CN210379280U - Horizontal press-fitting device for battery - Google Patents

Abstract

The utility model provides a horizontal press mounting device for a battery, which comprises a positioning mechanism for fixing a shell and a pushing mechanism for pressing an electric core into the shell, wherein the positioning mechanism comprises a positioning plate for placing the shell and a guide piece for guiding a top cover of the electric core, and the positioning plate is provided with a first positioning surface for placing the shell in a lying manner; the guide has a guide surface to guide the top cover into the housing. By utilizing the horizontal press-fitting device for the battery, the top cover of the battery cell can enter the shell under the guidance of the guide piece, the problem that the top cover is easily collided with the shell opening of the shell to cause extrusion damage is solved, and the assembly efficiency and the press-fitting quality of the battery cell and the shell are improved.

Description

Horizontal press-fitting device for battery

Technical Field

The utility model relates to a battery automated production equipment technical field, in particular to horizontal pressure equipment device of battery.

Background

At present, when a battery is produced, a battery core is pressed into an aluminum shell by using a horizontal press-fitting device, and the assembly of the battery core and the aluminum shell is completed. During horizontal pressure equipment, the aluminum hull is laid with electric core difference tie, fixes a position the aluminum hull and makes it motionless, and the translation cylinder through electric core upper cover side promotes the top cap and removes to the shell mouth direction of aluminum hull, until with electric core pressure equipment to inside the aluminum hull, makes top cap and aluminum hull assembly reach both and carry out laser welding's requirement. However, the thickness of the top cover on the battery core is larger than that of the battery core body, so that when horizontal press mounting is carried out, the top cover and the shell opening of the aluminum shell are easy to collide to cause extrusion damage, the press mounting quality is affected, and the battery can be scrapped in severe cases.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a horizontal pressure equipment device of battery to the technical problem who bumps and crowd the wound with the shell mouth of aluminum hull among the solution prior art.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

the utility model provides a horizontal press mounting device for a battery, which comprises a positioning mechanism for fixing a shell and a pushing mechanism for pressing an electric core into the shell, wherein the positioning mechanism comprises a positioning plate for placing the shell and a guide piece for guiding a top cover of the electric core, and the positioning plate is provided with a first positioning surface for placing the shell in a lying manner; the guide has a guide surface to guide the top cover into the housing.

Further, the guide is configured to: the guide surface can be flush with the inner wall surface of the housing placed flat.

Further, the guide piece is a first step part which is arranged on the positioning plate and close to the shell opening of the shell, and the upper end surface of the first step part can be flush with the inner wall surface of the lower side of the shell; and/or the guide piece for install in the guide block of the horizontal both sides of casing, the guide block include the deflector with set up in the rib of deflector inboard, a terminal surface of rib can the butt in on the shell mouth terminal surface of casing, the medial surface of rib with the medial surface parallel and level of casing, so that the side of top cap is followed the medial surface of rib removes and gets into the casing.

Further, positioning mechanism still includes right the adsorption component of casing location, adsorption component install in on the locating plate, the locating plate have with first locating surface vertically second locating surface, the bottom of casing is in adsorption component's effect down the butt in on the second locating surface.

Further, the adsorption assembly comprises a first driving part, a suction nozzle and a first limiting part, the suction nozzle is driven by the first driving part to reciprocate along the moving direction of the battery core, and the first limiting part is mounted on the positioning plate to limit the reciprocating distance of the suction nozzle.

Further, first locating part include first connecting plate, install in first limiting plate and second limiting plate on the locating plate, first connecting plate with first driving piece is connected, the suction nozzle install in on the first connecting plate, first connecting plate is in under the drive of first driving piece first limiting plate with reciprocating motion between the second limiting plate.

Further, the positioning mechanism comprises an inductor mounted on the positioning plate and a control system connected with the inductor, the shell is placed on the first positioning surface, and the inductor transmits an electric signal to the control system to control the adsorption component to fix the shell.

