CN220838424U - Battery press-fitting pre-welding module and battery processing device - Google Patents

Abstract

The utility model discloses a battery press-fitting pre-welding module and a battery processing device, wherein the battery press-fitting pre-welding module comprises: mounting platform and welding mechanism, mounting platform includes first mounting plane, welding mechanism sets up in first mounting plane, welding mechanism includes the platform board, go into shell and draw a mouthful subassembly and battery locating component, the platform board parallel arrangement is in first mounting plane surface, go into shell and draw a mouthful subassembly, battery locating component sets up in the platform board surface, go into shell and draw a mouthful subassembly including first mount pad and adsorption piece, the adsorption piece sets up in first mount pad and can follow first mount pad reciprocating motion, the adsorption piece can adsorb target battery shell, battery locating component location target battery shell makes the target battery be located the target pressure equipment presolder region. The technical scheme of the utility model is beneficial to reducing the loss of the battery in the press-fitting process, improving the accuracy of positioning the battery in the pre-welding process and improving the working efficiency of press-fitting and pre-welding of the battery.

Description

Battery press-fitting pre-welding module and battery processing device

Technical Field

The utility model relates to the technical field of battery processing, in particular to a battery press-fitting pre-welding module and a battery processing device.

Background

With the increasing miniaturization and portability of electronic products, batteries are increasingly widely applied, and play a great role in various aspects of modern society life. The battery comprises a shell, a battery top cover and a battery core, wherein the shell is internally provided with a cavity with an opening at the upper end, the battery top cover is covered on the opening at the upper end of the shell, an inner cavity of the battery is formed by surrounding between the battery top cover and the shell, and the battery core can be placed in the inner cavity. In order to realize the function of the battery, the battery top cover and the battery core need to be directly connected, and in general, the connection is performed through a current collecting plate. When the battery core needs to be connected with the battery top cover, the extension section of the battery core is connected with the battery top cover through the electrode lug. The shell entering machine is equipment for inputting the battery core in the assembly section into the aluminum shell, and the battery module needs to be welded with the electrode column through the connecting sheet between different batteries in the production process. In the prior art, when the battery module is welded, the battery is often directly placed in the laser welding equipment for welding operation, and because the battery is not fixed in position, the problems of unstable welding, deviation of the welding position from a preset position, low welding efficiency and low welding yield often occur, so that the loss of the battery in the press-fitting process is large, and the production cost is improved.

Disclosure of utility model

The embodiment of the utility model provides a battery press-fitting pre-welding module and a battery processing device, which can be beneficial to reducing the loss of a battery in the press-fitting process, improving the accuracy of positioning the battery in the pre-welding process, improving the working efficiency of the battery press-fitting pre-welding and reducing the production cost.

In a first aspect, an embodiment of the present utility model provides a battery press-fitting and pre-welding module, where the battery press-fitting and pre-welding module includes: mounting platform and welding mechanism. The mounting platform includes a first mounting plane. The welding mechanism is arranged on the first installation plane. The welding mechanism comprises a platform plate, a shell inlet pull opening assembly and a battery positioning assembly. The platform plate is arranged on the surface of the first installation plane in parallel, and the shell inlet pull opening assembly and the battery positioning assembly are arranged on the surface of the platform plate. The shell inlet opening component comprises a first mounting seat and an adsorption piece, the adsorption piece is arranged on the first mounting seat and can reciprocate along the first mounting seat, and the adsorption piece can adsorb the target battery shell. The positioning assembly positions the target battery housing such that the target battery is located within the target press-fit pre-weld work area.

According to the technical scheme, the battery locating component is arranged to locate the target battery in the process of press-fitting and pre-welding, the adsorption piece is used for adsorbing the target battery shell, the shape of the target battery shell is changed in the process of stretching out the adsorption piece, the loss of the battery in the process of press-fitting is reduced, the accuracy of locating the battery in the process of pre-welding is improved, the working efficiency of press-fitting and pre-welding of the battery is improved, and the production cost is reduced.

According to the foregoing embodiment of the first aspect of the present utility model, the adsorbing member includes a contracted state and an extended state. In the contracted state, the battery shell is concave, and the absorption part is separated from the battery shell; in the extended state, the adsorption surface of the adsorption member extends out and adsorbs the battery case so that the battery case is expanded. According to the technical scheme, the adsorption piece is arranged to adsorb the target battery shell, so that the shape of the target battery shell is changed in the process of stretching out the adsorption piece, the loss of the battery in the press mounting process is reduced, the accuracy of positioning the battery in the pre-welding process is improved, the working efficiency of press mounting and pre-welding of the battery is improved, and the production cost is reduced.

