CN221216553U - Rubberizing device - Google Patents

Abstract

The application provides a rubberizing device which comprises a supporting component, a rubberizing cutting component and a clamping component, wherein the rubberizing component comprises a rubberizing disc, an adhesive tape is wound on the rubberizing disc, the rubberizing component comprises a rubberizing clamping jaw, the rubberizing clamping jaw is used for clamping the adhesive tape on the rubberizing disc, and the rubberizing clamping jaw moves to drive the adhesive tape to be pulled out from the rubberizing disc; the adhesive cutting assembly cuts off the adhesive tape clamped on the adhesive pulling clamping jaw, and comprises a cutter for cutting the adhesive tape clamped on the adhesive pulling clamping jaw; the cut adhesive tape is stuck on the battery cell clamped by the clamping component. Through the distance that draws the glued clamp claw to remove of setting up in advance for the position that draws glued clamp claw to remove is fixed at every turn of first power component drive, ensures that draw glued clamp claw to drive the sticky tape length that stretches out all the same, consequently the sticky tape length that cuts out at every turn is the same, compares manual cutting, has realized automatic cutting sticky tape, has improved production quality, avoids producing uneven sticky tape, influences the rubber coating effect.

Description

Rubberizing device

Technical Field

The application relates to the technical field of battery cell production, in particular to a rubberizing device.

Background

In the existing large cylindrical battery cell production process, insulating protective glue is required to be attached to the lugs at the two ends after the battery cell is wound, so that the battery cell is prevented from being short-circuited after being placed in an aluminum shell.

The prior art is generally that the protection adhesive tape is cut manually, then the protection adhesive tape is stuck to two ends of the battery cell, so that the production efficiency cannot be guaranteed, the quality of the manual cutting adhesive tape is uneven, the encapsulation quality is uneven, and the working efficiency is low.

Disclosure of utility model

The application mainly provides a rubberizing device which can ensure automatic rubberizing of adhesive tapes and improve production efficiency.

In order to solve the technical problems, the application adopts a technical scheme that: providing a rubberizing device comprising a support assembly; the adhesive storage assembly comprises an adhesive tape disc, the adhesive tape disc is rotationally connected with the supporting assembly, and the adhesive tape disc is used for storing the adhesive tape; the adhesive pulling assembly comprises an adhesive pulling clamping jaw and a first power component, the first power component is arranged on the supporting assembly, the output end of the first power component is connected with the adhesive pulling clamping jaw, the adhesive pulling clamping jaw is used for clamping the adhesive tape, and the first power component is used for driving the adhesive pulling clamping jaw to move so that the adhesive tape stretches out of the adhesive tape disc; the adhesive cutting assembly comprises a cutter and a second power component, the second power component is arranged on the supporting assembly, and the output end of the second power component is connected with the cutter and is used for driving the cutter to cut the adhesive tape on the adhesive pulling clamping jaw; and the clamping assembly is arranged on the supporting assembly and used for clamping the battery cell.

In a specific embodiment, the adhesive tape dispenser further comprises an adhesive opening assembly, the adhesive opening assembly comprises a plurality of guide rollers, the guide rollers are vertically arranged on the supporting assembly and located on one side of the adhesive tape disc, the adhesive tape stretches out from the adhesive tape disc to bypass the guide rollers, and the guide rollers are used for guiding the adhesive tape to the adhesive pulling assembly.

In a specific embodiment, the glue opening assembly further comprises a sliding seat, a sliding block and a moving roller, wherein the sliding seat is arranged on the supporting assembly, the sliding block is in sliding connection with the sliding seat and can slide along the height direction of the sliding seat, and the moving roller is arranged on the sliding block; the guide rollers are respectively arranged on two sides of the movable roller, and the adhesive tape stretches out from the adhesive tape disc to bypass the guide rollers and the movable roller.

In a specific embodiment, the glue opening assembly further comprises an inductor and a sliding power component, wherein the inductor is arranged on one side of the sliding seat and is electrically connected with the sliding power component, the inductor is used for sensing the position of the sliding block, and the output end of the sliding power component is connected with the sliding block and is used for driving the sliding block to slide along the height direction of the sliding seat.

In a specific embodiment, the adhesive cutting assembly further comprises an adhesive cutting clamping jaw, the adhesive cutting clamping jaw is arranged between the adhesive pulling clamping jaw and the adhesive tape disc and used for clamping the adhesive tape, and the cutter is arranged between the adhesive cutting clamping jaw and the adhesive pulling clamping jaw.

In a specific embodiment, the adhesive cutting assembly further comprises a pressing block, the pressing block is connected with the output end of the second power component and located between the cutter and the adhesive pulling clamping claw, and when the second power component drives the cutter to cut the adhesive tape, the pressing block presses the adhesive tape to the battery cell so that the adhesive tape is attached to the battery cell.

In a specific embodiment, the clamping assembly comprises a jacking support, a jacking power component and at least two jacking components symmetrically arranged on the jacking support, wherein the jacking components comprise jacking sliding plates and jacking wheels, and the jacking sliding plates are in sliding connection with the jacking support; the jacking slide plate is provided with a plurality of jacking wheels, and gaps between two adjacent jacking wheels are used for storing the battery cells; the output end of the jacking power component is connected with the jacking slide plate and used for driving the jacking slide plate to slide along the height direction of the jacking support.

