CN213905538U - Module binding apparatus of compatible soft packet of and square shell battery - Google Patents

Abstract

The utility model provides a module binding apparatus compatible with soft package and square-shell battery, comprising a tooling base, a bottom plate, a tooling side plate, a module end plate, a module middle plate and a jacking mechanism, wherein the jacking mechanism is provided with a jacking plate and a clamp assembly; the utility model discloses a flexible package battery module, including bottom plate, fixture side plate, top tight board, anchor clamps subassembly, module end plate, module intermediate plate, bottom plate have the frock curb plate, top tight board along width direction's both sides parallel arrangement respectively, be used for holding electric core between frock curb plate and the top tight board, the top tight board can be at fixture side plate motion of ordering about down of anchor clamps subassembly, module end plate, module intermediate plate interval installation respectively are on the bottom plate, the utility model discloses can be compatible square shell battery and bundling up of laminate polymer battery module, can be compatible not tying up of unidimensional module simultaneously, compare with current device, simple structure, easily processing, the preparation is efficient, and the cost of manufacture is low.

Description

Module binding apparatus of compatible soft packet of and square shell battery

Technical Field

The utility model relates to a battery module preparation field specifically relates to a module binding apparatus of compatible soft packet of and square shell battery.

Background

With the development of new energy technology, especially the rise of electrochemical energy storage industry in China, various manufacturers invest in energy storage battery production lines and rows, however, the battery specifications, sizes, capacities and appearances of the manufacturers are different. Particularly, in the portable field, the demand of modules is small, the specifications of the modules are different, and a high-cost module bundling system is adopted.

In view of the situation of various energy storage requirements, how to improve the compatibility of the assembly equipment when the modules are assembled by adopting batteries of different manufacturers is particularly critical, and the module assembly equipment can flexibly adapt to the batteries of various sizes to assemble the modules.

Patent document CN208994071U discloses an electricity core binding apparatus, including the workstation, be used for pressing from both sides the (holding) chuck of tight electric core module, be used for squeezing tight mechanism of electric core module extrusion module thickness and be used for carrying out the binding mechanism of ribbon to electric core module, the (holding) chuck is installed on the workstation, crowded tight mechanism is including crowded tight power portion and stripper plate, crowded tight power portion is installed on the workstation and is connected with the stripper plate transmission, can drive the stripper plate to compress tightly the electric core module on the (holding) chuck, binding mechanism installs on the workstation, carries out the ribbon to the electric core module on the (holding) chuck, and this project organization is complicated, though degree of automation is high, but the actual motion in-process face is not high to the battery module operating efficiency of different models, and equipment cost is high.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model aims at providing a module binding apparatus of compatible soft package and square shell battery.

According to the utility model provides a module binding apparatus compatible with soft package and square shell battery, which comprises a tooling base, a bottom plate, a tooling side plate, a module end plate, a module middle plate and a jacking mechanism;

the jacking mechanism is provided with a jacking plate and a clamp assembly;

the bottom plate is arranged on the tooling base, two sides of the bottom plate in the width direction are respectively provided with a tooling side plate and a puller plate in parallel, a first accommodating space is formed between the tooling side plate and the puller plate and is used for accommodating an electric core, and the puller plate can move towards the tooling side plate under the driving of the clamp assembly;

the utility model discloses a module, including bottom plate, module end plate, module intermediate plate, bottom plate, adjustable end, module end plate, module intermediate plate, the one end of bottom plate along length direction is the location end, the other end of bottom plate is adjustable end, be provided with a plurality of adjustable positions between location end and the adjustable end, the module end plate is installed and is served in the location, the module intermediate plate can be installed on adjustable position according to the module of difference.

Preferably, the tightening mechanism further comprises a sliding rod and a limiting base, one end of the sliding rod is connected with the tightening plate, and the other end of the sliding rod penetrates through a limiting base through hole formed in the limiting base and is in sliding fit with the limiting base.

Preferably, the number of the sliding rods and the limiting base is two, and the two sliding rods are arranged in parallel and are used for supporting and guiding the movement of the tightening plate.