According to the foregoing embodiment of the first aspect of the present utility model, the inlet housing pull head assembly further includes a first driver. The first driving piece is arranged on the first mounting seat, and drives the absorbing piece to reciprocate along the first mounting seat and switch between a contracted state and an extended state.

According to the foregoing embodiment of the first aspect of the present utility model, the battery positioning assembly includes: the first positioning assembly and the second positioning assembly. The first positioning component comprises a second driving piece and a first positioning bracket, the second driving piece drives the first positioning bracket to move, the first driving piece is arranged on the platform plate and is parallel to the first mounting seat, and the first positioning bracket is arranged below the first mounting seat. The second locating component comprises a third driving piece and a second locating support, the third driving piece drives the second locating support to move, the third driving piece is arranged on the platform plate and is perpendicular to the second driving piece, and the second locating piece is arranged below the first mounting seat and is perpendicular to the first locating support. According to the technical scheme, the battery positioning assembly is arranged to position the target battery in the press-fitting pre-welding process, so that the accuracy of positioning the battery in the pre-welding process is improved, and the working efficiency of the press-fitting pre-welding of the battery is improved.

According to the foregoing embodiment of the first aspect of the present utility model, the first positioning assembly and the second positioning assembly clamp the battery case in the contracted state and the extended state. The first positioning component is a battery long-side positioning component, and the second positioning component is a battery short-side positioning component.

According to the foregoing embodiment of the first aspect of the present utility model, the suction member is a suction cup. The first driving piece, the second driving piece and the third driving piece are slipway driving cylinders.

According to the foregoing embodiment of the first aspect of the present utility model, the welding mechanism further includes a spacing assembly. The spacing subassembly includes: the second mounting seat and the limiting piece are arranged in parallel. The limiting piece is arranged on the second mounting seat, and the limiting piece can limit the battery to be in the target press-fitting pre-welding working area. According to the technical scheme, the limiting assembly is arranged to limit the target battery in the press-fitting pre-welding process, so that the accuracy of the position of the target battery in the pre-welding process is improved, and the working efficiency of the press-fitting pre-welding of the battery is improved.

According to the foregoing embodiment of the first aspect of the present utility model, the battery press-fitting pre-welding module further includes: an electrical slip ring assembly. The electric slip ring assembly is perpendicular to the mounting platform, and one end of the electric slip ring assembly is abutted with the welding mechanism.

According to a further embodiment of the first aspect of the utility model, the mounting platform further comprises a second mounting plane. The battery pressure equipment prewelding module still includes: and a support assembly. The support assembly is arranged on the second installation plane and comprises a right-angle support structure.

In a second aspect, an embodiment of the present utility model provides a battery processing device, where the battery processing device includes a battery press-fitting pre-welding module, a feeding module, and a discharging module according to any of the foregoing embodiments of the first aspect of the present utility model. The feeding module can convey the target battery into the battery press-fitting pre-welding module, and the discharging module can convey the processed battery out of the battery press-fitting pre-welding module.

According to the technical scheme, the target battery is conveyed into the battery press-fit pre-welding module through the feeding module, the battery positioning assembly in the battery press-fit pre-welding module positions the target battery in the press-fit pre-welding process, the target battery shell is adsorbed through the adsorption piece, the shape of the target battery shell is changed in the extending process of the adsorption piece, the battery after press-fit pre-welding is conveyed out of the battery press-fit pre-welding module to other working areas through the discharging module, the loss of the battery in the press-fit process is reduced, the accuracy of positioning the battery in the pre-welding process is improved, and the working efficiency of the battery press-fit pre-welding is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of an embodiment of a battery press-fit pre-welding module according to the present utility model;

Fig. 2 is a schematic diagram of the whole structure of a welding mechanism of an embodiment of the battery press-fitting pre-welding module of the present utility model.

Reference numerals illustrate:

the device comprises a mounting platform-100, a welding mechanism-200 and an electric slip ring assembly-300. A support assembly-400;

The battery module comprises a first mounting plane-110, a second mounting plane-120, a platform plate-210, a shell-in pull-out assembly-230, a battery positioning assembly-240 and a right-angle supporting structure-410;

The device comprises a first mounting seat-231, an adsorption piece-232, a first driving piece-233, a second driving piece-241, a first positioning bracket-242, a third driving piece-243, a second positioning bracket-244, a second mounting seat-251 and a limiting piece-252.

