KR950000805Y1 - High frequency leakage shield device of magnetron - Google Patents

Abstract

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Description

Magnetron high frequency leakage shield

1 is a longitudinal cross-sectional view of a typical magnetron.

2 is a graph showing the transmission attenuation characteristics in the conventional magnetron.

3 is a graph showing the magnetic permeability characteristics according to frequency in the conventional magnetron.

Figure 4 is a perspective view showing the main part of the device.

5 is a front view of the device of the present invention installed on the insulator.

* Explanation of symbols for main parts of the drawings

9: negative terminal 10: insulator

12 ferrite 13 support

The present invention relates to a high frequency leakage shielding device of a magnetron for preventing high frequency leakage through the input terminal of the magnetron, and more specifically, to prevent noise from being generated due to high frequency leakage.

In general, the magnetron generating high frequency and supplying it into the cavity has the same shape as in FIG. 1, in which a series cathode (not shown) is installed in the axial direction at the center thereof, and an anode 1, which is a radial anode structure, is installed around the magnetron. It is a kind of two-pole vacuum tube.

Here, the upper yoke (2) and the yoke (3) are provided to apply the magnetic flux to the working space between the cathode and the anode (1), and the permanent magnets (4a) and (4b) on the upper and lower surfaces of each yoke. It is installed in turn.

In addition, the heat sink fin (5) is installed on the outer periphery of the anode (1) to dissipate heat generated by the collision of hot electrons at the anode vanes, and the choke to prevent the unwanted high frequency components generated in the working space from flowing back to the power source. The negative electrode terminal 9, which protects the coil 6, the condenser 7, and the like with a filter case 8, and has an insulator 10 fixed therein for electrically insulating the negative terminal 9 and the anode 1; The choke coils 6 are connected between the capacitors 7 to form a low pass filter.

At this time, since the cathode of the magnetron is located in a strong high frequency atmosphere in the working space, a part of the high frequency energy generated from the magnetron resonance part leaks from the cathode to the input terminal along the cathode support.

Undesired electromagnetic waves leaking to the input stage have a wide frequency distribution range of 50MHZ-1500MHZ, and the low frequency unwanted waves of the frequency bands described above are low pass filters composed of choke coils (6) and cylindrical capacitors (7). The unwanted electromagnetic wave of the microwave band radiated by the cathode terminal and the choke coil 6 directly into the working space is suppressed by the filter case 8.

However, such a conventional apparatus has a reduced filter restraining effect from almost 500 MHZ, as can be seen from the transmission attenuation characteristic curve according to the frequency in FIG.

In fact, the magnetron has a strong leakage of unnecessary electromagnetic waves having a frequency distribution of more than 500MHZ, there is a defect that does not exhibit a sufficient restraining effect.

This is the magnetic permeability of the ferrite core 11 used in the choke coil 6 and a complex magnetic permeability μ = μ'-jμ "at high frequencies real denied ₁ μ 'is large frequency band is a higher impedance is increased the effect Paper , and μ ₁ is the paper effect as in the Fig. 3 in the ferrite, so that the radio wave absorber is increased, because the part representing the magnetic loss μ _1, a large frequency band.

Where j is a constant.

However, in the case of the ferrite core 11 used in the conventional choke coil 6, the magnetic permeability μ ', μ "is relatively good for the electromagnetic wave suppressing effect for the unwanted wave in the frequency band of 500 MHZ or less as shown in FIG. The unnecessary wave of the above-described frequency band has a problem of not being able to exhibit sufficient restraining effect.

The present invention has been made to solve such a problem in the prior art, and the ferrite core and the magnetic properties of the ferrite is attached to the insulator that electrically insulates the negative electrode and the anode to have a broadband radio wave absorption characteristics. There is this.

According to an aspect of the present invention for achieving the above object, in a microwave oven magnet equipped with a noise prevention filter, a magnetron fixed by fixing a ferrite having a different permeability frequency characteristic to an insulator that electrically insulates the negative electrode and the anode. High frequency leakage shielding is provided.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 4 and 5 of the accompanying drawings.

4 is a perspective view showing the main part of the device of the present invention, and FIG. 5 is a front view of the device of the present invention installed in an insulator. The insulator (F-Ceramic) insulates the cathode terminal 9 and the anode from each other. A ferrite 12 having a different magnetic characteristic from the ferrite core 11 fixed in the choke coil 6 is fixed to (10).

In this case, the ferrite 12 may be directly fixed to the insulator 10, but in one embodiment of the present invention, the ferrite 12 is fixed with a separate support 13 to use the support 13 to ferrite 12. Is fixed to the insulator 10.

On the other hand, the support 13 fixed to the insulator 10 has a cutout portion 13a open at one side, which is to fix the support 13 to the insulator 10 more easily.

Referring to the effect of the present invention configured as described above are as follows.

In general, the characteristics of the ferrite core used for the choke coil are the upper limit of the frequency when the permeability μ 'is larger than μ ", and it is not operated as a filter circuit in the higher frequency band.

This is because when the µ " characteristic starts to increase, it is not treated as a magnetic material in the ordinary sense but as an absorber due to only ferrite loss.

Accordingly, in addition to the ferrite core 11 fixed to the choke coil 6, the ferrite 12 having a different μ ', μ " Since it absorbs more than 500MHZ of leakage wave, it is possible to suppress the leakage of the unwanted wave of this frequency band to the outside.

As described above, the present invention has the effect of preventing the leakage of an unwanted wave of 500 MHZ or more into the input terminal by a simple structure of fixing the ferrite 12 having different magnetic properties from the ferrite core to the insulator 10. .

Claims (2)

In a microwave magnetron equipped with a noise preventing filter, a high frequency leakage shielding of a magnetron by fixing a ferrite 12 having a different permeability frequency characteristic to an insulator 10 that electrically insulates the cathode terminal 9 from the anode. Device. The magnetron high frequency leakage shielding device according to claim 1, wherein the ferrite (12) is fixed to a separate support (13) to fix the support (13) to the insulator (10).