Patent Application
20240030530
The present disclosure relates to the technical field of batteries, and more particularly, to a battery pack and a vehicle.
A related art discloses a battery pack. An enclosure of the battery pack includes a base and a cover arranged above the base. The cover includes a top plate and a side panel extending in a circumferential direction of the top plate. The shape of a projection of the cover on a plane where the base is located is roughly the same as the shape of the base. Since the structure size of the cover is larger, components are not convenient to mount, and a large number of bolts are required to connect the cover to the base. In addition, a matching surface between the cover and the base is larger, so that the sealing of the battery pack may not be sufficiently strong.
The present disclosure solves at least one of the technical problems in the related art. Therefore, the present disclosure provides a battery pack.
The present disclosure further proposes a vehicle with the foregoing battery pack.
A battery pack in an embodiment according to a first aspect of the present disclosure includes: an enclosure; a cell disposed in the enclosure; and a distribution box disposed in the enclosure. The enclosure includes a housing and a cover body, a side of the housing including a picking and placing opening. The cover body is disposed on the side of the housing to cover the picking and placing opening. The distribution box is located in the housing close to the picking and placing opening. The housing, the cover body, and a metal plate of the distribution box surround the cell.
According to some embodiments of the present disclosure, an area of a top surface of the housing and an area of a bottom surface of the housing are greater than an area of a side surface of the housing.
According to some embodiments of the present disclosure, the housing includes multiple chambers disposed in an extension direction of the picking and placing opening, an opening of each of the chambers is in communication with the picking and placing opening, and the cell is disposed in a first chamber of the chambers by pushing or pulling through the opening of the chambers.
In some embodiments, the cell is attached to an inner surface of the first chamber; or a gap between the cell and the inner surface of the first chamber is filled with a thermally conductive adhesive.
In some embodiments, the housing includes one casing or multiple casings connected to each other, the casings are disposed in the extension direction of the picking and placing opening, and each of the casings comprises one of the chambers.
In some embodiments, the casing or the casings are made of aluminum alloy, stainless steel, or magnesium aluminum alloy.
In some embodiments, at the opening of each of the chambers, a bottom wall of the casing protrudes over a top wall of the casing, and the housing further includes two baffles. The housing includes one of the casings, the two baffles are disposed on two opposite sides of the casing, and the baffles and the casing define the picking and placing opening; or the housing includes the casings connected to each other, the two baffles are disposed on two outer sides of the two outermost casings, and the baffles and the casings define the picking and placing opening.
According to some embodiments of the present disclosure, a length of an outer contour of the picking and placing opening is L1, a length of an outer contour of cross section of the housing parallel to a vertical plane alone the extension direction is L2, and the L1 is greater than or equal to the L2.
According to some embodiments of the present disclosure, the picking and placing opening is located on a plane that is oblique relative to a horizontal plane.
In some embodiments, an included angle between the plane where the picking and placing opening is located and the horizontal plane is 35° to 75°.
According to some embodiments of the present disclosure, an outer contour of the picking and placing opening includes a first connecting hole, an outer periphery of the cover body includes a second connecting hole, and the housing is connected to the cover body through a fastener penetrating in the first connecting hole and the second connecting hole.
According to some other embodiments of the present disclosure, the cover body is welded to the housing.
According to some embodiments of the present disclosure, the enclosure includes multiple mounting brackets disposed at an interval with each other on an outer surface of the enclosure.
According to some embodiments of the present disclosure, the outside of the enclosure is provided with a grounding portion.
According to some embodiments of the present disclosure, the enclosure is made of a metal material.
In some embodiments, a thickness of the enclosure is greater than 0.5 mm.
According to some other embodiments of the present disclosure, the enclosure includes an enclosure body, and a surface of the enclosure body includes a metal layer.
According to some embodiments of the present disclosure, the battery pack further includes: a heat exchange member disposed at a top surface of the enclosure or a bottom surface of the enclosure.
In some embodiments, the heat exchange member includes a plate member, and the heat exchange member is attached to the top surface of the enclosure or the bottom surface of the enclosure.
A vehicle in an embodiment according to a second aspect of the present disclosure includes a battery pack according to the foregoing embodiment.
Additional aspects and advantages of the present disclosure will be given in the following description, some of which will become apparent from the following description or may be learned from practices of the present disclosure.
The foregoing and/or additional aspects and advantages of the present disclosure will become apparent and comprehensible from the following descriptions of the embodiments with reference to the accompanying drawings.