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The embodiment of the utility model provides a battery press-fitting pre-welding module and a battery processing device, which can be beneficial to reducing the loss of a battery in the press-fitting process, improving the accuracy of positioning the battery in the pre-welding process, improving the working efficiency of the battery press-fitting pre-welding and reducing the production cost.

Fig. 1 is a schematic overall structure of an embodiment of a battery press-fitting pre-welding module according to the present utility model. The battery pressure equipment prewelding module includes: mounting platform 100 and welding mechanism 200. The mounting platform 100 includes a first mounting plane 110. The soldering mechanism 200 is disposed on the first mounting plane 110. Fig. 2 is a schematic diagram showing the overall structure of a welding mechanism 200 according to an embodiment of the battery press-fitting pre-welding module of the present utility model. The welding mechanism 200 includes a platform plate 210, a shell pull assembly 230, and a battery positioning assembly 240. The platform plate 210 is disposed on the surface of the first installation plane 110 in parallel, and the shell inlet pull opening assembly 230 and the battery positioning assembly 240 are disposed on the surface of the platform plate 210. The inlet case pull opening assembly 230 includes a first mount 231 and an adsorption member 232, the adsorption member 232 is disposed on the first mount 231 and can reciprocate along the first mount 231, and the adsorption member 232 can adsorb a target battery case. The battery positioning assembly 240 positions the target battery housing such that the target battery is located within the target press-fit pre-weld work area.

According to the technical scheme, the battery locating component 240 is arranged to locate the target battery in the process of pre-welding in a press-fitting manner, the target battery shell is adsorbed by the adsorption piece 232, the shape of the target battery shell is changed in the process of extending the adsorption piece 232, the loss of the battery in the press-fitting manner is reduced, the accuracy of locating the battery in the pre-welding process is improved, the working efficiency of the battery in the press-fitting and pre-welding manner is improved, and the production cost is reduced.

In an embodiment of the present utility model, the absorbent member 232 includes a contracted state and an extended state. In the contracted state, the battery case is concave, and the absorbent member 232 is separated from the battery case; in the extended state, the adsorption surface of the adsorption member 232 extends and adsorbs the battery case such that the battery case is expanded. According to the technical scheme, the adsorption piece 232 is arranged to adsorb the target battery shell, so that the shape of the target battery shell is changed in the extending process of the adsorption piece 232, the loss of the battery in the press mounting process is reduced, the accuracy of positioning the battery in the pre-welding process is improved, the working efficiency of press mounting and pre-welding of the battery is improved, and the production cost is reduced.

As shown in fig. 2, the in-shell pull assembly 230 further includes a first driver 233. The first driving member 233 is disposed on the first mounting seat 231, and the first driving member 233 drives the suction member 232 to reciprocate along the first mounting seat 231 and switch between a retracted state and an extended state.

In the embodiment of the utility model, in the battery press-fitting and pre-welding module, the first driving piece 233 drives the first mounting seat 231 and the adsorption piece 232 arranged on the first mounting seat 231 to synchronously move, when the unfinished target battery is sent into the battery press-fitting and pre-welding module, the aluminum shell and the cover plate of the battery are positioned through the battery positioning assembly 240, the aluminum shell of the battery is concave, the first driving piece 233 drives the adsorption piece 232 to extend, and the adsorption piece 232 is converted from a contracted state to an extended state, so that the shape of the aluminum shell of the battery is changed from concave to outward-expanded, and the nondestructive press-fitting function and the pre-welding positioning function are realized in the process of press-fitting and pre-welding the target battery.

As shown in fig. 2, the battery positioning assembly 240 includes: the first positioning assembly and the second positioning assembly. The first positioning component includes a second driving member 241 and a first positioning bracket 242, the second driving member 241 drives the first positioning bracket 242 to move, the first driving member 233 is disposed on the platform plate 210 and parallel to the first mounting seat 231, and the first positioning bracket 242 is disposed below the first mounting seat 231. The second positioning assembly includes a third driving member 243 and a second positioning bracket 244, the third driving member 243 drives the second positioning bracket 244 to move, the third driving member 243 is disposed on the platform plate 210 and is perpendicular to the second driving member 241, and the second positioning member is disposed below the first mounting seat 231 and is perpendicular to the first positioning bracket 242. According to the technical scheme, the battery locating component 240 is arranged to locate the target battery in the process of press-fitting and pre-welding, so that the accuracy of locating the battery in the process of pre-welding is improved, and the working efficiency of press-fitting and pre-welding of the battery is improved.

