CN216563249U - Top-sealing side-sealing tool for soft-package battery cell - Google Patents

Abstract

A top sealing and side sealing tool for a soft package battery cell comprises an upper end sealing mechanism and a lower end sealing mechanism which are arranged in a bracket; the upper end enclosure mechanism comprises an upper end enclosure which is arranged on one side of the upper end enclosure seat plate and can slide and lift along with the first air cylinder; a first linear guide rail is vertically arranged on the front side of the upper end socket base plate; a first high-temperature-resistant heat-insulating plate is arranged between the upper end enclosure heating plate and the upper end enclosure support, and a second high-temperature-resistant heat-insulating plate is arranged between the upper end enclosure support and the first linear guide rail; the lower end enclosure mechanism comprises a lower end enclosure which is arranged on one side of the lower end enclosure seat plate and can slide and lift along with the cylinder II, and the lower end enclosure corresponds to the upper end enclosure; a linear guide rail II is vertically arranged on the front side of the lower end socket base plate; and a third high-temperature-resistant heat-insulating plate is arranged between the lower end socket heating plate and the lower end socket support, and a fourth high-temperature-resistant heat-insulating plate is arranged between the lower end socket support and the linear guide rail II. The direction is effectual, and wearing and tearing are less, and double heat-insulating prevents effectively that linear guide from being heated the deformation, and then effectual control the encapsulation homogeneity and the roughness of electric core, has ensured the encapsulation qualification rate of electric core.

Description

Top-sealing side-sealing tool for soft-package battery cell

Technical Field

The utility model relates to the technical field of soft-package battery cell packaging, in particular to a top-sealing side-sealing tool for a soft-package battery cell.

Background

In recent years, with the rapid development of new energy automobile industry, the use of new energy automobiles is more and more popular. The battery module is one of the core components of a new energy automobile, and has a very high requirement on the production process, and the soft package battery core, which is one of the important components of the battery module, obviously needs to ensure high quality and safety for the packaging of the battery module.

In the prior art, the top-sealed side seal of a general soft-package battery cell is mostly packaged by using a guide pillar and a guide sleeve as a guide direction. The guide post and guide sleeve is directly connected with the end enclosure structure, although the guide post and guide sleeve is isolated by a heat insulation plate, a large amount of heat is still transferred to the guide post and guide sleeve, the guide post and guide sleeve is easy to wear under high-load operation, and the guide post is easy to deform under the conditions of high temperature and high load. The uniformity and the flatness of the top seal and the side seal of the battery core cannot be guaranteed by the method, and the good adjustment on the packaging effect cannot be carried out. Therefore, the novel top sealing and side sealing tool for the soft package battery core is provided.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides the top-sealing side-sealing tool for the soft-packaged battery cell, which has the advantages of simple structure, convenience in installation, high universality and better uniformity of top-sealing and side-sealing of the battery cell.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a top sealing and side sealing tool for a soft package battery cell comprises an upper end enclosure mechanism and a lower end enclosure mechanism which are arranged in a support;

the upper end enclosure mechanism comprises an upper end enclosure which is arranged on one side of the upper end enclosure seat plate and can slide and lift along with the first air cylinder;

a linear guide rail I for guiding the upper end enclosure is vertically arranged on the front side of the upper end enclosure seat plate;

the upper end enclosure comprises an upper end enclosure support fixedly connected with an upper sliding block of the linear guide rail I and an upper end enclosure heating plate arranged at the lower end part of the upper end enclosure support, a high-temperature-resistant heat insulation plate I is arranged between the upper end enclosure heating plate and the upper end enclosure support, and a high-temperature-resistant heat insulation plate II is arranged between the upper end enclosure support and the linear guide rail I;

the lower end enclosure mechanism comprises a lower end enclosure which is arranged on one side of the lower end enclosure seat plate and can slide and lift along with the cylinder II, and the lower end enclosure corresponds to the upper end enclosure;

a linear guide rail II for guiding the lower seal head is vertically arranged on the front side of the lower seal head seat plate;

the lower end enclosure comprises a lower end enclosure support fixedly connected with an upper sliding block of the linear guide rail II and a lower end enclosure heating plate arranged at the upper end part of the lower end enclosure support, a high-temperature-resistant heat-insulating plate III is arranged between the lower end enclosure heating plate and the lower end enclosure support, and a high-temperature-resistant heat-insulating plate IV is arranged between the lower end enclosure support and the linear guide rail II.

