CN217062202U - Module double-pin mechanism and battery module cooling assembly equipment thereof - Google Patents

Abstract

The utility model discloses a module double pin mechanism, it includes the location base plate and respectively installs the first side on the location base plate and pushes away the device, second side pushes away device and fixed position structure, it carries the seat to install the module on the location base plate, two first side push away the device and locate the module respectively and carry the front and back both sides of seat and just to arranging, fixed position structure and second side push away the device and locate the module respectively and carry the left and right sides of seat and just to arranging, first side push away the device, second side push away device and fixed position structure are to surround the module and carry the seat and arrange, second side push away the device and push to fixed position structure with both when battery module and water-cooling board are placed on the module carries the seat, first side push away the device and do the motion that is close to module and carry the seat again, with the tight pond module of clamp in the front and back direction. The utility model discloses a module double pin mechanism has the advantage that the location is effectual and can realize automatic equipment. Additionally, the utility model also discloses a battery module cooling equipment.

Description

Module double pin mechanism and battery module cooling equipment thereof

Technical Field

The utility model relates to a battery processing equipment field especially relates to a battery module cooling equipment.

Background

The battery module during operation can distribute out a large amount of heat, and the working property and the life-span of battery are influenced by the temperature, consequently need avoid letting the battery be in high temperature environment, and this just needs to set up cooling device and dispels the heat to the battery module. At present, generally set up the water-cooling board between the battery module and dispel the heat to the battery module, current equipment is difficult to effective positioning module, and the assembling process is numerous and diverse, and the assembling process is wasted time and energy.

Therefore, a battery module cooling and assembling apparatus with good positioning effect and automatic assembly is needed to overcome the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a fix a position effectual and realize the module double pin mechanism of automatic equipment.

Another object of the utility model is to provide a battery module cooling equipment that location effect is good and realize automatic equipment.

In order to achieve the above object, the utility model discloses a module double pin mechanism is suitable for splicing into double cell module with two battery module and water-cooling board. The module double-assembly mechanism comprises a positioning substrate, and a first side pushing device, a second side pushing device and a fixed positioning structure which are arranged on the positioning substrate respectively, wherein a module carrying seat is arranged on the positioning substrate, the first side pushing device, the second side pushing device and the fixed positioning structure are arranged on the front side and the rear side of the module carrying seat respectively and are opposite to each other, the fixed positioning structure and the second side pushing device are arranged on the left side and the right side of the module carrying seat respectively and are opposite to each other, the first side pushing device, the second side pushing device and the fixed positioning structure surround the module carrying seat and are arranged, the second side pushing device pushes a battery module and a water cooling plate to the fixed positioning structure when the battery module and the water cooling plate are placed on the module carrying seat, and the first side pushing device moves close to the module carrying seat so as to clamp the double battery modules in the front and rear directions.

Preferably, the first side pushing device includes a first mounting seat, a first driver and a first pushing plate, the first mounting seat is mounted on the positioning substrate, the first driver is mounted on the first mounting seat, the first pushing plate is mounted at an output end of the first driver, the first pushing plate is located on one side of the module carrier seat in the front-back direction, and the first driver drives the first pushing plate to move away from or close to the module carrier seat.

Preferably, the first side pushing device further comprises a guide rod, the guide rod is slidably mounted on the first mounting seat along the movement direction of the first pushing plate, and the end of the guide rod is mounted on the first pushing plate.

Preferably, the first side-pushing device further comprises a first buffer mounted on the first mounting seat, and the first buffer is arranged opposite to the first pushing plate.

Preferably, the second side pushing device includes a second mounting seat, a second driver and a second pushing plate, the second mounting seat is slidably mounted on the positioning substrate, the second mounting seat is mounted at an output end of the second driver, the second driver drives the second mounting seat to slide away from or close to the module carrier, the second pushing plate is mounted on the second mounting seat, and the second pushing plate is located on one side of the module carrier in the left-right direction.

Preferably, the positioning substrate is provided with a slide rail extending in the left-right direction, and the second mounting seat is slidably mounted on the slide rail.