In a specific embodiment, the jacking component further comprises a positioning roller and a third power component, the positioning roller is connected with the jacking slide plate, the positioning roller is located above the jacking wheel and is used for being opposite to the battery cell in position, and the third power component is arranged on the jacking slide plate and is connected with the positioning roller and is used for driving the positioning roller to be close to and position the battery cell.

In a specific embodiment, the clamping assembly further comprises a fourth power component, a connecting seat and a plurality of rubber wheels, wherein the connecting seat is connected with the jacking support, and the rubber wheels are rotatably connected with the connecting seat and are positioned above the jacking wheels; the fourth power component is in transmission connection with the rubber wheel and is used for driving the rubber wheel to rotate.

In a specific embodiment, the supporting component comprises a supporting bottom plate, a supporting seat, an adjusting plate and a side plate, wherein the supporting seat is arranged on the supporting bottom plate, the adjusting plate is in sliding connection with the supporting seat, the side plate is fixed on the adjusting plate, the glue storage component, the glue opening component and the glue cutting component are all arranged on the side plate, the glue pulling component is arranged on the adjusting plate, and the clamping component is arranged on the supporting bottom plate.

The beneficial effects of the application are as follows: the adhesive tape pulling device comprises a supporting component, an adhesive storage component, an adhesive pulling component, an adhesive cutting component and a clamping component, wherein the adhesive storage component comprises an adhesive tape reel, an adhesive tape is wound on the adhesive tape reel, the adhesive pulling component comprises an adhesive pulling clamping jaw, the adhesive pulling clamping jaw is used for clamping the adhesive tape on the adhesive tape reel, and the adhesive pulling clamping jaw moves to drive the adhesive tape to be pulled out from the adhesive tape reel; after the adhesive tape is pulled out by a certain length by the adhesive pulling clamping claw, the adhesive cutting assembly cuts off the adhesive tape clamped on the adhesive pulling clamping claw, and the adhesive cutting assembly comprises a cutter which is used for cutting the adhesive tape clamped on the adhesive pulling clamping claw so that the adhesive tape is separated from the adhesive tape disc; the cut adhesive tape is stuck on the battery cell clamped by the clamping component. Compared with the prior art, the automatic adhesive tape cutting device has the advantages that the distance for the adhesive tape pulling clamping claw to move is preset, the position for the first power part to drive the adhesive tape pulling clamping claw to move every time is fixed, the lengths for the adhesive tape pulling clamping claw to drive the adhesive tape to stretch out are guaranteed to be the same, then the adhesive tape is cut off through the cutter, the position of the cutter is also fixed, the lengths of the adhesive tapes cut every time are the same, compared with manual cutting, automatic adhesive tape cutting is realized, production quality is improved, uneven adhesive tapes are prevented from being produced, and the encapsulation effect is prevented from being influenced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an embodiment of a rubberizing device provided by the application;

FIG. 2 is a schematic diagram of another embodiment of a rubberizing device according to the application;

FIG. 3 is a schematic cross-sectional view of an embodiment of a rubberizing device provided by the application;

FIG. 4 is a schematic structural view of an embodiment of the glue spreading assembly provided by the present application;

FIG. 5 is a schematic diagram of an embodiment of a glue pulling assembly according to the present application;

FIG. 6 is a schematic view of an embodiment of a dicing assembly according to the present application;

FIG. 7 is a schematic view of an embodiment of a clamping assembly provided by the present application;

FIG. 8 is another schematic view of an embodiment of a clamping assembly provided by the present application;

FIG. 9 is a schematic diagram of an embodiment of a glue storage assembly according to the present application;

FIG. 10 is a schematic view of an embodiment of a support assembly provided by the present application;

Fig. 11 is an isometric view of an embodiment of a rubberizing device provided by the application.

1. A support assembly; 2. a glue storage assembly; 3. a glue opening assembly; 4. a glue pulling assembly; 5. a glue cutting assembly; 6. a clamping assembly; 7. an adhesive tape; 8. a battery cell; 11. a support base plate; 12. a support base; 13. an adjusting plate; 14. a side plate; 15. adjusting a screw; 21. a tape reel; 22. a rotating shaft; 31. a guide roller; 32. a slide; 33. a slide block; 34. a moving roller; 35. an inductor; 36. a sliding power component; 41. pulling a glue clamping jaw; 42. a first power component; 43. a screw rod base; 44. a first jaw mount; 51. a cutter; 52. cutting adhesive clamping jaws; 53. pressing the block; 54. a second power component; 55. a glue cutting mounting plate; 56. a mounting block; 57. a second jaw mount; 61. jacking the support; 62. a jacking member; 63. lifting the power component; 64. a rubber wheel; 65. a connecting seat; 66. a fourth power component; 131. a fixing groove; 531. an arc part; 621. lifting the sliding plate; 622. a jacking wheel; 623. a positioning roller; 624. a third power component; 625. a positioning bracket; 626. and lifting the connecting piece.

