KR102047308B1 - A storehouse with lifting apparatus - Google Patents

Abstract

Disclosed is a warehouse with a lifting device, which includes: a door provided for opening and closing an entrance; a transfer module corresponding to the entrance to be installed on the ground of the outside, and transferring loaded products to the entrance side; and the lifting device loading the products transferred to the entrance side and lifting the same.

Description

Warehouse with lifting device {A STOREHOUSE WITH LIFTING APPARATUS}

The present invention relates to a warehouse provided with a lifting device, and more particularly, to a warehouse provided with a lifting device for storing logistics goods in an internal space.

In general, the warehouse refers to a storage warehouse for temporarily or long-term storage of all items used in daily life such as various food products, beverages, clothing, home appliances, general goods, and industrial products produced in large quantities in a factory or a production area.

In other words, the warehouse is used for the purpose of temporarily or long-term storage of various items produced in large quantities in factories, etc. These warehouses go beyond the simple management of logistics and can be used for the rapid processing and loading space of batches, withdrawal and inventory management. It is composed of various storage mechanisms for efficient management.

Logistics warehouse as described above, due to the recent rapid development of the logistics industry, aims to create a new business, such as inventory management, efficient shipment and shipment, from the arrangement of goods in storage warehouses, from the simple logistics management. Logistics warehouses are designed and constructed to enable mass logistics through faster shipment and shipment of mass-produced goods, and more efficient use of logistics loading space.

On the other hand, many of the existing warehouses are converted to automated warehouses, but the cost of equipment investment is high, and the complete automated warehouses are poor in volume efficiency due to automation, and it is almost impossible to introduce them into existing flat warehouses or narrow warehouses.

Accordingly, there is a need to propose a new entry / exit system that can be easily installed not only in new construction but also in existing flat warehouses.

One side of the present invention is provided with a lifting device including a lifting module for mounting and lifting a transport module for transporting the logistics goods installed and loaded on the outer ground corresponding to the doorway to the doorway and lifting the goods transported by the transport module. The old warehouse.

Another aspect of the present invention provides a warehouse equipped with a lifting device configured to allow the transfer module to selectively form an inclined surface.

Another aspect of the present invention provides a warehouse equipped with a lifting device including a rotary support in one configuration for supporting the lifting device from the ground.

Another aspect of the present invention provides a warehouse provided with a lifting device including a height adjustment unit in one configuration for height adjustment of the rail included in the lifting device.

Another aspect of the invention provides a warehouse equipped with a lifting device including an elastic support in one configuration for supporting the lifting device from the ground.

The technical problem of the present invention is not limited to the technical problem mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

Warehouse provided with a lifting device of the present invention for solving the above problems, the door is provided for opening and closing the door; A transfer module installed on an external ground in correspondence with the entrance and configured to transfer the loaded logistics to the entrance; And a lifting device for mounting and lifting a logistic product that is transferred to the doorway side.

