CN108461798B

CN108461798B - Core pushing and rolling mechanism for battery packaging film

Info

Publication number: CN108461798B
Application number: CN201810071766.7A
Authority: CN
Inventors: 黄毅; 王强; 龙军
Original assignee: Suzhou Sunmicro Automation Technology Co ltd
Current assignee: Suzhou Sunmicro Automation Technology Co ltd
Priority date: 2018-01-25
Filing date: 2018-01-25
Publication date: 2024-05-03
Anticipated expiration: 2038-01-25
Also published as: CN108461798A

Abstract

The invention discloses a pushing, rolling and core pressing mechanism of a battery packaging film, which comprises a pushing, rolling platform and a battery core pressing unit arranged on the pushing, rolling platform; the battery cell pressing unit comprises a battery cell support, a battery cell driving source, a horizontal moving support and a vertical moving support, wherein the battery cell driving source, the horizontal moving support and the vertical moving support are arranged on the battery cell support, the moving end of the battery cell driving source is connected with the horizontal moving support, a driving roller and a rotary rack are arranged on the horizontal support, a roller guide lifting block and a rotary rod are arranged on the vertical moving support, a rotary gear and a rotary pressing strip are respectively arranged at two ends of the rotary rod, the driving roller is in contact with the roller guide lifting block, and the rotary rack is meshed with the rotary gear. The battery can be kept stable and motionless, and is an underactuated system, and the battery is simple in structure, low in cost and high in efficiency.

Description

Core pushing and rolling mechanism for battery packaging film

Technical Field

The invention relates to a battery coating mechanism, in particular to a battery packaging film pushing, rolling and core pressing mechanism.

Background

At present, in the process of coating, the battery cell is usually placed on the plastic packaging film, then the plastic packaging film is folded in half, and the position of the battery cell is usually changed in the folding process, so that the position of the battery cell in the plastic packaging film after the film is sealed is influenced, and the quality problem of the battery is caused.

Disclosure of Invention

The invention aims to solve the technical problem of providing a battery packaging film pushing, rolling and core pressing mechanism which can keep a battery stable and motionless and is an underactuated system, and has the advantages of simple structure, low cost and high efficiency.

In order to solve the technical problems, the invention provides a battery packaging film pushing, rolling and core pressing mechanism, which comprises a pushing, rolling platform and a battery core pressing unit arranged on the pushing, rolling platform; the battery cell pressing unit comprises a battery cell support, a battery cell driving source, a horizontal moving support and a vertical moving support, wherein the battery cell driving source, the horizontal moving support and the vertical moving support are arranged on the battery cell support, the moving end of the battery cell driving source is connected with the horizontal moving support, a driving roller and a rotary rack are arranged on the horizontal support, a roller guide lifting block and a rotary rod are arranged on the vertical moving support, a rotary gear and a rotary pressing strip are respectively arranged at two ends of the rotary rod, the driving roller is in contact with the roller guide lifting block, and the rotary rack is meshed with the rotary gear.

Preferably, the roller guide lifting block comprises an upper bottom surface, a lower bottom surface and inclined surfaces positioned between the upper bottom surface and the lower bottom surface, wherein the upper bottom surface and the lower bottom surface are positioned at different heights, the inclined surfaces and the bottom surfaces are provided with gentle transition areas, and the roller guide lifting block is in contact with the wheel surface of the driving roller.

Preferably, a vertical moving guide rail is arranged between the vertical moving support and the piezoelectric core support along the vertical direction.

Preferably, a vertical reset spring is arranged between the vertical moving bracket and the piezoelectric core bracket along the vertical direction.

Preferably, a horizontal moving guide rail is arranged between the horizontal moving support and the piezoelectric core support along the driving direction of the piezoelectric core driving source.

Preferably, a horizontal reset spring is arranged between the horizontal moving support and the piezoelectric core support along the driving direction of the piezoelectric core driving source.

Preferably, the rotary rack has a toothless area.

Preferably, the rotary pressing bar is sheet-shaped.

The pushing roll feeding unit comprises a pushing roll roller sliding table, a pushing roll roller and a pushing roll lifting platform, wherein the pushing roll roller sliding table is driven by a driving source, the pushing roll roller sliding table is attached to the pushing roll roller sliding table, the pushing roll roller sliding table is provided with a pushing roll roller sliding table notch, the pushing roll lifting platform is provided with a pushing roll boss capable of being filled in the pushing roll roller sliding table notch, the edge of the pushing roll roller sliding table notch is sunken downwards, and the upper surface of the notch and the upper surface of the pushing roll boss are located in the same plane.

