CN215477500U - Automatic lifting structure of intelligent warehouse partition storage rack - Google Patents

Abstract

The utility model provides an automatic lifting structure of an intelligent warehouse partition storage rack, which realizes the lifting function of the storage rack by designing a vertical rack, an underframe, an upper storage rack, a middle storage rack, a lower storage rack, a sliding block a, a sliding groove a, a traction block, a sliding groove b, a sliding block c, a sliding groove c, a motor, a threaded rod, a sliding block d and a connecting rod of the storage rack.

Description

Automatic lifting structure of intelligent warehouse partition storage rack

Technical Field

The utility model relates to the field, in particular to an automatic lifting structure of an intelligent warehouse partition storage rack.

Background

Storage rack, as the name suggests a shelf of storage article, between the storing of using in the warehouse, in order to place more article, generally all be the design comparatively high and for the multilayer design, but because storage rack among the prior art structurally generally is fixed knot structure, can not carry out high regulation to it, consequently when placing and getting the upper article of taking storage rack, need the staff to step on to the eminence and lift the arm with the help of the instrument and get article, if article is heavier, then get the process of taking comparatively hard, consequently in order to solve above-mentioned problem, prior art has proposed the effectual above-mentioned problem of having solved of a storage rack with raising and lowering functions:

according to the patent No. CN201922287679.8, a storage rack with lifting function is provided, which comprises a first placing plate, a second placing plate is arranged on the top of the first placing plate, a third placing plate is arranged on the top of the second placing plate, two side walls of the first placing plate are fixedly connected with first vertical plates, two side walls of the second placing plate are fixedly connected with second vertical plates, two side walls of the third placing plate are fixedly connected with third vertical plates, one side wall of each of the two second vertical plates is respectively connected with one side wall of each of the two first vertical plates in a sliding way, and one side wall of each of the two third vertical plates is respectively connected with the other side wall of each of the two second vertical plates in a sliding way. The storage rack is more stable during lifting, and various articles can be placed more easily and conveniently;

however, there are still defects in practical application, the process of lifting the storage rack with lifting function in the above technology is a process of vertical lifting, and because the storage rack of the above technology is applied to a warehouse, the types of stored goods are more, and the specifications of various types of goods are different, that is, the sizes and heights of various types of goods are different, if the height of the stored goods is exactly equal to the spacing distance between the placing plates or slightly less than the spacing distance between the placing plates, the placed goods block the descending route of the placing plates, which causes the situation that the placing plates cannot descend, and further causes the storage rack to finish the lifting function normally.

Disclosure of Invention

According to the technical problems, the utility model provides an automatic lifting structure of an intelligent warehouse partition storage rack, which is characterized by comprising two storage rack vertical racks, a bottom rack, an upper storage rack, a middle storage rack, a lower storage rack, a sliding block a, a sliding groove a, a traction block, a sliding groove b, a sliding block c, a sliding groove c, a motor, a threaded rod, a sliding block d and a connecting rod, wherein the two storage rack vertical racks are distributed in bilateral symmetry, the sliding groove a is respectively arranged on the inner side end surfaces of the two storage rack vertical racks, the bottom rack is arranged at the lower end of the storage rack vertical rack, the upper storage rack, the middle storage rack and the lower storage rack are sequentially arranged between the two storage rack vertical racks from top to bottom, the sliding block a is respectively arranged on the left side end surface and the right side end surface of the upper storage rack, the sliding block a is slidably arranged in the sliding groove a, the traction block is respectively transversely arranged on the left side and the right side of the middle storage rack, the inner side of the traction block is provided with a sliding groove b, the left side and the right side of the middle placing frame are respectively provided with a sliding block b, the sliding block b is arranged in the sliding groove b in a sliding manner, the outer side of the traction block is provided with a sliding block c, the sliding block c is arranged in the sliding groove a in a sliding manner, the left side and the right side of the lower placing frame are respectively provided with a sliding block d, the inner side end surface of the bottom frame is provided with a sliding groove c, the sliding block d is arranged in the sliding groove c in a sliding manner, a threaded hole is transversely penetrated in the sliding block, the rear end surface of the bottom frame is provided with a motor, the motor is connected with an external power supply, the output end of the motor penetrates through the rear end surface of the bottom frame to extend into the sliding groove c and is provided with a threaded rod, the front end of the threaded rod penetrates through the threaded hole in the sliding block d and is rotatably arranged on the front side wall of the sliding groove c, and the upper placing frame, the middle placing frame and the lower placing frame are connected through connecting rods, the connecting rod is rotatably connected with the connecting parts of the upper placing frame, the middle placing frame and the lower placing frame.

