CN220382198U

CN220382198U - Device for scalding insulating film on top surface of battery

Info

Publication number: CN220382198U
Application number: CN202321538661.0U
Authority: CN
Inventors: 何建军; 晏才维; 林盛宇
Original assignee: Shenzhen Yuchen Intelligent Equipment Co Ltd
Current assignee: Shenzhen Yuchen Intelligent Equipment Co Ltd
Priority date: 2023-06-15
Filing date: 2023-06-15
Publication date: 2024-01-23
Anticipated expiration: 2033-06-15

Abstract

The utility model provides a battery top surface insulating film scalding device which comprises a battery carrier, two sets of battery side surface clamping mechanisms, a battery bottom surface supporting mechanism and a top surface scalding mechanism. The battery carrier is used for carrying the battery; the two sets of battery side clamping mechanisms are used for clamping the front side and the rear side of the battery; the battery bottom surface supporting and holding mechanism is used for supporting and tightly pressing the bottom surface of the battery, and the top surface scalding mechanism is used for scalding the insulating film on the top surface of the battery. After the side surface and the bottom surface of the battery are clamped and fixed, the top surface scalding mechanism can thermally scald the insulating film on the top surface of the battery, so that the insulating film folded and pasted on the edge of the top surface of the battery is tightly pasted on the top surface of the battery, and the supporting and positioning of the battery and the scalding of the insulating film on the top surface are both realized by an automatic mechanism, so that the scalding efficiency is high.

Description

Device for scalding insulating film on top surface of battery

Technical Field

The utility model belongs to the technical field of battery manufacturing equipment, and particularly relates to a battery top surface insulating film scalding device.

Background

A square battery (hereinafter referred to as battery), please see fig. 1, is divided into six housing surfaces of a top surface 11, a bottom surface (not shown), an upper large surface 12, a lower large surface (not shown), a front side surface (not shown) and a rear side surface 13 according to the forward side posture of the battery; the center line of the top surface 11 (the exposed surface of the top cover) of the conventional battery is provided with a positive pole 14, an explosion-proof window 15, a liquid injection port 16 and a negative pole 17 from front to back. In the process of manufacturing the battery, insulating films (sheets) are required to be coated on six shell surfaces of a metal shell of the bare cell, so that the bare cell is a coated battery to play a role in electrical isolation (insulation) and also play a role in corrosion prevention and decoration. According to the film coating form that the film coating batteries are close to each other and are in contact with the film coating shell when the battery module is assembled, the film coating forms of the six shell surfaces are determined, the top surface 11 of the battery is distributed with a positive pole column 14, an explosion-proof window 15, a liquid injection port 16 and a negative pole column 17, and is a covered bare surface, and the upper large surface 12, the lower large surface (not shown), the front side surface (not shown), the rear side surface 13 and the bottom surface (not shown) of the battery are all covered with insulating films, and the bare whole surface of the shell surface is not covered; if one or some of the upper large surface 12, the lower large surface (not shown), the front side surface (not shown), the rear side surface 13 and the bottom surface (not shown) of the battery have no insulation requirement when the battery module is assembled, and only the other surface or surfaces have insulation requirement, the other surface or surfaces need to be coated into a full-coated surface, and the one or more surfaces can only coat the edge of the surface while the middle part of the surface keeps the exposed half-coated surface of the shell surface, so that the insulation film material is saved.

Typical insulating film materials are made in two forms: the insulating films Zhang Diefang are stacked together and supplied as a double-layered film roll on a roll, and the insulating film roll is supplied as a double-layered film roll. The insulating film sheet can be used after being torn off before the film is coated, and the insulating film strip is required to be peeled off before the film is coated and cut into insulating film strip sections in the film coating process. The insulating film is called as an insulating film at the position where the insulating film sheet and the insulating film belt section are not needed to be distinguished, the insulating film (sheet) is made of polyethylene terephthalate (also called as PET), the insulating film is generally 0.08-0.15 mm thick, and the insulating sheet is generally 0.15-0.5 mm thick, so that the insulating film has excellent insulativity, high temperature resistance, flame retardance, heat dissipation and stretching rigidity; the adhesive is a polymer adhesive (one or more of polyvinylidene fluoride-hexafluoropropylene copolymer, polyvinylidene fluoride, polymethyl methacrylate, polyethylene oxide, polyacrylonitrile, polystyrene, polyvinyl acetate and polyvinylpyrrolidone) with thickness of 0.01-0.05 mm, can be accelerated to solidify when being irradiated by Ultraviolet (UV), and has excellent insulativity, high temperature resistance, flame retardance, heat dissipation and adhesiveness; the release film is made of polyethylene (also called PE) and is generally 0.05-0.1 mm thick.