Detailed Description

The present application will be described in further detail with reference to the drawings and embodiments. It is to be noted that the following embodiments are only for illustrating the present application, but do not limit the scope of the present application. Likewise, the following embodiments are only some, but not all, of the embodiments of the present application, and all other embodiments obtained by a person of ordinary skill in the art without making any inventive effort are within the scope of the present application.

The terms "first," "second," "third," and the like in this disclosure are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", and "a third" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "plurality" means at least two, such as two, three, etc., unless explicitly specified otherwise. All directional indicators (such as up, down, left, right, front, back … …) in embodiments of the present application are merely used to explain the relative positional relationship, movement, etc. between the components at a particular pose (as shown in the drawings) and if the particular pose changes, the directional indicator changes accordingly. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. A process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed but may optionally include other steps or elements not listed or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those skilled in the art will explicitly and implicitly understand that the embodiments described herein may be combined with other embodiments.

Referring to fig. 1 to 3, the present application provides a rubberizing device, which comprises a supporting component 1, a glue storing component 2, a glue pulling component 4, a glue cutting component 5 and a clamping component 6, wherein the glue storing component 2 comprises a tape reel 21, a tape 7 is wound on the tape reel 21, the glue pulling component 4 comprises a glue pulling clamping jaw 41, the glue pulling clamping jaw 41 is used for clamping the tape 7 on the tape reel 21, and the glue pulling clamping jaw 41 moves to drive the tape 7 to be pulled out from the tape reel 21; after the adhesive tape 7 is pulled out by a certain length by the adhesive pulling clamping claw 41, the adhesive cutting assembly 5 is used for cutting off the adhesive tape 7 clamped on the adhesive pulling clamping claw 41, the adhesive cutting assembly 5 comprises a cutter 51, and the cutter 51 is used for cutting the adhesive tape 7 clamped by the adhesive pulling clamping claw 41 so that the adhesive tape 7 is separated from the tape reel 21; the cut adhesive tape 7 is adhered to the battery cell 8 clamped by the clamping assembly 6.

The glue pulling assembly 4 further comprises a first power component 42 for driving the glue pulling clamping jaw 41 to move, and the glue cutting assembly 5 further comprises a second power component 54 for driving the cutter 51 to move. The clamping jaw is a structure similar to a human hand, has 'fingers' and has the functions of clamping and placing workpieces.

In practical application, the adhesive storing assembly 2, the adhesive pulling assembly 4, the adhesive cutting assembly 5 and the clamping assembly 6 are all arranged on the supporting assembly 1, the adhesive tape disc 21 is rotationally connected with the supporting assembly 1 so as to facilitate the adhesive tape 7 to extend from the adhesive tape disc 21, firstly, an operator pulls one end of the adhesive tape 7 out of the adhesive tape disc 21 to clamp the adhesive tape 7 on the adhesive pulling clamping claw 41, the first power component 42 drives the adhesive pulling clamping claw 41 to move so as to drive the adhesive tape 7 to extend from the adhesive tape disc 21, the adhesive pulling clamping claw 41 moves to a preset position and drive the adhesive tape 7 to extend for a preset length, at the moment, the cutter 51 is positioned between the adhesive tape disc 21 and the adhesive pulling clamping claw 41, the second power component 54 drives the cutter 51 to move towards a direction close to the adhesive tape 7 so as to cut off the adhesive tape 7, the adhesive tape 7 is separated from the adhesive tape disc 21, at the moment, the electric core 8 clamped by the clamping assembly 6 is close to the adhesive tape 7, and finally the cut adhesive tape 7 is adhered on the electric core 8. Optionally, the first power component 42 may adopt a screw-nut structure, where the first power component 42 includes a screw base 43 and a first clamping jaw mounting seat 44, the screw base 43 is provided with a screw, a nut and a driving motor, the first clamping jaw mounting seat 44 is connected with the nut, the nut is in threaded connection with the screw and is slidably connected with the screw base 43, the driving motor is used for driving the screw to rotate, the screw rotates to drive the nut to move along the length direction of the screw, and the nut drives the first clamping jaw mounting seat 44 to move; the second power member 54 may be a cylinder, which is not limited in this regard by the present application.

Compared with the prior art, the distance that draws the gluey clamping jaw 41 to remove is set up in advance for the position that draws gluey clamping jaw 41 to remove is fixed at every turn of first power component 42 drive, ensures that draw gluey clamping jaw 41 to drive the sticky tape 7 and stretch out the length all the same, then cuts off sticky tape 7 through cutter 51, and the position of cutter 51 is also fixed, and consequently the sticky tape 7 length that cuts out at every turn is the same, compares manual cutting, has realized automatic cutting sticky tape 7, has improved production quality, avoids producing uneven sticky tape 7, influences the encapsulation effect.