On the other hand, the door has a size corresponding to the doorway, and when the door is closed, the door is configured to fit to the frame provided on the edge of the doorway on the four sides of the door, the frame of the door A hinge is fixed to one side, and a handle that can be locked or opened on the outside is installed, and the elevating device is installed on one side of the wall surface above the entrance to provide a moving space of the elevating member on which the logistics goods are loaded. ; A guide rail installed vertically from the side of the elevating device bracket; And a lifting member provided with a guide roller corresponding to the guide rail and installed on the guide rail by the guide roller, and being lifted up and down along the guide rail, wherein the transfer module is farthest from the doorway. A first transfer plate positioned at a spaced portion; A second transfer plate hinged to the first transfer plate; And a third transfer plate positioned at a portion in contact with the entrance and exit, wherein the second transfer plate is hinged to the first transfer plate by a hinge member and rotated based on the first transfer plate. The other side in contact with the third conveying plate is lifted to form an inclined surface, and the third conveying plate is formed in a shape corresponding to the step formed in the elevating member, and is connected to a driving sprocket and the driving sprocket to drive a driving force. Is rotatably installed on the other side of the second conveying plate by a drive link receiving the transmission, positioned in an overlapping state on the upper side of the second conveying plate, or rotated from the state to be fitted in the stepped state, The second conveying plate may include: a conveying roller axially coupled to the second conveying plate main body to rotate in a predetermined direction; And a conveyor belt coupled to the transfer roller to move in a predetermined direction by the transfer roller. A hydraulic cylinder provided to lift the second transfer plate; And a transfer plate bracket embedded in the ground and providing an installation space of the hydraulic cylinder, wherein at least a portion of the transfer plate bracket is exposed from the ground only when the other side of the second transfer plate is lifted up. At least one rotary support is installed on the lower surface of the elevating member; The rotary support further comprises a lower cap; An upper cap spaced apart from an upper side of the lower cap and supporting a bottom surface of the elevating member; And a support pillar installed between the lower cap and the upper cap to support the upper cap, wherein the lower cap includes a cap body formed in a cylindrical shape, and a lower portion of the support pillar can be inserted therein. And a lower seating recess recessed in a shape corresponding to a lower shape of the support pillar in a downward direction from an upper surface of the cap body, wherein the upper cap is upper from a lower surface so that an upper portion of the support pillar can be inserted therein. The upper seating groove is formed to be recessed in a shape corresponding to the upper shape of the support pillar in the direction, the support pillar, the four pillar modules formed in the shape of an arc-shaped column with a right angle to the center angle is connected to each other and installed It forms a shape, the lower portion is inserted into the lower seating groove, the upper portion is inserted into the upper seating groove, the pillar module, the center angle is A module body formed in the shape of a column shape having a right arc shape; A sliding protrusion extending in a vertical direction in one plane of the module main body and inserted and fastened from an upper side of a sliding groove formed in another plane of the other module main body; A sliding groove recessed in a vertical direction in a shape corresponding to the shape of the sliding protrusion on the other side plane of the module main body, and the sliding protrusion of another module main body inserted into and fastened to slide in the vertical direction; A support protrusion protruding from an upper portion of the module body to support an upper surface of the upper seating groove; And a wheel installed at an upper portion of the support protrusion to rotate the upper cap seated on the upper side of the module body, wherein the lower cap is formed in a disc shape having a shape corresponding to the lower seating groove. The support disc is provided with a plurality of elastic bodies on the lower side for supporting by using an elastic force; And formed in the shape of a disc of the shape corresponding to the lower seating groove is seated on the upper side of the support disc, the wheels are installed on each side of the lower side so that the column module seated on the upper side to rotate in the lower seating groove The rotating disk is further included, wherein the warehouse, at least one height adjustment unit installed on the lower side of the guide rail to support the guide rail, and adjusts the support height of the guide rail; The height adjustment unit, the upper frame is formed in a cylindrical shape for supporting the lower side of the guide rail; And a seating groove having a shape corresponding to a shape of a lower portion of the upper frame so that the upper frame can be inserted into the upper portion, and the upper frame inserted into the seating groove to adjust a support height of the upper frame. A lower frame having an insertion depth of which is adjusted in multiple stages, wherein the upper frame includes: an upper body formed in a cylindrical shape and inserted into the seating groove; A plurality of fastening protrusions are installed along a lower outer circumferential surface of the upper body, and fastened so that the upper body is no longer lowered after being moved along the wall surface of the seating groove; And a latching jaw that is arranged to extend around the upper outer circumferential surface of the upper body so that the upper body is lowered along the seating groove so that the upper body cannot be lowered any further. The lower frame includes the fastening protrusion moving up and down vertically. A vertical passage extending in a vertical direction from an upper side of a wall surface of the seating groove so as to form a space therein; A first horizontal passage extending in one horizontal direction from a middle portion of the vertical passage so that the fastening protrusion can move in a horizontal direction; A first fastening passage extending in a lower vertical direction from an end of the first horizontal passage so that the fastening protrusion can be seated; A second horizontal passage extending in one horizontal direction from a lower side of the vertical passage so that the fastening protrusion can move in a horizontal direction; And a second fastening passage extending in a lower vertical direction from an end of the second horizontal passage so that the fastening protrusion can be seated, wherein the first fastening passage is horizontally along the first horizontal passage. A descending passage extending downward from the end of the first horizontal passage so that the fastening protrusion that has been moved can be seated after being lowered; It is installed in the installation groove is formed in the upper recessed one side or both side wall of the descending passage, the front surface exposed to the descending passage forms an inclined surface inclined away from the installation groove toward the lower side, inserted into the installation groove When the rear end is supported by the elastic body and the fastening protrusion is moved along the inclined surface, the inclined surface is moved by the elastic body, and then when the fastening protrusion passes through the inclined surface and is seated in the lower space of the lower passage, the inclined surface by the elastic force of the elastic body. Fasteners for fastening the upper side of the fastening projection to the lower side of the front end exposed again from the installation groove; And an elastic support plate installed in a lower space of the descending passage and supported by an elastic body installed on a lower bottom surface of the descending passage to support the fastening protrusion seated on an upper side by using an elastic force. And at least one elastic support provided on the bottom of the elevating member, wherein the elastic support comprises: a spring; A pair of spring fixing nuts inserted into both ends of the spring to adjust a compression distance of the spring; And a pair of elastic members respectively fitted to the pair of spring fixing nuts, wherein the pair of spring fixing nuts each have one end portion corresponding to the inner diameter of the spring and a diameter longer than the inner diameter of the spring. A pair of elastic members, each of which is formed in a ring shape and fitted to an outer circumferential surface of one end of the pair of spring fixing nuts, and is fitted to one end of the pair of spring fixing nuts. And a stepped portion contacting the spring, wherein the stepped portion is contacted with an inner diameter surface of the spring, and the stepped surface is deformed correspondingly when the pair of spring fixing nuts are pressed; And a stepped side wall in contact with the inner surface of the spring to absorb the deformation stress of the spring, wherein the pair of elastic members are each formed on a surface in contact with the pair of spring fixing nuts. And a second fixing protrusion, wherein the pair of spring fixing nuts are provided with seating surfaces corresponding to the first fixing protrusion and the second fixing protrusion, respectively, and the first fixing protrusion and the second fixing protrusion are respectively provided. The pair of elastic members can be fixed by this.

According to one aspect of the invention, including the transfer module and the lifting device can increase the efficiency of storage and transport of the logistics for the warehouse.

According to another aspect of the present invention, by adopting the inclined surface structure of the transfer module it is possible to implement the automation of the storage and transportation of the logistics to the warehouse.

According to another aspect of the present invention, it is possible not only to absorb the vibration or shock transmitted between the components including the rotary support, but also to prevent the breakage of each component.

