CN220155589U

CN220155589U - Automatic rubberizing device of battery side seal

Info

Publication number: CN220155589U
Application number: CN202321239355.7U
Authority: CN
Inventors: 喻世民; 丘雪辉; 潘嘉豪
Original assignee: Guangdong Honbro Science & Technology Co ltd
Current assignee: Guangdong Honbro Science & Technology Co ltd
Priority date: 2023-05-20
Filing date: 2023-05-20
Publication date: 2023-12-08
Anticipated expiration: 2033-05-20

Abstract

The utility model discloses an automatic rubberizing device for a battery side seal, which comprises a machine base, wherein one side of the machine base is provided with a rubberizing station, the machine base is provided with a rubberizing belt feeding mechanism and a rubberizing mechanism, the rubberizing belt feeding mechanism comprises an unreeling component, a rubberizing component for pulling out a rubberizing belt and a rubberizing component for cutting off the rubberizing belt, the rubberizing mechanism comprises a rubberizing component for sticking the cut rubberizing belt to the upper surface of an edge sealing of an electric core, a supporting component matched with the rubberizing component and a folding and pasting component for bending the rubberizing belt and pasting the rubberizing belt to the lower surface of the edge sealing, the folding and pasting component comprises a folding and pasting plate, a lower folding and pasting driving mechanism for controlling the folding and pasting plate to move up and down and a lower pasting driving mechanism for controlling the folding and pasting plate to move left and right, the rubberizing bracket is arranged on the machine base, and the rubberizing component is arranged on the rubberizing bracket and provided with a notch for enabling the folding and pasting plate to stretch to one side of the rubberizing station. The utility model reduces the rubberizing process, improves rubberizing efficiency and also improves the insulativity of edge sealing and notch cutting.

Description

Automatic rubberizing device of battery side seal

Technical Field

The utility model relates to the technical field of lithium battery production equipment, in particular to an automatic rubberizing device for battery side seals.

Background

In the production process of lithium ion battery core, lithium ion battery core is after annotating liquid encapsulation, need encapsulate the battery core, then with unnecessary banding excision, plastic-aluminum membrane incision is electrically conductive, so need carry out the rubberizing to the banding, play protection and insulating effect, traditional battery core encapsulation rubberizing is all that carry out 180 turns over the banding earlier, then rubberizing makes the banding paste the surface at the battery core tightly, such rubberizing mode, the process is many, production efficiency has been reduced, when rubberizing, upper and lower separately paste, the position accuracy can't guarantee and influence the encapsulation quality of battery, also influence rubberizing effect simultaneously, the plastic-aluminum membrane incision is not pasted in the middle of the battery moreover, cause weeping and short circuit easily, unsafe. The above problems are to be solved.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model provides an automatic rubberizing device for battery side seals, which can improve rubberizing efficiency, improve insulativity of edge sealing cuts, avoid the conditions of liquid leakage and short circuit and improve the use safety of batteries.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides an automatic rubberizing device of battery side seal, includes the frame, one side of frame is equipped with rubberizing station, be equipped with adhesive tape feed mechanism and rubberizing mechanism on the frame, adhesive tape feed mechanism includes unreels the subassembly, is used for drawing out the adhesive tape draw-out subassembly and be used for cutting off the adhesive tape rubberizing subassembly, rubberizing mechanism including be used for pasting the adhesive tape that cuts off to the banding upper surface of electric core move the rubberizing subassembly, with move rubberizing subassembly complex supporting component and be used for bending the adhesive tape and paste in the book of banding lower surface paste the subassembly, roll over and paste the actuating mechanism including folding the board, control folding the lower roll over actuating mechanism of the board about the activity of control folding the board, be equipped with on the frame and move the rubberizing support, move the rubberizing subassembly and install on moving the rubberizing support, be equipped with on the rubberizing support and supply folding the board to stretch out the breach of activity to rubberizing station one side. According to the utility model, the adhesive tape is automatically pulled out through the adhesive pulling assembly, then the cut adhesive tape is stuck to the upper surface of the edge seal through the adhesive moving assembly, and then the adhesive tape is stuck to the lower surface of the edge seal after being bent through the folding and sticking assembly, so that the edge seal does not need to be folded, the adhesive sticking efficiency is improved, the insulativity of an edge seal notch is also improved, the risks of leakage and short circuit of a battery are avoided, and the use safety of the battery is improved.