Further, the horizontal press-fitting device for the battery comprises a clamping mechanism for clamping the guide block, a lifting mechanism connected with the clamping mechanism and a translation mechanism connected with the lifting mechanism, the guide block can move in the moving direction of the shell under the action of the translation mechanism, and the guide block can move in the direction perpendicular to the moving direction of the shell under the action of the lifting mechanism; the translation mechanism comprises a second connecting plate, a second driving piece connected with the second connecting plate and a second limiting piece for adjusting the stroke of the second driving piece, the second limiting piece is installed on the second driving piece, and the lifting mechanism is installed on the second connecting plate.

Furthermore, the clamping mechanism comprises a third driving piece connected with the guide block and a third limiting piece arranged on the guide block, and the third driving piece is connected with the lifting mechanism; the third driving piece drives the guide block to move towards the direction of clamping the shell until the third limiting piece is abutted with the third driving piece so that the guide block clamps the shell.

Further, the pushing mechanism comprises a pushing block, a fourth driving part and a fourth limiting part, and the fourth driving part drives the pushing block to abut against the top cover of the battery cell and pushes the battery cell to enter the shell; the fourth limiting part is installed on the fourth driving part to adjust the depth of the battery cell entering the shell.

The utility model provides a horizontal pressure equipment device of battery, the design carries out the guide of leading to the top cap of electric core, when the casing lies and places on first locating surface, and electric core is at the in-process of the casing of impressing, and the top cap of electric core can get into the casing under the direction of guide, has solved the easy problem of bumping and crowded wound of shell mouth position of top cap and casing, has improved the assembly efficiency and the pressure equipment quality of electric core and casing.

Drawings

Fig. 1 is a schematic structural diagram of a battery cell;

fig. 2 is a schematic structural diagram of a horizontal press-fitting device for a battery according to an embodiment of the present invention, in which a housing is shown;

FIG. 3 is a schematic view of the alignment plate and guide member of FIG. 2 in combination with the housing;

FIG. 4 is a schematic view of the guide shown in FIG. 2;

description of reference numerals:

10. an electric core; 11. a top cover; 11a, a body; 11b, a guide area; 12. a core body; 20. a housing;

100. a positioning mechanism; 110. positioning a plate; 111. a first positioning surface; 112. a second positioning surface; 120. an adsorption component; 121. a first driving member; 122. a suction nozzle; 123. a first limit piece; 1231. a first connecting plate; 1232. a first limit screw; 1233. a second limit screw; 1234. a first limit plate; 1235. a second limiting plate; 130. a guide member; 131. a first step portion; 132. a guide block; 1321. a guide plate; 1322. ribs; 140. an inductor;

200. a pushing mechanism; 210. a fourth drive; 220. a fourth limiting member;

400. a clamping mechanism; 410. a third driving member; 420. a third limiting member;

500. a lifting mechanism;

600. a translation mechanism; 610. a second connecting plate; 620. a second driving member; 630. a second limiting member.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. In the description of the present invention, "up" and "down" refer to the up-down direction shown in fig. 3. It is to be understood that such directional terms are merely for convenience in describing the present invention and to simplify the description, and are not intended to indicate or imply that the device or element so referred to must be in a particular orientation, constructed and operative in a particular orientation, and therefore should not be taken as limiting the invention.

In addition, the descriptions of "first", "second", etc. in the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number or order of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

Referring to fig. 2, the embodiment of the present application provides a horizontal press-fitting device for a battery, including a positioning mechanism 100 for fixing a casing 20 and a pushing mechanism 200 for pressing a battery cell 10 into the casing 20, where the positioning mechanism 100 includes a positioning plate 110 for placing the casing 20 and a guide 130 for guiding a top cover 11 of the battery cell 10, and the positioning plate 110 has a first positioning surface 111 for placing the casing 20 in a lying position; the guide 130 has a guide surface to guide the top cover 11 into the housing 20. Referring to fig. 1, in the embodiment of the present application, a battery cell 10 includes a top cover 11 and a core 12 connected to the top cover 11, where a thickness dimension of the top cover 11 is larger than that of the core 12. The housing 20 is typically an aluminum shell.

