CN216389295U - Coating film transmission device of battery substrate - Google Patents

Abstract

The utility model discloses a coating transmission device of a battery substrate, which comprises: the fixing frame is provided with a guide rail, and the guide rail extends to a coating chamber for coating; the conveying mechanism comprises a movable plate trolley, a plurality of lifting assemblies are arranged on the movable plate trolley, each lifting assembly comprises a connecting block, a fulcrum shaft and a supporting arm, one end of each connecting block is connected with the movable plate trolley, the other end of each connecting block is connected with the corresponding supporting arm, the supporting arms extend towards the film coating chamber, the fulcrum shafts are arranged between the supporting arms and the connecting blocks, the supporting arms and the connecting blocks are movably connected at two sides of the fulcrum shafts, the connecting blocks are provided with jackscrews at two sides of the fulcrum shafts, and the jackscrews penetrate through one of the supporting arms and the connecting blocks and abut against the other supporting arm; the supporting shaft is arranged, so that the horizontal heights of the supporting arms can be adjusted consistently, and the transmission stability is improved.

Description

Coating film transmission device of battery substrate

Technical Field

The utility model relates to the field of battery substrate coating, in particular to a coating transmission device of a battery substrate.

Background

A plurality of vacuum coating processes can be involved in the manufacturing process of a battery, most vacuum coatings need to be carried out under a certain temperature environment, at present, a battery substrate is transmitted to a vacuum coating chamber in a transmission arm mode, in order to improve production efficiency, the size of the battery substrate is often large, a single transmission arm cannot transmit, two or more than two transmission arms are needed to transmit the battery substrate at the same time, however, due to the fact that the plurality of transmission arms have assembly errors and self size errors, the situation that the horizontal sizes are inconsistent after the plurality of transmission arms are finally installed can be caused, the plurality of transmission arms damage the substrate when the battery substrate is transmitted, and the transmission process is not stable enough.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a coating transmission device for a battery substrate, and aims to solve the problems that the horizontal heights of a plurality of existing transmission arms are not consistent, and the transmission process of the transmission arms is unstable.

In order to achieve the above object, the present invention provides a device for transferring a coating film on a battery substrate, comprising:

the fixing frame is provided with a guide rail;

transmission device, transmission device is including removing the wooden handcart, it lifts the subassembly to be equipped with a plurality of on the removal wooden handcart, and is a plurality of lift the subassembly syntropy and set up, it includes connecting block, fulcrum axle and trailing arm to lift the subassembly, the one end of connecting block with it connects to remove the wooden handcart, the other end of connecting block with the connection of trailing arm, the fulcrum axle is located the trailing arm with between the connecting block, the trailing arm with the connecting block is in the both sides swing joint of fulcrum axle, the both sides of fulcrum axle all are equipped with the jackscrew, the jackscrew passes the trailing arm with one of them of connecting block in the same place with another butt.

Preferably, the bracket arm and the connecting block are provided with threaded holes and screws on two sides of the fulcrum shaft, and the bracket arm and the connecting block are in screw connection on two sides of the fulcrum shaft;

the connecting block is in the both sides of fulcrum axle all are equipped with the jackscrew hole, the jackscrew passes the jackscrew hole with the trailing arm butt.

Preferably, the connecting block comprises a transverse connecting plate and a vertical connecting plate, the connecting block is connected with the mobile board trolley through the vertical connecting plate, the supporting arm is connected through the transverse connecting plate, the fulcrum shaft is located between the transverse connecting plate and the supporting arm, and the transverse connecting plate is provided with the threaded holes on two sides of the fulcrum shaft and is in screw connection with the supporting arm;

the transverse connecting plate is also provided with the jackscrew hole and the jackscrew at two sides of the fulcrum shaft.

Preferably, two opposite plate surfaces of the transverse connecting plate and the supporting arm are provided with fulcrum grooves, the fulcrum shafts are arranged in the fulcrum grooves, and the diameters of the fulcrum shafts are larger than those of the fulcrum grooves.

