KR100408057B1 - Microwave lighting apparatus - Google Patents

Abstract

The present invention relates to a microwave lighting apparatus, by recording a cooling time after turning off the lamp to shorten the unnecessary cooling time to shorten the re-light-emitting time of the electrodeless bulb. To this end, the present invention in the microwave illuminating device for boosting the external power to a high pressure by the high-pressure generator, and converts the microwave energy generated in the magnetron to light by the high pressure, generated in the magnetron and the high-pressure generator A cooling unit for cooling the heat to be performed; A power-off elapsed time reading unit that counts time from the power-off time and outputs a power-off elapsed time according to the power-off; A cooling time storage unit for storing the cooling driving time at the time of turning off the power, when the power is turned off before the predetermined cooling time has elapsed; And a control unit for controlling the cooling operation of the cooling unit and restarting of the lamp.

Description

Microwave Lighting Device {MICROWAVE LIGHTING APPARATUS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a microwave illuminating device, and more particularly, to a microwave illuminating device, which shortens the cooling time to shorten the restart time of the microwave lighting.

Recently, a lighting device having an electrodeless light bulb using microwaves has been developed, and the microwave lighting device has been increasingly used because of its long lifespan and good luminous efficiency or characteristics. It will be described with reference to the accompanying drawings.

1 is a block diagram showing a configuration of a conventional microwave lighting apparatus, as shown therein a magnetron 10 for generating a microwave; It has a non-electrode bulb 20 inside and resonates the microwave supplied from the magnetron 10 and has a mesh shape to discharge the converted light to the maximum when converting microwave energy into light in the bulb. A resonator 30; A wave guide (40) for guiding the microwaves generated by the magnetron (10) to the resonator (30); A high pressure generator 50 for boosting an external power to a high pressure to supply the magnetron 10; A cooling unit 70 cooling the magnetron 10 and the high pressure generating unit 50 to prevent overheating by heat generated by the magnetron 10 and the high pressure generating unit 50; A controller 60 for controlling the high pressure generator 50 for applying high pressure to the magnetron 10 and controlling the operation of the cooling unit 70; The operation of the conventional apparatus configured as described above is constituted by a cooling completion memory unit 80 which stores whether or not cooling is completed.

First, the high pressure generating unit 50 receives the driving signal output from the control unit 60 and accordingly boosts AC power from the outside, and supplies the boosted high pressure to the magnetron 10.

Then, the magnetron 10 is oscillated by the high pressure output from the high-pressure generator 50, the microwave having a very high frequency to the electrodeless bulb 20 in the resonator 30 through the wave guide 40 Focus.

Accordingly, the electrodeless light bulb 20 generates light by absorbing microwave energy.

In this case, the controller 60 drives the cooling unit 70 to prevent overheating by the self-heating of the high pressure generating unit 50 and the magnetron 10 when the high pressure generating unit 50 is driven. The high pressure generating unit 50, the magnetron 10 and the electrodeless bulb 20 are cooled.

If the lamp is turned off, the electrodeless light bulb 20 must be sufficiently cooled in order to re-start the lamp. Therefore, the lamp is turned off. After recording the completion state of cooling in the storage unit 80, the operation of the cooling unit 70 is stopped.

Therefore, upon restarting, the control unit 60 reads the contents of the cooling completion storage unit 80 and restarts immediately when the cooling is completed. Otherwise, the control unit 60 restarts after driving the cooling unit 70 for a predetermined time.

Here, in the case of a power failure during the cooling or the power cord is cut off, since the cooling completion state is not recorded, it is not known how much time has passed since the power was turned off when restarting.

Accordingly, when restarting in the case of the above-described power failure or power cord disconnection, the cooling unit is unconditionally driven for a predetermined time, and then restarted. There is a problem in that even though it is possible to immediately re-luminescence to have unnecessary cooling time.

The present invention has been made to solve the above problems, to provide a microwave illumination device to reduce the unnecessary light time by recording the cooling time after turning off the lamp to shorten the re-emitting time of the electrodeless bulb. The purpose is.

1 is a block diagram showing the configuration of a conventional microwave lighting apparatus.

Figure 2 is a block diagram showing the configuration of the present invention microwave illumination device.

***** Description of the symbols for the main parts of the drawings *****

100: magnetron 200: electrodeless light bulb

300: resonator 400: wave guide

500: high pressure generating unit 600: control unit

700: cooling unit 800: cooling time memory unit

900: power off elapsed time reading unit

The present invention for achieving the above object is a microwave lighting device for converting the microwave energy generated in the magnetron by the high pressure after the voltage to the high voltage by the high-pressure generator, the magnetron, the magnetron And a cooling unit for cooling the heat generated in the high pressure generating unit; A power-off elapsed time reading unit that counts time from the power-off time and outputs a power-off elapsed time according to the power-off; A cooling time storage unit for storing the cooling driving time at the time of turning off the power, when the power is turned off before the predetermined cooling time has elapsed; And a control unit for controlling the cooling operation of the cooling unit and restarting of the lamp.