In addition, according to another aspect of the present invention, it is possible to adjust the height of the elevating rail as needed, including the height adjustment unit, thereby improving the work efficiency and convenience.

In addition, according to another aspect of the present invention, not only can absorb the vibration or shock transmitted between the components including the elastic support, it is possible to prevent the breakage of each component.

1 is a view showing a warehouse provided with a lift according to an embodiment of the present invention.
FIG. 2 is a view illustrating an open state of the door illustrated in FIG. 1.
3 and 4 are views showing another example of the transfer module shown in FIG.
5 is a view showing a rotary support according to the present invention.
6 and 7 are views showing the support pillar of FIG.
8 and 9 are views showing another example of the lower cap of FIG.
10 is a view showing a height adjustment unit according to the present invention.
11 to 13 illustrate the lower frame of FIG. 10.
14 is a view showing an elastic support according to an embodiment of the present invention.
15 is a cross-sectional view of FIG. 14.
16 is a view showing another embodiment of the pair of elastic members shown in FIG.

DETAILED DESCRIPTION The following detailed description of the invention refers to the accompanying drawings that show, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein may be embodied in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. In addition, it is to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the invention. The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention, if properly described, is defined only by the appended claims, along with the full range of equivalents to which such claims are entitled. Like reference numerals in the drawings refer to the same or similar functions throughout the several aspects.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the drawings.

1 is a view showing a warehouse provided with a lift according to an embodiment of the present invention.

Referring to FIG. 1, a warehouse 1 equipped with a lifting device according to an embodiment of the present invention may include a door 10, a transfer module 30, and a lifting device 50.

The warehouse (1, hereinafter, warehouse) provided with the elevating device according to an embodiment of the present invention may be a normal logistics warehouse, the type of the logistics is not limited. For example, the warehouse 1 may form a wall around the bottom plate and the outer periphery of the bottom plate, and the upper part of the wall may surround the ceiling to store the logistics goods in the inner space.

The door 10 may be provided to open and close the doorway formed at a predetermined portion of the wall surface of the warehouse 1 for entry or exit of an object or a person.

The door 10 has a size corresponding to the doorway, and when the door 10 is closed, the door 10 may be configured to be fitted to a frame provided at the doorway edge at its four sides.

The door 10 is fixed to one side of the frame provided at the edge of the doorway, the outside may be installed a handle that can be locked or opened. The user may grip the handle to open and close the door 10.

The transfer module 30 is installed on the outer surface of the warehouse 1, specifically, may be installed corresponding to the entrance of the warehouse 1.

The transfer module 30 may form an inclined surface having a predetermined angle with respect to the ground, and transfer the stacked goods to the doorway side of the open warehouse 1.

Detailed description with respect to the transfer module 30 will be described later with reference to FIG.

The elevating device 50 is installed on one side of the wall surface of the warehouse 1, specifically, on the upper side of the doorway, and mounts and lifts a logistic product transferred to the doorway side.

Detailed description with respect to the lifting device 50 will be described later with reference to FIG.

As described above, the warehouse 1 according to an embodiment of the present invention is a lifting device for mounting and lifting a transport module 30 for transporting a logistic product to an entrance side and a logistic product transported to an entrance in a general distribution warehouse ( 50), to facilitate the transport of logistics goods to the warehouse (1).

FIG. 2 is a view illustrating an open state of the door illustrated in FIG. 1.

Referring to FIG. 2, the transfer module 30 may be installed on an outer surface of the warehouse 1, and one side of the warehouse module 1 may be lifted to form an inclined surface having a predetermined angle with the ground. have. For example, one side of the transfer module 30 may be provided to be raised to the same height as the bottom surface of the warehouse (1). Accordingly, it is possible to easily transport the logistics goods loaded on the ground along the inclined surface into the warehouse (1).

The lifting device 50 may include a lifting device bracket 23, a lifting member 21, and a pair of guide rails 25.

The elevating device bracket 23 may be installed at one side of the wall surface of the warehouse 1, specifically, at the upper side of the doorway to provide an elevating movement space of the elevating member 21, and may provide an installation space of the guide rail 25. Can provide.

The pair of guide rails 25 may be installed vertically from the side of the elevating device bracket 23.

The pair of guide rails 25 are manufactured in a shape having an open surface in the longitudinal direction, and may be used by standing up while being spaced at a predetermined interval in a state in which the open surfaces in the longitudinal direction face each other. The pair of guide rails 25 may be installed on both the left and right sides of the lifting device bracket 23.

The elevating member 21 may include a frame member having a basket shape provided to prevent the drop of the logistics product on the support plate and the support plate for loading the logistics product.

The elevating member 21 may be installed on the pair of guide rails 25. For example, the elevating member 21 may be provided with guide rollers corresponding to the pair of guide rails 25, and may be installed on the pair of guide rails 25 by the guide rollers.

Although not shown in FIG. 2, the lifting device 50 may further include lifting means.

The elevating means is a means for vertically operating the elevating member 21 installed on the guide rail 25, and connects the wire rope through the pulley provided from the elevating member 21 side to use a winch or from above. The hoist device can be used for lifting and lowering by a separate hoist device installed. Alternatively, the elevating means may be used in a configuration capable of raising and lowering as a forward, backward operation of the working rod by directly connecting the hydraulic cylinder to the elevating member side.

As described above, the warehouse 1 according to the exemplary embodiment of the present invention includes a lifting device 50 to move the logistics goods to a desired floor number, and thus can be efficiently used when storing and transporting the goods.

