KR20060064854A - Battery case for thermal control and battery pack structure using the same - Google Patents

Abstract

The present invention relates to a battery case and a battery pack structure using the same for the thermal control, the battery case of the present invention is formed with a receiving space of a predetermined depth and at least one air inlet on one side wall, and at least one air on the other side wall Discharge port is provided, characterized in that the upper side is opened to accommodate the battery pack in the receiving space. In addition, the battery pack structure of the present invention includes a battery pack having at least one battery; It is characterized in that it comprises a battery case for accommodating the battery pack to enable the heat generated from the battery pack during operation to be discharged to the outside through the surrounding air. Accordingly, the present invention makes it possible to conveniently accommodate a battery pack composed of at least one battery, and also allows the surrounding air to pass through the gap between the batteries of the battery pack, thereby transferring heat generated from the battery pack to the outside. Allow for quick discharge.

Heat, control, battery, case, battery pack

Description

BATTERY CASE FOR THERMAL CONTROL AND BATTERY PACK STRUCTURE USING THE SAME}

1 is a schematic exploded perspective view showing a battery module according to the prior art.

Figure 2 is a schematic exploded perspective view showing a battery case and a battery pack structure using the same for the thermal control according to the present invention.

3 is a schematic exploded perspective view of a battery pack applied to the battery pack structure according to the present invention.

4 is a schematic plan view of a battery pack applied to the battery pack structure according to the present invention.

Figure 5 is a schematic plan view showing a state in which the surrounding air flows through the air flow passage of the battery pack applied to the battery pack structure according to the present invention.

Figure 6 is a schematic cross-sectional view showing the interior of the battery pack structure according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: battery case 10a: storage space

10b: air inlet 10b ': communicating part

10c: air outlet 10c ': through hole

10d: sidewall 11: battery pack

12: battery 12a: electrode tab

12b: inner conductive piece 12c: outer conductive piece                 

13: upper plate 14: lower plate

15: cross member 15a: air flow path

16: fixed part 16a: recessed part

16b: protrusion 17: blower fan

18: cover member 18a: opening

The present invention relates to a battery case for heat control and a structure of a battery pack using the same, and in particular, it is possible to conveniently accommodate a battery pack composed of at least one battery, and also to generate heat from the battery pack to ambient air. It relates to a battery case and a battery pack structure using the same for the heat control to be quickly discharged to the outside through.

In general, the battery module 1, as shown in Figure 1, the shell (shell) (2) having a predetermined size of the receiving space of the upper and lower opening; A plurality of cylindrical cells 3 arranged side by side, and the battery holding board (5) which is respectively disposed on the upper and lower parts of the whole of these cells to integrally fix the entire battery (3) via a support rod (4) A battery assembly 6 configured; When the battery assembly is fitted in the receiving space of the shell 2, the lower cap 7 for fixing the lower battery holding board 5 of the battery assembly 6 via the lower edge of the shell, and the It consists of an upper cap (8) for fixing the upper battery holding board (5) of the battery assembly (6) via the upper edge of the shell (2).

Here, each of the lower cap 7 and the upper cap 8 is provided with an air flow port 9 so as to discharge heat generated from each battery 3 of the battery assembly 6 to the outside. One side of the upper cap 8 is provided with a terminal 8a to supply current to an external device.

However, in the related art, since the battery constituting the battery assembly of the battery module has a cylindrical shape and a vertically arranged structure, it is very difficult to compactly configure the battery module in accordance with the power demand of a predetermined device.

In addition, since the electrodes of each battery of the battery assembly were to be connected to the connector on the battery holding board, the structure was complicated, and it was inconvenient to connect each battery to the connector via the battery holding board.

In addition, when a plurality of battery modules are stacked in order to be applied as a power source of a device requiring high power, such as a hybrid vehicle (HEV) or an electric vehicle (EV), the batteries of the battery assembly constituting the battery module are closely adhered to each other. Because it is surrounded by a shell, there is a high risk of battery overheating when the battery module is operated for a long time.

Accordingly, the present invention has been made to solve the above-described problems, the object of which is to conveniently accommodate a battery pack consisting of at least one battery, and to allow the air between the batteries of the battery pack between It passes through the gap so that the heat generated from the battery pack can be quickly discharged to the outside.

Another object of the present invention is to stack a plurality of battery packs to a certain height in accordance with the power requirements of the device can be easily electrically connected to the electrode tab of the battery pack of the predetermined layer and the corresponding electrode tab of the battery pack of the upper or lower layer adjacent to the predetermined layer. To ensure that

In order to achieve the above object, the battery case according to the present invention is provided with a receiving space of a predetermined depth and at least one air inlet on one side wall, and at least one air outlet on the other side wall, the battery in the receiving space The upper side is opened so that the pack can be stored.

In addition, the battery pack structure according to the present invention includes a battery pack having at least one battery; It is characterized in that it comprises a battery case for accommodating the battery pack to enable the heat generated from the battery pack during operation to be discharged to the outside through the surrounding air.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 2 to 6.