Hereinafter, with reference to the accompanying drawings, the operation and effects of the microwave lighting apparatus according to the present invention will be described in detail.

Figure 2 is a block diagram showing the configuration of an embodiment of the present invention microwave illumination device, as shown in the magnetron 100 for generating a microwave; It has a non-electrode bulb 200 therein and resonates the microwave supplied from the magnetron 100 and has a mesh shape to discharge the converted light as much as possible when converting microwave energy into light in the bulb. A resonator 300; A wave guide (400) for guiding the microwaves generated by the magnetron (100) to the resonator (300); A high pressure generator 500 for boosting an external power to a high pressure to supply the magnetron 100; A cooling unit 700 cooling to prevent overheating by the heat generated by the magnetron 100 and the high pressure generating unit 500; A power-off elapsed time reading unit 900 counting a time from the power-off time and outputting a power-off elapsed time according to the power-off; If the power is turned off before the predetermined cooling time has elapsed, the cooling time memory unit 800 for storing the cooling driving time of the power off time; The control unit 600 controls the cooling operation of the cooling unit 700 and the restart of the lamp. The operation of the present invention configured as described above will be described.

First, the high pressure generating unit 500 receives a driving signal output from the control unit 600 and accordingly boosts AC power from the outside, and supplies the boosted high pressure to the magnetron 100.

Then, the magnetron 100 is oscillated by the high pressure output from the high-pressure generator 500, the microwave having a very high frequency to the electrodeless bulb 200 in the resonator 300 through the wave guide 400 Focus.

Accordingly, the electrodeless bulb 200 absorbs microwave energy to generate light.

In this case, the controller 600 drives the cooling unit 700 to prevent overheating by the self-heating of the high pressure generator 500 and the magnetron 100 when the high pressure generator 500 is driven. The high pressure generating unit 500, the magnetron 100, and the electrodeless bulb 200 are cooled.

Here, the power-off elapsed time reading unit 900 counts the time from the power-off time when the power is off and outputs the power-off elapsed time accordingly, and the cooling time memory unit 800 restarts the lamp. If the power is turned off before the predetermined cooling time elapses, the cooling drive time at the time of turning off the power is stored.

On the other hand, when the lamp is turned off, the control unit 600 counts the cooling operation time of the cooling unit 700, and if it matches with the predetermined cooling time to block the cooling operation of the cooling unit 700, in this situation again the lamp In the case of starting, the lamp immediately emits light without the cooling operation of the cooling unit 700 for cooling the electrodeless bulb 200.

If, after the lamp is turned off, before the predetermined cooling time has elapsed to restart the lamp, the power is turned off, and in order to restart the lamp again in this situation, the controller 600 controls the cooling time memory 800. After the cooling drive time and the power-off elapsed time stored in the storage device are added to the preset cooling time, the additional cooling drive time is detected, and the cooling unit 700 is controlled to operate as much as the detected cooling drive time. , The lamp is emitted.

As described in detail above, the present invention has the effect of shortening the unnecessary cooling time by recording the cooling time after turning off the lamp, thereby shortening the re-emitting time of the electrodeless bulb.

Claims (3)

In the microwave illuminating device for boosting the external power to a high pressure by the high-pressure generator, and converts the microwave energy generated in the magnetron to light by the high pressure, A cooling unit cooling the heat generated from the magnetron and the high pressure generating unit; A power-off elapsed time reading unit that counts time from the power-off time and outputs a power-off elapsed time according to the power-off; A cooling time storage unit for storing the cooling driving time at the time of turning off the power, when the power is turned off before the predetermined cooling time has elapsed; Microwave lighting apparatus comprising a control unit for controlling the cooling operation of the cooling unit and the restart of the lamp. The microwave lighting apparatus according to claim 1, wherein the control unit counts the cooling time of the cooling unit when the lamp is turned off, and controls the cooling unit to block the cooling operation of the cooling unit when the cooling time coincides with a preset cooling time. The method of claim 1, wherein, when the lamp is restarted, the controller adds the cooling driving time and the power-off elapsed time stored in the cooling time storage unit, and compares the added time with a predetermined cooling time, thereby further cooling driving time. And after the detection, the control unit operates to operate the cooling unit by the detection cooling driving time.