes Two rotating parts are arranged at intervals along the first direction and a transmission belt 174 is wound on the two rotating parts. The upper surface of the driving belt 174 forms the transmission surface 171 .
具体地,为进一步地提高对货箱3的传输平稳性,传输机构17沿第二方向相对且间隔设置有两个,且两个传输机构17的间距小于货箱3的宽度,安装座11设置在两个传输机构17之间,由此能够使得货箱3在取放过程中,货箱3底部的两侧能够分别支撑于两个传输机构17的传输面171上,提高传输稳定性和可靠性,且货箱3被位于中间的安装座11拖拽,能够有效引导货箱3的传输方向,避免货箱3在输送过程中产生倾斜,提高货箱3在传输过程中的受力平稳性;同时,该种设置,也能够减小安装座11与传输机构17之间的结构干涉。在其他实施例中,传输机构17也可以仅设置一个,且安装座11设置在传输机构17的上方。Specifically, in order to further improve the stability of the transmission of the cargo box 3, two transmission mechanisms 17 are arranged opposite and spaced apart along the second direction, and the distance between the two transmission mechanisms 17 is smaller than the width of the cargo box 3, and the mounting seat 11 is set Between the two transmission mechanisms 17, the two sides of the bottom of the container 3 can be respectively supported on the transmission surfaces 171 of the two transmission mechanisms 17 during the pick-and-place process of the container 3, thereby improving the stability and reliability of the transmission. and the container 3 is dragged by the mounting seat 11 in the middle, which can effectively guide the transmission direction of the container 3, avoid the inclination of the container 3 during the transportation process, and improve the force stability of the container 3 during the transmission process ; At the same time, this kind of setting can also reduce the structural interference between the mounting base 11 and the transmission mechanism 17 . In other embodiments, only one transmission mechanism 17 may be provided, and the mounting seat 11 is provided above the transmission mechanism 17 .
优选地,传输机构17采用带式传输机构17,其传输平稳,成本较低,且不会对货箱3造成剐蹭损伤。具体地,传输机构17包括沿第一方向相对且间隔设置的主动转动件172和从动转动件173以及绕设在主动转动件172和从动转动件173上的传动带174,传动带174的上表面形成传输面171。Preferably, the transmission mechanism 17 adopts a belt-type transmission mechanism 17 , which is stable in transmission, low in cost, and will not cause scratches to the container 3 . Specifically, the transmission mechanism 17 includes a driving rotating member 172 and a driven rotating member 173 arranged oppositely and at intervals along the first direction, and a transmission belt 174 wound on the driving rotating member 172 and the driven rotating member 173. The upper surface of the driving belt 174 The transmission surface 171 is formed.
优选地,两个转动件(主动转动件172和从动主动件)均为滚筒,且滚筒的转轴沿第二方向设置。该种设置,能够增大传动带174的宽度,从而增大传输面171的宽度,提高传输安全性和可靠性。在其他实施例中,主动转动件172和从动转动件173也可以设置成 带轮。Preferably, the two rotating parts (the driving rotating part 172 and the driven driving part) are both rollers, and the rotating shaft of the roller is arranged along the second direction. This arrangement can increase the width of the transmission belt 174, thereby increasing the width of the transmission surface 171, and improving transmission safety and reliability. In other embodiments, the driving rotating member 172 and the driven rotating member 173 can also be configured as pulleys.
为提高取箱装置1的结构紧凑性,优选地,主动转动件172为电动滚筒,即主动转动件172包括筒体和设置在筒体内部的传输驱动单元,占地空间小,且结构紧凑性强。在其他实施例中,主动转动件172也可以是单独的筒体结构,传输机构17还包括设置在主动转动件172外侧的传输电机以及连接于传输电机和主动转动件172之间的传动结构。In order to improve the structural compactness of the box-taking device 1, preferably, the active rotating part 172 is an electric drum, that is, the active rotating part 172 includes a cylinder body and a transmission drive unit arranged inside the cylinder body, which occupies a small space and has a compact structure. powerful. In other embodiments, the driving rotating member 172 can also be a separate cylindrical structure, and the transmission mechanism 17 also includes a transmission motor disposed outside the driving rotating member 172 and a transmission structure connected between the transferring motor and the driving rotating member 172 .
在其他另一实施例中,传输机构17还可以为滚筒式传输机构17、辊子式传输机构17或者链条式传输机构17,且滚筒式传输机构17、辊子式传输机构17或者链条式传输机构17均可参考现有技术进行设置,本申请不再一一进行举例。In other another embodiment, the transmission mechanism 17 can also be a drum type transmission mechanism 17, a roller type transmission mechanism 17 or a chain type transmission mechanism 17, and the roller type transmission mechanism 17, the roller type transmission mechanism 17 or the chain type transmission mechanism 17 All can be set with reference to the prior art, and this application will not give examples one by one.
在一些实施例中,取箱装置1还包括主驱动组件18和导向组件,主驱动组件18用于带动安装座11沿前后方向运动,导向组件用于为安装座11沿前后方向的运动进行导向。In some embodiments, the box removal device 1 further includes a main drive assembly 18 and a guide assembly, the main drive assembly 18 is used to drive the mounting base 11 to move in the front-rear direction, and the guide assembly is used to guide the motion of the installation base 11 in the front-rear direction .
具体地,安装座11还包括拾取组件,拾取组件用于与货箱3对接,主驱动组件18用于驱动拾取组件沿前后方向运动,以带动货箱3进出容纳空间161。Specifically, the mounting base 11 also includes a pick-up assembly for docking with the container 3 , and the main drive assembly 18 is used to drive the pick-up assembly to move forward and backward, so as to drive the container 3 into and out of the accommodation space 161 .
在本实施例中,拾取组件与货箱3的对接方式为真空吸附连接,即拾取组件包括第二吸盘181、用于对第二吸盘181进行供气及抽真空的气泵组件(未示出)。气泵组件包括气泵和及连接于第二吸盘181和气泵之间的气管。当主驱动组件18驱动第二吸盘181接触货箱3侧面时,气泵通过气管对第二吸盘181进行抽真空,即实现第二吸盘181对货箱3的真空吸附作用;当需要释放货箱3时,气泵通过气管对第二吸盘181通入正压气体,即可实现第二吸盘181对货箱3的释放。In this embodiment, the docking mode of the pick-up assembly and the container 3 is a vacuum adsorption connection, that is, the pick-up assembly includes a second suction cup 181, an air pump assembly (not shown) for supplying air and vacuuming the second suction cup 181 . The air pump assembly includes an air pump and an air pipe connected between the second suction cup 181 and the air pump. When the main drive assembly 18 drives the second suction cup 181 to contact the side of the cargo box 3, the air pump vacuumizes the second suction cup 181 through the air pipe, so as to realize the vacuum adsorption of the second suction cup 181 to the cargo box 3; when the cargo box 3 needs to be released , the air pump feeds positive pressure gas into the second suction cup 181 through the air pipe, so that the release of the second suction cup 181 to the cargo box 3 can be realized.
采用真空吸附的方式实现拾取组件与货箱3的对接,结构简单,易于实现且成本较低;同时,该种设置,能够方便地使拾取组件仅作用于货箱3的一个侧面即可实现对货箱3的稳定拾取,对货箱3的取放便利性较高;同时,采用真空吸附的方式取放货箱3,无需对货箱3的结构进行改变,改进成本较低,通用性强;再者,采用真空吸附的方式取放货箱3,能够降低拾取组件与货箱3的对位精度要求,提高货箱3取放的便利性。The way of vacuum adsorption is used to realize the docking of the picking component and the container 3, which is simple in structure, easy to realize and low in cost; at the same time, this kind of setting can conveniently make the picking component only act on one side of the container 3 to realize the docking The stable picking of the cargo box 3 makes it more convenient to pick and place the cargo box 3; at the same time, the vacuum adsorption method is used to pick and place the cargo box 3, without changing the structure of the cargo box 3, the improvement cost is low, and the versatility is strong Furthermore, the use of vacuum adsorption to pick and place the cargo box 3 can reduce the alignment accuracy requirements between the picking components and the cargo box 3 and improve the convenience of picking and placing the cargo box 3 .
为方便拾取组件的安装和拆卸,安装座11还包括固定架182,第二吸盘181与固定架182可拆卸连接,且固定架182与主驱动组件18可拆卸连接,主驱动组件18驱动固定架182沿第一方向运动,从而带动第二吸盘181沿第一方向运动。优选地,第二吸盘181沿第二方向和/或竖直方向间隔设置有至少两个,以提高对货箱3的吸附可靠性,且降低单个第二吸盘181所需的吸附力。In order to facilitate the installation and disassembly of the picking assembly, the mounting base 11 also includes a fixed frame 182, the second suction cup 181 is detachably connected to the fixed frame 182, and the fixed frame 182 is detachably connected to the main drive assembly 18, and the main drive assembly 18 drives the fixed frame 182 moves along the first direction, thereby driving the second suction cup 181 to move along the first direction. Preferably, at least two second suction cups 181 are arranged at intervals along the second direction and/or the vertical direction, so as to improve the reliability of adsorption to the container 3 and reduce the suction force required by a single second suction cup 181 .
每个第二吸盘181可单独设置气管,气泵对单个气管进行供气。或,也可以是在气管靠近第二吸盘181的一端设置分气块进行分气,第二吸盘181设置在分气块上,以使地一个气管即可实现对多个第二吸盘181的供气,且保证第二吸盘181供气的统一性和一致性。Each second suction cup 181 can be independently provided with an air pipe, and the air pump supplies air to a single air pipe. Or, it is also possible to arrange an air distribution block near the end of the second suction cup 181 to distribute the gas, and the second suction cup 181 is arranged on the air distribution block, so that one air pipe can realize the supply of multiple second suction cups 181. Air, and ensure the uniformity and consistency of the second sucker 181 air supply.
在本实施例中,主驱动组件18采用主驱动电机配合传动的主传动组件进行传动。主驱动电机优选设置于安装架16远离容纳空间161的开口一侧,以避免与货箱3造成干涉。主传动组件可以但不限定于采用带式传动、齿轮齿条传动、链式传动或者丝杠螺母传动等能够实现固定架182的直线移动的传动形式。本实施例不对主传动组件的传动形式和具体结构形式进行限制。In this embodiment, the main drive assembly 18 is driven by a main drive motor cooperating with a main drive assembly. The main driving motor is preferably disposed on the side of the installation frame 16 away from the opening of the accommodating space 161 to avoid interference with the container 3 . The main transmission assembly may, but is not limited to, adopt a transmission form such as a belt transmission, a rack and pinion transmission, a chain transmission, or a screw nut transmission that can realize the linear movement of the fixing frame 182 . This embodiment does not limit the transmission form and specific structural form of the main transmission assembly.
具体地,导向组件可以提高拾取组件沿前后方向运行的平稳性,导向组件设置在安装底板162上,且沿前后方向延伸。导向组件包括滑动连接的第一导向件和第二导向件,第一导向件沿第一方向铺设在安装底板162上并位于两个传输机构17之间,第二导向件与第一导向件滑动或滚动配合,第二导向件与固定架182可拆卸连接。Specifically, the guide assembly can improve the stability of the pick-up assembly running along the front-rear direction, and the guide assembly is arranged on the installation base plate 162 and extends along the front-rear direction. The guide assembly includes a first guide piece and a second guide piece that are slidably connected. The first guide piece is laid on the installation base plate 162 along the first direction and is located between the two transmission mechanisms 17. The second guide piece slides with the first guide piece. Or rolling fit, the second guide is detachably connected to the fixing frame 182 .
在一些实施例中,导向组件包括导轨19和滑块,导轨19沿前后方向铺设于所述安装架16上。滑块滑动设置于所述导轨19上并与安装座11连接,导轨19的上表面低于传输面171。In some embodiments, the guide assembly includes a guide rail 19 and a slider, and the guide rail 19 is laid on the installation frame 16 along the front-to-rear direction. The slider is slidably disposed on the guide rail 19 and connected to the mounting seat 11 , the upper surface of the guide rail 19 is lower than the transmission surface 171 .