Referring to fig. 3 and 4, in one embodiment, the adhesive dispensing assembly 3 further includes an adhesive dispensing assembly 3, the adhesive dispensing assembly 3 includes a plurality of guide rollers 31, the guide rollers 31 are vertically disposed on the support assembly 1 and located at one side of the adhesive tape reel 21, the adhesive tape 7 extends from the adhesive tape reel 21 around the guide rollers 31, and the guide rollers 31 are used for guiding the adhesive tape 7 to the adhesive pulling assembly 4. In practical application, the adhesive tape 7 has strong adhesion, the adhesive tape 7 is easy to be adhered together by mistake, in order to prevent the adhesive tape 7 from being adhered by mistake, a plurality of guide rollers 31 are arranged on one side of the adhesive tape disc 21, firstly, an operator pulls the adhesive tape 7 out of the adhesive tape disc 21, winds the plurality of guide rollers 31, and then guides the adhesive tape 7 to the adhesive tape pulling clamp claw 41 through the guide rollers 31. The guiding roller 31 can pull the adhesive tape 7 open on the one hand, so that the adhesive tape 7 is prevented from being stuck, on the other hand, the guiding function is realized, the winding angle of the adhesive tape 7 is adjusted, and the adhesive tape pulling clamping claw 41 can better drive the adhesive tape 7 to move.

The glue opening assembly 3 further comprises a sliding seat 32, a sliding block 33 and a moving roller 34, wherein the sliding seat 32 is arranged on the supporting assembly 1, the sliding block 33 is in sliding connection with the sliding seat 32 and can slide along the height direction of the sliding seat 32, and the moving roller 34 is arranged on the sliding block 33; a plurality of guide rollers 31 are provided on both sides of the moving roller 34, respectively, and the adhesive tape 7 is protruded from the tape tray 21 around the guide rollers 31 and the moving roller 34. The initial speed of pulling out the adhesive tape 7 from the adhesive tape disc 21 is slower, in order to enable the speed of pulling out the adhesive tape 7 to keep pace with the speed of rubberizing, the device is provided with the moving roller 34, the adhesive tape 7 is wound around the moving roller 34, the moving roller 34 is driven to move downwards along the height direction of the sliding seat 32, namely, move away from the adhesive tape disc 21, the moving roller 34 pulls out the adhesive tape 7 from the adhesive tape disc 21, so that the length of the adhesive tape 7 wound on the guide roller 31 and the moving roller 34 is longer, the effect of caching the adhesive tape 7 is achieved, when rubberizing is finished, the adhesive tape 7 is pulled out from the adhesive tape disc 21 in advance by the moving roller 34 when the adhesive tape clamping claw 41 is used for clamping the adhesive tape 7 next time, a certain length of redundant stock is buffered between the moving roller 34 and the guide roller 31, and when the adhesive tape 7 is pulled out again, the moving roller 34 moves upwards along the height direction of the sliding seat 32, namely, moves towards the direction close to the adhesive tape disc 21, so that the adhesive tape clamping claw 41 can directly pull out the adhesive tape clamping claw 7 on the moving roller 34, and the adhesive tape clamping claw 41 can be pulled out from the adhesive tape disc 21, and the effect of slowing caused by the fact that the adhesive tape clamping speed is avoided; when the adhesive tape 7 is pulled out to a preset position by the adhesive tape pulling clamping jaw 41, after the adhesive tape 7 is cut off by the cutter 51, the moving roller 34 can move downwards along the height direction of the sliding seat 32 again when the follow-up adhesive tape pasting work is carried out, namely, move away from the adhesive tape reel 21, the adhesive tape 7 is pulled out from the adhesive tape reel 21 in advance, the adhesive tape 7 is buffered, the adhesive tape pulling clamping jaw 41 is clamped for the next time, the moving roller 34 buffers the adhesive tape 7 and the adhesive tape pasting work are carried out simultaneously, and the work speed is greatly improved.

Referring to fig. 4, in one embodiment, the glue dispensing assembly 3 further includes an inductor 35 and a sliding power component 36, the inductor 35 is disposed on one side of the slide 32 and is electrically connected to the sliding power component 36, the inductor 35 is used for sensing the position of the slide 33, and an output end of the sliding power component 36 is connected to the slide 33 and is used for driving the slide 33 to slide along the height direction of the slide 32. Alternatively, the sliding power member 36 may employ an air cylinder or an electric telescopic rod.

The sensor 35 is electrically connected with the sliding power component 36 through a controller, when the sensor 35 does not sense the position of the sliding block 33, the sensor 35 sends a signal to the controller, the controller drives the sliding power component 36, and the sliding power component 36 drives the sliding block 33 to move downwards, namely to move towards the direction approaching to the sensor 35, so that the sliding power component reenters the sensing range of the sensor 35. In practical application, the moving roller 34 is arranged on the sliding block 33, the sliding power component 36 drives the sliding block 33 to move, when the moving roller 34 moves upwards, namely, moves away from the sensor 35, at the moment, the adhesive tape 7 buffered on the moving roller 34 is pulled out by the adhesive pulling clamping jaw 41, when the sensor 35 does not sense the position of the sliding block 33, namely, the adhesive tape 7 buffered on the moving roller 34 is completely pulled out, at the moment, the sliding power component 36 drives the moving roller 34 to move towards the direction close to the sensor 35, namely, the moving roller 34 moves away from the adhesive tape disc 21, the adhesive tape 7 is pulled out from the adhesive tape disc 21 by the moving roller 34, and the adhesive tape 7 is buffered again. Through setting up inductor 35 for the movable roller 34 can accomplish the work of buffering sticky tape 7 or letting out sticky tape 7 according to actual demand voluntarily, has improved work efficiency.

