KR20070063064A - Cellular phone containing peltier element for temperature control of battery pack - Google Patents

Abstract

Provided is a cellular phone, which effectively inhibits a temperature increase in a battery pack upon the normal or abnormal operation of a battery pack without affecting external appearance of a battery pack and is effective in controlling battery temperature within a normal operation range. A cellular phone(200) fitted with a secondary battery pack(300) has a peltier element(330) installed in contact with at least one surface of a battery cell contained in the battery pack(300). A control part controls the operation of the peltier element(330) to regulate the temperature of the battery pack(300) in a predetermined temperature range on the basis of the temperature detected from the battery pack(300).

Description

Cell phone containing Peltier element for temperature control of battery pack {Cellular Phone Containing Peltier Element for Temperature Control of Battery Pack}

1 is a perspective view of a mobile phone equipped with an external battery pack;

2 and 3 are side views of a mobile phone according to some embodiments of the present invention;

4 and 5 are enlarged views of the portion A of FIG. 2.

The present invention relates to a mobile phone including a Peltier element for controlling the temperature of the battery pack, and more particularly, a mobile phone equipped with a secondary battery pack, in contact with at least one surface of a battery cell built in the battery pack. A Peltier element is provided, and a control unit controls the operation of the Peltier element based on the detected temperature from the battery pack and relates to a mobile phone configured to adjust the temperature of the battery pack to a predetermined temperature range.

Recently, the development of wireless communication technology is increasing the demand of mobile devices, among which the mobile phone is one of the most remarkable development. One of the biggest roles in enabling the development of such a mobile phone can be said to be a charge and discharge battery pack that is the energy source of the mobile phone.

When using a battery pack, first of all, safety must be verified first of all, and in particular, a safety device according to the temperature rise must be provided.

In general, an external battery pack as shown in FIG. 1 is used in a mobile phone. The external battery pack 20 is mounted on one surface of the mobile phone main body 30 to form an outer circumferential surface of the mobile phone 10. The battery pack 20 includes a battery cell (not shown) capable of charging and discharging in a state built in the pack case, and various safety devices are also mounted. Therefore, when the battery cell is overheated by abnormal operation such as overcharge or overdischarge, the current is blocked to prevent further temperature rise. However, even when the battery cell is not abnormally operated, heat is generated even when continuously operated at a predetermined current or higher, and a device for lowering the temperature of the battery cell once overheated is not included in the battery pack 20. When the temperature of the battery pack rises to a predetermined temperature or more, the deterioration of the battery elements constituting the battery cell is accelerated, and the lifespan is greatly reduced, and an extreme situation such as fire or explosion may be caused by overheating of the battery pack.

In addition, when using a mobile phone in a situation where the external temperature is very low, such as winter, the temperature of the battery pack is also low, it may be difficult to properly operate the battery.

In this regard, the present invention to prevent the rise of the temperature of the battery pack using a Peltier element that generates a temperature difference between both sides when the current is applied as described in detail later to allow the battery to operate in the appropriate temperature range Technology.

As an example of using a Peltier element in a mobile device, Japanese Patent Application Laid-Open No. 2004-304900 discloses a high temperature side contact with a large amount of heat generation, such as a transmission power amplifier, and a low temperature side contact with low temperature fluctuations in order to increase energy efficiency of the mobile device. A technique for charging a secondary battery by providing a thermoelectric change element such as a Peltier element and amplifying the voltage generated at the element at the temperature rise at the high temperature side contact is disclosed.

However, although the above technique improves energy efficiency by operating a charging circuit of a battery by using a temperature difference of components generated during operation of a mobile device, it does not effectively control overheating or low temperature conditions of a secondary battery. can not do it.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above and the technical problems that have been requested from the past.

The inventors have conducted extensive research and various experiments, and when the Peltier element is mounted on one surface of the battery pack, the battery pack may be generated during abnormal operation or normal operation of the battery pack without affecting the appearance of the battery pack. It was confirmed that the advantages of effectively suppressing the temperature rise of the battery pack and controlling the temperature in the ideal operating range of the battery, based on this, to complete the present invention.

A mobile phone according to the present invention for achieving the above object is a mobile phone equipped with a secondary battery pack, the Peltier element is installed in contact with at least one surface of the battery cell built in the battery pack, and the detected temperature from the battery pack The controller is configured to control the operation of the Peltier element based on the temperature of the battery pack to a predetermined temperature range.

