KR20200056714A - Hook joining structure and battery pack case using the same - Google Patents

Abstract

The present invention relates to a hook coupling structure and a battery pack case using the same and, more specifically, to a hook coupling structure and a battery pack case using the same, which uses an edge of a structure. Therefore, the structure can be miniaturized.

Description

HOOK JOINING STRUCTURE AND BATTERY PACK CASE USING THE SAME

The present invention relates to a hook coupling structure and a battery pack case using the same, and more particularly, to a hook coupling structure utilizing the edge of the structure and a battery pack case using the same.

Various means are used to combine the injection molded parts with each other. For example, parts may be joined to each other using screws, or parts may be coupled to each other using hooks and hooks formed integrally with the parts themselves.

1 is a side view of a conventional hook coupling structure.

Referring to FIG. 1, the hook coupling structure generally formed in the prior art is injection molded and disposed on a first structure 10 disposed in a lower configuration and disposed on top of the first structure 10 and corresponds to the first structure 10 It comprises a second structure 20 of the form.

The first structure 10 is formed with a locking jaw 11 protruding to the outside in a predetermined area inside the side portion, and the second structure 20 is disposed at a position corresponding to the locking jaw 11 and the second structure A hook portion 21 is formed that includes a body 21_1 extending downward from 20 and a protrusion 21_2 extending from the body 21_1 and protruding in the direction of the locking jaw 11.

In general, the hook portion 21 is capable of a predetermined elastic deformation, so that the hook portion 21_2 of the first structure 10 and the protrusion portion 21_2 of the second structure 20 are engaged. (21) is a slight elastic deformation by being pushed by the locking jaw (11) and then restoring, the protrusion (21_2) is hooked to the locking jaw (11), so that the first structure (10) and the second structure (20) Let this be combined.

However, in the case of the conventional hook coupling structure, when the first structure 10 and the second structure 20 are combined and an impact occurs on the entire structure, the hook portion 21 is pushed back and detached from the locking jaw 11 Thereby, a problem occurs in that the connection between the first structure 10 and the second structure 20 is released.

In order to solve this problem, a structure supporting a hook is required, which will be described in detail with reference to FIG. 2.

Figure 2 is a side view of another hook coupling structure in which the conventional hook coupling structure is improved.

Referring to FIG. 2, another hook coupling structure includes a first structure 30 disposed in a lower configuration and a second structure disposed above the first structure 30 and corresponding to the first structure 30 It comprises 40. When applied to a battery pack, the first structure may be a lower case, and the second structure may be an upper case.

The first structure 30 is a locking jaw (31) protruding outward to a predetermined area inside the side portion and a support extending from the first structure (30) upward and spaced apart from the locking jaw (31) by a predetermined distance ( 32) is formed.

The second structure 40 is disposed to be placed between the locking jaw 31 and the support 32 and extends from the body 41_1 and the body 41_1 extending downward from the second structure 40 and the locking jaw A hook portion 41 is formed that includes a protrusion portion 41_2 protruding in the direction (31).

The hook portion 41 and the support 32 are capable of a predetermined elastic deformation, so that when the first structure 30 and the second structure 40 are engaged, the hook portion 41 is coupled with the locking jaw 31 It is inserted between the supports (32). Accordingly, when the hook portion 41 is inserted, the hook portion 41 and the support 32 are slightly elastically deformed and then restored, so that the projection portion 41_2 is hooked to the locking jaw 31 so that the first structure 30 ) And the second structure 40 are combined.

This structure is different from the conventional hook coupling structure and the first structure (30) and the second structure (40) are combined after the formation of the support (32). 30) and the connection between the second structure 40 does not occur.

However, in recent years, miniaturization of various structures has emerged as a major problem according to the needs of consumers. In the case of the prior art, since the configuration of the support 32 is separately required, the hook coupling structure is complicated and the space utilization rate is reduced.

Therefore, it is necessary to develop a technology for a hook coupling structure with an increased space utilization rate.

JP 1996-028209 B

The present invention provides a hook coupling structure for miniaturization of a structure and a battery pack case using the same.

Hook coupling structure according to an embodiment of the present invention extends downward from the edge, the upper structure 110 is configured to include a hook portion 111, the end is bent inward, the edge is raised upward from the edge, the hook portion It comprises a substructure 120 coupled to the superstructure, including a protrusion 121 disposed in (111), the substructure corresponds to the upper portion of the hook portion 111 of the superstructure 110 It is configured to include a locking jaw 130 that is formed by protruding the inner surface of the substructure to the outside at a position.