Preferably, the clamp assembly comprises a top rod, a guide sleeve, a connecting rod, an operating handle and a supporting seat;

the bottom of the guide sleeve is arranged on a tooling base, the guide sleeve is sleeved on the ejector rod, the ejector rod can slide relative to the guide sleeve, one end of the ejector rod is movably matched with one end of a connecting rod, the other end of the connecting rod is movably matched with an operating handle, one end of the operating handle is an operating end, the other end of the operating handle is movably matched with the supporting seat, and the supporting seat is arranged on the tooling base;

when the operation end is pulled to rotate around the supporting seat, the connecting rod can drive the other end of the ejector rod to push the jacking plate to move or move away from the jacking plate.

Preferably, the number of the clamp assemblies is two.

Preferably, a first insulating plate is arranged on one side of the tooling side plate facing the first accommodating space, and a side plate reinforcing pin is arranged on the other side of the tooling side plate;

and a second insulating plate is arranged on one side of the tightening plate facing the first accommodating space.

Preferably, a first guide groove and a second guide groove which are arranged at intervals and are parallel to the bottom plate are arranged on one surface of the first insulation plate facing the first accommodating space;

one surface of the second insulating plate facing the first accommodating space is provided with a third guide groove and a fourth guide groove which are arranged at intervals and are parallel to the bottom plate;

the first guide slot, the second guide slot, the third guide slot and the fourth guide slot are used for guiding the binding belt to bind the battery cell placed in the first accommodating space.

Preferably, the tooling side plate is connected with a first limit plate along the direction from the positioning end to the adjustable end,

the jacking plate is connected with a second limiting plate.

Preferably, the first limiting plate and the second limiting plate are detachably mounted on the tooling base respectively.

According to the utility model provides a module binding apparatus compatible with soft package and square shell battery, which comprises a tooling base, a bottom plate, a tooling side plate, a module end plate, a module middle plate and a jacking mechanism;

the jacking mechanism is provided with a jacking plate and a clamp assembly;

the bottom plate is arranged on the tooling base, two sides of the bottom plate in the width direction are respectively provided with a tooling side plate and a puller plate in parallel, a first accommodating space is formed between the tooling side plate and the puller plate and is used for accommodating an electric core, and the puller plate can move towards the tooling side plate under the driving of the clamp assembly;

one end of the bottom plate along the length direction is a positioning end, the other end of the bottom plate is an adjustable end, a plurality of adjustable positions are arranged between the positioning end and the adjustable end, the module end plate is installed on the positioning end, and the module middle plate can be installed on the adjustable positions according to different modules;

the jacking mechanism further comprises a sliding rod and a limiting base, one end of the sliding rod is connected with the jacking plate, and the other end of the sliding rod penetrates through a limiting base through hole formed in the limiting base and is in sliding fit with the limiting base;

the number of the sliding rods and the number of the limiting bases are two, and the two sliding rods are arranged in parallel and are used for supporting and guiding the movement of the jacking plate;

the clamp assembly comprises a push rod, a guide sleeve, a connecting rod, an operating handle and a supporting seat;

the bottom of the guide sleeve is arranged on a tooling base, the guide sleeve is sleeved on the ejector rod, the ejector rod can slide relative to the guide sleeve, one end of the ejector rod is movably matched with one end of a connecting rod, the other end of the connecting rod is movably matched with an operating handle, one end of the operating handle is an operating end, the other end of the operating handle is movably matched with the supporting seat, and the supporting seat is arranged on the tooling base;

when the wrenching operation end rotates around the supporting seat, the connecting rod can drive the other end of the ejector rod to push the jacking plate to move or move away from the jacking plate;

the number of the clamp assemblies is two;

a first insulating plate is arranged on one side of the tooling side plate facing the first accommodating space, and a side plate reinforcing pin is arranged on the other side of the tooling side plate;

a second insulating plate is arranged on one side, facing the first accommodating space, of the tightening plate;

the first insulation plate is provided with a first guide groove and a second guide groove which are arranged at intervals and are parallel to the bottom plate on one side facing the first accommodating space, the second insulation plate is provided with a third guide groove and a fourth guide groove which are arranged at intervals and are parallel to the bottom plate on one side facing the first accommodating space, and the first guide groove, the second guide groove, the third guide groove and the fourth guide groove are used for guiding a binding belt to bind the battery cell placed in the first accommodating space;

the side plate of the tool is connected with a first limit plate along the direction from the positioning end to the adjustable end,

the jacking plate is connected with a second limiting plate;

the first limiting plate and the second limiting plate are detachably mounted on the tooling base respectively.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses can compatible square shell battery and bundling of laminate polymer battery module, can be compatible not tying up of unidimensional module simultaneously through rational adjustment binding apparatus size, compare with current device, simple structure, easily processing, the preparation is efficient, and the cost of manufacture is low.

