KR102516125B1 - 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 particularly, to a hook coupling structure utilizing a bottom surface of a structure on which the hook coupling structure is formed and a battery pack case using the same.

Description

Hook coupling structure and battery pack case using the same {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 a bottom surface of a structure on which the hook coupling structure is formed and a battery pack case using the same.

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

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

Referring to Figure 1, a hook coupling structure generally formed in the prior art is injection molded and disposed as a lower part of the first structure 10 and disposed above the first structure 10 and corresponds to the first structure 10 It is configured to include a second structure 20 of the form.

In the first structure 10, a locking jaw 11 protruding outward is formed in a predetermined area inside the side portion, and the second structure 20 is disposed at a position corresponding to the locking jaw 11 to form a second structure. The hook part 21 is formed including a body 21_1 extending downward from the body 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 part 21 is capable of a predetermined elastic deformation, so that the hook part 11 of the first structure 10 and the protrusion part 21_2 of the second structure 20 are coupled together. (21) is slightly elastically deformed by being pushed by the locking jaw 11, and then being restored, the protrusion 21_2 is hooked on the locking jaw 11, and the first structure 10 and the second structure 20 let this combine

However, in the conventional hook coupling structure, when an impact occurs on the entire structure after the first structure 10 and the second structure 20 are coupled, the hook portion 21 is pushed back and separated from the locking jaw 11. This causes a problem in that the connection between the first structure 10 and the second structure 20 is released.

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

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 is a first structure 30 disposed as a lower structure and a second structure disposed above the first structure 30 and corresponding to the first structure 30. It is composed of (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 includes a locking jaw 31 protruding outward from a predetermined area inside the side portion and a support extending upward from the first structure 30 and spaced apart from the locking jaw 31 by a predetermined distance ( 32) is formed.

The second structure 40 is disposed between the locking jaw 31 and the support 32, and has a body 41_1 extending downward from the second structure 40 and a body 41_1 extending from the body 41_1 to the locking jaw. A hook portion 41 including a protruding portion 41_2 protruding in the (31) direction is formed.

The hook part 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 coupled, the hook part 41 engages the locking jaw 31 and It is inserted between the supports 32. Accordingly, when the hook part 41 is inserted, the hook part 41 and the support 32 are slightly elastically deformed and then restored, and the protrusion part 41_2 is hooked on the hooking jaw 31 so that the first structure 30 ) and the second structure 40 are combined.

In this structure, as the support 32 is formed differently from the conventional hook coupling structure, even when an impact occurs to the entire structure after the first structure 30 and the second structure 40 are coupled, the first structure ( 30) and the problem of disconnection between the second structure 40 does not occur.

However, in recent years, miniaturization of various structures has emerged as a major problem in accordance with consumer demand. In the case of the prior art, since a separate configuration of the support 32 is required, the hook coupling structure becomes complicated and space utilization is reduced. There was a problem.

Therefore, the development of technology for a hook coupling structure with increased space utilization is required.

JP 6301893 B

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

The hook coupling structure according to an embodiment of the present invention includes an upper structure 110 comprising a hook portion 111 extending from the upper surface and having a protruding end thereof, and a bottom portion such that a predetermined area of the hook portion is disposed inside the bottom surface. The locking jaw 140 formed by protruding outwardly from the inner surface of the lower structure at a position corresponding to the through hole 130 in which a predetermined area of the surface is drilled and the upper portion of the hook part 111 of the upper structure 110 It is configured to include a lower structure 120 configured to include.

In addition, a predetermined area of the hook part is inserted into the through hole to form a coupling.

The bottom surface includes a first bottom part 121 located on one side of the through hole and a second bottom part 122 located on the other side of the through hole.

In addition, a bottom portion of an area where the locking jaw is not located among the first bottom portion and the second bottom portion supports a predetermined area on one side of the hook portion that does not protrude.

A fitting bone 150 is formed between the locking jaw and the through hole of the bottom surface so that the bent portion of the hook portion is located.

The bent portion of the hook portion has a greater thickness than the extension portion of the hook portion.

The through hole is drilled with a thickness equal to or greater than the thickness of the bent portion.

In the case, hook coupling structures are coupled to each other to form a predetermined space.

The battery pack case 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 area of the bottom surface and a bent end protruding at a position corresponding to the fitting bone of the battery pack lower case. It is configured to include the battery pack upper case 200 in which the hook portion 210 including the portion 211 is formed.

The fitting bone of the lower case and the hook portion of the upper case are coupled to each other to form a hook coupling structure.