In addition, the hook portion 111 is inserted between the locking jaw 130 and the protrusion 121 to form a coupling.

The hook portion is bent to form a single surface to form a first bent surface 111_1 that contacts the protrusion 121 of the lower structure and a second bent to form a single surface to contact the locking jaw 130 It comprises a bent surface (111_2).

The first bent surface of the hook portion has a thickness equal to or greater than the thickness of the protrusion.

The second bent surface of the hook portion has a thickness smaller than the thickness of the engaging jaw.

Between the locking jaw and the protrusion of the lower structure, a fitting joint 140 is formed so that a bent portion of the hook is located.

The hook coupling structures are combined with each other to form a predetermined space therein to form a case.

The battery pack case according to an embodiment of the present invention includes a battery pack lower case 300 in which a fitting coupling bone is formed in a predetermined area of an edge, and a hook portion whose end is bent at a position corresponding to the fitting coupling bone of the battery pack lower case. Consisting of the battery pack upper case 200 is formed 210 is formed, the fitting case of the lower case and the hook portion of the upper case are combined with each other to form a hook coupling structure.

The battery pack lower case is located at a height in contact with the upper surface of the hook portion and is disposed on a side adjacent to the surface on which the hook portion is formed, the locking jaw 310 and the hook portion protruding outward to hook the hook portion of the battery pack upper case. It is located at a height in contact with the lower surface and is disposed on the same surface as the surface on which the hook portion is formed, and includes a raised portion 320 raised upwardly to support the hook portion.

The hook portion of the upper case of the battery pack is bent to form one surface, and the first bent surface 211 contacting the protruding portion 320 of the lower structure and the bent one surface to be bent to form the locking jaw 310 It is configured to include a second bent surface 212 in contact with.

Between the locking jaw and the protrusion of the lower case of the battery pack, a fitting coupling bone 330 is formed so that the hook portion is located.

The device includes the battery pack case.

The hook coupling structure and the battery pack case using the same according to the embodiment of the present invention can increase the space utilization rate of the hook coupling structure by using the lower structure instead of the separately configured support body to prevent the hook from being pushed. have.

1 is a side view of a conventional hook coupling structure.
Figure 2 is a side view of another hook coupling structure of the conventional hook coupling structure is improved.
Figure 3 is a side view of the hook coupling structure according to an embodiment of the present invention.
4 is an enlarged side view of a hook portion according to an embodiment of the present invention.
Figure 5 is a side view of the hook coupling structure before the hook portion is inserted according to an embodiment of the present invention.
6 is an internal structure diagram of a battery pack case according to an embodiment of the present invention.
7- (a) is a cross-sectional view cut by A-A 'which is a hook coupling structure region in a battery pack case according to an embodiment of the present invention,
7- (b) is a cross-sectional view of the battery pack case according to an embodiment of the present invention, where a hook coupling structure is not formed, B-B '.
8 is a side view of the hook coupling structure of the battery pack case according to an embodiment of the present invention.
9 is a side view of the hook coupling structure before the hook portion is inserted in the battery pack case according to an embodiment of the present invention.
10 is an enlarged side view of a hook portion of a battery pack case according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the contents described in the accompanying drawings. However, the present invention is not limited or limited by the embodiments. Only embodiments are provided to complete the disclosure of the present invention, and to fully inform the scope of the invention to those skilled in the art.

Terms including ordinal numbers such as first and second may be used to describe various components, but the components are not limited by the terms. The terms are used only for the purpose of identifying one component from another component. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component. Terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

The terminology used in the present invention has been selected, while considering the functions in the present invention, general terms that are currently widely used are selected, but this may vary according to the intention or precedent of a person skilled in the art or the appearance of a new technology. In addition, in certain cases, some terms are arbitrarily selected by the applicant, and in this case, their meanings will be described in detail in the description of the applicable invention. Therefore, the terms used in the present invention should be defined based on the meanings of the terms and the contents of the present invention, not simply the names of the terms.

<Example 1>

Next, a hook coupling structure according to an embodiment of the present invention will be described.

