CN219154840U - Film pasting tool and battery module PACK production line - Google Patents

Abstract

The utility model relates to the technical field of battery processing, and particularly discloses a film pasting tool and a battery module PACK production line, wherein the film pasting tool comprises a first sliding part which is arranged along the X-axis direction; the second sliding part is arranged along the Y-axis direction and is slidably connected with the upper surface of the first sliding part, and the second sliding part slides on the first sliding part along the X-axis direction; the film covering part comprises at least two film covering modules, the film covering modules are arranged side by side along the X-axis direction and are in sliding connection with the second sliding part, the second sliding part is used for driving the film covering modules to slide along the Y-axis direction, and the film covering modules are used for sucking film materials and then stretching along the Z-axis direction so as to paste the film materials to preset positions; the roll-in portion is arranged on the side portion of the film laminating module in the X-axis direction, the roll-in portion is used for stretching along the Z-axis direction, and the roll-in portion rolls on the outer surface of the film material after film laminating is completed by the film laminating module, so that the film laminating speed is improved, the film laminating effect is enhanced, and the film laminating module is compatible with various sizes without changing the shape.

Description

Film pasting tool and battery module PACK production line

Technical Field

The utility model relates to the technical field of battery processing, in particular to a film pasting tool and a battery module PACK production line.

Background

With the development of the electric automobile industry, the production process of the automobile power battery module tends to be automatic and high-speed, but due to various reasons and different requirements and the limitation of related conditions, some station procedures have low speed in the production process and cannot be compatible with various products, so that the production efficiency of the whole line is affected. The film sticking at the bottom of the module is a process with the characteristics of large occupied area, low efficiency and slow change of the single-machine equipment, and is difficult to meet the requirements of modern production.

Chinese patent CN115123597 discloses a coating machine, and this coating machine passes the fixed station of diaphragm through the diaphragm that makes on module and the fixed station, plays fixed effect, rolls the diaphragm to the roll-in device on the module this moment for the module is leveled in the coating process and is improved the coating precision and avoid producing the bubble, but because this coating machine commonality is poor, still has the problem that can't compatible multiple size pad pasting operation.

Therefore, a technology is needed to solve the problem of poor compatibility of the module film laminating equipment in the prior art, and meanwhile, higher film laminating precision and film laminating speed are needed to be ensured.

Disclosure of Invention

In view of the above, the utility model provides a film pasting tool, which aims to solve the problems that the film pasting speed of the bottom of a module is low and a plurality of products cannot be compatible in the prior art.

In one aspect, the present utility model provides a film laminating tool, including:

a first sliding portion 200 provided along the X-axis direction;

a second sliding portion 210 disposed along the Y-axis direction and slidably coupled to the upper surface of the first sliding portion 200, the second sliding portion 210 sliding on the first sliding portion 200 along the X-axis direction;

the film covering part 100 comprises at least two film covering modules, wherein the film covering modules are arranged side by side along the X-axis direction and are slidably connected with the second sliding part 210, the second sliding part 210 is used for driving the film covering modules to slide along the Y-axis direction, and the film covering modules are used for sucking film materials and then stretching along the Z-axis direction so as to paste the film materials to preset positions;

the roll pressing part 108 is arranged on the side part of the film laminating module in the X-axis direction, and the roll pressing part 108 is used for stretching along the Z-axis direction so as to roll on the outer surface of the film material after the film laminating module completes film lamination.

Further, the film coating part 100 further includes:

and a mounting portion 101 disposed along the Y-axis direction, wherein a lower surface of the mounting portion 101 is connected to one end of an upper surface of the second sliding portion 210, and the roller press portion 108 and the film coating module are disposed side by side on the upper surface of the mounting portion 101 along the X-axis direction.

Further, one of the at least two film covering modules is a basic film covering module 102, at least one of the at least two film covering modules is a universal film covering module 103, and the size of the film pasting end of the basic film covering module 102 is larger than that of the film pasting end of the universal film covering module 103.