Referring to fig. 6, the adhesive cutting assembly 5 further includes an adhesive cutting jaw 52, the adhesive cutting jaw 52 is disposed between the adhesive pulling jaw 41 and the adhesive tape tray 21 for clamping the adhesive tape 7, and the cutter 51 is disposed between the adhesive cutting jaw 52 and the adhesive pulling jaw 41. After the first rubberizing is finished, the adhesive tape 7 needs to be clamped again by the adhesive tape clamping jaw 41 to drive the adhesive tape 7 to be pulled out from the adhesive tape disc 21, the adhesive tape 7 needs to be manually placed on the adhesive tape clamping jaw 41 by the adhesive tape clamping jaw 41 each time, and the working efficiency is low, so the device is provided with the adhesive tape cutting clamping jaw 52, an operator only needs to pull the adhesive tape 7 out of the adhesive tape disc 21, pass through the adhesive tape cutting clamping jaw 52 by the guide roller 31 and the moving roller 34, then place the adhesive tape 7 on the adhesive tape clamping jaw 41, the adhesive tape 7 is clamped by the adhesive tape clamping jaw 41, and after the adhesive tape 7 is elongated to a preset position by the adhesive tape clamping jaw 41, the adhesive tape cutting clamping jaw 52 starts to clamp the adhesive tape 7, at this moment, the cutter 51 is positioned between the adhesive tape cutting clamping jaw 52 and the adhesive tape pulling clamping jaw 41, the second power component 54 drives the cutter 51 to cut off the adhesive tape 7 between the adhesive tape cutting clamping jaw 52 and the adhesive tape pulling clamping jaw 41, after the adhesive tape 7 on the adhesive tape pulling clamping jaw 41 is adhered to the battery cell 8, at this moment, the adhesive tape 7 is still clamped by the adhesive tape cutting clamping jaw 52, the first power component 42 drives the adhesive tape pulling clamping jaw 41 to move towards the direction close to the adhesive tape cutting clamping jaw 52, so that the adhesive tape 7 on the adhesive tape cutting clamping jaw 52 can be clamped, and then the adhesive tape pulling clamping jaw 41 is driven to be far away from the adhesive tape cutting clamping jaw 52, so that the adhesive tape 7 is elongated to a preset position, and then the next adhesive tape pasting work is completed. By arranging the adhesive cutting clamping claw 52, the adhesive tape 7 is not required to be placed on the adhesive pulling clamping claw 41 manually, the mechanical automation degree is improved, and the adhesive tape 7 can be tensioned by the clamping function of the adhesive cutting clamping claw 52 and the adhesive pulling clamping claw 41, so that the adhesive tape 7 is more conveniently cut off by the cutter 51.

The adhesive cutting assembly 5 further comprises a pressing block 53, the pressing block 53 is connected with the output end of the second power component 54 and is located between the cutter 51 and the adhesive pulling clamping claw 41, and when the cutter 51 is driven by the second power component 54 to cut the adhesive tape 7, the adhesive tape 7 is pressed to the battery cell 8 by the pressing block 53 so that the adhesive tape 7 is attached to the battery cell 8. In order to make the adhesive tape 7 better adhere to the battery cell 8, the device is provided with the pressing block 53, and when the second power component 54 drives the cutter 51 to cut off the adhesive tape 7, the pressing block 53 also presses the adhesive tape 7 to the battery cell 8, so that the adhesive tape 7 and the battery cell 8 are better adhered together. Preferably, the pressing block 53 includes an arc portion 531, and the arc portion 531 is attached to the outer surface of the battery cell 8, so that the adhesive tape 7 is attached to the battery cell 8 more tightly.

Referring to fig. 7 and 8, in one embodiment, the clamping assembly 6 includes a lifting support 61, a lifting power member 63, and at least two lifting members 62 symmetrically disposed on the lifting support 61, the lifting members 62 including a lifting slide plate 621 and a lifting wheel 622, the lifting slide plate 621 being slidably connected to the lifting support 61; the jacking slide plate 621 is provided with a plurality of jacking wheels 622, and gaps between two adjacent jacking wheels 622 are used for storing the discharge cores 8; the output end of the jacking power part 63 is connected with the jacking slide 621, and is used for driving the jacking slide 621 to slide along the height direction of the jacking support 61. In practical application, an operator places the electric core 8 on the lifting wheel 622, when the adhesive tape 7 is pulled to a preset position by the adhesive tape pulling clamping claw 41, the lifting power component 63 drives the lifting wheel 622 to move in a direction close to the adhesive tape 7 so as to enable the electric core 8 to approach the adhesive tape 7, then the second power component 54 drives the cutter 51 to cut the adhesive tape 7, and meanwhile drives the pressing block 53 to press the adhesive tape 7 to the electric core 8 so as to enable the adhesive tape 7 to be attached to the electric core 8, and after the adhesive tape 7 is attached to the electric core 8, the second power component 54 drives the cutter 51 and the pressing block 53 to reset; then the battery cell 8 is rotated, and the adhesive pulling clamping jaw 41 moves towards the direction close to the battery cell 8 while rotating, so that the adhesive tape 7 can be wound on the battery cell 8 until the adhesive tape 7 is about to be completely wound on the battery cell 8, and at the moment, the adhesive pulling clamping jaw 41 releases the adhesive tape 7. Compared with manual rubberizing, the device has higher working efficiency and better production quality. Alternatively, the lift power unit 63 may employ an air cylinder.

