KR102449263B1 - Battery Module Case for Electric Vehicle - Google Patents

Abstract

The present invention relates to a battery module case for an electric vehicle, wherein battery cells can be easily inserted into the battery module case and can be firmly maintained in an assembled state. The battery module case for the electric vehicle according to the present invention for solving the above subjects includes: a body with a predetermined size in which the top is open to accommodate a plurality of battery cells; a cover with a predetermined size covering the open top of the main body; and a fixating member installed so as to surround the outer surface of the main body and preventing separation of the cover selectively assembled on the top of the main body by an up-and-down sliding operation, wherein the main body includes a front surface plate, a rear surface plate, a left side surface plate, a right side surface plate, and a bottom surface plate with a predetermined size forming a front surface, a rear surface, a left surface, a right surface, and a bottom surface so as to form a rectangular box shape, insertion guide parts are formed at the upper ends of the front surface plate and the rear surface plate so as to protrude upward by a predetermined length rather than the upper ends of the left side surface plate and the right side surface plate, and the insertion guide parts are formed inclined so that mutually spaced width gets gradually wider toward the upper end.

Description

Battery Module Case for Electric Vehicle

The present invention relates to a battery module case for an electric vehicle, and more particularly, to a battery module case for protecting a predetermined number of battery cells from external shocks and vibrations.

In general, a battery for an electric vehicle is composed of a battery cell having a predetermined size, a battery module accommodated by binding the battery cells in a predetermined number, and a battery pack including the plurality of battery modules, a BMS, a cooling device, and control components.

Among them, the battery module is configured such that 6 to 12 battery cells are closely accommodated inside the battery module case having a predetermined size, and for this reason, it is difficult to insert and assemble a plurality of battery cells inside the battery module case. have.

In particular, since the precise assembly tolerance between the battery cell and the battery module case is applied, in the process of assembling the battery cell to the battery module case, there is a problem that it cannot be assembled due to the shape defect of the battery cell or the shape of the battery module case. , there is a problem that scratches occur due to surface friction between the battery cell and the battery module case in the process of closely accommodating the battery cell in the battery module case.

Accordingly, various battery module cases have been developed to improve the assemblability between the battery cells and the battery module case. As an example, the battery module case for an electric vehicle (hereinafter referred to as 'patent document') of Patent Registration No. 2120933 is disclosed. .

In the patent document, a hollow is formed with an inner profile corresponding to an outer surface profile of the battery for an electric vehicle, and at least one side of both ends in the longitudinal direction is opened, and a press-in protrusion is formed along the open end edge, and is extruded as an aluminum material. a case part which is molded and provided; And at least one is provided so as to be coupled to the open end of the case portion, the extension protrudes integrally to the edge of the position corresponding to the press-in protrusion so as to be pressed into the press-in protrusion so as to face the case portion, and the end of the extension Both sides of the press-in protrusion are formed to be recessed and closely adhered to both sides of the press-in protrusion, and include a cover part provided by die-casting formed of an aluminum material, wherein both sides of the press-in protrusion in the width direction are formed to taper and narrow toward the end. , The double-sided adhesion groove is formed with an inner profile corresponding to the outer surface profile of the press-in protrusion so as to surround both sides in the width direction of the press-in protrusion, and both sides of the press-in protrusion in the width direction surround both sides of the press-in protrusion in the width direction A first frame and a second frame that extend integrally from the extension part are formed so as to be integrally formed, and a locking protrusion is integrally formed with a rounded outer surface profile on one outer surface of the first and second edges of the double-sided adhesive groove. It is formed to protrude toward the press-in protrusion, and on one surface of the press-in protrusion, a locking constraint groove into which the locking protrusion is resiliently inserted and locked is recessed into a profile corresponding to the rounded outer surface profile of the locking protrusion, and the One side of the first frame and the second frame on which the locking protrusion is formed is formed to be longer than the other side, and the locking protrusion is provided with more than a predetermined length so as to be resiliently inserted into the locking constraint groove.

However, in the conventional battery module case such as the above patent document, it is still difficult to insert the battery cell into the battery module case, and for this reason, the end of the battery module case is expanded using a separate device, and then the battery cell is inserted. There are many difficulties in assembly.

Therefore, it is required to develop a battery module case having an improved structure so that a battery cell can be easily inserted into the battery module case.

KR 10-2120933 B1 (2020. 06. 03.) KR 10-2020-0111988 A (2020. 10. 05.) KR 10-2020-0111987 A (2020. 10. 05.) KR 10-1191659 B1 (2012. 10. 10.)

