CN223397123U - Metal film reclaiming device - Google Patents

Abstract

The utility model discloses a metal film taking device which comprises a tray, a supporting frame, a taking mechanism and an anti-slip mechanism, wherein a plurality of metal films are placed on the tray, the supporting frame comprises a frame body and fixing plates, the plurality of fixing plates are arranged on the frame body at intervals, the tray is arranged on each fixing plate, the taking mechanism can take the metal films in the tray on each fixing plate, the anti-slip mechanism is arranged on one side of the frame body and comprises a first driving piece and an anti-slip assembly, and the first driving piece is in transmission connection with the anti-slip assembly so as to drive the anti-slip assembly to move to one side of the tray to be taken. According to the metal film taking device, the anti-slip assembly is moved to one side of the tray to be taken by utilizing the first driving piece, so that the anti-slip assembly can stop the side edge of the metal film on the tray, the condition that other metal films adhered to the bottom side of the metal film slide down when the taking mechanism takes the metal film is reduced, and the taking stability and the use safety of the metal film taking device are ensured.

Description

Metal film extracting device

Technical Field

The utility model relates to the technical field of manufacturing of display devices, in particular to a metal film taking device.

Background

In the production process of the display panel, it is necessary to attach a metal film to the panel to improve the strength of the display panel. Referring to fig. 1, the conventional metal film taking device includes a taking mechanism 1', a placing frame 2', and a jig 3 'placed on the placing frame 2', wherein a plurality of metal films 4 'are stacked on the jig 3', and the taking mechanism 1 'is used for grabbing the metal films 4' one by one to perform feeding. The prior art has the following defects that the metal films 4' on the jig 3' are stacked, and after the metal films 4' are stacked for a period of time under the action of gravity of the metal films 4', certain adhesive force exists between the metal films 4', so that when the material taking mechanism 1' takes and moves the metal films 4' on the top of the jig 3', other metal films 4' adhered to the bottom side of the top metal film 4' are carried together to be discharged, and even the carried metal films 4' fall to the ground to pollute the environment or fall to other equipment to influence the normal operation of the equipment, so that the material taking stability of the metal film material taking device is influenced.

Disclosure of utility model

The utility model aims to provide a metal film taking device which is simple in structure, and the anti-skid mechanism can prevent the metal film from sliding off, so that the taking stability is high.

To achieve the purpose, the utility model adopts the following technical scheme:

The metal film taking device comprises a tray, a support frame, a taking mechanism and an anti-slip mechanism, wherein a film group is arranged on the tray, the film group comprises a plurality of metal films which are stacked in the vertical direction, the support frame comprises a frame body and fixing plates, a plurality of fixing plates are arranged on the frame body at intervals in the vertical direction, each fixing plate is provided with the tray, the taking mechanism is arranged on one side of the support frame in the first direction at intervals, the taking mechanism can take the metal films in the tray on each fixing plate one by one, at least one side of the two sides of the frame body which are arranged in the second direction and/or one side of the frame body which is far away from the taking mechanism in the first direction are/is provided with the anti-slip mechanism, the anti-slip mechanism comprises a first driving piece and an anti-slip assembly, the first driving piece is arranged on the frame body, the first driving piece is in transmission connection with the anti-slip assembly so as to drive the anti-slip assembly to be capable of moving to one side of the tray in the vertical direction, and the anti-slip assembly can take the metal films on one side of the tray in the first direction, and the second direction can be perpendicular to the first direction, and the first direction can take the metal films on the side of the tray.

As a preferred scheme of metal film extracting device, the antiskid subassembly includes second driving piece and separator, the second driving piece set up in the drive end of first driving piece, the second driving piece with the separator transmission is connected, so as to drive the separator along the horizontal direction remove can with the membrane group laminating, just the top side of separator with membrane group parallel and level, perhaps the top side of separator is higher than the membrane group.

As a preferable scheme of the metal film taking device, the separating piece comprises an abutting portion and a separating portion, the abutting portion is arranged at the driving end of the second driving piece, the abutting portion can be attached to the film group, the abutting portion is far away from one side of the second driving piece, protruding to be provided with the separating portion, and the separating portion can be inserted into the film group and far away from the bottom side of the metal film of the tray.

As a preferable mode of the metal film take-out device, the partition portion has an inclined surface which is inclined from top to bottom and toward a direction away from the abutting portion.