The horizontal press-fitting device for the battery, provided by the embodiment of the application, fixes the shell 20 on the one hand, and presses the battery cell 10 into the shell 20 on the other hand, so that the assembly of the battery cell 10 and the shell 20 is completed. The casing 20 is placed on the first positioning surface 111 of the positioning plate 110, and since the thickness dimension of the top cover 11 is larger than that of the core 12, when the battery cell 10 is pressed into the casing 20, the problem that the top cover 11 collides with the shell opening of the casing 20 easily and is damaged by extrusion is solved, and the guide member 130 provided in the embodiment of the present application well solves the problem, and before the top cover 11 reaches the shell opening of the casing 20, the guide member 130 guides the top cover 11, so as to avoid collision between the top cover 11 and the shell opening of the casing 20. It will be appreciated that the guide 130 may be provided in accordance with the structural cooperation of the top cover 11 and the housing 20. The guide 130 may guide the bottom surface of the top cover 11, may guide the side surface of the top cover 11, or both.

Further, the guide 130 is configured to: the guide surface can be flush with the inner wall surface of the housing 20 placed flat. When the guide surface is flush with the inner wall surface of the housing 20, the top cover 11 can enter the housing 20 more smoothly, and the assembly of the top cover 11 and the housing 20 can be more properly performed while avoiding collision between the top cover 11 and the shell opening of the housing 20.

In some embodiments, referring to fig. 3, the guiding element 130 is a first step portion 131 disposed on the positioning plate 110 near the opening of the housing 20, and an upper end surface of the first step portion 131 can be flush with an inner wall surface of the lower side of the housing 20. The housing 20 is placed on the first positioning surface 111, the first step portion 131 is also disposed on the first positioning surface 111 and located at the opening of the housing 20, the height of the first step portion 131 is the same as the wall thickness of the lower side of the housing 20, and at this time, the inner wall surface of the lower side of the housing 20 is flush with the upper end surface of the first step portion 131. In this case, in the process of pressing the battery cell 10 into the casing 20, the top cap 11 directly enters the casing 20 along the guide of the first step portion 131, so that the probability of poor alignment between the top cap 11 and the casing opening of the casing 20 is greatly reduced, the collision between the top cap 11 and the casing opening is avoided, and the assembly efficiency and the press-fitting quality of the battery cell 10 and the casing 20 are improved. It is understood that the first step portion 131 may be integrally formed with the positioning plate 110, or may be a separate structure from the positioning plate 110.

In other embodiments, referring to fig. 3 and 4, the guide member 130 is a guide block 132 installed at two horizontal sides of the housing 20, the guide block 132 includes a guide plate 1321 and ribs 1322 disposed inside the guide plate 1321, an end surface of the ribs 1322 can abut against an end surface of the housing opening of the housing 20, and an inner side surface of the ribs 1322 is flush with an inner side surface of the housing 20, so that the side surface of the top cover 11 moves along the inner side surface of the ribs 1322 and enters the housing 20. That is, the height of ribs 1322 is the same as the thickness of the sidewall of housing 20, and guide blocks 132 are disposed at both horizontal sides of housing 20 to guide both side surfaces of top cover 11, so that top cover 11 enters housing 20 along the inner side surfaces of ribs 1322, thereby preventing the side surfaces of top cover 11 from colliding with the sidewall of housing 20. It is understood that ribs 1322 and guide plate 1321 may be formed as a separate structure or as an integral structure. It is understood that in some embodiments, the first step portion 131 and the guide block 132 may exist at the same time, respectively guiding the bottom surface and the side surface of the top cover 11.

Further, the horizontal press-fitting device for the battery comprises a clamping mechanism 400 for clamping the guide block 132, a lifting mechanism 500 connected with the clamping mechanism 400, and a translation mechanism 600 connected with the lifting mechanism 500, wherein the guide block 132 can move in the moving direction of the housing 20 under the action of the translation mechanism 600, and the guide block 132 can move in the direction perpendicular to the moving direction of the housing 20 under the action of the lifting mechanism 500. The translation mechanism 600 includes a second connecting plate 610, a second driving member 620 connected to the second connecting plate 610, and a second limiting member 630 for adjusting a stroke of the second driving member 620, wherein the second limiting member 630 is mounted on the second driving member 620, and the lifting mechanism 500 is mounted on the second connecting plate 610. That is, the translation mechanism 600, the lifting mechanism 500, and the clamping mechanism 400 may move the guide block 132 in three coordinate axes of space, so that the guide block 132 is fixed to both horizontal sides of the housing 20 after moving. The second limiting member 630 is used to limit the translation distance of the guide block 132, so that the guide block 132 is translated above the opening position of the housing 20. It is to be understood that the second limiting member 630 may be a stroke adjusting nut, and the second driving member 620 may be a cylinder. The horizontal press-fitting device for the battery further comprises a base, and the translation mechanism 600 and the pushing mechanism 200 are installed on the base. The base has a slide rail thereon, and the second connecting plate 610 can slide on the slide rail. The clamping mechanism 400, the lifting mechanism 500 and the translation mechanism 600 are arranged to make the movement of the guide block 132 more flexible, and the second limiting member 630 is arranged to make the movement of the guide block 132 more accurate.