As a preferred scheme, be equipped with the first slide rail that extends to rubberizing station one side on the frame, be equipped with first slide on the first slide rail, paste actuating mechanism control first slide down and follow first slide rail slip, be equipped with on the first slide and roll over the subsides support, roll over and be equipped with the second slide rail of vertical extension on the subsides support, be equipped with the second slide on the second slide rail, roll over actuating mechanism control second slide along the second slide rail slip down, roll over the flitch and install on the second slide to move along with the second slide.

As a preferable scheme, the upper surface of the folding plate close to one end of the rubberizing station is inclined downwards from right to left. The upper surface of the folding plate, which is close to one end of the rubberizing station, is inclined, so that the adhesive tape is adhered to the lower surface of the edge sealing through the inclined surface when the folding plate moves, the edge sealing is prevented from being scratched, and the rubberizing quality is improved.

As a preferable scheme, the lower paste driving mechanism is a lower paste motor, the lower paste motor drives the lower paste screw rod to control the first sliding seat to slide along the first sliding rail, the lower fold driving mechanism is a lower fold motor, and the lower fold motor controls the second sliding seat to slide along the second sliding rail through the lower fold screw rod.

As a preferred scheme, move and glue the subassembly and include the glue sucking plate that is parallel with the length direction of the banding of electric core and control glue sucking plate up-and-down activity move the actuating mechanism, move and be equipped with the third slide rail of vertical extension on the glue support, be equipped with the third slide on the third slide rail, move the drive end of actuating mechanism and be connected with the third slide to drive the third slide and slide along the third slide rail, glue sucking plate installs on the third slide and moves along with the third slide.

As a preferable scheme, the glue moving driving mechanism comprises a first glue moving cylinder and a second glue moving cylinder, wherein the first glue moving cylinder is fixedly arranged on a glue moving support, the second glue moving cylinder is fixedly arranged on a third sliding seat, the first glue moving cylinder and the second glue moving cylinder are oppositely arranged up and down, and a movable rod of the first glue moving cylinder extends downwards to be connected with a movable rod of the second glue moving cylinder.

As a preferable scheme, the support assembly comprises a support plate for supporting the edge sealing of the battery cell and a support driving mechanism for controlling the support plate to move up and down, wherein the support plate is arranged below the rubber suction plate, and the length direction of the support plate is parallel to the length direction of the rubber suction plate.

As a preferred scheme, unreel the subassembly and include installing sticky tape unreel axle and a plurality of guide roll on moving the gluey support, draw the subassembly and draw the gluey actuating mechanism that draws gluey clamp activity including drawing the gluey clamp and control, it is equipped with the surely glued clamp that prevents that the sticky tape from moving back to cut one side that gluey subassembly kept away from drawing the gluey clamp.

As a preferable scheme, a fourth sliding rail which transversely extends is arranged on the glue moving support, a fourth sliding seat is arranged on the fourth sliding rail, the glue pulling driving mechanism controls the fourth sliding seat to slide along the fourth sliding rail, and the glue pulling clamp is arranged on the fourth sliding seat and moves along with the fourth sliding seat.

As a preferable scheme, the glue pulling driving mechanism is a glue pulling motor, the output end of the glue pulling motor is connected with a gear, and the fourth sliding seat is provided with a rack which is meshed with the gear.

The working process of the utility model is as follows:

the outer mechanism moves the electric core to be rubberized to the rubberizing station, the supporting plate of the supporting component upwards moves to support the lower surface of the electric core banding, the rubber pulling component pulls out the rubber belt of the unreeling component by a certain length, the rubber absorbing plate of the rubber pulling component moves downwards for the first time to suck the pulled rubber belt, the rubber cutting component cuts off the rubber belt after the rubber belt close to one end of the unreeling component is clamped by the fixed rubber clamp, the rubber absorbing plate of the rubber pulling component moves downwards for the second time to paste the rubber belt on the upper surface of the electric core banding, part of the rubber belt extends out of the outer side of the electric core banding, then the folding plate moves to the upper part of the rubber belt adhered to the electric core banding under the control of the lower pasting driving mechanism, then the folding plate moves downwards to bend the extending part of the rubber belt under the control of the lower folding driving mechanism, then the supporting plate moves downwards, then the folding plate moves horizontally under the control of the lower pasting driving mechanism, and the upper surface of the folding plate is matched with the rubber absorbing plate to paste the folded rubber belt on the lower surface of the electric core banding, and the side rubberizing operation is completed.

