KR100314015B1 - The cooling apparatus for microwave lighting system - Google Patents

Abstract

The present invention relates to a cooling device for a microwave lighting device. In the related art, a motor for driving a cooling fan is separately installed outside the outer case, and the configuration is complicated. Winds caused by the cooling fan are scattered in all directions from the inner side of the outer case. There was a problem in that the wave generator and the high pressure generator is not properly cooled. Therefore, the present invention simplifies the device by making the air guide for guiding the air discharged from the cooling fan and the cooling fan into the outer case and the motor rotating the cooling fan with the outer case to simplify the device, and quickly cool the inside of the outer case. I would have to.

Description

Cooling device for microwave lighting equipment {THE COOLING APPARATUS FOR MICROWAVE LIGHTING SYSTEM}

The present invention relates to a microwave illuminator for radiating a light beam by oscillating an electrodeless bulb disposed in a resonator with microwaves, the apparatus for cooling a microwave illuminator for efficiently cooling a microwave generator and a high voltage generator. In particular, the present invention relates to a cooling device for a microwave lighting device, which is configured to suck external air in one direction and to discharge in both directions so that efficient cooling can be achieved.

Recently, microwave illuminators having an electrodeless bulb disposed in a resonator have been developed, and have attracted attention because of their long life and good luminous efficiency.

As shown in FIG. 1, the electrodeless microwave illuminator configuration includes an out case 1 having a predetermined shape, and a high pressure generator that generates high pressure with power supplied from the outside mounted in the out case. (8) and. A microwave generator 6 installed at the side of the high pressure generator 8 to generate microwaves at a high pressure generated by the high pressure generator 8, and positioned to protrude from the outer case 1 A resonator (3) for resonating, a wave guide (7) which is installed to communicate the resonator (3_) with the microwave generator (6), and guides the microwaves generated by the high pressure generator (8) to the resonator; And an electrodeless bulb 4 filled with gas excited by microwaves resonated in the resonator.

And a reflector 9 for reflecting light generated from the electrodeless bulb is provided around the resonator in which the electrodeless bulb 4 is installed.

And a cooling means for cooling the heat generated therein is provided on one side of the outer case 1, the cooling means is a motor 14 for generating a rotational force and a cooling fan connected to the motor to generate a flow of air (11) is comprised.

Reference numeral 10 is a motor for rotating the electrodeless bulb.

Looking at the prior art configured as described above is as follows.

First, as the external power is supplied to the high pressure generator 8, the high pressure generator 8 generates high pressure and transmits the high pressure to the microwave generator 6.

Therefore, the microwave generator 6 is operated to generate microwaves.

The microwaves generated by the microwave generator 6 are transmitted to the resonator 3 through the wave guide 7.

When the microwaves generated by the microwave generator 6 are generated into the resonator 3, the gas enclosed in the electrodeless bulb 4 in the resonator 3 is caused by the microwaves in the resonator 3. And the inner surface of the electrodeless bulb 4 is heated, thereby generating light rays having a unique emission spectrum.

Light rays generated by the electrodeless bulb 4 are reflected through a reflector and radiated forward.

Meanwhile, the resonator 3 not only resonates the microwaves transmitted by the waveguide, but also blocks the microwaves from leaking to the outside, and also emits the maximum amount of light generated from the electrodeless light bulb to the outside. Should be done.

The apparatus also has the microwave generator 6 and the high pressure generator 8 self-heating by loss in operation.

Therefore, the cooling fan 11 is installed on the wall of the outer case 1 to cool the heat generated.

The cooling fan 11 is driven to discharge wind to cool the microwave generator 6 and the high pressure generator 8.

However, in the prior art as described above, the motor for driving the cooling fan is separately installed outside the outer case, the configuration is complicated, the wind by the cooling fan is scattered in all directions from the inner surface of the outer case, the microwave generator and the high pressure There was a problem that does not properly cool the generator.

An object of the present invention for solving the conventional problems as described above has a cooling fan for cooling the microwave generating unit and the high-pressure generating unit and the motor to drive the cooling fan while collecting the wind and determine the direction The present invention provides a cooling device for a microwave illuminator that is formed integrally with an outer case to simplify the device.

Another object of the present invention is to provide a cooling device of the microwave illuminator so that the air generated in the cooling fan to concentrate the guide to the microwave generator and the high-pressure generator to cool quickly.

Still another object of the present invention is to provide a cooling device for a microwave illuminator, wherein the outlet is formed in the outer case so as to be exhausted to both sides of the reflector to cool the reflector heated by the heat generated from the electrodeless bulb.

1 is a cross-sectional view of a typical electrodeless microwave illuminator.

2 is a cross-sectional view of a cooling device of the present invention microwave illuminator.

Figure 3 is a detail view of the cooling means in Figure 2;

4 is a detail of the outcase in FIG.

***** Explanation of symbols for the main parts of the drawing *****

101: outer case 103: resonator

104: electrodeless bulb 105: reflector

108: high pressure generating unit 110: bulb motor

111 cooling fan 112 exhaust port

113: motor bracket 114: motor for cooling fan

115,115 ': Air guide 116: Microwave generator

117: wave guide 119: reflector

The present invention for achieving the above object is a motor for generating a rotational force, a cooling fan connected to the motor to suck the external air in one direction to discharge in both directions, and the air discharged from the cooling fan An air guide for guiding each of the portion and the high-pressure generator is provided inside the outer case, and is formed integrally with the outer case.