The support comprises two supporting plates arranged side by side, and a top plate and a bottom plate which can transversely move back and forth are respectively arranged on the upper end face and the lower end face of each supporting plate.

The upper end enclosure support is L-shaped, one end of the upper end enclosure support is fixed with a sliding block on the linear guide rail I through a high-temperature-resistant heat insulation plate II, an upper end enclosure base plate, a high-temperature-resistant heat insulation plate I, an upper end enclosure heating plate and an upper end enclosure template are sequentially arranged below the other end of the upper end enclosure support, and a cylinder fixing seat is arranged above the other end of the upper end enclosure support;

the lower end enclosure support is L-shaped, one end of the lower end enclosure support is fixed with the slide block on the linear guide rail II through the high-temperature-resistant heat insulation plate IV, a lower end enclosure base plate, a high-temperature-resistant heat insulation plate III, a lower end enclosure heating plate and a lower end enclosure template are sequentially arranged above the other end of the lower end enclosure support, and an air cylinder fixing seat is also arranged below the other end of the lower end enclosure support. The linear guide rail is ensured to be far away from the heating plate, and abrasion and deformation caused by overheating of the linear guide rail are avoided. The end socket heating plates of the upper end socket and the lower end socket are made of copper, so that parts can be dismounted on the front surface, and the parts can be replaced conveniently to meet the packaging requirements of different types of battery cells; meanwhile, a temperature sensing device is additionally arranged, and the temperature of the packaging area is monitored in real time, so that the packaging effect is better controlled.

And two end parts of the upper end socket base plate and the lower end socket base plate are respectively provided with a limiting block.

The middle parts of the back sides of the upper end socket base plate and the lower end socket base plate are respectively provided with a reinforcing plate, the reinforcing plates are horizontally arranged along the length direction, and two end parts of each reinforcing plate protrude out of two side surfaces of the corresponding upper end socket base plate/lower end socket base plate; the two supporting plates are symmetrically provided with long grooves for guiding the two reinforcing plates, two end parts of the two reinforcing plates are slidably supported in the corresponding long grooves on the two supporting plates, and the long grooves can be used as auxiliary guide for forward and backward adjustment, can bear the weight of the end socket and prevent the seat plates of the upper end socket and the lower end socket from deforming.

Four front and rear adjusting blocks are fixed on opposite surfaces of the two supporting plates, the four front and rear adjusting blocks are symmetrically arranged on two end parts of the reinforcing plate in pairs, and each front and rear adjusting block is provided with a positioning adjusting bolt; the front and rear adjusting block adjusts the upper end enclosure mechanism and the lower end enclosure mechanism front and rear through the positioning adjusting bolt;

two side end faces of the upper end socket base plate and the lower end socket base plate are respectively provided with a bolt hole, waist-shaped long holes corresponding to the bolt holes are formed in the two supporting plates, and bolts sequentially penetrate through the corresponding waist-shaped long holes and the corresponding bolt holes to fix the upper end socket base plate and the lower end socket base plate between the two supporting plates.

A left adjusting block and a right adjusting block are arranged on one side of the upper end socket base plate and one side of the lower end socket base plate, and adjusting bolts for adjusting the left position and the right position of the corresponding linear guide rail are arranged on the left adjusting block and the right adjusting block;

the upper end socket base plate and the lower end socket base plate are provided with long waist-shaped holes for installing corresponding linear guide rail base plates, the linear guide rail base plates are provided with installation screw holes which are in one-to-one correspondence with the long waist-shaped holes, and bolts sequentially penetrate through the corresponding long waist-shaped holes and the installation screw holes to fix the guide rail base plates on the corresponding upper end socket base plates/lower end socket base plates.