在本实施例中,第一导向件为导轨19,第二导向件为滑块,即导向组件为导轨滑块结构,导轨19的上表面低于传输面171。在其他实施例中,第一导向件还可以为导杆,第二导向件为滑动套设在导杆上的导套。现有其他能够实现直线运行导向的结构均在本申请保 护范围之内,本申请对此不做限制。In this embodiment, the first guide member is a guide rail 19 , and the second guide member is a slider, that is, the guide assembly is a guide rail slider structure, and the upper surface of the guide rail 19 is lower than the transmission surface 171 . In other embodiments, the first guide member may also be a guide rod, and the second guide member may be a guide sleeve slidingly sleeved on the guide rod. Other existing structures that can realize linear running guidance are all within the protection scope of this application, and this application does not limit this.
进一步地,第二吸盘181位于导轨19的上方,以在减小固定架182高度的同时,抬高第二吸盘181的高度,从而提高第二吸盘181与货箱3的对接位置相对货箱3底部的高度,提高货箱3传输平稳性,且提高结构紧凑性,减少结构干涉。Further, the second suction cup 181 is positioned above the guide rail 19 to increase the height of the second suction cup 181 while reducing the height of the fixing frame 182, thereby improving the docking position of the second suction cup 181 and the cargo box 3 relative to the cargo box 3 The height of the bottom improves the stability of the transport of the container 3, improves the compactness of the structure, and reduces structural interference.
根据本申请实施例的机器人包括机器人本体2和取箱装置1,取箱装置1的安装座11设在机器人本体2上且相对于机器人本体2沿前后方向可移动。安装座11设在安装架16上,安装架16设在机器人本体2上,安装座11相对于安装架16可前后移动,换言之,安装座11通过安装架16与机器人本体2相连。The robot according to the embodiment of the present application includes a robot body 2 and a box-removing device 1 , the mounting seat 11 of the box-removing device 1 is arranged on the robot body 2 and is movable in a front-rear direction relative to the robot body 2 . The mounting base 11 is located on the mounting frame 16, and the mounting frame 16 is located on the robot body 2. The mounting base 11 can move back and forth relative to the mounting frame 16. In other words, the mounting base 11 is connected to the robot body 2 through the mounting frame 16.
本申请实施例的机器人的取箱装置可以实现快速回撤,与货箱3避让,不影响货箱3的取放时间,提高取货效率。The box picking device of the robot in the embodiment of the present application can realize fast retraction, avoiding the box 3, without affecting the picking and placing time of the box 3, and improving the picking efficiency.
如图3至图6所示,取箱装置1可前后移动地设在机器人本体2上,当货架4在机器人本体2的前方时,取箱装置1向前移动并与货箱3连接,随后取箱装置1带动货箱3向后移动并将货箱3拉至机器人本体2上,使得操作过程简便。As shown in Figures 3 to 6, the box-taking device 1 is movably arranged on the robot body 2. When the shelf 4 is in front of the robot body 2, the box-taking device 1 moves forward and is connected with the cargo box 3, and then The box fetching device 1 drives the cargo box 3 to move backward and pulls the cargo box 3 onto the robot body 2, so that the operation process is simple and convenient.
在一些实施例中,取箱装置1的安装座11相对于机器人本体2还可在第一位置(未示出)和第二位置(未示出)之间移动,第一位置高于第二位置,安装座11在第一位置和第二位置之间移动的轨迹为线段或曲线段。In some embodiments, the mounting base 11 of the box removing device 1 can also move between a first position (not shown) and a second position (not shown) relative to the robot body 2, the first position being higher than the second position. position, the trajectory of the mounting seat 11 moving between the first position and the second position is a line segment or a curve segment.
可以理解的是,安装座11的运行轨迹为线段时,安装座11沿竖直方向进行运动,如图8所示,第一位置位于机器人本体2上表面的上方,第二位置位于机器人本体2上表面的下方,安装座11从第一位置移动到第二位置时可以沿着竖直方向进行直线运动。安装座11的运行轨迹为曲线段时,安装座11进行曲线运动。需要说明的是,曲线段可以为弧线段、圆弧段等。It can be understood that when the running track of the mounting base 11 is a line segment, the mounting base 11 moves in the vertical direction, as shown in FIG. Below the upper surface, when the mounting base 11 moves from the first position to the second position, it can move linearly along the vertical direction. When the running track of the mounting base 11 is a curved segment, the mounting base 11 performs a curved motion. It should be noted that the curve segment may be an arc segment, an arc segment, and the like.
如图5至图7所示,取箱装置1将货箱3拉到机器人本体2上后,第一弹性件13仍处于被压缩的状态且具有弹性力,解除第一吸盘122和货箱3之间的吸附状态,吸盘杆121在第一弹性件13弹性力的作用下快速回撤,取箱装置1在竖直方向(如图中所示的上下方向)上向下移动,使取箱装置1整体移动到机器人本体2上表面的下方,避让货箱3,使货箱3在机器人本体2上移动时不受到阻碍。As shown in Figures 5 to 7, after the box-taking device 1 pulls the box 3 onto the robot body 2, the first elastic member 13 is still in a compressed state and has elastic force, releasing the first suction cup 122 and the box 3. In the adsorption state between them, the sucker rod 121 withdraws quickly under the action of the elastic force of the first elastic member 13, and the box-taking device 1 moves downward in the vertical direction (up and down direction as shown in the figure), so that the box-taking The whole device 1 moves below the upper surface of the robot body 2 to avoid the cargo box 3 so that the cargo box 3 is not hindered when moving on the robot body 2 .
相关技术中,货箱3的端面上设有横筋。申请人经过研究发现,若是第一吸盘122与货箱3解除吸附状态后,安装座11需要向下移动以回到取货平台下方,即取箱装置1回位,然而在向下移动过程中,货箱3上的横筋容易与第一吸盘122和吸盘杆121发生碰撞,阻挡取箱装置1回位,容易损坏取箱装置1的同时,还会降低取箱装置1的取货效率。为此,本申请实施例的取箱装置1,第一吸盘122与货箱3解除吸附状态后,在第一弹性件13的弹性力作用下可向后移动,以实现取箱件12的快速回撤,与货箱3上的横筋避让,减少对取箱装置1的损坏,而且提高了取货效率。In the related art, the end surface of the container 3 is provided with transverse ribs. The applicant found through research that if the first suction cup 122 and the cargo box 3 are released from the adsorption state, the installation seat 11 needs to move downward to return to the bottom of the cargo picking platform, that is, the box picking device 1 returns to its position, but during the downward movement , the transverse rib on the cargo box 3 easily collides with the first suction cup 122 and the suction cup bar 121, which blocks the return of the box-taking device 1, and easily damages the box-taking device 1, and also reduces the efficiency of picking up the box-taking device 1. For this reason, in the box-taking device 1 of the embodiment of the present application, after the first suction cup 122 and the cargo box 3 are released from the adsorption state, they can move backward under the elastic force of the first elastic member 13, so as to realize the rapid removal of the box-taking part 12. Retraction avoids the transverse ribs on the cargo box 3, reduces damage to the box picking device 1, and improves the picking efficiency.
而且安装座11相对于机器人本体2在上述第一位置和上述第二位置之间移动后,取货平台只需要和货箱3长度相近即可,不用在前后方向设置额外的空间收纳取箱件12,因此可以节省在前后方向上的空间。Moreover, after the mounting base 11 moves between the above-mentioned first position and the above-mentioned second position relative to the robot body 2, the pick-up platform only needs to be close to the length of the cargo box 3, and there is no need to set up additional space in the front and rear directions to accommodate the pick-up parts. 12, thus saving space in the front-back direction.
可以理解的是,本申请的取箱装置1还可以向后移动以回位,即安装座11后移动以回位,回位过程中,取箱件12首先在第一弹性件13的弹性力作用下可以先向后移动以远离货箱3,进而再在安装座11的带动下向后移动以回位。由此,本申请的取箱装置1可以快速与货箱3远离,提高了取货效率。It can be understood that the box-taking device 1 of the present application can also move backward to return, that is, the mounting seat 11 moves backward to return. Under the action, it can first move backward to stay away from the cargo box 3, and then move backward under the drive of the mounting seat 11 to return to its position. Thus, the box picking device 1 of the present application can quickly move away from the cargo box 3, improving the efficiency of picking up goods.
在一些实施例中,如图10所示,机器人还包括第一驱动组件21,第一驱动组件21用于驱动安装座11相对于机器人本体2沿上下方向移动。第一驱动组件21包括支架211、第一齿条212以及第一齿轮213,支架211设在机器人本体2上,且相对于机器人本体2在前后和上下方向上可移动。第一齿条212设在支架211上且沿上下方向延伸,第一齿条212的顶端与安装座11相连。第一齿轮213可转动地设在机器人本体2上,且第一齿轮213与第一齿条212啮合以驱动第一齿条212沿上下方向移动,进而通过支架211带动安装座 11相对于机器人本体2沿上下方向移动。In some embodiments, as shown in FIG. 10 , the robot further includes a first driving assembly 21 for driving the mounting base 11 to move relative to the robot body 2 in an up and down direction. The first driving assembly 21 includes a bracket 211 , a first rack 212 and a first gear 213 . The bracket 211 is disposed on the robot body 2 and is movable in front, rear and up and down directions relative to the robot body 2 . The first rack 212 is disposed on the bracket 211 and extends along the vertical direction, and the top end of the first rack 212 is connected to the mounting seat 11 . The first gear 213 is rotatably arranged on the robot body 2, and the first gear 213 meshes with the first rack 212 to drive the first rack 212 to move up and down, and then drives the mounting base 11 relative to the robot body through the bracket 211 2 Move in the up and down direction.
具体地,支架211设置有至少两根,其中一根支架211位于安装座11的左端,另一根支架211位于安装座11的右端,且两根支架211在前后方向上相对设置,支架211的上端与安装座11相连,支架211的下端沿上下方向延伸且设在机器人本体2上。Specifically, there are at least two brackets 211, wherein one bracket 211 is located at the left end of the mounting base 11, and the other bracket 211 is located at the right end of the mounting base 11, and the two brackets 211 are arranged oppositely in the front-rear direction. The upper end is connected with the mounting seat 11 , and the lower end of the bracket 211 extends along the vertical direction and is arranged on the robot body 2 .
第一齿条212沿上下方向设在支架211上,第一齿轮213可转动地设在机器人本体2上,当安装座11纵向移动时,通过第一齿轮213与第一齿条212啮合,第一齿轮213驱动第一齿条212沿上下方向移动,进而驱动支架211在上下方向上移动,从而带动安装座11沿上下方向移动。由此,第一驱动组件21的结构简单,操作简便。The first rack 212 is arranged on the support 211 along the up and down direction, and the first gear 213 is rotatably arranged on the robot body 2. When the mounting base 11 moves longitudinally, the first gear 213 is engaged with the first rack 212, and the first gear 213 is engaged with the first rack 212. A gear 213 drives the first rack 212 to move up and down, and then drives the bracket 211 to move up and down, thereby driving the mounting base 11 to move up and down. Therefore, the structure of the first driving assembly 21 is simple, and the operation is convenient.
具体地,第一驱动组件21还包括第一电机(未示出),第一电机与第一齿轮213相连以驱动第一齿轮213转动。Specifically, the first driving assembly 21 further includes a first motor (not shown), and the first motor is connected with the first gear 213 to drive the first gear 213 to rotate.
在一些实施例中,安装座11和支架211上端之间设置有连接块6,使得安装座11与支架211上端之间的接触面积增大,从而使安装座11与支架211连接牢固。In some embodiments, a connecting block 6 is provided between the mounting base 11 and the upper end of the bracket 211 , so that the contact area between the mounting base 11 and the upper end of the bracket 211 is increased, so that the mounting base 11 and the bracket 211 are firmly connected.
在一些实施例中,机器人还包括滑座(未示出),机器人本体2上设有导轨19(未示出),滑座可滑动地设在导轨19上,第一齿轮213和支架211设在滑座上。In some embodiments, the robot also includes a sliding seat (not shown), the robot body 2 is provided with a guide rail 19 (not shown), the sliding seat is slidably arranged on the guide rail 19, and the first gear 213 and the bracket 211 are provided. on the slide.