The hook coupling structure according to an embodiment of the present invention forms a protrusion by raising the edge of a lower structure where the hook coupling structure is formed, and the space of the hook coupling structure as it is supported through the protrusion so that the hook portion is not pushed back after being caught by the locking jaw. Make the utilization rate increase.

3 is a side view of a hook coupling structure according to an embodiment of the present invention.

Referring to Figure 3, the hook coupling structure 100 according to an embodiment of the present invention is extended from the edge in a downward direction, the upper structure 110 including the hook portion 111 is bent inwardly, the edge The lower structure 120 is configured to include a protruding portion 121 which is raised in the upper direction and disposed in the hook portion 111, and a hooking jaw 130 through which the hook portion 111 of the upper structure 110 is hung. It is configured to include.

In addition, the hook portion is inserted between the locking jaw 130 and the protrusion 121 to form a coupling.

The configuration of the hook coupling structure will be described in more detail below.

First, the upper structure 110 is configured to include a hook portion 111 that extends downward from the edge to a lower end and is bent inward, so that it can be easily inserted between the locking jaw 130 and the protrusion 121. It is formed of a material capable of a predetermined elastic deformation.

The hook portion 111 will be described in detail with reference to FIG. 4.

4 is an enlarged side view of a hook portion according to an embodiment of the present invention.

Referring to FIG. 4, the hook portion 111 is bent to form a single surface, and the first bent surface 111_1 contacting the protruding portion 121 of the lower structure and the bent to form one surface to be hooked. It comprises a second bent surface (111_2) in contact with the chin 130.

In more detail, the first bending surface 111_1 is a surface formed by bending the edge of the superstructure 110 once, and in one embodiment, the thickness of the first bending surface 111_1 is the It is formed equal to the thickness of the upper surface of the protrusion 121 or larger than a predetermined range.

When the thickness of the first bending surface 111_1 is smaller than the thickness of the upper surface of the protrusion 121, there is a disadvantage that the end of the hook 111 does not sufficiently catch the protrusion 121. In addition, when the thickness of the first bent surface 111_1 is formed to be larger than the thickness of the upper surface of the protrusion 121, after hooking, a gap is formed between the end of the hook 111 and the protrusion 121 It is formed so as to have a minimum large thickness since a problem that is not fixed securely occurs.

In addition, the second bent surface 111_2 is a surface that is bent once and is further bent once more so that the first bent surface 111_1 is generated. As an example, the second bent surface 111_2 ) Has the same thickness as the bottom surface of the locking jaw 130. If the thickness of the second bent surface (111_2) is smaller than the thickness of the lower surface of the locking jaw 130, after hooking, there is a problem that the end of the hook portion 111 is disengaged from the locking jaw when an impact occurs on the assembly structure. Occurs. In addition, when the thickness of the second bent surface 111_2 is formed larger than the thickness of the lower surface of the locking jaw 130, a problem arises in that the total thickness of the hook coupling structure increases.

In addition, one end of the hook portion 111 is parallel to one side, and the other side is formed in a narrower shape as it descends to the lower portion so that it can be easily inserted between the locking jaw 130 and the protrusion 121. One side of the end of the hook portion 111 is formed in a parallel shape so that the force supported by the protrusion 121 is not dispersed, but is not limited to this shape.

In addition, the lower structure 120 is configured to include a protrusion 121 that is raised in the upper direction from the edge and disposed in the hook 111, wherein the elevation of the protrusion 121 is the height of the hook 111. It is formed equal to the end length or larger than the end length. When the raised height of the protrusion 121 is smaller than the distal length of the hook 111, there is a problem that the hook coupling is released due to a weak supporting force of the hook 111.

If the structures of the protrusions 121 and the hooks 111 are compared with the conventional invention, the conventional hook coupling structure as shown in FIG. 2 is the first structure 30 and the first structure 30 arranged in a lower configuration. It is configured to include a second structure 40 of the type disposed on the upper portion and corresponding to the first structure (30).

The first structure 30 is a locking jaw (31) protruding outward to a predetermined area inside the side portion and a support extending from the first structure (30) upward and spaced apart from the locking jaw (31) by a predetermined distance ( 32) is formed.

In addition, the second structure 40 is disposed to be placed between the locking jaw 31 and the support 32 and extends from the body 41_1 and the body 41_1 extending downward from the second structure 40. A hook portion 41 is formed, including a protrusion portion 41_2 protruding in the direction of the locking jaw 31.