The upper end of the upper end socket seat plate is fixedly connected with the top plate, a cylinder barrel of the first air cylinder is fixed on the top plate, and a telescopic rod of the first air cylinder extends downwards into an air cylinder fixing seat of the upper end socket support; and a top plate reinforcing plate for preventing the top plate from deforming is arranged between the upper end of the upper end socket seat plate and the top plate. The cylinder fixing base comprises the briquetting of controlling two symmetries, and the briquetting opposite face sets to with the echelonment, and the card is in the ring channel after the first one outside stretches out of briquetting opposite face, and the briquetting is fixed on last closing end backing plate through the bolt, and the hole that is used for the construction bolt on the briquetting is the slot hole, sets up the slot hole and makes the briquetting finely tune about can. The linear motion of the upper end enclosure and the lower end enclosure is controlled by the cylinder, the cylinder is connected with the end enclosure mechanism by the pull rod, a T-shaped groove is formed between the two pressing blocks, and the pull rod can directly slide into the T-shaped groove, so that the installation and the disassembly are convenient.

The lower end of the lower end socket seat plate is fixedly connected with the bottom plate, a cylinder barrel of the second air cylinder is fixed on the bottom plate, and a telescopic rod of the second air cylinder extends upwards into an air cylinder fixing seat of the lower end socket support; the upside of the lower end socket base plate is inwards concaved with an observation groove for observing the packaging condition, so that the packaging condition can be observed conveniently. The observation groove is opposite to the lower end enclosure.

The upper end enclosure comprises a top seal upper end enclosure and a side seal upper end enclosure; the lower end enclosure comprises a top-sealed lower end enclosure and a side-sealed lower end enclosure.

Compared with the prior art, the utility model has the advantages of simple structure and low manufacturing cost, adopts the linear guide rail to guide the upper and lower packaging heads, has good guiding effect and less abrasion, is provided with the first high-temperature-resistant heat-insulating plate between the heating strip of the packaging head and other parts, adopts the L-shaped structure for the bracket of the packaging head, leads the heating strip to be far away from the linear guide rail, and is provided with the second high-temperature-resistant heat-insulating plate between the linear guide rail and the packaging head, thereby playing a double heat-insulating effect, effectively preventing the linear guide rail from being deformed by heating and further effectively controlling the packaging uniformity and the flatness of the battery core.

The packaging head can integrally move front, back, left and right, so that the upper and lower end sockets are aligned conveniently during debugging, and the uniformity and the flatness of the packaging of the battery cell are further improved.

The end socket template, the heating plate, the heat insulation plate and the base plate on the end socket are provided with corresponding mounting holes at corresponding positions, the bolts sequentially penetrate through the mounting holes on the template, the heating plate, the heat insulation plate and the base plate to fix the end socket template, the heating plate, the heat insulation plate and the base plate, and when a product needs to be replaced and the size of a battery cell changes, the lower template, the heating plate and the heat insulation plate can be conveniently detached for replacement, so that the device disclosed by the utility model is suitable for battery cells with different sizes and models, and is high in universality.

The utility model can accurately detect the real-time temperature of the end socket and ensure the packaging qualification rate of the battery cell.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of the backside structure of the present invention;

FIG. 3 is a schematic structural view of the head loading mechanism of the present invention;

FIG. 4 is a schematic structural view of a lower head mechanism of the present invention;

in the figure: 1-bracket, 101-top plate, 102-bottom plate, 103-support plate, 104-top plate reinforcing plate, 2-upper end enclosure mechanism, 200-upper end enclosure base plate, 201-top seal upper end enclosure, 202-side seal upper end enclosure, 203-linear guide rail I, 204-cylinder I, 205-left and right adjusting block I, 206-high temperature resistant heat insulation board I, 207-high temperature resistant heat insulation board II, 208-top seal upper end enclosure heating plate, 209-side seal upper end enclosure heating plate, 3-lower end enclosure mechanism, 300-lower end enclosure base plate, 301-top seal lower end enclosure, 302-side seal lower end enclosure, 303-linear guide rail II, 304-cylinder II, 305-left and right adjusting block II, 306-high temperature resistant heat insulation board III, 307-high temperature resistant heat insulation board IV, 308-top seal lower end enclosure heating plate, 309-side sealing lower end socket heating plate, 4-reinforcing plate and 5-front and back adjusting block.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