The utility model has the beneficial effects that:

the utility model realizes the lifting function of the storage rack by designing a vertical rack, a bottom rack, an upper storage rack, a middle storage rack, a lower storage rack, a slide block a, a slide groove a, a traction block, a slide groove b, a slide block c, a slide groove c, a motor, a threaded rod, a slide block d and a connecting rod of the storage rack, adopts a pull translation lifting mode to replace the vertical lifting mode in the prior art, only needs to start the motor when the price of the storage rack needs to be raised, the motor drives the threaded rod to rotate, pushes the slide block d15 to move forwards through the matching between the threads, thereby driving the lower storage rack to move forwards, drives the middle storage rack to move downwards through the connecting rod between the lower storage rack and the middle storage rack, drives the upper storage rack to move downwards through the connecting rod between the middle storage rack and the upper storage rack, thereby completing the lifting of the storage rack, and simultaneously when the middle storage rack and the lower storage rack move downwards, all not equidimension move forward, make and go up rack, well putting frame and put down the frame all not be in same vertical on-line, on placing the board promptly, well putting the board and putting down the board all be in different decline routes on, consequently when the high just in time that accomodates the goods equals the interval distance of placing between the board or slightly be less than the interval distance of placing between the board, the goods of accomodating can not influence the decline of interlayer rack to guarantee that the storing frame can normally accomplish the work of going up and down.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

fig. 3 is a right side cross-sectional view of the present invention.

As shown in the figure: 1-vertical shelf of storage rack, 2-bottom shelf, 3-upper placing shelf, 4-middle placing shelf, 5-lower placing shelf, 6-sliding block a, 7-sliding chute a, 8-traction block, 9-sliding chute b, 10-sliding block b, 11-sliding block c, 12-sliding chute c, 13-motor, 14-threaded rod, 15-sliding block d and 16-connecting rod.

Detailed Description

Example 1

The utility model provides an automatic lifting structure of an intelligent warehouse partition storage rack, which is characterized by comprising storage rack vertical frames 1, an underframe 2, an upper storage rack 3, a middle storage rack 4, a lower storage rack 5, a sliding block a6, a sliding groove a7, a traction block 8, a sliding groove b9, a sliding block b10, a sliding block c11, a sliding groove c12, a motor 13, a threaded rod 14, a sliding block d15 and a connecting rod 16, wherein the storage rack vertical frames 1 are distributed in bilateral symmetry, the inner side end surfaces of the two storage rack vertical frames 1 are respectively provided with the sliding groove a7, the lower end of the storage rack vertical frame 1 is provided with the underframe 2, the upper storage rack 3, the middle storage rack 4 and the lower storage rack 5 are sequentially arranged between the two storage rack vertical frames 1 from top to bottom, the sliding blocks a6 are respectively arranged on the left side end surface and the right side end surface of the upper storage rack 3, the sliding block a6 is slidably arranged in the sliding groove a7, the left side and the right side of the middle storage rack 4 are respectively transversely provided with the traction block 8, the inner side of the traction block 8 is provided with a sliding groove b9, the left side and the right side of the middle placing frame 4 are respectively provided with a sliding block b10, a sliding block b10 is slidably arranged in a sliding groove b9, the outer side of the traction block 8 is provided with a sliding block c11, a sliding block c11 is slidably arranged in a sliding groove a7, the left side and the right side of the lower placing frame 5 are respectively provided with a sliding block d15, the inner side end surface of the bottom frame 2 is provided with a sliding groove c12, a sliding block d15 is slidably arranged in a sliding groove c12, a threaded hole is transversely penetrated in the sliding block 15, the rear end surface of the bottom frame 2 is provided with a motor 13, the motor 13 is connected with an external power supply, the output end of the motor 13 penetrates through the rear end surface of the bottom frame 2 to extend into the sliding groove c12 and is provided with a threaded rod 14, the front end of the threaded rod 14 penetrates through the threaded hole on the sliding block d15 and is rotatably arranged on the front side wall of the sliding groove c12, the upper placing frame 3, the middle placing frame 4 and the middle placing frame 4 are connected with the lower placing frame 5 through a connecting rod 16, the connecting rod 16 is rotatably connected with the connecting parts of the upper placing frame 3, the middle placing frame 4 and the lower placing frame 5.