Embodiments of the present disclosure are described in detail below, and examples of the embodiments are shown in accompanying drawings, where the same or similar elements or the elements having same or similar functions are denoted by the same or similar reference numerals throughout the description. The embodiments described below with reference to the accompanying drawings are exemplary and used only for explaining the present disclosure, and should not be construed as a limitation on the present disclosure.
A battery pack 100 according to the embodiments of the present disclosure will be described below with reference to
As shown in
The enclosure 10 includes a housing 11 and a cover body 12. A side of the housing 11 is provided with a picking and placing opening 101. The picking and placing opening 101 is configured to pick and place the cell. The cover body 12 is arranged/disposed on the side of the housing 11 to close the picking and placing opening 101. The distribution box 30 is located in a position close to the picking and placing opening 101 in the housing 11. A metal plate 31 of the distribution box 30, the housing 11, and the cover body 12 all clad/surround the cell.
Compared with the technical solutions of using covers with larger structure sizes in related technologies, the battery pack 100 according to the embodiment of the present disclosure has the advantages that the side of the housing 11 is provided with a picking and placing opening 101, so the cover body 12 with a smaller surface area can be used for closing the picking and placing opening 101; since the structure size of the cover body 12 is smaller, components are convenient to mount, which is beneficial for increasing the production efficiency; moreover, the number of fasteners between the housing 11 and the cover body 12 can be reduced, thereby simplifying mounting processes and reducing costs; and in addition, a matching surface between the housing 11 and the cover body 12 can also be reduced, which is beneficial for reducing the sealing failure rate between the housing 11 and the cover body 12.
An area of a top surface of the housing 11 and an area of a bottom surface of the housing 11 are both greater than an area of the side surfaces of the housing 11, that is, the cover body 12 is arranged/disposed on the side of the housing 11 with a relatively small surface area. Compared with the technical solutions of using sealing covers with larger surface areas in related technologies, the cover body 12 of the present disclosure is arranged/disposed on the side of the housing 11 and has a smaller surface area, which is beneficial for reducing the sealing failure rate; and due to a smaller size, the cover body 12 is convenient to mount.
As shown in
In some embodiments, the cell is attached to an inner surface of the chamber. By attaching the cell to the inner surface of the chamber to enable each cell to be in full contact with the surface of the enclosure 10, the thermal conductivity of the enclosure 10 can be used to ensure better consistent temperature uniformity of the battery pack 100, so as to prolong the service life of the battery pack 100; and the space in the enclosure 10 can be fully used to increase the space utilization rate in the enclosure 10. In addition, by attaching the cell to the inner surface of the chamber, the structural strength of the entire battery pack 100 can also be increased.
In some other embodiments, a gap between the cell and the inner surface of the chamber is filled with a thermally conductive structural adhesive, which can not only ensure the mounting stability and use reliability of the cell and allow heat of the cell to be evenly conducted through the enclosure 10 to ensure extremely high temperature consistency, but also increase the structural strength of the entire battery pack 100.
It should be noted that, in order to ensure the smooth mounting of the cell into the chamber and prevent the cell from detaching from the chamber, usually, the cell is in interference fit with the inner surface of the chamber, and the chamber is filled with the thermally conductive structural adhesive by pouring to fill the gap between the cell and the inner surface of the chamber with the thermally conductive structural adhesive. Therefore, the structural strength of the battery pack 100 can be ensured, the space utilization rate can be increased, and the space utilization rate in the enclosure 10 reaches 90% or above.
In some embodiments, the housing 11 includes one casing or multiple connected casings 111. The multiple casings 111 are arranged/disposed in the extension direction of the picking and placing opening 101, and each of the multiple chambers is defined in each casing 111. The structure is simple and is easy to process and mold. In an embodiment where the housing 11 includes a casing 111, the housing 11 covers the side of the casing 111. In an embodiment where the housing 11 includes multiple casings 111, the housing 11 is arranged/disposed on sides of the multiple casings 111 as an integral cover.
Each casing 111 may be made of multi-chamber aluminum alloy materials. For example, each casing 111 may be subjected to matte processing, and the multiple casings 111 may be spliced together in a welding manner. The structure is simple, the operation is simple, and it is beneficial for increasing the production efficiency. Of course, the casing 111 may also be made of stainless steel. In some embodiments, in order to achieve a lightweight design of the battery pack 100 and reduce the weight of the enclosure 10, the casing 111 may also be made of magnesium aluminum alloy.
