阅读说明：本技术 电池包框架、电池包组件及车辆 (Battery package frame, battery package subassembly and vehicle ) 是由 李享 田江贵 黄桂恒 于 2021-10-29 设计创作，主要内容包括：本发明提供一种电池包框架、电池包组件及车辆,电池包框架用于将电池包与车辆梁体相连接,包括至少一个悬挂式框架和至少一个后背式框架,悬挂式框架和后背式框架可选择地与车辆梁体相连接。悬挂式框架包括：第一底框架；一对第一竖框架,第一竖框架的底端与第一底框架相连接,一对第一竖框架间隔设置；后背式框架包括：第二底框架,用于和车辆梁体相连接；一对第二竖框架。本发明提供的电池包框架、电池包组件及车辆,其电池包框架能够满足不同数量的电池包安装需求。(The invention provides a battery pack frame, a battery pack assembly and a vehicle. The suspension frame comprises: a first bottom frame; the bottom end of the first vertical frame is connected with the first bottom frame, and the pair of first vertical frames are arranged at intervals; the back frame includes: the second bottom frame is used for being connected with the vehicle beam body; a pair of second vertical frames. According to the battery pack frame, the battery pack assembly and the vehicle, the battery pack frame can meet the installation requirements of different numbers of battery packs.)

1. A battery pack frame for connecting a battery pack (25) to a vehicle beam, comprising at least one suspension frame (22) and at least one back frame (23), said suspension frame (22) and said back frame (23) being selectively connectable to said vehicle beam; wherein the suspension frame (22) comprises:

a first base frame (11);

a pair of first vertical frames (12), the bottom ends of the first vertical frames (12) are connected with the first bottom frame (11), the pair of first vertical frames (12) are arranged at intervals so as to form a first mounting part (13) used for accommodating a vehicle beam body and mounting a battery pack (25) between the inner sides of the pair of first vertical frames (12), and the outer sides of the pair of first vertical frames (12) respectively form a second mounting part (14) and a third mounting part (15) used for mounting the battery pack (25);

the back frame (23) comprises:

a second underframe (19) for connecting with the vehicle beam body;

the bottom ends of the second vertical frames (20) are connected with the second bottom frame (19), and a fourth installation part for installing a battery pack (25) is formed by arranging the second vertical frames (20) at intervals.

2. The battery pack frame according to claim 1, wherein the second mounting portion (14) and the third mounting portion (15) are symmetrically disposed at both sides of the first mounting portion (13).

3. The battery pack frame of claim 1, wherein the suspension frame (22) further comprises:

the first support (17) is used for being connected to the inner side of the vehicle beam body, and the first support (17) is used for being connected with a battery pack (25) in the first mounting portion (13).

4. A battery pack frame according to claim 3, wherein the first bottom frame (11) is provided with a first connecting structure for connecting with the bottoms of the battery packs (25) in the first, second and third mounting parts (13, 14, 15);

and the pair of first vertical frames (12) are provided with second connecting structures (16), and the second connecting structures (16) are used for being connected with the tops of battery packs (25) in the second mounting parts (14) and the third mounting parts (15).

5. A battery pack frame according to claim 4, wherein the second connecting structure (16) is provided as an ear mount structure comprising a first connecting face connected to the outer side of the first upright frame (12) and a second connecting face connected to the top of a battery pack (25).

6. A battery pack frame according to claim 1, wherein a diagonal draw beam (18) is provided between the upper part of the first vertical frame (12) and the first bottom frame (11).

7. A battery pack frame according to claim 1, wherein the second bottom frame (19) is provided with a connection socket (21), the connection socket (21) being connected with a vehicle beam body.

8. The battery pack frame according to claim 1, wherein the first bottom frame (11) comprises:

the transverse beams and the longitudinal beams are connected in a staggered mode to form the first bottom frame (11);

the first vertical frame (12) includes:

the bottom end of each vertical beam is connected with the first bottom frame (11);

and the top beam is connected with the top ends of the vertical beams.

9. The battery pack frame according to claim 1, wherein the second vertical frame (20) comprises:

the bottom end of each vertical beam is connected with the second bottom frame (19);

the top beam is connected with the top end of each vertical beam;

and one end of the diagonal bracing beam is connected with the top beam, the other end of the diagonal bracing beam is connected with the second bottom frame (19), and an included angle is formed between the diagonal bracing beam and the vertical beam.

