CN218069934U - Side adhesive tape pasting mechanism for battery core - Google Patents

Abstract

The utility model discloses an electricity core pastes side gum machine and constructs, include: the folding edge rubberizing bearing part, the folding edge rubberizing feeding assembly, the folding edge rubberizing pulling assembly, the rubberizing elastic jacking assembly, the folding edge rubberizing assembly and the rubberizing shearing assembly. The hem send the glue subassembly to see off the adhesive tape, the hem draws the glue subassembly to carry the adhesive tape centre gripping and carries rubberizing elasticity jacking subassembly, rubberizing elasticity jacking subassembly is attached in hem rubberizing subassembly with the adhesive tape, rubberizing shearing subassembly cuts off the adhesive tape, make the adhesive tape independently attached at hem rubberizing subassembly, hem rubberizing subassembly takes two at least adhesive tapes and moves towards a direction and carries out the rubberizing to electric core, so, can realize the rubberizing of hem rubberizing subassembly realization electric core both sides, overall structure is simple and easy, and it is strong to actuate the coherence, need not to add electric core rotating-structure alone, promote production efficiency greatly.

Description

Side adhesive tape pasting mechanism for battery core

Technical Field

The utility model relates to an electricity core rubberizing technical field specifically relates to an electricity core side gum machine constructs.

Background

The forming of the battery finished product needs a plurality of process steps, wherein the gluing step is omitted, and before a series of gluing operations, the battery core needs to be folded to ensure the flatness and the safety after gluing.

The rubberizing areas of the cells are generally on opposite sides, which also means that the cells need to be rotated to achieve both sides rubberizing. Among the current rubberizing equipment, mainly still carry out the rubberizing to electric core one side earlier, then rethread tipping arrangement overturns electric core, carries out the rubberizing at last again and accomplishes the rubberizing of electric core both sides. The equipment structure that present processing mode not only adopted is complicated, and the continuity of processing is poor moreover, needs rotate the change limit to electric core alone, greatly reduced production efficiency.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides an electricity core pastes side and glues mechanism.

The utility model discloses an electricity core pastes side gum machine and constructs, include:

a hem rubberizing carrier;

the folding edge glue feeding assembly is arranged adjacent to the folding edge glue pasting bearing piece;

the folding edge glue drawing assembly is arranged on the folding edge gluing bearing piece and pulls the gummed paper of the folding edge glue feeding assembly to move;

the rubberizing elastic jacking assembly is positioned on the motion path of the edge folding glue pulling assembly and acts on the gummed paper pulled by the edge folding glue pulling assembly;

the edge folding rubberizing assembly is arranged opposite to the rubberizing elastic jacking assembly; and

the rubberizing shearing assembly is positioned between the edge folding glue pulling assembly and the rubberizing elastic jacking assembly;

wherein the edge folding rubberizing component and the rubberizing elastic jacking component are matched to suck at least two sections of gummed paper, and the edge folding rubberizing component rubberizes the battery cell at least twice along the same movement direction.

According to the utility model discloses an embodiment, the hem send gluey subassembly to include the hem send gluey support piece, a plurality of hems send gluey winding, the hem send gluey driving piece and the hem send gluey tensioning piece, the hem send gluey support piece and hem rubberizing to hold the adjacent setting of thing, a plurality of hems send gluey winding interval distribution in the hem send gluey support piece, the hem send gluey driving piece to set up in the hem send gluey support piece, the hem send gluey tensioning piece to slide to set up in the hem send gluey support piece, and the hem send gluey tensioning piece to connect the hem and send gluey output of driving piece.

According to the utility model discloses an embodiment, the hem draws gluey subassembly to include the hem draw gluey support piece, first hem draws gluey driving piece, the hem draws gluey transition piece, the hem draws gluey holder and the hem draws gluey driving piece in the hem, the hem draws gluey support piece to slide and sets up in the hem rubberizing holds carrier, the output that first hem drawn gluey driving piece is connected the hem and is drawn gluey support piece, the hem draws gluey transition piece to rotate and sets up in the hem and draws gluey support piece, the hem draws gluey holder to set up in the hem and draws gluey support piece, the second hem draws gluey driving piece drive hem to draw gluey holder.

According to the utility model discloses an embodiment still includes the hem and draws gluey response piece, and the hem draws gluey response piece to set up and draws gluey support piece in the hem.