In some examples, at the opening 102 of the chamber, a bottom wall of the casing 111 exceeds or protrudes over a top wall of the casing 111. The housing 11 further includes two baffles 112. The two baffles 112 are oppositely arranged/disposed on sides of the casing 111. The baffles 112 and the casing 111 define the picking and placing opening 101.
It can be understood that, in an embodiment where the housing 11 includes the casing 111, the two baffles 112 are oppositely arranged on sides of the casing 111 (left and right sides of the casing 111 as shown in
Therefore, by configuring the baffle 112, a plane where the picking and placing opening 101 is located is a non-vertical plane. During mounting of components (for example, flexible circuit boards), such as the cell and the distribution box 30, it is convenient for observation and connection, and beneficial for increasing the production efficiency. Furthermore, both the bottom wall of the casing 111 and the baffle 112 can support the cover body 12, thereby facilitating the mounting of the cover body 12, and further increasing the production efficiency. The shape of the picking and placing opening 101 can be adjusted according to design needs.
In an embodiment, as shown in
According to some embodiments of the present disclosure, the length of an outer contour of the picking and placing opening 101 is L1. A length of an outer contour of cross section of the housing 11 parallel to a vertical plane alone the extension direction (left-and-right directions shown in
In order to facilitate understanding and clearly identify the positions indicated by the L1 and the L2, the housing 11 in
In an embodiment, as shown in
Further, the outer contour of a cross section of the housing 11 parallel to a vertical plane alone the extension direction (left-and-right directions shown in
In other words, the length of the outer contour of the picking and placing opening 101 is L1, and the extension length of a projection of the picking and placing opening 101 on a vertical plane perpendicular to front-and-rear directions is L2. By defining the L1 to be greater than the L2, that is, defining a plane where the picking and placing opening 101 is located to be a non-vertical plane, the sealing performance of matching between the housing 11 and the cover body 12 can be increased.
According to some embodiments of the present disclosure, the plane where the picking and placing opening 101 is located is obliquely arranged/disposed relative to a horizontal plane. The horizontal plane here refers to a plane where the bottom wall of the housing 11 is located when the battery pack 100 is placed in an orientation shown in
By obliquely arranging the plane where the picking and placing opening 101 is located relative to the horizontal plane, the sealing performance between the housing 11 and the cover body 12 is ensured. Furthermore, during mounting of components (for example, flexible circuit boards), such as the cell and the distribution box 30, it is convenient for observation and connection, and beneficial for increasing the production efficiency. Moreover, the mounting of the cover body 12 is also facilitated, and the production efficiency is further increased. Of course, the plane where the picking and placing opening 101 is located may also be a vertical plane.
In some embodiments, an included angle α between the plane where the picking and placing opening 101 is located and the horizontal plane is 35° to 75°. For example, the included angle α between the plane where the picking and placing opening 101 is located and the horizontal plane may be 35°, 45°, 60°, 75°, or the like.
According to some embodiments of the present disclosure, the edges of the picking and placing opening 101 is provided with a first connecting hole 1112. An outer periphery of the cover body 12 is provided with a second connecting hole 1201. The housing 11 is connected to the cover body 12 through a fastener penetrating in the first connecting hole 1112 and the second connecting hole 1201. In order to further ensure the sealing performance between the housing 11 and the cover body 12, a sealing ring 15 may be arranged/disposed between the housing 11 and the cover body 12.
Referring to
During mounting, both the bottom wall of the casing 111 and the side of the baffle 112 (such as the side surface or the side flange 1121) can support the cover body 12 to facilitate the mounting of the cover body 12, which is beneficial for increasing the production efficiency.
In some embodiments, the cover body 12 can be welded to the housing 11, for example, by friction welding or laser welding.
Compared with the technical solution of using fasteners for connection, the contact resistance at a welding point using a welding manner is smaller, the grounding resistance can be reduced, the stability of low-voltage signal transmission is ensured, and the shielding effect is improved. In addition, the welding process has a higher degree of automation and higher production efficiency. By using the welding manner for connection, the cross section of a member cannot be weakened, materials are saved, and the battery pack 100 has a simpler structure and higher welding strength.
According to some embodiments of the present disclosure, an outside of the enclosure 10 is provided with multiple mounting brackets 13, and the multiple mounting brackets 13 are arranged/disposed at intervals. When the mounting bracket 13 is a metal bracket with an external insulation structure, the mounting bracket 13 needs to be subjected to de-insulation processing, so that higher structural strength is ensured, multi-point grounding of the battery pack 100 can be achieved, the signal shielding effect of the battery pack 100 is further improved, and the signal transmission performance is enhanced.