As a preferable scheme of the metal film taking device, the distance from the bottom side of the abutting part to the separation part along the vertical direction is D1, and the height of the tray is D2, and D1 is less than or equal to D2.

As a preferable mode of the metal film taking device, the metal film taking device further comprises a proximity sensor, the proximity sensor is arranged on the fixing plate, the proximity sensor is arranged adjacent to the tray, and the proximity sensor is used for sensing whether the abutting portion is close to the fixing plate.

As a preferred scheme of metal film extracting device, the support body all is provided with along the both sides of second direction range anti-skidding mechanism, the support body including set up respectively in the bracing piece group of fixed plate along the both sides of second direction, every bracing piece group all includes along first bracing piece and the second bracing piece of first direction range, first driving piece includes motor, lead screw and nut, the motor set up in on the first bracing piece, the lead screw rotate connect in on the first bracing piece, just the length of lead screw extends along vertical direction, the nut slip set up in on the lead screw, anti-skidding subassembly set up in on the nut, the motor with the lead screw transmission is connected, so as to drive the nut with anti-skidding subassembly moves along vertical direction.

As a preferred scheme of metal film extracting device, anti-skidding mechanism still includes guide assembly and mount pad, guide assembly includes guide rail and slide, the guide rail set up in on the second bracing piece, just the length of guide rail extends along vertical direction, the slide set up in on the guide rail, the one end of mount pad with the nut is connected, the other end of mount pad with the slide is connected, anti-skidding assembly set up in on the mount pad.

As a preferable scheme of the metal film taking device, the taking mechanism comprises a mechanical arm and a plurality of suction nozzles arranged at the driving end of the mechanical arm, the suction nozzles are used for adsorbing or loosening the metal film, the mechanical arm is arranged at one side of the supporting frame along the first direction at intervals, and the mechanical arm is used for driving the suction nozzles to transfer the metal film to the designated position one by one.

As a preferable scheme of the metal film taking device, at least two positioning columns are arranged on one of two sides of the tray, which are mutually abutted with the fixing plate, and positioning grooves are formed in the other side of the tray, which correspond to the positioning columns, and the positioning columns are inserted into the positioning grooves.

The anti-slip device has the beneficial effects that the plurality of fixing plates are arranged for supporting the plurality of trays, the placing capacity of the metal film on the supporting frame is improved, the continuity of operation of the material taking mechanism is facilitated, the workload of repeated material loading of operators is reduced, the anti-slip assembly is moved to one side of the tray to be taken by utilizing the first driving piece, so that the anti-slip assembly can stop the side edge of the metal film on the tray, the situation that the metal film slides down due to the fact that the material taking mechanism is attached to other metal films on the bottom side of the metal film when the metal film is taken is reduced, the situation that the metal film slides down to the ground to pollute the environment or slides down to other equipment to influence normal operation is reduced, and the material taking stability and the use safety of the metal film taking device are ensured.

Drawings

The utility model is described in further detail below with reference to the drawings and examples.

FIG. 1 is a schematic view of a conventional metal film take-off device;

FIG. 2 is a schematic view of a metal film take-off apparatus according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram illustrating the cooperation between a frame and an anti-slip mechanism according to an embodiment of the present utility model;

FIG. 4 is an enlarged schematic view at A of FIG. 3;

fig. 5 is a schematic diagram illustrating the cooperation of the tray and the fixing plate according to the embodiment of the present utility model.

In fig. 1:

1', a material taking mechanism, 2', a placing rack, 3', a jig and 4', a metal film.

Fig. 2 to 5:

1. Tray, 11, membrane group, 12, positioning column, 111, metal membrane, 2, support frame, 21, frame body, 211, first support rod, 212, second support rod, 22, fixing plate, 221, positioning groove, 3, material taking mechanism, 31, manipulator, 32, suction nozzle, 4, anti-slip mechanism, 41, first driving piece, 411, motor, 412, screw rod, 413, nut, 42, anti-slip component, 421, second driving piece, 422, separating piece, 4221, abutting part, 4222, separating part, 4223, inclined surface, 43, guiding component, 431, guide rail, 432, sliding seat, 44 and mounting seat.

Detailed Description

Advantages and features of the present utility model and methods of accomplishing the same may become apparent with reference to the following detailed description of embodiments taken in conjunction with the accompanying drawings. However, the present utility model is not limited to the embodiments disclosed below, but may be embodied in various different forms, which are provided only for the purpose of completing the disclosure of the present utility model and fully understanding the scope of the present utility model by those skilled in the art, and the present utility model is limited only by the scope of the claims. Like reference numerals denote like constituent elements throughout the specification.