Hereinafter, with reference to the accompanying drawings in detail as follows.

2 is a cross-sectional view of the cooling device of the present invention microwave lighting device, as shown in the outer case 101, the outlet is formed, and the power supplied to the outside mounted inside the outer case 101 The high pressure generating unit 108 for generating a high pressure and the microwave generating unit is provided on the side of the high pressure generating unit 108 to operate by the high pressure provided by the high pressure generating unit 108 to generate a microwave 116, protruded on one side of the outer case 101, the resonator 103 for resonating the microwave, and the microwave generator 116 and the resonator 103 in communication with each other And a wave guide 117 for guiding the microwaves generated by the microwave generator 116 to the resonator 103, and installed in the resonator 103 to resonate in the resonator. Gas is filled around the electrodeless bulb 104 filled with the gas excited by the microwave, and the resonator behind the electrodeless bulb 104 to reflect the light generated from the electrodeless bulb 104 toward the front of the resonator The reflector 119 and cooling means are installed on the opposite side of the outer case in which the resonator is installed to cool the heat generated inside the outer case. The cooling means includes a motor 114 and a motor 114 generating a rotational force. Is connected to the cooling fan 111 to generate a flow of air, and the air guides 115 and 115 'to guide the flow generated from the cooling fan to a portion where heat is generated.

Referring to the operation and effect of the present invention configured as described in detail as follows.

When power is supplied from the outside to the high pressure generator 108, the high pressure generator 108 generates a high pressure by the power and supplies the power to the microwave generator 116.

Then, the microwave generator 116 operates to generate microwaves.

The microwave thus generated is guided by the wave guide 117 and transmitted to the resonator 103.

At this time, the electrodeless bulb 104 located in the resonator 103 absorbs the energy of the transmitted microwaves and converts the light energy into light energy.

Light emitted therefrom is reflected by the reflector 119 and sent out through the reflector 105.

Meanwhile, the resonator 103 not only resonates the microwaves transmitted by the waveguide, but also blocks the microwaves from leaking to the outside and also emits the maximum amount of light generated from the electrodeless light bulb to the outside. Should be done.

When performing such an operation, the microwave generator 116 and the high pressure generator 108 generate heat due to their own loss during operation.

In order to cool the microwave generating unit 116 and the high pressure generating unit 108, which is thus generated, it is cooled by using a cooling means.

That is, the motor 114 integrally installed in the opposite outer case 101 in which the resonator 103 is provided on one side rotates.

As the motor 114 rotates, the cooling fan 111 is driven to suck external air in one direction and discharge the air in both directions.

The cold air discharged in both directions is guided to the microwave generator 116 and the high pressure generator 108 through the air guides 115 and 115 ′ as shown in FIG. 3.

Then, the cool air discharged through the cooling fan 111 and the air guides 115 and 115 'cools the microwave generator 116 and the high pressure generator 108.

The air cooled by the microwave generator 116 and the high pressure generator 108 is discharged through the exhaust port 112 formed in the outer case 101, and the discharged air is transferred to the reflector 105 again.

Accordingly, the reflector 105 is cooled, and as the reflector 105 is cooled, it is installed in the resonator 103 in the reflector 105 to cool the reflector 119 heated by the heat generated by the electrodeless bulb 104. .

Since the reflector 105 is made of aluminum (AL), and thus heat transfer is fast, the reflector 105 is easily heated by the electrodeless light bulb 104, and easily by the air discharged through the exhaust port 112 of the outer case 101. It cools, and accordingly it quickly cools out the heat inside the reflector 105 so that the reflector 119 can be cooled quickly.

As illustrated in FIG. 4, the exhaust port 112 of the outer case 101 is formed in the outer cases on both sides of the reflector with respect to the reflector.

As described in detail above, the present invention delivers the air generated in both directions from the cooling fan to the microwave generating part and the high pressure generating part which self-heats through the air guides on both sides so as to cool quickly, and further separates the cooling means. It is effective to simplify the device by installing it integrally in the outer case without parts.

Claims (3)

An outcase having a predetermined shape, a microwave generating unit for generating microwaves at a high pressure supply from a high pressure generating unit installed on a side of the outer case, and positioned to protrude on one side of the outer case A resonator for resonating, a wave guide for guiding the microwave to the resonator, an electrodeless bulb for converting the energy of the microwave supplied from the resonator into light, and a reflector for radiating the light generated by the light bulb to the outside In the microwave illuminating device comprising a cooling means for cooling the heat generated inside the outer case, the cooling means is a motor for generating a rotational force and a cooling fan connected to the motor, and generated in the cooling fan Do not inhale air in one direction Cooling device of the microwave illuminator, characterized in that it comprises an air guide to guide and cooling the microwave generator and the high pressure generator, respectively. The cooling device of claim 1, wherein the air guide is formed integrally with the outer case. The cooling apparatus of claim 2, wherein the outer case has exhaust ports formed at both sides of the reflector to discharge air discharged from the inside.