KR100438619B1 - Apparatus and method for illumination of microwave - Google Patents

Abstract

The present invention relates to a microwave lighting apparatus and method, and more particularly to a microwave lighting apparatus which can shorten the restart time by increasing the amount of microwaves temporarily applied to the bulb when the microwave bulb is turned off and then restarted. It is about a method. To this end, the present invention has a magnetron for generating a microwave and an electrodeless bulb therein, and resonates the microwave supplied from the magnetron and emits the converted light as much as possible when the microwave energy is changed to light in the bulb. A resonator in the form of a mesh; A wave guide for guiding the microwaves generated by the magnetron to the resonator; A variable high voltage generation unit for increasing the driving voltage applied to the magnetron to the magnetron when the electrodeless light bulb is turned on again and supplying the magnetron to the magnetron, and turning down the driving voltage below a predetermined voltage and then supplying the magnetron to the magnetron; A cooling unit cooling the magnetron and the variable high pressure generating unit to prevent overheating by heat generated by the magnetron; A control unit for controlling the variable high pressure generating unit for applying a high pressure to the magnetron and for controlling the operation of the cooling unit.

Description

Microwave Illuminator and Method {APPARATUS AND METHOD FOR ILLUMINATION OF MICROWAVE}

The present invention relates to a microwave lighting apparatus and method, and more particularly to a microwave lighting apparatus which can shorten the restart time by increasing the amount of microwaves temporarily applied to the bulb when the microwave bulb is turned off and then restarted. It is about a method.

Recently, a lighting apparatus having an electrodeless light bulb using microwave has attracted attention because of its long life and good luminous efficiency and characteristics, which will be described below with reference to the related drawings.

1 is an exemplary view showing a configuration of a conventional microwave lighting apparatus, as shown in the present invention, a magnetron 10 for generating a microwave and an electrodeless light bulb 20 therein, and a microsupply supplied from the magnetron 10. A resonator having a mesh shape for resonating the wave and discharging the converted light as much as possible when changing the microwave energy into light in the bulb; 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 generator 50 to prevent overheating by heat generated by the magnetron 10 and the high pressure generator 50; Consists of a control unit 60 for controlling the operation of the high-pressure generator 50 for applying a high pressure to the magnetron 10, the operation of the cooling unit 70, the operation of the conventional device configured as described same.

First, when a drive signal is input from the controller 60, the high pressure generator 50 boosts AC power from the outside and supplies the boosted high pressure to the magnetron 10.

Then, the magnetron 10 oscillates by high pressure to concentrate the microwave having a very high frequency to the electrodeless bulb 20 in the resonator 30 through the wave guide 40.

Along with this, the electrodeless light bulb 20 absorbs microwave energy to generate light.

When performing the above operation, the control unit 60 controls 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 light bulb 20 are cooled by driving.

As described above, in order to turn off the electrodeless bulb 20 after operation, the electrodeless bulb 20 may be re-lit only when the electrodeless bulb 20 is sufficiently cooled.

At this time, the electrodeless light bulb 20 is re-lit by the secondary voltage induced by the voltage applied to the transformer primary side of the high voltage generator 50 shown in FIG.

However, even after the electrodeless bulb 20 is turned off, the cooling unit 70 is operated for a predetermined time, and after cooling sufficiently, the driving of the cooling unit 70 is stopped.

Therefore, upon re-starting, if the cooling is completed in the control unit 60, the power supply is immediately restarted. Otherwise, the cooling unit 70 is driven for a predetermined time and then restarted.

Therefore, there is a problem in that the electrodeless bulb 20 cannot be re-lit immediately after the electrodeless bulb 20 is turned off and waits for a predetermined time (cooling time).

Therefore, the present invention was devised to solve the above problems, and in order to shorten the re-start time when the electrodeless bulb is re-lit, the amount of microwaves applied to the electrodeless bulb is temporarily increased.

This is because by reducing the primary winding in the transformer of the variable high voltage generation unit to increase the voltage on the secondary side, the voltage applied to the magnetron is increased to increase the output of the microwave, thereby, the microwave illumination that the electrodeless light bulb emits light It is an object of the present invention to provide an apparatus and method.

1 is an exemplary view showing a configuration of a conventional microwave lighting apparatus.

2 is a circuit diagram showing the configuration of a high-pressure generator in FIG.

Figure 3 is an exemplary view showing the configuration of the present invention microwave illumination device.

