CN117601640A - Power battery support, power battery system and vehicle - Google Patents

Abstract

The application provides a power battery support, a power battery system and a vehicle, which relate to the technical field of vehicles and comprise a plurality of support units which are detachably connected, wherein the support units are used for accommodating a power battery, a positioning assembly is arranged on each support unit and used for positioning and connecting two adjacent support units, and the support units can be mutually connected along the directions of x, y and z; the positioning assembly comprises positioning holes distributed on the bracket units and positioning pins or positioning bolts matched with the positioning holes, or comprises guide rails and sliding plates which are respectively matched with the two adjacent bracket units, so that the sliding plates can slide along the guide rails. The power battery support is arranged in a modularized mode, a plurality of support units can be assembled into the required power battery support according to different scene requirements, the modularization degree is high, the universality is strong, the assembly cost is low, and the adaptability is strong. The whole maintenance convenience is good, the maintenance is convenient, and the efficiency is high.

Description

Power battery support, power battery system and vehicle

Technical Field

The application relates to the technical field of vehicles, in particular to a power battery bracket, a power battery system and a vehicle.

Background

Under the development trend that the demand of commercial vehicles for the electric quantity of the power battery is larger and larger, the overall dimension and the weight of the power battery support are larger and larger, and most of the existing power battery supports are an integral support or a plurality of supports which are independently installed, so that the power battery is small in installation space, large in assembly difficulty, complex in assembly and long in assembly time, and the machining difficulty and the machining precision of the support are poor due to the fact that the overall dimension of the support is large.

In addition, a bottom bracket is additionally required to be added on the power battery bracket so as to facilitate the assembly with an automobile; therefore, the system has large self weight, and when power batteries with different electric quantities are selected and installed, the whole power battery bracket needs to be newly developed, and the bracket has low modularization degree, poor universality and high cost. And because of the trouble of some layer of power battery when needing to maintain or change this layer of power battery, then only can be through dismantling all power batteries and pipeline bundles above it one by one or drag this trouble power battery, maintenance convenience is poor, and is consuming time long, and is easy to damage battery and pipeline bundles in the dismantlement each battery in-process.

Disclosure of Invention

The embodiment of the application aims at providing a power battery support, a power battery system and a vehicle, which are convenient for flexible assembly, good in universality, low in cost and convenient for maintenance and disassembly of a power battery.

In one aspect of the embodiments of the present application, a power battery bracket is provided, including a plurality of detachably connected bracket units, where the bracket units are used for accommodating a power battery, and a positioning assembly is disposed on the bracket units and used for positioning and connecting two adjacent bracket units, and the plurality of bracket units can be connected with each other along x, y and z directions;

the positioning assembly comprises positioning holes distributed on the bracket units and positioning pins or positioning bolts matched with the positioning holes, or comprises guide rails and sliding plates which are respectively matched with the two adjacent bracket units, so that the sliding plates can slide along the guide rails.

Optionally, when the positioning assembly includes the guide rail and the slide plate that are respectively disposed on two adjacent bracket units in a matching manner, a bearing is further disposed on the guide rail, and the slide plate is slidably connected with the guide rail through the bearing.

Optionally, the power battery and the bracket unit are detachably connected.

Optionally, the power battery is provided with a first mounting hole, the support unit is provided with a second mounting hole, and the power battery is connected with the support unit through a bolt penetrating through the first mounting hole and the second mounting hole.

Optionally, a configuration board is further arranged on the power battery bracket, so as to be configured and installed with a preset position of the vehicle.

In another aspect of the embodiments of the present application, there is provided a power battery system including: the power battery bracket and the power battery correspondingly arranged in the bracket unit of the power battery bracket.

Optionally, a cover plate is further arranged above the power battery.

In yet another aspect of the embodiments of the present application, a vehicle is provided that includes the power cell system described above.

According to the power battery support, the power battery system and the vehicle, the plurality of support units can be detachably connected with one another along the x, y and z directions, each support unit is used for accommodating the power battery, the support units are provided with the positioning assemblies, and the adjacent two support units are connected through the positioning assemblies in a positioning mode; the positioning assembly comprises positioning holes distributed on the bracket units and positioning pins or positioning bolts matched with the positioning holes, or comprises guide rails and sliding plates which are respectively matched with the two adjacent bracket units, so that the sliding plates can slide along the guide rails. This application carries out the setting of modularization with power battery support, every support unit as a small module, and arbitrary small module is assembled each other and can be formed power battery support for power battery support's modularization degree is high like this, and the commonality is strong, can assemble into required power battery support with a plurality of support units according to the scene demand of difference, and equipment cost is low, and adaptability is strong. In addition, because the power battery support can be disassembled and assembled at will, when one of the power batteries needs to be replaced, all the power batteries and the pipeline bundles do not need to be disassembled one by one, the power batteries with faults are prevented from being pulled, the damage of the batteries and the pipeline bundles in the whole battery disassembly process can be avoided, the whole maintenance convenience is good, and the maintenance is convenient and the efficiency is high.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic view of a power battery bracket according to the present embodiment;

FIG. 2 is a second schematic view of a power battery rack according to the present embodiment;

FIG. 3 is a third schematic view of the power battery rack according to the present embodiment;

fig. 4 is a schematic diagram of a power battery bracket according to the present embodiment.

