KR20150034945A - Device for charge and discharge og secondary battery - Google Patents

Abstract

The present invention comprises: a tray on which multiple battery cells are loaded; an upper cover arranged above the tray; multiple first contact pins protruding downward from the inside of the upper cover to be in contact with the first terminal of the battery cells; blowers installed inside the upper cover to send air downward; slit-type air flow path bored on the lower surface of the upper cover; a lower cover arranged below the tray; and multiple second contact pins protruding upward from the inside of the lower cover to be in contact with the second terminal of the battery cells. According to the present invention, the amount of the air introduced into the tray by forming the multiple air flow paths formed based on the length or width of the upper cover on the lower surface of the upper cover. Thus, the cooling efficiency of the battery cells inside the tray can be increased.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a secondary battery-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a charging and discharging apparatus for a secondary battery, and more particularly, to a charging and discharging apparatus for a secondary battery, To increase the cooling efficiency of the battery cells in the tray.

2. Description of the Related Art Recently, with the development of technology and demand for mobile devices, demand for secondary batteries as energy sources is rapidly increasing.

The secondary battery may be used in the form of a single battery cell or in the form of a battery module in which a plurality of unit cells are electrically connected depending on the type of external device. For example, a small device such as a mobile phone can operate for a predetermined time with the output and capacity of one battery cell, while a medium or large device such as a notebook computer, a portable DVD, a mini PC, an electric vehicle, a hybrid electric vehicle, And the use of a battery module including a plurality of battery cells for the problem of capacity is required.

Meanwhile, the secondary battery is manufactured through a process of assembling the battery cell and a process of activating the battery. At this time, the battery activation process is usually performed by applying a necessary current to the battery cell to be charged / discharged by the charge-only device having the positive electrode and the negative electrode contact pin.

As shown in FIG. 1, a conventional secondary battery charger dedicated apparatus includes a tray unit, a mechanism upper end positioned above the tray unit, and a lower unit located below the tray unit.

The tray unit comprises a tray (10) and a plurality of battery cells (11) arranged and mounted on a tray (10).

The upper end of the mechanism includes an upper cover 20 having an accommodation space formed therein, an upper channel board 22 mounted inside the upper cover 20, And a cooling fan 23 for cooling the heat generated in the battery cell 11 during the activation process. The positive electrode contact pin 21 contacts the positive electrode terminal (not shown) of the battery cell 11.

The lower end of the mechanism is provided with a lower cover 30 in which a receiving space is formed, a lower channel board 32 and a lower channel board 32 mounted inside the lower cover 30, And a negative electrode contact pin 31 which is mounted and contacts the negative electrode terminal (not shown) of the battery cell 11. [

The upper end portion and the lower end portion of the mechanism are moved toward the tray portion by a driving portion (not shown) to connect the positive electrode terminal and the negative electrode terminal of the battery cell 11 to the positive electrode contact pin 21 and the negative electrode contact pin 31 And in this state, a predetermined current required for charging and discharging is supplied through the respective contact pins 21 and 31, whereby the battery capacity can be obtained.

When the battery cell 11 is charged and discharged as described above, heat is generated in the battery cell 11 by charging and discharging.

In order to cool the heat, the conventional charger-only apparatus blows air to the tray unit side by the cooling fan 23 built in the upper cover 20. [

The air blown by the cooling fan 23 passes through a plurality of air flow holes 24 formed in the lower surface of the upper cover 20 and flows into the tray portion, The heat of the battery cell 11 is cooled.

However, since the air for cooling the heat of the battery cell 11 flows into the tray portion only by the air flow holes 24 formed in the lower surface of the upper cover 20, Sufficient air for cooling the heat of the cell 11 can not be introduced, and the battery cell 11 is not cooled properly.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems and it is an object of the present invention to provide an air conditioner which has a plurality of air flow paths formed on a lower surface of an upper cover corresponding to a length or a width of an upper cover, Thereby increasing the cooling efficiency of the battery cells in the trays by increasing the amount of the secondary battery.