The battery pack lower case has a through hole 330 in which a predetermined area of the bottom surface of the battery pack lower case is bored so that a predetermined area of the bent portion of the battery pack upper case is disposed inwardly and a hook portion of the battery pack upper case. It is configured to include a locking jaw 340 positioned at a predetermined height from the through hole on a side surface of the corresponding battery pack lower case and to which the bent portion of the battery pack upper case is hooked.

The battery pack lower case further includes a side portion 310 positioned on one side of the through hole and a bottom portion 320 positioned on the other side of the through hole.

In addition, the bottom portion supports a predetermined area of one side of the bent portion of the hook portion that does not protrude.

Between the locking jaw and the bottom surface, a fitting joint bone 350 is formed so that the bent portion of the hook is positioned between the through hole of the locking jaw and the bottom surface.

The device includes the battery pack case.

A hook coupling structure and a battery pack case using the hook coupling structure according to an embodiment of the present invention increase space utilization of the hook coupling structure by using the bottom surface of the structure instead of a support separately constructed in the prior art to prevent the hook from slipping. can make it

1 is a side view of a conventional hook coupling structure;
Figure 2 is a side view of another hook coupling structure in which the conventional hook coupling structure is improved.
Figure 3 is a side view of a hook coupling structure according to an embodiment of the present invention.
Figure 4 is a side view of the hook coupling structure before the hook portion is inserted according to an embodiment of the present invention.
5 is an internal structure diagram of a battery pack case according to an embodiment of the present invention.
6 is a cut-away side view of a hook coupling structure in a battery pack case according to an embodiment of the present invention.
7 is a cut-away side view of a hook coupling structure in a battery pack case before a hook unit is inserted 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 the embodiments are provided to make the disclosure of the present invention complete, 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. These terms are only used for the purpose of distinguishing one component from another. For example, a first element may be termed a second element, and similarly, a second element may be termed a first element, without departing from the scope of the present invention. Terms used in this 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 dictates otherwise.

The terms used in the present invention have been selected from general terms that are currently widely used as much as possible while considering the functions in the present invention, but these may vary depending on the intention of a person skilled in the art or precedent, the emergence of new technologies, and the like. In addition, in a specific case, there is also a term arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the invention. Therefore, the term used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, not simply the name of the term.

<Example 1>

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

In the hook coupling structure according to an embodiment of the present invention, a through hole of a predetermined area is formed on the bottom surface of the structure where the hook coupling structure is formed, and a hook unit is disposed in a predetermined area within the formed through hole to prevent the hook unit from being pushed back after being caught on a hook. As it is supported through the bottom surface, the space utilization rate of the hook coupling structure can be increased.

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

4 is a side view of a hook coupling structure before a hook unit is inserted according to an embodiment of the present invention.

3 and 4, the hook coupling structure 100 according to an embodiment of the present invention includes an upper structure 110 that includes a hook portion 111 extending from the upper surface and having a protruding end, the hook The inner surface of the lower structure is located at a position corresponding to the through hole 130 in which the predetermined area of the bottom surface is perforated and the upper part of the hook part 111 of the upper structure 110 so that the predetermined area of the portion is disposed inside the bottom surface. It is configured to include a lower structure 120 configured to include a locking jaw 140 formed by protruding outward.

In addition, the hook part 111 is inserted into the through hole in a predetermined area to form a coupling.

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

First, the hook part 111 extends from the upper structure 110 and has a protruding end, and is made of a material capable of predetermined elastic deformation in order to be easily inserted between the locking jaw 140 and the through hole 130. is formed

In addition, the hook part 111 is formed in a protruding shape in which one side is parallel and the other side becomes narrower as it goes down, so that it can be easily inserted between the locking jaw 140 and the through hole 130. . One side of the hook part 111 is formed in a parallel shape so that the force supported by the bottom surface is not dispersed, but is not limited to this shape.

In addition, the hook portion has a larger thickness than the extension portion of the upper structure 110 so that the fixing force with the locking jaw 140 can be increased.

In addition, the bottom surface 120 is a lower surface of a structure on which a hook coupling structure is formed, and includes a first bottom part 121 and a second bottom part 122.

More specifically, the bottom surface 120 includes a first bottom part 121 located on one side of the through hole and a second bottom part 122 located on the other side of the through hole.

A bottom portion of the first bottom portion and the second bottom portion in a direction in which the locking jaw is not located supports a predetermined area on one side of the hook portion that does not protrude. In FIG. 3, as an example, the second bottom part 122 supports the hook part 111 to prevent it from being pushed backward.

In addition, since space utilization increases as the distance between the predetermined area of the hook part 111 and the second bottom part 122 is reduced, the distance is maintained at a minimum or formed in a structure without a gap.

