CN113390718A

CN113390718A - Lithium cell automated production is with crushing resistance detection mechanism who prevents impression

Info

Publication number: CN113390718A
Application number: CN202110698722.9A
Authority: CN
Inventors: 李伟红; 吴际霖
Original assignee: Dongguan University of Technology
Current assignee: Dongguan University of Technology
Priority date: 2021-06-23
Filing date: 2021-06-23
Publication date: 2021-09-14

Abstract

The invention relates to a compression resistance detection mechanism for preventing impression in automatic production of lithium batteries, which comprises a protection device, a detection ocular, a connecting sleeve shaft and a collection mechanism, wherein the protection ocular is arranged on the connecting sleeve shaft; the detection eyepiece is arranged at the left end outside the protection device; the bottom of the detection eyepiece is provided with a connecting sleeve shaft; the collecting mechanism is arranged outside the bottom of the connecting sleeve shaft, and the collecting mechanism has the beneficial effects that: this lithium cell automated production is with anti-pressure nature detection mechanism who prevents impression, design through protector, can be when carrying out resistance to compression detection to the lithium cell, the problem of potential safety hazard appears when avoiding exerting pressure the lithium cell and bursting, usable center and protector and supplementary frame are to the design of center stack structure, can improve protector's shock resistance when bursting appearing, and can use usable protector, the interact between center and the supplementary frame shelters from the protection to whole detection mechanism using the end to lithium cell detection mechanism.

Description

Lithium cell automated production is with crushing resistance detection mechanism who prevents impression

Technical Field

The invention relates to the technical field of automatic production of lithium batteries, in particular to a pressure resistance detection mechanism for preventing impression in automatic production of lithium batteries.

Background

The lithium battery is a battery which uses lithium metal or lithium alloy as a positive/negative electrode material and uses a non-aqueous electrolyte solution, the lithium metal battery is firstly proposed and researched by Gilbert N. Lewis in 1912, and the lithium ion battery is proposed and researched by M.S. Whittingham in the 70 th century of 20 th, and the pressure resistance of the lithium battery is detected in the production process of the lithium battery.

The crushing resistance detection mechanism for the automatic production of the lithium battery has no good protection effect in the using process, and has the problem of shielding and protecting the whole detection mechanism when the detection mechanism is not needed, and in addition, the problem of collecting articles after the detection is finished is inconvenient.

Therefore, the pressure resistance detection mechanism for preventing the occurrence of the coining is required to be designed for the automatic production of the lithium battery.

Disclosure of Invention

The invention aims to provide a crush resistance detection mechanism for preventing imprinting in the automatic production of lithium batteries, which solves the problems that the crush resistance detection mechanism for the automatic production of lithium batteries in the background art does not have a good protection effect in the use process, the whole detection mechanism is shielded and protected when the detection mechanism is not used, and in addition, the collection of articles after the detection is finished is inconvenient.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a lithium cell automated production is with crushing resistance detection mechanism who prevents impression, includes: a guard; the detection eyepiece is arranged at the left end outside the protection device; the bottom of the detection eyepiece is provided with a connecting sleeve shaft; the collecting mechanism is arranged outside the bottom of the connecting sleeve shaft; the collection mechanism includes: the collecting inner frame is of a hollow structure; the collecting outer frame is arranged in the collecting inner frame; the adjusting mechanism is arranged on the outer surface of the top of the collecting mechanism, the collecting mechanism is tightly attached to the outer part of the adjusting mechanism, and the tail end of the outer part of the adjusting mechanism is provided with an auxiliary mechanism; the adjustment mechanism includes: the built-in sliding rails are symmetrically distributed about a transverse central axis of the collecting mechanism; the guide frame is arranged outside the built-in slide rail; the built-in clamping plate is arranged inside the guide frame.

Preferably, the guard comprises: the limiting grooves are arranged at two ends of the outside of the top of the collecting mechanism; the auxiliary frame is arranged inside the limiting groove; and the middle frame is arranged in the auxiliary frame.

Preferably, the inside of the auxiliary frame is a hollow structure, and the inside of the auxiliary frame is movably connected with the middle frame.

Preferably, the adjusting mechanism further comprises: the slide way is arranged at one end outside the built-in slide rail; the electric push rod is arranged inside the slide way; the switching block is arranged outside the tail end of the electric push rod.