The form of the six shell surfaces of the battery is pasted by adopting an insulating film tape: taking some of the facing surfaces to be the facing surfaces, and the rest of the facing surfaces to be the folded facing surfaces by folding the insulating film extending from the facing surfaces.

In the prior art, an insulating film is paved on some shell surfaces of a battery, and then an insulating film belt is cut off in the film pasting process; before folding and pasting, notches are formed or a section is cut off on the insulating film extending out of four corners of the bottom surface of the battery near the four corners, so that the situation that the glue preparation surfaces of the insulating film in folding and pasting are forced to overlap all the glue preparation surfaces is avoided, the insulating film cannot be pasted to the surface of the battery shell, and folding and pasting are carried out, and warping is generated; finally, the insulating sheet is attached to the top surface of the battery.

Battery coating requirements:

1. the battery is covered with six shell surfaces according to the requirement, the top surface of the battery is generally a naked surface, and the upper large surface, the lower large surface, the front side surface, the rear side surface and the bottom surface of the battery are all fully covered surfaces; or the upper large surface, the lower large surface, the front side surface, the rear side surface and the bottom surface of the battery are all covered surfaces, and the rest part is half covered surfaces;

2. film sticking precision is +/-1 mm;

3. no exposure (except intentional exposure), glue spreading, air bubbles, wrinkles, corners, cockling, scratches, and dirt.

4. The coating insulation requirement is that the creepage distance from any point on the coating surface (except the top surface) of the battery after coating to the shell surface of the battery is not less than 4mm, and 4mm is called as the minimum safe creepage distance. Therefore, the shortcut (the sum of a straight line distance or the shortest multi-section straight line distance) of the bonding area where the film and the film are overlapped, which is required to pass through, reaches any point on the edge of the exposed edge (including the original edge, the cutting edge, the notch edge and the notch edge of the insulating film) of the full wrapping surface, namely the wrapping surface is called the creepage distance from the film edge to the shell surface, and the creepage distance is required to be more than or equal to 4mm; any shell surface of the full wrapping surface reaching the whisker bare surface or the half wrapping surface needs to pass through a shortcut (sum of a section of straight line distance or the shortest multi-section of straight line distance) from a film of the full wrapping surface to a bonding area of the whisker bare surface or the half wrapping surface, and the creepage distance from the full wrapping surface to the shell surface of the different whisker bare surface or the half wrapping surface needs to be more than or equal to 4mm.

5. The length and width dimensions are not significantly increased so as not to affect future battery modules.

According to the film pasting forms and the pasting sequences of six shell surfaces of the battery, the films are divided into U-shaped films and back-shaped films so as to meet the requirements of various types of batteries and meet the requirements of matching the film bandwidth with the size of the battery.

The insulating film 20 is first attached to one bottom surface and two large surfaces of the battery 10 in a U-shape, then the insulating film extending from the large surface of the battery and abutting against the side surface of the battery is folded and attached to the side surface of the battery 10, then the insulating film extending from the two large surfaces and two side surfaces of the battery and abutting against the top surface of the battery is folded and attached to the top surface of the battery 10, and the insulating films extending from the front and rear side edges of the bottom surface of the battery are folded and attached to the two side surfaces of the battery 10 (as shown in fig. 2). After the above film attaching process is completed, the insulating film 20 folded and attached to the edge of the top surface of the battery 10 is also required to be heat-pressed so that the insulating film 20 is attached to the top surface of the battery 10. For this reason, it is necessary to provide an automatic ironing device specifically for the insulating film on the top surface of the battery.

Disclosure of Invention

The utility model aims to provide a battery top surface insulating film scalding device, which can enable an insulating film folded and stuck to the edge of the battery top surface to be stuck to the battery top surface in a scalding mode.