Icon: 1-a power battery bracket; 11-a first mounting hole; 2-a scaffold unit; 21-a second mounting hole; 3-locating pins; 4-a guide rail; 41-bearings; 5-sliding plates; 6-configuring a board; 7-cover plate; 10-power battery.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

In the description of the present application, it should be noted that, the azimuth or positional relationship indicated by the terms "inner", "outer", etc. are based on the azimuth or positional relationship shown in the drawings, or the azimuth or positional relationship that is commonly put when the product of the application is used, are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the device or element to be referred to must have a specific azimuth, be configured and operated in a specific azimuth, and therefore should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

It should also be noted that the terms "disposed," "coupled," and "connected" are to be construed broadly, and may be, for example, fixedly coupled, detachably coupled, or integrally coupled, unless otherwise specifically defined and limited; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

Referring to fig. 1, an embodiment of the present application provides a power battery support 1, including a plurality of support units 2 that can dismantle the connection, support units 2 are used for holding power battery 10, are provided with locating component on support units 2, and for example, locating component sets up on the lateral wall of support units 2 in this application to be used for the location to connect two adjacent support units 2, a plurality of support units 2 can be along x, y, z direction interconnect, and x, y, z direction are two-to-two mutually perpendicular.

The cradle unit 2 is a minimum unit structure in which the power battery 10 is provided. A plurality of such holder units 2 are assembled in x, y, and z directions, respectively, as needed, to form the power battery holder 1.

As shown in fig. 1, in an example, fig. 1 includes three bracket units 2, and the three bracket units 2 are sequentially connected along the x direction to form a power battery bracket 1; the power battery bracket 1 can accommodate three power batteries 10 at the same time.

When the power battery 10 is connected with the bracket unit 2, the power battery 10 can be installed in the bracket unit 2 through bolts, so that the power battery 10 is detachably connected with the bracket unit 2, and the power battery 10 is convenient to replace and maintain. Specifically, the power battery 10 is provided with a first mounting hole 11, the bracket unit 2 is provided with a second mounting hole 21, and the power battery 10 and the bracket unit 2 are connected by bolts penetrating through the first mounting hole 11 and the second mounting hole 21.

Illustratively, as shown in fig. 1, a plurality of first mounting holes 11 are provided at the bottom of the power battery 10 at intervals, and when the power battery 10 is mounted in the holder unit 2, the first mounting holes 11 are in one-to-one correspondence with the second mounting holes 21 on the holder unit 2, and bolts sequentially pass through the first mounting holes 11 of the power battery 10 and the second mounting holes 21 of the holder unit 2 and fit nuts to mount the power battery 10 in the holder unit 2.

When the plurality of bracket units 2 are connected, positioning components are adopted for positioning and then are connected through bolts; in one embodiment, the positioning assembly comprises positioning holes distributed on the bracket unit 2 and positioning pins 3 matched with the positioning holes.

For example, three rack units 2 in fig. 2 form a group of power battery racks 1 along the x-direction, two groups of power battery racks 1 are shown in fig. 2, and the two groups of power battery racks 1 are stacked along the z-direction to form the power battery rack 1 of the present application.

Wherein, the bottom of the power battery support 1 of the upper layer of z direction is connected with locating pin 3, and the power battery support 1 of lower floor corresponds the position and sets up the locating hole, and locating pin 3 penetrates the locating hole, can connect the power battery support 1 of upper and lower floor through the cooperation of bolt, nut.

In addition, the positioning pin 3 can be replaced by a positioning bolt, the positioning hole is a threaded hole matched with the positioning bolt, and the positioning bolt and the threaded hole are matched to realize the connection of two adjacent bracket units 2; the positioning bolts can pass through the positioning holes, the positioning holes are unthreaded holes, and the positioning bolts are matched with nuts of the knobs on the positioning bolts, so that the connection of the two adjacent bracket units 2 can be realized.

In the x direction, the same group of power battery supports 1 are arranged in the same way, positioning pins 3 are connected to adjacent support units 2, positioning holes are formed in the adjacent support units 2, and the two adjacent support units 2 in the x direction are connected through matching of the positioning pins 3 and the positioning holes.

