CN220510213U - Battery module sampling assembly and battery module - Google Patents

Abstract

The utility model relates to the technical field of battery modules, and discloses a battery module sampling assembly and a battery module. The battery module sampling assembly comprises a plastic sucking bracket, a busbar, a sampling plate and a temperature sensing bracket. Wherein, the busbar is arranged on the plastic suction bracket; the sampling plate is arranged on the plastic suction bracket, and the busbar is in conductive connection with the sampling plate; the temperature sensing support is used for installing the temperature sensor, and is arranged below the plastic uptake support, and is fixedly connected with the sampling plate after passing through the plastic uptake support, and is fixedly connected with the busbar after passing through the plastic uptake support. The temperature-sensing bracket is firm in connection and not easy to shake, so that the positioning accuracy of the temperature sensor arranged on the temperature-sensing bracket is ensured, the sampling accuracy is improved, and the whole structure of the battery module sampling assembly is high in strength, strong in deformation resistance and capable of ensuring the positioning accuracy of the temperature sensor due to the fact that the connecting relation exists among all the components.

Description

Battery module sampling assembly and battery module

Technical Field

The utility model relates to the technical field of battery modules, in particular to a battery module sampling assembly and a battery module.

Background

The battery module sampling assembly comprises a plastic sucking bracket, a sampling plate, a busbar and a temperature sensing bracket, wherein the temperature sensing bracket is connected with the sampling plate through a buckle, and the sampling plate is connected with the plastic sucking bracket. The temperature sensing bracket is positioned between the busbar and the plastic sucking bracket. The temperature sensor is connected to the temperature sensing bracket.

With this fixing method of the temperature sensor, there are the following problems: firstly, through a buckle connection mode, the risk that the buckle is not installed in place exists, the temperature-sensing bracket is unstable in connection, shaking occurs, positioning errors are large, and the position deviation of the temperature sensor is easy to cause; secondly, the temperature-sensing bracket is only connected with the sampling plate, so that the temperature-sensing bracket is not firmly fixed and is easy to displace; third, because the foam is arranged between the battery module sampling assembly and the battery cell, and the foam has elasticity, when the temperature-sensing bracket is fixed and is not in work, when the temperature-sensing point is far away from the battery cell busbar, the temperature-sensing bracket elastically deforms under the reaction force of the temperature-sensing foam, and the temperature sensor can displace.

The temperature sensor can displace or shake under the conditions, so that the accuracy of temperature sampling is affected.

Disclosure of Invention

In view of the above, the utility model provides a battery module sampling assembly and a battery module, which are used for solving the problem that the temperature-sensing bracket is not firmly connected and the sampling precision is affected.

In a first aspect, the utility model provides a battery module sampling assembly, which comprises a plastic sucking bracket, a busbar, a sampling plate and a temperature sensing bracket. Wherein, the busbar is arranged on the plastic suction bracket; the sampling plate is arranged on the plastic suction bracket, and the busbar is in conductive connection with the sampling plate; the temperature sensing support is used for installing the temperature sensor, and is arranged below the plastic uptake support, and is fixedly connected with the sampling plate after passing through the plastic uptake support, and is fixedly connected with the busbar after passing through the plastic uptake support.

The beneficial effects are that: the device is characterized in that the temperature sensing support is arranged below the plastic sucking support, the temperature sensing support passes through the plastic sucking support and then is connected with the sampling plate and the bus bar which are arranged on the plastic sucking support, and the bus bar and the sampling plate are connected, so that the plastic sucking support, the bus bar, the sampling plate and the temperature sensing support are connected with each other in a connecting relation, the temperature sensing support is firmly connected and is not easy to shake, the positioning precision of the temperature sensor arranged on the temperature sensing support is ensured, the sampling precision is improved, and the connection relation exists among all the components, so that the integral structural strength of the battery module sampling assembly is large, the deformation resistance is strong, and the positioning precision of the temperature sensor is ensured.