2. The utility model discloses in through the cooperation of the tight board in top and the tight mechanism in top, the operation that a plurality of electric cores of realization that can convenient and fast pressed from both sides tight alignment, the drive mode is nimble, simple structure, convenient operation.

3. The utility model discloses well first insulation board, second insulation board, bottom plate all are the insulation board, can avoid the battery to take place the short circuit, play the effect of protection.

4. The utility model discloses in can realize the preparation of different length modules through the first limiting plate that can adjust in a flexible way and second limiting plate and each part, simple structure, and preparation process convenient and fast, the practicality is strong.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic structural view of the battery cell of the present invention;

fig. 3 is a schematic top view of the present invention;

fig. 4 is a schematic structural view of a clamp assembly according to a preferred embodiment of the present invention.

The figures show that:

tool base 1 electric core 8 supporting seat 15

Base plate 2 slide bar 9 first insulating plate 16

Side plate reinforcing foot 18 of limiting base 10 of tooling side plate 3

Second insulating plate 17 of ejector rod 11 of module end plate 4

Module intermediate plate 5 guide sleeve 12 band 19

First limit plate 20 of connecting rod 13 of jacking plate 6

First accommodation space 7, operation handle 14 and second limiting plate 21

Detailed Description

The present invention will be described in detail with reference to the following embodiments. The following examples will assist those skilled in the art in further understanding the present invention, but are not intended to limit the invention in any way. It should be noted that various changes and modifications can be made by one skilled in the art without departing from the spirit of the invention. These all belong to the protection scope of the present invention.

The utility model provides a module bundling device compatible with soft package and square shell batteries, as shown in figures 1-4, comprising a tool base 1, a bottom plate 2, a tool side plate 3, a module end plate 4, a module middle plate 5 and a tightening mechanism, wherein the tool base 1 is the bearing surface and the reference surface of all components, the tightening mechanism is provided with a tightening plate 6 and a clamp component, the bottom plate 2 is arranged on the tool base 1, the bottom plate 2 preferably adopts an insulating plate to avoid short circuit caused by the contact of the batteries and the tool base 1 when the batteries are assembled, the tool side plate 3 and the tightening plate 6 are respectively arranged in parallel on both sides of the bottom plate 2 along the width direction, a first accommodating space 7 is formed between the tool side plate 3 and the tightening plate 6, the first accommodating space 7 is used for accommodating the battery core 8, and a plurality of battery cores 8 are sequentially placed in the first accommodating space 7 when the batteries are assembled, the jacking plate 6 can move towards the tool side plate 3 under the driving of the clamp assembly, and then can transversely clamp a plurality of battery cores 8, as shown in fig. 2.

Further, bottom plate 2 is the location end along length direction's one end, the other end of bottom plate 2 is adjustable end, be provided with a plurality of adjustable positions between location end and the adjustable end, module end plate 4 is installed at the location and is served, module intermediate plate 5 can be selected according to the module of difference and install on the adjustable position of needs to realize that the distance between module end plate 4 and the module intermediate plate 5 can hold required electric core 8.

Specifically, as shown in fig. 2, the tightening mechanism further includes a sliding rod 9 and a limiting base 10, one end of the sliding rod 9 is connected to the tightening plate 6, and the other end of the sliding rod 9 passes through a limiting base through hole formed in the limiting base 10 and is in sliding fit with the limiting base 10, in a preferred example, the number of the sliding rod 9 and the limiting base 10 is two, and the two sliding rods 9 are arranged in parallel and are used for supporting and guiding the movement of the tightening plate 6. In a variation, the sliding rod 9 and the limit base 10 may be omitted, and the smooth movement of the tightening plate 6 can be achieved only by the clamp assembly.