Preferably, be welded connection between slide and the electric putter, and electric putter's the terminal outside and switching piece be fixed connection.

Preferably, the assist mechanism includes: the hydraulic air rod is vertically arranged inside the protection device; the connecting bottom block is arranged at the bottom of the hydraulic air rod and is of an L-shaped structure; the mounting groove is mounted inside the connecting bottom block; the connecting clamping block is arranged in the mounting groove; the motor outer cover is arranged at one end outside the connecting clamping block; the connecting shaft is arranged at one end outside the motor outer cover; the rod body is arranged outside the connecting shaft; the clamping groove is arranged at one end outside the rod body;

and the protection pad is connected to one end outside the clamping groove.

Preferably, be fixed connection between protection pad and the draw-in groove, and be the block structure between draw-in groove and the body of rod to the body of rod passes through connecting axle and the inside motor of motor dustcoat and constitutes revolution mechanic.

Preferably, the assist mechanism further includes: the adjusting bottom plate is arranged at one end outside the detection eyepiece; the placing platform is installed at the upper end of the adjusting bottom plate, and a supporting device is arranged outside the upper end of the placing platform.

Preferably, the supporting device includes: the vertical electric sliding rail is arranged at one end inside the auxiliary frame; the vertical plate is arranged at one end outside the vertical electric sliding rail; the pressure head is arranged at one end outside the vertical plate; the push plate is arranged inside the vertical electric sliding rail; and the transverse electric sliding rail is arranged outside the top of the vertical electric sliding rail.

Preferably, the vertical electric slide rail is perpendicular to the vertical electric slide rail, and the vertical electric slide rail is movably connected with the push plate.

Compared with the prior art, the invention has the beneficial effects that: the anti-pressing detection mechanism for preventing the pressing mark for the automatic production of the lithium battery can protect the outer surface of the lithium battery in the anti-pressing detection process of the lithium battery in the detection process, avoid the pressing mark from appearing outside, flexibly adjust the size of the protection pad according to the specific size of the lithium battery, is flexible to use, can be properly limited according to the size of the lithium battery, avoid the position from shaking in the anti-pressing detection process of the lithium battery, uniformly collect the detected objects after the detection of the lithium battery is finished, flexibly adjust the position of the placement platform according to the detection requirement and protect the whole detection mechanism;

1. through the design of the protective device, when the lithium battery is subjected to compression resistance detection, in order to avoid the problem of potential safety hazard when the pressurized lithium battery bursts, the shock resistance of the protective device can be improved when the lithium battery bursts by using the middle frame and the design of the overlapped structure of the protective device and the auxiliary frame, and the whole detection mechanism can be shielded and protected by using the interaction among the protective device, the middle frame and the auxiliary frame after the lithium battery detection mechanism is used;

2. through the design of the collecting mechanism, the lithium batteries after the detection can be subjected to material pushing and discharging treatment according to use requirements by utilizing the design of the vertical electric slide rail, the horizontal electric slide rail and the push plate after the detection is finished, so that the next lithium battery can be subjected to compression resistance detection treatment again, meanwhile, the lithium batteries after the detection is finished can be uniformly collected by utilizing the design of the collecting inner frame, and the collecting inner frame can be pulled out in a sliding manner along the outer surface of the collecting outer frame when the lithium batteries are collected to a certain number;

3. through the design of the adjusting mechanism, the guide frame and the built-in clamping plate can be driven to horizontally move according to the material receiving position by utilizing the design of the built-in slide rail in the using process, so that flexible receiving and processing of articles are facilitated, detection of the lithium battery after detection is finished is facilitated, discontinuity is reduced, and the switching block can be driven to move by utilizing the design of the electric push rod, so that the connecting bottom block connected with the switching block can be moved, and observation between the lithium battery placed on the inner surface of the placing platform and the detection eyepiece is facilitated;

4. through the design of the auxiliary mechanism, the two placing platforms are arranged, the shape structure of the placing platform can be used for more fitting the external shape of the lithium battery, the position of the placing platform can be subjected to preliminary adjustment and limiting treatment by using a screw hole and a screw in an adjusting bottom plate, the problem that the placing area is limited when the lithium battery is detected is avoided, and when the connecting bottom block is moved by using the electric push rod, a motor outer cover connected with the connecting clamping block can be synchronously driven to move, and the design of a motor in the motor outer cover can drive the protection pad to rotate, the protection pads are different in size, the lithium batteries with different sizes can be reasonably selected conveniently, the situation that the external part of the lithium battery has imprinting when the lithium battery is subjected to compression detection is avoided, and a transition effect is achieved;