In fig. 1 and 2, the utility model includes a bracket 1 for placing an upper end enclosure mechanism 2 and a lower end enclosure mechanism 3 of a soft package battery cell; the upper side of the bracket 1 is provided with a top plate 101, the lower side is provided with a bottom plate 102, and two sides are provided with supporting plates 103; reinforcing plates 4 are arranged in the middle of the back parts of the upper end enclosure mechanism 2 and the lower end enclosure mechanism 3, the reinforcing plates 4 extend horizontally, two end parts of the reinforcing plates 4 protrude out of the corresponding upper end enclosure mechanism 2 or the corresponding lower end enclosure mechanism 3 and then are inserted into corresponding long grooves on the supporting plates 103 at two sides, and the long grooves can be used as auxiliary guide for front and back adjustment and can also bear the weight of the end enclosure mechanisms to prevent the upper end enclosure base plate and the lower end enclosure base plate from deforming; the four front and rear adjusting blocks 5 are symmetrically arranged on the opposite surfaces of the two supporting plates 103 in pairs, positioning adjusting bolts capable of abutting against the corresponding reinforcing plates 104 at the top ends are arranged in threaded holes in the middles of the front and rear adjusting blocks 5, and the upper end enclosure mechanism 2 and the lower end enclosure mechanism 3 are adjusted front and rear by rotating the positioning adjusting bolts; a plurality of top plate reinforcing plates 104 are arranged between the top plate 101 and the upper seal head seat plate 200 to prevent the top plate from deforming. The top seal upper head 201 and the side seal upper head 202 are both provided with limiting blocks to protect the heads from being damaged.

In fig. 3, the upper head mechanism 2 includes an upper head seat plate 200, a top seal upper head 201 and a side seal upper head 202 slidably connected to the front side of the upper head seat plate 200, two sets of linear guide rails one 203 for performing linear motion in cooperation with the corresponding top seal upper head 201 and the side seal upper head 202, and two cylinders one 204 for controlling the linear motion of the corresponding top seal upper head 201 and the side seal upper head 202, where the cylinders one 204 are fixed on the top plate 101, the top plate 101 is vertically fixed to the upper head seat plate 200 and can be adjusted by the front and rear adjusting block 5 together with the upper head seat plate 200 to perform fine adjustment in the front and rear direction, bolt holes are respectively formed in two side end faces of the upper head seat plate 200, elongated slots corresponding to the bolt holes are formed in the two support plates 103, and the bolts sequentially pass through the elongated slots and the bolt holes to fix the upper head seat plate 200 between the two support plates 103.

The top seal upper head heating plate 208 of the top seal upper head 201 and the side seal upper head heating plate 209 of the side seal upper head 202 are separated from the support corresponding to the upper end of the upper head by two high temperature resistant heat insulation plates one 206, and the top seal upper head 201 and the side seal upper head 202 are separated from the corresponding linear guide rail one 203 by two high temperature resistant heat insulation plates two 207, so that a double heat insulation effect is achieved. The upper end enclosure support of the top enclosure upper end enclosure 201 and the side enclosure upper end enclosure 202 is designed into an L shape, the vertical end plate of the upper end enclosure support, the high-temperature resistant high-heat plate two 207 and the threaded holes are formed in the corresponding positions of the linear slide rail one 203, the threaded holes are formed in the horizontal end plate bottom of the lower end of the upper end enclosure support through bolt fastening, an upper end enclosure base plate, a high-temperature resistant heat insulation plate one 206, an upper end enclosure heating plate and an upper end enclosure template are sequentially arranged at the bottom of the horizontal end plate of the lower end of the upper end enclosure support, the L shape ensures that the linear guide rail one 203 is far away from the top enclosure upper end enclosure heating plate 208 and the side enclosure upper end enclosure heating plate 209, and abrasion and deformation caused by overheating of the linear guide rail one 203 are avoided.