Further, the base film laminating module 102 includes a first supporting plate 1021, the universal film laminating module 103 includes a second supporting plate 1031, the first supporting plate 1021 and the second supporting plate 1031 are disposed on the upper surface of the mounting portion 101 side by side along the X-axis direction, the length of the first supporting plate 1021 in the Y-axis direction is greater than the length of the second supporting plate 1031 in the Y-axis direction, and the first supporting plate 1021 and the second supporting plate 1031 are used for respectively or mutually matching to absorb the film material.

Further, the base film-coating module 102 and the universal film-coating module 103 each further include:

a plurality of mounting holes 1051 are uniformly formed in the upper surfaces of the first supporting plate 1021 and the second supporting plate 1031, the vacuum sucking disc 105 is arranged in the mounting holes 1051 in a penetrating manner, and the vacuum sucking disc 105 is used for sucking the film material;

a first supporting part 106 having an upper end connected to lower surfaces of the first and second pallets 1021 and 1031 and a lower end connected to an upper surface of the mounting part 101;

a vacuum generator 107 provided on the mounting portion 101 and/or the first supporting portion 106, the vacuum generator 107 being connected to the vacuum chuck 105;

the first cylinder 104 is disposed on the mounting portion 101 and/or the first supporting portion 106 along the Z-axis direction, a driving end of the first cylinder 104 is connected to lower surfaces of the first supporting plate 1021 and the second supporting plate 1031, and the first cylinder 104 is configured to drive the first supporting plate 1021 and the second supporting plate 1031 to stretch along the Z-axis direction.

Further, the roll nip 108 includes:

a second supporting portion 1083 connected to the upper surface of the mounting portion 101 along a lower end thereof;

a second cylinder 1082 provided on said second support portion 1083 along the Z-axis direction;

and a rubber roller 1081 connected with the upper end of the second air cylinder 1082, wherein the rubber roller 1081 is used for rolling on the surface of the film material.

Further, the first sliding portion 200 includes a sliding rail 201 disposed along the X-axis direction, and the second sliding portion 210 is slidably disposed on the sliding rail 201.

Further, the second sliding portion 210 includes a sliding table module 202, a sliding plate 205 is disposed on the sliding rail 201, the lower surface of the sliding plate 205 is slidably connected with the sliding rail 201, and the sliding table module 202 is disposed on the upper surface of the sliding plate 205 along the Y-axis direction.

Further, a bracket 203 is further provided on the sliding plate 205, the bracket 203 is arranged side by side with the sliding table module 202, and the bracket 203 is used for placing a drag chain 204.

The film laminating tool provided in the embodiment of the application has at least two film laminating modules at the film laminating part 100, and the film laminating modules can actively absorb film materials, so that the film laminating speed is improved, the film laminating effect is enhanced, and the film laminating tool is compatible with various sizes without changing the shape.

On the other hand, the utility model also provides a battery module PACK production line, which comprises the film pasting tool.

It can be appreciated that the power device adopts the film pasting tool provided by the utility model, and the battery module PACK production line has the same beneficial effects as the film pasting tool, and is not repeated here.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the utility model. Also, like reference numerals are used to designate like parts throughout the figures. In the drawings:

FIG. 1 is a schematic diagram of a film laminating tool according to an embodiment of the present utility model;

FIG. 2 is a side view of a film bonding tool according to an embodiment of the present utility model;

fig. 3 is a front view of a film laminating tool provided by an embodiment of the utility model;

fig. 4 is a front view of a film covering part according to an embodiment of the present utility model;

FIG. 5 is a schematic view of the bottom surface of a film covering part according to an embodiment of the present utility model;

FIG. 6 is a schematic diagram of a general membrane module structure according to an embodiment of the present utility model;

fig. 7 is a side view of a universal membrane module provided by an embodiment of the present utility model.