Therefore, when the battery cell mounted inside the battery pack is overheated due to various causes, the Peltier element absorbs heat through one side of the battery cell in contact with the battery cell by the operation of the control unit and radiates heat from the other side, thereby causing the temperature of the battery pack to be Lowers to a safe temperature range. On the other hand, when the external temperature is low, such as in winter, when the battery pack is also lower than the appropriate operating temperature range, it is possible to increase the temperature of the battery pack by causing the heat generated in contact with the battery cell.

Temperature control of such a Peltier device can be easily achieved by reversing the direction of the current in the controller.

The control unit for the operation of the Peltier element may be separate, but preferably, by including the control circuit for the operation of the Peltier element in the protection circuit module (PCM) of the battery pack, it is possible to suppress the overall increase in size.

In some cases, a temperature sensor is further provided on the opposite side of the surface of the battery cell in contact with the Peltier element, and the controller may control the operation of the Peltier element according to the temperature of the battery pack detected by the temperature sensor.

In addition, the Peltier device may be installed on the outer surface of the battery cell between the battery pack and the mobile phone body based on the mobile phone main body, or one surface of the Peltier device may contact the outer surface of the battery cell and the other surface may be installed toward the outer surface of the mobile phone case. Among them, in order to minimize the influence of the mobile phone main body due to heat generated from one surface of the Peltier element, it is preferable that the latter is installed on the outer surface of the battery cell based on the installation position, that is, the mobile phone main body.

In one preferred example, the Peltier device may have a structure in which a material exhibiting high thermal conductivity is coated on one surface of the battery cell and the other surface of the cell phone case. That is, the Peltier device is coated with an electrically insulating high thermal conductive material on both surfaces thereof, thereby effectively blocking heat and increasing heat conductivity while effectively radiating heat.

When the Peltier element is installed on the outer surface of the battery cell based on the mobile phone body, the opposite surface of the surface contacting the battery cell can be effectively radiated or absorbed, for example, by using only an electrically insulating coating layer made of a high thermal conductive material. A structure that forms an outer surface of the battery pack, a structure surrounded by a thin battery pack case only, a structure in which a plurality of through holes are formed in the battery pack case, and the like.

In relation to the first structure, since the electrically insulating coating layer is applied on the opposite surface of the Peltier device and the coating layer directly forms the outer surface of the mobile phone, it is possible to manufacture a thin mobile phone while preventing electric shock and short-circuit of the user. And effective heat dissipation can be achieved.

With respect to the second structure, the opposing face of the Peltier element is enclosed by a thin battery pack case and the pack case directly forms the outer surface of the mobile phone, which is a thin pack case because the Peltier element imparts high mechanical rigidity by itself. Even if it provides a certain strength, due to the thin thickness it shows a relatively high thermal conductivity.

With respect to the third structure, the opposing surface of the Peltier element is wrapped in a relatively thick pack case compared to the second structure, but exhibits high thermal conductivity due to the large number of through holes formed in the pack case.

As such, various structures may be possible with respect to the mounting of the Peltier device, which should be construed as being within the scope of the present invention.

The predetermined temperature range may be determined by various factors such as the configuration of the battery cell, and may preferably be in the range of 5 to 30 degrees, more preferably 10 to 25 degrees.

Since the configuration of the mobile phone and the configuration of the battery pack are known in the art, a detailed description thereof will be omitted herein.

For example, a lithium secondary battery has recently been used as a battery cell for a mobile phone. In general, a lithium secondary battery is wound or laminated with a positive electrode plate coated on both sides of a positive electrode active material of a lithium transition metal oxide and a negative electrode plate coated on both sides of a negative electrode active material of carbon, silicon, and / or zinc materials with a separator interposed therebetween. To form a battery cell by sealing the electrode assembly in a pouch-shaped case of a metal can or an aluminum laminate sheet in a state in which the lithium electrolyte is impregnated to form a battery cell. The battery pack is manufactured by incorporating in the.

These battery packs are classified into an internal type or an external type according to the shape of the pack case, all of which can be used in the mobile phone configuration of the present invention.

Hereinafter, although described with reference to the drawings according to an embodiment of the present invention, this is for easier understanding of the present invention, the scope of the present invention is not limited thereto.

2 and 3 show side views of a mobile phone according to some embodiments of the present invention as a partial perspective view.

First, referring to FIG. 2, the mobile phone 100 has a structure in which the cell phone body 200 and the battery pack 300 are mounted on one surface thereof.