4 is a flow chart showing a microwave illumination method of the present invention.

FIG. 5 is a circuit diagram showing a configuration of a variable high voltage generation unit in FIG. 3. FIG.

Figure 6 is a flow chart showing another embodiment of the present invention microwave illumination method.

FIG. 7 is a circuit diagram illustrating another example of the variable high voltage generation unit in FIG. 3. FIG.

8 is a flow chart showing another embodiment of the present invention microwave illumination method.

9 is a circuit diagram illustrating another embodiment of the variable high voltage generation unit in FIG. 3.

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

51: driving power supply part 100: magnetron

200: electrodeless lamp 300: resonator

400: wave guide 500: variable high pressure generating unit

500a: primary coil turn-down switch 500b: secondary coil turn-down switch

600: control unit 700: cooling unit

The present invention for achieving the above object, has a magnetron for generating a microwave and an electrodeless bulb therein resonates the microwave supplied from the magnetron and converted when the microwave energy in the bulb changes to light A resonator in the form of a mesh which emits light outward as much as possible; A wave guide for guiding the microwaves generated by the magnetron to the resonator; A variable high voltage generation unit for increasing the driving voltage applied to the magnetron to the magnetron when the electrodeless light bulb is turned on again and supplying the magnetron to the magnetron, and turning down the driving voltage below a predetermined voltage and then supplying the magnetron to the magnetron; A cooling unit cooling the magnetron and the variable high pressure generating unit to prevent overheating by heat generated by the magnetron; A control unit for controlling the variable high pressure generating unit for applying a high pressure to the magnetron and for controlling the operation of the cooling unit.

The present invention for achieving the above object, in the transformer of the variable high voltage generation unit for varying the voltage to apply a voltage to the lamp of the microwave, by applying power to the primary side of the transformer off the primary coil turn-down switch A first step of determining whether a lamp off key is input after the lamp is turned on; A second step of turning off the power supply of the transformer primary side when the lamp off key is input; When the restart key is input in a state in which cooling is not completed after the second step, a third step of turning on the primary coil turn-down reduction switch and applying power to the transformer primary side to restart the lamp is performed.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

3 is an exemplary view showing the configuration of a microwave lighting apparatus of the present invention, and as shown therein, a magnetron 100 for generating a microwave and an electrodeless light bulb 200 therein are supplied from the magnetron 100. A resonator 300 having a mesh shape for resonating microwaves and discharging the converted light to the maximum when the microwave energy is changed to light in the bulb 200; A wave guide (400) for guiding the microwaves generated by the magnetron (100) to the resonator (300); When the electrodeless light bulb 200 is turned on again, the driving voltage applied to the magnetron 100 is raised to a predetermined voltage or more and supplied to the magnetron 100, and after being turned on, the driving voltage is lowered below a predetermined voltage to turn the magnetron on. A variable high pressure generation unit 500 for supplying it to 100; A cooling unit 700 cooling to prevent overheating by the heat generated by the magnetron 100 and the variable high pressure generating unit 500;

The controller 600 is configured to control the variable high pressure generator 500 to apply high pressure to the magnetron 100 and to control the operation of the cooling unit 700.

FIG. 4 is a flowchart illustrating a microwave lighting method of the present invention, wherein a transformer having a primary coil turn-down switch is turned off in a transformer of a variable high voltage generator for varying a voltage and applying a voltage to a lamp of a microwave as shown in FIG. First steps (S41 and S42) of determining whether a lamp off key is input after turning on the lamp by applying power to the primary side; A second step (S43) of stopping the lamp by turning off the power supply to the transformer primary side when the lamp off key is input; When the restart key is input after the cooling is not completed after the second step S43, after turning on the primary coil turn-down reduction switch, a third step of reactivating the lamp by applying power to the transformer primary side (S44 to S46) When the operation of the present invention configured as described above is made as follows.

First, when the high pressure generated from the variable high pressure generating unit 500 is applied to the magnetron through the control unit 600, the magnetron 100 is oscillated, and the microwave produced here is free from the resonator 300 along the waveguide 400. Delivered to the electrode bulb 200.

Here, the electrodeless bulb 200 is a plasma bulb that receives microwave energy and converts it into light energy, and absorbs microwave energy to emit light.