5. through strutting arrangement's design, can provide a support for whole propelling movement material mechanism, adhere to the space for the pressure head provides simultaneously, be convenient for utilize the pressure head to exert pressure the processing to the lithium cell, and utilize the removal of vertical electric slide rail and horizontal electric slide rail, through the distribution between the two, it is convenient for follow-up lithium cell after detecting to carry out the propelling movement unloading, need not the manual operation of user.

Drawings

FIG. 1 is a schematic structural diagram of a pressure resistance detection mechanism for preventing imprinting in the automatic production of lithium batteries according to the present invention;

FIG. 2 is a schematic diagram of a side plate connection structure of the anti-imprinting pressure resistance detection mechanism for lithium battery automated production according to the present invention;

FIG. 3 is a schematic structural diagram of a weight plate of the anti-imprinting compression resistance detection mechanism for lithium battery automated production according to the present invention;

FIG. 4 is a schematic diagram of a side plate connection structure of the anti-imprinting pressure resistance detection mechanism for lithium battery automated production according to the present invention;

FIG. 5 is a schematic structural diagram of a weight plate of the anti-imprinting compression resistance detection mechanism for lithium battery automated production according to the present invention;

fig. 6 is a schematic structural diagram of a weight plate of the impression-proof compressive property detection mechanism for lithium battery automated production according to the present invention.

In the figure: 1. a guard; 101. a limiting groove; 102. a middle frame; 103. an auxiliary frame; 2. detecting an ocular lens; 3. connecting the sleeve shaft; 4. a collection mechanism; 401. collecting the inner frame; 402. collecting the outer frame; 5. an adjustment mechanism; 501. a built-in slide rail; 502. a guide frame; 503. a clamping plate is arranged inside; 504. a slideway; 505. a transfer block; 506. an electric push rod; 6. an auxiliary mechanism; 601. a hydraulic gas lever; 602. a protection pad; 603. a card slot; 604. a rod body; 605. a motor housing; 606. a connecting shaft; 607. connecting the clamping blocks; 608. mounting grooves; 609. connecting the bottom block; 610. adjusting the bottom plate; 611. placing a platform; 7. a support device; 701. a vertical electric slide rail; 702. a vertical plate; 703. a pressure head; 704. pushing the plate; 705. horizontal electronic slide rail.

Detailed Description

Referring to fig. 1 and fig. 6, the present invention provides a technical solution: the utility model provides a lithium cell automated production is with crushing resistance detection mechanism who prevents impression, includes: a shielding device 1; the detection eyepiece 2 is arranged at the left end outside the protection device 1; the protection device 1 comprises: the limiting grooves 101 are formed in the two ends of the outer portion of the top of the collecting mechanism 4, and the limiting grooves 101 are mounted at the two ends of the outer portion of the top of the collecting mechanism 4; the auxiliary frame 103, the auxiliary frame 103 is set up in the inside of the spacing groove 101; the middle frame 102 is arranged inside the auxiliary frame 103, the auxiliary frame 103 is of a hollow structure, the auxiliary frame 103 is movably connected with the middle frame 102, the protective device 1 and the auxiliary frame 103 can be used for designing a superposed structure of the middle frame 102 to avoid potential safety hazards during pressure-bearing lithium battery burst during pressure-bearing lithium battery pressure detection, the impact resistance of the protective device 1 can be improved during burst, the protective device 1, the middle frame 102 and the auxiliary frame 103 can be used for shielding and protecting the whole detection mechanism by utilizing the interaction among the protective device 1, the middle frame 102 and the auxiliary frame 103 after the lithium battery detection mechanism is used, and the connecting sleeve shaft 3 is arranged at the bottom of the detection eyepiece 2; the collecting mechanism 4 is arranged outside the bottom of the connecting sleeve shaft 3; the collection mechanism 4 includes: the collecting inner frame 401, the inside of the collecting inner frame 401 is a hollow structure; can utilize the design of collecting inside casing 401 to carry out unified collection to adding the lithium cell after the detection end, can slide along the outside surface of collecting frame 402 when collecting to a certain amount and take out to collecting inside casing 401, collect frame 402 and install in the inside of collecting inside casing 401, can utilize vertical electric slide rail 701 after the lithium cell detection end, the design of horizontal electric slide rail 705 and push pedal 704 can push away material unloading processing to the lithium cell after the detection end according to the use needs, be convenient for carry out resistance to compression detection again to next lithium cell and handle, strutting arrangement 7 includes: the vertical electric slide rail 701, the vertical electric slide rail 701 is arranged at one end inside the auxiliary frame 103; the vertical plate 702 is installed at one end outside the vertical electric sliding rail 701; the pressure head 703, the pressure head 703 is set up in the external one end of the riser 702; the push plate 704 is installed inside the vertical electric sliding rail 701; horizontal electronic slide rail 705, horizontal electronic slide rail 705 sets up the outside at vertical electronic slide rail 701 top, mutually perpendicular between vertical electronic slide rail 701 and the vertical electronic slide rail 701, and vertical electronic slide rail 701 is swing joint with push pedal 704, can provide a support for whole propelling movement material mechanism, simultaneously for pressure head 703 provides depending on the space, be convenient for utilize pressure head 703 to exert pressure the processing to the lithium cell, and utilize vertical electronic slide rail 701 and horizontal electronic slide rail 705's removal, through the distribution between the two, it is convenient for follow-up lithium cell after detecting to carry out the propelling movement unloading, need not the manual operation of user.