Compared with the prior art, the utility model has the obvious advantages and beneficial effects that the adhesive tape is automatically pulled out through the adhesive pulling assembly, then the cut adhesive tape is stuck to the upper surface of the edge seal through the adhesive moving assembly, and then the adhesive tape is stuck to the lower surface of the edge seal after being bent through the folding and sticking assembly, so that the edge seal does not need to be folded, the adhesive sticking efficiency is improved, the insulation of an edge seal notch is also improved, the risks of leakage and short circuit of a battery are avoided, and the use safety of the battery is improved.

For a clearer description of the structural features, technical means, and specific objects and functions achieved by the present utility model, the present utility model will be further described in detail with reference to the accompanying drawings and specific embodiments:

drawings

FIG. 1 is an assembled block diagram of an embodiment of the present utility model;

FIG. 2 is a schematic side view of an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a front view of an embodiment of the present utility model;

FIG. 4 is an enlarged schematic view at A in FIG. 1;

FIG. 5 is an enlarged schematic view at B in FIG. 2;

fig. 6 is an enlarged schematic view at C in fig. 3.

The attached drawings are used for identifying and describing:

10. frame 11, rubberizing station 12, move gluey support

13. Support bracket 20, unreeling component 21 and adhesive tape unreeling shaft

22. Guide roll 23, glue fixing clamp 30 and glue pulling assembly

31. Glue pulling clamp 32, fourth sliding seat 33 and glue pulling driving mechanism

34. Gear 35, rack 40 and glue cutting assembly

50. Adhesive tape 60, adhesive moving assembly 61 and adhesive suction plate

62. A third slide seat 63, a first glue moving cylinder 64 and a second glue moving cylinder

70. Folding and pasting component 71, folding and pasting board 72 and folding and pasting driving mechanism

73. Lower paste driving mechanism 731, lower paste screw 732 and synchronous belt

74. First slide seat 75, folding and pasting support 76 and second slide seat

80. Support assembly 81, support plate 82, support driving mechanism

100. Cell 101, banding.

Detailed Description

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description and to simplify the description, and do not indicate or imply that the positions or elements referred to must have specific directions, be configured and operated in specific directions, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood as appropriate by those of ordinary skill in the art.

As shown in fig. 1-6, an automatic rubberizing device for battery side seal comprises a machine base 10, wherein one side of the machine base 10 is provided with a rubberizing station 11, the machine base 10 is provided with a rubberizing strip feeding mechanism and a rubberizing mechanism, the rubberizing strip feeding mechanism comprises an unreeling component 20, a rubberizing component 30 for pulling out a rubberizing strip 50 and a rubberizing component 40 for cutting off the rubberizing strip 50, the rubberizing mechanism comprises a rubberizing component 60 for sticking the cut rubberizing strip 50 to the upper surface of a sealed edge 101 of an electric core 100, a supporting component 80 matched with the rubberizing component 60 and a folding and pasting component 70 for bending the rubberizing strip 50 and pasting the lower surface of the sealed edge 101, the folding and pasting component 70 comprises a folding and pasting plate 71, a folding and pasting driving mechanism 72 for controlling the folding and pasting plate 71 to move up and down and a folding and pasting driving mechanism 73 for controlling the folding and pasting plate 71 to move left and right, the rubberizing bracket 12 is arranged on the machine base 10, the rubberizing component 60 is mounted on the rubberizing bracket 12, and the rubberizing bracket 12 is provided with a notch for enabling the folding and pasting plate 71 to stretch to one side of the rubberizing station 11.