5 is a circuit diagram showing the configuration of the variable high pressure generator of the present invention, in which the present invention provides a switch 500a capable of reducing the number of primary coil turns on the primary side of the variable high voltage generator 500. And the electrodeless light bulb 200 by the driving power supply unit 44 for generating the driving voltage of the magnetron MTG using the voltage induced on the secondary side of the transformer while the switch 500a is turned off. Operate. (S41)

Thereafter, when it is determined whether an off key for turning off (off) the electrodeless bulb 200 is input, power supply is stopped, and as a result, the electrodeless bulb 200 is turned off. (S42, S43)

After determining that the restart key is input after the electrodeless bulb 200 is turned off, if it is input, the cooling unit 700 determines whether the variable high pressure generator 500 and the electrodeless bulb 200 are cooled, and then is not cooled. If not, the primary coil turn-down reduction switch 500a is turned on and then the power is applied to operate the lamp of the electrodeless bulb 200. (S44 ~ S46)

As a result, the present invention temporarily increases the amount of microwaves applied to the electrodeless bulb 200 in order to shorten the restart time when restarting, thereby re-lighting the electrodeless bulb 200.

Subsequently, it is determined whether a predetermined time has elapsed, and when a predetermined time elapses, the primary coil turn-down reduction switch 500a is turned off and the power is continuously applied. (S47 to S48)

The above operation and action is to use the primary coil turn-down reduction switch on the transformer primary side of the variable high-pressure generator 500, Figure 6, Figure 7 showing another embodiment of the present invention 2 It is a flowchart and an example figure which equip the said electrodeless light bulb with a differential coil turn-down reduction switch.

First, the secondary coil turn-down reduction switch 500b is turned on to apply power to turn on the electrodeless light bulb 200 (S61).

At this time, when the electrodeless bulb off key is input, the power supply is stopped, thereby the electrodeless bulb 200 is turned off (lighted off). (S62, S63)

After the process, it is determined whether the re-ignition key of the electrodeless light bulb 200 is input.

As a result of the determination, if the re-lit key is input, the cooling unit 700 determines whether the electrodeless bulb 200, the variable high pressure generator 500, and the magnetron 100 are sufficiently cooled.

If the electrode is sufficiently cooled, the electrodeless light bulb 200 is turned on again. Otherwise, the secondary coil turn-down reduction switch 500b is turned off, and then the power is applied to the transformer primary side by the voltage induced in the secondary side. The electrodeless bulb 200 is re-lit (S66).

Thereafter, after the predetermined time has elapsed, the secondary coil turn-down reduction switch 500b is turned on to apply power to operate the electrodeless bulb 200.

Another embodiment of the present invention having the primary and secondary coil turn-down reduction switches 500a and 500b together is as shown in FIGS. 8 and 9.

That is, the primary coil turn-down switch 500a is turned off, the secondary coil turn-down switch 500b is turned on, and then power is applied to turn on the electrodeless light bulb 200 (S81).

Subsequently, when the off-key bulb 200 off key is input, the power supply is stopped to turn off (light-off) the induction lamp 200 (S82, S83).

Subsequently, the electrodeless bulb 200 is inputted with a re-light key to check a cooling time elapse and when the cooling is in progress, turns on the primary coil turn-down switch 500a and turns off the secondary coil turn-down switch 500b. Re-switch the electrodeless bulb (S84 ~ S86)

After the above operation is performed for a predetermined time, the primary coil turn-down switch is turned off, the secondary coil turn-down switch is turned on, and power is applied to operate the electrodeless bulb 200.

Therefore, the present invention increases the voltage on the magnetron 100 by increasing and decreasing the primary coil winding and the secondary coil winding in the transformer of the variable high voltage generator 500 to increase the secondary voltage of the transformer. The output of the microwave is increased, and thus, the electrodeless bulb 200 emits light during a predetermined time required for cooling.

As described in detail above, in order to increase the amount of microwaves applied to the electrodeless bulb of the microwave lighting apparatus, the primary winding is reduced in the transformer of the variable high voltage generation unit to increase the voltage at the secondary side, thereby increasing the magnetron. The electrodeless bulb emits light by increasing the applied voltage and increasing the output of the microwaves.

Thereby, restarting the electrodeless bulb even during cooling of the electrodeless bulb has the effect of shortening the restarting time.

