KR20160047152A - Battery Pack of Air Cooling Structure Employed with the Same - Google Patents

Abstract

The present invention relates to a battery pack with an air-cooling structure and a wireless device comprising the same and, more specifically, relates to a wireless device comprising: a device main body operated wirelessly; and a battery pack to supply power to the device main body. The battery pack stores a battery module constituting a plurality of battery cells, and comprises a pack case formed with a first cooling medium inflow hole and a first cooling medium discharging hole to introduce and discharge a cooling medium. The device main body comprises: a cooling fan for air flow; and a second cooling medium inflow hole and a second cooling medium discharging hole communicated with the first cooling medium inflow hole and the first cooling medium discharging hole of the pack case. Provided is the wireless pack with an air-cooling structure, which effectively controls a temperature of the battery pack.

Description

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

The present invention relates to a battery pack having an air-cooled structure and a wireless device including the battery pack.

BACKGROUND ART [0002] In recent years, rechargeable secondary batteries have been widely used as energy sources for wireless mobile devices. Therefore, the types of applications using secondary batteries are diversifying due to the advantages of secondary batteries, and it is expected that secondary batteries will be applied to many fields and products in the future.

One of the biggest advantages of notebook computers is that they are easier to carry than conventional desktop PCs, and one of the biggest roles in making them portable is battery packs that are energy sources for notebook computers. The safety of the battery pack must first be verified first, and the ignition and explosion of the cell is one of the biggest risk factors for using a notebook computer.

1 is a schematic view of a battery pack for a conventional notebook computer.

1, a battery module in which a plurality of cells 20 and 21 are connected in series and in parallel is mounted in a pack case 40. Each battery 20 and 21 contained in the pack case 40 is connected to a protection circuit module (not shown) through a positive lead wire and a negative lead wire connected to the metal plate 30 and an FPCB.

As described above, the conventional battery pack has a structure in which heat is concealed, and the more the amount of charge and discharge is, the more heat is accumulated to reach the dangerous area. In the conventional battery pack, the protection circuit operates when the temperature reaches a dangerous area due to the temperature rise, and the circuit is shut off to prevent further charging and discharging. However, the capacity remains, but the battery pack can no longer be used, which causes inconvenience and anxiety to the user do.

On the other hand, in a middle- or large-sized battery module used as a power source for a hybrid automobile or the like, a technique of circulating air by installing a cooling fan is disclosed. However, when the cooling method of the middle- or large- The size of the battery pack can not be directly utilized in a battery pack for a notebook computer.

In addition, the structure of mounting the cooling fan in the battery pack requires additional components and has a problem that the manufacturing cost is increased due to the complexity of the design.

Therefore, there is an urgent need to develop a cooling technology that can be effectively applied to a battery pack for a notebook computer.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art and the technical problems required from the past.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air-cooled type air conditioner which can effectively control the temperature of a battery pack by circulating air to a notebook computer and a battery pack by operating a cooling fan of the notebook when a battery pack for a notebook computer is overheated, A battery pack having a structure as shown in FIG.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, an air-

1. A wireless device comprising a device body that operates wirelessly and a battery pack that supplies power to the device body,

The battery pack includes a battery pack having a battery module formed of a plurality of battery cells and a pack case having a first coolant inlet port and a first coolant outlet port for the inflow and outflow of coolant,

The device body includes a cooling fan for air flow and a second refrigerant outlet and a second refrigerant inlet communicating with the first refrigerant inlet and the first refrigerant outlet of the pack case, respectively.

That is, the wireless device including the battery pack of the air-cooled structure according to the present invention senses an abnormally raised internal temperature of the battery pack for a notebook computer and performs air circulation through the cooling fan installed in the notebook computer to measure the battery pack temperature So that the stability of the portable computer can be improved by blocking the risk of explosion.

In one specific example, the refrigerant may be air, and the device body may be a notebook computer body.

In some cases, the pack case may be provided with a power connector connected to the device body on a surface coupled to the device body.