In some embodiments, the clamping mechanism 400 includes a third driving member 410 connected to the guide block 132 and a third limiting member 420 mounted on the guide block 132, wherein the third driving member 410 is connected to the lifting mechanism 500; the third driving element 410 drives the guide block 132 to move toward the direction of clamping the housing 20 until the third limiting element 420 abuts against the third driving element 410 so that the guide block 132 clamps the housing 20. The third driving member 410 may be an air cylinder, and the third limiting member 420 is a limiting nut. That is, the guide block 132 moves under the action of the third driving element 410 until being clamped at two horizontal sides of the housing 20, at this time, the third limiting element 420 arranged on the guide block 132 abuts against the third driving element 410, and the third driving element 410 stops driving, so that the guide block 132 clamps the housing 20. The third driving member 410 clamps the guide block 132 at two horizontal sides of the opening of the casing 20, and the third limiting member 420 limits the clamping effect of the guide block 132 on the casing 20, which is beneficial to the matching between the guide block 132 and the casing 20, so that the top cover 11 of the battery cell 10 enters the casing 20 along the ribs 1322, and the battery cell is highly aligned and is not easy to collide and crush.

It will be appreciated that there are many options for the positioning method used to secure the housing 20, such as suction positioning or clamping positioning or snap positioning, etc. In some embodiments, the positioning mechanism 100 further includes a suction assembly 120 for positioning the housing 20, the suction assembly 120 is mounted on the positioning plate 110, the positioning plate 110 has a second positioning surface 112 perpendicular to the first positioning surface 111, and the bottom of the housing 20 abuts against the second positioning surface 112 under the action of the suction assembly 120. That is, the housing 20 is laid on the first positioning surface 111 to ensure the horizontal position of the housing 20; the bottom of the housing 20 abuts against the second positioning surface 112, so as to ensure the position of the housing 20 in the vertical direction. The housing 20 is positioned by selecting the adsorption positioning manner, on one hand, the adsorption assembly 120 is disposed on one side of the bottom of the housing 20, and the clamping mechanism 400 and the lifting mechanism 500 of the guide block 132 are disposed on one side of the shell opening of the housing 20, so as to avoid interference between the two; on the other hand, the adsorption mechanism has a simple structure, and can easily position the housing 20 through the second positioning surface 112 and ensure the position and the shell opening orientation of the housing 20, which is more reliable than other positioning methods.

In some embodiments, the suction assembly 120 includes a first driving member 121, a suction nozzle 122 connected to the first driving member 121, and a first limiting member 123 for limiting a moving distance of the suction nozzle 122, the suction nozzle 122 reciprocates along a moving direction of the battery cell 10 under the driving of the first driving member 121, and the first limiting member 123 is mounted on the positioning plate 110 to limit the reciprocating distance of the suction nozzle 122. That is, when the suction nozzle 122 is driven by the first driving member 121 to extend out, the suction nozzle 122 can suck the bottom of the housing 20, so that the bottom of the housing 20 abuts against the second positioning surface 112, at this time, the first limiting member 123 limits the suction nozzle 122 to further extend out, and the first driving member 121 stops driving; when the suction nozzle 122 is retracted by the first driving member 121, the suction to the bottom of the housing 20 is released, and at this time, the first stopper 123 restricts the suction nozzle 122 to be further retracted, and the first driving member 121 stops driving. The first driving member 121 may be a cylinder. The suction assembly 120 of the embodiment of the application limits the movement of the suction nozzle 122 between the extended position and the retracted position, so that the suction mechanism can conveniently position and release the housing 20, and the operation is simple and easy to realize. A first limit screw 1232 and a second limit screw 1233 installed on the first connection plate 1231,