In one embodiment, the jacking member 62 further includes a positioning roller 623 and a third power member 624, the positioning roller 623 is connected to the jacking slide 621, the positioning roller 623 is located above the jacking wheel 622 and is used for being opposite to the cell 8, and the third power member 624 is disposed on the jacking slide 621 and is connected to the positioning roller 623 for driving the positioning roller 623 to approach and position the cell 8. After the positioning roller 623 is arranged and the battery cell 8 is placed on the jacking wheel 622, the third power component 624 drives the positioning roller 623 to be close to the battery cell 8, the positioning roller 623 at two ends of the battery cell 8 clamps the battery cell 8, and the battery cell 8 is prevented from falling or moving from the jacking wheel 622, so that the adhesion between the adhesive tape 7 and the battery cell 8 is affected, and meanwhile, the battery cell 8 can rotate relative to the positioning roller 623, and the winding of the adhesive tape 7 on the battery cell 8 is not affected. Alternatively, the third power component 624 may employ a pneumatic cylinder or an electric telescopic rod.

The clamping assembly 6 further comprises a fourth power component 66, a connecting seat 65 and a plurality of rubber wheels 64, wherein the connecting seat 65 is connected with the jacking support 61, and the plurality of rubber wheels 64 are rotatably connected with the connecting seat 65 and are positioned above the jacking wheels 622; the fourth power unit 66 is in driving connection with the rubber wheel 64 for driving the rubber wheel 64 to rotate. When the second power component 54 drives the cutter 51 to cut the adhesive tape 7, the pressing block 53 is driven to press the adhesive tape 7 to the electric core 8, so that the adhesive tape 7 is adhered to the electric core 8, the electric core 8 is fixed by the positioning roller 623, the electric core 8 can only rotate relative to the positioning roller 623, at the moment, the jacking power component 63 drives the jacking wheel 622 to move towards the direction close to the rubber wheel 64, so that the electric core 8 is contacted with the rubber wheel 64, the fourth power component 66 drives the rubber wheel 64 to rotate, the rubber wheel 64 drives the electric core 8 to rotate, and the electric core 8 rotates, so that the adhesive tape 7 is wound on the electric core 8; the battery cell 8 is driven to rotate by the rubber wheel 64, so that the function of automatically winding the adhesive tape 7 is realized, and the automation degree of the device is improved. Alternatively, the fourth power member 66 may employ an electric motor.

Referring to fig. 10 to 11, the supporting assembly 1 includes a supporting base plate 11, a supporting seat 12, an adjusting plate 13 and a side plate 14, the supporting seat 12 is disposed on the supporting base plate 11, the adjusting plate 13 is slidably connected with the supporting seat 12, the side plate 14 is fixed on the adjusting plate 13, the glue storing assembly 2, the glue opening assembly 3 and the glue cutting assembly 5 are all disposed on the side plate 14, the glue pulling assembly 4 is disposed on the adjusting plate 13, and the clamping assembly 6 is disposed on the supporting base plate 11. In this embodiment, the adjusting plate 13 is provided with a fixing slot 131, and the adjusting plate 13 can move along a direction close to or far away from the battery cell 8 relative to the supporting seat 12, so as to adjust the distances between the glue storage component 2, the glue opening component 3, the glue cutting component 5, the glue pulling component 4 and the battery cell 8, so as to adapt to the battery cells 8 with different sizes, and after the adjusting plate 13 moves to a preset position, the adjusting plate 13 passes through the fixing slot 131 to be connected with the supporting seat 12 through a screw or a rivet, so that the adjusting plate 13 and the supporting seat 12 are fixed together. Optionally, an adjusting screw 15 may be further disposed between the adjusting plate 13 and the supporting seat 12, one end of the adjusting screw 15 is in threaded connection with the adjusting plate 13, and the other end is rotatably connected with the supporting seat 12, and by rotating the adjusting screw 15, the adjusting plate 13 is driven to move relative to the supporting seat 12.

