KR900010289Y1 - Magnetron using capacator - Google Patents

Abstract

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Description

Capacitor for Magnetron

1 is a partial cross-sectional view of a magnetron.

2 is a configuration diagram and an equivalent circuit diagram of the designed capacitor.

3 is a block diagram of the ground plate designed.

4 is a configuration diagram of this design lead wire.

5 is a waveform chart illustrating the operation of the present invention.

6 is a configuration diagram and an equivalent circuit diagram of a conventional capacitor.

* Explanation of symbols for main parts of the drawings

20: capacitor 21: lead wire

22: cylindrical member 23: insulator

24: grounding member 25: reflecting mechanism

26 choke member

This invention relates to the improvement design of the capacitor | condenser for microwave ovens.

Microwave ovens are microwave-based cookers that incorporate a magnetron for oscillation to supply 2450 MHZ (0.5-1.5 KW) microwaves with dielectric heating effects to water molecules.

The general configuration of a magnetron for a microwave oven is cited in FIG. The magnetron has a heat radiating fin (4) and an anode (5), and controls the hot electrons emitted from the filament (8) by the magnetic flux of the permanent magnet (3) (6), the positive (+) (5) by the accelerated hot electrons The ultra-high frequency oscillation tube which can take out the 2450 MHZ ultra-high frequency resonated by the antenna 7 is made.

When the magnetron oscillates, in addition to the fundamental wave 2450MHZ, a spurious having a frequency lower than n times harmonics and the fundamental wave is generated. Since such harmonics and spuriouss adversely affect the human body when leaking out of the magnetron, the microwave oven magnetron includes a device that blocks the leakage of frequency components other than the fundamental wave described above.

That is, a frequency component lower than the fundamental wave may leak to the outside of the magnetron through the negative lead line 9 supplying power to the filament 8. In order to block such spurious, an L-C low pass filter made of a choke coil 11 and a feed-through ceramic capacitor 1 is attached to the end of the cathode lead wire 9. In addition, the filter box 10 was attached to the periphery of the condenser in order to prevent leakage of the frequency component higher than the fundamental wave, especially the fifth harmonic component harmful to the human body, through the ceramic cathode 2.

However, since the ceramic 13 is inserted into the capacitor 1 between the lead wire 15 and the ground plate 14 through which the configuration passes, as shown in FIG. 6, the insulators 12 and 16 are molded. The fifth harmonic component leaks out of the magnetron through the condenser 1 as in the arrow path of FIG.

Consider the cause of harmonic leakage here.

f: frequency (GHZ)

: Permeability of the substance

: Coefficient of resistance of material

, The depth at which an electromagnetic wave reaches a material and permeates that material, The resistance coefficient of the ceramic is Therefore, the penetration depth of electromagnetic waves in the ceramic, In other words, when the above equation is applied to an insulator having a high resistance value, it can be seen that harmonics are easily leaked on the insulator.

Therefore, it is explained that harmonics inside the magnetron leak out of the magnetron as in the arrow path of FIG. 6 through the ceramic of the capacitor 1 as the dielectric.

This invention is designed to solve the problems described above, and includes a harmonic reflecting mechanism that uses the fifth harmonic as the incident wave in order to reduce the harmonics in the magnetron, particularly the fifth harmonic energy which is extremely harmful to the human body.

In this design, the capacitor is configured to accumulate charge by approaching the lead wire and the ground plate in the heat transfer material, and an object of the present invention is to provide a capacitor for a magnetron that prevents leakage of the fifth harmonic.

The invention is described in detail with reference to FIGS. 2 to 5 as follows.

The capacitor 20 has a charge accumulation structure similar to that of the equivalent circuit of FIG. 2 by bringing the cylindrical member 22, which the through-type lead wire 21 has in the insulator 23, to the ground member 24. .

The capacitor 1 has a reflecting mechanism 25 of fifth harmonics. This reflecting mechanism is a fifth harmonic dielectric impedance changing mechanism in the insulator 23, and the impedance changing mechanism is formed as a cylindrical choke member 26 of the ground member 24 in the insulator 23.

Therefore, the incident wave (fifth harmonic) passing through the insulator 23 reaches the position of the choke member 26 which is the impedance change mechanism, and the reflected wave generated at this time becomes the same wavelength as the incident wave.

The reflected wave corresponds to the incident wavelength λ of the fifth harmonic wave. By adjusting the length of the choke structure, the waveform of the incident wave and the reflected wave has a phase difference of 180 ° C., and the energy of the incident wave is attenuated by the interference of the reflected wave so that the fifth harmonic wave is not transmitted.

This action is cited in FIG. 5A is a waveform diagram of fifth harmonics incident on an insulator which is a dielectric. 5b shows the transmission path It is the waveform of the reflected wave as the characteristic impedance of the transmission line changes rapidly at the point. The reflected waveform corresponds to the incident wave phase Is reflected at the position of, This means that the reflected wave means the relation between the incident wave and the reverse phase, so that the energy after the interference is attenuated as shown in FIG. 5c when the incident wave and the reflected wave have the same energy.

As described above, this design has the effect of preventing leakage of the fifth harmonic in the capacitor for the L-C filter of the magnetron.

Claims (3)

A capacitor for a magnetron having a lead-type lead wire, comprising: a condenser structure in which a cylindrical member 22, which the lead-type lead wire 21 has around the inside of the insulator 23, approaches the grounding member 24, and the capacitor is harmonic. A capacitor for a magnetron comprising a reflector 25. The harmonic reflecting mechanism is an impedance change mechanism of a harmonic dielectric. 3. The impedance changer according to claim 2, wherein the impedance changer is a cylindrical choke member (26) of the ground member (24) in the insulator (23).