Specifically, in a preferred embodiment, as shown in fig. 4, the fixture assembly includes a top rod 11, a guide sleeve 12, a connecting rod 13, an operation handle 14 and a support seat 15, a bottom of the guide sleeve 12 is mounted on the fixture base 1, the guide sleeve 12 is sleeved on the top rod 11, the top rod 11 can slide relative to the guide sleeve 12, one end of the top rod 11 is movably fitted with one end of the connecting rod 13, the other end of the connecting rod 13 is movably fitted with the operation handle 14, one end of the operation handle 14 is an operation end, the other end of the operation handle 14 is movably fitted with the support seat 15, the support seat 15 is mounted on the fixture base 1, when the operation end is pulled to rotate around the support seat 15, the connecting rod 13 can drive the other end of the top rod 11 to push the tightening plate 6 to move, when the operation end is close to the electric core 8 to move, the plurality of electric cores 8 can be tightened and aligned, when the operation end is far from the electric core 8, the holding-down plate 6 is removed from the module, at which point the module can be removed. In one variation, the clamp assembly employs a machine drive, such as an electric motor, and further such as an air cylinder or oil cylinder.

Further, in practical applications, the number of the clamp assemblies is preferably two.

When needing to explain, the utility model provides a tight board 6 in top promotes the realization through anchor clamps subassembly when tight, and realize the steady movement of direction of motion through slide bar 9 and spacing base 10, guarantee the parallel all the time of tight board 6 in top and frock curb plate 3, tight board 6 in top is when needs loosen, remove ejector pin 11 earlier, rethread manual promotion tight board 6 makes tight board 6 in top keep away from electric core, also can realize through machine operation's mode, in a preferred example, the one end that tight board 6 in top was kept away from to slide bar 9 is connected with the power supply, can order about the motion of slide bar 9 along the circumferential direction.

Specifically, as shown in fig. 1 to 3, a first insulating plate 16 is disposed on one side of the tooling side plate 3 facing the first accommodating space 7, a side plate reinforcing foot 18 is mounted on the other side of the tooling side plate 3, the side plate reinforcing foot 18 is used for reinforcing the side surface of the tooling side plate 3, and the bottom surface of the tooling side plate 3 is preferably mounted on the tooling base 1 through screws; the second insulation board 17 is installed towards one side of first accommodation space 7 to the tight board 6 in top, and first insulation board 16, second insulation board 17 play isolated battery and take place electrically conductive phenomenon after the metal sheet touches, play partial cushioning effect simultaneously, avoid crushing the battery in the extrusion battery. In a preferred embodiment, the first insulating plate 16, the second insulating plate 17, and the base plate 2 are made of rubber plates, and in a variation, glass fiber reinforced plastic plates are used.

Specifically, as shown in fig. 1 to fig. 3, one surface of the first insulating plate 16 facing the first accommodating space 7 is provided with a first guide slot and a second guide slot which are arranged at intervals and are parallel to the bottom plate 2, one surface of the second insulating plate 17 facing the first accommodating space 7 is provided with a third guide slot and a fourth guide slot which are arranged at intervals and are parallel to the bottom plate 2, and the first guide slot, the second guide slot, the third guide slot and the fourth guide slot are used for guiding the ribbon 19 to bundle the battery cell 8 placed in the first accommodating space 7, and after the battery cell 8 in the first accommodating space 7 is extruded and aligned, the ribbon 19 passes through the four guide slots to bundle the battery cell 8, so as to form a module.

Specifically, as shown in fig. 1, the tooling side plate 3 is connected with a first limiting plate 20, the tightening plate 6 is connected with a second limiting plate 21, and specifically, as shown in fig. 1, the first limiting plate 20 and the second limiting plate 21 are respectively detachably mounted on the tooling base 1. When the length after 8 arrangements of electric core surpassed the length of frock curb plate 3 in the module of preparation, can make earlier this moment and extrude partly electric core 8, push away earlier partly electric core 8 after aligning the extrusion to the region between first limiting plate 20 and the second limiting plate 21, wait again to finish the extrusion of remaining partly electric core 8 and tie up together again, because the distance between first limiting plate 20 and the second limiting plate 21 can be according to the nimble adjustment of the requirement of module preparation, consequently, the utility model discloses the preparation of the different length modules of realization that can be nimble.