10. A battery pack frame according to claim 1, wherein the first vertical frame (12) is provided with a first connecting structure for connection with the vehicle beam body.

11. A battery pack assembly, comprising:

a battery pack frame as claimed in any one of claims 1 to 10;

a battery pack (25) connected with the battery pack frame.

12. The battery pack assembly according to claim 11, wherein the battery pack (25) is provided with a connecting portion (26) at the edge of at least two end surfaces, and the connecting portion (26) is connected to the battery pack frame.

13. A battery pack assembly according to claim 12, wherein the connecting portion (26) is provided as a plurality of protrusions protruding from the edge of the battery pack (25), and the protrusions are distributed along the edge of the battery pack (25).

14. The battery pack assembly of claim 12, wherein the protrusions are provided with bolt holes.

15. A vehicle, characterized by comprising:

a pair of main beams (24);

a battery pack frame connected to the pair of main beams (24), the battery pack frame being as defined in any one of claims 1 to 10; wherein the content of the first and second substances,

at least one of the suspension frames (22) and/or at least one of the back frames (23) is connected to the pair of main beams (24).

Technical Field

The invention relates to the technical field of battery installation, in particular to a battery pack frame, a battery pack assembly and a vehicle.

Background

In new energy vehicles, a battery pack is generally mounted on a girder of the vehicle. In one mounting structure in the prior art, a mounting bracket is provided on a girder of a vehicle, and a battery pack is fixed to the girder through the mounting bracket.

However, the electric quantity requirements of different vehicles are different, and further the number of the battery packs is different.

This results in a need to provide a mounting bracket for each vehicle with different power requirements, which results in a waste of design cost.

Disclosure of Invention

The invention provides a battery pack frame, a battery pack assembly and a vehicle.

A first aspect of the invention provides a battery pack frame for connecting a battery pack to a vehicle beam, comprising at least one suspension frame and at least one back frame, the suspension frame and the back frame being selectively connectable to the vehicle beam; wherein the suspension frame comprises:

a first bottom frame;

the bottom ends of the first vertical frames are connected with the first bottom frame, the first vertical frames are arranged at intervals so as to form a first mounting part for accommodating a vehicle beam body and mounting a battery pack between the inner sides of the first vertical frames, and a second mounting part and a third mounting part for mounting the battery pack are formed on the outer sides of the first vertical frames respectively;

the back frame includes:

the second bottom frame is used for being connected with the vehicle beam body;

the bottom end of the second vertical frame is connected with the second bottom frame, and a pair of second vertical frames are arranged at intervals to form a fourth installation part for installing a battery pack.

According to the battery pack frame provided by the invention, the second mounting part and the third mounting part are symmetrically arranged at two sides of the first mounting part.

According to the battery pack frame provided by the invention, the suspension frame further comprises:

the first support is used for being connected to the inner side of the vehicle beam body, and the first support is used for being connected with the battery pack in the first installation portion.

According to the battery pack frame provided by the invention, the first bottom frame is provided with a first connecting structure which is used for being connected with the bottoms of the battery packs in the first installation part, the second installation part and the third installation part;

and the pair of first vertical frames are provided with second connecting structures, and the second connecting structures are used for being connected with the tops of the battery packs in the second mounting part and the third mounting part.

According to the battery pack frame provided by the invention, the second connecting structure is arranged into an ear seat structure, and the ear seat structure comprises a first connecting surface connected with the outer side surface of the first vertical frame and a second connecting surface connected with the top of the battery pack.

According to the battery pack frame provided by the invention, the inclined pull beam is arranged between the upper part of the first vertical frame and the first bottom frame.

According to the battery pack frame provided by the invention, the second bottom frame is provided with the connecting seat, and the connecting seat is connected with the vehicle beam body.

According to the battery pack frame provided by the present invention, the first bottom frame includes:

the transverse beams and the longitudinal beams are connected in a staggered mode to form the first bottom frame;

the first mullion frame includes:

the bottom end of each vertical beam is connected with the first bottom frame;

and the top beam is connected with the top ends of the vertical beams.

According to the battery pack frame provided by the present invention, the second mullion includes:

the bottom end of each vertical beam is connected with the second bottom frame;

the top beam is connected with the top end of each vertical beam;

and one end of the diagonal bracing beam is connected with the top beam, the other end of the diagonal bracing beam is connected with the second bottom frame, and an included angle is formed between the diagonal bracing beam and the vertical beam.