According to the utility model discloses an embodiment, the hem draws glues the holder and draws gluey grip block and draw gluey transfer line including first drawing gluey grip block, second, and first drawing gluey grip block sets up and holds carrier in the hem rubberizing, and the second draws gluey grip block to rotate and sets up and hold carrier in the hem rubberizing, draws gluey transfer line to connect the second and draws gluey grip block and the second hem to draw gluey driving piece.

According to the utility model discloses an embodiment, rubberizing elasticity jacking subassembly includes that elasticity rubberizing holds carrier, elasticity rubberizing driving piece, elasticity rubberizing support piece, elasticity rubberizing piece and elasticity rubberizing elastic component, elasticity rubberizing holds carrier and sets up in the hem rubberizing and holds carrier, elasticity rubberizing driving piece sets up in elasticity rubberizing and holds carrier, elasticity rubberizing support piece connects the output of elasticity rubberizing driving piece, elasticity rubberizing piece slides and sets up in elasticity rubberizing support piece, elasticity rubberizing elastic component connects elasticity rubberizing piece and elasticity rubberizing support piece.

According to the utility model discloses an embodiment, rubberizing elasticity jacking subassembly still includes elasticity rubberizing locating part, and elasticity rubberizing locating part sets up and holds carrier in the elasticity rubberizing.

According to the utility model discloses an embodiment, hem rubberizing subassembly includes hem rubberizing support piece, first hem rubberizing driving piece, hem rubberizing moving part, second hem rubberizing driving piece and hem rubberizing piece, hem rubberizing support piece holds the adjacent setting of carrier with the hem rubberizing, first hem rubberizing driving piece sets up in hem rubberizing support piece, the output of first hem rubberizing driving piece is connected to the hem rubberizing moving part, the second hem rubberizing driving piece sets up in the hem rubberizing moving part, the hem rubberizing piece is connected the second hem rubberizing driving piece.

According to the utility model discloses an embodiment, hem rubberizing subassembly still includes hem rubberizing adjustment piece, hem rubberizing adjustment piece threaded connection hem rubberizing support piece.

According to the utility model discloses an embodiment, rubberizing shearing assembly includes rubberizing shearing driving piece and rubberizing shearing piece, and rubberizing shearing driving piece sets up in the hem and draws gluey subassembly, and rubberizing shearing piece connects rubberizing shearing driving piece.

The beneficial effects of the utility model reside in that, hold carrier through the hem rubberizing, the hem send gluey subassembly, the hem draws gluey subassembly, rubberizing elasticity jacking subassembly, the cooperation of hem rubberizing subassembly and rubberizing shearing subassembly is used, the hem send gluey subassembly to see out the adhesive tape, the hem draws gluey subassembly with the adhesive tape centre gripping and carries rubberizing elasticity jacking subassembly, rubberizing elasticity jacking subassembly is attached in the hem rubberizing subassembly with the adhesive tape, the rubberizing cuts the subassembly and cuts off the adhesive tape, make the adhesive tape independently attached at hem rubberizing subassembly, hem rubberizing subassembly takes two at least adhesive tapes to move towards a direction and carry out the rubberizing to electric core, so, can realize the rubberizing of hem rubberizing subassembly realization electric core both sides, overall structure is simple and easy, it is strong to actuate the continuity, need not to add electric core rotating-structure alone, promote production efficiency greatly.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic perspective structure diagram of a side adhesive attaching mechanism of a battery cell in an embodiment;

fig. 2 is a schematic partial perspective structure diagram of a side adhesive attaching mechanism for a battery cell in the embodiment;

fig. 3 is a schematic perspective view of another part of the side adhesive attaching mechanism for the battery cell in the embodiment;

FIG. 4 is a schematic perspective view of a hem and glue drawing assembly in an embodiment;

FIG. 5 is a schematic perspective view of an embodiment of the elastic jacking assembly;

FIG. 6 is a schematic view of a part of the structure of the rubberized elastic jacking assembly of the embodiment;

fig. 7 is a schematic perspective view of an elastic adhesive member in the embodiment.