Hereinafter, the present utility model will be described in detail with reference to the accompanying drawings.

As shown in fig. 2 to 5, the metal film taking device according to the embodiment of the utility model includes a tray 1, a support frame 2, a taking mechanism 3 and an anti-slip mechanism 4, wherein a film group 11 is placed on the tray 1, and the film group 11 includes a plurality of metal films 111 stacked in a vertical direction (the vertical direction is a Z direction in the drawing); the support frame 2 comprises a frame body 21 and fixing plates 22, a plurality of fixing plates 22 are arranged on the frame body 21 at intervals along the vertical direction, a tray 1 is arranged on each fixing plate 22, the material taking mechanism 3 is arranged on one side of the support frame 2 along the first direction at intervals, the material taking mechanism 3 can take the metal films 111 in the tray 1 on each fixing plate 22 one by one, at least one side of two sides of the frame body 21 arranged along the second direction and/or one side of the frame body 21 away from the material taking mechanism 3 along the first direction are/is provided with an anti-slip mechanism 4 (the first direction is the X direction in the drawing and the second direction is the Y direction in the drawing), the anti-slip mechanism 4 comprises a first driving piece 41 and an anti-slip assembly 42, the first driving piece 41 is arranged on the frame body 21, the first driving piece 41 is in transmission connection with the anti-slip assembly 42 so as to drive the anti-slip assembly 42 to move to one side of the tray 1 to be taken along the vertical direction, and the anti-slip assembly 42 can stop the side edges of the metal films 111 on the tray 1, wherein the vertical direction, the first direction and the second direction are mutually perpendicular.

It can be understood that the plurality of fixing plates 22 are arranged for supporting the plurality of trays 1, so that the placing capacity of the metal film 111 on the supporting frame 2 is improved, the continuity of operation of the material taking mechanism 3 is facilitated, the workload of repeated feeding of operators is reduced, the anti-slip component 42 is moved to one side of the tray 1 to be taken by utilizing the first driving piece 41, the anti-slip component 42 can stop the side edge of the metal film 111 on the tray 1, the situation that the metal film 111 slides down due to the fact that the metal film 111 is adhered to other metal films 111 on the bottom side of the metal film 111 when the material taking mechanism 3 takes the metal film 111 is reduced, the situation that the metal film 111 slides down to the ground to pollute the environment or slides down to other equipment to influence normal operation is reduced, and the material taking stability and the use safety of the metal film material taking device are ensured.

It should be noted that, the horizontal direction is perpendicular to the vertical direction, and the horizontal direction includes but is not limited to the first direction and the second direction, in this embodiment, both sides of the frame body 21 along the second direction are provided with an anti-slip mechanism 4, so as to ensure that both sides of the metal film 111 along the second direction can be blocked by the anti-slip component 42, two sides of the metal film 111 along the second direction are limited, the stability of placing the metal film 111 is high, and the anti-slip mechanism 4 and the material taking mechanism 3 are located at different sides and can reduce the mutual interference of the moving mechanisms, so that the use safety of the metal film material taking device is effectively improved. Of course, the two anti-slip mechanisms 4 are not limited to being disposed on both sides of the frame 21 in the second direction, and one of the two anti-slip mechanisms 4 may be disposed on one side of the frame 21 in the second direction, and the other may be disposed on a side of the frame 21 away from the material taking mechanism 3 in the first direction. Or the two sides of the frame body 21 along the second direction and the side of the frame body 21 away from the material taking mechanism 3 along the first direction are both provided with the anti-skid mechanism 4. In addition, only one anti-slip mechanism 4 may be provided on only one side of the frame 21 in the second direction or one side of the frame 21 away from the take-out mechanism 3 in the first direction.

For example, taking the tray 1 to be taken by the taking mechanism 3 as a taking tray and taking the topmost metal film 111 in the taking tray as a moving film as an example, before the taking mechanism 3 takes the moving film, the first driving member 41 drives the anti-slip assembly 42 to move to one side of the taking tray along the horizontal direction, so that the anti-slip assembly 42 can stop the metal film 111 on the taking tray, and limit the movement of the metal film 111 on the taking tray along the horizontal direction, thereby reducing the situation of sliding of the metal film 111 on the taking tray.