Specifically, a first sliding rail extending to one side of the rubberizing station 11 is arranged on the machine base 10, a first sliding seat 74 is arranged on the first sliding rail, the lower rubberizing driving mechanism 73 controls the first sliding seat 74 to slide along the first sliding rail, a folding support 75 is arranged on the first sliding seat 74, a second sliding rail extending vertically is arranged on the folding support 75, a second sliding seat 76 is arranged on the second sliding rail, the lower folding driving mechanism 72 controls the second sliding seat 76 to slide along the second sliding rail, and the folding plate 71 is arranged on the second sliding seat 76 and moves along with the second sliding seat 76. The upper surface of the folding plate 71 near one end of the rubberizing station 11 is inclined downwards from right to left. By inclining the upper surface of the folding plate 71 near one end of the rubberizing station 11, the adhesive tape 50 is adhered to the lower surface of the edge seal 101 through the inclined surface when the folding plate 71 moves, thereby avoiding scratching the edge seal 101 and improving rubberizing quality. The folding plate 71 can be molded by plastic or silica gel, so that no scratch is caused to the edge sealing.

In the present utility model, the lower paste driving mechanism 73 is a lower paste motor, the lower paste motor drives the lower paste screw 731 to control the first slide carriage 74 to slide along the first slide rail, the lower paste screw 731 is horizontally and transversely arranged on the stand 10, the output end of the lower paste motor controls the lower paste screw 731 to rotate through the synchronous belt 732, and the lower paste screw 731 is in threaded connection with the first slide carriage 74. The lower folding driving mechanism 72 is a lower folding motor, the lower folding motor controls the second sliding seat 76 to slide along the second sliding rail through a lower folding screw rod, the output end of the lower folding motor is in driving connection with the lower folding screw rod through a coupling, and the lower folding screw rod is in threaded connection with the second sliding seat 76. In the present utility model, the lower paste motor and the lower folding motor are servo motors, and it should be understood that the lower paste driving mechanism 73 and the lower folding driving mechanism 72 may be replaced by air cylinders.

Specifically, the glue moving assembly 60 includes a glue sucking plate 61 parallel to the length direction of the edge seal 101 of the electric core 100, and a glue moving driving mechanism for controlling the glue sucking plate 61 to move up and down, where a plurality of negative pressure suction holes (not shown) are provided on the lower surface of the glue sucking plate 61. The glue moving support 12 is provided with a third sliding rail extending vertically, the third sliding rail is provided with a third sliding seat 62, the driving end of the glue moving driving mechanism is connected with the third sliding seat 62 and drives the third sliding seat 62 to slide along the third sliding rail, and the glue absorbing plate 61 is arranged on the third sliding seat 62 and moves along with the third sliding seat 62. In the present utility model, the glue moving driving mechanism includes a first glue moving cylinder 63 and a second glue moving cylinder 64, the first glue moving cylinder 63 is fixedly installed on the glue moving bracket 12, the second glue moving cylinder 64 is fixedly installed on the third sliding seat 62, the first glue moving cylinder 63 and the second glue moving cylinder 64 are oppositely arranged up and down, and a movable rod of the first glue moving cylinder 63 extends downwards to be connected with a movable rod of the second glue moving cylinder 64, and the two cylinders are adopted to control the movement of the glue absorbing plate 61, so that the glue absorbing plate 61 obtains two strokes, and has a waiting position, a glue taking position and a glue sticking position from top to bottom in sequence. It should be understood that the glue moving driving mechanism can be replaced by a mode that a motor is matched with a screw rod.

Specifically, the supporting assembly 80 includes a supporting plate 81 for supporting the edge sealing of the battery cell 100, and a supporting driving mechanism 82 for controlling the supporting plate 81 to move up and down, where the supporting plate 81 is disposed below the suction plate 61, and the length direction of the supporting plate 81 is parallel to the length direction of the suction plate 61. The machine base 10 is provided with a bearing bracket 13, the supporting driving mechanism 82 is a supporting cylinder, the supporting cylinder is installed on the bearing bracket 13, and a movable rod of the supporting cylinder extends upwards to be connected with the bearing plate 81. It should be understood that in actual use, the support drive mechanism 82 may alternatively be a motor.