Example 2

The underframe 2 and the motor 13 are both arranged on the ground;

when the device needs to descend, firstly, the motor 13 is started, the motor 13 rotates forwards, the output end of the motor 13 drives the threaded rod 14 to rotate, the sliding block d15 is pushed to move forwards along the sliding groove c12 through the matching of the threads, the sliding block d15 drives the lower placement frame 5 to move forwards, the lower placement frame 5 drives the middle placement frame 4 to move forwards along the sliding groove a7 on the traction block 8 through the connecting rod 16, meanwhile, the sliding block c11 limits the sliding groove a7, the traction block 8 drives the middle placement plate 4 to move downwards, the middle placement frame 4 drives the upper placement frame 9 to move downwards through the connecting rod 16, and when the lower placement plate 5 moves to the foremost end of the bottom frame 2, the descending work of the storage frame is completed;

when the storage rack needs to ascend, the motor 13 is started to enable the motor 13 to rotate reversely, the output end of the motor 13 drives the threaded rod 14 to rotate reversely, the sliding block d15 is pushed to move backwards along the sliding groove c12 through the matching of the threads, the sliding block d15 drives the lower placement frame 5 to move backwards, the lower placement frame 5 drives the middle placement frame 4 to move backwards along the sliding groove a7 on the traction block 8 through the connecting rod 16, meanwhile, the sliding block c11 limits the sliding groove a7, the traction block 8 drives the middle placement plate 4 to move upwards, the middle placement frame 4 drives the upper placement frame 9 to move upwards through the connecting rod 16, and when the lower placement plate 5 moves to the rearmost end of the bottom frame 2, the ascending work of the storage rack is completed

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. While the utility model has been described with respect to the above embodiments, it will be understood by those skilled in the art that the utility model is not limited to the above embodiments, which are described in the specification and illustrated only to illustrate the principles of the utility model, but that various changes and modifications may be made without departing from the spirit and scope of the utility model as defined by the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (3)

1. An automatic lifting structure of an intelligent warehouse partition storage rack is characterized by comprising storage rack vertical frames, a bottom frame, an upper storage rack, a middle storage rack, a lower storage rack, a sliding block a, a sliding groove a, a traction block, a sliding groove b, a sliding block c, a sliding groove c, a motor, a threaded rod, a sliding block d and a connecting rod, wherein the two storage rack vertical frames are symmetrically distributed from left to right, the sliding groove a is formed in the inner side end surfaces of the two storage rack vertical frames respectively, the bottom frame is arranged at the lower end of the storage rack vertical frames, the upper storage rack, the middle storage rack and the lower storage rack are sequentially arranged between the two storage rack vertical frames from top to bottom, the sliding block a is arranged on the end surfaces of the left side and the right side of the upper storage rack respectively, the sliding block a is arranged in the sliding groove a in a sliding manner, the traction block is transversely arranged on the left side and the right side of the middle storage rack respectively, the inner side of the traction block is provided with a sliding groove b, slider b is installed respectively to the left and right sides of well rack, slider b slidable mounting is in spout b, slider c is installed in the outside of traction block, slider c slidable mounting is in spout an, slider d is installed respectively to the left and right sides of putting down the rack, spout c has been seted up on the medial surface of chassis, slider d slidable mounting is in spout c, transversely run through threaded hole in the slider, install the motor on the rear end face of chassis, the rear end face that the output of motor passed the chassis extends in spout c and installs the threaded rod, the screw hole that the front end of threaded rod passed on the slider d is rotated and is installed on spout c's preceding lateral wall, it all is connected through the connecting rod with well rack and lower rack to go up the rack.

2. The automated lifting structure for intelligent warehouse zoning storage shelf of claim 1, wherein the motor is connected with an external power source.

3. The automatic lifting structure of an intelligent warehouse storage rack according to claim 1, wherein the joints of the connecting rods and the upper, middle and lower racks are all rotationally connected.

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