Referring to fig. 2, the adjusting mechanism 5 is disposed on the outer surface of the top of the collecting mechanism 4, the collecting mechanism 4 is tightly attached to the adjusting mechanism 5, and the adjusting mechanism 5 includes: the built-in sliding rails 501 are symmetrically distributed on the transverse central axis of the collecting mechanism 4; a guide frame 502, the guide frame 502 is arranged outside the built-in slide rail 501; a built-in card 503, the built-in card 503 is installed inside the guide frame 502, and the adjusting mechanism 5 further includes: the slide way 504 is arranged at one end of the outer part of the built-in slide rail 501; an electric push rod 506, wherein the electric push rod 506 is arranged inside the slide way 504; the adapter 505 is arranged outside the tail end of the electric push rod 506, the slide 504 is in welded connection with the electric push rod 506, the tail end of the electric push rod 506 is fixedly connected with the adapter 505, the guide frame 502 and the built-in clamping plate 503 can be driven to horizontally move according to the requirement of the receiving position by utilizing the design of the built-in slide rail 501 in the using process, the flexible receiving and processing of the articles are facilitated, the detection of the lithium battery after the detection is finished is facilitated again, the discontinuity is reduced, the adapter 505 can be driven to move in position by utilizing the design of the electric push rod 506, the connecting bottom block 609 connected with the adapter 505 can be moved, and the observation between the lithium battery arranged on the inner surface of the placing platform 611 and the detection eyepiece 2 is facilitated.

Referring to fig. 3 to 5, the outer end of the adjusting mechanism 5 is provided with an auxiliary mechanism 6, and the auxiliary mechanism 6 includes: the hydraulic air rod 601, the hydraulic air rod 601 is vertically installed inside the protection device 1; the connecting bottom block 609 is arranged at the bottom of the hydraulic air rod 601, and the connecting bottom block 609 is of an L-shaped structure; a mounting groove 608, the mounting groove 608 is mounted inside the connecting bottom block 609; the engaging clamping block 607 is arranged in the mounting groove 608; the motor housing 605, the motor housing 605 is installed at one end of the outside of the engaging block 607; a connecting shaft 606, the connecting shaft 606 being disposed at one end of the outside of the motor housing 605; a rod body 604, wherein the rod body 604 is arranged outside the connecting shaft 606; a clamping groove 603, wherein the clamping groove 603 is arranged at one end outside the rod body 604; protection pad 602, protection pad 602 connects the outside one end at draw-in groove 603, is fixed connection between protection pad 602 and the draw-in groove 603, and is the block structure between draw-in groove 603 and the body of rod 604 to body of rod 604 constitutes revolution mechanic through connecting axle 606 and the inside motor of motor housing 605, and complementary unit 6 still includes: an adjusting bottom plate 610, wherein the adjusting bottom plate 610 is arranged at one end outside the detection eyepiece 2; the placing platform 611 is installed at the upper end of the adjusting bottom plate 610, two placing platforms 611 are arranged, the shape structure of each placing platform 611 can be more fit with the external shape of the lithium battery, the position of each placing platform 611 can be adjusted in advance and limited by using screw holes and screws inside the adjusting bottom plate 610, the problem that the placing area is limited when the lithium battery is detected is avoided, the motor housing 605 connected with the connecting fixture block 607 can be synchronously driven to move when the connecting bottom block 609 is moved by using the electric push rod 506, the protection pad 602 can be driven to rotate by using the design of a motor inside the motor housing 605, the protection pad 602 is different in size, the lithium batteries with different sizes can be reasonably selected, the situation that the external parts of the lithium batteries are stamped when the lithium batteries are subjected to compression detection is avoided, and a transition effect is achieved, the placing platform 611 is externally provided with a supporting device 7 at the upper end thereof.