In the figure: 100-coating part; 101-a mounting part; 102-a basic film covering module; 1021-a first pallet; 103-a universal tectorial membrane module; 1031-a second pallet; 104-a first cylinder; 105-vacuum chuck; 1051-mounting hole; 106-a first support; 107-null generator; 108-rolling a pressing part; 1081-glue rolls; 1082-a second cylinder; 1083-a second support; 200-a first sliding part; 201-a slide rail; 210-a second slide; 202-a slipway module; 203-brackets; 204-drag chain; 205-skateboard.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

In the description of the present application, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate description of the present application and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present application.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present application, 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 terms in this application will be understood by those of ordinary skill in the art in a specific context.

The film laminating tool provided in the embodiment of the application has at least two film laminating modules at the film laminating part 100, and the film laminating modules can actively absorb film materials, so that the film laminating speed is improved, the film laminating effect is enhanced, and the film laminating tool is compatible with various sizes without changing the shape.

Referring to fig. 1, the film laminating tool provided in this embodiment includes: a first sliding portion 200, a second sliding portion 210, a film coating portion 100, and a roller press portion 108, wherein the first sliding portion 200 is disposed along the X-axis direction; while the second sliding portion 210 is disposed along the Y-axis direction and slidably connected to the upper surface of the first sliding portion 200, it will be appreciated that the second sliding portion 210 slides on the first sliding portion 200 along the X-axis direction; the film coating portion 100 includes at least two film coating modules, the film coating modules are arranged side by side along the X-axis direction, and the film coating modules are slidably connected with the second sliding portion 210, it is understood that the second sliding portion 210 is configured to drive the film coating modules to slide along the Y-axis direction, and the film coating modules are configured to draw the film material and then stretch along the Z-axis direction, so as to adhere the film material to a preset position; in addition, the roll pressing part 108 is disposed at a side part of the film coating module in the X-axis direction, and the roll pressing part 108 is configured to stretch and retract in the Z-axis direction so as to roll on the outer surface of the film material after the film coating module completes film lamination.

Specifically, the film sticking tool obtains the degrees of freedom in the directions X, Y, Z through the sliding structures of the first sliding part 200 and the second sliding part 210 and the telescopic action of the film coating part 100, and meanwhile, at least two film coating modules are used for sticking films to the battery cell modules with more sizes and models without changing the types.

Specifically, the roll nip 108 may further roll the film material by performing shrinkage in the Z-axis direction.

As shown in fig. 1 to 4, the film covering portion 100 of the present embodiment further includes:

the mounting portion 101 is provided along the Y-axis direction, a lower surface of the mounting portion 101 is connected to one end of an upper surface of the second sliding portion 210, and the roll nip 108 and the film coating module are provided side by side on the upper surface of the mounting portion 101 along the X-axis direction.

With continued reference to fig. 1-4, one of the at least two film coating modules in this embodiment is a basic film coating module 102, at least one of the at least two film coating modules is a general film coating module 103, and the size of the film coating end of the basic film coating module 102 is larger than the size of the film coating end of the general film coating module 103.

Specifically, the lower surface of the mounting portion 101 is parallel to the second sliding portion 210 and fixed to the upper surface of the second sliding portion 210, and the rolling portion, the base film module 102, and the universal film module 103 are sequentially arranged on the mounting portion 101 along the X direction.

Specifically, the size of the universal film coating module 103 for complementing the basic film coating module is insufficient when the large-scale cell module is coated, wherein the size of the single universal film coating module 103 is smaller than that of the basic film coating module, but the universal film coating module 103 is more convenient to install and detach than the basic film coating module, and it is understood that a plurality of universal film coating modules 103 can be arranged to cooperate with the basic film coating module according to specific actual processing requirements.

As shown in fig. 1 to 4, the base film coating module 102 of the present embodiment includes a first support plate 1021, the general film coating module 103 includes a second support plate 1031, the first support plate 1021 and the second support plate 1031 are disposed on the upper surface of the mounting portion 101 side by side along the X-axis direction, the length of the first support plate 1021 in the Y-axis direction is greater than the length of the second support plate 1031 in the Y-axis direction, and the first support plate 1021 and the second support plate 1031 are used for sucking film materials respectively or cooperatively.