导轨19沿着机器人本体2的前后方向延伸,滑座滑动安装在导轨19上,且第一齿轮213和支架211也设在滑座上,以使第一齿轮213和支架211也沿着导轨19的前后方向滑动,实现取箱装置1沿着导轨19的前后方向移动,由此,本申请实施例的机器人结构简单,运行方便。Guide rail 19 extends along the front-back direction of robot body 2, and slide seat is slidably installed on guide rail 19, and first gear 213 and support 211 are also located on the slide seat, so that first gear 213 and support 211 also follow guide rail 19 Sliding in the front and back direction of the box realizes the movement of the box taking device 1 along the front and back direction of the guide rail 19. Thus, the robot in the embodiment of the present application has a simple structure and is easy to operate.
在一些实施例中,如图9和图11所示,机器人还包括第二驱动组件22,第二驱动组件22用于驱动滑座相对于机器人本体2沿前后方向移动,且第二驱动组件22包括第二齿条221和第二齿轮(未示出),第二齿条221设在机器人本体2上且沿前后方向延伸。第二齿轮与第二齿条221啮合,第二齿轮可转动以在第二齿条221上沿前后方向移动,第二齿轮与滑座相连。In some embodiments, as shown in FIG. 9 and FIG. 11 , the robot further includes a second driving assembly 22, the second driving assembly 22 is used to drive the sliding seat to move in the forward and backward direction relative to the robot body 2, and the second driving assembly 22 Including a second rack 221 and a second gear (not shown), the second rack 221 is disposed on the robot body 2 and extends along the front-rear direction. The second gear meshes with the second rack 221 , the second gear can rotate to move forward and backward on the second rack 221 , and the second gear is connected with the sliding seat.
如图9和图11所示,机器人本体2上设有沿前后方向延伸的第二齿条221,第二齿轮通过自身的转动可在第二齿条221上沿前后方向移动,进而带动滑座相对于机器人本体2沿前后方向移动。由此,本申请实施例的机器人结构简单,运行方便。As shown in Figures 9 and 11, the robot body 2 is provided with a second rack 221 extending in the front-to-back direction, and the second gear can move in the front-to-back direction on the second rack 221 through its own rotation, thereby driving the sliding seat Relative to the robot body 2, it moves forward and backward. Therefore, the robot in the embodiment of the present application has a simple structure and is easy to operate.
具体地,第二驱动组件22还包括第二电机222,第二电机222与第二齿轮相连以驱动第二齿轮转动。Specifically, the second driving assembly 22 further includes a second motor 222, and the second motor 222 is connected with the second gear to drive the second gear to rotate.
如图11所示,机器人还包括安装板223,第二电机222设在安装板223上,滑座也设在安装板223上,以使第二电机222带动第二齿轮沿第二齿条221上前后移动时,也带动滑座在第二齿条221上前后移动,进而使取箱装置1在第二齿条221上前后移动。As shown in Figure 11, the robot also includes a mounting plate 223, the second motor 222 is located on the mounting plate 223, and the slide seat is also located on the mounting plate 223, so that the second motor 222 drives the second gear along the second rack 221. When moving back and forth, the sliding seat is also driven to move back and forth on the second rack 221 , and then the box-taking device 1 is moved back and forth on the second rack 221 .
如图12所示,在一些实施例中,机器人本体2包括:底盘23;门架24,所述门架24设置于所述底盘23上,所述取箱装置1设在所述门架24上;升降组件25,所述升降组件25被配置为沿着所述门架24上下移动,所述升降组件25与所述取箱装置1相连以驱动所述取箱装置1相对于所述门架24可上下移动。As shown in Figure 12, in some embodiments, the robot body 2 includes: a chassis 23; On: the lifting assembly 25, the lifting assembly 25 is configured to move up and down along the door frame 24, the lifting assembly 25 is connected with the box removal device 1 to drive the box removal device 1 relative to the door The frame 24 can move up and down.
具体地,底盘23用于实现搬运机器人在地面上的移动,以实现搬运机器人对货箱3的运输;门架24设置在底盘23上,用于固定和支撑取箱装置1;取箱装置1通过升降机构可升降地设置在门架24上,以拾取货箱3上的货箱3或将货箱3放置至货箱3上。Specifically, the chassis 23 is used to realize the movement of the handling robot on the ground, so as to realize the transportation of the cargo box 3 by the handling robot; the door frame 24 is arranged on the chassis 23 for fixing and supporting the box-taking device 1; The lifting mechanism is arranged on the door frame 24 so as to pick up the container 3 on the container 3 or place the container 3 on the container 3 .
底盘23包括底盘本体和设置在底盘本体底部的驱动轮机构,驱动轮机构用于实现底盘23的运动。驱动轮机构可以采用差速驱动的形式,具体包括驱动轮电机、两个设置在底盘本体底部的驱动轮以及连接驱动轮电机和两个驱动轮的连接组件等。两个驱动轮分别设置在底盘本体的两侧,驱动轮电机设置在底盘本体的内部,且其转动输出轴与驱动轮连接并带动驱动轮运动,实现底盘23的直线或转弯运动。The chassis 23 includes a chassis body and a driving wheel mechanism arranged at the bottom of the chassis body, and the driving wheel mechanism is used to realize the movement of the chassis 23 . The drive wheel mechanism can be in the form of differential drive, specifically including a drive wheel motor, two drive wheels arranged at the bottom of the chassis body, and a connecting assembly connecting the drive wheel motor and the two drive wheels. Two driving wheels are respectively arranged on both sides of the chassis body, and the driving wheel motor is arranged inside the chassis body, and its rotating output shaft is connected with the driving wheel and drives the driving wheel to move, so as to realize the linear or turning motion of the chassis 23 .
在本实施例中,驱动轮机构设置在底盘23的中部两侧,有利于提高底盘23的运动平稳性。底盘本体上还可以设置多个万向从动轮,如可以在底盘本体的前部和后部分别设置一对万向从动轮,且使两对万向从动轮相对一对驱动轮对称设置,有利于进一步提高底盘 23的平稳运动,尤其是底盘23的转弯运动平稳性,防止底盘23在运动过程中向一侧倾倒。In this embodiment, the driving wheel mechanism is arranged on both sides of the middle part of the chassis 23 , which is beneficial to improve the stability of the movement of the chassis 23 . A plurality of universal driven wheels can also be set on the chassis body, such as a pair of universal driven wheels can be respectively set at the front portion and the rear portion of the chassis body, and two pairs of universal driven wheels are arranged symmetrically relative to a pair of driving wheels. It is beneficial to further improve the smooth movement of the chassis 23, especially the stability of the turning movement of the chassis 23, and prevent the chassis 23 from toppling to one side during the movement.
驱动轮机构还可以采用其他能够带动底盘本体运动的机构,本实施例不对驱动轮机构的具体形式进行限制,也不对底盘23的具体结构进行限制,只要能够实现带动门架24移动的结构均可以,如现有的机器人结构等。The driving wheel mechanism can also adopt other mechanisms that can drive the movement of the chassis body. This embodiment does not limit the specific form of the driving wheel mechanism, nor does it limit the specific structure of the chassis 23, as long as the structure that can drive the door frame 24 to move can be , such as the existing robot structure, etc.
如图12所示,门架24包括相对且间隔设置的两个支撑柱241,每个支撑柱241均竖直设置,支撑柱241的下端与底盘23连接,两个支撑柱241的上端之间连接有横梁242,避免两个支撑柱241发生相对晃动。优选地,每个支撑柱241包括可拆卸连接的多个支撑杆段,以提高加工和组装便利性。门架24的结构可参考现有技术,此处不再赘述。As shown in Figure 12, the door frame 24 includes two support columns 241 opposite and spaced apart, each support column 241 is all vertically arranged, the lower end of the support column 241 is connected with the chassis 23, and the upper end of the two support columns 241 A beam 242 is connected to prevent the two supporting columns 241 from shaking relative to each other. Preferably, each support column 241 includes a plurality of detachably connected support rod segments, so as to improve the convenience of processing and assembly. The structure of the door frame 24 can refer to the prior art, and will not be repeated here.
取箱装置1通过升降机构安装于门架24上,升降机构包括升降架7和升降驱动组件,升降驱动组件安装于门架24和升降架7之间,用于驱动升降架7升降。取箱装置1安装于升降架7上。升降机构可以但不限定为链轮链条式升降机构、丝杠螺母式升降机构、齿轮齿条式升降机构等,且升降机构的具体结构以及升降机构与货取箱装置1的连接可以参考现有技术,本实施例对此不做限制。The box-taking device 1 is installed on the door frame 24 by a lifting mechanism, and the lifting mechanism includes a lifting frame 7 and a lifting drive assembly, and the lifting drive assembly is installed between the door frame 24 and the lifting frame 7, and is used to drive the lifting frame 7 to elevate. The case taking device 1 is installed on the lifting frame 7 . The lifting mechanism can be but not limited to a sprocket chain type lifting mechanism, a screw nut type lifting mechanism, a rack and pinion type lifting mechanism, etc., and the specific structure of the lifting mechanism and the connection between the lifting mechanism and the cargo picking device 1 can refer to the existing technology, which is not limited in this embodiment.
在一些实施例中,机器人本体2还包括暂存隔板26,所述暂存隔板26沿所述门架24的高度方向间隔设置有多个,且所述暂存隔板26上能够暂存所述货箱3,所述取箱装置1能够实现所述货箱3在所述暂存隔板26和货箱3之间的转移。In some embodiments, the robot body 2 also includes a temporary storage partition 26, a plurality of temporary storage partitions 26 are arranged at intervals along the height direction of the door frame 24, and the temporary storage partition 26 can temporarily The cargo box 3 is stored, and the box taking device 1 can realize the transfer of the cargo box 3 between the temporary storage partition 26 and the cargo box 3 .
具体地,每个暂存隔板26均与支撑柱241垂直连接,每个暂存隔板26均能用于暂存一个货箱3。以此设置,能够使搬运机器人能够一次性搬运多个货箱3,提高货箱3搬运的效率。Specifically, each temporary storage partition 26 is vertically connected to the support column 241 , and each temporary storage partition 26 can be used to temporarily store one container 3 . With this arrangement, the handling robot can transport a plurality of cargo boxes 3 at one time, improving the efficiency of cargo box 3 handling.
进一步地,每个暂存隔板26均与门架24可拆卸连接,从而能够根据货箱3的高度、门架24的高度以及搬运的需求在门架24上设置合理数量的暂存隔板26,提高搬运机器人的使用灵活性和通用性,使暂存隔板26能够进行模块化加工和设置,提高暂存隔板26的加工和使用灵活性,方便暂存隔板26的加工、组装和搬运。暂存隔板26的具体结构可以参考现有技术,此非本申请的重点,此处不再赘述。Further, each temporary storage partition 26 is detachably connected with the door frame 24, so that a reasonable number of temporary storage partitions can be set on the door frame 24 according to the height of the container 3, the height of the door frame 24 and the requirements of handling. 26. Improve the flexibility and versatility of the handling robot, enable the temporary storage partition 26 to be processed and set up in a modular manner, improve the processing and use flexibility of the temporary storage partition 26, and facilitate the processing and assembly of the temporary storage partition 26 and handling. The specific structure of the temporary storage partition 26 can refer to the prior art, which is not the focus of this application and will not be repeated here.
为避免取箱装置1与暂存隔板26相干涉,取箱装置1和暂存隔板26分别位于门架24的相对两侧,且取箱装置1与升降架7通过旋转机构连接,以使取箱装置1绕竖直轴线转动,改变容纳空间161的开口朝向,以使得货箱3取放机构及传输机构17能够实现货箱3在安装架16和暂存隔板26之间的转移。旋转机构的设置可参考现有设置,此非本申请的重点,此处不再赘述。In order to avoid interference between the box-taking device 1 and the temporary storage partition 26, the box-taking device 1 and the temporary storage partition 26 are respectively located on opposite sides of the door frame 24, and the box-taking device 1 is connected with the elevating frame 7 through a rotating mechanism, so as to Rotate the box picking device 1 around the vertical axis to change the orientation of the opening of the accommodation space 161, so that the box 3 pick-and-place mechanism and the transmission mechanism 17 can realize the transfer of the box 3 between the mounting frame 16 and the temporary storage partition 26 . The setting of the rotating mechanism can refer to the existing setting, which is not the focus of this application and will not be repeated here.