Further, as shown in fig. 3 and 4, the anti-slip assembly 42 includes a second driving member 421 and a partition 422, the second driving member 421 is disposed at the driving end of the first driving member 41, and the second driving member 421 is in driving connection with the partition 422 to drive the partition 422 to move along the horizontal direction to be capable of being attached to the membrane group 11, and the top side of the partition 422 is level with the membrane group 11, or the top side of the partition 422 is higher than the membrane group 11. The top side of the separator 422, i.e., the top surface of the separator 422 in the vertical direction, is stopped by driving the separator 422 with the second driving member 421 to attach the separator 422 to the film stack 11, thereby stopping the side of the metal film 111. And the top side of the partition 422 is flush with the film group 11, or the top side of the partition 422 is higher than the film group 11, i.e. the taking mechanism 3 grabs the moving film for transferring, even if the metal film 111 on the bottom side of the moving film is adhered under the moving film, a certain height of space can be provided for guiding the adhered metal film 111 when the moving film is taken, so as to return to the film group 11, and the sliding of the metal film 111 adhered on the bottom side of the moving film is effectively reduced.

It should be noted that, in the initial state of the second driving member 421, the partition member 422 is spaced from the fixing plate 22 along the horizontal direction, so that the situation that the anti-slip assembly 42 interferes with the fixing plate 22 under the driving of the first driving member 41 when the anti-slip assembly 42 moves to the next fixing plate 22 after the metal film 111 in the tray 1 on one fixing plate 22 is completely taken out can be avoided, and the use safety of the anti-slip mechanism 4 is improved. When the moving film is transferred, the second driving member 421 drives the partition 422 to retract to be spaced apart from the fixing plate 22, the first driving member 41 drives the anti-slip assembly 42 to move down by the height of one metal film 111, and the second driving member 421 drives the partition 422 to protrude.

Further, as shown in fig. 4, the separator 422 includes an abutting portion 4221 and a separating portion 4222, the abutting portion 4221 is provided at the driving end of the second driving member 421, the abutting portion 4221 can be attached to the film set 11, the separating portion 4222 is provided at a side of the abutting portion 4221 away from the second driving member 421, and the separating portion 4222 can be inserted into a bottom side of the film set 11 away from the metal film 111 of the tray 1. That is, the second driving member 421 drives the partition 4222 to be inserted into the bottom side of the moving film, so that the moving film is separated from other metal films 111 in the film group 11, and the material taking mechanism 3 is made to independently move the moving film, so that the situation that the other metal films 111 are adhered to the bottom side of the moving film and carried out together during the transferring of the moving film is avoided, that is, the movement of the metal film 111 below the moving film along the horizontal direction is limited by the abutting portion 4221, the movement of the metal film 111 below the moving film along the vertical direction is limited by the partition 4222, and the position stability of the metal film 111 below the moving film is effectively ensured.

It should be noted that, if the number of the metal films 111 in the module 11 is the same, the first driving member 41 may be directly used to drive the anti-slip assembly 42 to move by a specified height, and if the number of the metal films 111 in the module 11 is not the same, the driving end of the first driving member 41 needs to be provided with a camera to scan the metal films 111 in the module 11.

Specifically, the partition portion 4222 has an inclined surface 4223, and the inclined surface 4223 is inclined from top to bottom in a direction away from the abutment portion 4221. By providing the inclined surface 4223, the end of the partition portion 4222 away from the abutting portion 4221 is easily inserted to the bottom side of the moving film. Of course, the inclined surface 4223 may be inclined from bottom to top in a direction away from the abutting portion 4221 in addition to being inclined from top to bottom in a direction away from the abutting portion 4221, and the inclined surface 4223 is not particularly limited herein.

Further, the distance from the bottom side of the abutting portion 4221 to the partition portion 4222 in the vertical direction is D1, the height of the tray 1 is D2, D1 is equal to or smaller than D2, and when the last metal film 111 on the tray 1 is stopped by the partition 422, interference between the bottom of the abutting portion 4221 and the fixing plate 22 is avoided, and the use safety of the anti-slip mechanism 4 is improved.