In summary, when the anti-pressure detection mechanism for preventing impression in the automatic production of lithium batteries is used, firstly, according to the structure shown in fig. 1 and fig. 6, a lithium battery to be detected needs to be placed between two placing platforms 611, then two placing platforms 611 are provided, the shape structure of the placing platforms 611 can be more fit with the external shape of the lithium battery, and the positions of the placing platforms 611 can be adjusted in advance and limited by using the screw holes and screws inside the adjusting bottom plate 610, so as to avoid the problem of limited placing area during detection of the lithium battery, and when the connecting bottom block 609 is moved by using the electric push rod 506, the motor housing 605 connected with the connecting fixture block 607 can be synchronously driven to move, and the design of the motor inside the motor housing 605 can be used to drive the protection pad 602 to rotate, and the size of the protection pad 602 is different, convenient to rationally select according to the lithium cell of equidimension not, avoid having the impression in the outside of lithium cell when carrying out the resistance to compression detection to the lithium cell, play a transitional effect, then the effect of usable pressure head 703 is exerted pressure and is handled the lithium cell, can be after exerting pressure, the design of usable built-in slide rail 501 drives guide frame 502 and built-in cardboard 503 and carries out the horizontal migration of position, be convenient for accept the processing in a flexible way to article, be convenient for detect the lithium cell after the detection is ended again, the discontinuity reduces, and the design that utilizes electric putter 506 can drive switching piece 505 and carry out the removal of position, so can remove the connection bottom piece 609 that is connected with switching piece 505, be convenient for observe between lithium cell and the detection eyepiece 2 of placing the platform 611 internal surface, can utilize vertical electric slide rail 701, the outside of lithium cell to carry out the detection after finishing, play a transition, The design of horizontal electric slide rail 705 and push pedal 704 can be based on the use needs and carry out material pushing and blanking to the lithium cell after the end of detection and handle, be convenient for carry out resistance to compression detection to next lithium cell once more and handle, can utilize the design of collecting inside casing 401 to carry out unified collection to the lithium cell after adding the end of detection simultaneously, can slide along the outside surface of collecting frame 402 when collecting to a certain amount and take out to collect inside casing 401, and finally, usable center 102 and protector 1 and supplementary frame 103 are to the design of center 102 stack structure, can improve protector 1's shock resistance when bursting appears, and can use usable protector 1, the interact shelters from the protection to whole detection mechanism between center 102 and the supplementary frame 103 at the end of using lithium cell detection mechanism.

Claims

1. The utility model provides a lithium cell automated production is with crushing resistance detection mechanism who prevents impression, includes:

a guard device (1); the method is characterized in that: the detection eyepiece (2), the detection eyepiece (2) is arranged at the left end outside the protection device (1); the bottom of the detection eyepiece (2) is provided with a connecting sleeve shaft (3); the collecting mechanism (4), the collecting mechanism (4) is installed outside the bottom of the connecting sleeve shaft (3); the collection mechanism (4) comprises: the collecting inner frame (401), the interior of the collecting inner frame (401) is of a hollow structure; a collection outer frame (402), wherein the collection outer frame (402) is arranged inside the collection inner frame (401); the adjusting mechanism (5) is arranged on the outer surface of the top of the collecting mechanism (4), the collecting mechanism (4) is tightly attached to the outer part of the adjusting mechanism (5), and the tail end of the outer part of the adjusting mechanism (5) is provided with an auxiliary mechanism (6); the adjustment mechanism (5) comprises: the built-in sliding rails (501), the built-in sliding rails (501) are symmetrically distributed about the transverse central axis of the collecting mechanism (4); a guide frame (502), wherein the guide frame (502) is arranged outside the built-in slide rail (501); a built-in card board (503), wherein the built-in card board (503) is installed inside the guide frame (502).