在一些实施例中,机器人本体2还包括检测组件,检测组件用于检测搬运机器人的工作状态及外界环境状态;控制器用于获取仓储物流的订单信息,并基于订单信息和检测组件的检测结果,对搬运机器人的运行进行智能化调控。In some embodiments, the robot body 2 also includes a detection component, the detection component is used to detect the working state of the handling robot and the external environment state; the controller is used to obtain the order information of the warehouse logistics, and based on the order information and the detection result of the detection component, Intelligently regulate the operation of the handling robot.
如图16-18所示,在一些实施例中,机器人还包括至少两个辅助支撑装置5,至少两个辅助支撑装置5受控于各自的驱动组件58,并分别分布在机器人相对的两侧,至少两个辅助支撑装置5被构造为相对于机器人伸出至与机器人两侧的料架相抵或分离。As shown in Figures 16-18, in some embodiments, the robot further includes at least two auxiliary support devices 5, at least two auxiliary support devices 5 are controlled by respective drive assemblies 58, and are respectively distributed on opposite sides of the robot. , at least two auxiliary support devices 5 are configured to protrude relative to the robot to abut against or separate from the material racks on both sides of the robot.
在一些实施例中,辅助支撑装置5包括固定基座50,以及通过伸缩机构以可伸缩的方式连接在所述固定基座50上的支撑元件51。伸缩机构受控于驱动组件58且被构造为驱动所述支撑元件51相对于固定基座50移动至于对应侧的料架相抵或分离。In some embodiments, the auxiliary support device 5 includes a fixed base 50, and a support element 51 telescopically connected to the fixed base 50 through a telescopic mechanism. The telescoping mechanism is controlled by the driving assembly 58 and is configured to drive the supporting element 51 to move relative to the fixed base 50 to abut against or separate from the racks on the corresponding side.
实施例一Embodiment one
具体地,如图17和图18所示,辅助支撑装置5包括固定基座50,以及通过伸缩机构以可伸缩的方式连接在固定基座50上的支撑元件51,其中伸缩机构受控于驱动组件58且被构造为驱动支撑元件51相对于固定基座50移动至与对应侧的料架相抵或分离。为了便于更好地理解辅助支撑装置5的结构,请一并参见图,该图是图所示辅助支撑装置5的主视结构示意图。Specifically, as shown in Figures 17 and 18, the auxiliary supporting device 5 includes a fixed base 50, and a support element 51 telescopically connected to the fixed base 50 through a telescopic mechanism, wherein the telescopic mechanism is controlled by the drive The component 58 is configured to drive the supporting element 51 to move relative to the fixed base 50 to abut against or separate from the material shelf on the corresponding side. In order to better understand the structure of the auxiliary support device 5 , please also refer to the figure, which is a front structural schematic diagram of the auxiliary support device 5 shown in the figure.
其中,固定基座50具体为方形板,其通过螺纹连接或粘接等方式固定连接在门架24的侧壁上,支撑元件51与固定基座50形状相同,支撑元件51通过伸缩机构以伸缩的方式 连接在固定基座50上,在驱动组件58的作用下伸缩机构带动支撑元件51向远离或靠近支撑元件51移动。Wherein, the fixed base 50 is specifically a square plate, which is fixedly connected on the side wall of the door frame 24 by means of threaded connection or bonding, and the support element 51 has the same shape as the fixed base 50. Connected to the fixed base 50 in a manner, the telescoping mechanism drives the support element 51 to move away from or close to the support element 51 under the action of the drive assembly 58 .
需要说明的是,本实施例中固定基座50固定在门架24上,其固定位置可以为沿门架24延伸方向的下部区域、中部区域或上部区域。当然,固定基座50也可以设置在升降组件25或取还箱组件上,使其可以随升降组件25到达门架24延伸方向的任意位置。It should be noted that, in this embodiment, the fixing base 50 is fixed on the door frame 24 , and its fixing position can be a lower area, a middle area or an upper area along the extending direction of the door frame 24 . Of course, the fixed base 50 can also be arranged on the lifting assembly 25 or the retrieving box assembly, so that it can reach any position in the extending direction of the door frame 24 along with the lifting assembly 25 .
伸缩机构包括剪叉单元,剪叉单元包括交叉布置且在交叉点位置铰接在一起的第一连杆52机构和第二连杆53机构。其中,第一连杆52机构的一个端部与固定基座50铰接,另一个端部以可滑动的方式活动连接在支撑元件51上;第二连杆53机构的一个端部与支撑元件51铰接,另一个端部以可滑动的方式活动连接在固定基座50上。The telescoping mechanism includes a scissors unit, and the scissors unit includes a first link 52 mechanism and a second link 53 mechanism that are arranged crosswise and hinged together at the intersection point. Wherein, one end of the first connecting rod 52 mechanism is hinged with the fixed base 50, and the other end is movably connected to the supporting element 51 in a slidable manner; one end of the second connecting rod 53 mechanism is connected to the supporting element 51 Hinged, the other end is movably connected to the fixed base 50 in a slidable manner.
详细地,第一连杆52机构包括平行设置的两个第一连杆52,第二连杆53机构包平行设置的两个第二连杆53,其中,两个第一连杆52的相同端铰接在同一铰接轴上,两个第二连杆53的相同端铰接在同一铰接轴,同侧的第一连杆52和第二连杆53交叉且铰接在一起。In detail, the first connecting rod 52 mechanism includes two first connecting rods 52 arranged in parallel, and the second connecting rod 53 mechanism includes two second connecting rods 53 arranged in parallel, wherein the two first connecting rods 52 have the same The two ends are hinged on the same hinge axis, the same ends of the two second connecting rods 53 are hinged on the same hinge axis, and the first connecting rod 52 and the second connecting rod 53 on the same side intersect and are hinged together.
更为详细地,两个第一连杆52的下端均铰接在第一下铰接轴54上,两个第一连杆52的上端分别铰接在同轴设置的两个第一上铰接轴55上,而这两个第一上铰接轴55均以可滑动的方式活动连接在支撑元件51上,支撑元件51上开设有两个长条形孔5a,两个第一上铰接轴55分别贯穿两个长条形孔5a并且沿该长条形孔5a相对于支撑元件51上下滑动。In more detail, the lower ends of the two first connecting rods 52 are hinged on the first lower hinge shaft 54, and the upper ends of the two first connecting rods 52 are respectively hinged on the two first upper hinge shafts 55 arranged coaxially. , and the two first upper hinge shafts 55 are movably connected to the support element 51 in a slidable manner, the support element 51 is provided with two elongated holes 5a, and the two first upper hinge shafts 55 respectively pass through the two A strip-shaped hole 5a and slide up and down relative to the support member 51 along the strip-shaped hole 5a.
同样,两个第二连杆53的下端分别铰接在同轴设置的两个第二下铰接轴56上,两个第二下铰接轴56固定或可转动的连接在支撑元件51上;两个第二连杆53的上端均铰接在第二上铰接轴57上,第二上铰接轴57以可滑动的方式活动连接在固定基座50上,具体地,该固定基座50上也开设有两个长条形孔5a,第二上铰接轴57贯穿者两个长条形孔5a并且可在外力作用下沿该长条形孔5a滑动。Similarly, the lower ends of the two second connecting rods 53 are respectively hinged on two second lower hinge shafts 56 coaxially arranged, and the two second lower hinge shafts 56 are fixedly or rotatably connected to the support element 51; The upper ends of the second connecting rods 53 are all hinged on the second upper hinge shaft 57, and the second upper hinge shaft 57 is movably connected to the fixed base 50 in a slidable manner. Specifically, the fixed base 50 is also provided with Two elongated holes 5a, the second upper hinge shaft 57 passes through the two elongated holes 5a and can slide along the elongated holes 5a under the action of external force.
驱动该伸缩机构的驱动组件58包括丝杆推杆电机,丝杆推杆电机的机壳固定连接在固定基座50上,其驱动轴与第二上铰接轴57固定连接,控制电机正转或反转即可使其驱动轴带动第二上铰接轴57沿长条形孔5a上下滑动。The drive assembly 58 that drives this retractable mechanism includes a screw rod push rod motor, the casing of the screw rod push rod motor is fixedly connected on the fixed base 50, and its drive shaft is fixedly connected with the second upper hinge shaft 57 to control the forward rotation of the motor or Reversing can make its driving shaft drive the second upper hinge shaft 57 to slide up and down along the elongated hole 5a.
具体地,当推杆丝杆电机正转时,第二上铰接轴57沿长条形孔5a向上滑动,此时剪叉单元的第一连杆52机构和第二连杆53机构回缩,继而使固定基座50和支撑元件51两者沿逐渐靠近彼此的方向运动,也就是货物搬运机器人整体位于图中工作状态,即辅助支撑装置5相对于门架24位于缩回状态,其支撑元件51并未与对应侧的料架相抵,此时辅助支撑装置5没有提到支撑作用。Specifically, when the push rod screw motor rotates forward, the second upper hinge shaft 57 slides upward along the elongated hole 5a, and at this time, the first connecting rod 52 mechanism and the second connecting rod 53 mechanism of the scissors unit retract, Then both the fixed base 50 and the support element 51 are moved in a direction gradually approaching each other, that is, the cargo handling robot as a whole is in the working state in the figure, that is, the auxiliary support device 5 is in a retracted state relative to the door frame 24, and its support element 51 is not against the material shelf on the corresponding side, and the auxiliary supporting device 5 does not have a supporting function at this moment.
反之,当推杆丝杆电机反转时,第二上铰接轴57沿与之对应的长条形孔5a向下滑动,此时剪叉单元的第一连杆52机构和第二连杆53机构扩张,从而使固定基座50和支撑元件51两者沿逐渐远离彼此的方向运动,也即货物搬运机器人整体位于图中工作状态,即辅助支撑装置5相对于门架24位于伸出状态,其支撑元件51伸出至与对应侧的料架相抵,此时辅助支撑装置5利用相对侧的两个料架支撑门架24,防止其晃动。Conversely, when the push rod screw motor reverses, the second upper hinged shaft 57 slides down along the elongated hole 5a corresponding thereto, at this moment the first link 52 mechanism and the second link 53 of the scissors unit The mechanism expands, so that both the fixed base 50 and the support element 51 move in a direction gradually away from each other, that is, the overall cargo handling robot is in the working state in the figure, that is, the auxiliary support device 5 is in the extended state relative to the door frame 24, Its supporting element 51 stretches out to the material rack on the corresponding side, and at this time, the auxiliary support device 5 utilizes the two material racks on the opposite side to support the door frame 24 to prevent it from shaking.
实施例二Embodiment two
如图19所示,实施例二中货物搬运机器人的结构基本上与实施例一相同,两者的主要区别在于辅助支撑装置5'的具体结构不同,为了保持文本简洁,下面将结合说明书附图19和附图20,来详细地说明实施例二中辅助支撑装置5'的具体结构,其中与实施例一相同的部分不再赘述。需要说明的是,图至图中除了辅助支撑装置5'外,其他功能组件的附图标记与实施例一的附图16至图18中的附图标记相同。As shown in Figure 19, the structure of the cargo handling robot in Embodiment 2 is basically the same as that of Embodiment 1. The main difference between the two is that the specific structure of the auxiliary support device 5' is different. In order to keep the text concise, the following will be combined with the drawings of the description 19 and accompanying drawing 20, to describe in detail the specific structure of the auxiliary supporting device 5' in the second embodiment, and the same parts as those in the first embodiment will not be repeated here. It should be noted that, except for the auxiliary supporting device 5 ′, the reference numerals of other functional components are the same as the reference numerals in Fig. 16 to Fig. 18 of the first embodiment.
其中,图19是本公开所提供的货物搬运机器人第二具体实施例在使用状态下的立体结构示意图;图是图所示结构的主视图;图是图中辅助支撑装置5'的立体结构示意图。Among them, FIG. 19 is a schematic diagram of the three-dimensional structure of the second specific embodiment of the cargo handling robot provided by the present disclosure in use; the figure is a front view of the structure shown in the figure; the figure is a schematic perspective view of the three-dimensional structure of the auxiliary support device 5' in the figure .