Description of reference numerals:

1-edge folding rubberizing bearing piece;

2-folding and feeding the glue assembly; 21-folding edge glue feeding supporting piece; 22-folding and feeding the adhesive to wind the piece; 23-folding edge glue feeding driving piece; 24-folding edge glue feeding tension piece;

3-folding and glue drawing assembly; 31-flanging and pulling the rubber support; 32-a first folding edge glue drawing driving part; 33-flanging and pulling the glue transition piece; 34-edge folding and glue drawing clamping piece; 341-first pulling glue clamping plate; 342-a second glue spreading clamping plate; 343-a rubber-pulling transmission rod; 35-a second flanging adhesive pulling driving piece; 36-flanging and glue-pulling induction piece;

4-rubberizing elastic jacking assembly; 41-elastic rubberized bearing elements; 42-elastic rubberized driving element; 43-elastic rubberized supports; 431-elastic rubberizing stop block; 44-elastic adhesive part; 441-elastic rubberizing supporting blocks; 4411-elastic rubberizing limit notches; 442-elastic rubberized plate; 4421-elastic rubberizing resistance grooves; 45-elastic rubberized elastic elements; 46-a first resilient rubberizing guide; 461-first elastic rubberizing guide rail; 462-a first elastic rubberizing guide block; 47-elastic rubberizing limit piece; 48-elastic rubberizing adjustment; 481-elastic rubberizing adjustment support block; 482-elastic rubberizing adjusting rod; 49-second elastic rubberizing guide; 491-second elastic rubberizing guide rail; 492-a second elastic rubberizing guide block;

5-folding and gluing components; 51-hem rubberized support; 52-first hem rubberizing drive; 53-folding edge rubberizing moving parts; 54-a second hem rubberizing drive; 55-folding and gluing; 56-folding edge rubberizing adjusting piece;

6-rubberizing a shearing assembly; 61-rubberizing a shear drive; 62-rubberizing a shear.

Detailed Description

In the following description, numerous implementation details are set forth in order to provide a more thorough understanding of the present invention. It should be understood, however, that these implementation details should not be used to limit the invention. That is, in some embodiments of the invention, such practical details are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for description purposes, not specifically referring to the order or sequence, and are not intended to limit the present invention, but only to distinguish the components or operations described in the same technical terms, and are not to be construed as indicating or implying any relative importance or implicit indication of the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1 to fig. 3, fig. 1 is a schematic perspective structure diagram of a side adhesive attaching mechanism for a battery cell in an embodiment;

fig. 2 is a schematic partial perspective structure diagram of a side adhesive attaching mechanism for a battery cell in the embodiment; fig. 3 is a schematic perspective view of another part of the side adhesive attaching mechanism for the battery cell in the embodiment. The utility model provides a side gluey mechanism is pasted to electric core includes that hem rubberizing holds carrier 1, hem send gluey subassembly 2, hem draws gluey subassembly 3, rubberizing elasticity jacking subassembly 4, hem rubberizing subassembly 5 and rubberizing shearing module 6, and hem rubberizing holds carrier 1 and plays and bears, the supporting role. The folding edge glue feeding assembly 2 is adjacent to the folding edge glue sticking bearing glue, and the folding edge glue feeding assembly 2 is used for carrying adhesive paper and outputting the adhesive paper. The hem draws gluey subassembly 3 to set up in hem rubberizing holds carrier 1, and the hem draws gluey subassembly 3 and the hem to send gluey subassembly 2 to set up side by side, and the hem send the adhesive tape that gluey subassembly 2 output to be connected with hem draws gluey subassembly 3 to draw gluey subassembly 3 to drive the adhesive tape motion by the hem. The rubberizing elastic jacking assembly 4 is positioned on one side of the folded edge rubberizing bearing piece 1 far away from the folded edge glue feeding assembly 2. Hem rubberizing subassembly 5 and rubberizing elasticity jacking subassembly 4 combined action for gummed paper is attached on rubberizing elasticity jacking subassembly 4, and rubberizing shearing subassembly 6 sets up and draws gluey subassembly 3 in the hem, cuts off the hem through rubberizing shearing subassembly 6 and draws the gummed paper between gluey subassembly 3 and the rubberizing elasticity jacking subassembly 4, makes gummed paper independently attached in hem rubberizing subassembly 5.

