CN108814718A - Motion arm, from operation equipment and operating robot - Google Patents

Motion arm, from operation equipment and operating robot Download PDF

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Publication number
CN108814718A
CN108814718A CN201810244035.8A CN201810244035A CN108814718A CN 108814718 A CN108814718 A CN 108814718A CN 201810244035 A CN201810244035 A CN 201810244035A CN 108814718 A CN108814718 A CN 108814718A
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CN
China
Prior art keywords
joint assembly
driving
connecting rod
active joint
motion arm
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Granted
Application number
CN201810244035.8A
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Chinese (zh)
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CN108814718B (en
Inventor
王建辰
高元倩
罗山
韩志敏
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Shenzhen Edge Medical Co Ltd
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Shenzhen Edge Medical Co Ltd
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Priority to CN201810244035.8A priority Critical patent/CN108814718B/en
Publication of CN108814718A publication Critical patent/CN108814718A/en
Priority to US16/979,268 priority patent/US11986263B2/en
Priority to PCT/CN2019/077648 priority patent/WO2019174543A1/en
Application granted granted Critical
Publication of CN108814718B publication Critical patent/CN108814718B/en
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B34/00Computer-aided surgery; Manipulators or robots specially adapted for use in surgery
    • A61B34/30Surgical robots
    • A61B34/37Master-slave robots
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B34/00Computer-aided surgery; Manipulators or robots specially adapted for use in surgery
    • A61B34/70Manipulators specially adapted for use in surgery
    • A61B34/71Manipulators operated by drive cable mechanisms
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B34/00Computer-aided surgery; Manipulators or robots specially adapted for use in surgery
    • A61B34/30Surgical robots
    • A61B2034/302Surgical robots specifically adapted for manipulations within body cavities, e.g. within abdominal or thoracic cavities

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  • Health & Medical Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Surgery (AREA)
  • Robotics (AREA)
  • Biomedical Technology (AREA)
  • Nuclear Medicine, Radiotherapy & Molecular Imaging (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Medical Informatics (AREA)
  • Molecular Biology (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Manipulator (AREA)

Abstract

The present invention relates to a kind of motion arm and application operating arms from operation equipment, operating robot.Motion arm, including:Driving mechanism, connection component, connecting rod, the driving mechanism is for driving the connection component;The connecting rod is set in the driving mechanism;The connection component includes multiple sequentially connected connection units, at least two connection units form rotatable joint assembly, the joint assembly includes the first active joint assembly of coupling, servo-actuated joint assembly, the first active joint assembly is located in the driving mechanism, the servo-actuated joint assembly is located at outside the driving mechanism, and is connected with the distal end of the connecting rod.

Description

Motion arm, from operation equipment and operating robot
Technical field
The present invention relates to Minimally Invasive Surgery field, more particularly to a kind of motion arm and application operating arm from operation equipment, Operating robot.
Background technique
Minimally Invasive Surgery refers to be applied inside body cavity using the modern medical equipments such as laparoscope, thoracoscope and relevant device A kind of modus operandi of row operation.There are the advantages such as wound is small, pain is light, recovery is fast compared to traditional operation mode Minimally Invasive Surgery.
With the development of science and technology micro-wound operation robot technology graduallys mature, and it is widely used.Micro-wound operation robot It generally includes master operating station and from operation equipment, doctor is performed the operation by the control of operation master operating station from operation equipment accordingly Operation.Wherein, the motion arm for generally including mechanical arm from operation equipment and being set on mechanical arm, mechanical arm is for adjusting operation The position of arm, motion arm execute surgical procedure for protruding into vivo.Current motion arm enables hand due to the limitation in precision Art robot is restricted in some operations.
Summary of the invention
Based on this, it is necessary to provide a kind of preferable motion arm of precision and application operating arm from operation equipment, surgical engine Device people.
A kind of motion arm, including:Driving mechanism, connection component, connecting rod,
The driving mechanism is for driving the connection component;
The connecting rod is set in the driving mechanism;
The connection component includes multiple sequentially connected connection units, and at least two connection units, which are formed, can be rotated Joint assembly, the joint assembly includes the first active joint assembly of coupling, servo-actuated joint assembly, and described first actively closes Section component be located in the driving mechanism, the servo-actuated joint assembly is located at outside the driving mechanism, and with the connecting rod Distal end is connected.