Preferably, a reinforcing plate is arranged between the upper plate surface of the transverse connecting plate and the plate surface of the vertical connecting plate close to the film coating chamber, two threaded holes are formed in the two sides of the fulcrum shaft of the transverse connecting plate and the two threaded holes in the supporting arm, and the threaded holes in the same side of the fulcrum shaft are respectively located in the two sides of the reinforcing plate;

the transverse connecting plate is provided with two jackscrew holes on two sides of the fulcrum shaft respectively, and the jackscrew holes on the same side of the fulcrum shaft are respectively positioned on two sides of the reinforcing plate.

Preferably, a fixed plate is arranged between the connecting block and the movable plate trolley, the fixed plate is fixedly connected with the movable plate trolley, and the vertical connecting plates are arranged on the plate surface of the fixed plate close to the connecting block.

Preferably, the guide rail includes a first guide rail and a second guide rail, the first guide rail and the second guide rail are arranged in the same direction, the first guide rail and the second guide rail have the same height, two rows of sliding blocks matched with the first guide rail and the second guide rail are arranged at the bottom end of the moving plate vehicle, and at least one sliding block is arranged in each row.

Preferably, the coating transmission device for the battery substrate further comprises a control module and a driving module, wherein the driving module is connected with the movable plate trolley, and drives the movable plate trolley to reciprocate on the guide rail;

the driving module is electrically connected with the control module, and the control module controls the starting and stopping of the driving module.

Preferably, sensors are arranged at two ends of the guide rail, the sensors are connected with the control module, the sensors are used for detecting the position of the mobile plate trailer and sending the position information of the mobile plate trailer to the control module, and the control module controls the start and stop of the driving module according to the position information of the mobile plate trailer.

Preferably, the two ends of the guide rail are provided with buffer limiting blocks on the sliding path of the movable plate trailer.

According to the technical scheme, the movable plate trailer and the plurality of lifting assemblies are arranged on the transmission mechanism, and the plurality of lifting assemblies are all arranged on the same movable plate trailer, so that the consistency and the stability of the transmission process are ensured; on the other hand, the lifting assembly is further provided with a connecting block, a fulcrum shaft and a supporting arm, the horizontal height of one end of the battery substrate can be adjusted by adjusting the tightness degree of the jackscrew, the horizontal heights of all the supporting arms can be adjusted to the same height conveniently, and therefore the battery substrate is prevented from being affected by the supporting arm due to inconsistent heights in the process of lifting the battery substrate.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a coating film transfer device for a battery substrate according to an embodiment of the present invention;

FIG. 2 is an exploded view of the coating transfer device of the battery substrate of FIG. 1;

FIG. 3 is an exploded view of a lift assembly of the coating transfer device of the battery substrate of FIG. 1;

FIG. 4 is a schematic structural diagram of another embodiment of the coating film transfer device for a battery substrate according to the present invention;

fig. 5 is a cross-sectional view of a lift assembly of a coating transport device for battery substrates in fig. 1.

The reference numbers illustrate:

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a coating transmission device for a battery substrate.

In the embodiment of the present invention, as shown in fig. 1 and 3, the plating film transfer device for a battery substrate includes: the fixing frame 100 is provided with a guide rail 110; the conveying mechanism 200 comprises a movable plate trolley 210, a plurality of lifting assemblies 220 are arranged on the movable plate trolley 210, the plurality of lifting assemblies 220 are arranged in the same direction, each lifting assembly 220 comprises a connecting block 221, a fulcrum shaft 225 and a supporting arm 300, one end of each connecting block 221 is connected with the movable plate trolley 210, the other end of each connecting block 221 is connected with the corresponding supporting arm 300, the plurality of supporting arms 300 extend towards the film coating chamber 600, the fulcrum shaft 225 is arranged between the corresponding supporting arm 300 and the corresponding connecting block 221, the supporting arms 300 and the corresponding connecting blocks 221 are movably connected with each other on two sides of the corresponding fulcrum shafts 225, jackscrews 230 are arranged on two sides of the corresponding fulcrum shafts, and the jackscrews 230 penetrate through one of the supporting arms 300 and the corresponding connecting blocks 221 and abut against the other;

