KR101781923B1 - Battery cooler for vehicle - Google Patents

Abstract

The present invention relates to a battery cooling device capable of cooling a battery using a coolant. The battery cooler includes a thermally conductive plate coupled to both sides of a receiving portion of a refrigerant tube bent in a corrugated form, The heat conductive plate and the battery cell are closely contacted to each other by the fixing clip after the battery cell is inserted, so that the contact between the heat conductive plate and the battery cell is improved and the heat transfer with the refrigerant is rapidly performed. And more particularly, to a battery cooling apparatus capable of reducing the manufacturing cost and the manufacturing time due to its high efficiency and simple structure.

Description

Battery cooler for vehicle

The present invention relates to a battery cooling device capable of cooling a battery using a coolant. The battery cooler can improve the contact with a battery cell, thereby rapidly transferring heat to the coolant, And a battery cooling apparatus capable of reducing manufacturing time.

2. Description of the Related Art Generally, an electric vehicle or a hybrid vehicle is equipped with a large-capacity battery in which a plurality of battery cells or battery packs are connected. However, the performance of these batteries depends on the temperature, and electrolyte decomposition occurs at high temperatures, and the lifetime of the battery deteriorates remarkably.

Therefore, various methods have been developed to prevent the temperature rise of the battery. For example, as shown in FIG. 1, the battery cells 10 are closely contacted through the plate 20 for heat conduction, 20 (hereinafter referred to as Korean Patent Laid-Open Publication No. 10-2012-0016590, "a battery module 10 having a compact structure and excellent heat dissipation characteristics, which is formed by integrally forming a coolant passage 30 in the battery module 10 and cooling the battery cells 10 through heat exchange with a coolant And a middle- or large-sized battery pack including the same ").

However, in order to improve the contactability between the battery cell 10 and the plate 20 for heat conduction, the case 30 is coupled to the case 30 in the close contact direction as shown in FIG. 2, , Bolts, nuts, and reinforcement frames are required, which complicates the construction and increases manufacturing cost and manufacturing time.

KR 10-2012-0016590 A (2012.2.24.)

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above-mentioned problems, and it is an object of the present invention to provide a cooling device for cooling a battery using a refrigerant or cooling water of an air conditioning system of a vehicle, And thus a manufacturing cost and a manufacturing time can be reduced due to a simple structure and a high cooling performance and efficiency.

In order to accomplish the above object, the battery cooling apparatus of the present invention comprises a refrigerant tube (100) formed by bending a corrugated shape in a horizontal direction and having a receiving part (130) formed inside a bent part; A thermally conductive plate 200 coupled to both sides of the inside of the accommodating portion 130 of the refrigerant tube 100; A battery cell 400 inserted between the thermally conductive plates 200 in a vertical direction; A horizontal part 310 formed in the direction of contact between the thermally conductive plate 200 and the battery cell 400 and a horizontal part 310 bent at both ends of the horizontal part 310 to connect the refrigerant tube 100 and the heat conductive plate 200, And a fixing clip 300 including a vertical portion 320 formed to surround the cell 400. The fixing clip 300 is inserted into the upper and lower portions of the refrigerant tube 100, The heat conductive plate 200 and the battery cell 400 are brought into close contact with each other in the contact direction to prevent the refrigerant tube 100 from deviating in the vertical direction.

A plurality of the refrigerant tubes 100 are spaced apart from one another. Each of the refrigerant tubes 100 is connected to an inlet pipe 110 and the other end is connected to an outlet pipe 120 do.

The fixing clip 300 has vertical portions 320 on both sides of the horizontal portion 310 and a hook 330 is formed on an inner side of the end portion of the vertical portion 320.

The fixing clip 300 is coupled with the hook 330 to be engaged with the refrigerant tube 100 or the hook 330 is coupled with the fixing groove 210 formed in the heat conductive plate 200 .

In the state where the battery cell 400 is inserted between the thermally conductive plates 200, a pressure is applied so that the thermally conductive plate 200 and the battery cell 400 are closely contacted to each other, And removing the back pressure.

In addition, the fixing clip 300 is formed in a plurality of, and the fixing clip 300 is formed to have a different interval between the vertical portions 320.

In addition, a pin-shaped fastening part 340 is protruded from the fixing clip 300.

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above-mentioned problems, and it is an object of the present invention to provide a battery cooling apparatus which improves the contact property between a heat conduction plate coupled to a refrigerant tube and a battery cell, There is an advantage that the manufacturing cost and the manufacturing time can be reduced because the efficiency is high and the structure is simple.