The utility model is realized in such a way that the device for scalding the insulating film on the top surface of the battery comprises a battery carrier, a battery side clamping mechanism, a battery bottom surface supporting mechanism and a top surface scalding mechanism;

the battery carrier is used for carrying the battery;

the battery side clamping mechanism is provided with two battery side clamping jaws which are respectively positioned at the front side and the rear side of the battery carrier, and the two battery side clamping jaws are respectively used for clamping the front side and the rear side of the battery;

the battery bottom surface supporting mechanism and the top surface scalding mechanism are respectively positioned at the left side and the right side of the battery carrier, the battery bottom surface supporting mechanism is used for supporting the bottom surface of the battery, and the top surface scalding mechanism is used for scalding an insulating film folded and stuck on the top surface of the battery;

the top surface scalding mechanism comprises a top surface scalding driving and reversing assembly and a scalding assembly, the scalding assembly is fixed at the output end of the top surface scalding driving and reversing assembly, the top surface scalding driving and reversing assembly can drive the scalding assembly to horizontally translate and approach the battery carrier, and the heating end of the scalding assembly horizontally faces the top surface of the battery on the battery carrier and is used for propping and pressing an insulating film on the edge of the top surface of the battery.

Further, the top surface scalding and advancing and retreating assembly comprises a top surface scalding and retreating installation seat, a top surface scalding and retreating driving piece, a top surface scalding and retreating sliding group and a top surface scalding and retreating sliding frame; the top surface scalding driving and reversing installation seat is positioned on one side of the battery carrier, the output end of the top surface scalding driving and reversing driving piece and the sliding rail of the top surface scalding driving and reversing sliding group are fixed on the top surface scalding driving and reversing installation seat, the top surface scalding driving and reversing sliding frame is fixed on the sliding block of the top surface scalding driving and reversing sliding group, the driving body of the top surface scalding driving and reversing driving piece is fixed in the top surface scalding driving and reversing sliding frame, and the scalding assembly is fixed on the top surface scalding driving and reversing sliding frame.

Further, the scalding assembly comprises a scalding mounting plate, a scalding heat insulation plate, a heating plate and a scalding plate; the utility model discloses a solar cell, including the solar cell, the solar cell includes the solar cell mounting panel, the solar cell mounting panel the solar cell heat insulating board the solar cell board the heating board with the solar cell board overlaps in proper order, the solar cell mounting panel is fixed on the top surface hot advance and retreat balladeur train, the solar cell panel is used for the top pressure to scald the insulating film at the edge of battery top surface, the solar cell panel middle part fretwork in order to keep away the positive pole and the negative pole at battery top.

Further, the battery side clamping mechanism further comprises a side clamping driving piece, two side clamping sliding groups and two side clamping sliding plates; the sliding rails of the two groups of side clamping sliding groups are respectively positioned at the front side and the rear side of the side clamping driving piece, the two output ends of the side clamping driving piece are respectively connected with one ends of the two side clamping sliding plates, the sliding blocks of the two groups of side clamping sliding groups are respectively connected with the other ends of the two side clamping sliding plates, and the two battery side clamping jaws are respectively fixed on the two side clamping sliding plates; the side clamping driving piece can drive the two side clamping sliding plates to respectively bring the two battery side clamping jaws to be close to the front side and the rear side of the battery carrier.

Further, each of the battery side clamping jaws comprises a battery side clamping jaw carriage, a scalding side clamping jaw mounting plate and a scalding side clamping jaw; the battery side clamping jaw sliding frame is fixed on the side clamping sliding plate, the scalding side clamping jaw mounting plate is fixed on the battery side clamping jaw sliding frame, the scalding side clamping jaw is fixed on one side wall of the scalding side clamping jaw mounting plate, which is close to the battery carrier, and a clamping groove is formed in one side wall of the scalding side clamping jaw, which is close to the battery carrier, and the shape of the clamping groove is matched with that of the side part of the battery.

Further, the battery bottom surface supporting mechanism comprises a bottom surface supporting base, a bottom surface supporting driving piece and a bottom surface supporting pressing block; the bottom surface supporting and driving piece is horizontally fixed on the bottom surface supporting base, the bottom surface supporting pressing block is fixed at the output end of the bottom surface supporting and driving piece, and the bottom surface supporting pressing block is used for supporting and pressing the bottom surface of the positioning battery.

The utility model has the beneficial effects that:

the utility model discloses a battery top surface insulating film scalding device, which is provided with a battery side surface clamping mechanism, a battery bottom surface supporting mechanism and a top surface scalding mechanism; the battery side clamping mechanism can clamp the front side part and the rear side part of the battery, the battery bottom surface supporting mechanism can jack the bottom surface of the battery, when the battery side surface and the bottom surface are clamped and fixed, the top surface scalding mechanism can thermally scald the insulating film on the top surface of the battery, so that the insulating film folded and pasted on the edge of the top surface of the battery is tightly pasted on the top surface of the battery, the positioning of the front side part and the rear side part of the battery and the bottom surface and the scalding of the insulating film on the top surface of the battery are automatically realized, and the scalding efficiency is high.