The present invention has been devised to solve the problems of the conventional battery module case as described above. It is to provide a battery module case for electric vehicles that can

The battery module case for an electric vehicle according to the present invention for solving the above problems, the upper surface is opened and a plurality of battery cells are accommodated therein the body of a predetermined size; a cover having a predetermined size to cover the open upper surface of the main body; and a fixing member that is installed to surround the outer surface of the main body and selectively prevents separation of the cover assembled on the upper surface of the main body by a vertical sliding operation, wherein the main body has a front and a rear surface to form a square box shape. , a front plate, a rear plate, a left face plate, a right face plate and a bottom plate of a predetermined size forming a left face, a right face, and a bottom face, and the upper end of the front plate and the rear plate is higher than the upper end of the left face plate and the right face plate. An insertion guide portion formed to protrude upward by a predetermined length is formed, and the insertion guide portion is formed to be inclined so that the widths spaced apart from each other gradually widen toward the upper end.

The present invention is further characterized in that the insertion protrusion formed in the shape of an inverted "a" and "a" is formed by bending the front end of the insertion guide part by a predetermined width in a direction facing each other.

In addition, in the present invention, insertion grooves having a predetermined depth having a length in the left and right directions are formed on the front and rear surfaces of the cover, and the insertion guide portion is deformed to be in close contact with the front and rear surfaces of the cover by pressing the fixing member. The fitting insertion protrusion is inserted into the insertion groove, and the cover is further characterized in that the fitting insertion protrusion is inserted into the insertion groove to be fixed and maintained on the main body.

According to the present invention, the front and rear upper ends of the main body of the battery module case are manufactured in a state that is opened at a predetermined angle to the outside, and through this, when inserting the battery cells into the main body, the front and rear upper ends of the main body guide the battery cells to the inside of the main body. It has the advantage of being able to easily insert the battery cell as it acts as a guide.

In addition, after the front and rear upper ends of the main body are inserted into both sides of the cover, the front and rear upper ends of the main body are maintained in close contact with both sides of the cover through the fixing member, through which the cover is not easily separated from the main body and is strong will remain assembled.

In addition, the fixing member is kept in close contact with each other by the elastic restoring force of the front and rear upper ends of the main body, so that the fixing member is structurally prevented from being arbitrarily lowered even by vibration, etc. There is an advantage in that the coupled state for fixing the cover is maintained.

1 is a perspective view showing an example of a battery module case for an electric vehicle according to the present invention.
Figure 2 is an exploded perspective view of Figure 1;
Figure 3 is a perspective view showing an example of the main body according to the present invention.
Figure 4 is a front view showing an example of the main body according to the present invention.
5 is a side view showing an example of a body according to the present invention;
6 is a perspective view showing an example of a cover according to the present invention.
7 is a front view showing an example of a cover according to the present invention.
8 is a side view showing an example of a cover according to the present invention;
9 and 10 are views showing an example in which the cover is assembled to the case body according to the present invention and then fixed through a fixing member.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

An object of the present invention is to provide a battery module case for an electric vehicle that can easily insert a battery cell into a battery module case and can maintain an assembled state strongly. It also includes a body 10, a cover 20, and a fixing member 30.

The main body 10 has an open upper surface and a plurality of battery cells are accommodated therein.

As shown in FIGS. 3 and 4 , the main body 10 includes a front plate 11 of a predetermined size that forms a front surface, and is spaced apart from the front plate 11 by a predetermined distance to correspond to the front plate 11 . A rear plate 12 forming a rear face in size, a left face plate 13 connecting one end of the front plate 11 and the rear plate 12, and the front plate 11 and the rear plate 12 It includes a right side plate 14 for connecting the other ends, and a bottom plate 15 for connecting the front and rear plates 11 and 12 and the lower ends of the left and right side plates 13 and 14 .

And a plurality of buffer projections (11A, 12A, 13A, 14A, 15A) are formed protruding from the front and rear plates (11, 12), the left and right side plates (13, 14) and the bottom plate (15) at a predetermined interval. And, even if an external force acts through these buffer projections (11A, 12A, 13A, 14A, 15A), the impact is directly transmitted to the battery cell (not shown) accommodated therein is prevented from being deformed or damaged.

The body 10 is formed by press-molding a thin metal plate having a thickness of 5 mm or less to form buffer projections 11A, 12A, 13A, 14A, and 15A, and then the front and rear plates 11 of the form developed through sheet metal processing. , 12), the left and right side plates 13 and 14 and the bottom plate 15 are formed, and then folded into a rectangular box-shaped body 10 with an open upper surface, and then the sides of both sides adjacent to each other manufactured by welding.

On the other hand, the front plate 11 and the rear plate 12 of the main body 10 are formed to have a length of the upper end relatively longer than the upper length of the left face plate 13 and the right face plate 14, and through this, the front plate 11 ) and the upper end of the rear plate 12 protrude upward to form insertion guide portions 11B and 12B of a predetermined length.