3 and 4 are views showing another example of the transfer module shown in FIG.

According to another embodiment of the invention, the transfer module 30 may optionally form a predetermined inclined surface. That is, the transfer module 30 may be configured to form an inclined surface only when transferring the goods to the warehouse (1).

Referring to FIG. 3, the transfer module 30 may be divided into a first transfer plate 31, a second transfer plate 32, and a third transfer plate 33.

As described above, the transfer module 30 is installed to abut the side of the doorway, and the first transfer plate 31 corresponds to the part spaced farthest from the doorway, and the third transfer plate 33 corresponds to the part contacted with the doorway. The second transfer plate 32 corresponds to a portion between the first transfer plate 31 and the third transfer plate 33.

The first transfer plate 31 and the second transfer plate 32 may be hinged by the hinge member 311. That is, one side of the second transfer plate 32 may be hinged to the first transfer plate 31, and the other side contacted with the third transfer plate 33 may be rotated based on the first transfer plate 31. It can be raised to form an inclined surface.

The second transfer plate 32 may include a hydraulic cylinder therein so that the other side can lift. A detailed description thereof will be provided later.

In addition, one side of the first transfer plate 31 may be provided with a sensor for detecting the stacked goods. For example, one side of the first transfer plate 31 can be installed whether the pressure sensor is installed whether the logistic goods.

When the second conveying plate 32 is loaded with the logistic goods with respect to the first conveying plate 31 through a sensor provided on one side of the first conveying plate 31, the hydraulic cylinder operates to lift the other side. To form an inclined surface (see FIG. 3B).

The third transfer plate 33 may be rotatably installed at the other side of the second transfer plate 32.

The third transfer plate 33 may be formed in a shape corresponding to the step 211 formed in the elevating member 21. The third transfer plate 33 may be positioned in an overlapped state on the upper side of the second transfer plate 32, and when the second transfer plate 32 is lifted up, the third transfer plate 33 may be rotated and fitted to the step 211 (FIG. 3). (C) of). A detailed description in this regard will be described later with reference to FIG. 4.

Accordingly, an inclined surface that runs without a separate step from the first transfer plate 31 to the third transfer plate 33 may be formed. That is, a movement path of the logistics product may be formed from the ground to the elevating member 21.

The second transfer plate 32 may include a transfer roller 322 and a conveyor belt 321.

The conveying roller 322 is a member which is axially coupled to the main body of the second conveying plate 32 and rotates in a predetermined direction, and a plurality of conveying rollers are formed along a predetermined interval. As the conveying roller 322 rotates, the conveyor belt 321 may move in a predetermined direction.

The conveyor belt 321 is a member coupled to the plurality of transfer rollers 322 and moved in a predetermined direction by the transfer roller 322, and may be provided in a material and a shape of a conventional conveyor belt. That is, when the conveyor belt 321 is intended to transfer the object on the inclined surface, the conveyor roller 322 is installed only to prevent the object from slipping. The conveyor belt 321 is connected to the object to prevent the object from being slipped by the frictional force. Can be.

Referring to FIG. 4, the second transfer plate 32 may include a transfer plate bracket 35.

The transfer plate bracket 35 is embedded in the ground, and may provide an installation space for the components described below. At least a portion of the transfer plate bracket 35 will be exposed to the ground only when the other side of the second transfer plate 32 is lifted up as shown in FIG. 4.

The second transfer plate 32 may include a hydraulic cylinder 351 in the internal space of the transfer plate bracket 35. The hydraulic cylinder 351 may lift the second transfer plate 32 as described above. For example, the hydraulic cylinder 351 lifts the second transfer plate 32 when a signal is applied by a user's operation, or the first transfer plate through a sensor provided at one side of the first transfer plate 31. When the logistics goods loading is confirmed with respect to 31, the second transport plate 32 may be lifted automatically.

The second transfer plate 32 may include a drive sprocket 323 and a drive link 331.

The drive sprocket 323 may be connected to the drive motor and rotate, and may transmit a driving force to the drive link 331.

The driving link 331 may be connected to the driving sprocket 323 and the third transfer plate 33, respectively.

When the driving link 331 receives the driving force from the driving sprocket 323, the driving link 331 may rotate the third transfer plate 33.

Looking at the logistics product transfer operation of the transfer module 30, first, when the logistics product is loaded on the first transfer plate 31 in a state where the lifting member 21 is completely lowered, the second transfer plate ( The other side of the 32 may be lifted up, and the third transfer plate 33 may be turned upside down by rotation to fit the step of the elevating member 21.

Then, as the conveyor belt 321 moves by the operation of the transfer roller 322, the logistics goods loaded on the first transfer plate 31 are transferred to the second transfer plate 32 and the third transfer plate 33. It will be transported, and consequently will be transported and loaded up to the elevating member 21.

When the logistics goods transfer to the elevating member 21 is completed as described above, the third transfer plate 33 is turned upside down by rotation to be brought into contact with the upper surface of the second transfer plate 32, and the second transfer plate ( The other side of 32) is lowered to the ground again, the elevating member 21 can be elevated by the number of floors to store the loaded logistics.

On the other hand, the warehouse 1 according to an embodiment of the present invention may further include at least one rotary support.

The rotary support may be installed on the bottom of the elevating member 21 to support the elevating member 21 from the ground when the elevating member 21 is lowered.