With reference to fig. 1-3, the hem glue feeding assembly 2 includes a hem glue feeding supporting member 21, a plurality of hem glue feeding winding members 22, a hem glue feeding driving member 23, and a hem glue feeding tensioning member 24, the hem glue feeding supporting member 21 is disposed adjacent to the hem glue coating bearing member 1, and of course, the hem glue feeding supporting member 21 may also be disposed on the hem glue coating bearing member 1; a plurality of hems send gluey winding 22 intervals to set up in the same one side that the hem sent gluey support piece 21, the hem send gluey driving piece 23 to set up in the hem send gluey support piece 21, the hem send gluey tensioning piece 24 to slide and set up in hem send gluey support piece 21, and the hem send gluey tensioning piece 24 to connect the output that the hem sent gluey driving piece 23, send gluey driving piece 23 to drive the hem through the hem and send gluey tensioning piece 24 to move, realize the elasticity in the adhesive tape transportation process. In specific application, the adhesive paper roll is placed on the folding edge adhesive feeding supporting piece 21, and one end of the adhesive paper roll is exposed after passing around the folding edge adhesive feeding winding pieces 22 and the folding edge adhesive feeding tensioning pieces 24.

Referring to fig. 4, fig. 4 is a schematic perspective view of the hem and glue drawing assembly 3 according to an embodiment. Hem draws gluey subassembly 3 to include the hem to draw gluey support piece 31, first hem draws gluey driving piece 32, the hem draws gluey changeover portion 33, the hem draws gluey clamping piece 34 and the second hem to draw gluey driving piece 35, the hem draws gluey support piece 31 to slide and sets up in the hem rubberizing holds carrier 1, first hem draws gluey driving piece 32 to set up in the hem rubberizing holds carrier 1, the output that first hem drawn gluey driving piece 32 is connected the hem and is drawn gluey support piece 31, the hem draws gluey changeover portion 33 to rotate and sets up in the hem and draws gluey support piece 31, the hem draws gluey clamping piece 34 to set up in the hem and draws gluey support piece 31 one side of keeping away from the hem in the hem and draw gluey support piece 31, the second hem draws gluey driving piece 35 to set up in the hem and draws gluey support piece 31, and the output of second hem drawing gluey driving piece 35 is connected the hem and is drawn gluey clamping piece 34. When the folding edge glue drawing clamping piece 34 is specifically applied, the folding edge glue drawing clamping piece comprises a first glue drawing clamping plate 341, a second glue drawing clamping plate 342 and a glue drawing transmission rod 343, the first glue drawing clamping plate 341 is arranged on the folding edge glue drawing supporting piece 31, the second glue drawing clamping plate 342 is rotatably arranged on the folding edge glue drawing supporting piece 31, the first glue drawing clamping plate 341 and the second glue drawing clamping plate 342 are oppositely arranged, one end of the glue drawing transmission rod 343 is connected with the second glue drawing clamping plate 342, the other end of the glue drawing transmission rod 343 is connected with the output end of a second folding edge glue drawing driving piece 35, the second glue drawing clamping plate 342 is driven to rotate by the second folding edge glue drawing driving piece 35, the folding edge glue drawing clamping piece 34 is opened and closed, and when glue paper is conveyed, the first glue drawing clamping plate 341 and the second glue drawing clamping plate 342 are mutually contacted to clamp the glue paper; on the contrary, when the hem puller clamp 34 is retracted, the first puller clamp plate 341 does not contact the second puller clamp plate 342.

Referring to fig. 5 to 7, fig. 5 is a schematic perspective view of the rubberized elastic jacking assembly 4 according to the embodiment; FIG. 6 is a schematic view of a part of the structure of the rubberized elastic jacking assembly 4 according to the embodiment; fig. 7 is a schematic perspective view of the elastic adhesive member 44 in the embodiment. Rubberizing elasticity jacking subassembly 4 includes that elasticity rubberizing holds carrier 41, elasticity rubberizing driving piece 42, elasticity rubberizing support piece 43, elasticity rubberizing piece 44 and elasticity rubberizing elastic component 45, elasticity rubberizing holds carrier 41 and slides and sets up in hem rubberizing holds carrier 1, elasticity rubberizing driving piece 42 sets up in elasticity rubberizing holds carrier 41, elasticity rubberizing support piece 43 connects the output of elasticity rubberizing driving piece 42, elasticity rubberizing piece 44 slides and sets up in elasticity rubberizing support piece 43, on elasticity rubberizing piece 44 direction of motion, elasticity rubberizing support piece 43 is connected to elasticity rubberizing elastic component 45 one end, elasticity rubberizing piece 44 is connected to its other end.