In an alternative embodiment, the temperature-sensing bracket is provided with a first riveting column, and the plastic suction bracket and the sampling plate are respectively provided with a first riveting hole matched with the first riveting column, and the temperature-sensing bracket is fixedly connected through hot riveting after sequentially penetrating through the first riveting holes on the plastic suction bracket and the sampling plate.

The beneficial effects are that: the temperature sensing support passes through the first riveting hole of the plastic sucking support from the bottom of the plastic sucking support and then passes through the first riveting hole on the sampling plate, so that the temperature sensing support is connected with the plastic sucking support and the sampling plate simultaneously, the temperature sensing support, the plastic sucking support and the sampling plate are fixedly connected in a hot riveting mode, firm and stable connection is guaranteed in such a connection mode, positioning accuracy of the temperature sensor is further improved, and sampling accuracy is guaranteed.

In an alternative embodiment, the sampling plate includes a sampling plate body and a reinforcing plate disposed on the sampling plate body, the reinforcing plate having a thickness greater than that of the sampling plate body, and the first rivet hole on the sampling plate being disposed on the reinforcing plate.

The beneficial effects are that: the thickness of the reinforcing plate is larger than that of the sampling plate body due to the fact that the thickness of the sampling plate is small, and therefore the strength of the reinforcing plate is larger than that of the sampling plate; the first riveting hole on the sampling plate is arranged on the reinforcing plate, and the temperature-sensing support is connected with the reinforcing plate, so that the connection strength between the sampling plate and the temperature-sensing support can be improved, the connection stability of the temperature-sensing support is improved, and meanwhile, the weight of the sampling plate can not be obviously increased.

In an alternative embodiment, the temperature sensing support is provided with a second riveting column, the plastic sucking support and the busbar are respectively provided with a second riveting hole matched with the second riveting column, and the second riveting columns sequentially penetrate through the second riveting holes on the plastic sucking support and the busbar and are fixedly connected through hot riveting.

The beneficial effects are that: the temperature-sensing support passes through the second riveting hole of the plastic suction support from the bottom of the plastic suction support and then passes through the second riveting hole on the busbar, so that the temperature-sensing support is connected with the plastic suction support and the busbar, the temperature-sensing support, the plastic suction support and the busbar can be fixedly connected in a hot riveting mode, firm and stable connection is guaranteed in such a connection mode, the positioning precision of the temperature sensor is further improved, and the sampling precision is guaranteed.

In an alternative embodiment, two groups of bus bars are arranged on the plastic sucking bracket at intervals in parallel, the sampling plate is arranged between the two groups of bus bars, and at least two second riveting columns are arranged on the temperature sensing bracket and are respectively riveted with the bus bars on two sides of the sampling plate.

The beneficial effects are that: like this set up, all connect the temperature sense support with the busbar that is located sampling board both sides, and also have relation of connection between two busbars and the sampling board, like this, can further improve the connection stability of temperature sense support for temperature sense support connection is more firm, is difficult for taking place displacement or rocking, guarantees the positioning accuracy of temperature sensor and sampling accuracy thereof.

In an alternative embodiment, the reinforcing plate is provided with a groove, the temperature sensor is arranged in the groove, and the notch of the groove is provided with a sealing cover plate.

The beneficial effects are that: because the thickness of the reinforcing plate is greater than that of the sampling plate, a groove can be formed in the reinforcing plate, and the temperature sensor is arranged in the groove, so that the temperature sensor is positioned, the temperature sensor can be protected, and damage caused by compression of the temperature sensor is prevented.

In an alternative embodiment, the temperature-sensing support is provided with a first positioning groove, the stiffening plate comprises a stiffening plate body, the outer contour of the stiffening plate body is matched with the first positioning groove, and the stiffening plate body is arranged in the first positioning groove.

The beneficial effects are that: the setting like this, when stiffening plate and temperature sense support connection, through the cooperation between stiffening plate body and the first constant head tank, can realize the location of stiffening plate on the temperature sense support, guarantee the positioning accuracy of temperature sensor, the rethread rivet realization fixed connection further improves the firm in connection degree of temperature sense support.