In practical application, in order to make both ends of the battery cell 8 stick with the protective tape 7, the glue storage component 2, the glue opening component 3, the glue pulling component 4 and the glue cutting component 5 are all provided with two groups, and are symmetrically arranged on both sides of the clamping component 6, the glue tape disc 21 is provided with a rotating shaft 22, the glue tape disc 21 is rotationally connected with the side plate 14 through the rotating shaft 22, and in order to prevent the tape 7 from shaking when being pulled out from the glue tape disc 21, preferably, the rotating shaft 22 can adopt a magnetic damper;

The adhesive cutting assembly 5 further comprises an adhesive cutting mounting plate 55, a mounting block 56 and a second clamping jaw mounting seat 57, the adhesive cutting mounting plate 55 is in sliding connection with the side plate 14, the second clamping jaw mounting seat 57 is arranged on the adhesive cutting mounting plate 55, the adhesive cutting clamping jaw 52 is arranged on the second clamping jaw mounting seat 57, the mounting block 56 is connected with the output end of the second power component 54, the cutter 51 and the pressing block 53 are arranged on the mounting block 56, and the second power component 54 drives the cutter 51 to cut the adhesive tape 7 and the pressing block 53 to press the adhesive tape 7 to the electric core 8 through driving the mounting block 56; the distance between the cutter 51 and the adhesive pulling clamping claw 41 is adjusted by moving the adhesive cutting mounting plate 55 along the length direction of the side plate 14, so that the cutting length of the adhesive tape 7 is adjusted to adapt to batteries with different sizes; optionally, a fixing groove 131 is formed on the glue cutting mounting plate 55, and after the glue cutting mounting plate 55 is moved to a preset position along the length direction of the side plate 14, the glue cutting mounting plate 55 is connected with the side plate 14 through a screw or a rivet passing through the fixing groove 131, so that the glue cutting mounting plate 55 and the side plate 14 are fixed together; an adjusting screw 15 can be arranged between the glue cutting mounting plate 55 and the side plate 14, one end of the adjusting screw 15 is in threaded connection with the glue cutting mounting plate 55, the other end of the adjusting screw 15 is in rotary connection with the side plate 14, and the glue cutting mounting plate 55 is driven to move relative to the side plate 14 by rotating the adjusting screw 15;

in this embodiment, the clamping jaw assembly further includes a lifting connection element 626 and a positioning bracket 625, the lifting support 61 is disposed on the supporting base plate 11, two lifting sliding plates 621 are symmetrically disposed on the lifting support 61, a lifting connection element 626 is connected between the two lifting sliding plates 621, an output end of the lifting power component 63 is connected with the lifting connection element 626, and the lifting power component 63 drives the lifting connection element 626 to drive the two lifting sliding plates 621 to move simultaneously; the positioning bracket 625 is arranged on the lifting slide plate 621, the fourth power component 66 and the positioning roller 623 are arranged on the positioning bracket 625, and the lifting slide plate 621 drives the positioning bracket 625 to move, so that the positioning roller 623 is driven to move.

Unlike the prior art, the application provides a rubberizing device which comprises a supporting component 1, a rubberizing component 2, a rubberizing component 4, a rubberizing component 5 and a clamping component 6, wherein the rubberizing component 2 comprises a rubberizing disc 21, an adhesive tape 7 is wound on the rubberizing disc 21, the rubberizing component 4 comprises a rubberizing clamping jaw 41, the rubberizing clamping jaw 41 is used for clamping the adhesive tape 7 on the rubberizing disc 21, and the rubberizing clamping jaw 41 moves to drive the adhesive tape 7 to be pulled out from the rubberizing disc 21; after the adhesive tape 7 is pulled out by a certain length by the adhesive pulling clamping claw 41, the adhesive cutting assembly 5 cuts off the adhesive tape 7 clamped on the adhesive pulling clamping claw 41, the adhesive cutting assembly 5 comprises a cutter 51, and the cutter 51 is used for cutting the adhesive tape 7 clamped on the adhesive pulling clamping claw 41 so that the adhesive tape 7 is separated from the adhesive tape reel 21; the cut adhesive tape 7 is adhered to the battery cell 8 clamped by the clamping assembly 6. The glue pulling assembly 4 further comprises a first power component 42 for driving the glue pulling clamping jaw 41 to move, and the glue cutting assembly 5 further comprises a second power component 54 for driving the cutter 51 to move. Compared with the prior art, the distance that draws the gluey clamping jaw 41 to remove is set up in advance for the position that draws gluey clamping jaw 41 to remove is fixed at every turn of first power component 42 drive, ensures that draw gluey clamping jaw 41 to drive the sticky tape 7 and stretch out the length all the same, then cuts off sticky tape 7 through cutter 51, and the position of cutter 51 is also fixed, and consequently the sticky tape 7 length that cuts out at every turn is the same, compares manual cutting, has realized automatic cutting sticky tape 7, has improved production quality, avoids producing uneven sticky tape 7, influences the encapsulation effect.

The foregoing description is only a partial embodiment of the present application, and is not intended to limit the scope of the present application, and all equivalent devices or equivalent processes using the descriptions and the drawings of the present application or directly or indirectly applied to other related technical fields are included in the scope of the present application.