Drive elasticity rubberizing support piece 43 through elasticity rubberizing driving piece 42 and move, elasticity rubberizing support piece 43 drives elasticity rubberizing piece 44 and moves together, elasticity rubberizing piece 44 contacts and acts on the adhesive tape with the adhesive tape, at this moment, elasticity rubberizing elastic component 45 takes place deformation, when elasticity rubberizing piece 44 breaks away from with the adhesive tape, because under the elastic action of elasticity rubberizing elastic component 45, elasticity rubberizing piece 44 slowly separates with the adhesive tape, form the buffering when breaking away from.

In particular, the elastic adhesive member 44 includes an elastic adhesive support 441 and an elastic adhesive plate 442, the elastic adhesive support 441 is slidably connected to the elastic adhesive support 43, the elastic adhesive support 441 is connected to the elastic adhesive elastic member 45, and the elastic adhesive support 441 is connected to the elastic adhesive plate 442 at an end thereof away from the elastic adhesive elastic member 45. Furthermore, the elastic rubberizing supporting piece 43 is provided with an elastic rubberizing block 431, the elastic rubberizing block 441 is provided with an elastic rubberizing limiting notch 4411, the elastic rubberizing limiting notch 4411 is matched with the elastic rubberizing block 431, and when the elastic rubberizing block 441 slides to a limit point, the elastic rubberizing limiting notch 4411 abuts against the elastic rubberizing block 431 and stops moving continuously towards the same direction. Furthermore, the end of the elastic adhesive-coated plate 442 contacting the adhesive tape is provided with a plurality of elastic adhesive-coated resistance grooves 4421, and the friction force between the elastic adhesive-coated resistance grooves 4421 and the adhesive tape is increased by the plurality of elastic adhesive-coated resistance grooves 4421 arranged side by side, so that the adhesive tape is prevented from slipping off during operation. In this embodiment, the quantity of elasticity rubberizing piece 44 is two, and two elasticity rubberizing pieces 44 set up side by side, and two elasticity rubberizing pieces 44 can carry out the elasticity rubberizing of two adhesive tapes in step, raise the efficiency. Specifically, the elastic adhesive sheet 442 may be made of a soft material to prevent abrasion to the adhesive paper during the elastic adhesive process.

The elastic rubberized elastic member 45 in this embodiment is a spring.

Further, the rubberizing elastic jacking assembly 4 further includes a first elastic rubberizing guide 46, and the first elastic rubberizing guide 46 connects the elastic rubberizing supporting member 43 and the elastic rubberizing supporting block 441. The first elastic rubberizing guide 46 includes a first elastic rubberizing guide rail 461 and a first elastic rubberizing guide block 462, the first elastic rubberizing guide rail 461 is disposed on the elastic rubberizing support 43, the first elastic rubberizing guide block 462 is slidably disposed on the first elastic rubberizing guide rail 461, and the first elastic rubberizing guide block 462 is connected to the elastic rubberizing support block 441 to realize the sliding design of the elastic rubberizing support block 441 relative to the elastic rubberizing support 43.

Further, rubberizing elasticity jacking subassembly 4 still includes elasticity rubberizing locating part 47, elasticity rubberizing locating part 47 sets up in elasticity rubberizing holds carrier 41, the hem draws gluey subassembly 3 still includes the hem and draws gluey response piece 36, the hem draws gluey response piece 36 to set up in the hem and draws gluey support piece 31, when first hem draws gluey driving piece 32 to drive the hem and draws gluey support piece 31 to move, the hem draws gluey response piece 36 also to move together, the hem draws gluey response piece 36 and elasticity rubberizing locating part to contact the back, first hem draws gluey driving piece 32 to stop work. The movement position can be limited by arranging the elastic rubberizing limiting part 47 and the folding edge glue pulling sensing part 36.

Further, rubberizing elasticity jacking subassembly 4 still includes elasticity rubberizing regulating part 48, and elasticity rubberizing regulating part 48 is connected elasticity rubberizing and is held carrier 41, drives elasticity rubberizing and holds carrier 41 motion and carry out position control through elasticity rubberizing regulating part 48. The elastic rubberizing adjusting piece 48 comprises an elastic rubberizing adjusting support block 481 and an elastic rubberizing adjusting rod 482, the elastic rubberizing adjusting support block 481 is adjacent to the elastic rubberizing bearing piece 41, the elastic rubberizing adjusting rod 482 is rotatably arranged on the elastic rubberizing adjusting support block 481, the elastic rubberizing adjusting rod 482 is in threaded connection with the elastic rubberizing bearing piece 41, and the elastic rubberizing adjusting rod 482 is rotated to further drive the elastic rubberizing bearing piece 41 to move.