Drawings

Fig. 1 is a schematic structural view of a battery;

FIG. 2 is a schematic view of the top surface of the battery after the insulating film is folded;

fig. 3 is a schematic structural diagram of a device for ironing an insulating film on a top surface of a battery according to an embodiment of the present utility model;

FIG. 4 is a schematic view of the structure of a battery carrier base and a battery side clamping mechanism in the battery top surface insulating film blanching device shown in FIG. 3;

fig. 5 is a schematic view of the structure of the top surface ironing mechanism in the battery top surface insulating film ironing device shown in fig. 3.

The attached drawings are used for identifying and describing:

10-battery; 11-top surface; 12-upper large face; 13-rear side; 14-positive electrode posts; 15-an explosion-proof window; 16-a liquid injection port; 17-a negative electrode column;

20-an insulating film;

100-battery carrier base;

200-battery carrier;

300-battery side clamping mechanism, 310-side clamping drive, 320-side clamping slide set, 330-side clamping slide plate, 340-battery side clamping jaw, 341-battery side clamping jaw carriage, 342-blanching side clamp mounting plate, 343-blanching side clamp, 3431-clamping groove;

400-battery bottom surface supporting mechanism, 410-bottom surface supporting base, 420-bottom surface supporting driving piece, 430-bottom surface supporting pressing block;

500-top surface scalding mechanism, 510-top surface scalding forward and backward assembly, 511-top surface scalding forward and backward mounting seat, 512-top surface scalding forward and backward driving member, 513-top surface scalding forward and backward sliding group, 514-top surface scalding forward and backward sliding frame, 515-top surface scalding forward and backward sliding frame limiting member, 520-scalding assembly, 521-scalding mounting plate, 522-scalding heat insulation plate, 523-heating plate and 524-scalding plate.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", etc., are based on those shown in the drawings, are merely for convenience of description and simplification of the description, and do not indicate or imply that the apparatus or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present utility model; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, 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 directly connected or indirectly connected through an intermediate medium, and can be the communication between the two parts. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 3, a device for ironing an insulating film on a top surface of a battery provided in this embodiment includes a battery carrier base 100, a battery carrier 200, two sets of battery side clamping mechanisms 300, a battery bottom surface supporting mechanism 400, and a top surface ironing mechanism 500.

The battery carrier 200 and the battery side clamping mechanism 300 are both fixed on top of the battery carrier base 100, and the battery carrier 200 is used for carrying the battery 10.

The battery side clamping mechanism 300 is provided with two battery side clamping jaws 340, the two battery side clamping jaws 340 are respectively located at the front side and the rear side of the battery carrier 200, and the two battery side clamping jaws 340 are respectively used for clamping the front side and the rear side of the battery 10. The battery bottom surface supporting mechanism 400 and the top surface ironing mechanism 500 are respectively positioned at the left side and the right side of the battery carrier 200, the battery bottom surface supporting mechanism 400 is used for supporting the bottom surface of the battery 10, and the top surface ironing mechanism 500 is used for ironing the insulating film 20 folded and stuck on the top surface 11 of the battery 10.

The battery side clamping mechanism 300 further includes a side clamping drive 310, two sets of side clamping slide sets 320, and two side clamping slide plates 330; the side clamping driving piece 310 and the sliding rails of the two groups of side clamping sliding groups 320 are horizontally fixed at the top of the battery carrier base 100, the sliding rails of the two groups of side clamping sliding groups 320 are respectively positioned at the front side and the rear side of the side clamping driving piece 310, two output ends of the side clamping driving piece 310 are respectively connected with one ends of the two side clamping sliding plates 330, the sliding blocks of the two groups of side clamping sliding groups 320 are respectively connected with the other ends of the two side clamping sliding plates 330, and the two battery side clamping jaws 340 are respectively fixed on the two side clamping sliding plates 330; the side clamping drive 310 can drive two side clamping slides 330 with two battery side clamping jaws 340, one near each of the front and rear sides of the battery carrier 200.