According to an aspect of the present invention, there is provided a battery pack comprising: a tray on which a plurality of battery cells are mounted; An upper cover provided on an upper portion of the tray; A plurality of first contact pins protruding downward from the inside of the upper cover and contacting the first terminals of the battery cells; A blower installed inside the upper cover to blow air to the lower portion; A slit-shaped air flow path punctured on a lower surface of the upper cover; A lower cover provided at a lower portion of the tray; And a plurality of second contact pins protruding upward from the inside of the lower cover and contacting the second terminal of the battery cell.

In addition, the air flow paths may be provided in plural and spaced from each other along the longitudinal direction or the width direction of the upper cover.

Here, the air flow path may be disposed between the angles of the first contact pins.

The air flow path may further include an extension extending toward the first contact pin side.

The air flow path may have a length corresponding to the length of the upper cover when the air flow path is formed along the longitudinal direction of the upper cover.

The air flow path may have a length corresponding to the width of the upper cover when the air flow path is formed along the width direction of the upper cover.

According to another aspect of the present invention, there is provided a battery pack comprising: a tray on which a plurality of battery cells are mounted; An upper cover provided at an upper portion of the tray, the lower cover having an opened lower portion; An air flow plate provided at an opened lower portion of the upper cover, the air flow plate being provided at a plurality of spaced apart portions to form an air flow path therebetween; A plurality of first contact pins formed to penetrate through the air flow plates from the inside of the upper cover and to contact the first terminals of the battery cells; A blower installed inside the upper cover to blow air to the lower portion; A lower cover provided at a lower portion of the tray; And a plurality of second contact pins protruding upward from the inside of the lower cover and contacting the second terminals of the battery cell.

Here, each of the air flow plates may be provided as a rectangular bar having a length corresponding to an opened lower portion of the upper cover.

The air flow plate may further include a plurality of trimming portions formed on both sides of the air flow plate such that a part of the air flow plate is removed from the first contact pin side.

In addition, charging and discharging for activating the secondary battery can be performed by using the secondary battery charging-only apparatus.

Thus, by forming a plurality of air flow paths on the lower surface of the upper cover corresponding to the length or width of the upper cover to increase the amount of air introduced into the tray, the cooling efficiency of the battery cells in the tray can be increased There is an effect that can be.

FIG. 1 is a view schematically showing a charging and discharging apparatus of a conventional secondary battery.
2 is a view showing a lower surface of an upper cover of a charging and discharging apparatus of a conventional secondary battery.
FIG. 3 is a schematic view of a charging and discharging apparatus for a secondary battery according to the first embodiment of the present invention.
FIG. 4 is a bottom view of the upper cover of the secondary battery according to the first embodiment of the present invention. FIG.
5 is an enlarged view of the area A in Fig.
FIG. 6 is a schematic view of a charging-only apparatus for a secondary battery according to a second embodiment of the present invention.
FIG. 7 is a bottom view of the upper cover of the secondary battery according to the second embodiment of the present invention. FIG.
8 is an enlarged view of the area B in Fig.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or preliminary meaning and the inventor shall properly define the concept of the term in order to describe its invention in the best possible way The present invention should be construed in accordance with the spirit and concept of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for charging a secondary battery according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

≪ Embodiment 1 >

As shown in FIGS. 3 and 4, the charging and discharging apparatus for a secondary battery according to the first embodiment of the present invention includes a tray 100 on which a plurality of battery cells 110 are mounted, A plurality of first contact pins 210 projecting downward from the inside of the upper cover 200 and contacting the first terminals of the battery cell 110, A slit-shaped air flow path 240 punctured on the lower surface of the upper cover 200, a lower cover 300 provided at the lower portion of the tray 100, And a plurality of second contact pins 310 protruding upward from the inside of the lower cover 300 and contacting a second terminal of the battery cell 110.