Furthermore, the rubberizing elastic jacking assembly 4 further comprises a second elastic rubberizing guide 49, and the second elastic rubberizing guide 49 is connected with the hem rubberizing bearing member 1 and the elastic rubberizing bearing member 41. Second elasticity rubberizing guide 49 includes second elasticity rubberizing guided way 491 and second elasticity rubberizing guide block 492, and second elasticity rubberizing guided way 491 sets up in hem rubberizing and holds carrier 1, and second elasticity rubberizing guided way 491 lies in elasticity rubberizing and adjusts between piece 481 and elasticity rubberizing and hold carrier 41, and second elasticity rubberizing guide block 492 slides and sets up in second elasticity rubberizing guided way 491, and elasticity rubberizing holds carrier 41 is connected to second elasticity rubberizing guide block 492.

When the device works, the elastic rubberizing adjusting rod 482 is rotated to drive the elastic rubberizing bearing piece 41 and the second elastic rubberizing guide block 492 to move along the second elastic rubberizing guide rail 491, so as to adjust the position; then, after the gummed paper is conveyed to the designated position, the elastic gumming driving piece 42 works and drives the elastic gumming supporting block 441 to move so that the elastic gumming plate 442 acts on the gummed paper; after the operation is completed, the adhesive tape is separated from the elastic adhesive-coated plate 442, and the adhesive tape is slowly separated from the elastic adhesive-coated plate 442 due to the action of the elastic adhesive-coated elastic member 45, so that the elastic adhesive-coated plate 442 is completely separated from the adhesive tape, and the next loading of the adhesive tape is waited.

Through elasticity rubberizing carrier 41, elasticity rubberizing driving piece 42, elasticity rubberizing support piece 43, elasticity rubberizing piece 44 and the cooperation setting of elasticity rubberizing elastic component 45, elasticity rubberizing driving piece 42 drives elasticity rubberizing support piece 43, elasticity rubberizing support piece 43 drives elasticity rubberizing piece 44 motion and carries out the elasticity rubberizing, when elasticity rubberizing piece 44 breaks away from with the adhesive tape, influenced by the elasticity of elasticity rubberizing elastic component 45, there is the buffering when adhesive tape breaks away from with elasticity rubberizing piece 44, make adhesive tape and elasticity rubberizing piece 44 have enough time to break away from, and then avoid the adhesive tape to drop easily after separating with elasticity rubberizing piece 44.

Referring to fig. 1 to fig. 3, the hem rubberizing assembly 5 includes a hem rubberizing supporting member 51, a first hem rubberizing driving member 52, a hem rubberizing moving member 53, a second hem rubberizing driving member 54, and a hem rubberizing member 55, wherein the hem rubberizing supporting member 51 is disposed on one side of the hem rubberizing carrying member 1, or is disposed adjacent to the hem rubberizing carrying member 1; first hem rubberizing driving piece 52 sets up in hem rubberizing support piece 51, and hem rubberizing moving part 53 slides and sets up in hem rubberizing support piece 51, and hem rubberizing moving part 53 connects the output of first hem rubberizing driving piece 52, and second hem rubberizing driving piece 54 sets up in hem rubberizing moving part 53, and hem rubberizing piece 55 connects the output of second hem rubberizing driving piece 54. When the vacuum adhesive tape folding device is used specifically, the edge folding adhesive tape pasting piece 55 is provided with a vacuum hole, and the adhesive tape is adsorbed by suction force generated by the vacuum hole. Further, hem rubberizing subassembly 5 still includes hem rubberizing adjustment piece 56, and hem rubberizing adjustment piece 56 threaded connection hem rubberizing support piece 51 is through rotating hem rubberizing adjustment piece 56 for hem rubberizing support piece 51 moves for the relative hem rubberizing holds carrier 1, and then realizes the position control of hem rubberizing piece 55. In addition, the hem rubberizing supporting member 51 is fixedly connected to the hem rubberizing carrying member 1, and when the hem rubberizing adjusting member 56 rotates, the hem rubberizing supporting member 51 moves together with the hem rubberizing carrying member 1 to perform position adjustment.