In an alternative embodiment, the bottom of the first positioning groove of the temperature-sensing bracket is provided with a second positioning groove, the reinforcing plate further comprises a positioning boss arranged at the bottom of the reinforcing plate body, the positioning boss is matched with the second positioning groove, and when the reinforcing plate body is matched with the first positioning groove, the positioning boss is arranged in the second positioning groove.

The beneficial effects are that: the arrangement is that the first repositioning is realized in the cooperation relation of the first positioning groove on the reinforcing plate body and the temperature-sensing bracket, and the second repositioning is realized through the cooperation of the positioning boss on the reinforcing plate body and the second positioning groove on the temperature-sensing bracket, so that the positioning precision of the temperature sensor can be further improved, and the sampling precision of the temperature sensor is improved.

In an alternative embodiment, two first riveting columns are arranged, and the first riveting columns are arranged at the bottom of the first positioning groove and are respectively arranged at two sides of the second positioning groove.

The beneficial effects are that: the arrangement is reasonable, the two sides of the temperature-sensing bracket are uniformly fixed, the connection is firm, and the fixing reliability of the temperature-sensing bracket is further improved.

In a second aspect, the utility model further provides a battery module, which comprises a plurality of parallel battery cells and the battery module sampling assembly according to any one of the technical schemes, wherein the sampling assembly is arranged above the battery cells, and a bus bar of the battery module sampling assembly is in conductive connection with the battery cells.

Because the battery module includes the battery module sampling assembly, the battery module sampling assembly has the same effect as the battery module sampling assembly, and the description thereof is omitted.

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 needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic overall structure of a first view angle of a battery module sampling assembly according to an embodiment of the present utility model;

FIG. 2 is an enlarged partial schematic view of the battery module sampling assembly shown in FIG. 1;

FIG. 3 is an exploded view of the battery module sampling assembly shown in FIG. 1;

fig. 4 is a schematic structural view of a temperature-sensing bracket in the battery module sampling assembly shown in fig. 1;

FIG. 5 is an enlarged schematic view of a portion of the sampling plate of FIG. 3;

FIG. 6 is an enlarged partial schematic view of the suction mount of FIG. 3;

fig. 7 is a schematic overall structure of a second view angle of the battery module sampling assembly shown in fig. 1;

fig. 8 is a partial enlarged view of the battery module sampling assembly shown in fig. 7.

Reference numerals illustrate:

1. a plastic suction bracket; 2. a busbar; 3. sampling plate; 301. sampling plate body; 302. a reinforcing plate; 3021. a stiffening plate body; 3022. positioning the boss; 3023. a sealing cover plate; 4. a temperature-sensitive bracket; 401. a first rivet post; 402. a second rivet post; 403. a first positioning groove; 404. a second positioning groove; 51. a first rivet hole; 52. and a second rivet hole.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present 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.

Embodiments of the present utility model are described below with reference to fig. 1 to 8.

According to an aspect of the embodiment of the present utility model, there is provided a battery module sampling assembly including a plastic suction bracket 1, a bus bar 2, a sampling plate 3, and a temperature-sensing bracket 4. Wherein, the busbar 2 is arranged on the plastic suction bracket 1; the sampling plate 3 is arranged on the plastic suction bracket 1, and the busbar 2 is in conductive connection with the sampling plate 3; the temperature-sensing support 4 is used for installing a temperature sensor, the temperature-sensing support 4 is arranged below the plastic uptake support 1, the temperature-sensing support 4 penetrates through the plastic uptake support 1 and is fixedly connected with the sampling plate 3, and the temperature-sensing support 4 penetrates through the plastic uptake support 1 and is fixedly connected with the busbar 2.