However, as space saving in the conventional hook coupling structure is required, in order to increase the space efficiency, the configuration of the support 32 of the conventional hook coupling structure is deleted and the hook portion 111 bent twice as in the present invention. As the protrusion 121 supporting the hook 111 is formed as a structure, space utilization of the hook coupling structure is increased.

In addition, the locking jaw 130 is a configuration that is formed by protruding the inner surface of the lower structure to a position corresponding to the upper portion of the hook portion 111 of the upper structure 110, the upper structure 110 of Hook 111 is hooked to the locking jaw (130).

In addition, between the locking jaw 130 and the protrusion 121, the fitting coupling bone 140 is formed so that the hook portion 111 is located, which will be described in detail with reference to FIG. 5.

Figure 5 is a side view of the hook coupling structure before the hook portion is inserted according to an embodiment of the present invention.

Referring to FIG. 5, the length from the left edge of the fitting joint 140 to the right edge contacting the upper surface of the protrusion 121 is equal to the length from the first bending surface 111_1 to the second bending surface 111_2. It is formed in the same manner so that the hook portion 111 can be easily inserted into the fitting coupling bone 140.

In addition, the hook coupling structure of the embodiment of the present invention is applied to various structures of the case where the hook coupling structures are combined with each other to form a predetermined space, so that the efficiency of the structure space can be increased than in the prior art.

<Example 2>

Next, a battery pack case according to an embodiment of the present invention will be described.

The battery pack case according to an embodiment of the present invention is a battery pack case having a hook coupling structure according to the embodiment, by bending the shape of the hook formed in the upper case of the battery pack twice to form a predetermined space, and As the protrusion raised at the edge is disposed inside the predetermined space of the hook portion, the hook portion can be supported without being pushed back.

6 is an internal structural view of a battery pack case according to an embodiment of the present invention. Here, since the upper surface of FIG. 6 is a view showing a portion of the upper surface being cut so that the inner side where the hook coupling structure is formed is visible, the battery pack upper case structure is formed in a general form and the entire upper surface is covered.

7- (a) is a cross-sectional view of the hook coupling structure region A-A 'in the battery pack case according to an embodiment of the present invention,

7- (b) is a cross-sectional view of the battery pack case according to an embodiment of the present invention, where a hook coupling structure is not formed, B-B '.

8 is a side view of the hook coupling structure of the battery pack case according to an embodiment of the present invention.

6 to 8, the battery pack case 1000 according to an embodiment of the present invention includes a battery pack lower case 300 in which a fitting bone is formed in a predetermined region of the edge, and a fitting of the battery pack lower case. It is configured to include a battery pack upper case 200, the hook portion 210 is bent end is formed in a position corresponding to the bone.

In addition, the fitting portion of the lower case and the hook portion of the upper case are combined with each other to form a hook coupling structure. In addition, a plurality of hook coupling structures may be formed at each corner so that the coupling force between the lower case and the upper case is increased, and the shape of the coupling structure may be formed at the edge of the entire case.

Referring to Figures 6 and 7 in more detail, the hook coupling structure is formed at each corner of the battery pack upper case 200, hooks on both sides, such as a cut section of the A-A 'area The bonding structure is formed. In the hook coupling structure, the hook portion 210 extends from the battery pack upper case 200 to a predetermined range to engage the battery pack lower case 300. On the other hand, in the B-B 'region where the hook coupling structure is not formed, the battery pack upper case 200 is formed only at a height smaller than the height of the A-A' region. The structure in which the hook coupling structure and the hook coupling structure are not formed is formed in an uneven shape so that the coupling force can be increased even in the structure itself.

The configuration of such a battery pack case will be described in more detail below.

The lower case 300 is a configuration in which the fitting coupling bone 330 is formed in a predetermined area of the edge, and will be described in detail with reference to FIG. 9.

9 is a side view of the hook coupling structure before the hook portion is inserted in the battery pack case according to an embodiment of the present invention.

Referring to FIG. 9, the battery pack lower case 300 is formed between the locking jaw and the protrusion of the battery pack lower case, so that the hooking portion 330 is formed so that the hook portion is located. The length from the left edge to the right edge contacting the upper surface of the protrusion 320 is formed to be the same as the length from the first bending surface 211 to the second bending surface 212 so that the hook portion 210 is fitted It can be easily inserted into the 330.