According to the battery pack frame provided by the invention, the first vertical frame is provided with a first connecting structure used for being connected with the vehicle beam body.

A second aspect of the present invention provides a battery pack assembly comprising:

a battery pack frame as described in any one of the above;

and the battery pack is connected with the battery pack frame.

According to the battery pack assembly provided by the invention, the edge parts of at least two end surfaces of the battery pack are provided with the connecting parts, and the connecting parts are connected with the battery pack frame.

According to the battery pack assembly provided by the invention, the connecting part is provided with a plurality of bulges protruding from the edge of the battery pack, and the bulges are distributed along the edge of the battery pack.

According to the battery pack assembly provided by the invention, the protrusion is provided with the bolt hole.

A third aspect of the invention provides a vehicle comprising:

a pair of main beams;

a battery pack frame connected to the pair of main beams, the battery pack frame being any one of the battery pack frames described above; wherein the content of the first and second substances,

at least one of the suspension frames and/or at least one of the back frames is connected to the pair of main beams.

Has the advantages that:

the invention provides a battery pack frame, which comprises at least one suspension type frame and at least one back type frame, wherein the suspension type frame and the back type frame are selectively connected to a vehicle beam body, for example, only the suspension type frame can be selectively installed according to the installation number and the installation position of battery packs, or only the back type frame can be installed, and the installation number of the suspension type frame and the back type frame can also be selected.

The suspension type frame comprises a first bottom frame and a pair of first vertical frames, wherein the bottom ends of the first vertical frames are connected with the first bottom frame, the pair of first vertical frames are arranged correspondingly, and a certain interval is arranged between the pair of first vertical frames, so that a first installation part for accommodating a vehicle beam body and installing a battery pack is arranged between the pair of first vertical frames. And the outer sides of the pair of first vertical frames form a second mounting part and a third mounting part for mounting the battery pack, respectively.

First perpendicular frame is connected with the vehicle roof beam body, and then makes the suspension type frame hang on the vehicle roof beam body, according to the installation quantity demand of battery package, can install the battery package in first installation department, second installation department and third installation department.

Back formula frame includes that second underframe frame and a pair of second erect the frame, and the second underframe frame is used for being connected with the vehicle roof beam body, and the bottom that the frame was erect to a pair of second is connected with second underframe frame to the interval sets up between a pair of second erect the frame, in order to form the fourth installation department that is used for installing the battery package. The back formula frame can be connected on the vehicle roof beam body through second underframe frame, and the battery package is installed in the fourth installation department. In addition, when two or more battery packs are provided, the battery packs may be stacked in the fourth mounting portion.

According to the arrangement, the battery pack frame provided by the invention can select the suspension type frame and the back type frame according to the installation number of the battery packs, and further, the battery pack frame provided by the invention can meet the installation requirements of different numbers of battery packs.

In a further technical scheme of the invention, a second mounting part and a third mounting part of the suspension type frame are symmetrically arranged at two sides of the first mounting part. So set up, when a battery package of installation on the suspension type frame, can set up the battery package in the first installation department in the middle, when two battery packages of installation on the suspension type frame, can set up two battery packages in second installation department, third installation department respectively, when three battery package of installation on the suspension type frame, can set up three battery package in first installation department, second installation department and third installation department respectively. Because second installation department, third installation department symmetric distribution can guarantee that whole has better equilibrium.

And thirdly, conveniently fixing the battery pack in the first mounting part, wherein the suspension type framework further comprises a first support, and the first support is connected with the inner side of the vehicle beam body and is connected with the battery pack in the first mounting part. The battery pack is connected with the vehicle beam body through the first support, and has good stability.

In a further technical scheme of the present invention, the first bottom frame is provided with a first connecting structure, and the first connecting structure is used for connecting with the bottoms of the battery packs in the first installation part, the second installation part and the third installation part. And the pair of first vertical frames are provided with second connecting structures which are used for being connected with the tops of the battery packs in the second mounting part and the third mounting part.

So set up, install the battery package in first installation department, second installation department and third installation department, its bottom can form the relation of connection with first underframe frame, and simultaneously, the battery package top in second installation department, the third installation department can form the relation of connection with first vertical frame, and a plurality of positions of battery package are connected with battery package frame, have further improved connection stability.

