KR920008887Y1 - Voltage control device for microwave oven - Google Patents

Abstract

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Description

Microwave voltage supply device

1 is a configuration circuit diagram of the device of the present invention.

2 is a circuit diagram illustrating a voltage supply device of a conventional microwave oven.

* Explanation of symbols for main parts of the drawings

10: high pressure transformer 20: magnetron

30: high voltage capacitor 40: high voltage diode

31, 32: medium and high voltage capacitor 41, 42: medium and high voltage diode

The present invention relates to a voltage supply device for supplying a stable voltage to the magnetron in the microwave oven to increase the efficiency of the magnetron.

Conventional high-voltage generator of the microwave oven is to increase the input voltage by the high voltage transformer first, and to supply and drive the multiplied voltage to the magnetron in the state of increasing the second voltage to the high voltage capacitor and high voltage diode, Input power versus output according to the combination, that is, the efficiency is only about 50%, it is difficult to reduce the size of the high-voltage transformer, and there is a disadvantage that the life is shortened by heat generation phenomenon due to power loss.

The purpose of the present invention is to provide a voltage supply device for a microwave oven to supply a stable voltage to the magnetron by installing a circuit of a medium, high voltage capacitor and a medium, high voltage diode on the secondary side of the high voltage transformer to solve such a disadvantage. will be.

Another object of the present invention is to provide a voltage supply device for a microwave oven capable of reducing the size of a high-voltage transformer by improving the efficiency of the magnetron by a stable voltage supply.

Hereinafter, the configuration, operation and effects of the present invention will be described in detail by the accompanying drawings.

2 is a configuration circuit diagram of a high-voltage generator of a conventional microwave oven. The high-voltage induced in the secondary winding L2 of the high-voltage transformer 10 is multiplied by the high-voltage capacitor 30 and the high-voltage diode 40 again. The magnetron 20 is to be transmitted, but the secondary voltage of the high voltage transformer 10 is unstable, and various surge voltages are generated due to the multiplication of the high pressure, and this unstable high voltage is caused by the high voltage capacitor 30. As it is transmitted as is), the full rectified wave does not occur even in the high voltage diode 40, resulting in low efficiency of the magnetron.

1 is a circuit diagram of a device of the present invention, which includes a high voltage transformer 10, a high voltage capacitor 30, a high voltage diode 40, and a magnetron 20. The high voltage capacitor 30 and the high voltage diode 40 are connected in series between the secondary winding L2 of the antenna 10 and the anode a of the magnetron 20, and the high voltage capacitor 30 and the high voltage diode ( A first middle connected in parallel between the connection point of 40 and the cathode b of the magnetron 20; The high pressure capacitor 31 and the first middle; A high voltage diode 41 and a second middle connected in parallel; The high pressure capacitor 32 and the second middle; The high voltage diodes 42 are sequentially connected in series.

Reference numerals L1 and L3 denote primary and secondary windings of the high voltage transformer 10.

In the device of the present invention configured as described above, when the high voltage generated in the secondary winding L2 of the high voltage transformer 10 is positive, the voltage is charged in the high voltage condenser 30, and when the negative voltage is negative. The voltage charged in the high pressure capacitor 30 and the voltage generated by the high voltage transformer 10 are added to the magnetron 2 in a state where the voltage is combined.

At this time, the surge voltage generated in the secondary winding (L2) of the high voltage transformer (10) of each of the parallel connection, high voltage capacitor (31) (32) and middle; The high voltage diode 40, which is absorbed by the high voltage diodes 41 and 42, and also connected to the anode (a) of the magnetron 20, passes only the high voltage (-) polarity, thereby allowing the secondary side of the high voltage transformer 10 to pass through. It will make the high pressure into a clean waveform without ripple.

That is, the medium and high voltage capacitors 31 and 32 and the medium and high voltage diodes 41 and 42 have a positive polarity contained therein when a high voltage of a negative polarity is transmitted to the high voltage diode 40. It absorbs the voltage as well as absorbs it when a surge voltage is applied, thereby multiplying all the high pressure generated in the secondary side of the high-voltage transformer 10 as a complete waveform to the magnetron 20, so that The efficiency can be greatly increased.

As described above, the device of the present invention can increase the efficiency of the magnetron by stabilizing a stable voltage on the magnetron, thereby reducing the size of the high voltage transformer.

Claims (1)

In the microwave supply device of the high voltage transformer (10), the high voltage capacitor (30), the high voltage diode (40) and the magnetron (20), the secondary winding (L2) of the high voltage transformer (10) and the magnetron ( The high voltage condenser 30 and the high voltage diode 40 are connected in series between the anodes a of 20, and the connection point of the high voltage condenser 30 and the high voltage diode 40 and the cathode of the magnetron 20 are connected. (b) a first one connected in parallel; The high pressure capacitor 31 and the first middle; A high voltage diode 41 and a second middle connected in parallel; The high pressure capacitor 32 and the second middle; Voltage supply device for a microwave oven, characterized in that configured in series by connecting the high voltage diode (42) in sequence.