The driving mechanism includes shell in one of the embodiments, and is set to the intracorporal driving portion of the shell, institute Stating connection component further includes driving silk, and the driving silk has main driving silk, and one end is set on the driving portion, the other end It is set on the joint assembly.
The first main driving silk of the first active joint assembly is driven to be located at the shell in one of the embodiments, It is interior, it is connected from outside with the connection unit of the first active joint assembly.
The connection unit in the first active joint assembly passes through described first in one of the embodiments, Main driving silk driving.
The described first main driving silk connects the first active joint assembly from opposite sides in one of the embodiments, In the connection unit, to drive the first active joint assembly to rotate clockwise or counterclockwise.
The first main driving silk of the first active joint assembly is driven to wear described first in one of the embodiments, Active joint assembly is connected with the connection unit of its first active joint assembly driven.
The joint assembly further includes the second active joint outside the driving mechanism in one of the embodiments, Component is driven by the second main driving silk,
The second main driving silk wears the first active joint assembly, and extends to second active of its driving The joint assembly of joint assembly or the second joint component remote;
Alternatively, the second main driving silk is located at outside first active joint, and extend to described the second of its driving The joint assembly of active joint assembly or the second joint component remote.
The driving mechanism includes drive rod in one of the embodiments, in the first active joint assembly extremely A few connection unit is connected, to drive the first active joint assembly to rotate.
One kind from operation equipment, including:
The motion arm;
Power mechanism is connected with the motion arm, for driving the driving mechanism of the motion arm;
Mechanical arm is connected with the power mechanism, for adjusting the position of the motion arm.
A kind of operating robot, including:Master operating station and it is described from operation equipment,
The master operating station is used to send control command from operation equipment to described according to the operation of doctor, described in control It is described to be used to respond the control command that master operating station is sent from operation equipment from operation equipment, and carry out corresponding operation.
It is servo-actuated outside driving mechanism that aforesaid operations arm enables the first active joint assembly driving being located in driving mechanism be located at Joint assembly enables control more accurate.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of one embodiment of operating robot of the present invention;
Fig. 2 is in operating robot from the partial schematic diagram of operation one embodiment of equipment;
Fig. 3 is in operating robot from the partial schematic diagram of operation one embodiment of equipment;
Fig. 4 is the structural schematic diagram of one embodiment of operating robot motion arm;
Fig. 5 is the top view of motion arm shown in multiple Fig. 4;
Fig. 6 is the structural schematic diagram of one embodiment of operating robot motion arm;
Fig. 7 is the structural schematic diagram of one embodiment of operating robot motion arm;
Fig. 8 is the structural schematic diagram of one embodiment of operating robot motion arm;
Fig. 9 is the structural schematic diagram of one embodiment of operating robot motion arm;
Figure 10 is the partial enlarged view of motion arm shown in Fig. 9;
Figure 11 is the structural schematic diagram of one embodiment of operating robot motion arm;
Figure 12 is the structural schematic diagram of one embodiment of operating robot motion arm;
Figure 13 is the partial schematic diagram of one embodiment of operating robot motion arm;
Figure 14 is the structural schematic diagram of one embodiment of operating robot motion arm.
Specific embodiment
To facilitate the understanding of the present invention, a more comprehensive description of the invention is given in the following sections with reference to the relevant attached drawings.In attached drawing Give better embodiment of the invention.But the invention can be realized in many different forms, however it is not limited to herein Described embodiment.On the contrary, the purpose of providing these embodiments is that making to understand more the disclosure Add thorough and comprehensive.
It should be noted that it can directly on the other element when element is referred to as " being set to " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.When an element is considered as " coupling " another element, it can To be to be directly coupled to another element or may be simultaneously present centering elements.Term as used herein " vertically ", " water It is flat ", "left", "right" and similar statement for illustrative purposes only, be not meant to be the only embodiment.Herein Used term " distal end ", " proximal end " are used as the noun of locality, which is interventional medical device field common terminology, wherein " distal end " indicates that one end in surgical procedure far from operator, " proximal end " indicate one end that proximal operator is depended in surgical procedure.
Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more Any and all combinations of relevant listed item.
It as shown in Figure 1 to Figure 3, is respectively the structural schematic diagram of one embodiment of operating robot of the present invention, and from operation The partial schematic diagram of equipment difference embodiment.
Operating robot include master operating station 1 and from operation equipment 2.Wherein, master operating station 1 is used for the operation according to doctor Control command is sent to from operation equipment 2, with control from operation equipment 2, is also used to show the image obtained from equipment 2.From Operation equipment 2 is used to respond the control command of the transmission of master operating station 1, and carries out corresponding operation, and also uses from operation equipment 2 In the intracorporal image of acquisition.
Include mechanical arm 10, the power mechanism 20 being set on mechanical arm 10, be set to power mechanism 20 from operation equipment 2 On motion arm 30, and be arranged the casing 40 of motion arm 30.Mechanical arm 10 is used to adjust the position of motion arm 30;Power mechanism 20 for driving motion arm 30 to execute corresponding operating;Motion arm 30 passes through its end device for being located at distal end for protruding into vivo Tool 400 executes surgical procedure, and/or obtains internal image.Specifically, as shown in Figure 2 and Figure 3, motion arm 30 wears casing 40, Its end instrument 400 stretches out outside casing 40, and drives it to execute operation by power mechanism 20.In Fig. 2, motion arm 30 is located at set Region in pipe 40 is rigid region;In Fig. 3, it is flexible region that motion arm 30, which is located at the region in casing 40, and casing is with flexibility Region bends.In other embodiments, casing 4 also can be omitted, at this point, being not necessarily to casing.
In one embodiment, motion arm 30 be it is multiple, be all set on the same power mechanism 20, multiple motion arms 30 it is remote End is protruded into vivo by a notch on human body, so that its end instrument 400 is moved to lesion 3 and is nearby operated. Specifically, power mechanism has multiple power parts, and each power part is correspondingly connected with a motion arm.In other embodiments, power Mechanism is multiple, one motion arm 30 of setting on each power mechanism 20, and multiple motion arms protrude into vivo from a notch, this When multiple power mechanisms 20 both can be set on a mechanical arm 10, also can be set on multiple mechanical arms 10.It needs Bright, multiple motion arms 30 can also protrude into vivo from multiple notch, for example, two motion arms are protruded into each notch, then Such as, a motion arm is protruded into each notch.
In one embodiment, further includes stamp card (figure does not regard) from operation equipment 2, stab card for wearing the notch on human body, and It is fixedly installed on incision tract, motion arm is extend into vivo by stabbing card.
It as shown in Figure 4, Figure 5, is respectively the structural schematic diagram and multiple motion arms of 30 1 embodiment of operation of the present invention arm Top view.
Motion arm 30 includes sequentially connected driving mechanism 100, connecting rod 200, connection component 300 and end instrument 400, In, driving mechanism 100 has shell 110, and power mechanism is connect with driving mechanism 100, provides power for it;Connecting rod 200 is arranged In on shell 110, and it is tangent with the side 111 of shell 110 in their extension direction, so that the connecting rod 200 of multiple motion arms 30 It is protruded into vivo by a notch.Wherein, the side 111 of shell 110 is the surface being connected with bottom surface 112, and bottom surface 112 refers to hand Towards the surface of human body when art.According to actual needs, end instrument 400 and/or connection component 300 also be can be omitted.
In the present embodiment, the substantially rigid connecting rod 200 of connecting rod 200 is directly arranged at dynamic when installing motion arm 30 On force mechanisms 20, it is not necessarily to bent connecting rod 200.In other embodiments, connecting rod 200 or flexible link, or can also save Slightly connecting rod 200, enables connection component 300 directly connect with driving mechanism 100.