In an embodiment, as shown in
In order to reduce the weight of the battery pack 100, the middle of the mounting bracket 13 defines a cavity, and multiple connecting ribs are arranged/disposed in the cavity, thereby ensuring the structural strength of the mounting bracket 13.
According to some embodiments of the present disclosure, the outside of the enclosure 10 is provided with a grounding portion 14.
According to some embodiments of the present disclosure, the enclosure 10 is made of a metal material, that is, the cell is fully clad with the metal material. In this embodiment, it is equivalent to adding a layer of shielding cover to the cell, thereby ensuring the radio frequency protection and shielding of signals of the battery pack 100, reducing the EMC interference, enhancing the signal transmission performance, and improving the system safety and reliability. Moreover, the enclosure 10 made of the metal material has higher structural strength and higher safety performance, is simple in structure and more convenient to process and mold, and is beneficial for increasing the production efficiency.
In order to reduce the weight of the battery pack 100 and achieve the lightweight design of the battery pack 100, the enclosure 10 may be completely made of aluminum alloy. Of course, the housing 11 and the cover body 12 may also be made of different metal materials. For example, the housing 11 may be made of an aluminum alloy material, and the cover body 12 may be made of an aluminum magnesium alloy material. On the premise of ensuring the structural strength and EMC protection, the lightweight is achieved as much as possible, and the energy density of the battery pack 100 is increased.
In some embodiments, a thickness of the enclosure 10 is greater than 0.5 mm. For example, the thickness of the enclosure 10 may be 0.6 mm, 0.8 mm, or the like, which not only can further enhance the structural strength of the enclosure 10, but also has a good shielding effect on 1 MHz electromagnetic waves.
According to some other embodiments of the present disclosure, the enclosure includes a body of the enclosure, and a surface of the body of the enclosure is provided with a metal layer. In an embodiment, the body of the enclosure may be made of a plastic material, and the surface of the body of the enclosure is sprayed with a conductive material and is connected to a shielding layer, thereby ensuring the radio frequency protection and shielding of signals of the battery pack, reducing the EMC interference, achieving good EMC expression performance, enhancing the signal transmission performance, improving the system safety and reliability, and being beneficial for achieving the lightweight design of the battery pack 100.
As shown in
In an embodiment, the heat exchange member 40 can be used for dissipating heat from the cell. When the battery pack 100 is located at a lower environment temperature and cannot work normally, the cell may also be heated by the heat exchange member 40.
In some embodiments, the heat exchange member 40 forms a plate member, the heat exchange member 40 is laid/attached at the top and/or the bottom surface of the enclosure 10, and the heat exchange member 40 is attached to a surface of the top and/or the bottom of the enclosure 10, so that the contact area between the heat exchange member 40 and the enclosure 10 can be increased, and the heat exchange efficiency is effectively increased.
For example, the heat exchange member 40 may be a liquid cooling plate, that is, a heat exchange medium in the heat exchange member 40 is a liquid. The liquid cooling plate is arranged/disposed at the bottom of the enclosure 10, and the liquid cooling plate can be connected to the enclosure 10 through a bolt or the thermally conductive structural adhesive. The liquid cooling plate is provided with an interface 41 so as to facilitate the connection with other components. In an embodiment, the heat exchange medium in the heat exchange member 40 may also be in a gas state.
An embodiment of the battery pack 100 according to the present disclosure is described in detail below with reference to the accompanying drawings.
As shown in
The battery pack 100 includes an enclosure 10, multiple cells, and a distribution box 30.
The enclosure 10 includes a housing 11 and a cover body 12. The housing 11 is provided with a picking and placing opening 101 on a side of a length direction of the housing (front side shown in
The housing 11 includes multiple casings 111 arranged in left-and-right directions. A bottom wall of each casing 111 exceeds a top wall. Edges of bottom walls of the multiple casings 111 are flush, and edges of top walls of the multiple casings 111 are flush. Multiple partition plates 1111 arranged at intervals in left-and-right directions are arranged in each casing 111, so that an inner cavity of the casing 111 is divided into multiple chambers. Bottom walls of the two outermost casings 111 are respectively provided with triangular baffles 112 at the opening 102 of the chamber. Edges of the top wall and the bottom wall of each casing 111 close to the opening 102 of the chamber are respectively provided with multiple first connecting holes 1112 arranged/disposed at intervals. The front side edge of the baffle 112 is provided with a side flange 1121. The side flange 1121 is provided with multiple first connecting holes 1112 arranged at intervals.