参见图19所示,本实施例中,辅助支撑装置5'包括固定基座50',以及通过伸缩机构以可伸缩的方式连接在固定基座50'上的支撑元件51',其中伸缩机构受控于驱动组件57' 且被构造为驱动支撑元件51'相对于固定基座50'移动至与对应侧的料架相抵或分离。Referring to Fig. 19, in this embodiment, the auxiliary support device 5' includes a fixed base 50', and a supporting element 51' telescopically connected to the fixed base 50' through a telescopic mechanism, wherein the telescopic mechanism is controlled by Controlled by the driving assembly 57' and configured to drive the supporting element 51' to move relative to the fixed base 50' to abut against or separate from the material shelf on the corresponding side.
其中,固定基座50'包括基板500'以及固定连接在基板500'下板面的后立板501'、左侧板502'和右侧板503',并且后立板501'和左侧板502'之间形成导向槽504'。支撑元件51'具体为一个四棱柱杆,该支撑元件51'在驱动组件57'作用下被驱动伸缩机构从导向槽504'伸出或者回缩至导向槽504'内,继而实现支撑元件51'相对于固定基座50'运动至与对应侧的料架相抵或分离的目的。Wherein, the fixed base 50' includes a base plate 500' and a rear vertical plate 501' fixedly connected to the lower surface of the base plate 500', a left side plate 502' and a right side plate 503', and the rear vertical plate 501' and the left side plate Guide grooves 504' are formed between 502'. The support element 51' is specifically a quadrangular prism rod. The support element 51' is driven by the telescopic mechanism under the action of the drive assembly 57' to protrude from the guide groove 504' or retract into the guide groove 504', and then realize the support element 51' It moves relative to the fixed base 50' to the purpose of abutting against or separating from the material shelf on the corresponding side.
本实施例中,固定基座50'的基板500'固定在升降组件25的下板面,以使支撑元件51'在回缩状态下位于货物搬运机器人的宽度范围内。在另一些实施例中,该固定基板500'也可以固定连接在门架24的沿其延伸方向的下部区域、中部区域或上部区域,只要保证辅助支撑装置5'在缩回状态下位于货物搬运机器人的宽度范围内,而其伸出时能从货物搬运机器人的宽度方向伸出即可。需要说明的是,货物搬运机器人的宽度是指其所在两个料架之间垂直距离上的尺寸。In this embodiment, the base plate 500' of the fixed base 50' is fixed on the lower surface of the lifting assembly 25, so that the support element 51' is located within the width range of the cargo handling robot in a retracted state. In some other embodiments, the fixed base plate 500' can also be fixedly connected to the lower area, middle area or upper area of the door frame 24 along its extending direction, as long as the auxiliary supporting device 5' is in the retracted state and located at the cargo handling area. Within the width range of the robot, it only needs to be able to stretch out from the width direction of the cargo handling robot when it is extended. It should be noted that the width of the cargo handling robot refers to the dimension on the vertical distance between two racks where it is located.
另外,本实施例中辅助支撑装置5'连接在升降组件25上,其可以随升降组件25沿中门架24的延伸方向上移动,从而可以在门架24的任意位置与对应侧料架相抵提到支撑作用,辅助支撑装置5'的辅助功能灵活,可以满足不同位置的支撑需求。为了便于更好理解辅助支撑装置5'与升降组件25的位置及装配关系,请一并参见图,图是图中辅助支撑装置5'和升降组件25两者装配体的立体结构示意图。In addition, in this embodiment, the auxiliary support device 5' is connected to the lifting assembly 25, which can move along with the lifting assembly 25 along the extension direction of the middle door frame 24, so that it can be offset against the corresponding side material frame at any position of the door frame 24. Referring to the supporting function, the auxiliary supporting device 5' has flexible auxiliary functions and can meet the supporting requirements of different positions. In order to better understand the position and assembly relationship of the auxiliary supporting device 5' and the lifting assembly 25, please refer to the figure together, which is a three-dimensional structural schematic diagram of the assembly of the auxiliary supporting device 5' and the lifting assembly 25 in the figure.
伸缩机构包括受控于驱动组件57'的丝杆52'螺母传动机构,丝杆52'螺母机构传动机构被构造成在驱动组件57'作用下驱动支撑元件51'相对于固定基座50'移动至与对应侧的料架相抵或分离。The telescopic mechanism includes a screw 52' nut transmission mechanism controlled by a drive assembly 57', and the screw 52' nut mechanism transmission mechanism is configured to drive the support element 51' to move relative to the fixed base 50' under the action of the drive assembly 57' To resist or separate from the material shelf on the corresponding side.
详细地,丝杆52'螺母传动机构的丝杆52'通过轴承等结构以可转动的方式连接在固定基座50'的左侧板502'和右侧板503'上,其螺母部分包括相互固定连接的螺母块53'和滑块54',螺母块53'位于左侧板502'和右侧板503'之间并且与丝杆52'螺纹连接,滑块54'上开设有滑槽,基板500'上固定连接有沿丝杆52'轴向延伸的滑轨55',滑块54'通过滑槽和滑轨55'滑动连接,滑块54'又与支撑元件51'固定连接。当然,也可以是,支撑元件51'通过导轨19组件与基板500'导向配合在一起,丝杆52'螺纹连接的螺母块53'直接与支撑元件51'连接在一起。In detail, the screw 52' of the nut drive mechanism is rotatably connected to the left side plate 502' and the right side plate 503' of the fixed base 50' through bearings and other structures, and its nut part includes mutual The nut block 53' and the slider 54' are fixedly connected, the nut block 53' is located between the left side plate 502' and the right side plate 503' and is screwed with the screw rod 52', and a slide groove is opened on the slider 54', A sliding rail 55' extending axially along the screw rod 52' is fixedly connected to the base plate 500', the sliding block 54' is slidably connected to the sliding rail 55' through a sliding groove, and the sliding block 54' is fixedly connected to the supporting element 51'. Of course, it is also possible that the support element 51' is guided and fit together with the base plate 500' through the guide rail 19 assembly, and the nut block 53' threaded with the threaded rod 52' is directly connected with the support element 51'.
驱动组件57'包括电机,电机的机壳固定连接在右侧板503'上,其电枢轴用于驱动丝杆52'转动,控制电机的电枢轴的转向即可实现螺母块53'相对于丝杆52'的沿向左或向右方向上的滑动,继而使滑块54'带动支撑元件51'由固定基座50'的导向槽504'伸出或缩回至固定基座50'的导向槽504'内。The driving assembly 57' includes a motor, and the casing of the motor is fixedly connected to the right side plate 503', and its armature shaft is used to drive the screw rod 52' to rotate. Controlling the turning of the armature shaft of the motor can realize the relative rotation of the nut block 53'. Sliding on the left or right direction of the screw rod 52', the slider 54' drives the support element 51' to extend or retract from the guide groove 504' of the fixed base 50' to the fixed base 50' in the guide groove 504'.
在本公开一个实施方式中,为了提高辅助支撑装置5'支撑料架的稳定性,本实施例中在支撑元件51'的端部铰接有抵接板56',具体地,支撑元件51'开设了安装槽,抵接板56'的一个端部插入安装槽内并通过铰接轴与支撑元件51'铰接,该抵接板56'的抵接面成T字型结构,其竖直部插入安装槽内。In one embodiment of the present disclosure, in order to improve the stability of the auxiliary support device 5' supporting the material shelf, in this embodiment, an abutment plate 56' is hinged at the end of the support element 51', specifically, the support element 51' is opened One end of the abutment plate 56' is inserted into the installation groove and hinged to the support element 51' through the hinge shaft. in the slot.
抵接板56'具有第一位置和第二位置:在第一位置时,抵接板56'被收纳且预压紧在固定基座50'的导向槽504'内,抵接板56'与支撑元件51'的延伸方向保持一致;在第二位置时,抵接板56'与固定基座50'的导向槽504'脱离,抵接板56'在弹性恢复力下转动至与支撑元件51'呈预定角度。The abutment plate 56' has a first position and a second position: in the first position, the abutment plate 56' is received and pre-pressed in the guide groove 504' of the fixed base 50', and the abutment plate 56' and The extension direction of the support element 51' is consistent; in the second position, the abutment plate 56' is separated from the guide groove 504' of the fixed base 50', and the abutment plate 56' rotates to align with the support element 51 under the elastic restoring force. 'at a predetermined angle.
在本公开一个实施方式中,本实施例中抵接板56'可通过扭簧和支撑元件51'弹性连接,并且在第二位置时,在扭簧的弹性力作用下使抵接板56'与支撑元件51'呈°角度设置。In one embodiment of the present disclosure, in this embodiment, the abutment plate 56' can be elastically connected to the supporting element 51' through a torsion spring, and when in the second position, the abutment plate 56' is made to It is arranged at an angle of ° with the supporting element 51'.
为了简化辅助支撑装置5'整体结构,固定基座50'上位于导向槽504'的开口端还设置了倾斜压板505',该倾斜压板505'被构造成当支撑元件51'缩回至固定基座50'的导向槽504'中时,用于与抵接板56'接触以将抵接板56'推到。该倾斜压板505'相对于导向槽504'的开口端向外侧延伸。In order to simplify the overall structure of the auxiliary supporting device 5', an inclined pressing plate 505' is provided at the opening end of the guide groove 504' on the fixed base 50', and the inclined pressing plate 505' is configured so that when the supporting element 51' retracts to the fixed base When the seat 50' is in the guide groove 504', it is used to contact the abutment plate 56' to push the abutment plate 56'. The inclined pressing plate 505' extends outward relative to the opening end of the guide groove 504'.
在一些实施例中,如图21至图23所示,机器人还包括伸缩叉装置1-4,升降组件25 与伸缩叉装置1-4相连以驱动伸缩叉装置1-4相对于门架24可上下移动,取箱装置1设在伸缩叉装置1-4上,伸缩叉装置1-4包括与升降组件25连接的移动托盘1-45和沿移动托盘1-45的两侧相对设置的多级伸缩机构1-41,其中,每个多级伸缩机构1-41设置有用于限位货箱3的后拨指1-43A;In some embodiments, as shown in FIGS. 21 to 23 , the robot further includes a telescopic fork device 1-4, and the lifting assembly 25 is connected with the telescopic fork device 1-4 to drive the telescopic fork device 1-4 relative to the door frame 24. Moving up and down, the box-taking device 1 is arranged on the telescopic fork device 1-4, and the telescopic fork device 1-4 includes a mobile pallet 1-45 connected with the lifting assembly 25 and a multi-stage counter set along both sides of the mobile pallet 1-45. Telescopic mechanism 1-41, wherein each multi-stage telescopic mechanism 1-41 is provided with a rear finger 1-43A for limiting the container 3;
伸缩叉装置1-4还包括到位检测装置1-44和控制装置,到位检测装置1-44用于检测所述后拨指1-43A位置,控制装置用于在到位检测装置1-44检测到后拨指1-43A的位置超出设定位置时,控制移动底盘23及升降组件25锁死。The telescopic fork device 1-4 also includes an in-position detection device 1-44 and a control device, the in-position detection device 1-44 is used to detect the position of the rear finger 1-43A, and the control device is used to detect the When the position of the rear finger 1-43A exceeds the set position, the mobile chassis 23 and the lifting assembly 25 are controlled to be locked.
在一些实施例中,控制装置还用于在到位检测装置1-44检测后拨指1-43A未超出设定位置时,控制移动底盘23及升降组件25解除锁死状态。In some embodiments, the control device is also used to control the mobile chassis 23 and the lifting assembly 25 to release the locked state when the finger 1-43A does not exceed the set position after detection by the in-position detection device 1-44.