Preferably, the pushing roll platform is provided with a plastic packaging film pressing unit, and the plastic packaging film pressing unit comprises a turnover edge pressing bracket arranged on the pushing roll platform, a turnover sliding table driving source arranged on the turnover edge pressing bracket and a turnover edge pressing sheet arranged at the motion end of the turnover sliding table driving source and capable of extending into the upper surface of the turnover rolling wheel sliding table.

Compared with the prior art, the invention has the beneficial effects that:

1. the battery cell pressing unit is an underactuated system, and has the advantages of simple structure, low cost and high-efficiency and stable operation.

2. According to the invention, the driving direction can be changed and the movement dimension of the cell pressing unit can be increased by arranging the driving roller and the roller guide lifting block.

3. According to the invention, the rotary rack and the rotary gear are arranged, so that linear motion can be converted into rotary motion, and the motion dimension of the cell pressing unit is increased.

4. According to the invention, by arranging the rotary pressing strip, various plastic packaging films including the aluminum plastic film and the toughened film keep the battery core stable in the folding process, and the folding precision is further improved.

Drawings

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

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of the structure of the present invention (II);

FIG. 3 is an enlarged schematic view of section A;

Fig. 4 is an enlarged schematic view of the portion B.

The device comprises a 200-push roller platform, a 210-push roller feeding driving source, a 211-push roller feeding guide rail, a 212-push roller feeding support, a 213-push roller feeding platform, a 214-push roller lifting platform, a 2140-push roller lifting driving source, a 215-push roller sliding table, a 2150-push roller sliding table notch, a 216-push roller driving source, a 217-push roller support, a 2170-push roller, a 218-pre-push plate driving source, a 219-pre-push plate, a 220-push roller lifting platform, a 221-push roller platform, a 222-push roller lifting driving source, a 223-push roller bar, a 240-turn edge pressing support, a 241-turn lifting driving source, a 242-turn sliding table driving source, a 243-turn edge pressing sheet, a 250-piezoelectric core support, a 251-piezoelectric core driving source, a 252-horizontal moving guide rail, a 253-horizontal moving support, a 2530-rotating rack, a 254-driving roller, a 255-vertical moving support, a 256-roller guiding lifting block, a 257-vertical moving guide rail, a 258-rotating rod, a 2580-rotating press bar, a 2581-rotating gear, a 2581-rotating reset spring, a 2590 and a 2590-reset spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, based on the embodiments of the present invention, which would be apparent to one of ordinary skill in the art without making any inventive effort, are within the scope of the present invention.

Examples

Referring to fig. 1 to 4, the invention discloses a battery packaging film pushing, rolling and core pressing mechanism, which comprises a pushing, rolling platform 200, a pushing, rolling and feeding unit, a plastic packaging film pressing unit and a battery core pressing unit.

Push roll feeding unit:

The push roll feeding unit includes a push roll feeding driving source 210, a push roll feeding guide rail 211, a push roll feeding support 212, a push roll feeding platform 213, a push roll lifting platform 214, a push roll lifting driving source 2140, a push roll sliding table 215, a push roll driving source 216, a push roll support 217, a push roll 2170, a pre-roll push plate driving source 218, a pre-roll push plate 219, a push roll lifting platform 220, a push roll boss 221, a push roll lifting driving source 222, and a push roll sliding bar 223.

The push-roll feed driving source 210 and the push-roll feed guide 211 are disposed at the lower side and the upper side of the push-roll platform 200, respectively, in the same direction. The push roller feed drive source 210 may be an electric cylinder, the motion of which is linear and smooth. The push roll feeding platform 213 is arranged on the push roll feeding guide rail 211, the push roll feeding bracket 212 is arranged on the push roll feeding platform 213, and the push roll feeding bracket 212 is connected with the moving end of the push roll feeding driving source 210. The push-roll feeding driving source 210 can drive the push-roll feeding platform 213 to move along the direction of the push-roll feeding guide rail 211.