Fifth, a second aspect of the present invention provides a battery pack assembly, comprising:

the battery pack frame is the battery pack frame;

and the battery pack is connected with the battery pack frame.

According to the battery pack assembly, the battery pack frame can be provided with various different battery pack combinations, so that the installation requirements of different numbers of battery packs are met.

Sixth, a third aspect of the invention provides a vehicle comprising:

a pair of main beams;

a battery pack frame connected to the pair of main beams, the battery pack frame being any one of the battery pack frames described above; wherein the content of the first and second substances,

at least one of the suspension frames and/or at least one of the back frames is connected to the pair of main beams.

According to the vehicle provided by the invention, the battery pack frame can be provided with various different battery pack combinations, so that the installation requirements of different numbers of battery packs are met. The derivation process of the beneficial effect is substantially similar to the derivation process of the beneficial effect brought by the battery pack frame, and is not repeated here.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the drawings needed for the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

FIG. 1 is a schematic view of a suspended frame in an embodiment of the invention;

FIG. 2 is an enlarged schematic view of section A of FIG. 1;

FIG. 3 is an enlarged schematic view of section B of FIG. 1;

FIG. 4 is a schematic view of a backpack frame in an embodiment of the present invention;

FIG. 5 is a schematic view of the attachment of the suspension frame and backpack frame to a pair of main beams in an embodiment of the invention;

FIG. 6 is an enlarged view of the portion C of FIG. 5;

FIG. 7 is an enlarged view of the portion D of FIG. 5;

FIG. 8 is a schematic view of a connection structure between a battery pack and a battery pack frame according to an embodiment of the present invention;

fig. 9 is an enlarged schematic view of a portion E of fig. 8.

11: a first bottom frame; 12: a first vertical frame; 13: a first mounting portion;

14: a second mounting portion; 15: a third mounting portion; 16: a second connecting structure;

17: a first bracket; 18: obliquely pulling the beam; 19: a second bottom frame;

20: a second vertical frame; 21: a connecting seat; 22: a suspension frame;

23: a back frame; 24: a main beam; 25: a battery pack;

26: a connecting portion.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A battery pack frame, a battery pack assembly, and a vehicle in an embodiment of the invention are described below with reference to fig. 1 to 9.

The battery pack frame provided by the embodiment of the invention is used for connecting a battery pack with a vehicle beam body. The vehicle beam body may be a pair of main beams 24 in the vehicle, and the pair of main beams 24 are arranged in parallel, as shown in fig. 5. The main beams 24 of the vehicle have good rigidity and load-bearing properties, and the battery pack frame in this embodiment can be attached to a pair of the main beams 24.

The battery pack frame in this embodiment comprises at least one suspension frame 22 and at least one back frame 23, the suspension frame 22 and back frame 23 being selectively connectable to the main beams 24 of the vehicle.

For example, in some embodiments, the battery pack frame may include only one suspension frame 22 and one back frame 23, as shown in fig. 5, with one suspension frame 22 and one back frame 23 each being disposed on a pair of main rails 24 of the vehicle. In other embodiments, the battery pack frame may include two suspension frames 22 and two back frames 23, or only suspension frames 22, without back frames 23. The specific number of suspension frames 22 and back frames 23 may be selected based on the number of battery packs used.

In this embodiment, the suspension frame 22 includes a first base frame 11 and a pair of first upright frames 12, as shown in fig. 1. The bottom ends of the pair of first vertical frames 12 are connected to the first base frame 11, specifically, the first vertical frames 12 are vertically connected to the first base frame 11, and the pair of first vertical frames 12 are disposed to face each other.

The pair of first vertical frames 12 are arranged at intervals, a certain interval is formed between the inner side faces of the pair of first vertical frames 12, a first installation part 13 is formed, the outer side faces of the pair of main beams 24 of the vehicle can be connected to the inner side faces of the pair of first vertical frames 12 in a one-to-one correspondence mode, and the battery pack can also be fixedly arranged in the first installation part 13 between the pair of main beams 24.

In some embodiments, a plurality of corresponding bolt holes may be disposed in the first vertical frame 12 and the main beams 24 of the vehicle, and the first vertical frame 12 and the main beams 24 of the vehicle are connected together by bolts inserted into the bolt holes, so that the suspension frame 22 is suspended on the pair of main beams 24.

Further, the outer sides of the pair of first vertical frames 12 form a second mounting portion 14 and a third mounting portion 15 for mounting the battery pack 25, respectively.