The conventional hook coupling structure as shown in FIG. 2 includes a first structure 30 disposed as a lower structure and a second structure disposed above the first structure 30 and corresponding to the first structure 30 ( 40) is included.

The first structure 30 includes a locking jaw 31 protruding outward from a predetermined area inside the side portion and a support extending upward from the first structure 30 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 interposed between the locking jaw 31 and the support 32 and extends from the body 41_1 extending downward from the second structure 40 and the body 41_1 A hook portion 41 including a protrusion 41_2 protruding in the direction of the locking jaw 31 is formed.

However, in order to increase space efficiency as space saving is required in such a conventional hook coupling structure, the support 32 of the conventional hook coupling structure is deleted and the bottom surface 120 is utilized as in the present invention to hook the hook portion ( 111) to increase space utilization.

In addition, a predetermined area of the bottom surface of the through hole 130 is bored so that the predetermined area of the bent portion is disposed inside the bottom surface, and the through hole is formed with a thickness equal to or greater than the thickness of the bent portion. Accordingly, the hook part 111 can be disposed inside the through hole 130 formed with a thickness equal to or greater than the thickness of the hook part 111 .

In addition, the locking jaw 140 is positioned at a predetermined height above the through hole, and the bent portion of the hook part is hooked, and the length between the hooking jaw 140 and the second bottom part 122 is the hook It is formed with a length greater than the thickness of the hook portion 111 of the portion.

In addition, a fitting joint 150 is formed between the locking jaw and the through hole of the bottom surface so that the bent portion of the hook is located.

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

<Example 2>

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

A battery pack case according to an embodiment of the present invention is a battery pack case having a hook coupling structure according to the above embodiment, and may be formed in a form in which the hook portion is supported through the bottom surface of the lower case 300 of the battery pack so as not to be pushed backward. let it be

5 is an internal structure diagram of a battery pack case according to an embodiment of the present invention. Here, since the upper surface of FIG. 5 is a view in which a portion of the upper surface is cut so as to show the inside where the hook coupling structure is formed, the battery pack upper case structure is formed in a structure in which the entire upper surface is covered in a general form.

Referring to FIG. 5 , a battery pack case 1000 according to an embodiment of the present invention includes a battery pack lower case 300 in which the battery module is mounted therein and a fitting bone 350 is formed in a predetermined area on the bottom surface. and a battery pack upper case 200 having a hook portion including a bent portion with an end protruding at a position corresponding to the fitting bone of the battery pack lower case.

In addition, the fitting bone of the lower case and the hook portion of the upper case are coupled to each other to form a hook coupling structure. In addition, the hook coupling structure can be formed in plurality so as to increase the coupling force between the lower case and the upper case.

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

The lower case 300 has a structure in which the battery module is mounted therein and a fitting joint 350 is formed in a predetermined area of the bottom surface, and will be described in detail with reference to FIG. 6 .

6 is a cut-away side view of a hook coupling structure in a battery pack case according to an embodiment of the present invention.

Referring to FIG. 6 , the battery pack lower case includes a through hole 330 in which a predetermined area of the bottom surface of the battery pack lower case is bored so that a predetermined area of the bent portion of the battery pack upper case is disposed inwardly and the upper portion of the battery pack. It is configured to include a locking jaw 340 positioned at a predetermined height apart from the through hole on a side surface of the lower case of the battery pack corresponding to the hook portion of the case and to which the bent portion of the upper case of the battery pack is hooked.

In addition, the battery pack lower case further includes a side portion 310 positioned at one side of the through hole and a bottom portion 320 positioned at the other side of the through hole, and the bottom portion 320 is a bent portion of the hook portion. It supports a predetermined area on one side that does not protrude.

In addition, the through hole 330 is drilled with a thickness equal to or greater than the thickness of the bent portion so that the bent portion 211 can be disposed inside.

The side part 310 and the bottom part 320 are structures formed by applying the hook coupling structure according to the embodiment to the battery pack case, and the hook part 210 is coupled with the locking jaw 340 to prevent being pushed backward. Part 320 is a form supported.

In addition, since space utilization increases as the distance between the predetermined area of the bent part 211 and the bottom part 320 is reduced, a minimum distance is maintained or a structure without a gap is formed.

In addition, the locking jaw 340 protrudes from the side of the lower case of the battery pack in a predetermined area and is formed in a shape corresponding to the hook part 210 .

In addition, as the contact area with the hook portion 210 increases, the hook coupling force increases. As an example, the hook portion 210 in the upper case 200 does not reduce the space utilization rate of the battery pack case. It can be formed in the same size as the thickness of the extension part.