The rotary support unit 400 may absorb vibrations or shocks transmitted from the ground to the elevating member 21 when the elevating member 21 is lowered.

5 is a view showing a rotary support according to an embodiment of the present invention.

Referring to FIG. 5, the rotatable support part 400 includes a lower cap 410, an upper cap 420, and a support pillar 430.

The lower cap 410 has a lower portion of the support pillar 430 in a downward direction from the upper surface of the cap body 411 so that the cap body 411 formed in a cylindrical shape and the lower portion of the support pillar 430 can be inserted. It may include a lower seating groove 412 is formed in a shape corresponding to the shape.

The upper cap 420, the upper body 421 formed in a cylindrical shape, the upper shape of the support pillar 430 in the upward direction from the lower surface of the upper body 421 so that the upper portion of the support pillar 430 can be inserted An upper seating groove 422 is formed to be recessed in a shape corresponding to the upper side, and is spaced apart from the upper side of the lower cap 410 to support the bottom surface of the elevating member 21.

The support pillar 430 is formed in a cylindrical shape and is installed between the lower cap 410 and the upper cap 420 to support the upper cap 420.

Support pillar 430 of the rotary support 400 having the configuration as described above, the four modules are connected to each other to form a cylindrical shape, the lower and upper parts to prevent each module from being separated It is fastened by the cap 410 or the upper cap 420.

6 is a view showing the support pillar of FIG.

Referring to FIG. 6, the support column 430 has four pillar modules 431a, 431b, 431c, and 431d formed in a circular arc-shaped column shape having a center angle at right angles to each other to form a cylindrical shape. Is inserted into the lower seating groove 412, and the upper part is inserted into the upper seating groove 422.

Here, each of the pillar modules 431a, 431b, 431c, and 431d includes a module body 4311, a sliding protrusion 4312, a sliding groove 4313, a supporting protrusion 4314, and a wheel 4315.

The module main body 4311 is formed in an arc-shaped column shape having a center angle at right angles, a sliding protrusion 4312 is formed in one plane, and a sliding groove 4313 is formed in the other plane.

The sliding protrusion 4312 extends in the vertical direction in one plane of the module main body 4311 and is inserted and fastened from an upper side of the sliding groove 4313 formed in the other plane of the other module main body 4311.

The sliding groove 4313 is recessed in the vertical direction in a shape corresponding to the shape of the sliding protrusion 4312 on the other one plane of the module main body 4311, and the sliding protrusion 4312 of the other module main body 4311 is formed. It is inserted and fastened to slide up and down.

The support protrusion 4314 is formed to protrude from the upper portion of the module main body 4311 to support the upper surface of the upper seating groove 421, and the wheel 4315 is rotatably connected to the upper portion.

The wheel 4315 is installed at an upper portion of the support protrusion 4314 so that the upper cap 420 seated on the upper side of the module main body 4311 can rotate.

At this time, each of the wheels 4315a, 4315b, 4315c, and 4315d has one side facing the central axis of the support pillar 430 so that the upper cap 420 seated on the upper side as shown in FIG. 7 can rotate. It would be desirable to be deployed.

Support pillar 430 having the configuration as described above, when the load is applied to only one side of the upper cap 420, only the column module 431a, 431b, 431c or 431d located on the lower side of the one side is moved downward By using the upper cap 420 to form an inclined surface, it is possible to support the object seated on the upper side of the upper cap 420.

8 is a view showing another example of the lower cap of FIG.

Referring to FIG. 8, the lower cap 410 according to another example includes a cap body 411, a lower seating groove 412, a support disc 413, and a rotation disc 415. Here, since the cap body 411 and the lower seating groove 412 is the same as the components of Figure 6, the description thereof will be omitted.

The support disc 413 is formed in a disc shape having a shape corresponding to the lower seating groove 412, and a plurality of elastic bodies 414 for supporting the rotary disc 415 seated on the upper side by using an elastic force are provided on the lower side thereof. Is installed on.

Rotating disc 415 is formed in the shape of a disc corresponding to the lower seating groove 412 is seated on the upper side of the support disc 413, the lower seating groove 412 to the column module 431 seated on the upper side Wheels 416 are installed on each side of the lower side so as to rotate in.

The lower cap 410 having the configuration as described above, the support pillar 430 is seated on the upper side of the rotating disk 415 as the lifting or lowering, as shown by each arrow as shown in Figure 9 is twisted By rotating according to the torsion can be prevented, as well as by reducing the vibration or shock transmitted from the support column 430 through the support disk 413 supporting the support column 430 by using an elastic force Damage caused by vibration or shock can also be effectively prevented.

On the other hand, the warehouse 1 according to an embodiment of the present invention may further include at least one height adjustment unit.

The height adjusting unit 500 is installed at the lower side of the pair of guide rails 25 to support the guide rails 25, and as illustrated in FIG. 13, the vertical heights of the guide rails 25 can be adjusted to adjust the support height of the guide rails 25. The length of is adjusted in multiple stages.

That is, the height adjusting unit 500 adjusts the height of the guide rail 25 by adjusting the support height to t1, t2 or t3 (t1> t2> t3) as the depth of the upper frame inserted into the lower frame to be described later. Can be adjusted in multiple steps.

10 is a view showing a height adjustment unit according to the present invention.

Referring to FIG. 10, the height adjusting unit 500 includes an upper frame 510 and a lower frame 520.