Claims (10)

Resonator in the form of a mesh that has a magnetron that generates microwaves and an electrodeless bulb inside, resonates the microwaves supplied from the magnetrons, and emits the converted light as much as possible when the microwave energy is converted into light in the bulbs. Wow; A wave guide for guiding the microwaves generated by the magnetron to the resonator; A variable high voltage generation unit for increasing the driving voltage applied to the magnetron to the magnetron when the electrodeless light bulb is turned on again and supplying the magnetron to the magnetron, and turning down the driving voltage below a predetermined voltage and then supplying the magnetron to the magnetron; A cooling unit cooling the magnetron and the variable high pressure generating unit to prevent overheating by heat generated by the magnetron; Microwave lighting apparatus characterized in that the control unit for controlling the variable high-pressure generating unit for applying a high pressure to the magnetron and controls the operation of the cooling unit. The method of claim 1, wherein the variable high-pressure generator is turned off to turn on the electrodeless bulb cooled by the cooling unit to induce a voltage on the transformer secondary side as the number of primary coil turns, when the electrodeless bulb re-lighting during the cooling, A primary coil turn-down reduction switch that is turned on to reduce the number of primary coil turns to induce a voltage on the secondary side of the transformer; And a driving power supply unit for generating a driving voltage of the magnetron by using the voltage induced on the secondary side of the transformer. The method of claim 1, wherein the variable high-pressure generating unit is turned on to turn on the electrodeless bulb cooled by the cooling unit to reduce the number of secondary coil turns, when the electrodeless bulb re-lighting during the cooling, it is turned off secondary coil turns A secondary coil turn-down reduction switch for increasing a; And a driving power supply unit for generating a driving voltage of the magnetron by using the voltage induced on the secondary side of the transformer. The method of claim 1, wherein the variable high-pressure generator is turned off to turn on the electrodeless bulb cooled by the cooling unit to induce a voltage on the transformer secondary side as the number of primary coil turns, when the electrodeless bulb re-lighting during the cooling, A primary coil turn-down reduction switch that is turned on to reduce the number of primary coil turns to induce a voltage to the transformer secondary side; A secondary coil turn-down switch for turning on the electrodeless bulb cooled by the cooling unit to reduce the number of secondary coil turns and, when the electrodeless bulb is re-lit during cooling, to be turned off to increase the number of secondary coil turns; And a driving power supply unit for generating a driving voltage of the magnetron by using the voltage induced on the secondary side of the transformer. In a transformer of a variable high voltage generation unit for varying a voltage to apply a voltage to a microwave lamp, determining whether the lamp off key is input after turning on the lamp by applying power to the primary side of the transformer in which the primary coil turn-down reduction switch is turned off. A first step of doing; A second step of turning off the power supply of the transformer primary side when the lamp off key is input; When the restart key is input in the state that the cooling is not finished after the second step, after turning on the primary coil turn-down reduction switch, a third step of applying a power to the transformer primary side to restart the lamp Illumination method. In the transformer of the variable high voltage generation unit for varying the voltage and applying a voltage to the microwave lamp, the transformer is configured to determine whether the lamp off key is input after turning on the secondary coil turn-down reduction switch and applying power to the transformer to turn on the lamp. Step 1; A second step of turning off the power supply of the transformer primary side when the lamp off key is input; And a third step of turning on the secondary coil turn-down reduction switch after turning off the secondary coil turn-down reduction switch after the second step, and applying a power to the transformer to restart the lamp. Way. In a transformer of a variable high voltage generation unit that applies a voltage to a microwave lamp by varying a voltage, the primary coil turn-down reduction switch is turned off and the secondary coil turn-down reduction switch is turned on, and then the lamp is turned on by applying power to the transformer. Determining whether an off key has been entered; A second step of turning off the power supply of the transformer primary side when the lamp off key is input; If the restart key is input after the cooling is not completed after the second step, the primary coil turn-down reduction switch is turned on and the secondary coil turn-down reduction switch is turned off. Microwave illumination method, characterized in that made. 6. The microwave lighting method according to claim 5, wherein the third step further comprises the step of re-activating the lamp and supplying power to the lamp by turning off the primary coil turn-down reduction switch after a certain period of time. 7. The microwave illumination method according to claim 6, wherein the third step further comprises the step of re-activating the lamp and supplying power to the lamp by turning on the secondary coil turn-down reduction switch after a predetermined time. The method of claim 7, wherein the third step further comprises the step of turning on the secondary coil turn-down reduction switch and turning on the secondary coil turn-down reduction switch after the predetermined time has elapsed. Microwave illumination method characterized in that.