First, the tray 100 is a substantially rectangular box-shaped member having an opened upper part, and a plurality of battery cells 110 are arranged and arranged in a matrix shape inside. The height of the tray 100 corresponds to the height of the battery cell 110 so that the first terminal of the battery cell 110 is positioned at the uppermost end of the tray 100. A plurality of communication holes are formed in the lower surface of the tray 100 so as to correspond to the battery cells 110 so that the second terminals of the battery cells 110 can be connected to the outside of the tray 100.

The upper cover 200 is a substantially rectangular box-shaped member corresponding to the shape of the tray 100. The upper cover 200 has a receiving space formed therein, and the first contact pin 210, the upper channel board 220, The upper cover 200 is installed to be able to move up and down by a separate driving means (not shown) provided at an upper portion of the upper cover 200, and is raised and lowered from the upper portion of the tray 100.

The first contact pin 210 is formed as a bar having a predetermined diameter and protrudes from the lower end of the upper channel board 220 installed in the upper cover 200 to a lower portion of the upper cover 200. The plurality of first contact pins 210 may be formed to correspond to the battery cells 110 mounted on the tray 100 so that the first contacts 210 of the battery cell 110 may be connected to the first contact pins 210, .

Meanwhile, the blower 230 is a widely used propeller-type fan. The blower 230 is installed in the internal space of the upper cover 200, and is disposed on the upper side of the upper channel board 220, . As described above, the air blown downward flows into the interior of the tray 100 through the air flow path 240 punctured on the lower surface of the upper cover 200. (See arrows in Fig. 3)

The air flow path 240 is formed in a plurality of slit-shaped holes which are perforated on the lower surface of the upper cover 200, and are arranged to be spaced from each other along the longitudinal direction or the width direction of the upper cover 200. At this time, it is preferable that the air flow path 240 is formed between the angles of the first contact pins 210. The air flow path 240 is formed to have a length corresponding to the length of the upper cover 200 when the air flow path 240 is formed along the longitudinal direction of the upper cover 200, The upper cover 200 is formed to have a length corresponding to the width of the upper cover 200. That is, the air flow path 240 is formed as a slit extending from one side of the upper cover 200 to the vicinity of the side facing the one side of the upper cover 200.

The air flow path 240 formed as described above serves to introduce the air blown by the blower 230 into the inside of the tray 100. Conventionally, a plurality of air flow holes are formed on the lower surface of the upper cover, so that the air blown through the air flow holes flows into the tray. As a result, the sufficient amount of air to cool the heat of the battery cell can not be introduced into the tray, so that the battery cell can not be sufficiently cooled. As a result, the charging and discharging efficiency of the battery cell deteriorates. However, in the present invention, a plurality of slit-shaped air flow paths 240 having a length corresponding to the length or width of the upper cover 200 are formed on the lower surface of the upper cover 200, Sufficient air for cooling can be introduced into the tray 100, so that the cooling of the battery cell 110 is smoothly performed, and thus the charging / discharging efficiency of the battery cell 110 is increased.

5, the air flow path 240 is further formed with an extended portion 241 extending toward each of the first contact pins 210. As shown in FIG. The extension portion 241 partially expands the lower surface of the upper cover 200 toward the first contact pin 210 to expand the air flow path 240. As described above, when the extension portion 241 is formed in the air flow path 240, more air can be blown toward the battery cell 110 located under the first contact pin 210, The cooling efficiency of the heat exchanger can be further increased.

The lower cover 300 is a substantially square box-like member corresponding to the shape of the tray 100. The lower cover 300 has a receiving space formed therein and the second contact pin 310 and the lower channel board 320 are inserted into the receiving space. And the like. The lower cover 300 is installed so as to be able to move up and down by a separate driving means (not shown) provided at the lower portion and is raised and lowered from the lower portion of the tray 100.

The second contact pin 310 is formed as a bar having a predetermined diameter and protrudes from the upper end of the lower channel board 320 installed in the lower cover 300 to the upper portion of the lower cover 300. The plurality of second contact pins 310 are formed to correspond to the battery cells 110 mounted on the tray 100 so that the lower ends of the lower contacts 300 are lifted to the second terminals of the battery cells 110, .