Specifically, the base film covering module 102 realizes the independent avoidance and starting of the first supporting plate 1021 through the lifting of the independent first cylinder 104. The universal film covering module 103 also realizes the independent avoidance and starting of the first supporting plate 1021 through the lifting of the independent first cylinder 104. In the film coating process, the first supporting plate 1021 of the basic film coating module 102 can independently operate when the basic-size cell module is coated, and the first cylinder 104 controls the first supporting plate 1021 to independently rise, take materials and paste, and independently descend after the paste is completed; when the small-sized battery cell module is coated, the second supporting plate 1031 of the universal coating module 103 can independently operate, and the first air cylinder 104 controls the universal coating module 103 to independently ascend, take materials and paste, and independently descend after the paste is completed; in addition, when the cell module with a larger size is coated, the base coating module 102, the first support plate 1021 and the second support plate 1031 of the universal coating module 103 can be synchronously lifted up to take materials and paste, and after the paste is completed, the two support plates are synchronously lifted down.

It can be appreciated that the universal film covering module 103 adopts a modular design, and is based on the basic film covering module 102, and according to actual production requirements, the universal film covering module 103 is adapted to the increasing module length, and the universal module can be compatible without disassembly when producing a short module.

As shown in fig. 5 to 7, the base film-coating module 102 and the universal film-coating module 103 of the present embodiment each further include: a vacuum chuck 105, a first support 106, a vacuum generator 107, and a first cylinder 104; wherein, the upper surfaces of the first supporting plate 1021 and the second supporting plate 1031 are uniformly provided with a plurality of mounting holes 1051, and the vacuum sucking disc 105 is arranged in the mounting holes 1051 in a penetrating way, and it is understood that the vacuum sucking disc 105 is used for sucking the film material; the upper end of the first supporting part 106 is connected with the lower surfaces of the first supporting plate 1021 and the second supporting plate 1031, and the lower end is connected with the upper surface of the mounting part 101; the vacuum generator 107 is arranged on the mounting part 101 and/or the first supporting part 106, and the vacuum generator 107 is connected with the vacuum chuck 105; while the first cylinder 104 is disposed on the mounting portion 101 and/or the first supporting portion 106 along the Z-axis direction, it is understood that the driving end of the first cylinder 104 is connected to the lower surfaces of the first and second support plates 1021 and 1031, and the first cylinder 104 is used to drive the first and second support plates 1021 and 1031 to stretch in the Z-axis direction.

Specifically, the first support 106 is mounted on the upper surface of the mounting portion 101, and the vacuum generator 107 and the first cylinder 104 may be mounted on the first support 106; the vacuum generator 107 and the first cylinder 104 may be provided on the mounting portion 101 as well; the vacuum generator 107 may be provided on the mounting portion 101, and the first cylinder 104 is provided on the first support portion 106; the first cylinder 104 may also be provided on the mounting portion 101, while the vacuum generator 107 is provided on the first support portion 106.

Specifically, a plurality of mounting holes 1051 are uniformly formed in the first tray and the second tray, a vacuum chuck 105 is mounted in each mounting hole 1051, the vacuum chucks 105 are slightly higher than the surfaces of the two trays, the vacuum chucks 105 are connected with a vacuum generator 107 through air pipes, and when the vacuum generator 107 is specifically used, high-speed air flow is generated to cause partial vacuum negative pressure, and the negative pressure is transmitted to the vacuum chucks 105 through the air pipes to suck film materials to assist film pasting operation.

Specifically, the vacuum generator 107 controls the vacuum chuck 105 to generate adsorption and release actions, and in the film pasting process, the vacuum generator 107 gradually releases the film material in cooperation with the movement of the rubber roller 1081, so that the film material is always in stable stretching of both sides, reaches a fully relaxed state, is gradually attached to the module, has auxiliary and stable actions on film pasting operation, improves film pasting precision, and avoids bubbles.