Figure 2 is a schematic exploded perspective view showing a battery case and a battery pack structure using the same for the thermal control according to the present invention, Figure 6 is a schematic cross-sectional view showing the inside of the battery pack structure according to the present invention.

In the battery case 10 of the present invention, as shown in FIG. 2, a receiving space 10a having a predetermined depth is formed and at least one air inlet 10b on one side wall, and at least one air outlet on the other side wall ( 10c) is provided, and has a structure that is open upward to accommodate the battery pack 11 in the receiving space (10a). The battery case 10 may be manufactured of metal, plastic, or any other.

Here, the corresponding side wall (10d) of the air inlet (10b) is inclined outward from the corresponding portion of the battery pack 11 at an angle, the air inlet (10b) is the upper portion of the side wall (10d) and the battery It may be an externally communicating portion 10b 'formed between the corresponding portions of the pack 11 (see FIGS. 2 and 6). In addition, the air inlet 10b may be formed in the form of a through hole in the side wall 10d.

The side wall 10d of the air outlet 10c is inclined outward from the corresponding portion of the battery pack 11 by a predetermined angle, and the air outlet 10c is a through hole 10c 'formed in the side wall 10d. Can be.

On the other hand, in another embodiment the battery pack structure of the battery pack 11 having at least one battery; The battery pack 10 includes a battery case 10 that accommodates the battery pack and allows heat generated from the battery pack 11 to be discharged to the outside through ambient air during operation (see FIGS. 2 and 6).

Here, the battery pack 11 is at least one battery (12) which is provided to form a series or parallel circuit with the device, and each of the battery 12 is disposed in the upper and lower portions of the entire battery, respectively It consists of an insulating upper plate 13 and a lower plate 14 which are mutually coupled to wrap (see FIGS. 2 and 3).

The battery 12 of the battery pack 11 is a lithium ion polymer battery, and the corresponding electrode tab 12a of each lithium ion polymer battery 12 inside the battery pack 11 carries an inner conductive piece 12b. The outer electrode tab 12a of the outermost lithium ion polymer battery 12 of the battery pack 11 is connected to the corresponding electrode tab 12a of the outermost lithium ion polymer battery 12 which is vertically adjacent to each other. The outer conductive piece 12c is provided to be connectable. Accordingly, the operator can stack up to the desired number of battery packs 11 up and down to interconnect the corresponding electrode tabs 12a of the outermost battery 12 adjacent up and down using the outer conductive piece 12c. Will be.

Meanwhile, even when a plurality of battery packs 11 are stacked on the outer sides of the upper and lower plates 13 and 14, the batteries 12 between the respective battery packs can be smoothly cooled by the surrounding air. The cross member 15 may be provided at a predetermined interval in the width direction along the length of the plate.

Each cross member 15 is preferably formed higher than the outer frame of the plate (13, 14) so that the air flow path (15a) is formed between the battery pack and the upper and lower adjacent battery pack (Figs. 3 to 5). Reference).

Furthermore, the battery pack structure according to the present invention prevents the battery pack 11 from being inadvertently moved horizontally in the battery case 10 after being accommodated in the accommodation space 10a of the battery case 10. It may further include a fixing portion 16 to be. Here, the fixing portion 16 is a concave portion 16a formed in any one of the side wall of the battery case 10 and at least one plate 13, 14 of the battery pack 11, and the other corresponding portion It may be made of a protrusion 16b formed in (see Fig. 2).

One of each of the air outlet 10c and the air inlet 10b of the battery case 10 may further include a blower fan 17 electrically controlled through a controller (not shown) (see FIG. 6). ). Here, the other one of the air outlet (10c) and the air inlet (10b) is not provided with the blowing fan 17 may be made of a grille of the communication of air smoothly.

 In addition, when the air inlet 10b is a communication portion 10b 'between the upper portion of the corresponding side wall and the corresponding portion of the battery pack 11, the blowing fan 17 is the communication portion 10b. It is preferable to be fixed in a state facing the inner wall of ') at a predetermined interval (see Figure 6).

A predetermined cover member 18 is further detachably disposed on the battery case 10 so as to protect the battery pack 11 accommodated in the accommodation space 10a of the battery case from the outside. An opening 18a is preferably formed at one side of the battery case 10 so as to communicate with one air inlet 10b of the battery case 10 (see FIGS. 2 and 6). Here, the opening 18a of the cover member 18 may be formed in a grill shape.

Referring to the operation of the battery pack structure according to the present invention configured as described above are as follows (see Figs. 2 to 6).

First, a predetermined number of batteries 12 are aligned, and the electrode tabs (or electrode terminals) 12a of the batteries adjacent to the batteries are connected in series via the inner conductive piece 12b, and the outermost battery 12 After fixing the outer conductive pieces 12c to the two outer electrode tabs 12a, the assembled batteries are fixed using the upper and lower plates 13 and 14 to form at least one battery pack 11 ( 3).