The first contact pin 210 and the second contact pin 310 contact the first and second terminals of the battery cell 110 as the upper cover 200 and the lower cover 300 are lifted and lowered, The battery cell 110 is charged and discharged. At this time, in the case of the first embodiment of the present invention, a plurality of air flow paths 240 having a length corresponding to the length or width of the upper cover 200 are formed on the lower surface of the upper cover 200, Sufficient air for cooling the battery cell 110 can be introduced into the battery cell 100, so that the charging and discharging efficiency of the battery cell 110 can be increased.

≪ Embodiment 2 >

Before describing the second embodiment of the present invention, the same reference numerals as those of the first embodiment denote the same components as those of the first embodiment, and a detailed description thereof will be omitted.

6 and 7, a second embodiment of a secondary battery according to the present invention includes a tray 100 on which a plurality of battery cells 110 are mounted, An air flow plate 250 provided at a lower portion of the upper portion of the upper cover 200 and provided with a plurality of spaced apart air flow paths 240 to form an air flow path 240 therebetween, A plurality of first contact pins 210 formed to penetrate each air flow plate 250 from the inside of the cover 200 to contact the first terminal of the battery cell 110, A lower cover 300 provided at a lower portion of the tray 100 and a second cover 300 formed to protrude upward from the inside of the lower cover 300. The blower 230 blows air to the lower portion of the tray 100, And a plurality of second contact pins 310 which are in contact with the second contact pins 310.

The tray 100, the battery cell 110, the lower cover 300, the lower channel board 310 and the second contact pin 320 are the same components as those of the first embodiment, Only the upper cover 200 which is a main feature of the second embodiment of the present invention will be described in detail.

The upper cover 200 is a substantially rectangular box-shaped member corresponding to the shape of the tray 100, and has a receiving space formed therein and a lower portion opened. Here, the first contact pin 210, the upper channel board 220, the blower 230, and the like are mounted in the accommodation space. The upper cover 200 can be raised and lowered by a separate driving means (not shown) provided at an upper portion of the upper cover 200,

The air flow plate 250 is provided with a rectangular bar having a length corresponding to the opened lower portion of the upper cover 200. The plurality of air flow plates 250 are provided at the lower portion of the upper cover 200 and are spaced apart from each other to form an air flow path 240 therebetween.

The first contact pin 210 is formed as a bar having a predetermined diameter and protrudes from the lower end of the upper channel board 220 installed in the upper cover 200 to a lower portion of the air flow plate 250. The plurality of first contact pins 210 may be formed to correspond to the battery cells 110 mounted on the tray 100 so that the first contacts 210 of the battery cell 110 may be connected to the first contact pins 210, .

Meanwhile, the blower 230 is a widely used propeller-type fan. The blower 230 is installed in the internal space of the upper cover 200, and is disposed on the upper side of the upper channel board 220, . The air blown down to the lower side flows into the tray 100 through the air flow path 240 formed by the air flow plate 250 on the lower surface of the upper cover 200 as described above. (See arrows in Fig. 6)

The air flow path 240 formed as described above serves to introduce the air blown by the blower 230 into the inside of the tray 100. Conventionally, a plurality of air flow holes are formed on the lower surface of the upper cover, so that the air blown through the air flow holes flows into the tray. As a result, the sufficient amount of air to cool the heat of the battery cell can not be introduced into the tray, so that the battery cell can not be sufficiently cooled. As a result, the charging and discharging efficiency of the battery cell deteriorates. However, in the present invention, a plurality of air flow paths 240 having a length corresponding to the length or width of the upper cover 200 are formed on the lower surface of the upper cover 200, Sufficient air can be introduced into the tray 100, so that the cooling of the battery cell 110 is smoothly performed, and thus the charging / discharging efficiency of the battery cell 110 is increased.