The upper frame 510 is formed in a cylindrical shape to support the lower side of the guide rail 25, and is mounted in multiple stages in the seating groove 530 of the lower frame 520.

In one embodiment, the upper frame 510 includes an upper body 511, a fastening protrusion 512, and a locking jaw 513.

The upper main body 511 is formed in a cylindrical shape and is inserted into the seating groove 530, and a plurality of fastening protrusions 512 are spaced apart from each other along the lower outer circumferential surface, and the locking step 513 extends along the upper outer circumferential surface. Is formed.

A plurality of fastening protrusions 512 are installed along the lower outer circumferential surface of the upper body 511, and are fastened so that the upper body 511 is no longer lowered after being moved along the wall surface of the seating groove 530.

The locking jaw 513 extends around the upper outer circumferential surface of the upper main body 511 so that the upper main body 511 descends along the seating groove 530 and no longer lowers (in the case of FIG. 13C). do.

The lower frame 520 is installed on the upper side of the horizontal frame 250, the mounting groove 530 of the shape corresponding to the shape of the lower portion of the upper frame 510 so that the upper frame 510 can be inserted in the upper It is formed on the upper side, the insertion depth of the upper frame 510 is inserted into the seating groove 530 to adjust the height of the support of the upper frame 510 is multistage ((a), (b) or (c) of FIG. 13). In the case of

FIG. 11 is a view illustrating a lower frame of FIG. 10.

Referring to FIG. 11, the lower frame 520 may include a vertical passage 521, a first horizontal passage 522, a first coupling passage 523, a second horizontal passage 524, and a second coupling passage 525. It includes.

The vertical passage 521 extends from the upper side to the lower vertical direction of the wall surface of the seating groove 530 so as to form a space for the fastening protrusion 512 to move up and down in the vertical direction, and the one side horizontal direction from the middle portion. The first horizontal passage 522 is formed to extend, the second horizontal passage 524 extends from the lower side in one horizontal direction.

The first horizontal passage 522 extends in one horizontal direction from the middle portion of the vertical passage 521 so that the fastening protrusion 512 descends along the vertical passage 521 and moves in the horizontal direction, and at the distal end. The first fastening passage 523 extends in the vertical direction.

The first fastening passage 523 extends from the end of the first horizontal passage 522 in the lower vertical direction so that the fastening protrusion 512 can be seated.

In one embodiment, the first fastening passage 523 includes a descending passage 5231, a fastener 5252, and an elastic support plate 5235.

The descending passage 5231 is downward from the end of the first horizontal passage 522 so that the fastening protrusion 512 that has moved in the horizontal direction along the first horizontal passage 522 may be seated in the lower space after being lowered. Is formed extending.

The fastener 5252 is installed in an installation groove 5333 formed in the upper one side or both side walls of the descending passage 5301, and the front surface exposed by the descending passage 5231 goes downward from the installation groove 5333. After forming the inclined surface inclined in the direction away from, the rear end inserted into the installation groove (5233) is supported by the elastic body (5234), if the fastening protrusion 512 is lowered along the inclined surface is moved in the direction of the elastic body (5234) (Fig. 12 (a)) When the fastening protrusion 512 passes through the inclined surface and is seated in the lower space of the downcoming passage 5231, the inclined surface is exposed again from the installation groove 5333 by the elastic force of the elastic body 5342, and the bottom of the shear The upper side of the fastening protrusion 512 is fastened to the side (in the case of FIG. 12B).

The elastic support plate 5235 is installed in the lower space of the lower passage 5281 and is supported by an elastic body 5236 installed on the lower bottom surface of the lower passage 5231 so as to elastically fasten the fastening protrusion 512 seated on the upper side. Support using

The second horizontal passage 524 extends from the lower side of the vertical passage 521 in one horizontal direction so that the fastening protrusion 512 can move in the horizontal direction.

The second fastening passage 525 extends from the end of the second horizontal passage 524 in the lower vertical direction so that the fastening protrusion 512 can be seated.

In this case, since the second horizontal passage 524 and the second fastening passage 525 are the same as the components of the first horizontal passage 522 and the first fastening passage 523, description thereof will be omitted to avoid duplication of explanation. Shall be.

That is, when the fastening protrusion 512 is seated in the first fastening passage 523, as shown in FIG. 13A, the supporting height of the upper frame 510 becomes t1, and the fastening protrusion 512 is In the case of being seated in the second fastening passage 525, as shown in FIG. 13B, the support height of the upper frame 510 becomes t2, and thus the support height can be freely adjusted according to the user's needs.

On the other hand, the warehouse 1 according to an embodiment of the present invention may further include at least one elastic support.

The elastic support part may be installed on the bottom of the elevating member 21 to support the elevating member 21 from the ground when the elevating member 21 is lowered.

The elastic support portion may absorb vibration or shock transmitted from the ground to the elevating member 21 when the elevating member 21 is lowered.

14 is a view showing an elastic support according to an embodiment of the present invention, Figure 15 is a cross-sectional view of FIG.

Referring to FIG. 14, the elastic support 700 includes a pair of spring retaining nuts 710a and 710b, a spring 750, and a pair of elastic members 720a and 720b.

The pair of spring fixing nuts 710a and 710b may be inserted into both ends of the spring 750 to adjust the compression distance of the spring 750.

