KR19990072650A - Magnetron - Google Patents

Abstract

The present invention provides a magnetron device capable of reducing noise in the 400 to 700 MHz band with a simple configuration, and has a core type having a rod-shaped high frequency absorbing member 24 in the filter case 22 and inside the wound wire 23. In the inductor 25 and the wound line 23, the choke coil 27 formed by series continuous concentric inductor 26 which does not have the high frequency absorbing member 24, and the concentric inductor ( A stem 28 having stem terminals 28a and 28b to which one end 27a of the choke coil 27 on the 26 side is connected, and the other end 27b of the choke coil 27 on the core inductor 25 side. The capacitor | condenser 29 which has these connected capacitor terminals 29a and 29b was provided, and the cross-sectional area A of the rod-shaped high frequency absorption member 24 was set to reduce the noise of 400-700 MHz band.

Description

Magnetron Device {MAGNETRON}

The present invention relates to a magnetron device used in a high frequency heating device such as a microwave oven.

In the conventional magnetron device, as shown in Fig. 5, in the filter case 1, a core-type inductor 3 having a rod-shaped ferrite core 2 inside the wound wire and a ferrite core inside the wound wire ( 2) The negative input wire 6 to which the choke coil 5 which consists of a series of concentric inductors 4 which do not have it, and one end 5a of the choke coil 5 on the side of the concentric inductor 4 are connected. ) And a capacitor 7 having a capacitor terminal to which the other end 5b of the choke coil 5 on the core inductor 3 side is connected.

The magnetron device connects the choke coil 5 by connecting the concentric inductor 4 of the choke coil 5 between the cathode input lead 6 and the core inductor 3 of the choke coil 5. It is possible to solve the problem of the insulation coating of the wound wire being burned and damaged, resulting in poor insulation or cracking of the ferrite core (2) (JP-A 57-17344).

In addition, such a magnetron device generally reduces the noise by adjusting the number of turns of the core type inductor 3 and the hollow core inductor 4.

However, in such a conventional magnetron device, even if the number of turns of the wound line of the core inductor 3 is adjusted, only the noise of 400 MHz or less can be reduced, and even if the number of turns of the air core inductor 4 is adjusted, it is 700 to 1000 MHz. Since only the noise of the band can be reduced, there is a problem that the noise of the 400 to 700 MHz band interferes with the communication propagation.

This invention is made | formed in view of such a point, and it is providing the magnetron apparatus which can reduce the noise of 400-700MHz band by easy structure.

BRIEF DESCRIPTION OF THE DRAWINGS The principal part bottom view which shows the leakage prevention part of the magnetron apparatus of 1st Embodiment of this invention.

Fig. 2 is a sectional front view showing the magnetron device;

Fig. 3 shows the choke coil of the magnetron device, (a) is a front view of the main portion thereof, (b) is a sectional view of the high frequency absorbing member of the choke coil,

Fig. 4 is a diagram showing the relationship between the cross-sectional area and the noise level of a high frequency absorbing member made of a ferrite material used for the choke coil of the magnetron device;

Fig. 5 is a view showing the leakage preventing portion of the conventional magnetron device.

<Description of the symbols for the main parts of the drawings>

22: filter case 23: wound wire of the choke coil 27

24: high frequency absorption member 25: core type inductor

26: hollow core inductor 27: choke coil

28: stem 28a, 28b: stem terminal

29: condenser

The magnetron device of the present invention includes a choke coil formed of a core-type inductor having a rod-shaped high frequency absorbing member inside the wound line and a concentric inductor not having the high frequency absorbing member inside the wound line in series; And a condenser having a stem having a stem terminal to which one end of the choke coil is connected to the concentric inductor, and a condenser terminal to which the other end of the choke coil is connected to the core inductor. The cross-sectional area of s is to reduce noise in the 400 ~ 700MHz band.

Such a configuration can reduce noise in the 400 to 700 MHz band.

Embodiment of the Invention

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described using drawing.

As shown in Fig. 2, the magnetron device of the first embodiment of the present invention includes a magnetron portion 8, an external magnetic circuit portion 9 for excitation, leakage of basic noise and high frequency noise. The leakage prevention part 10 for preventing this is provided.

The magnetron portion 8 includes a spiral cathode 12 made of thorium tungsten, a cylindrical anode 13 made of copper, a pair of magnetic pole pieces 14 and 15 made of a magnetic material such as iron, and a ceramic insulated tube. And an antenna 17 for emitting electromagnetic waves.

The external magnetic circuit section 9 is composed of permanent magnets 19 and 20 and iron 21.

As shown in FIG. 1, the leakage preventing part 10 has a core type inductor having a rod-shaped high frequency absorbing member 24 in the filter case 22 and the filter case 22 inside the wound line 23. As shown in FIG. The choke coil 27 formed by series connection of the air core inductor 26 which does not have the high frequency absorption member 25 inside the 25 and the wound wire 23, and the choke coil on the side of the air core inductor 26 side. A condenser 29 having a stem 28 having stem terminals 28a and 28b to which one end 27a of the 27 is connected, and the other end 27b of the choke coil 27 on the core inductor 25 side. ).

As shown in Fig. 3, the cross-sectional area A of the rod-shaped high frequency absorption member 24 is designed to reduce noise in the 400 to 700 MHz band. For example, the choke coil 27 has a cylindrical shape formed of a ferrite material having a diameter of D1? 3.2 to 4.4 mm (cross section A = 8 to 15 mm 2) and a length of L1? 18 mm to reduce noise in the 400 to 700 MHz band. On the outer circumference of the high frequency absorbing member 24, a flue wire having a line diameter d = 1.2 to 1.6 mm coated with a polyamide having a thickness of t = 30 µm was brought into close contact with a coil and wound in a coil shape. At the same time as forming the core inductor 25, the length of the flue wire is about the same as the outer diameter of the circumferential high frequency absorbing member 24, and the length L3 ≒ 9mm, the wound wire pitch P = 1.5 to 3.0mm. The co-core inductor 26 is formed in the form of a coil wound roughly.