The inner side of the first vertical frame 12 refers to a side of the pair of first vertical frames 12 corresponding to each other, that is, a side close to the first mounting portion 13. The outer side of the first vertical frame 12 means the side opposite to the inner side.

The first base frame 11 extends in a direction away from the pair of first vertical frames 12, and a second installation part 14 and a third installation part 15 may be formed outside the pair of first vertical frames 12, respectively. When the battery pack is mounted on the second and third mounting portions 14 and 15, the bottom of the battery pack may be connected to the first bottom frame 11, and the top or side of the battery pack may be connected to the first vertical frame 12.

In this embodiment the back frame 23 comprises a second bottom frame 19 and a pair of second vertical frames 20, wherein the second bottom frame 19 is adapted to be connected to a pair of main beams 24 of the vehicle, thereby enabling the back frame 23 to be supported on the pair of main beams 24.

The bottom ends of the pair of second mullions 20 of the back frame 23 are connected to the second bottom frame 19, and particularly, may be vertically connected. And a pair of second stiles 20 are spaced apart to form a fourth mounting portion for mounting battery pack 25.

The battery pack 25 is mounted in the fourth mounting portion, and the bottom of the battery pack 25 may be connected to the second bottom frame 19 and the top of the battery pack 25 may be connected to the second mullion 20. When it is necessary to expand the battery pack 25, the battery pack 25 can be mounted in the fourth mounting portion in a stacked manner.

The battery pack frame provided by the embodiment can connect the suspension type frame 22 and/or the back type frame 23 on the pair of main beams 24 according to the space requirement of the vehicle, and can be selectively installed on the suspension type frame 22 or the back type frame 23 according to the number of the battery packs, for example, when the number of the battery packs 25 is three, only the suspension type frame 22 can be provided, and the three battery packs 25 are respectively arranged in the first installation part 13, the second installation part 14 and the third installation part 15 of the suspension type frame 22. When there are five battery packs 25, three battery packs 25 may be provided on the hanging frame 22, and two battery packs 25 may be stacked on the back frame 23.

With such a configuration, the battery pack frame provided by the embodiment of the present invention can select the suspension type frame 22 and the back type frame 23 according to the installation number of the battery packs 25, and further, the battery pack frame provided by the embodiment of the present invention can meet the installation requirements of different numbers of battery packs 25.

In a further embodiment, the second mounting portion 14 and the third mounting portion 15 are symmetrically disposed on both sides of the first mounting portion 13.

With this arrangement, when one battery pack 25 is mounted on the hanging frame 22, the battery pack 25 can be disposed in the first mounting portion 13 in the middle, when two battery packs 25 are mounted on the hanging frame 22, the two battery packs 25 can be disposed in the second mounting portion 14 and the third mounting portion 15, respectively, and when three battery packs 25 are mounted on the hanging frame 22, the three battery packs 25 can be disposed in the first mounting portion 13, the second mounting portion 14, and the third mounting portion 15, respectively. The second mounting part 14 and the third mounting part 15 are symmetrically distributed, so that the whole structure can be ensured to have better balance.

In addition, to facilitate connection of the battery pack 25 in the first mounting portion 13, the suspension frame 22 includes a first bracket 17 for connection to the inside of the vehicle body, the first bracket 17 for connection with the battery pack 25 in the first mounting portion 13.

First support 17 can specifically be the sheet metal component, and the sheet metal component passes through bolted connection on a pair of girder 24 of vehicle, simultaneously, still is provided with the bolt hole that is used for being connected with the battery package on the sheet metal component. The first brackets 17 may be provided in plural and distributed along the length direction of the pair of main beams 24.

With this arrangement, the top of the battery pack in the first mounting portion 13 can be connected to a pair of main beams 24 of the vehicle through the first bracket 17, the bottom of the battery pack is connected to the first bottom frame 11, and for the convenience of connection, a sheet metal part for connecting with the battery pack 25 can be provided on the first bottom frame 11.

In some embodiments, the first bottom frame 11 may be connected to the bottoms of the battery packs in the first, second and third mounting portions 13, 14 and 15 through a first connecting structure, specifically, the first connecting structure may be a bolt hole provided on the first bottom frame 11, and the first bottom frame is directly connected to the battery pack 25 through a bolt inserted into the bolt hole.