If the power battery support 1 is required to be connected in the y direction, the required support unit 2 can be connected in the y direction by adopting a positioning pin 3 and a positioning hole, and the arrangement of the power battery support 1 in the x and z directions is the same, and is not repeated.

In another embodiment, the positioning assembly comprises a guide rail 4 and a slide plate 5, which are respectively arranged on two adjacent bracket units 2 in a matching way, so that the slide plate 5 can slide along the guide rail 4.

As shown in fig. 3, fig. 3 shows a sliding connection of the support units 2 stacked up and down, a guide rail 4 may be provided on the support unit 2 of the upper layer, a slide plate 5 may be provided on the support unit 2 of the lower layer, the support unit 2 of the lower layer may be slidably mounted on the guide rail 4 through the slide plate 5 and may slide along the guide rail 4, and the support unit 2 of the lower layer may be slidably connected with respect to the support unit 2 of the upper layer.

Similarly, if sliding connection in the x and y directions is required, the guide rail 4 can be arranged on one side of the bracket unit 2, and the sliding plate 5 can be arranged on the other side of the bracket unit 2, so that sliding installation of two adjacent bracket units 2 can be realized.

In order to make the sliding of the two holder units 2 smoother and easier, a plurality of bearings 41 may be provided on the rail 4, and the slide plate 5 may be slidably connected to the rail 4 via the bearings 41.

In the foregoing, the rack units 2 are each formed by a small rectangular frame, each rack unit 2 accommodates a small power battery 10, and a plurality of rack units 2 are adjacent to form a group of power battery racks 1.

It is also possible that the stand unit 2 may be further constituted by a large rectangular frame body to house the large-sized power battery 10; as shown in fig. 4, the power battery 10 has a volume significantly larger than that of the power battery 10 of fig. 1, 2 and 3, so that correspondingly, the bracket unit 2 of fig. 4 is matched with the large-sized power battery 10 to form a large rectangular frame. The bracket unit 2 of the large rectangular frame body is spliced and assembled along the x, y and z directions as required to form the power battery bracket 1.

The power battery bracket 1 assembled by the plurality of bracket units 2 can be independently applied to a vehicle; in addition, in some situations, the power battery bracket 1 and the vehicle need to be configured in a basic mode, and in this case, the configuration board 6 needs to be disposed on the power battery bracket 1 to adapt to the preset position of the vehicle, and the power battery bracket 1 is installed through the configuration board 6 and the preset position of the vehicle.

By way of example, one side of the integrated power battery holder 1 formed in fig. 3 is provided with four arrangement plates 6, by means of which arrangement plates 6 the power battery holder 1 is arranged to be mounted in a predetermined position of the vehicle. The position, number and structural shape of the configuration boards 6 are not particularly limited, and the configuration boards can be matched and set according to different scenes.

From this, the power battery support 1 that this application embodiment provided, a plurality of support units 2 can be followed x, y, the mutual detachable connection of z direction, and every support unit 2 is used for holding power battery 10, sets up locating component on the support unit 2, connects two adjacent support units 2 through locating component location. This application carries out the setting of modularization with power battery support 1, every support unit 2 as a small module, and arbitrary small module is assembled each other and can be formed power battery support 1 for power battery support 1's modularization degree is high like this, and the commonality is strong, can assemble into required power battery support 1 with a plurality of support units 2 according to different scene demands, and equipment cost is low, and adaptability is strong. In addition, because each support unit 2 can be disassembled and assembled at will, when one of the power batteries 10 needs to be replaced, all the power batteries 10 and the pipeline bundles do not need to be disassembled one by one, the power batteries 10 are prevented from being pulled, the damage of the batteries and the pipeline bundles in the whole battery disassembling process can be avoided, and the whole maintenance convenience is good, the maintenance is convenient, and the efficiency is high.

On the other hand, the embodiment of the application also discloses a power battery system, which comprises the power battery bracket 1 as any one of the above, and the power battery 10 correspondingly arranged in the bracket unit 2 of the power battery bracket 1.

The power battery 10 is provided in the power battery holder 1 to form a power battery system. A cover plate 7 is further arranged above the power battery 10 and used for covering the power battery 10, so that the power battery 10 is further stably positioned. Illustratively, in fig. 4, after the power cells 10 are mounted to the respective layers of the rack units 2, a cover plate 7 is provided above the power cells 10 of the uppermost layer to cover the power cells 10.