The left adjusting block 205 and the right adjusting block 205 are installed on two sides of the upper end enclosure seat plate 200, adjusting bolts capable of supporting the top ends of the corresponding linear guide rails behind the top enclosure upper end enclosure 201 or the side enclosure upper end enclosure 202 are installed in bolt holes in the middle of the left adjusting block 205 and the right adjusting block 205, the left adjusting block 205 and the right adjusting block 205 adjust the top enclosure upper end enclosure 201 and the side enclosure upper end enclosure 202 left and right through the adjusting bolts, the adjusting bolts support the side faces of the linear guide rail seat plates corresponding to the rear ends of the linear guide rails, mounting screw holes are formed in the linear guide rail seat plates at the rear ends of the linear guide rails, guide long-waist-shaped holes are formed in the upper end enclosure seat plate 200, and the guide rail seat plates are fixed to the corresponding upper end enclosure seat plate 200 through the corresponding long-waist-shaped holes and the mounting screw holes in sequence. The guide rail seat plate is firstly adjusted in place left and right through the adjusting bolt, and then the linear guide rail and the upper end socket seat plate 200 are fastened through the mounting bolt. There is the cylinder fixing base on the horizontal end plate of upper cover support, cylinder 204 telescopic link is fixed in the cylinder fixing base that corresponds the upper cover on the downward vertical back top that stretches out, cylinder 204 telescopic link top is equipped with the ring channel, the cylinder fixing base comprises the briquetting of controlling two symmetries, the briquetting opposite face sets up to and the echelonment, the card is in the ring channel after first outside stretching out of briquetting opposite face, the briquetting is through the bolt fastening on upper cover backing plate, the hole that is used for construction bolt on the briquetting is the slot hole, it can control the fine setting to set up the slot hole messenger briquetting.

In fig. 4, the lower head mechanism 3 includes a lower head seat plate 300, a top seal lower head 301 and a side seal lower head 302 slidably connected to the lower head seat plate 300, a linear guide rail ii 303 which is matched with the corresponding lower head to perform linear motion, and a cylinder ii 304 which controls the linear motion of the corresponding upper head, the cylinder ii 304 is fixed on the bottom plate 102, and the bottom plate 102 is vertically connected and fixed with the lower head seat plate 300. Bolt holes are formed in two side end faces of the lower end socket base plate 300, waist-shaped long holes corresponding to the bolt holes are formed in the two supporting plates 103, and bolts sequentially penetrate through the corresponding waist-shaped long holes and the corresponding bolt holes to fix the lower end socket base plate 300 between the two supporting plates 103. The observation groove is set on the upper end of the lower end socket board 300, the observation groove is opposite to the two lower end sockets, which is convenient for observing the encapsulation condition. The top-sealed lower end socket 301 and the side-sealed lower end socket 302 are both provided with limiting blocks to protect the end sockets from being damaged.

The top-sealing lower head heating plate 308 of the top-sealing lower head 301 and the side-sealing lower head heating plate 309 of the side-sealing lower head 302 are separated from the bracket corresponding to the lower end of the lower head by a high-temperature-resistant heat-insulating plate III 306, and the top-sealing lower head 301 and the side-sealing lower head 302 are separated from the corresponding linear guide rail II 303 by a high-temperature-resistant heat-insulating plate IV 307, so that a double heat-insulating effect is achieved. The lower seal head supports of the top seal lower seal head 301 and the side seal lower seal head 302 are also designed to be L-shaped, so that the second linear guide rail 303 is ensured to be far away from the top seal lower seal head heating plate 308 and the side seal lower seal head heating plate 309, and abrasion and deformation caused by overheating of the second linear guide rail 303 are avoided. The vertical end of the corresponding lower end enclosure support, the high-temperature-resistant heat-insulating plate IV 307 and the sliding block on the linear guide rail II 303 are fixed through bolts, a lower end enclosure base plate, the high-temperature-resistant heat-insulating plate III 306, a lower end enclosure heating plate and a lower end enclosure template are sequentially arranged above the horizontal end plate of the lower end enclosure support, and an air cylinder fixing seat is also arranged below the horizontal end plate of the lower end enclosure support.