The working principle of the utility model is as follows:

according to the length of the module to be manufactured, firstly, the module end plate 4 is installed on the positioning end, the module intermediate plate 5 is installed on a required adjustable position, the tightening plate 6 is pushed to move away from the tooling side plate 3, at the moment, the first accommodating space 7 is enlarged, a preset number of battery cores 8 are sequentially installed in the first accommodating space 7, as the upper surface of the bottom plate 2 is a flat surface, under the action of the gravity of the battery cores 8, the bottoms of the battery cores 8 are aligned, after all the battery cores 8 are placed, the tightening plate 6 is driven by the operating clamp assembly to move towards the direction of the battery cores 8, the battery cores 8 are extruded to enable the side surfaces of the battery cores to be sequentially aligned, after the tightening plate 6 is extruded in place, the binding belt 19 is tightened around the periphery of the extruded and leveled battery core 8 group through the first guide groove, the second guide groove, the third guide groove and the fourth guide groove, at the moment, the tightening plate 6 is operated to separate from the bundled battery core group, and taking out the electric core group and finishing the module manufacture.

In the description of the present application, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

The foregoing description of the specific embodiments of the invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by those skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (10)

1. The module bundling device compatible with soft packages and square-shell batteries is characterized by comprising a tooling base (1), a bottom plate (2), tooling side plates (3), module end plates (4), a module middle plate (5) and a jacking mechanism;

the jacking mechanism is provided with a jacking plate (6) and a clamp assembly;

the bottom plate (2) is mounted on the tooling base (1), two sides of the bottom plate (2) in the width direction are respectively provided with a tooling side plate (3) and a tightening plate (6) in parallel, a first accommodating space (7) is formed between the tooling side plate (3) and the tightening plate (6), the first accommodating space (7) is used for accommodating an electric core (8), and the tightening plate (6) can move towards the tooling side plate (3) under the driving of the clamp assembly;

bottom plate (2) are the location end along length direction's one end, the other end of bottom plate (2) is adjustable end, be provided with a plurality of adjustable positions between location end and the adjustable end, module end plate (4) are installed and are served in the location, module intermediate lamella (5) can be installed on adjustable position according to the module of difference.

2. The module binding apparatus compatible with soft packets and square-shell batteries according to claim 1, wherein the tightening mechanism further comprises a sliding rod (9) and a limiting base (10), one end of the sliding rod (9) is connected with the tightening plate (6), and the other end of the sliding rod (9) passes through a limiting base through hole provided on the limiting base (10) and is in sliding fit with the limiting base (10).

3. The modular strapping device for compatible soft packs and square-shelled batteries according to claim 2, wherein the number of the sliding rods (9) and the limiting bases (10) is two, and the two sliding rods (9) are arranged in parallel and are used for supporting and guiding the movement of the tightening plate (6).

4. The module binding apparatus compatible with soft packets and square-shell batteries according to claim 1, characterized in that the clamp assembly comprises a top bar (11), a guide sleeve (12), a connecting rod (13), an operating handle (14) and a supporting seat (15);

the bottom of the guide sleeve (12) is installed on a tooling base (1), the guide sleeve (12) is sleeved on the ejector rod (11), the ejector rod (11) can slide relative to the guide sleeve (12), one end of the ejector rod (11) is movably matched with one end of a connecting rod (13), the other end of the connecting rod (13) is movably matched with an operating handle (14), one end of the operating handle (14) is an operating end, the other end of the operating handle (14) is movably matched with the supporting seat (15), and the supporting seat (15) is installed on the tooling base (1);

when the wrenching operation end rotates around the supporting seat (15), the connecting rod (13) can drive the other end of the ejector rod (11) to push the jacking plate (6) to move or move away from the jacking plate (6).

5. The modular strapping device compatible with soft packs and square-shell batteries according to claim 4, wherein the number of the clamp assemblies is two.

6. The module bundling device compatible with soft packets and square-shell batteries according to claim 1, characterized in that a first insulating plate (16) is arranged on one side of the tooling side plate (3) facing the first accommodating space (7), and a side plate reinforcing foot (18) is arranged on the other side of the tooling side plate (3);

and a second insulating plate (17) is arranged on one side, facing the first accommodating space (7), of the tightening plate (6).