具体地,机器人还包括可沿门架24的高度方向升降移动的伸缩叉装置1-4,以及驱动伸缩叉装置1-4沿门架24的高度方向升降移动的升降组件25。示例性的,门架24背向装配暂存隔板26的一面沿其高度方向滑动设置有升降组件25,升降组件25可采用齿轮齿条机构、丝杠机构或同步带机构中的任意一种方式完成驱动,使升降组件25沿门架24进行垂直升降。Specifically, the robot also includes a telescopic fork device 1 - 4 that can move up and down along the height direction of the mast 24 , and a lifting assembly 25 that drives the telescopic fork device 1 - 4 to move up and down along the height direction of the mast 24 . Exemplarily, the side of the door frame 24 facing away from the assembled temporary storage partition 26 is slidably provided with a lifting assembly 25 along its height direction, and the lifting assembly 25 can adopt any one of a rack and pinion mechanism, a screw mechanism or a synchronous belt mechanism way to complete the drive, so that the lifting assembly 25 is vertically lifted along the door frame 24.
参考图21至图23,升降组件25上设置有用于取还货箱3的伸缩叉装置1-4,伸缩叉装置1-4随升降组件25进行升降至不同高度,对不同层高的货箱3进行取还操作。Referring to Fig. 21 to Fig. 23, the telescopic fork device 1-4 for retrieving and returning the container 3 is arranged on the lifting assembly 25, and the telescopic fork device 1-4 is lifted to different heights with the lifting assembly 25, and the container of different heights 3 Perform the withdrawal and return operation.
在伸缩叉装置1-4与升降组件25连接时,伸缩叉装置1-4通过旋转组件与升降组件25连接,该旋转组件用于带动伸缩叉装置1-4水平旋转。示例性的,伸缩叉装置1-4包括有一个连接在升降组件25上的移动托盘1-45,移动托盘1-45通过旋转组件连接在升降组件25上,移动托盘1-45可绕旋转组件中心转动。移动托盘1-45与货架4和每层暂存隔板26均移动到位配合,在旋转组件的驱动下,伸缩叉装置1-4可实现对巷道两侧的货架4上取放货箱3,从而实现双向取还货箱3。When the telescopic fork device 1-4 is connected with the lifting assembly 25, the telescopic fork device 1-4 is connected with the lifting assembly 25 through a rotating assembly, and the rotating assembly is used to drive the telescopic fork device 1-4 to rotate horizontally. Exemplarily, the telescopic fork device 1-4 includes a mobile pallet 1-45 connected to the lifting assembly 25, the mobile pallet 1-45 is connected to the lifting assembly 25 through a rotating assembly, and the mobile pallet 1-45 can rotate around the rotating assembly Center turns. The mobile pallet 1-45 moves in place with the shelf 4 and each layer of temporary storage partitions 26. Driven by the rotating assembly, the telescopic fork device 1-4 can realize the loading and unloading of the container 3 on the shelf 4 on both sides of the roadway. Thereby realize two-way fetching and returning cargo box 3.
在具体实现取还货箱3操作时,伸缩叉装置1-4还包括沿移动托盘1-45的两侧相对设置的多级伸缩机构1-41;多级伸缩机构1-41设置有两个,多级伸缩机构1-41至少为三级伸缩。当然,多级伸缩机构1-41也可为三级伸缩机构、四级伸缩机构、五级伸缩机构等,在此不做过多限定。When specifically realizing the operation of taking and returning the container 3, the telescopic fork device 1-4 also includes a multi-stage telescopic mechanism 1-41 oppositely arranged along both sides of the mobile pallet 1-45; the multi-stage telescopic mechanism 1-41 is provided with two , the multi-stage telescopic mechanism 1-41 is at least three-stage telescopic. Of course, the multi-stage telescopic mechanism 1-41 can also be a three-stage telescopic mechanism, a four-stage telescopic mechanism, a five-stage telescopic mechanism, etc., which will not be limited here.
多级伸缩机构1-41为三级伸缩机构时包括:固定设置在移动托盘1-45上的首节臂、滑动连接首节臂的中间臂以及滑动连接中间臂的末节臂。三个臂可沿取货方向滑动,以实现多级伸缩机构1-41沿取货方向伸缩。When the multi-stage telescopic mechanism 1-41 is a three-stage telescopic mechanism, it includes: a first arm fixedly arranged on the moving tray 1-45, an intermediate arm slidably connected to the first arm, and a terminal arm slidably connected to the intermediate arm. The three arms can slide along the direction of picking up the goods, so as to realize the expansion and contraction of the multi-stage telescopic mechanism 1-41 along the way of picking up the goods.
在提高取还货箱3操作时,在相对设置的末节臂沿取货方向的前端转动连接有前拨指1-42,相对设置的末节臂沿取货方向的后端固定设置有后拨指1-43A。前拨指1-42以及后拨指1-43A均沿取货方向随末节臂移动。以上描述可以看出,多级伸缩机构1-41无论是三级伸缩机构或是四级伸缩机构等时,前拨指1-42和后拨指1-43A的装配位置不变,均为装配在末节臂上。When raising the operation of picking up and returning the cargo box 3, a front finger 1-42 is rotated and connected to the front end of the oppositely arranged terminal arm along the direction of picking up goods, and a rear finger is fixedly arranged at the rear end of the relatively set up terminal arm along the direction of picking up goods. 1-43A. Both the front dial finger 1-42 and the rear dial finger 1-43A move along with the terminal arm along the picking direction. It can be seen from the above description that whether the multi-stage telescopic mechanism 1-41 is a three-stage telescopic mechanism or a four-stage telescopic mechanism, the assembly positions of the front dial finger 1-42 and the rear dial finger 1-43A remain unchanged, and they are all assembled on the stub arm.
前拨指1-42通过舵机转动连接在末节臂上,前拨指1-42具有两个位置:工作位及避让位。前拨指1-42在工作时,舵机带动前拨指1-42转动到水平位置。两个前拨指1-42相对而置,以便于在多级伸缩机构1-41收缩时,可拉动待搬运货箱3。The front finger 1-42 is connected to the terminal arm through the rotation of the steering gear, and the front finger 1-42 has two positions: a working position and an avoidance position. When the front finger 1-42 is working, the steering gear drives the front finger 1-42 to rotate to a horizontal position. The two front fingers 1-42 are placed opposite to each other, so that when the multi-stage telescopic mechanism 1-41 shrinks, the container 3 to be transported can be pulled.
末节臂远离前拨指1-42的一端固定装配有后拨指1-43A,后拨指1-43A用于将移动托盘1-45上的货箱3推送至货架4或暂存隔板26上进行存放。如图中所示,后拨指1-43A可相对设置有两个,在多级伸缩机构1-41延伸过程中,对移动托盘1-45上的货箱3由两侧的后拨指1-43A实现拦挡推动,从而将移动托盘1-45上的货箱3推送至货架4或者是机器人自身的暂存隔板26上。The rear finger 1-43A is fixedly mounted on the end of the distal arm away from the front finger 1-42, and the rear finger 1-43A is used to push the container 3 on the mobile pallet 1-45 to the shelf 4 or the temporary storage partition 26 on for storage. As shown in the figure, two rear finger 1-43A can be arranged oppositely. During the extension process of the multi-stage telescopic mechanism 1-41, the container 3 on the mobile pallet 1-45 is controlled by the rear finger 1 on both sides. -43A realizes blocking and pushing, thereby pushing the cargo box 3 on the mobile pallet 1-45 to the shelf 4 or the temporary storage partition 26 of the robot itself.
后拨指1-43A也可一体式连接在两侧的末节臂之间,同样在多级伸缩机构1-41延伸过程中对移动托盘1-45上的货箱3实现拦挡推送。The rear dial finger 1-43A can also be integrally connected between the end arms on both sides, and also block and push the container 3 on the mobile pallet 1-45 during the extension process of the multi-stage telescopic mechanism 1-41.
伸缩叉装置1-4在异常状态下有可能出现抱叉无法收回到位的情况,此时机器人如果继续做后续动作会对机器人、货架4货箱3甚至工作人员产生危险。为此,本申请利用固 定式设置的后拨指1-43A作为定位标识,检测多级伸缩机构1-41的到位信息。The telescopic fork device 1-4 may have the situation that the fork cannot be retracted in place under abnormal conditions. At this time, if the robot continues to do follow-up actions, it will cause danger to the robot, the shelf 4, the container 3, and even the staff. For this reason, the application utilizes the rear dial finger 1-43A of fixed arrangement as positioning sign, detects the in-place information of multistage telescoping mechanism 1-41.
在具体检测后拨指1-43A的位置信息时,伸缩叉装置1-4还包括:用于检测后拨指1-43A位置的到位检测装置1-44。该到位检测装置1-44固定装配在移动托盘1-45上,用于检测后拨指1-43A的位置信息。When specifically detecting the position information of the rear finger 1-43A, the telescopic fork device 1-4 further includes: an in-position detection device 1-44 for detecting the position of the rear finger 1-43A. The position detecting device 1-44 is fixedly assembled on the moving tray 1-45, and is used for detecting the position information of the rear dial finger 1-43A.
到位检测装置1-44为设置在移动托盘1-45上且与后拨指1-43A相对应的漫反射传感器、激光传感器、微动开关或形行程开关中的任意一种。在后拨指1-43A为相对设置的两个时,到位检测装置1-44的个数为两个,且分别与两个后拨指1-43A一一对应,从而增强检测精准度。在后拨指1-43A为一体式连接在两侧末节臂之间时,到位检测装置1-44的个数可为一个或两个。The in-position detection device 1-44 is any one of a diffuse reflection sensor, a laser sensor, a micro switch or a shape travel switch arranged on the moving tray 1-45 and corresponding to the rear finger 1-43A. When there are two rear dial fingers 1-43A arranged oppositely, there are two in-position detection devices 1-44, which correspond to the two rear dial fingers 1-43A respectively, thereby enhancing the detection accuracy. When the rear finger 1-43A is integrally connected between the end arms on both sides, the number of in-position detection devices 1-44 can be one or two.
同时还包括有控制装置,该控制装置采用PLC控制器、单片机控制器工控计算机中的其中一种。且控制装置接收到位检测装置1-44反馈的后拨指1-43A位置信息后,控制多级伸缩机构1-41、移动底盘23、升降组件25以及旋转组件等对应工作,均为现有控制方法中常用的技术手段,在此不做过多赘述。At the same time, it also includes a control device, which adopts one of a PLC controller and a single-chip controller industrial computer. And after the control device receives the position information of the rear finger 1-43A fed back by the position detection device 1-44, it controls the corresponding work of the multi-stage telescopic mechanism 1-41, the mobile chassis 23, the lifting assembly 25 and the rotating assembly, all of which are existing control The technical means commonly used in the method will not be repeated here.
控制装置在到位检测装置1-44检测到后拨指1-43A的位置超出设定位置时,控制移动底盘23、升降组件25以及旋转组件锁死。控制装置还用于在到位检测装置1-44检测后拨指1-43A未超出设定位置时,控制移动底盘23、升降组件25以及旋转组件解除锁死状态。需要具体说明的,该设定位置位为一个合理的区间,使得在微小的机械运动误差和控制误差下后拨指1-43A可以运行到此区间内,同时保证后拨指1-43A运行到此区间后整机做升降、旋转、行走动作时不会剐蹭到自身其余部件、货架4、货箱3等。When the position detection device 1-44 detects that the position of the rear finger 1-43A exceeds the set position, the control device controls the mobile chassis 23, the lifting assembly 25 and the rotating assembly to lock. The control device is also used to control the mobile chassis 23, the lifting assembly 25 and the rotating assembly to release the locked state when the finger 1-43A does not exceed the set position after detection by the in-position detection device 1-44. It needs to be specifically stated that the setting position is a reasonable interval, so that the rear finger 1-43A can run to this range under the slight mechanical movement error and control error, and at the same time ensure that the rear finger 1-43A runs to After this interval, the whole machine will not scratch other parts, shelves 4, cargo boxes 3, etc. when it lifts, rotates, and walks.