The left and right adjusting structures of the top seal lower head 301 and the side seal lower head 302 are the same as the left and right adjusting structures of the top seal upper head 201 and the side seal upper head 202. And a left adjusting block and a right adjusting block 305 are also arranged at two sides of the lower seal head seat plate 300, and the top seal lower seal head 301 and the side seal lower seal head 302 are adjusted left and right through adjusting bolts arranged in the left adjusting block and the right adjusting block 305. The adjusting bolt is abutted against the side face of the linear guide rail seat plate corresponding to the rear end of the linear guide rail II, the linear guide rail seat plate at the rear end of the linear guide rail II is provided with an installation screw hole, the lower end socket seat plate 300 is provided with a guide long waist-shaped hole, and the bolt sequentially penetrates through the corresponding long waist-shaped hole and the installation screw hole to fix the guide rail seat plate on the corresponding lower end socket seat plate 300.

When in work: the front and back positions of the upper end enclosure mechanism 2 and the lower end enclosure mechanism 3 are adjusted to be proper through the front and back adjusting blocks 5, the left and right positions of the top seal upper end enclosure 201 and the side seal upper end enclosure 202 are adjusted to be in place through the left and right adjusting blocks 205, and the left and right positions of the top seal lower end enclosure 301 and the side seal lower end enclosure 302 are adjusted to be in place through the left and right adjusting blocks 305; then the upper end enclosure heating plate 208, the side-sealing upper end enclosure heating plate 209, the top-sealing lower end enclosure heating plate 308 and the side-sealing lower end enclosure heating plate 309 of the upper end enclosure and the lower end enclosure are heated, the temperature is controlled in real time through a temperature sensing device, and after the required temperature is reached, the battery cell is conveyed to the space between the upper end enclosure and the lower end enclosure to be subjected to top-sealing and side-sealing in sequence.

The above-described embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, many variations and modifications are possible without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides a top seal side seal frock for soft-packaged electrical core, its characterized in that: comprises an upper end enclosure mechanism (2) and a lower end enclosure mechanism (3) which are arranged in a bracket (1);

the upper end enclosure mechanism (2) comprises an upper end enclosure which can slide and lift along with the first air cylinder (204), and the upper end enclosure is arranged on one side of the upper end enclosure seat plate (200);

a linear guide rail I (203) for guiding the upper seal head is vertically arranged on the front side of the upper seal head seat plate (200);

the upper end enclosure comprises an upper end enclosure support fixedly connected with an upper sliding block of the linear guide rail I (203) and an upper end enclosure heating plate arranged at the lower end part of the upper end enclosure support, a first high-temperature-resistant heat-insulating plate (206) is arranged between the upper end enclosure heating plate and the upper end enclosure support, and a second high-temperature-resistant heat-insulating plate (207) is arranged between the upper end enclosure support and the linear guide rail I (203);

the lower end enclosure mechanism (3) comprises a lower end enclosure which can slide and lift along with the second air cylinder (304), the lower end enclosure is arranged on one side of the lower end enclosure base plate (300), and the lower end enclosure corresponds to the upper end enclosure;

a linear guide rail II (303) for guiding the lower seal head is vertically arranged on the front side of the lower seal head seat plate (300);

the lower end enclosure comprises a lower end enclosure support fixedly connected with an upper sliding block of the linear guide rail II (303) and a lower end enclosure heating plate arranged at the upper end part of the lower end enclosure support, a high-temperature-resistant heat-insulating plate III (306) is arranged between the lower end enclosure heating plate and the lower end enclosure support, and a high-temperature-resistant heat-insulating plate IV (307) is arranged between the lower end enclosure support and the linear guide rail II (303).

2. The top sealing and side sealing tool for the soft package battery core according to claim 1, characterized in that: the support (1) comprises two support plates (103) which are arranged side by side, and a top plate (101) and a bottom plate (102) which can move forwards and backwards are respectively arranged on the upper end face and the lower end face of each support plate (103).

3. The top sealing and side sealing tool for the soft package battery core according to claim 1 or 2, characterized in that: the upper end enclosure support is L-shaped, one end of the upper end enclosure support is fixed with a sliding block on a linear guide rail I (203) through a high-temperature-resistant heat-insulating plate II (207), an upper end enclosure base plate, a high-temperature-resistant heat-insulating plate I (206), an upper end enclosure heating plate and an upper end enclosure template are sequentially arranged below the other end of the upper end enclosure support, and an air cylinder fixing seat is arranged above the other end of the upper end enclosure support;

the lower end enclosure support is L-shaped, one end of the lower end enclosure support is fixed with a sliding block on the linear guide rail II (303) through a high-temperature-resistant heat insulation plate IV (307), a lower end enclosure base plate, a high-temperature-resistant heat insulation plate III (306), a lower end enclosure heating plate and a lower end enclosure template are sequentially arranged above the other end of the lower end enclosure support, and an air cylinder fixing seat is also arranged below the other end of the lower end enclosure support.