Preferably, the second side pushing device further comprises a limiting seat and a second buffer, the limiting seat is mounted on the second mounting seat, the second buffer is mounted on the positioning substrate, and the second buffer is arranged opposite to the limiting seat in the left-right direction at intervals.

In order to realize another purpose, the utility model discloses a battery module cooling equipment includes board and foretell module double pin mechanism, module double pin mechanism can remove liftoff install in the top of board.

Preferably, the utility model discloses a battery module cooling equipment still including install in push down the device on the board, push down the device relative the positioning substrate has one at least and is close to the module carries the pushing down position of seat and one keeps away from the module carries the position of dodging of seat, push down the device be in the double cell module place in when the module carries the seat on the motion extremely push down the position and push down to on the top side of double cell module.

Preferably, the pressing device includes a third driver, a mounting bracket, a fourth driver, and a pressing plate, the mounting bracket is arranged in a sliding manner, the mounting bracket is mounted at an output end of the third driver, the third driver drives the mounting bracket to slide away from or close to the positioning substrate, the fourth driver is mounted on the mounting bracket, the pressing plate is mounted at an output end of the fourth driver, and the fourth driver drives the pressing plate to slide up and down.

Compared with the prior art, the utility model discloses a module double pin mechanism positioning substrate and respectively install first side pusher, second side pusher and fixed position structure on positioning substrate. The positioning substrate is provided with a module carrying seat, the two first side pushing devices are respectively arranged on the front side and the rear side of the module carrying seat and are arranged just opposite to each other, the second side pushing devices of the fixed positioning structure are respectively arranged on the left side and the right side of the module carrying seat and are arranged just opposite to each other, and the first side pushing devices, the second side pushing devices and the fixed positioning structure are arranged to surround the module carrying seat. The second side pushing device pushes the battery module and the water cooling plate to the fixed positioning structure when the battery module and the water cooling plate are placed on the module carrier seat, and the first side pushing device moves close to the module carrier seat so as to clamp the double battery modules in the front-back direction. When the battery module is processed, the second side pushing device pushes the battery module and the water cooling plate to the fixed positioning structure, so that the battery module and the water cooling plate lean against the fixed positioning structure, and the positioning of the double battery modules in the left and right directions is completed. Then, the first side pushing device clamps the double battery modules in the front-back direction to position the double battery modules in the front-back direction, after the operation is completed, the side faces of the double battery modules are positioned, the side faces of the assembled double battery modules are flush, and the assembling effect is good. And the whole assembly process is to push the double battery modules to complete the assembly, and the assembly process is simple and easy to process.

Understandably, because the utility model discloses a battery module cooling equipment includes board and foretell module double pin mechanism, therefore battery module cooling equipment is corresponding to have the location effectual and can realize the advantage of automatic equipment.

Drawings

Fig. 1 is a perspective view of the battery module cooling and assembling apparatus of the present invention.

Fig. 2 is a perspective view of the battery module assembling apparatus at another angle.

Fig. 3 is a perspective view of the modular doublet mechanism.

Detailed Description

In order to explain the technical contents and structural features of the present invention in detail, the following description is made with reference to the embodiments and the accompanying drawings.

As shown in fig. 1 to fig. 3, the battery module cooling and assembling apparatus 100 of the present invention includes a machine table 10 and a module double-assembling mechanism 20. The module double-assembling mechanism 20 is movably installed on the machine 10. The module double-assembly mechanism 20 can integrally move away from the machine table 10 after the two battery modules 200 and the water-cooling plate 300 are assembled into the double battery module 400, so that the double battery module 400 is kept on the module double-assembly mechanism 20 and flows into the next processing station, and repeated positioning is avoided.