Referring to fig. 1 to fig. 3, the rubberizing shearing assembly 6 includes a rubberizing shearing driving member 61 and a rubberizing shearing member 62, the rubberizing shearing driving member 61 is disposed on the hem rubberizing bearing member 1, the rubberizing shearing driving member 61 is located between the elastic rubberizing bearing member 41 and the hem rubberizing bearing member 1, and the rubberizing shearing member 62 is connected to an output end of the rubberizing shearing driving member 61. When the elastic adhesive tape sticking device is used specifically, the number of the elastic adhesive tape sticking pieces 44 is two, correspondingly, the number of the adhesive tape sticking shearing pieces 62 is also two, and the two adhesive tape sticking shearing pieces 62 are arranged correspondingly to the two elastic adhesive tape sticking pieces 44.

During operation, one end of the adhesive paper is exposed out of the folding edge glue pulling clamping piece 34 and is clamped tightly by the folding edge glue pulling clamping piece 34, the first folding edge glue pulling driving piece 32 drives the folding edge glue pulling supporting piece 31 and the folding edge glue pulling clamping piece 34 to move to a specified position, then the elastic rubberizing driving piece 42 drives the elastic rubberizing piece 44 to move, meanwhile, the first folding edge rubberizing driving piece 52 and the second folding edge rubberizing driving piece 54 work in a matched mode, so that the folding edge rubberizing piece 55 and the elastic rubberizing plate 442 of the elastic rubberizing piece 44 move right opposite to each other and towards the direction close to each other, the adhesive paper is clamped tightly, then the rubberizing shearing driving piece 61 drives the rubberizing shearing piece 62 to move, the adhesive paper is cut off, then the first folding edge glue pulling driving piece 32 works to reset, the second folding edge rubberizing driving piece 54 also works to reset, in the resetting process, the elastic rubberizing piece 44 moves towards one section along with the folding edge glue pulling piece 55 and then separates, the elastic rubberizing driving piece 42 also works to reset, and waits for the next section of adhesive paper.

To sum up, hold carrier through the hem rubberizing, the hem send gluey subassembly, the hem draws gluey subassembly, rubberizing elasticity jacking subassembly, the cooperation of hem rubberizing subassembly and rubberizing shearing module is used, the hem send gluey subassembly to see out the adhesive tape, the hem draws gluey subassembly with the adhesive tape centre gripping and carries rubberizing elasticity jacking subassembly, rubberizing elasticity jacking subassembly is attached in the hem rubberizing subassembly with the adhesive tape, rubberizing shearing module cuts off the adhesive tape, make the adhesive tape independently attached at the hem rubberizing subassembly, hem rubberizing subassembly takes two at least adhesive tape to move towards a direction and carry out the rubberizing to electric core, so, can realize the rubberizing of hem rubberizing subassembly realization electric core both sides, overall structure is simple and easy, and it is strong to actuate the continuity, need not to add electric core rotating-structure alone, promote production efficiency greatly.

The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a side gluey mechanism is pasted to electricity core which characterized in that includes:

a folding edge rubberizing bearing piece (1);

the folding edge glue feeding assembly (2) is arranged adjacent to the folding edge glue pasting bearing piece (1);

the folding edge glue drawing assembly (3) is arranged on the folding edge glue pasting bearing piece (1), and the folding edge glue drawing assembly (3) draws the gummed paper of the folding edge glue feeding assembly (2) to move;

the rubberizing elastic jacking assembly (4) is positioned on the motion path of the edge folding glue pulling assembly (3) and acts on the gummed paper pulled by the edge folding glue pulling assembly (3);

the edge folding and rubberizing assembly (5) is arranged opposite to the rubberizing elastic jacking assembly (4); and

the rubberizing shearing assembly (6) is positioned between the edge folding glue pulling assembly (3) and the rubberizing elastic jacking assembly (4);

the battery cell edge folding and rubberizing assembly (5) and the rubberizing elastic jacking assembly (4) are matched to suck at least two sections of gummed paper, and the battery cell edge folding and rubberizing assembly (5) carries out rubberizing on the battery cell at least twice along the same movement direction.