In one specific example, the first refrigerant inlet of the battery pack may be in communication with the second refrigerant outlet of the device body, and the first refrigerant outlet of the battery pack may be in communication with the second refrigerant inlet of the device body .

In this structure, the refrigerant is introduced into the battery pack through the first refrigerant inlet port from the second refrigerant outlet port by the driving force of the cooling fan of the device body to cool the battery module, And can be introduced into the device body through the refrigerant inlet port.

In some cases, the device body may further include a third refrigerant outlet for discharging the introduced refrigerant to the outside.

In one specific example, the pack case may have a structure in which a first refrigerant inlet port and a first refrigerant outlet port are formed on both end sides of a surface coupled to the device body.

The first refrigerant inlet port and the first refrigerant outlet port of the pack case may be connected to the second refrigerant outlet port and the second refrigerant inlet port of the device body.

In addition, the ends of the first refrigerant inlet port and the first refrigerant outlet port of the pack case may have a protruding structure and may be inserted into the second refrigerant outlet port and the second refrigerant inlet port of the device body.

In a specific example, the second refrigerant outlet port and the second refrigerant inlet port of the device body may have a protruding structure and may be inserted into the first refrigerant inlet port and the first refrigerant outlet port of the pack case.

In another specific example, the first and second refrigerant inlets and the first refrigerant outlets of the pack case may be coupled to the second and third refrigerant outlets of the device body, and the battery pack may be mounted to the device body.

The first coolant outlet of the pack case may be provided with a filter for removing foreign substances.

In one specific example, the cooling fan may be installed at a lower portion of the device body to suck external air from the lower portion to cool the device body, and then blow the air to the first refrigerant inlet of the pack case through the second refrigerant outlet .

The device body may further include a sensor unit for detecting the temperature of the battery pack, and a controller for controlling the operation of transferring the refrigerant to the battery pack when the temperature detected by the sensor unit exceeds a reference temperature.

The battery cell may be a lithium secondary battery, but is not limited thereto.

As described above, the battery pack of the air-cooled structure and the wireless device including the battery pack according to the present invention detect the internal temperature of the battery pack for the notebook computer and perform air circulation through the cooling fan mounted on the notebook computer, Thereby reducing the temperature and preventing the risk of explosion, thereby contributing to improvement of the stability of the notebook computer.

1 is a schematic view of a battery pack for a conventional notebook computer;
2 is a schematic diagram of a battery pack of an air-cooled structure according to one embodiment of the present invention;
3 is a schematic view of a battery pack and a notebook computer main body of an air cooling type structure according to an embodiment of the present invention;
FIG. 4 is a schematic view of the notebook computer according to one embodiment of the present invention shown in FIG.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings, but the present invention is not limited by the scope of the present invention.

2 to 4 are schematic views of a battery pack and a notebook computer main body of an air-cooled structure according to an embodiment of the present invention.

Referring to FIGS. 2 to 4 together, the wireless device 100 includes a battery pack 110 and a device body 150.

The battery pack 110 includes a pack case 111 having a first coolant inlet 121 and a first coolant outlet 122 for introducing and discharging refrigerant.

A power supply connector 127 connected to the device body 150 is provided on one side 120 of the pack case 111. The power supply connector 127 is connected to both ends of one side 120 of the pack case 111, A first refrigerant inlet port 121 and a first refrigerant outlet port 122 are formed.

The first refrigerant outlet 122 of the pack case 111 is provided with a filter 125 for removing foreign substances.

The device body 150 is provided with a cooling fan 190 for flowing air and a second refrigerant outlet 161 communicating with the first refrigerant inlet 121 and the first refrigerant outlet 122 of the pack case 111, A second refrigerant inlet port 162 is formed.

The ends of the second refrigerant outlet 161 and the second refrigerant inlet 162 of the device body 150 protrude from the opposing face 160 of the device body 150 corresponding to one face 120 of the pack case 111 And a power supply connector 167 electrically connected to the pack case 111 is formed in the device main body 150. [

A third refrigerant outlet 163 for discharging the refrigerant to the outside is formed on the side surface of the device body 150.