Aforesaid operations arm 30 enables the connecting rod 200 of multiple motion arms 30 that can pass through people since connecting rod 200 and shell 110 are tangent The distance between a notch on body protrudes into vivo, and multiple 30 driving mechanisms 100 of motion arm can be reduced, and then enable more A motion arm 30 is more compact, reduces the volume that power mechanism 20 installs 30 region of motion arm.Further, due to connecting rod 200 For rigid link 200, enable more stable when performing the operation.
Shell 110 has adjacent first side 111A, second side 111B, is used to first with adjacent operator arm 30 Side 111A or second side 111B is abutted, so that multiple motion arms 30 are distributed around a central axis;Or first side 111A, Second side 111B is used to close on interval setting with the first side 111A or second side 111B of adjacent operator arm 30, so that Multiple motion arms 30 around a central axis be distributed, for example, in two neighboring shell 110 one of shell 110 first side The surface that the first side 111A or second side 111B of 111A and another shell 110 are oppositely arranged, and are oppositely arranged Between have gap.Wherein, first side 111A and second side 111B shape are in an acute angle.In other embodiments, first side 111A, second side 111B can also form right angle or obtuse angle.
Further, the edge of first side 111A extends to the edge of second side 111B, so that two 111 phases of side Connection, join domain are curved surface.Wherein, connecting rod 200 and curved surface are tangent, in an embodiment, the radius of curvature and connecting rod of curved surface 200 radius is essentially identical.In other embodiments, the radius of curvature of curved surface can also and also it is different.
In the present embodiment, on shell 110 for connect the surface of power mechanism be arranged that the surface of connecting rod 200 is opposite to be set It sets.Specifically, connecting rod 200 is set on the bottom surface 112 of shell 110, and closes on the fringe region of bottom surface 112, on shell 110 with The surface that bottom surface 112 is oppositely arranged is for connecting power mechanism.In other embodiments, as shown in fig. 6, for connecting on shell 110 The surface on the surface and setting connecting rod 200 that connect power mechanism is the same surface, is connected specifically, the bottom surface 112 of shell 110 has Disk 120 is connect, for connecting power mechanism, connecting rod 200 is set on the bottom surface 112 of shell 110.Alternatively, as shown in fig. 7, shell It can also be disposed adjacent with the surface of setting connecting rod 200 on 110 for connecting the surface of power mechanism, i.e. the one of shell 110 Terminal pad 120 is arranged for connecting power mechanism in side 111 thereon.It should be noted that connecting rod 200 also can be set in shell On the side 111 of body 110, at this point, the surface that shell 110 is used to connect power mechanism both can be one of side 111, It may be bottom surface 112, or the surface opposite with bottom surface 112.
In the present embodiment, connecting rod 200 is straight-bar, and 200 rotary setting of connecting rod is driven on the shell 110 of driving mechanism 100 100 drive link 200 of motivation structure is rotated along its axis.In other embodiments, connecting rod 200 or non-straight rod structure.Alternatively, Connecting rod 200 can also be fixedly installed on shell 110.
As shown in figure 8, connecting rod 200 includes sequentially connected first connecting rod 210, second connecting rod 220 in an embodiment, In, first connecting rod 210 is set on shell 110, and is fixedly connected with second connecting rod 220, first connecting rod 210 and second connecting rod 220 form angle, which is the non-straight angle.In the present embodiment, second connecting rod 220 and the side 111 of shell 110 are tangent, connecting rod 200 are fixedly installed on shell 110.At this point, the end instrument 400 connecting with connecting rod 200 can be enabled to relatively rotate, to guarantee to grasp Make the freedom degree of arm 30.In other embodiments, second connecting rod can also with the non-tangent setting of shell, as long as guaranteeing multiple motion arms Second connecting rod entered by notch it is internal.
First connecting rod can also be with rotary setting on shell.For example, first connecting rod is soft bar, flexible pipe or the first company Bar is connect by flexible joint component with second connecting rod, so that the position-adjustable between first connecting rod and second connecting rod;Second Connecting rod wears stamp card or casing, to limit its position with respect to human body, enables first connecting rod that second connecting rod is driven to rotate around fixed Axis rotation, i.e., the rotary shaft of second connecting rod will not change with the bending of first connecting rod.For another example, second connecting rod is with respect to first connecting rod Position is fixed, at this point, first connecting rod is connect with second connecting rod by transmission mechanism, when so that first connecting rod rotating, drives second Connecting rod fixes rotary shaft around it.When first connecting rod rotary setting is when on shell, first connecting rod can be located at the middle part of surface of shell Region.