To this end, the pair of spring fixing nuts 710a and 710b may be configured with one end corresponding to the inner diameter of the spring 750 and the other end having a diameter longer than the inner diameter of the spring 750.

In this embodiment, the first spring fixing nut 710a is installed on the bottom surface of the elevating member 21, one end of the spring 740 is installed on the first spring fixing nut 710a, and the spring 740 The second spring fixing nut 710b may be installed at the other end.

The spring 750 is configured to have an elastic force, and may be implemented as a compression coil spring, a dish spring, or the like. The spring 750 may be installed between the pair of spring fixing nuts 710a and 710b to distribute the load transmitted from the first spring fixing nut 710a to the second spring fixing nut 710b by an elastic force. The first spring fixing nut 710a and the second spring fixing nut 710b may be elastically connected to each other.

The pair of elastic members 720a and 720b may be formed in a ring shape and may be fitted to the outer circumferential surfaces of the pair of spring fixing nuts 710a and 710b, respectively. For example, the first elastic member 720a may be fitted to one end of the first spring fixing nut 710a.

Referring to FIG. 15, the pair of elastic members 720a and 720b may include stepped portions 721 and 722 in contact with the inner circumferential surface of the spring 750. Hereinafter, the first elastic member 720a will be described as an example.

The first elastic member 720a may include a stepped surface 721 and a stepped side wall 722.

The stepped surface 721 may contact the inner diameter surface of the spring 750. Since the stepped surface 721 is deformed correspondingly to absorb the pressure when the first spring fixing nut 710a is pressed, the internal diameter defect of the spring 750 is improved.

The stepped side wall 722 may be in contact with the inner surface of the spring 750. The stepped side wall 722 may absorb the deformation stress of the spring 750 to prevent damage to the inner surface of the spring 750.

On the other hand, Figure 16 is a view showing another embodiment of the pair of elastic members shown in FIG.

Referring to FIG. 16, the pair of elastic members 720a and 720b may include the stepped portions 721 and 722, the first fixing protrusion 725, and the second fixing protrusion 726, which contact the inner circumferential surface of the spring 750. It may include.

The first fixing protrusion 725 and the second fixing protrusion 726 may be formed on a surface of the first elastic member 720a that is in contact with the first spring fixing nut 710a.

When the first elastic member 720a is fitted to the first spring fixing nut 710a, the first elastic member 720a may be fixed by the first fixing protrusion 725 and the second fixing protrusion 726. At this time, the first spring fixing nut 710a may be provided with a mounting surface corresponding to the first fixing protrusion 725 and the second fixing protrusion 726.

The first elastic member 720a is fixed to the first spring fixing nut 710a by the first fixing protrusion 725 and the first fixing protrusion 725, so that the first spring fixing nut 710a rotates. Departure from the first spring fixing nut 710a can be prevented.

Although the above has been described with reference to the embodiments, those skilled in the art will understand that various modifications and changes can be made without departing from the spirit and scope of the invention as set forth in the claims below. Could be.

1: warehouse with lifting device
10: door
30: transfer module
50: lifting device

Claims (2)