specifically, as shown in fig. 4, a coating opening 620 and an opening and closing door 630 are disposed on a side wall of a general coating chamber 600, a battery substrate 500 is transferred into the coating chamber 600 from the coating opening 620, and is transferred out from the coating opening 620 after coating is finished, a plurality of support pillars 610 are disposed in the coating chamber 600, a top end of each support pillar 610 is used for bearing the battery substrate 500, and heights of the support pillars 610 can be adjusted to facilitate taking out of the battery substrate 500;

as shown in fig. 2, the fixed frame 100 may be a horizontal plate surface, or may also be a horizontal frame, and the specific type is not limited, in this embodiment, taking a horizontal plate surface as an example, two guide rails 110 are arranged on the upper surface of the fixed frame 100, the guide rails 110 are arranged along the horizontal plate surface, the movable cart 210 is arranged on the guide rails 110, the movable cart 210 may slide on the horizontal guide rails 110, and when the guide rails 110 are installed, the movable cart 210 needs to face the coating chamber 600, so that the movable cart 210 slides from the guide rails 110 to the coating opening 620; in other embodiments, one or more guide rails 110 may be provided, and when a plurality of guide rails 110 are provided, it is necessary to ensure that the heights of the plurality of guide rails 110 are consistent, and the stability of the sliding of the mobile board trolley 210 is further improved when the mobile board trolley 210 slides on the plurality of guide rails 110 at the same time;

as shown in fig. 2 and 3, a plurality of lifting assemblies 220 are arranged on the movable board trolley 210, and each lifting assembly 220 comprises a connecting block 221 connected with the movable board trolley 210, a supporting arm 300 connected with the connecting block 221, and a fulcrum shaft 225 arranged between the connecting block 221 and the supporting arm 300; the plurality of support arms 300 are arranged in parallel, and the plurality of connecting blocks 221 are connected to the same movable plate trolley 210, so that the consistency and stability of the plurality of support arms 300 in the transmission and movement process can be ensured; the fulcrum shaft 225 is arranged between the connecting block 221 and the supporting arm 300, so that the supporting arm 300 can change the height of the other end of the supporting arm 300 around the fulcrum shaft 225, the connecting block 221 is provided with a threaded hole 227 and a top thread hole 228 on both sides of the fulcrum shaft 225 during setting, the supporting arm 300 is connected with the connecting block 221 through the threaded hole 227 by using a screw 229, then the supporting arm 300 is abutted to the supporting arm 300 through the top thread hole 228 by using a top thread 230, the height adjustment of the other end of the supporting arm 300 can be realized by adjusting the tightness degree of the top thread 230, the operation is convenient, therefore, the processing error and the assembly error of each supporting arm 300 can be compensated by tightening the top thread 230, and the screw 229 can be adjusted when necessary, so that all the supporting arms 300 keep consistent in height, and the stability when the battery substrate 500 is transmitted is ensured;

as shown in fig. 4, in use, the battery substrate 500 is placed on the supporting arm 300, the movable cart 210 moves towards the coating chamber 600, the supporting arm 300 feeds the battery substrate 500 into the coating chamber 600 through the coating opening 620, supports and supports the battery substrate 500, moves upwards for a certain distance to separate the battery substrate 500 from the supporting arm 300, the movable cart 210 moves towards a direction far away from the coating chamber 600, and the supporting arm 300 leaves from the coating chamber 600; when the battery substrate 500 is taken out, the support column 610 lifts the battery substrate 500, the support arm 300 extends into the coating chamber 600, the support column 610 places the battery substrate 500 on the support arm 300, the plate trailer 210 is moved away from the coating chamber 600, and the battery substrate 500 continues to the next station.

According to the technical scheme, the plurality of lifting assemblies 220 of the movable plate trailer 210210 are arranged on the transmission mechanism 200, and the plurality of lifting assemblies 220 are all arranged on the same movable plate trailer 210, so that the consistency and the stability of the transmission process are ensured; on the other hand, the lifting assembly 220 is further provided with a connecting block 221, a fulcrum shaft 225 and a supporting arm 300, the horizontal height of the supporting arm 300 used for lifting one end of the battery substrate 500 can be adjusted by adjusting the tightness degree of the jackscrew 230 and the tightness degree of the screw 229, and when the lifting assembly is used, the horizontal heights of all the supporting arms 300 are adjusted to the same height, so that the battery substrate 500 cannot be affected by inconsistent heights in the process of lifting the battery substrate 500 by all the supporting arms 300.