It can be appreciated that the vacuum chuck 105 can achieve the effect of fast material taking through the adsorption by adsorbing and fixing the bottom film, thereby saving the operation time.

Preferably, the first supporting portion 106 is a C-shaped plate or an H-shaped plate, so long as the structural strength thereof can be ensured, and the limitation is not made here.

As shown in conjunction with fig. 1-2, the roll nip 108 of the present embodiment includes: a second support portion 1083, a second cylinder 1082, and a rubber roller 1081, wherein the second support portion 1083 is connected to the upper surface of the mounting portion 101 along a lower end thereof; and the second cylinder 1082 is provided on the second support portion 1083 along the Z-axis direction; the glue roller 1081 is connected to the upper end of the second cylinder 1082, and it is understood that the glue roller 1081 is configured to roll on the surface of the film stock.

Specifically, the rubber roller 1081 is mounted on the second support portion 1083, and has a stable mounting structure, and displacement in the Z-axis direction is controlled by the second cylinder 1082, so that the bottom of the pressing roller module is covered, and a film covering effect is enhanced.

As shown in fig. 1 to 3, the first sliding portion 200 of the present embodiment includes a sliding rail 201 disposed along the X-axis direction, and the second sliding portion 210 is slidably disposed on the sliding rail 201.

As shown in fig. 1-3, the second sliding portion 210 of the present embodiment includes a sliding table module 202, a sliding plate 205 is disposed on the sliding rail 201, the lower surface of the sliding plate 205 is slidably connected to the sliding rail 201, and the sliding table module 202 is disposed on the upper surface of the sliding plate 205 along the Y-axis direction.

As shown in fig. 1-3, the sliding plate 205 of this embodiment is further provided with a bracket 203, where the bracket 203 is arranged side by side with the sliding table module 202, and the bracket 203 is used for placing the drag chain 204.

Specifically, the slide 205 of the second slide portion 210 and the slide rail 201 of the first slide portion 200 perform relative movement in both directions.

Specifically, the sliding table module 202 is an electric cylinder sliding table module 202, and a ball screw and a linear guide rail are disposed inside the electric cylinder sliding table module 202, so that guiding and clamping of the first sliding part 200 and the second sliding part 210 in the X-axis direction and the Y-axis direction can be ensured.

Specifically, the drag chain 204 is an annular drag chain 204 and the circuits are arranged inside the drag chain 204, so that it is understood that the drag chain 204 plays a role in guiding and protecting the internal wiring, friction to the cable is reduced in the reciprocating motion of the tool, and meanwhile, the problem of winding of the circuits is avoided.

It can be seen that, in the above embodiment, in the film laminating tool of the present application, there are a plurality of film laminating modules at the film laminating portion 100, and the film laminating modules can actively absorb the film material, so as to improve the film laminating speed, enhance the film laminating effect, and be compatible with various sizes without changing the mold.

Based on another preferred implementation manner of the above embodiment, the present embodiment provides a battery module PACK production line, which includes the film pasting tool provided in the above embodiment, specifically, the film pasting tool is disposed on one side of the discharge hole of the battery cell module, the other side of the film pasting tool is provided with a film material feeder, and the film pasting tool absorbs the film material to film the battery cell module, so that the film pasting speed can be improved, the film pasting effect can be enhanced, and the battery cell module is compatible with various sizes without changing the shape.

Those of ordinary skill in the art will appreciate that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. Film pasting frock, its characterized in that includes:

a first sliding part (200) arranged along the X-axis direction;

a second sliding portion (210) disposed along the Y-axis direction and slidably connected to the upper surface of the first sliding portion (200), the second sliding portion (210) sliding on the first sliding portion (200) along the X-axis direction;

the film covering part (100) comprises at least two film covering modules, wherein the film covering modules are arranged side by side along the X-axis direction and are in sliding connection with the second sliding part (210), the second sliding part (210) is used for driving the film covering modules to slide along the Y-axis direction, and the film covering modules are used for sucking film materials and then stretching along the Z-axis direction so as to paste the film materials to preset positions;

the roll pressing part (108) is arranged at the side part of the film laminating module in the X-axis direction, and the roll pressing part (108) is used for stretching along the Z-axis direction so as to roll on the outer surface of the film material after the film laminating module is subjected to film laminating.