The setting like this, because the below of plastic uptake support 1 is located to temperature sense support 4, like this, temperature sense support 4 passes behind the plastic uptake support 1, with be located sampling plate 3 and busbar 2 connection on the plastic uptake support 1, and be connected between busbar 2 and the sampling plate 3, like this, plastic uptake support 1, busbar 2, sampling plate 3 and temperature sense support 4 all have relation of connection each other, make temperature sense support 4 firm in connection, be difficult for taking place to rock, thereby guaranteed the positioning accuracy of the temperature sensor that sets up on temperature sense support 4, improve sampling accuracy, and, because all there is relation of connection between each part, make the overall structure intensity of battery module sampling assembly big, anti deformability is strong, guarantee the positioning accuracy of temperature sensor.

In one embodiment, the temperature-sensing bracket 4 is provided with a first riveting column 401, and the plastic sucking bracket 1 and the sampling plate 3 are respectively provided with a first riveting hole 51 matched with the first riveting column 401, and the temperature-sensing bracket 4 is fixedly connected through hot riveting after sequentially passing through the first riveting holes 51 on the plastic sucking bracket 1 and the sampling plate 3. Specifically, the height of the first rivet 401 is greater than the sum of the thicknesses of the suction mount 1 and the sampling plate 3. That is, after the first rivet 401 sequentially passes through the first rivet hole 51 on the plastic suction bracket 1 and the sampling plate 3, the upper portion of the first rivet 401 is exposed outside the first rivet hole 51, and the first rivet 401 and the first rivet hole 51 can be fixedly connected by hot riveting.

The setting like this, temperature sense support 4 passes the first riveting hole 51 of plastic uptake support 1 from the bottom of plastic uptake support 1, passes the first riveting hole 51 on the sampling board 3 again, realizes that temperature sense support 4 is connected with plastic uptake support 1, sampling board 3 simultaneously to, adopt the mode of hot riveting can be with temperature sense support 4 and plastic uptake support 1, sampling board 3 fixed connection, such connected mode guarantees firm in connection and stability, further improves the positioning accuracy of temperature sensor, guarantees sampling accuracy. In addition, adopt mode fixed connection of rivet hot, compare in prior art adopts the scheme of buckle joint, do not have the risk of leading to the temperature to feel the support and rocking because of the installation is not put in place.

In one embodiment, the sampling plate 3 includes a sampling plate body 301 and a reinforcing plate 302 disposed on the sampling plate body 301, the reinforcing plate 302 having a thickness greater than that of the sampling plate body 301, and the first rivet hole 51 on the sampling plate 3 is disposed on the reinforcing plate 302.

So arranged, since the sampling plate 3 is small in thickness, by arranging the reinforcing plate 302, the thickness of the reinforcing plate 302 is greater than that of the sampling plate body 301, and thus, the strength of the reinforcing plate 302 is greater than that of the sampling plate 3; the first riveting holes 51 on the sampling plate 3 are formed in the reinforcing plate 302, the temperature-sensing support 4 is connected with the reinforcing plate 302, and the connection strength between the sampling plate 3 and the temperature-sensing support 4 can be improved, so that the connection stability of the temperature-sensing support 4 is improved, and meanwhile, the weight of the sampling plate 3 is not obviously increased.

In one embodiment, the temperature-sensing bracket 4 is provided with a second riveting column 402, the plastic uptake bracket 1 and the busbar 2 are provided with second riveting holes 52 matched with the second riveting column 402, and the second riveting column 402 is fixedly connected through hot riveting after sequentially passing through the second riveting holes 52 on the plastic uptake bracket 1 and the busbar 2. Specifically, the height of the second rivet 402 is greater than the sum of the thicknesses of the suction bracket 1 and the bus bar 2. That is, after the second rivet 402 sequentially passes through the second rivet hole 52 on the plastic suction bracket 1 and the busbar 2, the upper portion of the second rivet 402 is exposed outside the second rivet hole 52, and the second rivet 402 and the second rivet hole 52 may be fixedly connected by heat staking.