Further, referring to fig. 3, in this embodiment, the connecting block 221 includes a transverse connecting plate 222 and a vertical connecting plate 223, one end of the transverse connecting plate 222 is connected to the surface of the vertical connecting plate 223 close to the film plating chamber 600, the vertical connecting plate 223 is connected to the movable pallet 210, the transverse connecting plate 222 is connected to the support arm 300, and the threaded hole 227 and the jackscrew hole 228 are both disposed on the transverse connecting plate 222; specifically, horizontal connecting plate 222 and vertical connecting plate 223 integrated into one piece, increase the intensity of connecting block 221, horizontal connecting block 221 and vertical connecting block 221 set up perpendicularly, vertical connecting block 221 and removal lath 210 threaded connection, convenient to detach, horizontal connecting block 221 is towards coating chamber 600, trailing arm 300 sets up the below at horizontal connecting plate 222, locate horizontal connecting plate 222 and trailing arm with fulcrum axle 225 between, thereby trailing arm 300 can be supported fulcrum axle 225 and rotated from top to bottom, and then change the level of the other end of trailing arm 300. It should be noted that the transverse connecting plate is above the bracket arm in this embodiment, and the transverse connecting plate may also be below the bracket arm in other embodiments; in the embodiment, the jackscrew passes through the transverse connecting plate to be abutted with the bracket arm, and in other embodiments, the jackscrew passes through the bracket arm to be abutted with the transverse connecting plate.

Referring to fig. 3, in another embodiment, the lower plate surface of the transverse connecting plate 222 and the upper surface of the supporting arm 300 are both provided with a supporting point groove 226, the supporting point shaft 225 is disposed in the supporting point groove 226, the diameter of the supporting point shaft 225 is greater than that of the supporting point groove 226, the supporting point shaft is disposed in the supporting point groove, and the circular arc outer side wall of the supporting point shaft abuts against the circular arc inner side wall of the supporting point groove, so as to facilitate rotation.

Further, referring to fig. 3, in this embodiment, a reinforcing plate 224 is disposed between an upper plate surface of the transverse connecting plate 222 and a plate surface of the vertical connecting plate 223 close to the film plating chamber 600, two threaded holes 227 are disposed on two sides of the fulcrum groove 226 of the transverse connecting plate 222 and the bracket 300, and the threaded holes 227 on the same side of the fulcrum groove 226 are respectively disposed on two sides of the reinforcing plate 224; the transverse connecting plate 222 is provided with two terminal holes 228 on two sides of the supporting point groove 226, and the terminal holes 228 on the same side of the supporting point groove 226 are located on two sides of the reinforcing plate 224 respectively; specifically, a triangular reinforcing plate 224 is arranged between the transverse connecting plate 222 and the vertical connecting plate 223, so that the strength of the connecting block 221 is further enhanced, and the reinforcing plate 224 can also be integrally formed with the transverse connecting plate 222 and the vertical connecting plate 223, so that the overall strength of the connecting block 221 is improved; reinforcing plate 224 and fulcrum groove 226 are arranged perpendicularly in a crossed manner, transverse connecting plate 222 is divided into four areas, four threaded holes 227 and jackscrew holes 228 are formed in transverse connecting plate 222, wherein four jackscrew holes 228 and four threaded holes 227 are respectively located at two ends of reinforcing plate 224 and fulcrum groove 226, and each of four corners is provided with one threaded hole 227 and one jackscrew hole 228, so that the height of bracket 300 can be adjusted from four directions, fine adjustment is facilitated, adjustment accuracy is improved, and all brackets 300 are guaranteed to be arranged horizontally and the height is kept consistent.

As shown in fig. 5, the transverse connecting plate 222 and the bracket arms 300 are separated by the fulcrum shaft 225, two screws 229 and two jackscrews 230 are respectively arranged on two sides of the fulcrum shaft 225, the bracket arms 300 can be fixed on the transverse connecting plate 222 through the screws 229, and the angles between the bracket arms 300 and the transverse connecting plate 222 can be adjusted through the jackscrews 230, so that the height of the bracket arms 300 can be adjusted, and the heights of the four bracket arms 300 can be adjusted to the same height in this way, thereby facilitating the transmission.

