KR970006514Y1 - Cooling device using peltier effect - Google Patents

Abstract

none

Description

Cooling device using Peltier element

1 is a view showing the configuration of a cooling apparatus of a conventional liquid crystal project

2 is a view for explaining the Peltier effect

3 is a view showing the configuration of a cooling device of the liquid crystal projector according to the present invention

4 is a view showing the configuration of another cooling device of the liquid crystal projector according to the present invention

Explanation of symbols on the main parts of the drawings

10 cooling fan 20 liquid crystal projector

21: projection lens 30: Peltier operating part

The present invention relates to a cooling device, and more particularly to a cooling device using a Peltier element using the Peltier effect, the conventional cooling device is, for example, a liquid crystal projector mainly used for meeting or movie watching, etc. As shown in FIG. 1, the liquid crystal projector 20 and the cooling unit 10 which sucks and supplies external air to the liquid crystal projector 20 are provided.

The cooling unit 10 sucks and discharges external air by the cooling fan 11. That is, the liquid crystal projector 10 has a high temperature generated by a projection lamp (not shown), and thus the internal temperature of the liquid crystal panel (not shown) rises higher. A forced air-cooling method is used to suck the liquid and to cool the liquid crystal panel. In some cases, an exhaust fan for discharging the warm air inside the liquid crystal projector to the outside may be installed. However, in the case of the cooling system having such a configuration, in order to maintain the inside temperature of the liquid crystal projector at an appropriate level, more external air must be sucked in order to increase the cooling capacity. There is a problem in that the noise due to the fan is increased as the speed is increased. In particular, in the case of a liquid crystal projector used for indoor use, the fan noise is more problematic. Accordingly, the present invention is to solve the problems of the prior art, and to provide a cooling device using a Peltier element that can reduce the noise of the cooling fan by using the Peltier effect. Another object of the present invention is to provide a cooling device using a Peltier element that can remove the cooling noise because the cooling area is cooled by heat conduction using a Peltier effect and does not use a cooling fan. The object of the present invention is to produce a Peltier effect and a cooling device having a Peltier operating unit for cooling the outside air to cooler than room temperature by using a Peltier effect and a cooling unit having a cooling fan inlet and discharge the outside air according to the present invention A cooling device having a Peltier operating unit is achieved by providing a cooling device in which the Peltier cooling element is brought into contact with the lower portion to cool and is cooled by heat conduction.

Hereinafter, the present invention will be described in detail based on the embodiment shown in the accompanying drawings. 3 shows a configuration in which the cooling device of the present invention is used for a liquid crystal projector, and includes a cooling unit 10 having a liquid crystal projector 20 and a cooling fan 11 that sucks outside air and supplies the same to the liquid crystal projector 20. It is composed of a Peltier operating unit 30 for cooling the outside air by using the Peltier effect.

On the other hand, as shown in Fig. 2, when the Peltier Effect is bonded to different kinds of metals (A) and (B) and a DC current flows, the current is connected to the joint surface by the difference between the two rapid energy levels. When passing, one metal gets energy (endotherm) and heats up, while the other metal releases energy and cools down. These heterogeneous two metals are called Peltier elements, and if the direction of current is changed, cooling and heat dissipation occur in opposite directions. The Peltier operating part 30 is a heat sink 34 connected to the cooling element 33 and the heat dissipation element 32 and the heat dissipation element 32 and the heat dissipation element 32 and the cooling element 31 is cooled by the Peltier effect ).

The heat dissipation plate 34 serves to block heat of the heat dissipation element 32 from being transmitted to the projector 20 by naturally cooling by releasing heat from the heat dissipation element 32 that absorbs heat into the air. The cooling plate 33 is installed between the cooling unit 10 and the projector 20 to cool external air sucked by the cooling unit 10 to supply cooler air to the liquid crystal projector 20. It is effective that the cooling plate 33 has a grille structure or a lattice structure so as to be in good contact with air and to allow air to pass through well. In addition to such an air-cooled cooling method, as shown in FIG. 4, the cooling element 31 of the Peltier operating part 30 may be brought into contact with the cooling part 22 of the liquid crystal projector 20 to be cooled by heat conduction. In addition, an air-cooled cooling method and a cooling method by heat conduction can be used simultaneously.

The operation of the above embodiment will be described with reference to FIG. The outside air sucked by the cooling fan 11 passes through the cooling unit 10 and then cools more while passing through the cooling plate 33 connected to the cooling element 31 using the Peltier effect, and the liquid crystal projector 20 It enters inside to cool the liquid crystal projector. Therefore, since cooler air is supplied to the liquid crystal projector than the conventional cooling device using the cooling fan, when the cooling efficiency is increased to achieve the same cooling effect, the cooling fan can be operated at a lower speed than the conventional case.

As a result, the noise generated by the cooling fan can be reduced. In addition, when the cooling element 31 is in contact with the cooling portion 22 of the liquid crystal projector 20 and cooled by heat conduction as shown in FIG. 4, a cooling fan is not required, and noise by the cooling fan can be completely removed. As described above, according to the present invention, the noise caused by the cooling fan can be removed or reduced by the cooling device included in the Peltier element using the Peltier effect.

Claims (5)

And a cooling unit having a cooling fan for introducing and discharging the external air and a Peltier operating unit for making the external air cooler than room temperature by using a Peltier effect. A cooling device having a Peltier operating unit for generating a Peltier effect, wherein the Peltier cooling element is in contact with a lower portion to cool, thereby achieving cooling by thermal conduction. The cooling apparatus of claim 1, wherein the Peltier operating unit includes a cooling element which is two Peltier elements, a heat dissipation element, and a cooling plate connected to the cooling element, and a heat dissipation plate connected to the heat dissipation element. The cooling apparatus of claim 3, wherein the cooling plate is installed in front of the cooling fan. The cooling apparatus of claim 3, wherein the cooling plate is installed at a rear side of the cooling fan.