It should be noted that when first connecting rod is that soft bar, flexible pipe or first connecting rod pass through flexible joint component and the When two connecting rods connect, first connecting rod can also be fixedly connected with the casing, at this point, turn opposite with the end instrument of connecting rod connection can be enabled It is dynamic.
As shown in figure 9, connecting rod 200 includes first connecting rod 210, second connecting rod 220 in an embodiment, connection component 300 is wrapped Include the first connection component 310, the second connection component 320.First connecting rod 210 is set in driving mechanism 100, and is connected by first Connected components 310 are connect with 220 phase swinging of second connecting rod, and second connecting rod 220 is for connecting end instrument 400 or the second connection group Part 320, wherein when second connecting rod 220 connects the second connection component 320, end instrument 400 and the second connection component 320 Distal end is connected.The first connection component 310 is located at external when operation, and the second connection component 320 is located at internal.It needs to illustrate It is that in the present embodiment, second connecting rod 220 and the side 111 of shell 110 are tangent.In other embodiments, second connecting rod 220 can also It is other positions relationship with nontangential with shell 110.
Aforesaid operations arm 30 is drivingly connected component 300 by driving mechanism 100, to enable second connecting rod 220 opposite first connect Bar 210 is swung, and then adjusts the position of second connecting rod 220 and the end instrument 400 connecting with second connecting rod 220, is made full use of 30 driving mechanism 100 of motion arm improves the flexibility of motion arm 30 to the space between human body.
In one embodiment, first connecting rod 210 be it is multiple, multiple first connecting rods 210 are successively put by the first connection component 310 Dynamic connection, the first connecting rod 210 positioned at proximal end are connected with driving mechanism 100, and the first connecting rod 210 positioned at distal end passes through first Connection component 310 is connected with second connecting rod 220.Which further increases the flexibilities of motion arm 30.
Further, at least two connection components 300 are coupled to each other in multiple connection components 300, the connection component of coupling 300 accordingly rotate according to coupled relation.Specifically, at least two first connection components 310 are coupled to each other, coupling in an embodiment When the first connection component 310 rotation closed, wherein the connecting rod posture that the first connection component 310 for being located at distal end connects is kept not Become, i.e. the first connecting rod 210 of the first connection component 310 connection or the posture of second connecting rod 220 remain unchanged.For example, first Connecting rod 210 be it is multiple, positioned at distal end first connecting rod 210 by two coupling the first connection component 310 respectively with second connect Bar 220 and another first connecting rod 210 are connected, when the rotation of the first connection component 310 of coupling, second connecting rod 220 be located at it is remote 210 keeping parallelism of another first connecting rod that the first connecting rod 210 at end connects.In other embodiments, the first connection component 310 and The coupling of two connection components 320, when the connection component 300 of coupling rotates, the distal end posture of the second connection component 320 is remained unchanged. In above-described embodiment, the sum of all directions angle of rotation is essentially identical when the connection component of coupling rotates, in other embodiments, coupling Connection component 300 can also rotate in same direction, for example, 300 rotational angle of connection component of coupling is proportional.
It as shown in Figure 10, is the partial enlargement diagram of motion arm shown in Fig. 9.
Connection component 300 includes multiple sequentially connected connection units 301, wherein the formation of at least two connection units 301 Rotatable joint assembly 302.For example, multiple connection units 301 are sequentially connected by interconnecting piece formed thereon, so that more A connection unit 301 forms rotatable joint assembly 302.For another example, connection component 300 further includes driving silk, and multiple connections are single Member 301, so that multiple connection units 301 form rotatable joint assembly 302, drives silk by driving silk to be sequentially connected at this time Not only it is used to be drivingly connected unit, but also for connecting the connection unit.