The module double-assembling mechanism 20 is adapted to assemble two battery modules 200 and the water-cooling plate 300 into a double battery module 400. The module double-assembling mechanism 20 positions the substrate 21, and a first side-pushing device 22, a second side-pushing device 23 and a fixed positioning structure 24 which are respectively installed on the positioning substrate 21. The positioning substrate 21 is provided with a module carrier 25, the two first side pushing devices 22 are respectively arranged on the front and back sides of the module carrier 25 and arranged opposite to each other, the second side pushing devices 23 of the fixed positioning structure 24 are respectively arranged on the left and right sides of the module carrier 25 and arranged opposite to each other, and the first side pushing devices 22, the second side pushing devices 23 and the fixed positioning structure 24 are arranged to surround the module carrier 25. The second side-pushing device 23 pushes the battery module 200 and the water-cooled plate 300 toward the fixing and positioning structure 24 when they are placed on the module carrier 25, and the first side-pushing device 22 moves closer to the module carrier 25 to clamp the dual battery module 400 in the front-rear direction. During the process, the second side pushing device 23 pushes the battery module 200 and the water-cooling plate 300 to the fixing and positioning structure 24, so that the battery module 200 and the water-cooling plate 300 are abutted to the fixing and positioning structure 24, and the positioning of the dual battery module 400 in the left-right direction is completed. Then, the first side pushing device 22 clamps the dual battery module 400 in the front-rear direction to position the dual battery module 400 in the front-rear direction, and after the above operation is completed, 4 side surfaces of the dual battery module 400 are positioned, and a plurality of side surfaces of the assembled dual battery module 400 are aligned, so that the assembling effect is good. And the whole assembly process is to push the dual battery module 400 to complete the assembly, and the assembly process is simple and easy to handle.

It should be noted that before processing, glue is applied to both sides of the water-cooled plate 300. During processing, one battery module 200 is placed on the module holder 25, the cold plate 300 is then placed on the module holder 25, and another battery module 200 is placed on the module holder 25, and the two battery modules 200 are respectively adhered to both side surfaces of the cold plate 300 after being pushed. The battery module 200 is the cuboid form, and each battery module 200 comprises a plurality of electric cores, and two battery modules 200 and water-cooling board 300 assemble into bi-cell module 400 after, the electric current/voltage that can export is higher.

As shown in fig. 1 to 3, the first side pushing device 22 includes a first mounting seat 221, a first driver 222, and a first pushing plate 223. The first mounting seat 221 is mounted on the positioning substrate 21, the first driver 222 is mounted on the first mounting seat 221, the first push plate 223 is mounted at an output end of the first driver 222, the first push plate 223 is located at one side of the module carrier 25 in the front-back direction, and the first driver 222 drives the first push plate 223 to move away from or close to the module carrier 25. For example, the first driver 222 is a cylinder, but not limited thereto, and the first push plate 223 is a long straight strip plate, but not limited thereto. Further, the first side pushing device 22 further includes a guide rod 224. The guide rod 224 is slidably mounted to the first mounting seat 221 in the moving direction of the first push plate 223, and an end of the guide rod 224 is mounted to the first push plate 223. The guide of the movement of the first push plate 223 is achieved by means of the guide rod 224. Further, the first side pushing device 22 further includes a first buffer 225 mounted on the first mounting seat 221. The first buffer 225 is disposed opposite to the first push plate 223, and the first buffer 225 buffers the movement of the first push plate 223, so that the first push plate 223 stops stably.

As shown in fig. 1 to 3, the second side pushing device 23 includes a second mounting seat 231, a second driver (not shown) and a second pushing plate 232. The second mounting seat 231 is slidably mounted on the positioning substrate 21, the second mounting seat 231 is mounted at an output end of the second driver, the second driver drives the second mounting seat 231 to slide away from or close to the module carrier seat 25, the second push plate 232 is mounted on the second mounting seat 231, and the second push plate 232 is located on one side of the module carrier seat 25 in the left-right direction. For example, the second driver is a cylinder or a screw-nut pair to drive the second mounting seat 231 to horizontally slide, but not limited thereto. In order to facilitate the sliding of the second mounting seat 231 on the positioning base plate 21, a slide rail 211 extending along the left-right direction is mounted on the positioning base plate 21, and the second mounting seat 231 is slidably mounted on the slide rail 211.