上述描述中可以看出,在将货架4上的货箱3取至机器人上运输时,移动底盘23移动至待取货箱3的货架4处,升降组件25带动伸缩叉装置1-4升高至与待取货箱3等高的货架4层,此时的前拨指1-42处于避让位。如图中所示,多级伸缩机构1-41在待取货箱3的两侧依次由末节臂沿中间臂延伸,此时的到位检测装置1-44检测到后拨指1-43A位置超出设定位置,控制装置控制移动底盘23、升降组件25以及旋转组件处于锁死状态。It can be seen from the above description that when the container 3 on the shelf 4 is taken to the robot for transportation, the mobile chassis 23 moves to the shelf 4 where the container 3 is to be picked up, and the lifting assembly 25 drives the telescopic fork device 1-4 to rise To the 4th floor of the shelf with the same height as the container 3 to be picked up, the front finger 1-42 is in the avoidance position at this moment. As shown in the figure, the multi-stage telescopic mechanism 1-41 extends from the terminal arm along the middle arm on both sides of the container 3 to be picked up. At this time, the in-position detection device 1-44 detects that the position of the rear finger 1-43A exceeds The position is set, and the control device controls the mobile chassis 23, the lifting assembly 25 and the rotating assembly to be in a locked state.
在末节臂完全延伸后,中间臂沿首节臂延伸,直至前拨指1-42位于货箱3的背面。舵机转动使前拨指1-42位于工作位,随后在多级伸缩机构1-41回缩过程中,前拨指1-42将货箱3由货架4拉至移动托盘1-45上。如图或图中所示,在中间臂和末节臂逐渐收缩到位后,到位检测装置1-44检测到后拨指1-43A回位至设定位置,控制移动底盘23、升降组件25以及旋转组件解除锁死状态。After the terminal arm is fully extended, the middle arm extends along the first arm until the front finger 1-42 is located at the back of the container 3 . The steering gear rotates so that the front finger 1-42 is located at the working position, and then during the retraction process of the multi-stage telescopic mechanism 1-41, the front finger 1-42 pulls the container 3 from the shelf 4 to the mobile pallet 1-45. As shown in the figure or the figure, after the middle arm and the end arm gradually shrink into place, the in-position detection device 1-44 detects that the dial finger 1-43A returns to the set position, and controls the mobile chassis 23, the lifting assembly 25 and the rotation The component is released from the deadlock state.
从而,控制装置控制升降组件25带动伸缩叉装置1-4升降至与合适空位的暂存隔板26层等高位置,控制旋转组件带动移动托盘1-45回转度。舵机带动前拨指1-42处于避让位,多级伸缩机构1-41在延伸过程中由后拨指1-43A将移动托盘1-45上的货箱3推送至暂存隔板26上存放。并在后拨指1-43A移动过程中,到位检测装置1-44检测到后拨指1-43A位置超出设定位置,此时,控制装置控制移动底盘23、升降组件25以及旋转组件处于锁死状态。反之,将暂存隔板26上的货箱3放置在货架4上存放时,同样采取上述方式进行操作,在此不做过多赘述。Thereby, the control device controls the lifting assembly 25 to drive the telescopic fork device 1-4 to lift to the same height position as the temporary storage partition 26 layers of suitable vacancy, and controls the rotating assembly to drive the mobile pallet 1-45 degrees of rotation. The steering gear drives the front finger 1-42 to be in the avoidance position, and the multi-stage telescopic mechanism 1-41 pushes the container 3 on the mobile pallet 1-45 to the temporary storage partition 26 by the rear finger 1-43A during the extension process deposit. And during the moving process of the rear finger 1-43A, the position detection device 1-44 detects that the position of the rear finger 1-43A exceeds the set position. At this time, the control device controls the mobile chassis 23, the lifting assembly 25 and the rotating assembly to be in the lock position dead state. On the contrary, when the container 3 on the temporary storage partition 26 is placed on the shelf 4 for storage, the above-mentioned method is also adopted for operation, and details will not be repeated here.
本申请中,通过后拨指1-43A限位货箱3的同时作为定点机构,到位检测装置1-44检测后拨指1-43A位置是否到位后,方可使机器人进行后续操作,提高机器人的运行安全性。In this application, the rear dial finger 1-43A is used as a fixed-point mechanism while the cargo box 3 is limited. After the in-position detection device 1-44 detects whether the rear dial finger 1-43A is in place, the robot can perform subsequent operations and improve the robot. operational safety.
在本申请的描述中,需要理解的是,术语“中心”、“纵向”、“横向”、“长度”、“宽度”、“厚度”、“上”、“下”、“前”、“后”、“左”、“右”、“竖直”、“水平”、“顶”、“底”“内”、“外”、“顺时针”、“逆时针”、“轴向”、“径向”、“周向”等指示的方位或位置关系为基于附图所示的方位或位置关系,仅是为了便于描述本申请和简化描述,而不是指示或暗示所指的装置或元件必须具有特定的方位、以特定的方位构造和操作,因此不能理解为对本申请的限制。In the description of the present application, it should be understood that the terms "center", "longitudinal", "transverse", "length", "width", "thickness", "upper", "lower", "front", " Back", "Left", "Right", "Vertical", "Horizontal", "Top", "Bottom", "Inner", "Outer", "Clockwise", "Counterclockwise", "Axial", The orientation or positional relationship indicated by "radial", "circumferential", etc. is based on the orientation or positional relationship shown in the drawings, and is only for the convenience of describing the application and simplifying the description, rather than indicating or implying the referred device or element Must be in a particular orientation, constructed, and operate in a particular orientation, and thus should not be construed as limiting of the application.
此外,术语“第一”、“第二”仅用于描述目的,而不能理解为指示或暗示相对重要性或者隐含指明所指示的技术特征的数量。由此,限定有“第一”、“第二”的特征可以明示 或者隐含地包括至少一个该特征。在本申请的描述中,“多个”的含义是至少两个,例如两个,三个等,除非另有明确具体的限定。In addition, the terms "first" and "second" are used for descriptive purposes only, and cannot be interpreted as indicating or implying relative importance or implicitly specifying the quantity of indicated technical features. Thus, features defined as "first" and "second" may explicitly or implicitly include at least one of these features. In the description of the present application, "plurality" means at least two, such as two, three, etc., unless otherwise specifically defined.
在本申请中,除非另有明确的规定和限定,术语“安装”、“相连”、“连接”、“固定”等术语应做广义理解,例如,可以是固定连接,也可以是可拆卸连接,或成一体;可以是机械连接,也可以是电连接或彼此可通讯;可以是直接相连,也可以通过中间媒介间接相连,可以是两个元件内部的连通或两个元件的相互作用关系,除非另有明确的限定。对于本领域的普通技术人员而言,可以根据具体情况理解上述术语在本申请中的具体含义。In this application, terms such as "installation", "connection", "connection" and "fixation" should be interpreted in a broad sense, for example, it can be a fixed connection or a detachable connection, unless otherwise clearly specified and limited. , or integrated; can be mechanically connected, can also be electrically connected or can communicate with each other; can be directly connected, can also be indirectly connected through an intermediary, can be the internal communication of two components or the interaction relationship between two components, Unless expressly defined otherwise. Those of ordinary skill in the art can understand the specific meanings of the above terms in this application according to specific situations.
在本申请中,除非另有明确的规定和限定,第一特征在第二特征“上”或“下”可以是第一和第二特征直接接触,或第一和第二特征通过中间媒介间接接触。而且,第一特征在第二特征“之上”、“上方”和“上面”可是第一特征在第二特征正上方或斜上方,或仅仅表示第一特征水平高度高于第二特征。第一特征在第二特征“之下”、“下方”和“下面”可以是第一特征在第二特征正下方或斜下方,或仅仅表示第一特征水平高度小于第二特征。In the present application, unless otherwise clearly specified and limited, a first feature being "on" or "under" a second feature may mean that the first and second features are in direct contact, or that the first and second features are indirect through an intermediary. touch. Moreover, "above", "above" and "above" the first feature on the second feature may mean that the first feature is directly above or obliquely above the second feature, or simply means that the first feature is higher in level than the second feature. "Below", "beneath" and "beneath" the first feature may mean that the first feature is directly below or obliquely below the second feature, or simply means that the first feature is less horizontally than the second feature.
在本申请中,术语“一个实施例”、“一些实施例”、“示例”、“具体示例”、或“一些示例”等意指结合该实施例或示例描述的具体特征、结构、材料或者特点包含于本申请的至少一个实施例或示例中。在本说明书中,对上述术语的示意性表述不必须针对的是相同的实施例或示例。而且,描述的具体特征、结构、材料或者特点可以在任一个或多个实施例或示例中以合适的方式结合。此外,在不相互矛盾的情况下,本领域的技术人员可以将本说明书中描述的不同实施例或示例以及不同实施例或示例的特征进行结合和组合。In this application, the terms "one embodiment," "some embodiments," "example," "specific examples," or "some examples" mean specific features, structures, materials, or features described in connection with the embodiment or examples. Features are included in at least one embodiment or example of the present application. In this specification, the schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the described specific features, structures, materials or characteristics may be combined in any suitable manner in any one or more embodiments or examples. In addition, those skilled in the art can combine and combine different embodiments or examples and features of different embodiments or examples described in this specification without conflicting with each other.
尽管已经示出和描述了上述实施例,可以理解的是,上述实施例是示例性的,不能理解为对本申请的限制,本领域普通技术人员对上述实施例进行的变化、修改、替换和变型均在本申请的保护范围内。Although the above-mentioned embodiments have been shown and described, it can be understood that the above-mentioned embodiments are exemplary, and should not be construed as limitations on the present application. Changes, modifications, substitutions and variations made by those skilled in the art to the above-mentioned embodiments All within the scope of protection of this application.
Claims (19)
- 一种取箱装置,其特征在于,包括:A box taking device is characterized in that it comprises:安装座,所述安装座可沿前后方向移动;a mounting seat, the mounting seat can move along the front and rear directions;取箱件,所述取箱件设在所述安装座上且与所述安装座在前后方向上可相对移动,所述取箱件的第一端用于与所述货箱配合;A box-taking piece, the box-taking piece is arranged on the mounting seat and can move relative to the mounting seat in the front-rear direction, and the first end of the box-picking piece is used to cooperate with the cargo box;第一弹性件,所述第一弹性件设在所述取箱件的第二端,所述第一弹性件在所述安装座相对于所述取箱件向后移动时可被压缩且具有弹性力,并在所述取箱件的第一端与所述货箱脱离配合后可在所述弹性力的作用下推动所述取箱件相对于所述安装座向后移动。The first elastic part is arranged at the second end of the box-taking part, and the first elastic part can be compressed when the mounting base moves backward relative to the box-taking part and has elastic force, and after the first end of the box-taking piece is disengaged from the cargo box, the box-taking piece can be pushed to move backward relative to the mounting seat under the action of the elastic force.
- 根据权利要求1的取箱装置,其特征在于,所述安装座具有腔室,所述第一弹性件位于所述腔室内,所述取箱件包括吸盘杆和吸盘,所述吸盘杆穿设在所述安装座上且与所述安装座在前后方向上可相对移动,所述吸盘杆的第二端伸入所述腔室内且与所述第一弹性件相连,所述吸盘杆的第一端与所述吸盘相连,所述吸盘可与所述货箱配合。The box removing device according to claim 1, wherein the mounting base has a chamber, the first elastic member is located in the chamber, the box removing member includes a suction cup rod and a suction cup, and the suction cup rod passes through The second end of the sucker rod protrudes into the cavity and is connected with the first elastic member on the mounting base and is movable relative to the mounting base in the front-rear direction, and the second end of the sucker rod is One end is connected with the suction cup, and the suction cup can cooperate with the cargo box.
- 根据权利要求2的取箱装置,其特征在于,所述吸盘杆内具有与所述吸盘连通的通道,所述取箱装置还包括导气接头,所述导气接头设在所述吸盘杆的第二端且具有开口,所述开口与所述通道连通。The box taking device according to claim 2, characterized in that, there is a passage in the suction cup rod communicating with the suction cup, and the box taking device also includes an air guide joint, and the air guide joint is arranged on the suction cup rod. The second end has an opening communicating with the channel.
