KR20050057943A - Temperature control apparatus for display pannel - Google Patents

Abstract

The present invention relates to a display panel and in particular to a temperature control system of a display panel. Thus, the temperature control apparatus of the display panel according to the present invention includes a display panel, a heat sink for controlling temperature, a thermoelectric element disposed between the bottom surface of the display panel and the heat sink, and a side surface of the heat sink. It consists of an attached temperature sensor.

Description

Temperature control apparatus for display panel {Temperature control apparatus for display pannel}

The present invention relates to a display panel, and more particularly to a temperature control system of the display panel.

Recently, a display using an LCD panel has been spotlighted as a large screen display device. These LCDs depend on the operating temperature, optical performance and lifetime, such as response time, brightness and contrast ratio.

Conventionally, cooling was performed using only a heat sink and a fan to maintain an optimum temperature of the LCD. However, this has a problem in controlling the temperature of the LCD due to the complicated flow characteristics of the fan and various shapes of the heat sink.

In addition, when heat generated in the LCD is conducted to the heat sink, heat resistance is generated as the area is reduced and enlarged, which may cause uneven cooling of the heat generating surface.

When the temperature of the cooling by the fan during temperature control is lower than the proper temperature, heat is supplied through the heater.

In general, PID control is used for the optimum temperature control. However, the temperature change of heat sink and LCD heating surface is very severe, which can cause excessive on / off operation of fan and heater during operation of the controller. It may cause a shortened life.

1 and 2 are schematic diagrams of a temperature control system of a general display panel.

Referring to FIG. 1, a system in which a heat sink 2 is attached to an LCD bottom surface 1, and FIG. 2 is a temperature control system in which a heater and a temperature sensor are added to the existing method of FIG. 1. The heat sink 4 is attached to the heat sink 4, and a heater 5 for supplying heat during heating and cooling is provided on the heat sink 4, and a temperature sensor 6 for temperature measurement is provided on the side surface.

3 shows a cooling device of the temperature control system of FIGS. 1 and 2, in which a fan 7 and a fixture 8 are attached to the top of the hot sink 4 to cool the hot sink 4.

The fan 7 generally uses an axial fan.

4 is a view showing a cooling method using the fan of FIG.

When the air flowing into the fan 7 cools the upper surface of the heat sink 4, the heater is operated to adjust the optimum temperature set in the controller when the LCD is driven. When the cooling fan is driven above the optimum temperature, the operation of the heater is stopped.

FIG. 5 is a view illustrating temperature field distribution of heat sinks and panels among temperature control devices of a general display panel, and it can be seen that the temperature distribution of the heat sink top surface and the sea surface of the panel is very uneven. In addition, it can be said that the cooling efficiency is low because the temperature of the portion where the heater is attached is locally high.

As the temperature control of the existing LCD maintains the optimum temperature of the LCD by using the heat sink, the fan and the heater, the uneven cooling due to the complicated flow of the fan and the various shapes of the heat sink and the change of the LCD heating surface and heat sink area. There was a problem in making the LCD heating surface uniform temperature due to the reduction and expansion of the thermal resistance.

In addition, since the heater transfers heat to a large heating area that is narrow when heat is supplied to the heat sink, a temperature gradient exists even inside the heat sink, which causes difficulty in positioning the temperature sensor.

In addition, in order to realize the optimum temperature in the controller, the fan and the heater are alternately turned on / off, wherein the fan and the heater are turned on according to the high and high gradients generated by the heater of the existing temperature control system and uneven cooling by the fan. The on / off changes very frequently, which can cause not only the temperature uniformity of the LCD heating surface, but also the failure and life of the heater and fan.

Accordingly, an object of the present invention has been made in view of the above-mentioned problems of the prior art, using a thermo-electronic device (TEC) to control the temperature according to the amount of heat generated by the LCD panel temperature control system having a uniform cooling performance It is to provide.

       According to an aspect of the present invention for achieving the above object, a display panel, a heat sink for controlling the temperature, a thermoelectric element located between the bottom surface of the display panel and the heat sink, It comprises a temperature sensor attached to the sink side.

        Preferably, the thermoelectric element is divided into a cold side and a hot side, and the hot side of the thermoelectric element is attached to the heat sink.

Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

3 is a view showing a temperature control system of a display panel according to the present invention.

Referring to FIG. 3, a temperature control system of a display panel according to the present invention includes a display panel (LCD) 11, a hot sink 12 for controlling temperature, a bottom surface of the display panel 11, and a hot sink ( a thermoelectric element 13 positioned between the heatsinks 12 and a temperature sensor 14 attached to the side of the hot sink 12.

The thermoelectric element 14 is divided into a cold surface and a hot surface, and a temperature difference between two surfaces is determined according to a product.

In the initial display driving, the thermoelectric element 14 is heated, and when the optimum temperature is reached, the number of operations is gradually decreased.

If the optimum temperature is exceeded, the cooling fan is driven to adjust the temperature. When selecting an effective thermoelectric element, proceed as in the following formula-1.

[Equation 1]

△ T / △ T _MAX → Optimum Q / Q _MAX

According to Equation 1, when the optimum temperature of the display panel is set, the value of ΔT / ΔT _MAX can be obtained.

In addition, the optimum Q / Q _MAX value is obtained based on the heat generation amount of the display panel and the maximum heat removal value of the thermoelectric element.

The thermoelectric element is selected using the value. A heat sink is attached to the hot surface of the thermoelectric element to effectively remove heat transferred by the thermoelectric element.

FIG. 7 is a diagram illustrating the temperature field distribution of the heat sink and the panel of the temperature control device of the display panel according to the present invention. The temperature of the heat sink and the bottom surface of the panel may be very uniform.

As described above, the present invention can drive a display panel at an optimal operating temperature, and can increase cooling efficiency by using a cooling fan and a heat sink, and input current of a thermoelectric element (TEC) according to the amount of heat generated by the display panel. By controlling the effective cooling is effective according to the calorific value.

In addition, there is an effect that can minimize the thermal resistance caused by the reduction and expansion of the heating area due to the characteristics of the thermoelectric element.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the examples, but should be defined by the claims.

1 to 2 are schematic views of a temperature control system of a typical display panel

3 shows a cooling device of the temperature control system of FIGS. 1-2.

4 is a view showing a cooling method using the fan of FIG.

5 is a view showing a temperature control system of a display panel according to the present invention.

* Explanation of symbols for main parts of the drawings

11 display panel 12 heat sink

13: thermoelectric element 14: temperature sensor

Claims (3)

         A display panel;          A heat sink to control the temperature;          A thermoelectric element disposed between the bottom surface of the display panel and the heatsink;          And a temperature sensor attached to the side of the heat sink.  The method of claim 1,  Temperature control device of the display panel, characterized in that divided into the thermoelectric element (cold) and hot (hot) surface         The method of claim 2,         Temperature control device of the display panel, characterized in that the hot surface of the thermoelectric element is attached to the heat sink