The push roller lifting platform 214 is slidably disposed on the upper portion of the push roller feeding platform 213 by a slide bar. The push-roller lifting drive source 2140 is provided at the lower portion of the push-roller feeding stage 213. The push-roller lifting platform 214 is connected to the moving end of the push-roller lifting drive source 2140. The push-roller lifting driving source 2140 can drive the push-roller lifting platform 214 to move up and down.

The pushing roller sliding table 215 is disposed on the pushing roller lifting platform 214, and is used for placing the plastic packaging film. The side of the push roller sliding table 215 extending out of the push roller lifting platform 214 along the direction of the push roller feeding guide rail 211 is provided with a push roller sliding table notch 2150. The edge of pushing and folding roller sliding table gap 2150 is concave downwards and is used for bearing a battery, so that on one hand, plastic packaging films are prevented from deforming under the action of gravity of the battery, and on the other hand, the upper surface of pushing and folding roller sliding table 2150 is free of projections, and the plastic packaging films are smoother and more accurate in folding.

The pushing roller driving source 216 is disposed on the pushing lifting platform 214. A push roller bracket 217 is provided at the moving end of the push roller driving source 216. The pushing roller support 217 is provided with a pushing roller 2170. The pushing roller 2170 is attached to the upper surface of the pushing roller slide table 215. The width of the pushing roller 2170 is not smaller than the width of the plastic packaging film. The pushing roller 2170 may be a combination of a plurality of rollers arranged differently according to the process conditions required for different positions of the plastic packaging film. The pushing roller driving source 216 can drive the pushing roller support 217 to move in the direction of the pushing feeding guide rail 211, so that the pushing roller 2170 rolls and folds the plastic package film which is preliminarily folded in half. Compared with the traditional turning plate folding manner, the rolling folding enables the plastic packaging film to be folded in half with higher precision, two folded edges can be flush, and reliability of the battery is improved.

The pre-folding push plate driving source 218 is disposed at the moving end of the push-folding roller driving source 216. The moving end of the prefolding push plate driving source 218 is provided with a prefolding push plate 219. The pre-folding push plate 219 is located above the push-folding roller 2170. The pre-folding push plate driving source 218 can drive the pre-folding push plate 219 to move in the direction of the push roll feeding guide rail 211. The pre-folding push plate 219 can fold the plastic packaging film separated by a larger angle into a smaller angle by taking the surface attached to the pushing folding roller sliding table 215 as a reference, so that the precision of the pushing folding roller 2170 in rolling and folding the plastic packaging film can be improved. The pre-folding push plate driving source 218 is arranged on the pushing folding roller driving source 216, so that the pre-folding push plate 219 and the pushing folding roller 2170 can synchronously move, the stroke of the pre-folding push plate driving source 218 is reduced, the cost is reduced, and the precision is improved.

The bottom of the push-folding lifting platform 220 is vertically provided with a push-folding sliding bar 223, and the push-folding sliding bar 223 is arranged on the push-rolling platform 200 in a penetrating manner. The bottom of the push roller platform 200 is provided with a push-fold lifting driving source 222, and the moving end of the push-fold lifting driving source 222 is connected with the push-fold lifting platform 220. The upper surface of the push-folding lifting platform 220 is provided with a push-folding lug 221, and the side of the push-folding lug away from the push-folding roller sliding table 215 is provided with a barrier strip. The pushing and lifting driving source 222 can drive the pushing and lifting platform 220 to move up and down. When the plastic packaging film is rolled, the pushing and folding convex blocks 221 are filled in the pushing and folding roller sliding table gaps 2150, the upper surfaces of the pushing and folding convex blocks 221 and the pushing and folding roller sliding table gaps 2150 are positioned in the same plane, and the upper surfaces of the blocking strips of the pushing and folding convex blocks 221 and the upper surfaces of the pushing and folding roller sliding tables 215 are positioned in the same plane. The pushing and folding convex blocks 221 can support the battery cells, so that the battery cells are prevented from being deformed due to pressure during rolling and folding, and the folding precision of the plastic packaging film and the reliability of the battery cells are affected. After the plastic packaging film is rolled, the push-folding lifting platform 220 can descend, so that the push-folding roller sliding table 215 smoothly passes through to finish feeding.

And (3) a plastic packaging film pressing unit:

The plastic package film pressing unit comprises a turnover edge pressing bracket 240, a turnover lifting driving source 241, a turnover sliding table driving source 242 and a turnover edge pressing sheet 243.