In addition, the ends of the insertion guide portions (11B, 12B) are bent a predetermined width in the direction facing each other, the insertion protrusions (11B', 12B') formed in the shape of an inverted "a" and "a" are formed.

In addition, the insertion guide portions 11B and 12B are inclined at a predetermined angle A so that the widths spaced apart from each other gradually widen toward the upper end. The lower end position of the battery cell is guided through the insertion guide portions 11B and 12B inclined at the angle A, and the battery cell is easily inserted into the inner space of the body 10 .

In addition, the insertion guide portions 11B and 12B are pressed and deformed so as to be in close contact with both sides (front and rear directions) of the cover 20 to be described later by an external force, and when the external force is released, it is configured to return to its original shape by an elastic restoring force. Through this, the insertion protrusions (11B', 12B') at the ends of the insertion guide portions (11B, 12B) are inserted into the insertion grooves 24 formed on the front and rear surfaces of the cover 20 so that the cover 20 is inserted. When it is pressed and deformed so as to be in close contact with the front and rear surfaces of the , the cover 20 is fixed without being arbitrarily separated by the insertion guide portions 11B and 12B.

In addition, the upper end of the left side plate 13 and the right side plate 14 is formed with side engaging ends (13B, 14B) formed in a cross section inclined at a predetermined angle, these side engaging ends (13B, 14B) is a cover to be described later. (20) is inserted into the fitting groove 22, the upper portion of the left and right side plates (13, 14) is spaced apart from the cover (20) is prevented from forming a gap.

And at the side ends where the insertion guide portions 11B and 12B and the side engaging ends 13B and 14B are in contact with each other, a cutout C with a predetermined interval is formed as shown in FIG. 4, and through this, the insertion guide portion 11B, 12B) is elastically deformed freely without interference from the side engaging ends 13B and 14B.

The cover 20 is made of a material such as synthetic resin and is configured to cover the open upper surface of the main body 10 .

The cover 20 includes a cover plate 21 having a predetermined size corresponding to the size of the open upper surface of the main body 10 as shown in FIGS. 6 to 8 , and on the left and right sides of the cover plate 21 . A fitting groove 22 of a predetermined depth formed along the length in the front-rear direction, and adjacent to the fitting groove 22 and formed to protrude downward a predetermined length, in close contact with the upper inner side of the left and right side plates 13 and 14, left, A support protrusion 23 for supporting the side engaging ends 13B and 14B of the right side plates 13 and 14, and an insertion groove formed to have a predetermined depth along the left and right lengths of the front and rear plates 11 and 12 (24).

At this time, the fitting groove 22 is formed to have an inclination of a predetermined angle corresponding to the side engaging ends 13B and 14B of the left and right side plates 13 and 14, and through this, the side engaging ends 13B and 14B are fitted. When inserted into the groove 22, the side locking ends 13B and 14B are structurally prevented from being separated from the fitting groove 22, and at the same time, the side locking ends 13B, 14B are closely contacted by the support protrusion 23. As the supported state is maintained, even if an external force is applied to the left and right surface plates 13 and 14 , the side engaging ends 13B and 14B are not easily deformed or are not arbitrarily separated from the fitting groove 22 .

In addition, separation prevention protrusions 25 of a predetermined size are protrudingly formed on the front, rear, left, right side or front, rear, left, and right sides of the cover plate 21 , and are fixed to be described later by the separation preventing projections 25 . The member 30 is structurally prevented from passing through the upper portion of the cover 20 .

The fixing member 30 is installed to surround the outer surface of the main body 10 and slides up and down along the main body 10, and through this, the insertion guide portions 11B and 12B of the main body 10 are secured to the cover 20. It is configured to be fixed so that the cover 20 is not arbitrarily separated by maintaining it in close contact with the front and rear surfaces of the .

The fixing member 30 is formed in a rectangular frame shape surrounding the outer surface of the body 10 as shown in FIG. 2 , and the buffer projections 11A, 12A, 13A, 14A of the body 10 and the insertion guide part (11B, 12B) is installed between the buffer projections (11A, 12A, 13A, 14A) to prevent downward departure structurally downward, the insertion guide (11B, 12B) is maintained in the open state when the insertion guide ( 11B, 12B) to prevent upward departure structurally.

When assembling the fixing member 30 to the main body 10, the insertion guides 11B and 12B of the main body 10 are pressed in opposite directions to close, and the fixing member 30 is inserted in this state.

On the other hand, when the pressure of the insertion guides 11B and 12B of the main body 10 is released, the insertion guides 11B and 12B return to their original shape by the elastic restoring force so that the fixing member 30 is not separated from the main body 10 . do.