The cover body 12 includes a top plate 121, a first side plate 122, and two second side plates 123. The top plate 121 and the first side plate 122 are perpendicular to each other. An upper end of the first side plate 122 is connected to a front side edge of the top plate 121. The two second side plates 123 are arranged/disposed at the left and right ends of the top plate 121. Each second side plate 123 forms a right-angled triangular plate member. Upper edges of the two second side plates 123 are connected to the left and right ends of the top plate 121. A front side edges of the two second side plates 123 are connected to the left and right ends of the first side plate 122. A lower end of the first side plate 122 is provided with a first flange 1221. The front side edge of the second side plate 123 is provided with a second flange 1231. The top plate 121, the first flange 1221 of the first side plate 122, and the second flange 1231 of the second side plate 123 are respectively provided with multiple second connecting holes 1201 arranged/disposed at intervals. The first side plate 122 is provided with a port 1202 that runs through in a thickness direction of the first side plate.
The distribution box 30 includes a metal plate 31, a low-voltage connector 32, and a high-voltage connector 33. The distribution box 30 is arranged/disposed in a position of the housing 11 close to the picking and placing opening 101. When the battery pack 100 is assembled in place, the metal plate 31 is connected to an edge of the port 1202 of the cover body 12 through a fastener, and the low-voltage connector 32 and the high-voltage connector 33 are exposed out of the port 1202, thereby facilitating the connection with other components.
The battery pack 100 according to the embodiment of the present disclosure is configured to be a cuboid structure, and a corresponding shielding structure is also the cuboid structure, thereby avoiding frequency resonance as much as possible. In the processes of signal input and output, the radio frequency protection and shielding of signals of the battery pack 100 are ensured, the EMC interference is reduced, the signal transmission performance is enhanced, and the system safety and reliability are improved. Moreover, the battery pack 100 has a simple structure, a regular shape, and a smaller volume, is convenient for spatial configuration in the entire vehicle, and has higher adaptability.
As shown in
Since the battery pack 100 according to the embodiment of the present disclosure has the foregoing technical effects, the vehicle 500 according to the embodiment of the present disclosure also has the foregoing technical effects. That is, by using the foregoing battery pack 100, the EMC interference is reduced, the signal transmission performance is enhanced, the system safety and reliability are improved, and it is beneficial for prolonging the service life of the vehicle 500.
In the description of the present disclosure, it should be understood that orientation or position relationships indicated by the terms such as “center”, “longitudinal”, “transverse”, “length”, “width”, “thickness”, “upper”, “lower”, “front”, “rear”, “left”, “right”, “vertical”, “horizontal”, “top”, “bottom”, “inner”, “outer”, “axial”, “radial”, and “circumferential” are based on orientation or position relationships shown in the accompanying drawings, and are used only for ease and brevity of illustration and description, rather than indicating or implying that the mentioned apparatus or component must has a particular orientation or must be constructed and operated in a particular orientation. Therefore, such terms should not be construed as a limitation on the present disclosure.
Other compositions and operations of the battery pack 100 and the vehicle 500 according to the embodiments of the present disclosure are known to those of ordinary skill in the art and will not be described in detail herein.
In the description of this specification, the description of the reference terms such as “an embodiment”, “some embodiments”, “exemplary embodiments”, “example”, “specific example”, or “some examples” means that the specific features, structures, materials, or characteristics described with reference to this embodiment or example are included in at least one embodiment or example of the present disclosure. In this specification, exemplary descriptions of the foregoing terms do not necessarily refer to the same embodiment or example. Moreover, the described specific features, structures, materials, or characteristics may be combined in a proper manner in any one or more of the embodiments or examples.
Although the embodiments of the present disclosure have been shown and described, those of ordinary skill in the art should understand that various changes, modifications, replacements, and variations may be made to these embodiments without departing from the principles and spirit of the present disclosure, and the scope of the present disclosure is defined by claims and their equivalents.
| Number | Date | Country | Kind |
|---|---|---|---|
| 202110731924.9 | Jun 2021 | CN | national |
This application is a Continuation Application of International Patent Application No. PCT/CN2022/099542, filed on Jun. 17, 2022, which is based on and claims priority to and benefits of Chinese Patent Application No. 202110731924.9, filed on Jun. 30, 2021. The entire content of all of the above-referenced applications is incorporated herein by reference.
| Number | Date | Country | |
|---|---|---|---|
| Parent | PCT/CN2022/099542 | Jun 2022 | US |
| Child | 18373850 | US |