The battery pack 300 has a battery cell 320 built in the pack case 310, the Peltier element 330 is installed on the outer surface of the battery cell 320, and the The printed circuit board 340 of the protection circuit module PCM is positioned at one end. In addition, a temperature sensor 350 is attached to an opposite surface of the battery cell 320, that is, one surface of the mobile phone main body 200.

The Peltier element 330 and the temperature sensor 350 are electrically connected to the PCM 340, respectively, and are based on the temperature of the battery pack 300 or the battery cell 320 detected by the temperature sensor 350. Operation of the Peltier element 330 is controlled by 340.

For example, when the temperature of the battery cell 320 rises above a predetermined range due to various causes, the PCM 340 is in contact with the battery cell 320 based on the value detected by the temperature sensor 350. The Peltier element 330 is operated to endotherm at.

Peltier element 330 may be located on the outer surface of the battery cell 320 between the mobile phone main body 200 and the battery pack 300, as shown in Figure 3, in this case the temperature sensor 350 of the battery cell 320 It may be attached to the opposite surface, or as shown in the figure may be attached to the same surface of the battery cell 320 is located Peltier element 330.

4 and 5 show enlarged views of part A of FIG. 2.

First, referring to FIG. 4, the Peltier element 330 is in contact with the battery cell 320 on one side thereof and the pack case 310 on the other side (opposed face). Since the Peltier element 330 has a structure in which two kinds of metal plates are joined, the Peltier element 330 has a predetermined mechanical rigidity as such. Therefore, the battery pack can be configured even by the thin pack case 310, and exhibits high thermal conductivity.

Next, referring to FIG. 5, the pack case 310 has a relatively thicker thickness than that of FIG. 4, and a plurality of through holes 312 are formed. Thus, when heat generation or endotherm occurs at its outer surface by the operation of the Peltier element 330, the through holes 312 can act as a flow path to the outside air to achieve effective heat transfer.

Although described above with reference to the drawings according to an embodiment of the present invention, those of ordinary skill in the art will be able to perform various applications and modifications within the scope of the present invention based on the above contents.

As described above, the mobile phone according to the present invention effectively suppresses the temperature rise of the battery pack during abnormal operation or normal operation without affecting the appearance such as the thickness of the battery pack and the temperature to the normal operating range of the battery It is effective to control.

Claims (10)

A mobile phone equipped with a secondary battery pack, wherein the Peltier element is installed in contact with at least one surface of the battery cell embedded in the battery pack, and the controller controls the operation of the Peltier element based on the detected temperature from the battery pack. The mobile phone which consists of adjusting the temperature of a battery pack to a predetermined temperature range. The battery pack of claim 1, wherein when the battery cell mounted inside the battery pack is overheated, the Peltier element absorbs heat through one surface in contact with the battery cell by the operation of the control unit and radiates heat from the other surface of the battery pack. When the temperature is lowered to a safe temperature range, and lowered below the appropriate operating temperature range, the mobile phone characterized in that it operates to generate heat in contact with the battery cell. The mobile phone according to claim 1, wherein a control circuit for operating the Peltier element is included in a protection circuit module (PCM) of the battery pack. According to claim 1, wherein the temperature sensor is installed on the opposite side of the surface of the battery cell in contact with the Peltier element, characterized in that the controller controls the operation of the Peltier element in accordance with the temperature of the battery pack detected from the temperature sensor Phone. The mobile phone according to claim 1, wherein the Peltier device is installed on an outer surface of the battery cell between the battery pack and the mobile phone body based on the mobile phone body. The mobile phone according to claim 1, wherein one surface of the Peltier element is in contact with an outer surface of the battery cell and the other surface thereof is provided toward an outer surface of the mobile phone case. The mobile phone according to claim 1, wherein the Peltier device is coated with a material exhibiting high thermal conductivity while having electrical insulation on one surface of the Peltier element and the other surface thereof. The mobile phone according to claim 6, wherein an opposite surface of the surface contacting the battery cell is configured to form an outer surface of the mobile phone using only an electrically insulating coating layer of a high thermal conductive material. The mobile phone according to claim 6, wherein the opposing surface of the surface contacting the battery cell has a structure surrounded by only a thin battery pack case. The mobile phone according to claim 6, wherein the opposite surface of the surface contacting the battery cell has a structure in which a plurality of through holes are formed in the battery pack case.

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