After the battery cells are accommodated in the inner space of the body 10 through the fixing member 30 as described above, the cover 20 is seated to cover the open upper surface of the body 10, and in this state, the fixing member ( When the 30) is raised toward the cover 20, as shown in FIGS. 9 and 10, the insertion guide portions 11B and 12B, which are spread on both sides, are pressed by the fixing member 30 to the front and rear surfaces of the cover 20. deformed to adhere to the

Accordingly, the insertion protrusions 11B', 12B' of the insertion guide portions 11B and 12B are inserted into the insertion groove 24 of the cover 20 and the cover 20 is fixed so as not to be separated, and at the same time the fixing member (30) is maintained in a state in close contact with each other by the elastic restoring force of the insertion guide portion (11B, 12B) is not arbitrarily lowered, the position is fixed.

As a result, the cover 20 is maintained in a locked state by the fitting insertion projections 11B' and 12B' of the insertion guide portions 11B and 12B, and the fixing member 30 is inserted into the guide portions 11B and 12B. The position is fixed in close contact with the elastic restoring force of the , whereby the cover 20 is maintained in a robustly assembled state even if it is not assembled through a separate fastening means.

As described above, in the present invention, the front and rear upper ends of the main body of the battery module case are manufactured with a predetermined angle to the outside, and through this, when the battery cells are inserted into the main body, the front and rear upper ends of the main body move the battery cells to the inside of the main body. It serves as a guide for guiding, making it easy to insert the battery cell.

And after the front and rear upper ends of the main body are inserted into both sides of the cover, the front and rear upper ends of the main body are maintained in close contact with both sides of the cover through the fixing member, through which the cover is not easily separated from the main body and is strong will remain assembled.

In addition, the fixing member is kept in close contact with each other by the elastic restoring force of the front and rear upper ends of the main body, so that the fixing member is structurally prevented from being arbitrarily lowered even by vibration, etc. The coupled state for fixing the cover is maintained.

In the above description, for convenience of description, reference numerals and names were given to the drawings showing preferred embodiments and the components shown in the drawings, but this is an embodiment according to the present invention. It should not be construed as being limited, and simple substitution into a configuration having the same function as a change in various predictable shapes from the description of the invention is within the range that can be changed for easy implementation by those skilled in the art. It will be seen as extremely self-explanatory.

10: body 11: front panel
11A: buffer projection 11B: insertion guide portion
11B': fitting insertion projection 12: rear panel
12A: buffer projection 12B: insertion guide portion
12B': fitting insertion projection 13: left side plate
13A: buffer projection 13B: side locking end
14: right side plate 14A: buffer projection
14B: side stopper 15: bottom plate
15A: buffer projection 20: cover
21: cover plate 22: fitting groove
23: support protrusion 24: insertion groove
25: separation prevention protrusion 30: fixing member
A: Angle C: Incision

Claims (3)

a main body 10 of a predetermined size having an open upper surface and accommodating a plurality of battery cells therein;
a cover 20 of a predetermined size for covering the open upper surface of the main body 10; and
a fixing member 30 installed to surround the outer surface of the main body 10 and selectively preventing separation of the cover 20 assembled on the upper surface of the main body 10 by a vertical sliding operation;
including,
The main body 10,
The front plate 11, the back plate 12, the left face plate 13, the right face plate 14 and the bottom plate 15 of a predetermined size to form the front, rear, left side, right side and bottom to form a square box shape. includes,
At the top of the front plate 11 and the rear plate 12,
Insertion guide portions (11B, 12B) formed to protrude upward a predetermined length from the upper ends of the left side plate 13 and the right side plate 14 are formed,
The insertion guide portion (11B, 12B),
A battery module case for an electric vehicle, characterized in that it is inclined so that the widths spaced apart from each other gradually widen toward the top.
The method according to claim 1,
The front end of the insertion guide portion (11B, 12B),
A battery module case for an electric vehicle, characterized in that the insertion protrusions (11B', 12B') formed in an inverted "a" and "a" shape by bending a predetermined width in a direction facing each other are formed.
3. The method according to claim 2,
Insertion grooves 24 of a predetermined depth having a length in the left and right directions are formed on the front and rear surfaces of the cover 20,
The insertion guide portion (11B, 12B),
The fixing member 30 is deformed to be in close contact with the front and rear surfaces of the cover 20 by pressing the fixing member 30 so that the fitting insertion protrusions 11B' and 12B' are inserted into the insertion groove 24, and the cover 20 ) is a battery module case for an electric vehicle, characterized in that the fitting insertion protrusion (11B', 12B') is inserted into the insertion groove (24), and is fixed and maintained on the main body (10).

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