2. The anti-coining pressure resistance detection mechanism for the automatic production of the lithium battery according to claim 1, wherein the protection device (1) comprises: the limiting grooves (101), the limiting grooves (101) are arranged at two ends of the outside of the top of the collecting mechanism (4); the auxiliary frame (103), the auxiliary frame (103) is arranged in the limiting groove (101); a middle frame (102), wherein the middle frame (102) is installed inside the auxiliary frame (103).

3. The anti-stamping pressure resistance detection mechanism for the automatic production of lithium batteries according to claim 2, wherein the interior of the auxiliary frame (103) is of a hollow structure, and the interior of the auxiliary frame (103) is movably connected with the middle frame (102).

4. The anti-coining pressure resistance detection mechanism for the automatic production of the lithium battery according to claim 1, wherein the adjusting mechanism (5) further comprises: the slide way (504), the slide way (504) is set up in one end outside the said built-in slide rail (501); an electric push rod (506), wherein the electric push rod (506) is arranged inside the slideway (504); the adapter block (505) is arranged outside the tail end of the electric push rod (506).

5. The pressure resistance detection mechanism for preventing stamping according to claim 4, wherein the slideway (504) is connected with the electric push rod (506) in a welding manner, and the outer part of the tail end of the electric push rod (506) is fixedly connected with the transfer block (505).

6. The anti-coining pressure resistance detection mechanism for the automatic production of the lithium battery according to claim 1, wherein the auxiliary mechanism (6) comprises: the hydraulic air rod (601), the hydraulic air rod (601) is vertically installed inside the protection device (1); the connecting bottom block (609) is arranged at the bottom of the hydraulic air rod (601), and the connecting bottom block (609) is of an L-shaped structure; a mounting groove (608), the mounting groove (608) is mounted inside the connecting bottom block (609); the engaging clamping block (607) is arranged in the mounting groove (608); the motor outer cover (605), the motor outer cover (605) is installed at one end of the outside of the engaging clamping block (607); the connecting shaft (606), the connecting shaft (606) is set up in one end outside the said motor housing (605); the rod body (604), the rod body (604) is installed outside the connecting shaft (606); the clamping groove (603), the clamping groove (603) is arranged at one end of the outer part of the rod body (604); the protection pad (602), the protection pad (602) is connected in the outside one end of draw-in groove (603).

7. The pressure resistance detection mechanism for preventing stamping according to claim 6, wherein the protection pad (602) is fixedly connected with the clamping groove (603), the clamping groove (603) and the rod body (604) form a clamping structure, and the rod body (604) forms a rotating structure through the connecting shaft (606) and a motor inside the motor housing (605).

8. The anti-coining pressure resistance detection mechanism for the automatic production of the lithium battery according to claim 1, wherein the auxiliary mechanism (6) further comprises: the adjusting bottom plate (610), the adjusting bottom plate (610) is arranged at one end outside the detection eyepiece (2); the placing platform (611), the placing platform (611) is installed at the upper end of the adjusting bottom plate (610), and a supporting device (7) is arranged outside the upper end of the placing platform (611).

9. The anti-coining pressure resistance detection mechanism for the automatic production of the lithium battery according to claim 8, wherein the supporting device (7) comprises: the vertical electric sliding rail (701), the vertical electric sliding rail (701) is arranged at one end inside the auxiliary frame (103); the vertical plate (702), the vertical plate (702) is installed at one end of the outer part of the vertical electric sliding rail (701); the pressure head (703) is arranged at one end outside the vertical plate (702); the push plate (704), the push plate (704) is installed inside the vertical electric sliding rail (701); the horizontal electric sliding rail (705) is arranged outside the top of the vertical electric sliding rail (701).

10. The anti-pressing detection mechanism for preventing stamping of the lithium battery from being manufactured in an automated manner according to claim 9, wherein the vertical electric slide rail (701) is perpendicular to the vertical electric slide rail (701), and the vertical electric slide rail (701) is movably connected with the push plate (704).