The overturning edge pressing bracket 240 is disposed on the push roller platform 200. The overturning lifting driving source 241 is disposed on the overturning edge pressing bracket 240 in the vertical direction. The flip slide driving source 242 is provided at the moving end of the double lift driving source 241. The flip chip 243 is a sheet shape, and is provided at the moving end of the flip slide driving source 242. Before the plastic packaging film is pre-folded, the overturning sliding table driving source 242 can drive the overturning edge pressing sheet 243 to move towards the direction of the pushing and folding lifting platform 220, so that the overturning edge pressing sheet 243 is just above the folding line of the plastic packaging film; the overturning lifting driving source 241 can drive the overturning edge pressing piece 243 to move downwards, so that the overturning edge pressing piece 243 is tightly pressed on the plastic packaging film. After the roll-over is completed, the turn-over crimping pieces 243 are sequentially retracted. The plastic packaging film pressing unit can fix the plastic packaging film in the pre-folding and rolling processes, and improves the folding precision of the plastic packaging film. The plastic packaging film pressing units can be symmetrically arranged with the pushing and folding lifting platform 220 as a center, so that the contact surface between the overturning edge pressing sheet 243 and the plastic packaging film is smaller, and the influence of the overturning edge pressing sheet on the folding and laminating degree of the plastic packaging film is reduced.

Cell pressing unit:

The cell pressing unit includes a cell holder 250, a cell driving source 251, a horizontal moving rail 252, a horizontal moving holder 253, a rotating rack 2530, a driving roller 254, a vertical moving holder 255, a roller guide elevating block 256, a vertical moving rail 257, a rotating lever 258, a rotating bead 2580, a rotating gear 2581, a horizontal return spring 2590, and a vertical return spring 2591.

The piezoelectric core supporter 250 is disposed on the push roller platform 200. The horizontal moving rail 252 is horizontally disposed on the piezoelectric core holder 250, and the vertical moving rail 257 is vertically disposed on the piezoelectric core holder 250. The piezoelectric core driving source 251 is disposed on the piezoelectric core holder 250 in a direction of the horizontal moving rail 252. The horizontal movement bracket 253 and the vertical movement bracket 255 are provided on the horizontal movement rail 252 and the vertical movement rail 257, respectively. The horizontal moving bracket 253 is connected with the piezoelectric core driving source 251, a horizontal reset spring 2590 is arranged between the horizontal moving bracket 253 and the piezoelectric core bracket 250, and the rotary rack 2530 and the driving roller 254 are arranged on the horizontal moving bracket 253. The roller guide elevating block 256 is disposed at the bottom of the vertical moving bracket 255, and includes an upper bottom surface, a lower bottom surface, and inclined surfaces between the upper bottom surface and the lower bottom surface at different heights, the inclined surfaces and the bottom surfaces having gentle transition areas, and the roller guide elevating block 256 is in contact with the wheel surface of the driving roller 254. A vertical return spring 2591 is provided between the vertical movement bracket 255 and the piezoelectric core bracket 250. The rotating rod 258 is disposed on the vertical moving support 255 along the vertical direction, and the upper and lower ends thereof are respectively provided with a rotating pressing bar 2580 and a rotating gear 2581, the rotating pressing bar 2580 is in a sheet shape, and the rotating gear 2581 and the rotating rack 2530 are engaged. After the battery cell is placed on the pushing and folding convex block 221, the battery cell driving source 251 pushes the horizontal moving bracket 253 to move; the driving roller 254 moves at the inclined surface of the roller guide lifting block 256 to drive the vertical moving bracket 255 to move up and down; the rotary rack 2530 rotates the rotary gear 2581 in the horizontal plane, thereby rotating the rotary batten 2580. The lifting speed and the lifting distance can be controlled by changing the inclined angle and the length of the roller guide lifting block 256, the lifting time can be controlled by changing the length of the upper bottom surface or the lower bottom surface of the roller guide lifting block 256, and the rotation time and the rotation angle of the rotary pressing bar 2580 can be controlled by arranging a toothless area on the rotary rack 2530, so that the rotary pressing bar 2580 can press the battery core, the battery core can be kept motionless in the folding process of the plastic packaging film, and the folding precision is improved. The horizontal return spring 2590 and the vertical return spring 2591 can return the horizontal movement bracket 253 and the vertical movement bracket 255, respectively, after the piezoelectric core driving source 251 is retracted. The battery cell pressing unit is an underactuated system, can perform vertical movement and rotary movement under the condition of only one horizontal driving source, and is efficient and stable in movement, low in cost and convenient to maintain and replace.