In the present embodiment, the sum of all directions angle of rotation basic phase when each joint assembly in the connection component of coupling rotates When together, to guarantee the connection component flexural oscillations coupled, the connection unit posture positioned at distal end is remained unchanged.Wherein, coupling In connection component, the corresponding coupling of each joint assembly.For example, two the first connection component couplings, wherein each first connection component With a joint assembly, rotation direction is on the contrary, angle of rotation is identical.For another example, two the first connection component couplings, are each wrapped Include two joint assemblies, two joint assemblies in one of connection component with two joints in another connection component The corresponding coupling of component.For another example, each joint assembly can also be identical with rotation direction in the connection component of coupling, and rotational angle at Ratio.It should be noted that above-mentioned joint assembly both can based on movable joint component, or servo-actuated joint assembly.Wherein, Active joint assembly refers to that the joint assembly rotated by driving mechanisms control, servo-actuated joint assembly refer to due to active switching rotation And follow the joint assembly of rotation.
It is the structural schematic diagram of one embodiment of operating robot motion arm also referring to Figure 11.
In one embodiment, motion arm 30 includes sequentially connected driving mechanism, connecting rod, connection component and end instrument, In, joint assembly 302 includes the first active joint assembly 302A and servo-actuated joint assembly 302B of coupling, the first active joint group When part 302A is bent, joint assembly 302B is servo-actuated according to coupled relation respective curved, wherein the first active joint assembly 302A In in the shell 110 of driving mechanism 100, the first servo-actuated connection component 302B is located at outside the shell 110 of driving mechanism 100, and with The distal end of connecting rod 200 is connected, i.e., connecting rod 200 be located at the first active joint assembly 302A and servo-actuated joint assembly 302B it Between.
Aforesaid operations arm 30 enables the first active joint assembly driving being located in driving mechanism 100 be located at driving mechanism 100 Outer servo-actuated joint assembly enables control more accurate.
Driving mechanism 100 further includes the driving portion 130 being set in shell 110, for being drivingly connected component 300.Connection Component 300 further include driving silk, driving silk include main driving silk 303 and from drive silk 304.Wherein, one end of main driving silk 303 It is set on driving portion 130, the other end is set on joint assembly 302A, to drive active joint assembly to rotate.For example, main drive On the connection unit for the joint assembly that one end of dynamic silk is set to its driving;For another example, main driving silk is set to the joint of its driving On the connection unit of component remote, wherein the active joint assembly independently of setting driving its it is main driving silk joint assembly with Remaining joint assembly movement between proximal joint component.Its servo-actuated joint assembly driven is set to from driving 304 one end of silk On 302B, the other end is set on the first active joint assembly 302A of driving servo-actuated joint assembly 302B rotation, when the When one active joint assembly 302A is rotated, servo-actuated joint assembly 302B is enabled to rotate with it.It should be noted that from driving silk 304 Also it can be set on other joint assemblies 302, be located at servo-actuated joint assembly for example, being set to from the distal end of driving silk 304 On the joint assembly 302 of the distal end 302B.
In the present embodiment, the first main driving silk 303A of the first active joint assembly 302A of driving is located in shell 110, from Outside is connected with the connection unit 301 of the first active joint assembly 302A, it is understood that is the first active joint assembly The main driving silk 303A of the first of 302A does not wear other connection units, is only arranged on the connection unit of its driving, and from connection The outside of component drives the first active joint assembly 302A.
Further, the connection unit 301 in the first active joint assembly 302A is driven by the first main driving silk 303A Dynamic, i.e. each connection unit 301 in the first active joint assembly 302A is connect with the first main driving silk 303A.The present embodiment In, the first active joint assembly 302A is driven by two first main driving silk 303A, and two first main driving silk 303A are from phase Connection unit 301 in first active joint assembly 302A is connected to two sides, to drive the first active joint assembly 302A up time Needle rotates counterclockwise.Wherein, two first main driving silk 303A can both be located at the same of the first active joint assembly On connection unit, it can also be located on two connection units in the joint assembly.
It should be noted that being fixedly connected on unit 301 in first active joint assembly 302A no setting is required driving silk 303, when driving the first active joint assembly 302A rotation with the connection unit 301, it is only necessary to drive in the joint assembly 302 Another connection unit 301.Wherein, being fixedly connected with unit will introduce below.