The setting like this, temperature-sensing support 4 passes the second riveting hole 52 of plastic uptake support 1 from the bottom of plastic uptake support 1, passes the second riveting hole 52 on the busbar 2 again, realizes that temperature-sensing support 4 is connected with plastic uptake support 1, busbar 2 simultaneously to, adopt the mode of hot riveting can be with temperature-sensing support 4 and plastic uptake support 1, busbar 2 fixed connection, such connected mode guarantees firm in connection and stability, further improves the positioning accuracy of temperature sensor, guarantees sampling accuracy.

In one embodiment, two groups of bus bars 2 are arranged on the plastic sucking bracket 1 at intervals in parallel, the sampling plate 3 is arranged between the two groups of bus bars 2, and at least two second riveting columns 402 are arranged on the temperature sensing bracket 4 and are respectively riveted with the bus bars 2 on two sides of the sampling plate 3.

Like this set up, all connect temperature sense support 4 with the busbar 2 that is located sampling board 3 both sides, and also have the relation of connection between two busbars 2 and the sampling board 3, like this, can further improve the connection stability of temperature sense support 4 for temperature sense support 4 connects more firmly, is difficult for taking place the displacement or rocks, guarantees the positioning accuracy of temperature sensor and sampling accuracy thereof.

In one embodiment, the stiffening plate 302 is provided with a groove, the temperature sensor is arranged in the groove, and the notch of the groove is provided with a sealing cover plate 3023.

Because the thickness of the reinforcing plate 302 is greater than that of the sampling plate 3, a groove can be formed in the reinforcing plate 302, and the temperature sensor is arranged in the groove, so that the temperature sensor can be positioned and protected, and damage caused by compression of the temperature sensor is prevented.

In one embodiment, the temperature-sensing bracket 4 is provided with a first positioning groove 403, the stiffening plate 302 comprises a stiffening plate body 3021, the outer contour of the stiffening plate body 3021 is matched with the first positioning groove 403, and the stiffening plate body 3021 is arranged in the first positioning groove 403.

By means of the arrangement, when the reinforcing plate 302 is connected with the temperature-sensing support 4, the reinforcing plate 302 can be positioned on the temperature-sensing support 4 through cooperation between the reinforcing plate body 3021 and the first positioning groove 403, positioning accuracy of a temperature sensor is guaranteed, fixed connection is achieved through hot riveting, and connection firmness degree of the temperature-sensing support 4 is further improved.

In one embodiment, the bottom of the first positioning groove 403 of the temperature-sensing bracket 4 is provided with a second positioning groove 404, the stiffening plate 302 further includes a positioning boss 3022 disposed at the bottom of the stiffening plate body 3021, the positioning boss 3022 is matched with the second positioning groove 404, and when the stiffening plate body 3021 is matched with the first positioning groove 403, the positioning boss 3022 is disposed in the second positioning groove 404.

The arrangement realizes the first repositioning in the cooperation relation of the stiffening plate body 3021 and the first positioning groove 403 on the temperature-sensing bracket 4, and the second repositioning is realized through the cooperation of the positioning boss 3022 on the stiffening plate body 3021 and the second positioning groove 404 on the temperature-sensing bracket 4, so that the positioning precision of the temperature sensor can be further improved, and the sampling precision of the temperature sensor is improved.

In one embodiment, two first riveting columns 401 are provided, and the first riveting columns 401 are arranged at the bottom of the first positioning groove 403 and are respectively arranged at two sides of the second positioning groove 404.

The arrangement is reasonable, the two sides of the temperature-sensing bracket 4 are uniformly fixed, the connection is firm, and the reliability of the fixing of the temperature-sensing bracket 4 is further improved.

In one embodiment, in order to reduce weight and reduce cost, the middle part of the temperature-sensing support 4 is provided with a hollow structure, and is connected through a reinforcing rib, so that the structural strength of the temperature-sensing support 4 is improved while weight is reduced.

According to an embodiment of the present utility model, on the other hand, there is further provided a battery module, including a plurality of parallel battery cells and the battery module sampling assembly according to any one of the above technical solutions, the sampling assembly is disposed above the battery cells, and the bus bar 2 of the battery module sampling assembly is electrically connected with the battery cells.