In the embodiment of the utility model, the first positioning component and the second positioning component clamp the battery shell in the contracted state and the extended state. As shown in fig. 2, the first positioning component is a long-side positioning component of the battery, and the second positioning component is a short-side positioning component of the battery.

In the embodiment of the utility model, in the battery press-fitting and pre-welding module, the first driving member 233 drives the first mounting seat 231 and the adsorbing member 232 arranged on the first mounting seat 231 to synchronously move, when the unfinished target battery is sent into the battery press-fitting and pre-welding module, the long side of the battery is positioned by the first positioning member, the short side of the battery is positioned by the second positioning member to position the aluminum shell and the cover plate of the battery, the aluminum shell of the battery is concave, the first driving member 233 drives the adsorbing member 232 to extend, and the adsorbing member 232 is converted from a contracted state to an extended state, so that the shape of the aluminum shell of the battery is changed from concave to outward expanded, and the lossless press-fitting function and the pre-welding positioning function are realized in the process of press-fitting and pre-welding the target battery.

As shown in fig. 1 to 2, the suction member 232 is a suction cup. The first driving piece 233, the second driving piece 241 and the third driving piece 243 are slipway driving cylinders. In other embodiments, other forms of drive members, such as drive motors, may be used. The form of the driving member is not limited in the present application, and one skilled in the art can determine the form of the driving member according to actual needs.

As shown in fig. 2, the welding mechanism 200 also includes a spacing assembly. The spacing subassembly includes: the second mounting seat 251 and the limiting member 252, the second mounting seat 251 and the third driving member 243 are disposed in parallel. The limiting piece 252 is arranged on the second mounting seat 251, and the limiting piece 252 can limit the battery in the target press-fitting pre-welding working area. According to the technical scheme, the limiting assembly is arranged to limit the target battery in the press-fitting pre-welding process, so that the accuracy of the position of the target battery in the pre-welding process is improved, and the working efficiency of the press-fitting pre-welding of the battery is improved.

As shown in fig. 1, the battery press-fitting pre-welding module further includes: an electrical slip ring assembly 300. The electric slip ring assembly 300 is arranged perpendicular to the mounting platform 100, and one end of the electric slip ring assembly 300 is abutted with the welding mechanism 200.

As shown in fig. 1, the mounting platform 100 further includes a second mounting plane 120. The battery pressure equipment prewelding module still includes: support assembly 400. The support assembly 400 is disposed on the second mounting plane 120, and the support assembly 400 includes a right angle support structure 410.

The embodiment of the utility model provides a battery processing device, which comprises a battery press-fitting pre-welding module, a feeding module and a discharging module according to any one of the embodiments of the utility model. The feeding module can convey the target battery into the battery press-fitting pre-welding module, and the discharging module can convey the processed battery out of the battery press-fitting pre-welding module.

The battery pressure equipment prewelding module includes: mounting platform 100 and welding mechanism 200. The mounting platform 100 includes a first mounting plane 110. The soldering mechanism 200 is disposed on the first mounting plane 110. Fig. 2 is a schematic diagram showing the overall structure of a welding mechanism 200 according to an embodiment of the battery press-fitting pre-welding module of the present utility model. The welding mechanism 200 includes a platform plate 210, a shell pull assembly 230, and a battery positioning assembly 240. The platform plate 210 is disposed on the surface of the first installation plane 110 in parallel, and the shell inlet pull opening assembly 230 and the battery positioning assembly 240 are disposed on the surface of the platform plate 210. The inlet case pull opening assembly 230 includes a first mount 231 and an adsorption member 232, the adsorption member 232 is disposed on the first mount 231 and can reciprocate along the first mount 231, and the adsorption member 232 can adsorb a target battery case. The battery positioning assembly 240 positions the target battery housing such that the target battery is located within the target press-fit pre-weld work area.