2. The electric core side adhesive sticking mechanism of claim 1, wherein the edge folding adhesive feeding assembly (2) comprises an edge folding adhesive feeding support member (21), a plurality of edge folding adhesive feeding winding members (22), an edge folding adhesive feeding driving member (23) and an edge folding adhesive feeding tensioning member (24), wherein the edge folding adhesive feeding support member (21) and the edge folding adhesive feeding support member (1) are adjacently arranged, a plurality of edge folding adhesive feeding winding members (22) are distributed at intervals in the edge folding adhesive feeding support member (21), the edge folding adhesive feeding driving member (23) is arranged in the edge folding adhesive feeding support member (21), the edge folding adhesive feeding tensioning member (24) is slidably arranged in the edge folding adhesive feeding support member (21), and the edge folding adhesive feeding member (24) is connected with an output end of the edge folding adhesive feeding driving member (23).

3. The battery core side gluing mechanism according to claim 1, wherein the edge folding and glue pulling assembly (3) comprises an edge folding and glue pulling support member (31), a first edge folding and glue pulling drive member (32), an edge folding and glue pulling transition member (33), an edge folding and glue pulling clamping member (34) and a second edge folding and glue pulling drive member (35), the edge folding and glue pulling support member (31) is slidably arranged on the edge folding and glue pulling support member (1), an output end of the first edge folding and glue pulling drive member (32) is connected with the edge folding and glue pulling support member (31), the edge folding and glue pulling transition member (33) is rotatably arranged on the edge folding and glue pulling support member (31), the edge folding and glue pulling clamping member (34) is arranged on the edge folding and glue pulling support member (31), and the second edge folding and glue pulling drive member (35) drives the edge folding and glue pulling clamping member (34).

4. The battery core side gluing mechanism according to claim 3, further comprising a folding side gluing sensing part (36), wherein the folding side gluing sensing part (36) is arranged on the folding side gluing supporting part (31).

5. The electric core side gluing mechanism according to any one of claims 3 to 4, wherein the edge folding glue-drawing clamping piece (34) comprises a first glue-drawing clamping plate (341), a second glue-drawing clamping plate (342) and a glue-drawing transmission rod (343), the first glue-drawing clamping plate (341) is arranged on the edge folding glue-drawing bearing piece (1), the second glue-drawing clamping plate (342) is rotatably arranged on the edge folding glue-drawing bearing piece (1), and the glue-drawing transmission rod (343) is connected with the second glue-drawing clamping plate (342) and the second edge folding glue-drawing driving piece (35).

6. The electrical core side gluing mechanism according to claim 1, wherein the gluing elastic jacking assembly (4) comprises an elastic gluing bearing member (41), an elastic gluing driving member (42), an elastic gluing support member (43), an elastic gluing member (44) and an elastic gluing elastic member (45), the elastic gluing bearing member (41) is disposed on the folded edge gluing bearing member (1), the elastic gluing driving member (42) is disposed on the elastic gluing bearing member (41), the elastic gluing support member (43) is connected to an output end of the elastic gluing driving member (42), the elastic gluing member (44) is slidably disposed on the elastic gluing support member (43), and the elastic gluing elastic member (45) is connected to the elastic gluing member (44) and the elastic gluing support member (43).

7. The electrical core side gluing mechanism according to claim 6, wherein the gluing elastic jacking assembly (4) further comprises an elastic gluing limiting part (47), and the elastic gluing limiting part (47) is disposed on the elastic gluing bearing part (41).

8. The electrical core side gluing mechanism according to claim 1, wherein the folded edge gluing component (5) comprises a folded edge gluing support member (51), a first folded edge gluing drive member (52), a folded edge gluing moving member (53), a second folded edge gluing drive member (54) and a folded edge gluing member (55), the folded edge gluing support member (51) and the folded edge gluing bearing member (1) are adjacently arranged, the first folded edge gluing drive member (52) is arranged on the folded edge gluing support member (51), the folded edge gluing moving member (53) is connected with an output end of the first folded edge gluing drive member (52), the second folded edge gluing drive member (54) is arranged on the folded edge gluing moving member (53), and the folded edge gluing member (55) is connected with the second folded edge gluing drive member (54).

9. The cell side gluing mechanism according to claim 8, wherein the hem gluing assembly (5) further comprises a hem gluing adjustment member (56), and the hem gluing adjustment member (56) is in threaded connection with the hem gluing support member (51).

10. The electrical core side gluing mechanism according to claim 1, wherein the gluing shearing assembly (6) comprises a gluing shearing driving member (61) and a gluing shearing member (62), the gluing shearing driving member (61) is arranged on the folding edge gluing pulling assembly (3), and the gluing shearing member (62) is connected with the gluing shearing driving member (61).

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