1 and 2 are perspective views showing a conventional cooling device and a battery module.
3 is a perspective view of a refrigerant tube according to the present invention.
4 and 5 are an exploded perspective view and an assembled perspective view of the battery cooling device of the present invention.
6 is a cross-sectional view taken along line AA 'of FIG.
FIG. 7 is a bottom view of FIG. 4 showing a mounting state of the fixing clip after the battery cell according to the present invention is inserted.

Hereinafter, a battery cooling apparatus of the present invention having the above-described configuration will be described in detail with reference to the accompanying drawings.

FIG. 3 is a perspective view of a refrigerant tube according to the present invention, and FIGS. 4 and 5 are an exploded perspective view and an assembled perspective view of a battery cooling device of the present invention.

As shown in the figure, the battery cooling apparatus 1000 according to the present invention includes: a refrigerant tube 100 formed by bending in a corrugated shape and having a receiving portion 130 formed inside a bent portion; A thermally conductive plate 200 coupled to both sides of the inside of the accommodating portion 130 of the refrigerant tube 100; A fixing clip 300 to which the battery cell 400 is inserted between the thermally conductive plate 200 and the heat conductive plate 200 and the battery cell 400 so as to be brought into contact with each other in the contact direction; .

First, the refrigerant tube 100 is a passage through which refrigerant (or cooling water) for cooling flows. 3, the refrigerant tube 100 is folded in a corrugated form, and the receiving portion 130 is formed inside the bent portion. At this time, the refrigerant tube 100 may be formed so that the bent portion is bent in a round shape to facilitate the flow of the refrigerant. The refrigerant tube 100 is bent 180 degrees so that the battery cell 400 is inserted into the receiving portion 130, As shown in FIG. Since the refrigerant tube 100 is repeatedly bent in a corrugated form, a plurality of receiving portions 130 are formed.

The thermally conductive plate 200 may be coupled to the refrigerant tube 100 and may be vertically coupled to both sides of the refrigerant tube 100 inside the housing 130. At this time, the refrigerant tube 100 and the heat conduction plate 200 are made of aluminum to facilitate heat transfer.

Here, the battery cell 400 is inserted between the thermally conductive plates 200, and the thermally conductive plate 200 and the battery cell 400 are closely contacted by the fixing clip 300 in the contact direction.

That is, the fixing clip 300 is inserted at the upper side and the lower side and is brought into close contact with the refrigerant tube 100 and the outermost side (both sides) of the heat conduction plate 200 so that the contact between the heat conduction plate 200 and the battery cell 400 Can be improved.

Thus, the battery cooling apparatus of the present invention improves the contactability between the heat conduction plate coupled to the refrigerant tube and the battery cell, and thus the heat transfer with the refrigerant can be rapidly performed. Therefore, the cooling performance and efficiency are high and the structure is simple, There are advantages to be able to.

The battery cell 400 may be coupled to the receiving portion 130 of the refrigerant tube 100 so that the electrode tab 410 is disposed on the upper side of the battery cell 400, And two battery cells 400 may be inserted into each of the battery cells 130. In addition, the plurality of battery cells 400 may be electrically connected in series or in parallel, with the electrode tabs 410 connected to each other. In addition, the battery cell 400 may be configured such that an electrode body 420 composed of an anode, a cathode, an electrolyte, a separator and the like and generating electricity is surrounded by a rectangular pouch or a case securing insulation.

In the battery cooling apparatus of the present invention, a plurality of refrigerant tubes 100 are formed spaced apart from one another. Each of the refrigerant tubes 100 is connected to the inlet pipe 110 and the other end is connected to the outlet pipe 120. As shown in FIG.

That is, the refrigerant flowing into the inlet pipe 110 is branched and flows along the refrigerant tubes 100, and the battery cells 400 may be cooled, and then may be collected and discharged to the outlet pipe 120. Accordingly, the battery cells 400 can be cooled uniformly, and the contact area between the refrigerant tubes 100 and the heat conduction plate 200 can be increased, so that the cooling performance can be improved.

The fixing clip 300 may have a vertical portion 320 on both sides of the horizontal portion 310 and a hook 330 may be formed on an inner side of the end portion of the vertical portion 320.

That is, the fixing clip 300 is formed in a U-shape and inserted in the upper side and the lower side so that the both side refrigerant tubes 100 are pressed by the vertical part 320 so that the heat conductive plate 200 and the battery cell 400 are in close contact with each other can do.

At this time, the fixing clip 300 may be coupled to hook the hook 330 to the refrigerant tube 100, or the hook 330 may be engaged with the fixing groove 210 formed in the heat conductive plate 200 .