Referring to fig. 4, each battery side jaw 340 includes a battery side jaw carriage 341, a blanching side clamp mounting plate 342, and a blanching side clamp 343. The battery side clamping jaw sliding frame 341 is fixed on the side clamping sliding plate 330, the scalding side clamping jaw mounting plate 342 is fixed on the battery side clamping jaw sliding frame 341, the scalding side clamping jaw 343 is fixed on one side wall of the scalding side clamping jaw mounting plate 342, which is close to the battery carrier 200, a clamping groove 3431 is formed in one side wall of the scalding side clamping jaw 343, which is close to the battery carrier 200, and the shape of the clamping groove 3431 is matched with that of the side part of the battery 10.

The battery bottom surface holding mechanism 400 includes a bottom surface holding base 410, a bottom surface holding advance and retreat driving member 420, and a bottom surface holding press block 430. The bottom supporting driving member 420 is horizontally fixed on the bottom supporting base 410, the bottom supporting pressing block 430 is fixed at the output end of the bottom supporting driving member 420, and the bottom supporting pressing block 430 is used for supporting and pressing the bottom of the positioning battery 10.

The top surface blanching mechanism 500 includes a top surface blanching advance and retreat assembly 510 and a blanching assembly 520; the heat pressing component 520 is fixed on the output end of the top surface heat pressing and advancing component 510, and the top surface heat pressing and advancing component 510 can drive the heat pressing component 520 to horizontally translate to be close to the battery carrier 200, and the heating end of the heat pressing component 520 horizontally faces the top surface 11 of the battery 10 on the battery carrier 200 and is used for pressing the insulating film 20 pressing the edge of the top surface 11 of the battery 10.

Specifically, referring to fig. 5, the top surface heat wave advancing and retreating assembly 510 includes a top surface heat wave advancing and retreating mount 511, a top surface heat wave advancing and retreating drive member 512, a top surface heat wave advancing and retreating slide group 513, a top surface heat wave advancing and retreating carriage 514, and a top surface heat wave advancing and retreating carriage limit member 515; the top surface heat advancing and retreating mounting seat 511 is located on one side of the battery carrier 200, the output end of the top surface heat advancing and retreating driving member 512 and the sliding rail of the top surface heat advancing and retreating sliding group 513 are fixed on the top surface heat advancing and retreating mounting seat 511, the top surface heat advancing and retreating sliding frame 514 is fixed on the sliding block of the top surface heat advancing and retreating sliding group 513, the driving member of the top surface heat advancing and retreating driving member 512 is fixed in the top surface heat advancing and retreating sliding frame 514, the top surface heat advancing and retreating sliding frame limiting member 515 is horizontally fixed on one side of the top surface heat advancing and retreating mounting seat 511 close to the battery carrier 200, the buffer end of the top surface heat advancing and retreating sliding frame limiting member 515 faces the top surface heat advancing and retreating sliding frame 514, the top surface heat advancing and retreating sliding frame limiting member 514 is used for limiting the top surface heat advancing and retreating mounting seat 511, and the top surface heat advancing and retreating sliding frame 514 is limited to move continuously close to the battery carrier 200 when the top surface heat advancing and retreating sliding frame limiting member 515 contacts with the top surface heat advancing and retreating sliding frame 514.

Specifically, the heat stake assembly 520 includes a heat stake mounting plate 521, a heat stake thermal shield 522, a heat generating plate 523 and a heat stake plate 524; the scalding mounting plate 521, the scalding thermal insulation plate 522, the heating plate 523 and the scalding plate 524 are sequentially spliced, the scalding mounting plate 521 is fixed on the top surface scalding advancing and retreating carriage 514, the scalding plate 524 is used for propping and pressing the insulating film 20 at the edge of the top surface 11 of the scalding battery 10, and the middle part of the scalding plate 524 is hollowed out so as to avoid the positive pole 14 and the negative pole 17 (as well as the explosion-proof window 15 and the liquid injection port 16 between the positive pole 14 and the negative pole 17) at the top of the battery 10. The heat insulating plate 522 is used for insulating the heat generated by the heat generating plate 523 from being transmitted to the heat mounting plate 521, the edge of the heat generating plate 523 is provided with a heat generating element, the arrangement shape of the heat generating element is the same as that of the heat generating plate 524, the heat generated by the heat generating plate 523 is transmitted to the heat generating plate 524, and the heat generating plate 524 is used for pressing the insulating film 20 at the edge of the top surface 11 of the heat generating battery 10.