The first coolant inlet port 121 of the battery pack 110 is in communication with the second coolant outlet port 161 of the device main body 150. Similarly, (162) of the second refrigerant inlet (150).

The battery pack 110 has a first refrigerant inlet port 121 and a first refrigerant outlet port 122 of the pack case 111 connected to the second refrigerant outlet port 161 and the second refrigerant inlet port 162 of the device body 150 And is mounted on the device body 150 while being coupled.

The cooling fan 190 is installed in the lower portion of the device body 150 and the refrigerant flows from the second refrigerant outlet 161 in the direction A to the first refrigerant inlet 121 by the driving force of the cooling fan 190 (Not shown) inside the battery pack 110 and then discharged in the direction toward the first refrigerant outlet 122 (in the direction of C) so as to flow into the battery pack 110 2 refrigerant inlet port 162 to the device body 150 (in the direction D) and discharged to the outside through the third refrigerant outlet port 163.

Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

Claims (17)

1. A wireless device comprising a device body that operates wirelessly and a battery pack that supplies power to the device body,
The battery pack includes a battery pack having a battery module formed of a plurality of battery cells and a pack case having a first coolant inlet port and a first coolant outlet port for introducing and discharging coolant,
Wherein the device body includes a cooling fan for air flow and a second refrigerant outlet port and a second refrigerant inlet port communicating with the first refrigerant inlet port and the first refrigerant outlet port of the pack case, . The wireless device of claim 1, wherein the refrigerant is air. The wireless device of claim 1, wherein the device body is a notebook computer. 2. The wireless device according to claim 1, wherein the pack case is provided with a power connector connected to the device body on a surface coupled to the device body. The battery pack according to claim 1, wherein the first refrigerant inlet port of the battery pack communicates with the second refrigerant outlet port of the device body, and the first refrigerant outlet port of the battery pack communicates with the second refrigerant inlet port of the device body Wireless device. The refrigerator according to claim 5, wherein the refrigerant is introduced into the battery pack from the second refrigerant outlet through the first refrigerant inlet port by the driving force of the cooling fan of the device body to cool the battery module, Is introduced into the device body through the second refrigerant inlet. The wireless device according to claim 6, wherein the device body further comprises a third refrigerant outlet for discharging the introduced refrigerant to the outside. The wireless device according to claim 1, wherein a first refrigerant inlet port and a first refrigerant outlet port are formed on both sides of a surface of the pack case, which is coupled with the device body, respectively. The wireless device according to claim 1, wherein the first refrigerant inlet port and the first refrigerant outlet port of the pack case are connected to the second refrigerant outlet port and the second refrigerant inlet port of the device body. 10. The refrigerator according to claim 9, wherein the first refrigerant inlet port and the first refrigerant outlet port of the pack case have a protruding structure and are inserted into the second refrigerant outlet port and the second refrigerant inlet port of the device body, device. 10. The refrigerator according to claim 9, wherein the second refrigerant outlet port and the second refrigerant inlet port of the device body have a protruding structure and are inserted into the first refrigerant inlet port and the first refrigerant outlet port of the pack case, device. The battery pack according to claim 9, wherein the battery pack is mounted to the device body while the first refrigerant inlet and the first refrigerant outlet of the pack case are coupled to the second refrigerant outlet and the second refrigerant inlet of the device body, . The wireless device according to claim 1, wherein a filter for removing foreign matter is provided in the first refrigerant outlet of the pack case. The refrigerator according to claim 1, wherein the cooling fan is installed at a lower portion of the device body to suck outside air from the lower portion to cool the device body, and then blows air to the first refrigerant inlet port of the pack case through the second refrigerant outlet port Wireless device. The wireless device according to claim 1, wherein the device body further comprises a sensor unit for detecting the temperature of the battery pack. 16. The wireless device according to claim 15, wherein the device body further comprises a control unit for controlling the operation of transferring the refrigerant to the battery pack when the temperature detected by the sensor unit exceeds the reference temperature. The wireless device of claim 1, wherein the battery cell is a lithium secondary battery.

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