2. The film laminating tool according to claim 1, wherein the film laminating portion (100) further comprises:

and the mounting part (101) is arranged along the Y-axis direction, the lower surface of the mounting part (101) is connected with one end of the upper surface of the second sliding part (210), and the roller pressing part (108) and the film coating module are arranged on the upper surface of the mounting part (101) side by side along the X-axis direction.

3. The film laminating tool according to claim 2, wherein one of at least two film laminating modules is a basic film laminating module (102), at least one is a universal film laminating module (103), and the size of the film laminating end of the basic film laminating module (102) is larger than the size of the film laminating end of the universal film laminating module (103).

4. The film sticking tool according to claim 3, wherein,

the base tectorial membrane module (102) includes first layer board (1021), general tectorial membrane module (103) includes second layer board (1031), first layer board (1021) and second layer board (1031) are in along X axis direction setting side by side on the upper surface of installation department (101), the length of first layer board (1021) Y axis direction is greater than the length of second layer board (1031) Y axis direction, first layer board (1021) and second layer board (1031) are used for respectively or mutually supporting the absorption membrane material.

5. The film laminating tool according to claim 4, wherein the base film laminating module (102) and the universal film laminating module (103) each further comprise:

a plurality of mounting holes (1051) are uniformly formed in the upper surfaces of the first supporting plate (1021) and the second supporting plate (1031), the vacuum sucking disc (105) is arranged in the mounting holes (1051) in a penetrating mode, and the vacuum sucking disc (105) is used for sucking the film material;

a first support part (106) having an upper end connected to lower surfaces of the first and second pallets (1021, 1031) and a lower end connected to an upper surface of the mounting part (101);

a vacuum generator (107) arranged on the mounting part (101) and/or the first supporting part (106), wherein the vacuum generator (107) is connected with the vacuum chuck (105);

the first air cylinder (104) is arranged on the mounting part (101) and/or the first supporting part (106) along the Z-axis direction, the driving end of the first air cylinder (104) is connected with the lower surfaces of the first supporting plate (1021) and the second supporting plate (1031), and the first air cylinder (104) is used for driving the first supporting plate (1021) and the second supporting plate (1031) to stretch along the Z-axis direction.

6. The film bonding tool according to claim 2, wherein the roll press (108) comprises:

a second support portion (1083) connected to the upper surface of the mounting portion (101) along a lower end thereof;

a second cylinder (1082) provided on the second support portion (1083) in the Z-axis direction;

and the rubber roller (1081) is connected with the upper end of the second air cylinder (1082), and the rubber roller (1081) is used for rolling on the surface of the film material.

7. The film sticking tool according to claim 1, wherein,

the first sliding part (200) comprises a sliding rail (201) arranged along the X-axis direction, and the second sliding part (210) is slidably arranged on the sliding rail (201).

8. The film sticking tool according to claim 7, wherein,

the second sliding part (210) comprises a sliding table module (202), a sliding plate (205) is arranged on the sliding rail (201), the lower surface of the sliding plate (205) is slidably connected with the sliding rail (201), and the sliding table module (202) is arranged on the upper surface of the sliding plate (205) along the Y-axis direction.

9. The film laminating tool according to claim 8, wherein a bracket (203) is further arranged on the sliding plate (205), the bracket (203) and the sliding table module (202) are arranged side by side, and the bracket (203) is used for placing a drag chain (204).

10. A PACK production line for battery modules, comprising a film sticking tool as claimed in any one of claims 1 to 9.

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