The battery top surface insulating film scalding device of the embodiment is provided with a battery side surface clamping mechanism 300, a battery bottom surface supporting mechanism 400 and a top surface scalding mechanism 500; the battery side clamping mechanism 300 can clamp the front and rear two sides of the battery 10, the battery bottom supporting mechanism 400 can tightly support the bottom of the battery 10, when the side and the bottom of the battery 10 are clamped and fixed, the top surface scalding mechanism 500 can thermally scald the insulating film 20 of the top surface 11 of the battery 10, so that the insulating film 20 folded and adhered to the edge of the top surface 11 of the battery 10 is tightly adhered to the top surface 11 of the battery 10, the positioning of the front and rear two sides and the bottom of the battery 10 and the scalding of the insulating film 20 of the top surface 11 are automatically realized, and the scalding efficiency is high.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims

1. The device is characterized by comprising a battery carrier, a battery side clamping mechanism, a battery bottom supporting mechanism and a top surface scalding mechanism;

the battery carrier is used for carrying the battery;

2. The apparatus for ironing a top surface insulating film of a battery according to claim 1, wherein the top surface ironing advance and retreat assembly comprises a top surface ironing advance and retreat mount, a top surface ironing advance and retreat drive, a top surface ironing advance and retreat slide group, and a top surface ironing advance and retreat carriage; the top surface scalding driving and reversing installation seat is positioned on one side of the battery carrier, the output end of the top surface scalding driving and reversing driving piece and the sliding rail of the top surface scalding driving and reversing sliding group are fixed on the top surface scalding driving and reversing installation seat, the top surface scalding driving and reversing sliding frame is fixed on the sliding block of the top surface scalding driving and reversing sliding group, the driving body of the top surface scalding driving and reversing driving piece is fixed in the top surface scalding driving and reversing sliding frame, and the scalding assembly is fixed on the top surface scalding driving and reversing sliding frame.

3. The battery top surface insulating film scalding device of claim 1, wherein the scalding assembly comprises a scalding mounting plate, a scalding heat insulating plate, a heating plate and a scalding plate; the utility model discloses a solar cell, including the solar cell, the solar cell includes the solar cell mounting panel, the solar cell mounting panel the solar cell heat insulating board the solar cell board the heating board with the solar cell board overlaps in proper order, the solar cell mounting panel is fixed on the top surface hot advance and retreat balladeur train, the solar cell panel is used for the top pressure to scald the insulating film at the edge of battery top surface, the solar cell panel middle part fretwork in order to keep away the positive pole and the negative pole at battery top.

4. The battery top surface insulating film scalding device of claim 1, wherein the battery side clamping mechanism further comprises a side clamping driving piece, two side clamping slide groups and two side clamping slide plates; the sliding rails of the two groups of side clamping sliding groups are respectively positioned at the front side and the rear side of the side clamping driving piece, the two output ends of the side clamping driving piece are respectively connected with one ends of the two side clamping sliding plates, the sliding blocks of the two groups of side clamping sliding groups are respectively connected with the other ends of the two side clamping sliding plates, and the two battery side clamping jaws are respectively fixed on the two side clamping sliding plates; the side clamping driving piece can drive the two side clamping sliding plates to respectively bring the two battery side clamping jaws to be close to the front side and the rear side of the battery carrier.

5. The battery top side insulating film scalding apparatus of claim 4, wherein each of said battery side jaws comprises a battery side jaw carriage, a scalding side clamp mounting plate, and a scalding side clamp; the battery side clamping jaw sliding frame is fixed on the side clamping sliding plate, the scalding side clamping jaw mounting plate is fixed on the battery side clamping jaw sliding frame, the scalding side clamping jaw is fixed on one side wall of the scalding side clamping jaw mounting plate, which is close to the battery carrier, and a clamping groove is formed in one side wall of the scalding side clamping jaw, which is close to the battery carrier, and the shape of the clamping groove is matched with that of the side part of the battery.

6. The battery top surface insulating film blanching device according to any one of claims 1 to 5, wherein the battery bottom surface holding mechanism includes a bottom surface holding base, a bottom surface holding advance and retreat driving member, and a bottom surface holding pressing block; the bottom surface supporting and driving piece is horizontally fixed on the bottom surface supporting base, the bottom surface supporting pressing block is fixed at the output end of the bottom surface supporting and driving piece, and the bottom surface supporting pressing block is used for supporting and pressing the bottom surface of the positioning battery.