The working process comprises the following steps: the pushing roll feeding driving source 210 drives the pushing roll roller sliding table 215 to move, and the pushing roll lifting driving source 2140 drives the pushing roll lifting platform 214 to lift, so that the pushing roll boss 221 is just filled in the pushing roll roller sliding table gap 2150; placing the plastic packaging film on the pushing and folding roller sliding table 215, and placing the battery cell on the pushing and folding boss 221; the overturning edge pressing sheet 243 presses the plastic packaging film from the doubling line, and the rotating pressing bar 2580 presses the battery cell; the pre-folding push plate 219 advances to reduce the opening angle of the plastic packaging film; the pushing roller support 217 advances, and the pushing roller 2170 presses the folded plastic packaging films together; after pressing, the overturning edge pressing sheet 243 and the rotating pressing bar 2580 are retracted, the push-folding lifting platform 220 descends, and the push-folding roller sliding table 215 continues to advance for feeding; after the feeding is completed, all units are reset, and the next cycle is continued.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The pushing, rolling and core pressing mechanism for the battery packaging film is characterized by comprising a pushing, rolling platform and a battery core pressing unit arranged on the pushing, rolling and platform;

The electric core pressing unit comprises a piezoelectric core support, a piezoelectric core driving source, a horizontal moving support and a vertical moving support, wherein the piezoelectric core driving source, the horizontal moving support and the vertical moving support are arranged on the piezoelectric core pressing unit, the moving end of the piezoelectric core driving source is connected with the horizontal moving support, a driving roller and a rotary rack are arranged on the horizontal moving support, a roller guiding lifting block and a rotary rod are arranged on the vertical moving support, a rotary gear and a rotary pressing strip are respectively arranged at two ends of the rotary rod, the driving roller is contacted with the roller guiding lifting block, and the rotary rack is meshed with the rotary gear;

the roller guide lifting block comprises an upper bottom surface, a lower bottom surface and inclined surfaces positioned between the upper bottom surface and the lower bottom surface which are positioned at different heights, the inclined surfaces and the bottom surfaces are provided with gentle transition areas, and the roller guide lifting block is contacted with the wheel surface of the driving roller;

The pushing roll feeding unit comprises a pushing roll roller sliding table, a pushing roll roller and a pushing roll lifting platform, wherein the pushing roll roller sliding table is driven by a driving source, the pushing roll roller is attached to the pushing roll roller sliding table to roll, a pushing roll roller sliding table notch is formed in the pushing roll roller sliding table, a pushing roll boss capable of being filled in the pushing roll roller sliding table notch is arranged on the pushing roll lifting platform, the edge of the pushing roll roller sliding table notch is sunken downwards, and the upper surface of the notch and the upper surface of the pushing roll boss are located in the same plane;

The plastic package film pressing unit is arranged on the pushing and rolling platform and comprises a turnover edge pressing support arranged on the pushing and rolling platform, a turnover sliding table driving source arranged on the turnover edge pressing support and a turnover edge pressing sheet which is arranged at the motion end of the turnover sliding table driving source and can extend into the upper surface of the turnover rolling wheel sliding table.

2. The battery packaging film pushing, rolling and core pressing mechanism according to claim 1, wherein a vertical moving guide rail is arranged between the vertical moving support and the piezoelectric core support along the vertical direction.

3. The battery packaging film pushing, rolling and core pressing mechanism according to claim 2, wherein a vertical return spring is arranged between the vertical moving support and the piezoelectric core support along the vertical direction.

4. The battery packaging film pushing, rolling and core pressing mechanism according to claim 1, wherein a horizontal moving guide rail is arranged between the horizontal moving support and the piezoelectric core support along the driving direction of the piezoelectric core driving source.

5. The battery packaging film pushing, rolling and core pressing mechanism according to claim 4, wherein a horizontal reset spring is arranged between the horizontal moving support and the piezoelectric core support along the driving direction of the piezoelectric core driving source.

6. The battery packaging film push-roll core mechanism of claim 1, wherein the rotating rack has a toothless area.

7. The battery packaging film push-roll core mechanism of claim 1, wherein the rotary bead is sheet-like.