Further, referring to fig. 2, in this embodiment, a fixing plate 400 is disposed between the connecting block 221 and the movable plate trolley 210, the fixing plate 400 is fixedly connected to the movable plate trolley 210, and the plurality of vertical connecting plates 223 are disposed on the plate surface of the fixing plate 400 close to the connecting block 221; specifically, the fixing plate 400 is long, so that the length of the fixing plate 400 can cover all the lifting assemblies 220, the vertical connecting plates 223 of all the lifting assemblies 220 are installed on the plane of the fixing plate 400 close to the film coating chamber 600 during installation, and all the supporting arms 300 are integrated and then the fixing plate 400 is connected to the movable plate trolley 210, so that the consistency of connection of each supporting arm 300 and the movable plate trolley 210 is ensured, and the transmission stability is improved.

Further, referring to fig. 2, in this embodiment, the guide rail 110 includes a first guide rail 110 and a second guide rail 110, the first guide rail 110 and the second guide rail 110 are arranged in the same direction, the heights of the first guide rail 110 and the second guide rail 110 are the same, four directions of the bottom end of the mobile plate trailer 210 are all provided with sliders 211 matched with the guide rail 110, and the mobile plate trailer 210 is connected with the guide rail 110 in a sliding manner through the four sliders 211; in this embodiment, the first guide rail 110 and the second guide rail 110 are arranged on the plane of the fixed frame 100 in the same direction and at the same height, and the movable plate trailer 210 is provided with two rows of sliding blocks at the bottom end, two sliding blocks in each row correspond to the two guide rails 110, so that the movable plate trailer 210 is prevented from tilting during sliding, stable sliding is ensured, and the stability of the transmission of the battery substrate 500 is further improved; it should be noted that in the present embodiment, two sliders are disposed in each row, and in other embodiments, one slider or more sliders are disposed in each row.

Further, in this embodiment, the coating transmission device for a battery substrate further includes a control module and a driving module, the driving module is connected to the movable plate trolley 210, and the driving module drives the movable plate trolley 210 to reciprocate on the guide rail 110; the driving module is electrically connected with the control module, and the control module controls the start and stop of the driving module; specifically, control module can set up the singlechip, and drive module sets up driving motor, and driving motor is connected with the singlechip, and driving motor drive removes wooden handcart 210 and slides on guide rail 110 to just can control the slip that removes wooden handcart 210 through the singlechip, need not manual operation, improve the efficiency of production.

In another embodiment, sensors are disposed at both ends of the guide rail 110, the sensors are connected to the control module, the sensors are configured to detect position coordinates of the mobile board trolley 210 and send position coordinate information of the mobile board trolley 210 to the control module, and the control module controls start and stop of the driving module according to the position information of the mobile board trolley 210; the starting point coordinate and the end point coordinate are set according to the distance between the lifting device and the film coating chamber 600, the sensor can detect the coordinate position of the mobile plate trolley 210 in real time in the moving process, when the sensor detects that the mobile plate trolley 210 reaches the end point coordinate or the starting point coordinate, a signal is fed back to the single chip microcomputer, the single chip microcomputer controls the driving motor to stop after receiving the feedback signal, and the control system adopting the sensor and the single chip microcomputer enables the sliding of the mobile plate trolley 210 to be more accurate, stable and controllable, so that the working efficiency is improved.