Further, the second side-pushing device 23 further includes a limiting seat 233 and a second buffer 234. The stopper seat 233 is mounted on the second mounting seat 231, the second buffer 234 is mounted on the positioning substrate 21, and the second buffer 234 is disposed opposite to the stopper seat 233 in the left-right direction at an interval. The second buffer 234 provides a buffer for the movement of the second mounting seat 231, so that the second pushing plate 232 pushes the battery module 200 and the water-cooling plate 300 more stably and onto the fixing and positioning structure 24. Preferably, the second side pushing device 23 further includes an adjusting member 235, the adjusting member 235 and the second buffer 234 are disposed one above the other, an end of the second buffer 234 is disposed to be exposed from the adjusting member 235, and the second adjusting member 235 defines a limit safety position of the limit seat 233 to prevent the second buffer 234 from being excessively pressed. For example, the adjusting member 235 is a screw structure, but is not limited thereto.

As shown in fig. 1 to 3, the fixing and positioning structure 24 includes a third mounting seat 241 and a positioning side plate 242. The third mounting base 241 is attached to the positioning substrate 21, the positioning side plate 242 is attached to the third mounting base 241, and the positioning side plate 242 is positioned on one side of the module carrier 25 in the left-right direction. When positioning, the battery module 200 and the water cooling plate 300 are positioned on the positioning side plate 242.

As shown in fig. 1 and 2, the battery module cooling assembly apparatus 100 further includes a push-down device 30 mounted on the machine table 10. The pressing device 30 has at least a pressing position close to the module carrier 25 and a retreating position away from the module carrier 25 relative to the positioning substrate 21, and the pressing device 30 moves to the pressing position and presses down the top side of the dual battery module 400 when the dual battery module 400 is placed on the module carrier 25. During the location, push-down device 30 presses on the top side of bi-cell module 400, and 6 sides of bi-cell module 400 all receive the clamping position this moment to 6 sides of bi-cell module 400 flatten.

As shown in fig. 1 and 2, the pressing device 30 includes a third driver (not shown), a mounting bracket 31, a fourth driver (not shown), and a pressing plate 32. The mounting bracket 31 is slidably disposed, specifically, the mounting bracket 31 is slidably mounted on the machine platform 10, and the third driver can be selectively mounted on the machine platform 10 or can be mounted outside the machine platform 10 according to actual situations. Mounting bracket 31 is installed in the output of third driver, and the third driver orders about mounting bracket 31 to do and keeps away from or is close to the slip of location base plate 21, and the fourth driver is installed in mounting bracket 31, and lower clamp plate 32 is installed in the output of fourth driver, and the fourth driver orders about lower clamp plate 32 to slide from top to bottom. For example, the third actuator and the fourth actuator are linear actuators, such as an air cylinder, an oil cylinder, a screw-nut pair, etc., but not limited to the above.

The following introduces the utility model discloses a battery module cooling equipment 100's course of working: before processing, coating glue on two side surfaces of the water cooling plate 300, placing one battery module 200 on the module carrier 25, then placing the water cooling plate 300 on the module carrier 25, and then placing the other battery module 200 on the module carrier 25, wherein the two battery modules 200 are clamped on the water cooling plate 300. The second driver drives the second mounting seat 231 to slide close to the module carrier seat 25, and the second pushing plate 232 pushes the battery module 200 and the water-cooling plate 300 against the positioning side plate 242, so as to position the battery module 200 and the water-cooling plate 300 in the left-right direction. Then, the first driver 222 drives the first push plate 223 to slide close to the module carrier 25 to push the two battery modules 200 to adhere to the two sides of the water-cooling plate 300 to form the dual battery module 400, and after the two first push plates 223 are pushed in place, the dual battery module 400 is clamped by the two first push plates 223. The pressing device 30 moves to the pressing position, and the fourth driver drives the pressing plate 32 to slide downward, so that the pressing plate 32 covers the top surface of the dual battery module 400 and maintains the pressure for a period of time. Subsequently, the double module assembling mechanism 20 can be removed from the machine table 10, and the double battery module 400 clamped and positioned in the double module assembling mechanism 20 can be discharged to the next station for processing.