Claims (9)

1. A rubberizing device for sticking an adhesive tape (7) onto a battery cell (8), characterized by comprising:

A support assembly (1);

The adhesive storage assembly (2) comprises an adhesive tape disc (21), the adhesive tape disc (21) is rotationally connected with the supporting assembly (1), and the adhesive tape disc (21) is used for storing the adhesive tape (7);

The adhesive pulling assembly (4) comprises an adhesive pulling clamping jaw (41) and a first power component (42), wherein the first power component (42) is arranged on the supporting assembly (1), the output end of the first power component (42) is connected with the adhesive pulling clamping jaw (41), the adhesive pulling clamping jaw (41) is used for clamping the adhesive tape (7), and the first power component (42) is used for driving the adhesive pulling clamping jaw (41) to move so that the adhesive tape (7) extends out of the adhesive tape disc (21);

the adhesive cutting assembly (5) comprises a cutter (51) and a second power component (54), the second power component (54) is arranged on the supporting assembly (1), and the output end of the second power component (54) is connected with the cutter (51) and is used for driving the cutter (51) to cut the adhesive tape (7) on the adhesive pulling clamping jaw (41);

The clamping assembly (6) is arranged on the supporting assembly (1), the clamping assembly (6) comprises a jacking support (61), a jacking power component (63) and at least two jacking components (62) symmetrically arranged on the jacking support (61), the jacking components (62) comprise jacking sliding plates (621) and jacking wheels (622), and the jacking sliding plates (621) are in sliding connection with the jacking support (61); the jacking slide plate (621) is provided with a plurality of jacking wheels (622), and gaps between two adjacent jacking wheels (622) are used for storing the battery cells (8); the output end of the jacking power part (63) is connected with the jacking slide plate (621) and is used for driving the jacking slide plate (621) to slide along the height direction of the jacking support (61).

2. The rubberizing device according to claim 1, further comprising an adhesive opening assembly (3), wherein the adhesive opening assembly (3) comprises a plurality of guide rollers (31), the guide rollers (31) are vertically arranged on the supporting assembly (1) and are positioned on one side of the adhesive tape disc (21), the adhesive tape (7) stretches out from the adhesive tape disc (21) to bypass the guide rollers (31), and the guide rollers (31) are used for guiding the adhesive tape (7) to the adhesive pulling assembly (4).

3. The rubberizing device according to claim 2, wherein said gumming assembly (3) further comprises a slide (32), a slider (33) and a moving roller (34), said slide (32) being arranged on said support assembly (1), said slider (33) being slidingly connected to said slide (32) and being slidable along the height direction of said slide (32), said moving roller (34) being arranged on said slider (33); the plurality of guide rollers (31) are respectively arranged at two sides of the movable roller (34), and the adhesive tape (7) stretches out from the adhesive tape disc (21) to bypass the guide rollers (31) and the movable roller (34).

4. A rubberizing device according to claim 3, wherein said rubberizing assembly (3) further comprises an inductor (35) and a sliding power component (36), said inductor (35) being arranged on one side of said slider (32) and electrically connected to said sliding power component (36), said inductor (35) being adapted to induce the position of said slider (33), an output end of said sliding power component (36) being connected to said slider (33) for driving said slider (33) to slide in the height direction of said slider (32).

5. The rubberizing device according to claim 1, wherein said glue cutting assembly (5) further comprises a glue cutting jaw (52), said glue cutting jaw (52) being arranged between said glue pulling jaw (41) and said tape reel (21) for clamping said tape (7), said cutter (51) being arranged between said glue cutting jaw (52) and said glue pulling jaw (41).

6. The rubberizing device according to claim 1, wherein said rubberizing assembly (5) further comprises a lamination block (53), said lamination block (53) being connected to the output end of said second power element (54) and being located between said cutter (51) and said rubberizing jaw (41), said lamination block (53) pressing said adhesive tape (7) against said electric core (8) when said second power element (54) drives said cutter (51) to cut said adhesive tape (7), so as to cause said adhesive tape (7) to adhere to said electric core (8).

7. The rubberizing device according to claim 1, wherein said jacking component (62) further comprises a positioning roller (623) and a third power component (624), said positioning roller (623) is connected with said jacking slide (621), said positioning roller (623) is located above said jacking wheel (622) and is used for being opposite to said cell (8), and said third power component (624) is disposed on said jacking slide (621) and is connected with said positioning roller (623) for driving said positioning roller (623) to approach and position said cell (8).

8. The rubberizing device according to claim 7, wherein said clamping assembly (6) further comprises a fourth power component (66), a connection seat (65) and a plurality of rubber wheels (64), said connection seat (65) being connected to said jacking support (61), a plurality of said rubber wheels (64) being rotatably connected to said connection seat (65) and being located above said jacking wheels (622); the fourth power component (66) is in transmission connection with the rubber wheel (64) and is used for driving the rubber wheel (64) to rotate.

9. The rubberizing device according to claim 2, wherein the supporting component (1) comprises a supporting bottom plate (11), a supporting seat (12), an adjusting plate (13) and a side plate (14), the supporting seat (12) is arranged on the supporting bottom plate (11), the adjusting plate (13) is in sliding connection with the supporting seat (12), the side plate (14) is fixed on the adjusting plate (13), the glue storage component (2), the glue opening component (3) and the glue cutting component (5) are all arranged on the side plate (14), the glue pulling component (4) is arranged on the adjusting plate (13), and the clamping component (6) is arranged on the supporting bottom plate (11).