In addition, the battery pack lower case 300 is located at a height in contact with the upper surface of the hook portion is disposed on a surface adjacent to the surface formed with the hook portion of the battery pack upper case protruding hook projection 310 to hang the hook portion And a protrusion 320 positioned at a height in contact with the lower surface of the hook portion and disposed on the same surface as the surface where the hook portion is formed, and raised upwardly to support the hook portion.

The locking jaw 310 is a configuration in which the inner surface of the lower structure protrudes outward at a position corresponding to the upper portion of the hook portion 111 of the upper structure 110, and the hook portion of the upper structure 110 ( 111) is hung on the locking jaw (130).

In addition, the lower structure 300 is a configuration including a protrusion 320 that is raised from the edge upward in the hook portion 211 and disposed in the hook portion 211, wherein the raised height of the protrusion portion 320 is the height of the hook portion 210. It is formed equal to the end length or larger than the end length. When the raised height of the protrusion 320 is smaller than the distal length of the hook portion 210, the hook force of the hook portion 210 is weak, resulting in a problem that the hook engagement is released.

If the structures of the protrusions 320 and the hooks 210 are compared with the conventional invention, the conventional hook coupling structure as shown in FIG. 2 is the first structure 30 and the first structure 30 that are arranged in a lower configuration. It is configured to include a second structure 40 of the type disposed on the upper portion and corresponding to the first structure (30).

The first structure 30 is a locking jaw (31) protruding outward to a predetermined area inside the side portion and a support extending from the first structure (30) upward and spaced apart from the locking jaw (31) by a predetermined distance ( 32) is formed.

In addition, the second structure 40 is disposed to be placed between the locking jaw 31 and the support 32 and extends from the body 41_1 and the body 41_1 extending downward from the second structure 40. A hook portion 41 is formed, including a protrusion portion 41_2 protruding in the direction of the locking jaw 31.

However, as space saving in the conventional hook coupling structure is required, in order to increase the space efficiency, the configuration of the support 32 of the conventional hook coupling structure is deleted and the hook portion 211 bent twice as in the present invention. As the protrusion 320 supporting the hook portion 211 is formed as a structure, space utilization of the hook coupling structure is increased.

In addition, the battery pack upper case 200 is formed with a hook portion 210 of which the end is bent at a position corresponding to the fitting coupling bone of the battery pack lower case. Here, the hook portion 210 is formed of a material capable of a predetermined elastic deformation in order to be easily inserted between the locking jaw 310 and the protrusion 320.

The hook portion 210 is bent to form a single surface to be in contact with the locking jaw 310 by forming a first bent surface 211 that is in contact with the protrusion 320 of the lower structure and a single surface that is bent. It is configured to include a second bent surface (212), and will be described in more detail with reference to FIG.

10 is an enlarged side view of a hook portion of a battery pack case according to an embodiment of the present invention.

Referring to FIG. 10, the first bending surface 211 is a surface formed by bending the edge of the battery pack upper case 200 once, and in one embodiment, the thickness of the first bending surface 211 is It is formed to be equal to the thickness of the upper surface of the protrusion 320 or larger than a predetermined range.

When the thickness of the first bent surface 211 is smaller than the thickness of the upper surface of the protrusion 320, there is a disadvantage that the end of the hook portion 210 is not sufficiently caught in the protrusion 320. In addition, when the thickness of the first bent surface 211 is formed to be larger than the thickness of the upper surface of the protrusion part 320, after hooking, a gap is formed between the end of the hook part 210 and the protrusion part 320. It is formed so as to have a minimum large thickness since a problem that is not fixed securely occurs.

In addition, the second bent surface 212 is a surface that is bent once to be formed so that the first bent surface 211 is generated, and is further formed by being bent once more. In one embodiment, the second bent surface 212 ) Is the same as the thickness of the lower surface of the locking jaw 310 or smaller than a predetermined range. If the thickness of the second bent surface 212 is smaller than a predetermined range thickness of the lower surface of the locking jaw 310, after hooking, the end of the hook 210 is detached from the locking jaw when an impact occurs on the assembly structure. The problem arises. In addition, when the thickness of the second bent surface 212 is formed larger than the thickness of the lower surface of the locking jaw 310, a problem arises in that the total thickness of the hook coupling structure increases.