It should be noted that the direction indicated by the arrow X in fig. 1 and 3 is a direction from front to back, and the direction indicated by the arrow Y in fig. 1 and 3 is a direction from left to right, but the present invention is not limited thereto.

The above disclosure is only a preferred embodiment of the present invention, and the scope of the present invention should not be limited thereby, and the equivalent changes made by the claims of the present invention are all covered by the present invention.

Claims (10)

1. A module double-assembly mechanism is suitable for splicing two battery modules and a water-cooling plate into a double battery module and is characterized in that the module double-assembly mechanism comprises a positioning substrate, and a first side pushing device, a second side pushing device and a fixed positioning structure which are respectively arranged on the positioning substrate, wherein a module carrying seat is arranged on the positioning substrate, the two first side pushing devices are respectively arranged at the front side and the rear side of the module carrying seat and are arranged right opposite to each other, the fixed positioning structure and the second side pushing device are respectively arranged at the left side and the right side of the module carrying seat and are arranged right opposite to each other, the first side pushing device, the second side pushing device and the fixed positioning structure are arranged around the module carrying seat, the second side pushing device pushes the battery modules and the water-cooling plate to the fixed positioning structure when the battery modules and the water-cooling plate are arranged on the module carrying seat, the first side pushing device moves close to the module carrying seat, to clamp the dual battery module in the front-rear direction.

2. The module double-split mechanism according to claim 1, wherein the first side pushing device comprises a first mounting seat, a first driver and a first pushing plate, the first mounting seat is mounted on the positioning substrate, the first driver is mounted on the first mounting seat, the first pushing plate is mounted at an output end of the first driver, the first pushing plate is located at one side of the module carrier in the front-back direction, and the first driver drives the first pushing plate to move away from or close to the module carrier.

3. The module double-split mechanism according to claim 2, wherein the first side pushing device further comprises a guide rod, the guide rod is slidably mounted on the first mounting seat along the movement direction of the first pushing plate, and the end of the guide rod is mounted on the first pushing plate.

4. The modular doubler mechanism according to claim 2, wherein the first side pushing device further comprises a first buffer mounted on the first mounting seat, and the first buffer is disposed opposite to the first pushing plate.

5. The module double-split mechanism according to claim 1, wherein the second side pushing device comprises a second mounting seat, a second driver and a second pushing plate, the second mounting seat is slidably mounted on the positioning substrate, the second mounting seat is mounted at an output end of the second driver, the second driver drives the second mounting seat to slide away from or close to the module carrier, the second pushing plate is mounted on the second mounting seat, and the second pushing plate is located on one side of the module carrier in the left-right direction.

6. The module double-split mechanism according to claim 5, wherein a slide rail extending in the left-right direction is mounted on the positioning substrate, and the second mounting seat is slidably mounted on the slide rail.

7. The module double-split mechanism according to claim 5, wherein the second side pushing device further comprises a limiting seat and a second buffer, the limiting seat is mounted on the second mounting seat, the second buffer is mounted on the positioning substrate, and the second buffer is arranged opposite to the limiting seat in the left-right direction at an interval.

8. A battery module cooling assembly apparatus, comprising a machine base and the module double-split mechanism according to any one of claims 1 to 7, wherein the module double-split mechanism is removably mounted on the top of the machine base.

9. The battery module cooling assembly apparatus of claim 8, further comprising a pressing device mounted on the machine table, the pressing device having at least a pressing position close to the module carrier and an escape position away from the module carrier with respect to the positioning substrate, the pressing device being moved to the pressing position and pressed down onto the top side of a dual battery module when the dual battery module is placed on the module carrier.

10. The battery module cooling assembly apparatus of claim 9, wherein the pressing device comprises a third driver, a mounting frame, a fourth driver, and a pressing plate, the mounting frame is slidably disposed, the mounting frame is mounted at an output end of the third driver, the third driver drives the mounting frame to slide away from or close to the positioning substrate, the fourth driver is mounted at the mounting frame, the pressing plate is mounted at an output end of the fourth driver, and the fourth driver drives the pressing plate to slide up and down.

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