In other embodiments, link mechanism can also be enabled to substitute the first main driving silk.For example, driving mechanism includes driving Bar is driven by driving portion, and drive rod is connected at least one connection unit in the first active joint assembly, should with driving The rotation of active joint assembly.At this point, a drive rod is only arranged on each connection unit.For example, driving portion and drive rod Cam mechanism is formed, specifically, driving portion connects cam, so that cam is rotated with driving portion, drive rod supports cam curved surface, and It moves along a straight line, with the connection unit for driving it to connect.For another example, driving portion and drive rod form gear and rack teeth mechanism, specifically, Driving portion is connected with gear, so that gear is rotated with driving portion, drive rod has the rack gear cooperated with gear, so that it drives it The connection unit of connection.
As shown in figure 12, in an embodiment, the first main driving silk 303A of the first active joint assembly 302A of driving is worn First active joint assembly 302A, and the connection unit 301 in the first active joint assembly 302A driven with it is connected.? It is to be understood that the first main driving silk wears the list of each connection between driving portion and its first active joint assembly driven Member, from internal drive the first active joint assembly of connection component.
It as shown in figs. 13 and 14, is respectively the structural schematic diagram of the different embodiments of operation of the present invention arm 30, wherein figure In be omitted the first main driving silk 303A and from driving silk 304.
For driving mechanism 30 in addition to above structure, connection component 300 further includes the second active outside driving mechanism 100 Joint assembly 302C passes through the second main driving silk 303B driving.For example, as shown in figure 13, the second main driving silk 303B is worn First active joint assembly 302A, and extend to the second active joint assembly 302C of its driving.For another example, as shown in figure 14, Two main driving silk 303B are located at outside the first active joint assembly 302A, i.e. the movement of the first active joint assembly 302A can't shadow Ring the second main driving silk 303B.
Wherein, the second active joint assembly 302C can both be located at the proximal end of servo-actuated joint assembly 302B, can also be located at First with movable joint 302B distal end;Alternatively, when servo-actuated joint assembly 302B and/or the second active joint assembly 302C is multiple When, the two cross arrangement.
Specifically, the distal end for being servo-actuated joint assembly 302 is connect with the second active joint assembly 302C, proximal end and connecting rod 200 Connection.In other embodiments, the proximal end of the second active joint assembly 302C can also be enabled to be connected with connecting rod 200, distally with Movable joint component 302A is connected, at this point, the second active joint assembly 302C, the first active joint assembly 302A with servo-actuated pass Component 302B coupling is saved, i.e. the second active joint assembly 302C movement can also drive servo-actuated joint assembly 302B corresponding sports.
It should be noted that connection component may include multiple groups joint assembly, the rotation axis of the joint assembly in every group is different, So that connection component has multiple freedom degrees, for example, the first active joint assembly includes two groups, two group of first active joint assembly Rotation axis it is orthogonal, at this point, corresponding first connection component of servo-actuated joint assembly is accordingly arranged.Each joint assembly 302 can also be with With at least two freedom degrees, to enable its more flexible.
As shown in Figure 11 to 14, connecting rod 200 is connected with the distal end of the first active joint assembly 302A, so that from driving The both ends of silk 304 wear connecting rod 200, and with the first active joint assembly 302A for being located at 200 both ends of connecting rod and couple be servo-actuated Joint assembly 302B is connected, and the distal end of the first active joint assembly 302A is fixed on shell at this time, i.e. the connection of its distal end Unit is to be fixedly connected with unit, and the proximal end of the first active joint assembly is free end, is not connected with other assemblies.
In other embodiments, connecting rod 200 can also be arranged with the first active interval joint assembly 302A, and first actively at this time The proximal end of joint assembly is fixedly installed in shell 110, and the connection unit of proximal end is to be fixedly connected with unit, the first active joint The distal end of component is free end, and is arranged with connecting rod relative spacing.Company is extended to from driving silk 304 from the first active joint assembly In bar 200, and it is set on the joint assembly 302 of its driving.