In the embodiment of the utility model, in the battery press-fitting and pre-welding module, the first driving piece 233 drives the first mounting seat 231 and the adsorption piece 232 arranged on the first mounting seat 231 to synchronously move, when the unfinished target battery is sent into the battery press-fitting and pre-welding module, the aluminum shell and the cover plate of the battery are positioned through the battery positioning assembly 240, the aluminum shell of the battery is concave, the first driving piece 233 drives the adsorption piece 232 to extend, and the adsorption piece 232 is converted from a contracted state to an extended state, so that the shape of the aluminum shell of the battery is changed from concave to outward-expanded, and the nondestructive press-fitting function and the pre-welding positioning function are realized in the process of press-fitting and pre-welding the target battery.

According to the technical scheme, the target battery is conveyed into the battery press-fit pre-welding module through the feeding module, the battery positioning assembly 240 in the battery press-fit pre-welding module positions the target battery in the process of press-fit pre-welding, the target battery shell is adsorbed through the adsorption piece 232, the shape of the target battery shell is changed in the process of extending the adsorption piece 232, the battery after press-fit pre-welding is conveyed out of the battery press-fit pre-welding module to other working areas through the discharging module, loss of the battery in the press-fit process is reduced, accuracy of positioning the battery in the pre-welding process is improved, and working efficiency of battery press-fit pre-welding is improved.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (10)

1. The utility model provides a battery pressure equipment prewelding module, its characterized in that, battery pressure equipment prewelding module includes:

A mounting platform comprising a first mounting plane; and

The welding mechanism is arranged on the first installation plane and comprises a platform plate, a shell inlet and outlet component and a battery positioning component, the platform plate is arranged on the surface of the first installation plane in parallel, the shell inlet and outlet component and the battery positioning component are arranged on the surface of the platform plate,

The shell-in pull-out assembly comprises a first mounting seat and an adsorption piece, wherein the adsorption piece is arranged on the first mounting seat and can reciprocate along the first mounting seat, and the adsorption piece can adsorb a target battery shell; the battery positioning assembly positions the target battery housing so that the target battery is located in the target press-fit pre-welding working area.

2. The battery press-fit pre-weld module of claim 1, wherein the suction member comprises a contracted state in which the battery case is recessed and an extended state in which the suction member is separated from the battery case; in the extended state, the adsorption surface of the adsorption member extends out and adsorbs the battery case so that the battery case is expanded.

3. The battery press-fit pre-welding module of claim 2, wherein the shell-in pull-out assembly further comprises a first driving member, the first driving member is disposed on the first mounting seat, and the first driving member drives the adsorbing member to reciprocate along the first mounting seat and switch between the contracted state and the extended state.

4. The battery press-fit pre-weld module of claim 3, wherein the battery positioning assembly comprises:

The first positioning assembly comprises a second driving piece and a first positioning bracket, the second driving piece drives the first positioning bracket to move, the first driving piece is arranged on the platform plate and is parallel to the first mounting seat, and the first positioning bracket is arranged below the first mounting seat; and

The second positioning assembly comprises a third driving piece and a second positioning support, the third driving piece drives the second positioning support to move, the third driving piece is arranged on the platform plate and is perpendicular to the second driving piece, and the second positioning support is arranged below the first mounting seat and is perpendicular to the first positioning support.

5. The battery press-fit pre-weld module as set forth in claim 4, wherein in the contracted state and the extended state, the first positioning assembly and the second positioning assembly clamp the battery housing; the first positioning component is a battery long-side positioning component, and the second positioning component is a battery short-side positioning component.

6. The battery press-fit pre-welding module as set forth in claim 4, wherein the suction member is a suction cup, and the first driving member, the second driving member, and the third driving member are slide table driving cylinders.

7. The battery press-fit pre-weld module of claim 4, wherein the welding mechanism further comprises a limit assembly comprising:

The second mounting seat is arranged in parallel with the third driving piece; and

The limiting piece is arranged on the second mounting seat, and the limiting piece can limit the battery to be in the target press-fit pre-welding working area.

8. The battery press-fit pre-weld module of claim 7, further comprising:

And one end of the electric slip ring assembly is abutted with the welding mechanism.

9. The battery press-fit pre-weld module of claim 7, wherein the mounting platform further comprises a second mounting plane, the battery press-fit pre-weld module further comprising:

the support assembly is arranged on the second installation plane and comprises a right-angle support structure.

10. A battery processing apparatus, characterized in that the battery processing apparatus comprises:

The battery press-fit pre-welding module according to any one of claims 1 to 9; and

The battery press-fit pre-welding device comprises a charging module and a discharging module, wherein the charging module can convey a target battery into the battery press-fit pre-welding module, and the discharging module can convey the processed battery out of the battery press-fit pre-welding module.