7. The modular bundling device for compatible soft-pack and square-shell batteries, according to claim 6, characterized in that the side of the first insulating plate (16) facing the first receiving space (7) is provided with a first guiding groove and a second guiding groove which are arranged at intervals and parallel to the bottom plate (2);

one surface of the second insulating plate (17) facing the first accommodating space (7) is provided with a third guide groove and a fourth guide groove which are arranged at intervals and are parallel to the bottom plate (2);

the first guide groove, the second guide groove, the third guide groove and the fourth guide groove are used for guiding a binding belt (19) to bind the battery cell (8) placed in the first accommodating space (7).

8. The module bundling device for compatible soft-package and square-shell batteries according to claim 1, wherein a first limiting plate (20) is connected to the tooling side plate (3) along the direction from the positioning end to the adjustable end,

the tightening plate (6) is connected with a second limiting plate (21).

9. The module binding apparatus compatible with soft packets and square-shell batteries according to claim 8, wherein the first limiting plate (20) and the second limiting plate (21) are respectively detachably mounted on the tooling base (1).

10. The module bundling device compatible with soft packages and square-shell batteries is characterized by comprising a tooling base (1), a bottom plate (2), tooling side plates (3), module end plates (4), a module middle plate (5) and a jacking mechanism;

the jacking mechanism is provided with a jacking plate (6) and a clamp assembly;

the bottom plate (2) is mounted on the tooling base (1), two sides of the bottom plate (2) in the width direction are respectively provided with a tooling side plate (3) and a tightening plate (6) in parallel, a first accommodating space (7) is formed between the tooling side plate (3) and the tightening plate (6), the first accommodating space (7) is used for accommodating an electric core (8), and the tightening plate (6) can move towards the tooling side plate (3) under the driving of the clamp assembly;

one end of the bottom plate (2) along the length direction is a positioning end, the other end of the bottom plate (2) is an adjustable end, a plurality of adjustable positions are arranged between the positioning end and the adjustable end, the module end plate (4) is installed on the positioning end, and the module middle plate (5) can be installed on the adjustable positions according to different modules;

the jacking mechanism further comprises a sliding rod (9) and a limiting base (10), one end of the sliding rod (9) is connected with the jacking plate (6), and the other end of the sliding rod (9) penetrates through a limiting base through hole formed in the limiting base (10) and is in sliding fit with the limiting base (10);

the number of the sliding rods (9) and the number of the limiting bases (10) are two, and the two sliding rods (9) are arranged in parallel and used for supporting and guiding the movement of the tightening plate (6);

the clamp assembly comprises a push rod (11), a guide sleeve (12), a connecting rod (13), an operating handle (14) and a supporting seat (15);

the bottom of the guide sleeve (12) is installed on a tooling base (1), the guide sleeve (12) is sleeved on the ejector rod (11), the ejector rod (11) can slide relative to the guide sleeve (12), one end of the ejector rod (11) is movably matched with one end of a connecting rod (13), the other end of the connecting rod (13) is movably matched with an operating handle (14), one end of the operating handle (14) is an operating end, the other end of the operating handle (14) is movably matched with the supporting seat (15), and the supporting seat (15) is installed on the tooling base (1);

when the wrenching operation end rotates around the supporting seat (15), the connecting rod (13) can drive the other end of the ejector rod (11) to push the jacking plate (6) to move or move away from the jacking plate (6);

the number of the clamp assemblies is two;

a first insulating plate (16) is arranged on one side, facing the first accommodating space (7), of the tooling side plate (3), and a side plate reinforcing foot (18) is arranged on the other side of the tooling side plate (3);

a second insulating plate (17) is arranged on one side, facing the first accommodating space (7), of the tightening plate (6);

one surface, facing the first accommodating space (7), of the first insulating plate (16) is provided with a first guide groove and a second guide groove which are arranged at intervals and are parallel to the bottom plate (2), one surface, facing the first accommodating space (7), of the second insulating plate (17) is provided with a third guide groove and a fourth guide groove which are arranged at intervals and are parallel to the bottom plate (2), and the first guide groove, the second guide groove, the third guide groove and the fourth guide groove are used for guiding a binding belt (19) to bind the battery cells (8) placed in the first accommodating space (7);

the tool side plate (3) is connected with a first limiting plate (20) along the direction from the positioning end to the adjustable end,

the tightening plate (6) is connected with a second limiting plate (21);

the first limiting plate (20) and the second limiting plate (21) are detachably mounted on the tooling base (1) respectively.

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