When the power battery 10 and the power battery holder 1 are mounted, there are several different assembly sequences:

in one implementation, each power battery 10 is sub-assembled on a plurality of support units 2 to form a plurality of split assemblies, the adjacent split assemblies are precisely assembled through positioning assemblies, the assembly of a plurality of split assemblies is completed in sequence, a cover plate 7 is assembled to form a power battery system, and then the power battery system is integrally assembled at a required position of the whole vehicle.

In the second implementation manner, each power battery 10 is sub-assembled on the plurality of support units 2 to form a plurality of split assemblies, one of the split assemblies is assembled at a required position of the whole vehicle, then the other split assembly is precisely assembled on the upper split assembly through the positioning assembly, assembling of the plurality of split assemblies is sequentially completed, and finally the cover plate 7 is installed.

In a third implementation manner, in order to facilitate the correspondence between each power battery 10 and the plurality of support units 2, a first power battery 10 is installed on the first support unit 2, a second support unit 2 is accurately assembled on the first support unit 2 through a positioning assembly, a second power battery 10 is assembled on the second support unit 2, the assembly of a plurality of support units 2 and power batteries 10 is sequentially completed, a power battery system is formed after the cover plate 7 is installed, and then the power battery system is integrally assembled at a position required by the whole vehicle.

In a fourth implementation manner, the first bracket unit 2 is directly assembled at a desired position of the whole vehicle, then the first power battery 10 is installed on the first bracket unit 2, the second bracket unit 2 is precisely assembled on the first bracket unit 2 through the positioning assembly, the second power battery 10 is assembled on the second bracket unit 2, the assembly of the plurality of bracket units 2 and the power battery 10 is sequentially completed, and finally the cover plate 7 is installed.

The power battery system adopts the split type support units 2 to assemble and form the power battery support 1, the space utilization rate of the power battery support 1 is high, the installation space of the power battery 10 is large, the assembly is simple and flexible, the assembly sequence can be flexibly adjusted according to the assembly site, and the assembly time is short. The single bracket unit 2 is small and exquisite, easy to process and easy to ensure the processing precision. The power battery bracket 1 can be modularized, has high universality and low cost. The power battery 10 can also be directly assembled on the basic configuration power battery bracket 1 (with the configuration plate 6) and the power battery bracket 1 (without the configuration plate 6), and a bracket is not required to be arranged on a bottom, so that the system is light in weight. The power battery 10 is convenient to maintain and operate, and the power battery 10 with problems can be maintained or replaced only by detaching the bracket unit 2 corresponding to the power battery 10 from the adjacent bracket unit 2 and the connecting pipe harness. The modularization and the universalization of the power battery bracket 1 are realized, and meanwhile, the modularization and the universalization of a battery skin and a pipe harness can be realized, so that the product types and the cost are reduced.

The embodiment of the application also provides a vehicle, which comprises the power battery system, wherein the power battery system is arranged at a preset position of the vehicle, so that the power supply requirement of the vehicle is ensured.

The power battery system, the vehicle, and the like include the same structure and advantageous effects as those of the power battery bracket 1 in the foregoing embodiment. The structure and the advantageous effects of the power battery holder 1 have been described in detail in the foregoing embodiments, and are not described in detail herein.

The above is only an example of the present application, and is not intended to limit the scope of the present application, and various modifications and variations will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (8)

1. A power cell bracket, comprising: the power battery rack comprises a plurality of detachably connected rack units, wherein the rack units are used for accommodating power batteries, positioning assemblies are arranged on the rack units and used for positioning and connecting two adjacent rack units, and the rack units can be mutually connected along the x, y and z directions;

the positioning assembly comprises positioning holes distributed on the bracket units and positioning pins or positioning bolts matched with the positioning holes, or comprises guide rails and sliding plates which are respectively matched with the two adjacent bracket units, so that the sliding plates can slide along the guide rails.

2. The power battery bracket according to claim 1, wherein the positioning assembly comprises the guide rail and the slide plate which are respectively matched and arranged on two adjacent bracket units, the guide rail is further provided with a bearing, and the slide plate is slidably connected with the guide rail through the bearing.

3. The power battery holder according to claim 1 or 2, wherein the power battery and the holder unit are detachably connected.

4. A power battery bracket according to claim 3, wherein a first mounting hole is provided in the power battery, a second mounting hole is provided in the bracket unit, and the power battery and the bracket unit are connected by bolts penetrating through the first mounting hole and the second mounting hole.

5. The power battery bracket according to claim 1 or 2, further comprising a configuration plate provided on the power battery bracket for configuration installation with a predetermined location of a vehicle.

6. A power battery system comprising the power battery holder according to any one of claims 1 to 5, and a power battery correspondingly provided in a holder unit of the power battery holder.

7. The power cell system of claim 6, wherein a cover plate is further provided above the power cell.

8. A vehicle comprising the power battery system according to claim 6 or 7.