4. The top sealing and side sealing tool for the soft package battery core according to claim 3, characterized in that: and two end parts of the upper end socket base plate and the lower end socket base plate are respectively provided with a limiting block.

5. The top sealing and side sealing tool for the soft package battery cell according to any one of claims 1, 2 and 4, characterized in that: the middle parts of the back sides of the upper end socket base plate (200) and the lower end socket base plate (300) are respectively provided with a reinforcing plate (4), the reinforcing plates (4) are horizontally arranged along the length direction, and two end parts of each reinforcing plate (4) protrude out of two side surfaces of the corresponding upper end socket base plate (200)/lower end socket base plate (300); the two supporting plates (103) are symmetrically provided with long grooves for guiding the two reinforcing plates (4), and two end parts of the two reinforcing plates (4) are slidably supported in the corresponding long grooves on the two supporting plates (103).

6. The top sealing and side sealing tool for the soft package battery core according to claim 5, characterized in that: four front and rear adjusting blocks (5) are fixed on opposite surfaces of the two supporting plates (103), the four front and rear adjusting blocks (5) are symmetrically arranged on two ends of the reinforcing plate (4) in pairs, and each front and rear adjusting block (5) is provided with a positioning adjusting bolt;

two side end faces of the upper end socket base plate (200) and the lower end socket base plate (300) are respectively provided with a bolt hole, waist-shaped long holes corresponding to the bolt holes are formed in the two supporting plates (103), and bolts sequentially penetrate through the corresponding waist-shaped long holes and the corresponding bolt holes to fix the upper end socket base plate (200) and the lower end socket base plate (300) between the two supporting plates (103).

7. The top sealing and side sealing tool for the soft package battery cell according to any one of claims 1, 2, 4 and 6, wherein: a left adjusting block and a right adjusting block (205) are arranged on one side of the upper end socket base plate (200) and one side of the lower end socket base plate (300), and adjusting bolts for adjusting the left position and the right position of the corresponding linear guide rail are arranged on the left adjusting block and the right adjusting block (205);

the upper end socket base plate (200) and the lower end socket base plate (300) are provided with long waist-shaped holes for mounting corresponding linear guide rail base plates, the linear guide rail base plates are provided with mounting screw holes which are in one-to-one correspondence with the long waist-shaped holes, and bolts sequentially penetrate through the corresponding long waist-shaped holes and the mounting screw holes to fix the guide rail base plates to the corresponding upper end socket base plate (200)/lower end socket base plate (300).

8. The top sealing and side sealing tool for the soft package battery core according to claim 1, characterized in that: the upper end of the upper end socket base plate (200) is fixedly connected with the top plate (101), a cylinder barrel of the cylinder I (204) is fixed on the top plate (101), and a telescopic rod of the cylinder I (204) extends downwards into a cylinder fixing seat of the upper end socket support; and a top plate reinforcing plate (104) for preventing the top plate (101) from deforming is arranged between the upper end of the upper end socket base plate (200) and the top plate (101).

9. The top sealing and side sealing tool for the soft package battery core according to claim 1 or 8, characterized in that: the lower end of the lower end socket base plate (300) is fixedly connected with the bottom plate (102), a cylinder barrel of the second cylinder (304) is fixed on the bottom plate (102), and a telescopic rod of the second cylinder (304) extends upwards into a cylinder fixing seat of the lower end socket support; an observation groove for observing the packaging condition is concavely arranged on the upper side of the lower end socket base plate (300), and the position of the observation groove is opposite to the lower end socket.

10. The top sealing and side sealing tool for the soft package battery core according to claim 1, characterized in that: the upper end enclosure comprises a top seal upper end enclosure (201) and a side seal upper end enclosure (202); the lower seal head comprises a top seal lower seal head (301) and a side seal lower seal head (302).

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