Then, as many battery packs 11 as desired are stacked up and down, and the electrode tabs 12a of the outermost battery 12 adjacent up and down are interconnected using the outer conductive piece 12c. A predetermined number of battery packs 11 are placed in the receiving space 10a of the battery case 10, and the outermost protruding electrode tabs on both sides of the battery pack 11 and corresponding external terminals of a predetermined device (not shown). It is good to connect and use (refer FIG. 2).

In this case, the cover member 18 may be selectively provided on the battery case 10 according to the installation environment of the battery case. In addition, the battery case 10 may be installed anywhere outside or inside the device as long as outside air can be smoothly introduced into the battery case (see FIG. 6).

Accordingly, the heat generated from the battery pack 11 in the battery case 10 is the air flow path (15a) between the battery pack and the upper and lower adjacent battery pack from one air inlet (10b) of the battery case 10 Through the air to the other side through the air outlet (10c) it can be smoothly discharged to the outside, as a result, the battery pack 11 in the battery case 10 can be stably supply power to the device .

On the other hand, when the blower fan 17 is further provided around the air outlet 10c of the battery case 10, even if the battery case 10 is installed in a predetermined device that does not move unlike a device such as a car The heat generated from the battery pack 11 in the battery case can be smoothly discharged to the outside by the wind forcibly blown by the blowing fan 17.

As described above, the present invention makes it possible to conveniently accommodate a battery pack consisting of at least one battery, and also to pass the ambient air through a gap between the batteries of the battery pack to remove heat generated from the battery pack. Allows rapid discharge to the outside.

In addition, the present invention by stacking a plurality of battery packs to a certain height in accordance with the power requirements of the device to facilitate the electrical connection of the electrode tab of the battery pack of the predetermined layer and the corresponding electrode tab of the battery pack of the upper or lower layer adjacent to the convenient layer. do.

Claims (14)

A receiving space having a predetermined depth is formed, at least one air inlet is provided on one side wall, and at least one air outlet is provided on the other side wall, characterized in that the column is opened upward to accommodate the battery pack in the receiving space Battery case for control. According to claim 1, wherein the corresponding side wall of the air inlet is inclined at an angle to the outside from the corresponding portion of the battery pack, the air inlet is in communication with the outside formed between the upper portion of the side wall and the corresponding portion of the battery pack Battery case for thermal control that is part. The battery case for thermal control according to claim 1, wherein the corresponding side wall of the air outlet is inclined outward from the corresponding portion of the battery pack at an angle, and the air outlet is a through hole formed in the side wall. A battery pack having at least one battery; A battery pack structure comprising the battery case according to any one of claims 1 to 4, wherein the battery pack accommodates the battery pack to allow heat generated from the battery pack to be discharged to the outside through ambient air. The battery pack of claim 4, wherein the battery pack is at least one battery provided to form a series or a parallel circuit with the corresponding device, and the battery packs are respectively disposed on upper and lower portions of the entire battery and partially coupled to each other. Battery pack structure consisting of an upper plate and a lower plate. The battery of claim 5, wherein the battery of the battery pack is a lithium ion polymer battery, and corresponding electrode tabs of each lithium ion polymer battery inside the battery pack are connected in series through an inner conductive piece, and the outermost lithium of the battery pack is formed. Each outer electrode tab of the ion polymer battery is a battery pack structure that is provided with an outer conductive piece so as to be connected to the electrode tab of the outermost lithium ion polymer battery adjacent up and down. The length of the plate according to claim 5 or 6, wherein even when a plurality of battery packs are stacked outside the upper and lower plates, the cells between the battery packs can be smoothly cooled by the surrounding air. Battery pack structure that is provided with a cross member at a predetermined interval in the width direction along the. The battery pack structure as claimed in claim 7, wherein each cross member is formed higher than an outer frame of the plate so that an air flow path is formed between the battery pack and the battery pack. The battery pack structure as claimed in claim 4, further comprising a fixing part for preventing the battery pack from being inadvertently moved horizontally in the battery case after being accommodated in the accommodation space of the battery case. The battery pack structure of claim 9, wherein the fixing part comprises a recess formed in one of a side wall of the battery case and at least one plate of the battery pack, and a protrusion formed in the other corresponding part. The battery pack structure according to any one of claims 4, 9, and 10, wherein one of each of the air outlet and the air inlet of the battery case is further provided with a blower fan electrically controlled through a control unit. . The air blowing fan according to claim 11, wherein when the air inlet is a communication portion between the upper portion of the side wall and the outside formed between the corresponding portion of the battery pack, the blower fan faces the inner wall of the communication portion at a predetermined interval. Battery pack structure that is fixed. 12. The battery pack of claim 11, further comprising a cover member detachably attached to an upper portion of the battery case to protect the battery pack accommodated in the accommodating space of the battery case from the outside, and on one side of the cover member. Battery pack structure that the opening is formed so as to communicate with the air inlet. The battery pack structure according to claim 13, wherein the opening of the cover member has a grille shape.

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