A warehouse equipped with a lifting device,
A door provided to open and close the door;
A transfer module installed on an external ground in correspondence with the entrance, and configured to transfer the loaded logistics to the entrance; And
It includes; lifting device for mounting and lifting the goods to be transported to the exit side;
The door is
It has a size corresponding to the doorway, and when the door is closed, is configured to fit to the frame provided on the edge of the doorway on the four sides of the door, is fixed to the side of the frame provided at the doorway edge hinged , On the outside is a handle that can be locked or opened,
The lifting device,
An elevating device bracket installed on one side of a wall surface above the entrance and providing a moving space of the elevating member on which the logistics goods are loaded;
A guide rail installed vertically from the side of the elevating device bracket; And
And a guide roller corresponding to the guide rail is installed on the guide rail by the guide roller, and the lifting member is lowered along the guide rail.
The transfer module,
A first transfer plate positioned at a portion farthest from the entrance;
A second transfer plate hinged to the first transfer plate; And
And a third transfer plate positioned at a portion in contact with the entrance,
The second transfer plate,
One side is hinged to the first transfer plate by a hinge member is rotated relative to the first transfer plate to lift the other side in contact with the third transfer plate to form an inclined surface,
The third transfer plate,
It is formed in a shape corresponding to the step formed in the elevating member, and is rotatably installed on the other side of the second transfer plate by a drive sprocket and a drive link connected to the drive sprocket to receive a driving force, the second Located in an overlapped state on the upper side of the transfer plate, or rotated from the state to be fitted to the stepped state,
The second transfer plate,
A transfer roller axially coupled to the second transfer plate body to rotate in a predetermined direction; And
A conveyor belt coupled to the transfer roller and moving in a predetermined direction by the transfer roller;
A hydraulic cylinder provided to lift the second transfer plate; And
Included in the ground, and provides the installation space of the hydraulic cylinder, the transfer plate bracket at least part of which is exposed from the ground only when the other side of the second transfer plate is raised;
The warehouse,
Further comprising: at least one rotary support is installed on the lower surface of the elevating member,
The rotation support portion,
Lower cap;
An upper cap spaced apart from an upper side of the lower cap and supporting a bottom surface of the elevating member; And
And a support column installed between the lower cap and the upper cap to support the upper cap.
The lower cap,
A cap main body formed in a cylindrical shape, and a lower seating recess recessed in a shape corresponding to the lower shape of the support pillar in a downward direction from an upper surface of the cap main body so that a lower portion of the support pillar can be inserted therein;
The upper cap is
An upper seating groove is formed to be recessed in a shape corresponding to the upper shape of the support pillar in an upward direction from a lower surface so that an upper portion of the support pillar can be inserted therein.
The support pillar,
Four pillar modules formed in an arc-shaped column shape having a right angle to the center angle are connected to each other to form a cylindrical shape, a lower portion of which is inserted into the lower seating groove, and an upper portion of which is inserted into the upper seating groove.
The pillar module,
A module main body formed in the shape of a circular columnar column having a center angle perpendicular thereto;
A sliding protrusion extending in a vertical direction in one plane of the module main body and inserted and fastened from an upper side of a sliding groove formed in another plane of the other module main body;
A sliding groove recessed in a vertical direction in a shape corresponding to the shape of the sliding protrusion on the other side plane of the module main body, and the sliding protrusion of another module main body inserted into and fastened to slide in the vertical direction;
A support protrusion protruding from an upper portion of the module body to support an upper surface of the upper seating groove; And
And a wheel installed on an upper portion of the support protrusion so that the upper cap seated on the upper side of the module body can rotate.
The lower cap,
A support disc formed in a disc shape having a shape corresponding to the lower seating groove, and having a plurality of elastic bodies installed on a lower side thereof for supporting by using an elastic force; And
Is formed in the shape of a disc of the shape corresponding to the lower seating groove is seated on the upper side of the support disc, the wheels are installed on each side of the lower side so that the pillar module seated on the upper side to rotate in the lower seating groove Rotating disk; further comprising;
The warehouse,
At least one height adjusting part installed at a lower side of the guide rail to support the guide rail and adjusting a support height of the guide rail;
The height adjustment unit,
An upper frame formed in a cylindrical shape to support a lower side of the guide rail; And
A mounting groove having a shape corresponding to the shape of the lower portion of the upper frame may be formed in the upper portion so that the upper frame may be inserted in the upper portion, and the upper frame may be inserted into the mounting groove so as to adjust a supporting height of the upper frame. Includes; lower frame is inserted into the insertion depth is multi-stage,
The upper frame,
An upper body formed in a cylindrical shape and inserted into the seating groove;
A plurality of fastening protrusions are installed along a lower outer circumferential surface of the upper body, and fastened so that the upper body is no longer lowered after being moved along the wall surface of the seating groove; And
And an engaging jaw that is installed around the upper outer circumferential surface of the upper main body so that the upper main body descends along the seating groove and no longer descends.
The lower frame,
A vertical passage extending from an upper side of a wall surface of the seating groove in a lower vertical direction so as to form a space for moving the fastening protrusion in a vertical direction;
A first horizontal passage extending in one horizontal direction from a middle portion of the vertical passage so that the fastening protrusion can move in a horizontal direction;
A first fastening passage extending in a lower vertical direction from an end of the first horizontal passage so that the fastening protrusion can be seated;
A second horizontal passage extending in one horizontal direction from a lower side of the vertical passage so that the fastening protrusion can move in a horizontal direction; And
And a second fastening passage extending in a lower vertical direction from an end of the second horizontal passage so that the fastening protrusion can be seated thereon.
The first fastening passage,
A descending passage extending in a downward direction from an end of the first horizontal passage to be seated after the fastening protrusion moved in the horizontal direction along the first horizontal passage is lowered;
It is installed in the installation groove is formed in the upper recessed one side or both side wall of the descending passage, the front surface exposed to the descending passage forms a slope inclined away from the installation groove toward the lower side, inserted into the installation groove When the rear end is supported by the elastic body and the fastening protrusion is moved along the inclined surface, the inclined surface is moved by the elastic body, and then when the fastening protrusion passes through the inclined surface and is seated in the lower space of the lower passage, the inclined surface by the elastic force of the elastic body. Fasteners for fastening the upper side of the fastening projection to the lower side of the front end exposed again from the installation groove; And
An elastic support plate installed in a lower space of the descending passage and supported by an elastic body installed on a lower bottom surface of the descending passage to support the fastening protrusion seated on an upper side by using an elastic force;
The warehouse,
Further comprising: at least one elastic support is installed on the bottom of the elevating member,
The elastic support,
spring;
A pair of spring fixing nuts inserted into both ends of the spring to adjust a compression distance of the spring; And
And a pair of elastic members respectively fitted to the pair of spring fixing nuts.
The pair of spring fixing nut,
Each of the end portion corresponding to the inner diameter of the spring and the other end having a diameter longer than the inner diameter of the spring,
The pair of elastic members,
And a stepped portion formed in a ring shape and fitted to an outer circumferential surface of one end of each of the pair of spring fixing nuts, and fitted to one end of the pair of spring fixing nuts, the spring contacting with each other.
The stepped portion,
A stepped surface in contact with the inner diameter surface of the spring and deformed correspondingly when the pair of spring fixing nuts are pressed; And
And a stepped side wall in contact with the inner surface of the spring to absorb the strain stress of the spring.
The pair of elastic members,
And a first fixing protrusion and a second fixing protrusion respectively formed on a surface of the pair of spring fixing nuts.
The pair of spring fixing nuts,
And a seating surface corresponding to the first fixing protrusion and the second fixing protrusion, respectively, to fix the pair of elastic members by the first fixing protrusion and the second fixing protrusion, respectively.
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