In the utility model, the unreeling assembly 20 comprises an adhesive tape unreeling shaft 21 and a plurality of guide rollers 22 which are arranged on the adhesive tape moving support 12, the adhesive pulling assembly 30 comprises an adhesive pulling clamp 31 and an adhesive pulling driving mechanism 33 for controlling the adhesive pulling clamp 31 to move, and one side of the adhesive cutting assembly 40 far away from the adhesive pulling clamp 31 is provided with an adhesive fixing clamp 23 for preventing the adhesive tape 50 from backing. In this embodiment, the adhesive cutting assembly 40 includes a cutter and an adhesive cutting cylinder for controlling the cutter to move up and down, and in actual use, the adhesive cutting assembly 40 may have other structures for cutting off the adhesive tape. The glue moving support 12 is provided with a fourth sliding rail extending transversely, the fourth sliding rail is provided with a fourth sliding seat 32, the glue pulling driving mechanism 33 controls the fourth sliding seat 32 to slide along the fourth sliding rail, and the glue pulling clamp 31 is mounted on the fourth sliding seat 32 and moves along with the fourth sliding seat 32. The glue pulling driving mechanism 33 is a glue pulling motor, the output end of the glue pulling motor is connected with a gear 34, and the fourth sliding seat 32 is provided with a rack 35 in meshed connection with the gear 34, and when the glue pulling driving mechanism works, the rack 35 is horizontally moved by rotating the gear 34. In actual use, the glue pulling motor can also be replaced by an air cylinder, and the air cylinder can also control the movement of the glue pulling clamp 31 through the cooperation of the gear and the rack.

The working process of the utility model is as follows:

the external mechanism moves the battery core to be rubberized to the rubberizing station 11, the supporting plate 81 of the supporting component 80 upwards movably supports the lower surface of the battery core banding, the rubber pulling component 30 pulls the rubber belt 50 of the unreeling component 20 to a certain length, the rubber sucking plate 61 of the rubber moving component 60 downwards moves for the first time to suck the pulled rubber belt 50, the rubber cutting component 40 cuts off the rubber belt 50 after the rubber belt 50 close to one end of the unreeling component 20 is clamped by the rubber fixing clamp 23, the rubber sucking plate 61 of the rubber moving component 60 downwards moves for the second time to paste the rubber belt 50 on the upper surface of the battery core banding, part of the rubber belt 50 stretches out of the outer side of the battery core banding, then the folding plate 71 firstly moves to the position above the rubber belt 50 stuck on the battery core banding under the control of the lower pasting driving mechanism 73, then downwards moves downwards under the control of the lower folding driving mechanism 72 to enable the stretching part of the rubber belt 50 to downwards, then the supporting plate 81 of the supporting component 80 downwards moves downwards under the control of the lower pasting driving mechanism 73, the folding plate 71 is horizontally moved under the control of the lower pasting driving mechanism, and the upper surface of the folding plate 71 is matched with the rubber sucking plate 61 to paste the folded rubber belt 50 on the lower surface of the battery core banding, so that the rubberizing operation of the battery core banding is finished.

In summary, according to the utility model, the adhesive tape 50 is automatically pulled out by the adhesive pulling assembly 30, then the cut adhesive tape 50 is adhered to the upper surface of the edge seal by the adhesive moving assembly 60, and then the adhesive tape 50 is folded by the folding and adhering assembly 70 and then is adhered to the lower surface of the edge seal, so that the edge seal does not need to be folded, the adhesive attaching efficiency is improved, the insulation property of an edge seal notch is also improved, the risks of leakage and short circuit of the battery are avoided, and the use safety of the battery is improved.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, so any modifications, equivalents, improvements, etc. of the above embodiments according to the present utility model are still within the scope of the present utility model.

Claims

1. The utility model provides an automatic rubberizing device of battery side seal, includes the frame, one side of frame is equipped with rubberizing station, be equipped with adhesive tape feed mechanism and rubberizing mechanism on the frame, its characterized in that, adhesive tape feed mechanism includes unreels the subassembly, is used for drawing out the adhesive tape draw-out subassembly and be used for cutting off the adhesive tape surely to glue the subassembly, rubberizing mechanism including be used for pasting the adhesive tape that cuts off to the banding upper surface of electric core move the subassembly, with move the subassembly complex supporting component and be used for bending the adhesive tape and paste in the book of banding lower surface and paste the subassembly, roll over and paste the subassembly including roll over rubberizing board, control roll over lower roll over actuating mechanism and control roll over rubberizing board control activity down, be equipped with on the frame and move the rubberizing support, move the subassembly and install on moving the rubberizing support, be equipped with on the rubberizing support and supply roll over the rubberizing board to stretch out the breach of activity to rubberizing station one side.