8, the air flow plate 250 is further formed with a trimming portion 251 through which a part of the air flow plate 250 is removed to the first contact pins 210 side. The trimming portion 251 partially expands the air flow plate 250 toward the first contact pin 210 to expand the air flow path 240. As the air flow path 240 is extended by the trimming portion 251 as described above, more air can be blown toward the battery cell 110 located below the first contact pin 210, 110) is further increased.

The first contact pin 210 and the second contact pin 310 contact the first and second terminals of the battery cell 110 as the upper cover 200 and the lower cover 300 are lifted and lowered, The battery cell 110 is charged and discharged. In the second embodiment of the present invention, the air flow path 240 corresponding to the length of the upper cover 200 is formed by the plurality of air flow plates 250 installed at the lower opened portion of the upper cover 200 Sufficient air for cooling the battery cell 110 can be introduced into the tray 100, so that the charge / discharge efficiency of the battery cell 110 can be increased.

In addition, as described above, the secondary battery is activated by charging / discharging the secondary battery by the charging / discharging device of the secondary battery.

As described above, the preferred embodiment of the charging and discharging apparatus for the secondary battery according to the present invention has been described.

The foregoing embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing detailed description. It is intended that all changes and modifications that come within the meaning and range of equivalency of the claims, as well as all equivalents thereof, be within the scope of the present invention.

10: Tray 11: Battery cell
20: upper cover 21: anode contact pin
22: upper channel board 23: cooling fan
24: Air flow hole 30: Lower cover
31: cathode contact pin 32: bottom channel board
100: Tray 110: Battery cell
200: upper cover 210: first contact pin
220: Upper channel board 230: Blower
240: air flow path 241: extension part
250: air flow plate 251:
300: lower cover 310: second contact pin
320: lower channel board

Claims (10)

A tray on which a plurality of battery cells are mounted;
An upper cover provided on an upper portion of the tray;
A plurality of first contact pins protruding downward from the inside of the upper cover and contacting the first terminals of the battery cells;
A blower installed inside the upper cover to blow air to the lower portion;
A slit-shaped air flow path punctured on a lower surface of the upper cover;
A lower cover provided at a lower portion of the tray; And
And a plurality of second contact pins protruded upward from the inside of the lower cover to contact the second terminals of the battery cells.
The method according to claim 1,
Wherein the plurality of air flow paths are provided so as to be spaced apart from one another along a longitudinal direction or a width direction of the upper cover.
3. The method of claim 2,
Wherein the air flow path is disposed between the respective angles of the first contact pins.
The method of claim 3,
Wherein the air flow path is further formed with an extension extending toward the first contact pin side.
3. The method of claim 2,
Wherein the air flow path is formed to have a length corresponding to the length of the upper cover when the air flow path is formed along the length direction of the upper cover.
3. The method of claim 2,
Wherein the air flow path is formed to have a length corresponding to a width of the upper cover when formed along the width direction of the upper cover.
A tray on which a plurality of battery cells are mounted;
An upper cover provided at an upper portion of the tray, the lower cover having an opened lower portion;
An air flow plate provided at an opened lower portion of the upper cover, the air flow plate being provided at a plurality of spaced apart portions to form an air flow path therebetween;
A plurality of first contact pins formed to penetrate through the air flow plates from the inside of the upper cover and to contact the first terminals of the battery cells;
A blower installed inside the upper cover to blow air to the lower portion;
A lower cover provided at a lower portion of the tray; And
And a plurality of second contact pins protruded upward from the inside of the lower cover to contact the second terminals of the battery cells.
8. The method of claim 7,
Wherein each of the air flow plates is provided in a rectangular bar having a length corresponding to an opened lower portion of the upper cover.
8. The method of claim 7,
And a plurality of trimming portions formed on both sides of each of the air flow plates such that a part of the air flow plate is removed from the side of each first contact pin.
A method for activating a secondary battery, comprising charging and discharging for activating a secondary battery using the apparatus for charging the secondary battery according to any one of claims 1 to 9.

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