The core inductor 25 according to the first embodiment is a coil wound around the wire 23 wound around the circumferential outer periphery of the high frequency absorbing member 24, but is not limited thereto. The shape may be a columnar shape whose cross section is polygonal such as triangular or square, and the inner diameter of the wound line 23 may be a little larger than the outer diameter of the high frequency absorbing member 24. In addition, although the high frequency absorption member 24 was formed from the ferrite material, it is not limited to this, You may form from magnetic bodies, such as iron or ceramics.

Next, the effect of the magnetron device will be described.

In the first embodiment of the present invention, the choke coil 27 is provided between the stem 28 having the stem terminals 28a and 28b shown in FIGS. 1 to 3 and the core inductor 25 of the choke coil 27. By connecting the hollow core inductor 26 and the high frequency absorbing member 24 of the core inductor 25 to reduce the noise in the 400-700 MHz band, the noise in the 400-700 MHz band can be reduced. . That is, with a simple configuration of changing the cross-sectional area A of the rod-shaped high frequency absorbing member 24, noise in the 400 to 700 MHz band can be reduced, and interference of communication waves can be prevented.

In addition, even when the rod-shaped high frequency absorbing member 24 is formed of a ferrite material having a cross-sectional area A of 8 to 15 mm 2, there is no problem of generating cracks in the high frequency absorbing member 24, and noise of 400 to 700 MHz can be reduced. .

In addition, by adjusting the number of windings of the core inductor 25 and the core inductor 26, it is possible to prevent the interference of wide-area communication waves of 1000 MHz or less, and also to the circumferential outer periphery of the high frequency absorbing member 24. By forming the core type inductor 25 wound close to the line 23, the inductance is stabilized and the variation of noise of 1000 MHz or less can be reduced.

<Example>

Next, the Example which confirmed the effect of this invention is demonstrated.

The magnetron device of the embodiment of the present invention has a leakage preventing portion 10 having the configuration shown in FIG. 2, and the choke coil 27, as shown in FIG. 3, has a core type inductor 25 and an air core type inductor ( 26) the length L2 of the core-type inductor 25 on the coil L2 = 16.4mm, the air core type, using a flue wire having a wire diameter d = 1.4mm coated with a polyamide having a thickness t = 30 μm. The circumferential high frequency absorption member 24 formed of the length L3 = 9.2 mm of the inductor 26 and the ferrite material (for example, material 6H3 manufactured by Dmet Electric Co., Ltd.) is set to the length L1 = 18 mm. The noise level in the 400 to 700 MHz band at the time of changing the diameter D1 of the cylindrical high frequency absorbing member 24 to 3.0 to 9.8 mm (cross-sectional area A = 7 to 24 mm 2) was examined. The result of was obtained. In addition, the standard value shown in FIG. 4 is a CISPR11 standard, and the allowable value of a noise level is 37 dB (microV / m) in the frequency range of 230-1000 MHz.

As apparent from Fig. 4, in the magnetron device of the embodiment of the present invention, the noise level rises when the cross-sectional area A of the high-frequency absorbing member 24 formed of the ferrite material borders 12.5 mm 2 (diameter D 1 = 4.0 mm), and the cross-sectional area A = It was found that it is in the range of 8 to 15 mm 2 (diameter D1 = 3.2 to 4.4 mm) and satisfies the allowable value of 37 dB of the CISPR11 standard. By changing the cross-sectional area A of the high frequency absorbing member 24, the inventors made clear for the first time that the noise level in the 400 to 700 MHz band is reduced.

In addition, in the cross-sectional area A = 7 to 24 mm 2 of the high frequency absorbing member 24 formed of a ferrite material, the choke coil surface temperature (surface temperature in an excessive state in the microwave no-load test "JIS C 9250 microwave oven") ) Is about 100 ° C., and there is no practical problem that the insulation coating of the wound wire of the choke coil 27 burns and is damaged, causing poor insulation or cracking of the high frequency absorbing member 24 formed of a ferrite material. This is thought to be the result of connecting the concentric inductor 26 of the choke coil 27 between the stem 28 having the stem electrons 28a and 28b and the core inductor 25 of the choke coil 27. do.

Also, in the life test, it is possible to prevent the interference of the wide-area communication propagation of 1000 MHz or less, there is no shortage or dropping of the ferrite of the high frequency absorption member 24, and no breakdown voltage of the through capacitor is generated. I confirm that.

As described above, according to the present invention, the noise of the 400 to 700 MHz band can be reduced with a simple configuration that changes the cross-sectional area of the rod-shaped high frequency absorption member of the choke coil of the conventional magnetron device.

Claims (2)

In the filter case, a choke coil formed by connecting a core inductor having a rod-shaped high frequency absorption member inside the wound line and an air core inductor not having the high frequency absorption member inside the wound line, and the choke coil on the side of the air core inductor. And a condenser having a stem having a stem terminal connected to one end of the choke coil, and a condenser terminal connected to the other end of the choke coil on the core inductor side. A magnetron device characterized by reducing noise. The magnetron device according to claim 1, wherein the high frequency absorbing member is formed of a ferrite material, and the cross-sectional area thereof is set to 8 to 15 mm 2.