Of course, in other embodiments, the first bottom frame 11 may also be connected with a sheet metal part, the sheet metal part is connected to the first bottom frame 11 through bolts, the sheet metal part is provided with bolt holes for being connected with the battery pack, and the sheet metal part is connected with the battery pack through bolts matched with the bolt holes.

In addition, the pair of first vertical frames 12 are each provided with a second connecting structure 16, and the second connecting structure 16 is used for connecting with the tops of the battery packs 25 in the second mounting portion 14 and the third mounting portion 15.

Specifically, the second connecting structure 16 may be configured as an ear seat structure, which includes a first connecting surface connected to the outer side surface of the first vertical frame 12 and a second connecting surface connected to the top of the battery pack 25, wherein the first connecting surface may be connected to the outer side surface of the first vertical frame 12 by a bolt, and the second connecting surface may also be connected to the top of the battery pack 25 by a bolt.

To further improve the stability of the suspension frame 22, a diagonal tension beam 18 may be provided between the upper part of the first vertical frame 12 and the first base frame 11. The diagonal tension beams 18 can act as a reinforcing structure to improve the stability of the suspended frame 22.

In order to facilitate the connection between the back frame 23 and the pair of main beams 24 of the vehicle, a connection seat 21 may be provided on the second bottom frame 19, the connection seat 21 extending downward and being connected to the main beams 24 of the vehicle.

Of course, in other embodiments, when a cross beam is connected between the pair of main beams 24, another connecting seat 21 corresponding to the cross beam may be further provided on the second bottom frame 19, and the connecting seat 21 is connected with the cross beam. Specifically, the connection seat 21 may be connected to the main beam 24 or the cross beam by a bolt.

In some embodiments, the first base frame 11 comprises cross beams and longitudinal beams, which are connected in an interleaved manner to form the first base frame 11; first vertical frame 12 includes top beam and a plurality of upright roof beam, and the bottom of each upright roof beam is connected with first underframe 11, and the top beam is connected with the top of each upright roof beam. The first base frame 11 and the first vertical frame 12 may be connected by welding or by a connector such as a bolt.

The second vertical frame 20 may include a plurality of vertical beams, top beams, and diagonal braces, the bottom end of each vertical beam is connected to the second bottom frame 19, and the top beams are connected to the top ends of each vertical beam; one end of the diagonal bracing beam is connected with the top beam, the other end of the diagonal bracing beam is connected with the second bottom frame 19, and an included angle is formed between the diagonal bracing beam and the vertical beam. Also, the second vertical frame 20 may be formed by welding or may be connected by a connecting member.

An embodiment of the present invention further provides a battery pack assembly, including:

a battery pack frame as described in any of the above embodiments;

and a battery pack 25 connected to the battery pack frame.

In a further embodiment, the battery pack 25 is provided with a connecting portion 26 at the edge of at least two end faces, and the connecting portion 26 is connected with the battery pack frame.

For example, battery package 25 can set up to the cuboid structure, is provided with above-mentioned connecting portion 26 on a plurality of terminal surfaces of battery package 25 of cuboid structure, so sets up, and different battery package 25's the direction that sets up can specifically set up according to actual conditions, for example, for the convenience of binding post and external lines wiring, different battery package 25's binding post direction can be towards different.

Moreover, the connecting parts 26 are arranged on the end surfaces of the battery pack 25, so that the end surfaces of the battery pack 25 can be simultaneously fixed on the battery pack frame, and the connection stability of the battery pack is effectively improved.

In some embodiments, the connection portion 26 on the battery pack 25 may be a plurality of protrusions protruding from the edge of the battery pack, and the protrusions are distributed along the edge of the battery pack, and the protrusions are provided with bolt holes, and the connection between the battery pack and the battery pack frame can be realized through bolts matching with the bolt holes.

An embodiment of the present invention also provides a vehicle including:

a pair of main beams 24;

a battery pack frame connected to the pair of main beams 24, the battery pack frame being as in any one of the above embodiments; wherein the content of the first and second substances,

at least one suspension frame 22 and/or at least one back frame 23 are connected to a pair of main beams 24.

With the arrangement, the vehicle provided by the embodiment of the invention has the advantages that the battery pack frame can be provided with various different battery pack combinations, and the installation requirements of different numbers of battery packs are met. The derivation process of the beneficial effect is substantially similar to the derivation process of the beneficial effect brought by the battery pack frame, and is not repeated here.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.