2. The automatic rubberizing device for battery side seal according to claim 1, wherein a first sliding rail extending to one side of a rubberizing station is arranged on the base, a first sliding seat is arranged on the first sliding rail, the lower rubberizing driving mechanism controls the first sliding seat to slide along the first sliding rail, a folding and pasting support is arranged on the first sliding seat, a second sliding rail extending vertically is arranged on the folding and pasting support, a second sliding seat is arranged on the second sliding rail, the lower folding driving mechanism controls the second sliding seat to slide along the second sliding rail, and the folding and pasting plate is arranged on the second sliding seat and moves along with the second sliding seat.

3. A battery side seal automatic taping device according to claim 1 or 2, wherein the upper surface of the end of the folding board close to the taping station is inclined downwards from right to left.

4. The automatic battery side seal rubberizing device according to claim 2, wherein the lower rubberizing driving mechanism is a lower rubberizing motor, the lower rubberizing motor drives a lower rubberizing screw rod to control a first sliding seat to slide along a first sliding rail, the lower folding driving mechanism is a lower folding motor, and the lower folding motor controls a second sliding seat to slide along a second sliding rail through the lower folding screw rod.

5. The automatic rubberizing device for battery side sealing according to claim 1, wherein the rubberizing assembly comprises a rubberizing plate parallel to the length direction of the edge sealing of the battery core and a rubberizing driving mechanism for controlling the rubberizing plate to move up and down, a third sliding rail extending vertically is arranged on the rubberizing support, a third sliding seat is arranged on the third sliding rail, a driving end of the rubberizing driving mechanism is connected with the third sliding seat and drives the third sliding seat to slide along the third sliding rail, and the rubberizing plate is arranged on the third sliding seat and moves along with the third sliding seat.

6. The automatic battery side seal rubberizing device according to claim 5, wherein the rubberizing driving mechanism comprises a first rubberizing cylinder and a second rubberizing cylinder, the first rubberizing cylinder is fixedly arranged on a rubberizing support, the second rubberizing cylinder is fixedly arranged on a third sliding seat, the first rubberizing cylinder and the second rubberizing cylinder are arranged up and down oppositely, and a movable rod of the first rubberizing cylinder extends downwards to be connected with a movable rod of the second rubberizing cylinder.

7. The automatic battery side seal rubberizing device according to claim 5, wherein the supporting component comprises a supporting plate for supporting the edge sealing of the battery cell and a supporting driving mechanism for controlling the supporting plate to move up and down, the supporting plate is arranged below the rubberizing plate, and the length direction of the supporting plate is parallel to the length direction of the rubberizing plate.

8. The automatic battery side seal rubberizing device according to claim 1, wherein the unreeling assembly comprises an adhesive tape unreeling shaft and a plurality of guide rollers, wherein the adhesive tape unreeling shaft is arranged on the adhesive tape moving support, the adhesive tape pulling assembly comprises an adhesive tape pulling clamp and an adhesive tape pulling driving mechanism for controlling the adhesive tape pulling clamp to move, and one side, far away from the adhesive tape pulling clamp, of the adhesive tape cutting assembly is provided with an adhesive tape fixing clamp for preventing the adhesive tape from backing.

9. The automatic battery side seal rubberizing device according to claim 8, wherein a fourth sliding rail extending transversely is arranged on the rubberizing support, a fourth sliding seat is arranged on the fourth sliding rail, the rubberizing driving mechanism controls the fourth sliding seat to slide along the fourth sliding rail, and the rubberizing clamp is arranged on the fourth sliding seat and moves along with the fourth sliding seat.

10. The automatic battery side seal rubberizing device according to claim 9, wherein the rubberizing driving mechanism is a rubberizing motor, an output end of the rubberizing motor is connected with a gear, and a rack meshed with the gear is arranged on the fourth sliding seat.