In another embodiment, two ends of the guide rail 110 are provided with buffer stoppers for stopping the movement of the mobile board trolley 210; the positions of the two limit blocks are set according to the maximum movable distance of the mobile board trolley 210, and the distance between the two limit blocks is ensured to be smaller than the maximum movable distance of the mobile board trolley 210, so that on one hand, the mobile board trolley 210 can be prevented from sliding without limit due to the failure of a circuit system, and on the other hand, the position of the mobile board trolley 210 can be interpreted according to the buffer limit blocks when the mobile board trolley 210 is manually slid.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A coating film transmission device of a battery substrate is characterized by comprising:

the fixing frame is provided with a guide rail;

transmission device, transmission device is including removing the wooden handcart, it lifts the subassembly to be equipped with a plurality of on the removal wooden handcart, and is a plurality of lift the subassembly syntropy and set up, it includes connecting block, fulcrum axle and trailing arm to lift the subassembly, the one end of connecting block with it connects to remove the wooden handcart, the other end of connecting block with the connection of trailing arm, the fulcrum axle is located the trailing arm with between the connecting block, the trailing arm with the connecting block is in the both sides swing joint of fulcrum axle, the both sides of fulcrum axle all are equipped with the jackscrew, the jackscrew passes the trailing arm with one of them of connecting block in the same place with another butt.

2. The coating film conveying device of a battery substrate according to claim 1, wherein the bracket arm and the connecting block are provided with a threaded hole and a screw on both sides of the fulcrum shaft, and the bracket arm and the connecting block are connected by the screw on both sides of the fulcrum shaft;

the connecting block is in the both sides of fulcrum axle all are equipped with the jackscrew hole, the jackscrew passes the jackscrew hole with the trailing arm butt.

3. The coating film conveying device for battery substrates according to claim 2, wherein the connecting block comprises a transverse connecting plate and a vertical connecting plate, the connecting block is connected with the mobile plate trolley through the vertical connecting plate, the bracket arm is connected through the transverse connecting plate, the fulcrum shaft is positioned between the transverse connecting plate and the bracket arm, and the transverse connecting plate is provided with the threaded holes at two sides of the fulcrum shaft and is in screw connection with the bracket arm;

the transverse connecting plate is also provided with the jackscrew hole and the jackscrew at two sides of the fulcrum shaft.

4. The device for coating and conveying a battery substrate according to claim 3, wherein two opposite plate surfaces of the transverse connecting plate and the supporting arm are provided with fulcrum grooves, the fulcrum shafts are arranged in the fulcrum grooves, and the diameters of the fulcrum shafts are larger than those of the fulcrum grooves.

5. The coating film transfer device for battery substrates according to claim 3, wherein a reinforcing plate is provided between the upper plate surface of the transverse connecting plate and the plate surface of the vertical connecting plate near the coating chamber, the transverse connecting plate and the supporting arm are provided with two threaded holes on both sides of the fulcrum shaft, and the threaded holes on the same side of the fulcrum shaft are respectively provided on both sides of the reinforcing plate;

the transverse connecting plate is provided with two jackscrew holes on two sides of the fulcrum shaft respectively, and the jackscrew holes on the same side of the fulcrum shaft are respectively positioned on two sides of the reinforcing plate.

6. The device for coating and conveying a battery substrate according to claim 3, wherein a fixed plate is arranged between the connecting block and the movable plate trolley, the fixed plate is fixedly connected with the movable plate trolley, and the plurality of vertical connecting plates are arranged on the surface of the fixed plate close to the connecting block.

7. The coating film conveying device for the battery substrates as claimed in claim 1, wherein the guide rails comprise a first guide rail and a second guide rail, the first guide rail and the second guide rail are arranged in the same direction, the first guide rail and the second guide rail are the same in height, two rows of sliding blocks matched with the first guide rail and the second guide rail are arranged at the bottom end of the movable plate trolley, and at least one sliding block is arranged at each row.

8. The device for coating and conveying a battery substrate according to claim 1, further comprising a control module and a driving module, wherein the driving module is connected with the movable plate trolley, and drives the movable plate trolley to reciprocate on the guide rail;

the driving module is electrically connected with the control module, and the control module controls the starting and stopping of the driving module.

9. The coating transmission device for battery substrates according to claim 8, wherein sensors are disposed at both ends of the guide rail, the sensors are connected to the control module, the sensors are configured to detect positions of the mobile lathes and send position information of the mobile lathes to the control module, and the control module controls start and stop of the driving module according to the position information of the mobile lathes.

10. The device for coating and conveying a battery substrate according to any one of claims 1 to 9, wherein buffer stoppers are provided at both ends of the guide rail on the sliding path of the mobile plate trailer.

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