In addition, one end of the hook portion 210 is parallel to one side, and the other side is formed in a narrower shape as it descends downward, so that it can be easily inserted between the locking jaw 310 and the protrusion 320. One side of the end of the hook portion 210 is formed in a parallel shape so that the force supported by the protrusion 320 is not dispersed, but is not limited to this shape.

In addition, as in the embodiment of the present invention, the battery pack case may have a smaller battery pack size than the prior art due to increased space utilization, or may have an improved capacity by mounting more battery cells, and the device including the same may have a smaller size than the conventional one. It may be formed or may be formed of a device having an increased battery capacity than the conventional one.

On the other hand, although the technical spirit of the present invention has been described in detail according to the above embodiment, it should be noted that the above embodiment is for the purpose of explanation and not for the limitation. In addition, a person having ordinary knowledge in the technical field of the present invention may be capable of various embodiments within the scope of the described claims.

10: first structure
11: hanging jaw
20: second structure
21: hook
21_1: body
21_2: projection
30: first structure
31: hanging jaw
32: support
40: second structure
41: hook
41_1: body
41_2: protrusion
100: hook coupling structure
110: superstructure
111: hook
111_1: 1st bending surface
111_2: 2nd bent surface
120: substructure
121: protrusion
130: hanging jaw
140: fitting joint
200: battery pack upper case
210: hook
211: first bent surface
212: 2nd bending surface
300: battery pack lower case
310: hanging jaw
320: protrusion
330: fit joint bone

Claims (11)

An upper structure 110 extending from the edge in a downward direction and including a hook portion 111 whose end is bent inward; And
A substructure 120 that is coupled to the superstructure, including a protruding portion 121 that is raised from the edge in an upward direction and is disposed in the hook portion 111; It comprises,
The substructure,
A locking jaw 130 formed by protruding the inner surface of the lower structure to a position corresponding to the upper portion of the hook portion 111 of the upper structure 110; It comprises,
A hook coupling structure characterized in that the hook portion 111 is inserted between the locking jaw 130 and the protrusion portion 121 to form a coupling.
The method according to claim 1,
The hook portion,
A first bending surface 111_1 which is bent to form a single surface to contact the protrusion 121 of the lower structure; And
A second bending surface 111_2 which is bent to form one surface and in contact with the locking jaw 130;
Hook coupling structure, characterized in that comprises a.
The method according to claim 3,
A hook coupling structure, characterized in that the first bent surface of the hook portion has a thickness equal to or greater than the thickness of the protrusion.
The method according to claim 3,
Hook hook structure, characterized in that the second bent surface of the hook portion has a thickness smaller than the thickness of the engaging jaw.
The method according to claim 1,
Between the engaging jaw and the projection of the lower structure, the fitting joint 140 so that the hook portion of the hook is located; Hook coupling structure, characterized in that formed.
Case characterized in that the hook coupling structure according to any one of claims 1 to 5 are coupled to each other to form a predetermined space therein.
In the battery pack case,
A battery pack lower case 300 in which a fitting coupling bone is formed in a predetermined area of the edge; And
A battery pack upper case 200 in which a hook portion 210 whose end is bent is formed at a position corresponding to a fitting bone of the battery pack lower case; It comprises,
The battery pack case, characterized in that the hook portion of the upper case and the hook portion of the upper case are combined with each other to form a hook coupling structure.
The method according to claim 7,
The battery pack lower case,
A locking jaw 310 positioned at a height in contact with the upper surface of the hook portion and disposed on a surface adjacent to the surface on which the hook portion is formed to protrude outward so that the hook portion of the battery pack upper case hangs; And
A protrusion 320 positioned at a height in contact with the lower surface of the hook portion and disposed on the same surface as the surface on which the hook portion is formed, and raised upwardly to support the hook portion;
Battery pack case, characterized in that comprises a.
The method according to claim 8,
The hook portion of the battery pack upper case,
A first bent surface 211 that is bent to form a single surface to contact the protrusion 320 of the lower structure; And
A second bent surface 212 that is bent to form one surface to contact the locking jaw 310;
Battery pack case, characterized in that comprises a.
The method according to claim 8,
Between the locking jaw and the projection of the lower case of the battery pack, the engaging bone 330 so that the hook portion is located; Battery pack case characterized in that it is formed.
A device comprising the battery pack case of claim 7.

Images