Further, the metal film take-out device further includes a proximity sensor disposed on the fixed plate 22, and the proximity sensor is disposed adjacent to the tray 1, and the proximity sensor is configured to sense whether the abutment 4221 approaches the fixed plate 22. The proximity sensor is utilized to sense that the fixing seat is in place, a feedback signal is sent to the controller to indicate that the material taking of the metal film 111 on the tray 1 is completed, so that the material taking mechanism 3 and the anti-skid mechanism 4 are controlled to operate the tray 1 on the next layer of the fixing plate 22, the second driving piece 421 is used for driving the partition piece 422 to retract in time, and the situation that the partition piece 422 collides with the fixing plate 22 due to the fact that the first driving piece 41 drives the anti-skid mechanism 4 to move downwards is avoided. Of course, in other embodiments, the metal film 111 on the tray 1 may be collected by a camera to provide a warning of the movement of the anti-slip mechanism 4.

In some embodiments, as shown in fig. 2 and 3, the two sides of the frame body 21 arranged along the second direction are respectively provided with an anti-slip mechanism 4, the frame body 21 includes support rod groups respectively arranged on two sides of the fixing plate 22 along the second direction, each support rod group includes a first support rod 211 and a second support rod 212 arranged along the first direction, the first driving member 41 includes a motor 411, a screw rod 412 and a nut 413, the motor 411 is arranged on the first support rod 211, the screw rod 412 is rotatably connected to the first support rod 211, the length of the screw rod 412 extends along the vertical direction, the nut 413 is slidably arranged on the screw rod 412, the anti-slip component 42 is arranged on the nut 413, and the motor 411 is in transmission connection with the screw rod 412 to drive the nut 413 and the anti-slip component 42 to move along the vertical direction. The anti-slip mechanisms 4 are arranged on two sides of the frame body 21 along the second direction, the anti-slip mechanisms 4 on two sides operate synchronously to ensure the balance of the positions of the two sides of the metal film 111 along the second direction, prevent the metal film 111 from moving when the second driving piece 421 drives the partition 4222 of the partition 422 to be inserted, and effectively ensure the structural stability of the film group 11. The first driving part 41 drives the screw rod 412 by using the motor 411, and the screw rod 412 and the motor 411 cooperate with each other to realize driving, which has the advantages that 1, high precision, the motor 411 adopts the screw rod 412 for driving, the screw rod 412 is rolled and molded at one time, the driving precision can be 0.0005mm/s, the highest resolution can reach 0.0015mm, 2, the structure is simple, the whole design is convenient, 3, the service life is long, the motor 411 can reach at least 500 ten thousand cycles under the normal load condition, and 4, the high efficiency is that the motor 411 has higher driving efficiency compared with common driving mechanisms such as gear rack driving or synchronous belt driving.

Further, as shown in fig. 3, the anti-slip mechanism 4 further includes a guide assembly 43 and a mounting seat 44, the guide assembly 43 includes a guide rail 431 and a sliding seat 432, the guide rail 431 is disposed on the second support rod 212, the length of the guide rail 431 extends along the vertical direction, the sliding seat 432 is slidably disposed on the guide rail 431, one end of the mounting seat 44 is connected with the nut 413, the other end of the mounting seat 44 is connected with the sliding seat 432, and the anti-slip assembly 42 is disposed on the mounting seat 44. By the cooperation of the slide 432 and the rail 431, the stability and the guidance of the movement of the mount 44 and the anti-slip component 42 of the mount 44 can be improved, and the shaking or the inclination of the partition 422 can be reduced.

Optionally, as shown in fig. 2, the material taking mechanism 3 includes a manipulator 31 and a plurality of suction nozzles 32 disposed at the driving end of the manipulator 31, the suction nozzles 32 are used for adsorbing or releasing the metal films 111, the manipulator 31 is disposed at one side of the support frame 2 along the first direction at intervals, the manipulator 31 is used for driving the suction nozzles 32 to transfer the metal films 111 to a designated position one by one, and the application of the multi-axis manipulator 31 can effectively lift the movable free end of the driving end of the material taking mechanism 3, so that the metal films 111 in the trays 1 on the fixing plates 22 with different heights can be taken one by one.

Further, as shown in fig. 5, at least two positioning columns 12 are disposed on a side of the tray 1 facing the fixing plate 22, positioning grooves 221 are disposed on the fixing plate 22 corresponding to the positioning columns 12, the positioning columns 12 are inserted into the positioning grooves 221, and the positioning portions are matched with the positioning grooves 221, so that the placement accuracy of the tray 1 is effectively improved, and the material taking accuracy of the metal film 111 is effectively improved. Of course, the positioning column 12 may be provided on the top side of the fixing plate 22 and the positioning groove 221 may be provided on the bottom side of the tray 1, in addition to the positioning groove 221 provided on the bottom side of the tray 1.