As shown in figs. 13 and 14, when connection component includes the second active joint assembly, the second main drive of its rotation is driven Dynamic silk 303B wears connecting rod 200 and extends on the joint assembly of driving.In Figure 13, the second main driving silk 303B with from driving silk 304 wear connecting rod 200 in the same area of connecting rod 200.In Figure 14, the second main driving silk 303B with from driving silk 304 in connecting rod 200 different zones wear connecting rod 200.
In one embodiment, connecting rod 200 is fixedly installed on the shell 110 of driving mechanism 100, at this point, the first active joint Component 302A is fixedly connected with connecting rod 200.In other embodiments, connecting rod can also be rotatably dispose in driving mechanism along its axial direction On 100, at this point, the first active joint assembly 302A is fixedly installed on shell 110, connecting rod 200 wears shell 110, and with One active joint assembly 302A is connected, i.e., at this point, the first active joint assembly 302 is not rotated with connecting rod 200.
Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.
The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of motion arm, which is characterized in that including:Driving mechanism, connection component, connecting rod,
The driving mechanism is for driving the connection component;
The connecting rod is set in the driving mechanism;
The connection component includes multiple sequentially connected connection units, and at least two connection units form rotatable pass Component is saved, the joint assembly includes the first active joint assembly of coupling, servo-actuated joint assembly, first active joint group Part is located in the driving mechanism, and the servo-actuated joint assembly is located at outside the driving mechanism, and the distal end with the connecting rod It is connected.
2. motion arm according to claim 1, which is characterized in that the driving mechanism includes shell, and is set to described The intracorporal driving portion of shell, the connection component further include driving silk, and the driving silk has main driving silk, and one end is set to institute It states on driving portion, the other end is set on the joint assembly.
3. motion arm according to claim 2, which is characterized in that the first main drive of driving the first active joint assembly Dynamic silk is located in the shell, is connected from outside with the connection unit of the first active joint assembly.
4. motion arm according to claim 3, which is characterized in that the connection list in the first active joint assembly Member passes through the described first main driving silk driving.
5. motion arm according to claim 4, which is characterized in that the first main driving silk is from described in opposite sides connection The connection unit in first active joint assembly, to drive the first active joint assembly to turn clockwise or counter-clockwise It is dynamic.
6. motion arm according to claim 2, which is characterized in that the first main drive of driving the first active joint assembly Dynamic silk wears the first active joint assembly, is connected with the connection unit of its first active joint assembly driven It connects.
7. motion arm according to claim 3, which is characterized in that the joint assembly further includes being located at the driving mechanism The second outer active joint assembly is driven by the second main driving silk,
The second main driving silk wears the first active joint assembly, and extends to second active joint of its driving The joint assembly of component or the second joint component remote;
Alternatively, the second main driving silk is located at outside first active joint, and extend to second active of its driving The joint assembly of joint assembly or the second joint component remote.
8. motion arm according to claim 1, which is characterized in that the driving mechanism includes drive rod, with described first The connection unit of at least one in active joint assembly is connected, to drive the first active joint assembly to rotate.
9. a kind of from operation equipment, which is characterized in that including:
The described in any item motion arms of claim 1 to 8;
Power mechanism is connected with the motion arm, for driving the driving mechanism of the motion arm;
Mechanical arm is connected with the power mechanism, for adjusting the position of the motion arm.
10. a kind of operating robot, which is characterized in that including:Master operating station and it is as claimed in claim 9 from operation equipment,
The master operating station is used to send control command from operation equipment to described according to the operation of doctor, described from behaviour to control Make equipment, it is described to be used to respond the control command that master operating station is sent from operation equipment, and carry out corresponding operation.
CN201810244035.8A 2018-03-12 2018-03-23 Operating arm Active CN108814718B (en)

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CN201810244035.8A CN108814718B (en) 2018-03-23 2018-03-23 Operating arm
US16/979,268 US11986263B2 (en) 2018-03-12 2019-03-11 Power mechanism and slave operating device
PCT/CN2019/077648 WO2019174543A1 (en) 2018-03-12 2019-03-11 Power mechanism and slave operation device

Applications Claiming Priority (1)

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