- 根据权利要求1的取箱装置,其特征在于,所述取箱件为多个,多个所述取箱件中的至少部分沿第一方向间隔布置,所述第一方向正交于所述前后方向和上下方向,所述第一弹性件为多个,多个所述第一弹性件与多个所述取箱件一一对应。The box-taking device according to claim 1, wherein there are a plurality of said box-taking parts, at least some of said box-taking parts are arranged at intervals along a first direction, and said first direction is orthogonal to said In the front-rear direction and the up-down direction, there are a plurality of first elastic members, and the plurality of first elastic members correspond to the plurality of box-removing members one by one.
- 根据权利要求1的取箱装置,其特征在于,还包括第二弹性件,所述第二弹性件设在所述取箱件的第一端且在所述安装座相对于所述取箱件向前移动时所述第二弹性件具有向后推动所述安装座的弹性力。The box-taking device according to claim 1, further comprising a second elastic member, the second elastic piece is arranged at the first end of the box-taking piece and is opposite to the box-taking piece at the mounting base. When moving forward, the second elastic member has an elastic force to push the mounting seat backward.
- 根据权利要求1-5中任一项所述的取箱装置,其特征在于,还包括:安装架,所述安装架具有至少一侧开口的容纳空间,所述安装座设在所述安装架上且相对于所述安装架沿前后方向可移动,The box-taking device according to any one of claims 1-5, further comprising: a mounting frame, the mounting frame has an accommodating space with at least one side opening, and the mounting seat is arranged on the mounting frame up and movable in a front-rear direction relative to the mounting frame,传输机构,所述传输机构设置于所述容纳空间中,所述传输机构具有用于支撑并输送所述货箱的传输面,所述传输机构能够沿前后方向对进出所述容纳空间的所述货箱进行传输。a transmission mechanism, the transmission mechanism is arranged in the accommodation space, the transmission mechanism has a transmission surface for supporting and transporting the container, and the transmission mechanism can move in and out of the accommodation space along the front-rear direction Boxes are transported.
- 根据权利要求6所述的取箱装置,其特征在于,所述传输机构沿第一方向间隔设置有两个,所述第一方向正交于前后方向和上下方向,所述安装座设置在两个所述传输机构之间,所述传输机构包括沿所述第一方向间隔设置的两个转动件以及绕设在两个转动件上的传动带,所述传动带的上表面形成所述传输面。The box picking device according to claim 6, wherein two transmission mechanisms are arranged at intervals along the first direction, the first direction is orthogonal to the front-rear direction and the up-down direction, and the mounting seats are arranged on two sides. Between the two transmission mechanisms, the transmission mechanism includes two rotating parts arranged at intervals along the first direction and a transmission belt wound on the two rotating parts, and the upper surface of the transmission belt forms the transmission surface.
- 根据权利要求6-7中任一项所述的取箱装置,其特征在于,还包括:The box-taking device according to any one of claims 6-7, further comprising:主驱动组件,所述主驱动组件用于带动所述安装座沿前后方向运动;a main drive assembly, the main drive assembly is used to drive the mounting base to move in the front and back directions;导向组件,所述导向组件用于为所述安装座沿前后方向的运动进行导向。The guide assembly is used for guiding the movement of the installation seat along the front and rear directions.
- 根据权利要求8所述的取箱装置,其特征在于,所述导向组件包括:The box removing device according to claim 8, wherein the guide assembly comprises:导轨,沿前后方向铺设于所述安装架上;Guide rails are laid on the mounting frame along the front-to-back direction;滑块,滑动设置于所述导轨上并与所述安装座连接,所述导轨的上表面低于所述传输面。The slider is slidably arranged on the guide rail and connected with the installation seat, and the upper surface of the guide rail is lower than the transmission surface.
- 一种机器人,其特征在于,包括:A robot, characterized in that it comprises:机器人本体;robot body;取箱装置,所述取箱装置为根据权利要求1-9中任一项所述的取箱装置,所述取箱装置的安装座设在所述机器人本体上,且所述取箱装置的安装座相对于所述机器人本体沿所述前后方向可移动。A box-taking device, the box-taking device is the box-taking device according to any one of claims 1-9, the mounting seat of the box-taking device is arranged on the robot body, and the box-taking device The mounting base is movable in the front-rear direction relative to the robot body.
- 根据权利要求10所述的机器人,其特征在于,所述取箱装置的安装座相对于所述机器人本体还可在第一位置和第二位置之间移动,所述第一位置高于所述第二位置,所述 安装座在所述第一位置和所述第二位置之间移动的轨迹为线段或曲线段。The robot according to claim 10, characterized in that, relative to the robot body, the mounting seat of the box-taking device can also move between a first position and a second position, and the first position is higher than the In the second position, the track of the mounting base moving between the first position and the second position is a line segment or a curve segment.
- 根据权利要求10所述的机器人,其特征在于,还包括第一驱动组件,所述第一驱动组件用于驱动所述安装座相对于所述机器人本体沿上下方向移动且包括:The robot according to claim 10, further comprising a first drive assembly, the first drive assembly is used to drive the mounting base to move up and down relative to the robot body and includes:支架,所述支架设在所述机器人本体上且相对于所述机器人本体在所述前后和所述上下方向上可移动;a bracket, the bracket is arranged on the robot body and is movable relative to the robot body in the front-rear direction and the up-down direction;第一齿条,所述第一齿条设在所述支架上且沿上下方向延伸,所述第一齿条的顶端与所述安装座相连;a first rack, the first rack is arranged on the bracket and extends in the up and down direction, and the top end of the first rack is connected to the mounting seat;第一齿轮,所述第一齿轮可转动地设在所述机器人本体上,且所述第一齿轮与所述第一齿条啮合以驱动所述第一齿条沿上下方向移动。A first gear, the first gear is rotatably provided on the robot body, and the first gear is engaged with the first rack to drive the first rack to move up and down.
- 根据权利要求12所述的机器人,其特征在于,还包括第二驱动组件,所述第二驱动组件用于驱动所述滑座相对于所述机器人本体沿前后方向移动且包括:The robot according to claim 12, further comprising a second drive assembly, the second drive assembly is used to drive the sliding seat to move in a front-rear direction relative to the robot body and includes:第二齿条,所述第二齿条设在所述机器人本体上且沿前后方向延伸;a second rack, the second rack is arranged on the robot body and extends along the front-to-rear direction;第二齿轮,所述第二齿轮与所述第二齿条啮合,所述第二齿轮可转动以在所述第二齿条上沿前后方向移动,所述第二齿轮与所述滑座相连。a second gear, the second gear meshes with the second rack, the second gear is rotatable to move forward and backward on the second rack, and the second gear is connected with the sliding seat .
- 根据权利要求10或11所述的机器人,其特征在于,所述机器人本体包括:The robot according to claim 10 or 11, wherein the robot body comprises:底盘;chassis;门架,所述门架设置于所述底盘上,所述取箱装置设在所述门架上;A door frame, the door frame is arranged on the chassis, and the box removal device is arranged on the door frame;升降组件,所述升降组件被配置为沿着所述门架上下移动,所述升降组件与所述取箱装置相连以驱动所述取箱装置相对于所述门架可上下移动。A lifting assembly, the lifting assembly is configured to move up and down along the door frame, and the lifting assembly is connected with the box unloading device to drive the box unloading device to move up and down relative to the door frame.
- 根据权利要求14所述的机器人,其特征在于,所述机器人本体还包括暂存隔板,所述暂存隔板沿所述门架的高度方向间隔设置有多个,且所述暂存隔板上能够暂存所述货箱,所述取箱装置能够实现所述货箱在所述暂存隔板和货箱之间的转移。The robot according to claim 14, wherein the robot body further includes a temporary storage partition, and a plurality of temporary storage partitions are arranged at intervals along the height direction of the door frame, and the temporary storage partition The cargo box can be temporarily stored on the board, and the box taking device can realize the transfer of the cargo box between the temporary storage partition and the cargo box.
- 根据权利要求14或15中任一项所述的机器人,其特征在于,还包括:The robot according to any one of claims 14 or 15, further comprising:至少两个辅助支撑装置,至少两个所述辅助支撑装置受控于各自的驱动组件,并分别分布在所述机器人相对的两侧,至少两个所述辅助支撑装置被构造为相对于所述机器人伸出至与所述机器人两侧的料架相抵或分离。At least two auxiliary support devices, at least two auxiliary support devices are controlled by their respective drive assemblies, and are respectively distributed on opposite sides of the robot, at least two auxiliary support devices are configured to be relative to the The robot stretches out to abut against or separate from the material racks on both sides of the robot.
- 根据权利要求16所述的机器人,其特征在于,所述辅助支撑装置包括固定基座,以及通过伸缩机构以可伸缩的方式连接在所述固定基座上的支撑元件;所述伸缩机构受控于所述驱动组件且被构造为驱动所述支撑元件相对于所述固定基座移动至于对应侧的所述料架相抵或分离。The robot according to claim 16, wherein the auxiliary support device comprises a fixed base, and a support element telescopically connected to the fixed base through a telescopic mechanism; the telescopic mechanism is controlled The material rack on the driving assembly and configured to drive the supporting element to move to the corresponding side relative to the fixed base abuts or separates.
- 根据权利要求14-17中任一项所述的机器人,其特征在于,还包括伸缩叉装置,所述升降组件与所述伸缩叉装置相连以驱动所述伸缩叉装置相对于所述门架可上下移动,所述取箱装置设在伸缩叉装置上,所述伸缩叉装置包括与所述升降组件连接的移动托盘;沿所述移动托盘的两侧相对设置的多级伸缩机构,其中,每个所述多级伸缩机构设置有用于限位货箱的后拨指;The robot according to any one of claims 14-17, further comprising a telescopic fork device, the lifting assembly is connected with the telescopic fork device to drive the telescopic fork device to move relative to the mast Moving up and down, the box-taking device is arranged on a telescopic fork device, and the telescopic fork device includes a mobile tray connected to the lifting assembly; a multi-stage telescopic mechanism arranged oppositely along both sides of the mobile tray, wherein each The multi-stage telescopic mechanism is provided with a rear finger for limiting the container;所述伸缩叉装置还包括:用于检测所述后拨指位置的到位检测装置,控制装置,所述控制装置用于在所述到位检测装置检测到所述后拨指的位置超出设定位置时,控制所述移动底盘及所述升降组件锁死。The telescopic fork device also includes: an in-position detection device for detecting the position of the rear dial finger, a control device, and the control device is used to detect that the position of the rear dial finger exceeds the set position when the in-position detection device detects , control the mobile chassis and the lifting assembly to lock.
- 根据权利要求18所述的机器人,其特征在于,所述控制装置还用于在所述到位检测装置检测所述后拨指未超出所述设定位置时,控制所述移动底盘及所述升降组件解除锁死状态。The robot according to claim 18, wherein the control device is further used to control the mobile chassis and the lifting mechanism when the in-position detection device detects that the rear finger does not exceed the set position. The component is released from the dead state.
Applications Claiming Priority (12)
Application Number | Priority Date | Filing Date | Title |
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CN202121566645.3U CN216140684U (en) | 2021-07-09 | 2021-07-09 | Robot |
CN202121566645.3 | 2021-07-09 | ||
CN202111015903.3A CN115724109A (en) | 2021-08-31 | 2021-08-31 | Box taking device, carrying robot, container carrying method and storage logistics system |
CN202122079689.X | 2021-08-31 | ||
CN202111015903.3 | 2021-08-31 | ||
CN202122079689.XU CN218023532U (en) | 2021-08-31 | 2021-08-31 | Box taking device, carrying robot and warehouse logistics system |
CN202122181459.4U CN216154654U (en) | 2021-09-09 | 2021-09-09 | Cargo handling robot |
CN202122181459.4 | 2021-09-09 | ||
CN202111058253.0A CN115771688A (en) | 2021-09-09 | 2021-09-09 | Cargo handling robot and control method thereof |
CN202111058253.0 | 2021-09-09 | ||
CN202220950041.7U CN217837507U (en) | 2022-04-21 | 2022-04-21 | Box taking device and robot |
CN202220950041.7 | 2022-04-21 |
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WO2023280320A1 true WO2023280320A1 (en) | 2023-01-12 |
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Application Number | Title | Priority Date | Filing Date |
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PCT/CN2022/104748 WO2023280320A1 (en) | 2021-07-09 | 2022-07-08 | Box retrieval device and robot |
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