further, the first limiting member 123 includes a first connecting plate 1231, a first limiting plate 1234 and a second limiting plate 1235 mounted on the positioning plate 110, the first connecting plate 1231 is connected to the first driving member 121, the suction nozzle 122 is mounted on the first connecting plate 1231, and the first connecting plate 1231 is driven by the first driving member 121 to reciprocate between the first limiting plate 1234 and the second limiting plate 1235. First limiting screw 1232 and second limiting screw 1233 can be installed respectively to the front and back both ends of first connecting plate 1231, and the first limiting screw 1232 limits the reach of suction nozzle 122 with the butt of first limiting plate 1234, and the shrink distance of suction nozzle 122 is limited in the butt of second limiting screw 1233 and second limiting plate 1235. It is understood that the first limit screw 1232 is installed at one end of the first connection plate 1231 close to the housing 20, and the second limit screw 1233 is installed at one end of the first connection plate 1231 far from the housing 20. That is, the position of the suction nozzle 122 is switched by the abutment of the first limit screw 1232 against the first limit plate 1234 and the abutment of the second limit screw 1233 against the second limit plate 1235, so that the position of the suction nozzle 122 is changed easily and accurately, and the housing 20 is provided with better positioning and de-positioning performance.

In some embodiments, the pushing mechanism 200 includes a pushing block (not shown), a fourth driving member 210, and a fourth limiting member 220, wherein the fourth driving member 210 drives the pushing block to abut against the top cover 11 of the battery cell 10 and push the battery cell 10 into the casing 20; the fourth limiting member 220 is mounted on the fourth driving member 210 to adjust the depth of the battery cell 10 entering the casing 20. It is understood that the fourth driving member 210 may be an air cylinder, and the fourth limiting member 220 may be a stroke adjusting nut mounted on the air cylinder. The top cover 11 of the battery cell 10 includes a body 11a and a guide region 11b, and the guide region 11b is connected to the core 12 of the battery cell 10.

During the assembly of the casing 20 and the battery cell 10, the force between the casing 20 and the top cover 11 is large, so that the top cover 11 is easy to eject from the casing 20. Therefore, the housing 20 and the battery cell 10 can be assembled by horizontal pre-press-fitting and then vertical press-fitting. In the process of horizontal pre-press fitting, only the guide area 11b of the top cover 11 is assembled with the shell 20, the body 11a of the top cover 11 is not pressed into the shell 20, and the acting force between the shell 20 and the top cover 11 is small, so that the phenomenon that the top cover 11 is popped out of the shell 20 can be effectively prevented. In addition, in the assembly method, the assembly of the maximum extrusion force area between the top cover 11 and the housing 20, namely the assembly of the body 11a of the top cover 11 and the housing 20, is avoided in the horizontal pre-press mounting mode, so that the situation that the body 11a of the top cover 11 and the housing 20 are damaged due to top damage caused by poor alignment in the prior art can be greatly reduced. The fourth stopper 220 can adjust the moving distance of the fourth driver 210, and restricts the fourth driver 210 to press only the guide area 11b of the top cover 11 into the housing 20 without the body 11a of the top cover 11 entering the housing 20, and then press the body 11a of the top cover 11 into the housing 20 by vertical press-fitting.

In some embodiments, the positioning mechanism 100 includes a sensor 140 mounted on the positioning plate 110 and a control system connected to the sensor 140, the housing 20 is placed on the first positioning surface 111, and the sensor 140 transmits an electrical signal to the control system to control the suction assembly 120 to fix the housing 20. That is, the sensor 140 is used to sense whether the housing 20 is placed on the positioning plate 110, and when the housing 20 is placed, the sensor 140 transmits a signal indicating that the housing 20 is placed to the control system, so as to control the adsorption assembly 120 to position the housing 20. Inductor 140 and control system's cooperation, control adsorption component 120 adsorbs casing 20 when having the material, and adsorption component 120 is in unoperated state when not placing casing 20, realizes absorbent automation.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the scope of the present invention. Moreover, the technical solutions of the present invention between the various embodiments can be combined with each other, but it is necessary to be able to be realized by a person having ordinary skill in the art as a basis, and when the technical solutions are combined and contradictory or cannot be realized, it should be considered that the combination of the technical solutions does not exist, and the present invention is not within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a horizontal pressure equipment device of battery which characterized in that: the battery cell positioning mechanism comprises a positioning mechanism for fixing a shell and a pushing mechanism for pressing a battery cell into the shell, wherein the positioning mechanism comprises a positioning plate for placing the shell and a guide piece for guiding a top cover of the battery cell, and the positioning plate is provided with a first positioning surface for placing the shell in a lying manner; the guide has a guide surface to guide the top cover into the housing.