In addition, the battery pack upper case 200 has a hook portion 210 including a bent portion 211 with an end protruding at a position corresponding to the fitting bone of the battery pack lower case.

The hook part 210 is configured to include a bent part 211 extending from the upper surface of the structure and protruding at the end thereof, and to be easily inserted between the locking jaw 340 and the through hole 330, a predetermined It is made of a material capable of elastic deformation.

In addition, the bent part 211 is formed in a protruding shape in which one side is parallel and the other side becomes narrower as it goes down, so that it can be easily inserted between the locking jaw 340 and the through hole 330. . One side of the bent portion 211 is formed in a parallel shape so that the force supported by the bottom surface is not dispersed, but is not limited to this shape.

In addition, the bent portion 211 of the hook portion has a larger thickness than the extension portion of the hook portion, so that the fixing force with the hook portion 340 can be increased.

In addition, the fitting joint bone 350 is formed so that the bent part of the hook is positioned between the locking jaw and the through hole of the bottom surface, and will be described in detail with reference to FIG. 7 .

7 is a cut-away side view of a hook coupling structure in a battery pack case before a hook unit is inserted according to an embodiment of the present invention.

Referring to FIG. 7 , the fitting bone 350 is formed between the locking jaw 340 and the through hole 330 and is a space in which the bent part 211 of the hook part is located, and the space between the bottom part 320 The length is formed to a length greater than the diagonal length of the bent portion 211 of the hook portion. This allows the bent portion 211 to be easily inserted into the fitting bone 350 when the upper case 200 and the lower case 300 are coupled.

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

Meanwhile, although the technical spirit of the present invention has been specifically described according to the above embodiments, it should be noted that the above embodiments are for explanation and not for limitation. In addition, those of ordinary skill in the technical field of the present invention will be able to make various embodiments within the description of the claims.

10: first structure
11: snag
20: second structure
21: hook part
21_1: Body
21_2: projection
30: first structure
31: snag
32: support
40: second structure
41: hook part
41_1: body
41_2: projection
100: hook coupling structure
110: hook part
111: bend
120: bottom surface
121: first bottom part
122: second bottom part
123: second conductive connecting member
130: through hole
140: snag
150: fitted bone
200: battery pack upper case
210: hook part
211: bend
300: battery pack lower case
310: side part
320: bottom
330: through hole
340: snag
350: fitted bone

Claims (11)

delete delete delete delete delete delete In the battery pack case,
A battery pack lower case 300 in which fitting bones are formed in a predetermined area on a bottom surface; and
a battery pack upper case 200 having a hook portion 210 including a bent portion 211 with an end protruding at a position corresponding to the fitting bone of the battery pack lower case; It is composed of,
The battery pack lower case 300,
a through-hole 330 formed in a predetermined area of the bottom surface of the battery pack lower case so that the predetermined area of the bent portion of the battery pack upper case is disposed inwardly; and
A locking jaw 340 positioned at a predetermined height from the through hole in a predetermined area of a side surface of the battery pack lower case corresponding to the hook part of the battery pack upper case, and on which the bent portion of the battery pack upper case is hooked. become,
The locking jaw 340 of the battery pack lower case and the hook portion of the battery pack upper case are coupled to each other to form a hook coupling structure,
The battery pack lower case 300 includes a side portion 310 positioned at one side of the through hole; And a bottom portion 320 located on the other side of the through hole; is configured to include,
The length between the locking jaw 340 and the bottom portion 320 is greater than the thickness of the bent portion 211 of the hook portion 210,
The hook part 210 is supported by being in contact with the flat part of the side of the hooking jaw 340 in a face-to-face manner except for the bent part 211, and the bent part 211 is the bottom part ( 320) characterized in that it is supported by being in contact with the flat part of the side surface,
The battery pack upper case 200 has a structure that covers the entire side portion 310 and bottom portion 320 of the battery pack lower case 300,
The hook part 210 is spaced apart from the edge of the battery pack upper case 200 and extends downward from the lower surface of the battery pack upper case 200.
The locking jaw 340 protrudes laterally from the inner surface of the upper end of the side part 310 of the battery pack lower case 300,
The battery pack case, characterized in that the through hole penetrates the edge of the bottom portion (320) from the side portion (310) side.
delete delete The method of claim 7,
Between the locking jaw and the bottom surface, a fitting coupling bone 350 so that the bent portion of the hook is positioned between the locking jaw and the through hole of the bottom surface; A battery pack case characterized in that the formation.
A device comprising the battery pack case of any one of claims 7 and 10.

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