Although the embodiments of the present utility model have been described above with reference to the accompanying drawings, the present utility model is not limited to the above embodiments, but may be manufactured in various forms, and it will be understood by those skilled in the art that the present utility model may be embodied in other specific forms without changing the technical spirit or essential features of the present utility model. Accordingly, it should be understood that the above-described embodiments are illustrative in all respects and not restrictive.

Claims (10)

1. A metal film take-out device, comprising:

The device comprises a tray, wherein a film group is arranged on the tray, and the film group comprises a plurality of metal films which are stacked along the vertical direction;

the support frame comprises a frame body and fixing plates, wherein a plurality of fixing plates are arranged on the frame body at intervals along the vertical direction, and each fixing plate is provided with a tray;

The material taking mechanisms are arranged at one side of the supporting frame along the first direction at intervals, and can take the metal films in the tray on each fixed plate one by one;

The anti-skid mechanism, the support body is along at least one side in the both sides of second direction range and/or the support body is kept away from along one side of extracting mechanism is provided with anti-skid mechanism, anti-skid mechanism includes first driving piece and anti-skid assembly, first driving piece set up in on the support body, first driving piece with anti-skid assembly transmission is connected, so that the drive anti-skid assembly can follow vertical direction and remove to wait to get the one side of material the tray, makes anti-skid assembly can block the side of metal film on the tray, wherein, vertical direction, first direction and second direction mutually perpendicular.

2. The metal film take-off device of claim 1, wherein the anti-slip assembly comprises a second driving member and a partition member, the second driving member is disposed at the driving end of the first driving member, the second driving member is in transmission connection with the partition member so as to drive the partition member to move along the horizontal direction and be capable of being attached to the film group, and the top side of the partition member is flush with the film group or the top side of the partition member is higher than the film group.

3. The metal film take-out device according to claim 2, wherein the partitioning member includes an abutting portion and a partitioning portion, the abutting portion is provided at the driving end of the second driving member, the abutting portion can be attached to the film group, the partitioning portion is provided to protrude from a side of the abutting portion away from the second driving member, and the partitioning portion can be inserted into the film group at a bottom side of the metal film away from the tray.

4. A metal film take-out apparatus according to claim 3, wherein the partition portion has an inclined surface which is inclined from top to bottom and toward a direction away from the abutting portion.

5. A metal film take-out apparatus according to claim 3, wherein a distance from the bottom side of the abutting portion to the partition portion in the vertical direction is D1, and a height of the tray is D2, D1 is equal to or less than D2.

6. A metal film take-off apparatus as defined in claim 3, further comprising a proximity sensor disposed on said fixed plate, and disposed adjacent to said tray, said proximity sensor for sensing whether said abutment is proximate to said fixed plate.

7. The metal film take-out apparatus according to any one of claims 1 to 6, wherein the two sides of the frame arranged in the second direction are provided with the anti-slip mechanism, the frame includes support bar sets respectively provided on two sides of the fixing plate in the second direction, each of the support bar sets includes a first support bar and a second support bar arranged in the first direction, the first driving member includes a motor, a screw and a nut, the motor is provided on the first support bar, the screw is rotatably connected to the first support bar, the length of the screw extends in the vertical direction, the nut is slidably provided on the screw, the anti-slip assembly is provided on the nut, and the motor is in driving connection with the screw to drive the nut and the anti-slip assembly to move in the vertical direction.

8. The metal film take-out apparatus according to claim 7, wherein the anti-slip mechanism further comprises a guide assembly and a mounting base, the guide assembly comprises a guide rail and a slide seat, the guide rail is arranged on the second support rod, the length of the guide rail extends along the vertical direction, the slide seat is slidably arranged on the guide rail, one end of the mounting base is connected with the nut, the other end of the mounting base is connected with the slide seat, and the anti-slip assembly is arranged on the mounting base.

9. The metal film take-out device according to any one of claims 1 to 6, wherein the take-out mechanism comprises a robot and a plurality of suction nozzles arranged at the driving end of the robot, the suction nozzles are used for sucking or releasing the metal film, the robot is arranged at one side of the support frame along the first direction at intervals, and the robot is used for driving the suction nozzles to transfer the metal film to a designated position one by one.

10. The metal film take-out apparatus according to any one of claims 1 to 6, wherein one of two sides of the tray abutting against the fixing plate is provided with at least two positioning posts, the other side is provided with positioning grooves corresponding to the positioning posts, and the positioning posts are inserted into the positioning grooves.