2. The horizontal press-fitting device for batteries according to claim 1, wherein the guide member is configured to: the guide surface can be flush with the inner wall surface of the housing placed flat.

3. The horizontal press-fitting device for the batteries according to claim 1 or 2, wherein the guide member is a first step portion provided on the positioning plate near the opening of the housing, and an upper end surface of the first step portion is capable of being flush with an inner wall surface of the lower side of the housing; and/or

The guide part for install in the guide block of the horizontal both sides of casing, the guide block include the deflector with set up in the inboard rib of deflector, a terminal surface of rib can the butt in on the shell mouth terminal surface of casing, the medial surface of rib with the medial surface parallel and level of casing, so that the side of top cap is followed the medial surface of rib removes and gets into the casing.

4. The horizontal type press-fitting device for the batteries according to claim 1 or 2, wherein the positioning mechanism further comprises an adsorption component for positioning the housing, the adsorption component is mounted on the positioning plate, the positioning plate is provided with a second positioning surface perpendicular to the first positioning surface, and the bottom of the housing abuts against the second positioning surface under the action of the adsorption component.

5. The horizontal type press-fitting device for the battery according to claim 4, wherein the suction assembly comprises a first driving member, a suction nozzle and a first limiting member, the suction nozzle is driven by the first driving member to reciprocate along the moving direction of the battery core, and the first limiting member is mounted on the positioning plate to limit the reciprocating distance of the suction nozzle.

6. The horizontal type press-fitting device for batteries according to claim 5, wherein the first limiting member comprises a first connecting plate, a first limiting plate and a second limiting plate, the first limiting plate and the second limiting plate are mounted on the positioning plate, the first connecting plate is connected with the first driving member, the suction nozzle is mounted on the first connecting plate, and the first connecting plate is driven by the first driving member to reciprocate between the first limiting plate and the second limiting plate.

7. The horizontal type press-fitting device for the batteries according to claim 4, wherein the positioning mechanism comprises an inductor mounted on the positioning plate and a control system connected with the inductor, the housing is placed on the first positioning surface, and the inductor transmits an electric signal to the control system to control the adsorption assembly to fix the housing.

8. The horizontal type press-fitting device for the batteries according to claim 3, wherein the horizontal type press-fitting device for the batteries comprises a clamping mechanism for clamping the guide block, a lifting mechanism connected with the clamping mechanism and a translation mechanism connected with the lifting mechanism, the guide block can move in the moving direction of the shell under the action of the translation mechanism, and the guide block can move in the direction perpendicular to the moving direction of the shell under the action of the lifting mechanism;

the translation mechanism comprises a second connecting plate, a second driving piece connected with the second connecting plate and a second limiting piece for adjusting the stroke of the second driving piece, the second limiting piece is installed on the second driving piece, and the lifting mechanism is installed on the second connecting plate.

9. The horizontal type press-fitting device for the battery according to claim 8, wherein the clamping mechanism comprises a third driving member connected with the guide block and a third limiting member mounted on the guide block, and the third driving member is connected with the lifting mechanism; the third driving piece drives the guide block to move towards the direction of clamping the shell until the third limiting piece is abutted with the third driving piece so that the guide block clamps the shell.

10. The horizontal type press-fitting device for the battery according to claim 1, wherein the pushing mechanism comprises a pushing block, a fourth driving member and a fourth limiting member, and the fourth driving member drives the pushing block to abut against the top cover of the battery core and push the battery core to enter the casing; the fourth limiting part is installed on the fourth driving part to adjust the depth of the battery cell entering the shell.

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