Because the battery module includes the battery module sampling assembly, the battery module sampling assembly has the same effect as the battery module sampling assembly, and the description thereof is omitted.

In one embodiment, the battery module needs to be subjected to multi-point temperature measurement and sampling along the length direction of the battery module, so that a plurality of temperature sensing brackets 4 are arranged corresponding to a plurality of temperature measurement points, and the temperature sensing brackets 4 are connected at different positions between the sampling plate 3 and the plastic uptake bracket 1 in the same connection mode.

Although embodiments of the present utility model have been described in connection with the accompanying drawings, various modifications and variations may be made by those skilled in the art without departing from the spirit and scope of the utility model, and such modifications and variations fall within the scope of the utility model as defined by the appended claims.

Claims (10)

1. A battery module sampling assembly, comprising:

a plastic suction bracket;

the busbar is arranged on the plastic suction bracket;

the sampling plate is arranged on the plastic suction bracket, and the busbar is in conductive connection with the sampling plate;

the temperature sensing support is used for installing a temperature sensor, the temperature sensing support is arranged below the plastic uptake support, the temperature sensing support penetrates through the plastic uptake support and then is fixedly connected with the sampling plate, and the temperature sensing support penetrates through the plastic uptake support and then is fixedly connected with the busbar.

2. The battery module sampling assembly according to claim 1, wherein the temperature-sensing support is provided with a first riveting column, the plastic suction support and the sampling plate are provided with first riveting holes matched with the first riveting column, and the temperature-sensing support sequentially penetrates through the plastic suction support and the first riveting holes on the sampling plate and then is fixedly connected through hot riveting.

3. The battery module sampling assembly of claim 2, wherein the sampling plate comprises a sampling plate body and a reinforcing plate arranged on the sampling plate body, the thickness of the reinforcing plate is greater than that of the sampling plate body, and the first riveting hole on the sampling plate is arranged on the reinforcing plate.

4. The battery module sampling assembly according to any one of claims 1 to 3, wherein a second riveting column is arranged on the temperature-sensing support, second riveting holes matched with the second riveting column are formed in the plastic-sucking support and the bus bar, and the second riveting column sequentially penetrates through the plastic-sucking support and the second riveting holes in the bus bar and then is fixedly connected through hot riveting.

5. The battery module sampling assembly according to claim 4, wherein two groups of bus bars are arranged on the plastic suction support at intervals in parallel, the sampling plate is arranged between the two groups of bus bars, and at least two second riveting columns are arranged on the temperature sensing support and are respectively riveted with the bus bars on two sides of the sampling plate.

6. The battery module sampling assembly according to claim 3, wherein the reinforcing plate is provided with a groove, the temperature sensor is arranged in the groove, and a sealing cover plate is arranged at the notch of the groove.

7. The battery module sampling assembly of claim 6, wherein the temperature-sensing bracket is provided with a first positioning groove, the stiffening plate comprises a stiffening plate body, the outer contour of the stiffening plate body is matched with the first positioning groove, and the stiffening plate body is arranged in the first positioning groove.

8. The battery module sampling assembly according to claim 7, wherein a second positioning groove is formed in the bottom of the first positioning groove of the temperature-sensing support, the reinforcing plate further comprises a positioning boss arranged at the bottom of the reinforcing plate body, the positioning boss is matched with the second positioning groove, and when the reinforcing plate body is matched with the first positioning groove, the positioning boss is arranged in the second positioning groove.

9. The battery module sampling assembly of claim 8, wherein two first riveting columns are provided, and the first riveting columns are arranged at the bottom of the first positioning groove and are respectively arranged at two sides of the second positioning groove.

10. A battery module, comprising:

a plurality of parallel battery cells;

the battery module sampling assembly of any one of claims 1 to 9, the sampling assembly being disposed above the cells, a buss bar of the battery module sampling assembly being in conductive connection with the cells.