6, the fixing clip 300 is inserted to the outside of the refrigerant tube 100 so that the hook 330 is engaged with the refrigerant tube 100 so as to be coupled thereto, or when the fastening force is insufficient, The hooks 330 are inserted and fixed to the fixing grooves 210 formed in the base plate 210. [

Thus, the heat conductive plate 200 and the battery cells 400 can be fixed to each other with a simple structure by the fixing clip 300, thereby reducing manufacturing cost and manufacturing time.

In the state where the battery cell 400 is inserted between the thermally conductive plates 200, a pressure is applied so that the thermally conductive plate 200 and the battery cell 400 are closely contacted to each other, And removing the back pressure.

That is, when the battery cells 400 are inserted into the battery cooling apparatus of the present invention, the battery cells 400 are inserted between the thermally conductive plates 200 as shown in FIG. 7 (a) 7 (b), the fixing clip 300 is inserted and fixed to the outside, and the pressure acting on both sides is removed, so that the battery cells 400 are removed by the battery cooling apparatus 1000 The contact state can be improved.

In addition, the fixing clip 300 may be formed in a plurality of units, and the fixing clip 300 may have a different interval between the vertical portions 320.

This is because the vertical portions 320 of the fixing clip 300 are spaced apart from each other in order to uniformly cool the battery cells 400 so that the adhesive strength of the battery cells 400 is different from each other. 400 can be uniformly cooled. When a plurality of refrigerant tubes 100 are connected to the inlet pipe 110 and the outlet pipe 120, the flow rates of the refrigerant branched to the respective refrigerant tubes 100 are different and the battery cells 400 are cooled differently So that the degree of tight contact between the heat conductive plate 200 and the battery cell 400 can be controlled by the fixing clip 300 to achieve uniform cooling.

In addition, a pin-shaped fastening part 340 may protrude from the fixing clip 300. A mounting pin 340 is formed on the outer side of the horizontal portion 310 of the fixing clip 300 fixed to the lower side of the battery cells 400. The fixing pin 340 protrudes from the fixing hole 340, The pin-shaped fastening portion 340 may be inserted into the pin-shaped fastening portion 340 to fix the position. Also, the fastening part 340 is formed in the fastening clip 300 fixed to the upper side of the battery cells 400, and can be firmly fixed to the vehicle using a bracket formed with a fastening hole. A fastening portion (not shown) such as a nut or bolt may be formed outside the horizontal portion 310 of the fastening clip 300 coupled to the lower side to be directly coupled to and fixed to the mounting portion of the vehicle. (Not shown).

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

1000: Battery cooling device (of the present invention)
100: Refrigerant tube
110: inlet pipe 120: outlet pipe
130:
200: heat conduction plate 210: fixing groove
300: Retaining clip
310: horizontal part 320: vertical part
330: hook 340: fastening portion
400: battery cell
410: electrode tab 420: electrode body

Claims (7)

A refrigerant tube (100) bent in a horizontal direction in a corrugated shape and having a receiving portion (130) formed inside the bent portion;
A thermally conductive plate 200 coupled to both sides of the inside of the accommodating portion 130 of the refrigerant tube 100;
A battery cell 400 inserted between the thermally conductive plates 200 in a vertical direction; And
A horizontal part 310 formed in the direction of contact between the thermally conductive plate 200 and the battery cell 400 and a horizontal part 310 bent at both ends of the horizontal part 310 to connect the refrigerant tube 100, (300) including a vertical portion (320) formed so as to surround the base portion (400)
The fixing clip 300 is inserted into the upper and lower portions of the refrigerant tube 100 and is closely contacted with the refrigerant tube 100 so that the refrigerant tube 100 and the heat conductive plate 200 and the battery cell 400, Is brought into close contact in the contact direction, thereby preventing a deviation in the vertical direction.
The method according to claim 1,
Wherein a plurality of the refrigerant tubes (100) are spaced apart from one another, and one end of the refrigerant tubes (100) is connected to the inlet pipe (110) and the other end is connected to the outlet pipe (120) Cooling device.
The method according to claim 1,
Wherein the fixing clip (300) has a hook (330) formed inwardly at an end of the vertical part (320).
The method of claim 3,
The fixing clip 300 is coupled so that the hook 330 is engaged with the refrigerant tube 100 or the hook 330 is engaged with the fixing groove 210 formed in the heat conductive plate 200 Battery cooling unit.
The method of claim 3,
A pressure is applied so that the thermally conductive plate 200 and the battery cell 400 are closely contacted with each other while the battery cell 400 is inserted between the thermally conductive plates 200, The battery cooling apparatus comprising:
The method of claim 3,
Wherein the fixing clip (300) is formed in a plurality of spaces, and the fixing clip (300) is formed to have a different interval between the vertical portions (320).
The method of claim 3,
Wherein the fixing clip (300) is formed with a pin-shaped coupling part (340) protruding outwardly.

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