KR100247357B1 - Magnetron - Google Patents

Abstract

The present invention is to provide a groove in the ceramic cathode portion to extend the power supply terminal to the inner groove is provided to connect with the filament rod, the overall design of the filament rod short to prevent disconnection of the filament due to vibration and impact The purpose is to provide a magnetron.

The structure is characterized in that a groove is provided in the ceramic member of the magnetron, and the filament rod is extended to the inner end of the groove so that the power supply terminal is inserted into the groove and connected to the filament rod. do.

Therefore, according to the present invention, the filament rod can be shortened as a whole by providing a groove in the ceramic cathode portion and extending the power supply terminal in the groove. Therefore, it is possible to reduce the problem of disconnection due to vibration and impact due to length, there is an excellent effect of improving the reliability of the product.

Description

magnetron

The present invention relates to a magnetron, and more particularly, to a structure of a ceramic cathode portion for mounting a filament terminal of the magnetron.

In general, a microwave oven is a cooking utensil to cook food by using the heat generated by moving the molecular array of food by oscillating ultra-high frequency and irradiating it to food. That is, the microwave oven has been equipped with a magnetron, which is a microwave generator, to perform a cooking operation.

1 is a conventional cross-sectional view of a magnetron that is a device for generating a high frequency during such a cooking operation.

The magnetron is largely composed of an output part, an anode part, a cathode part, a cooling part, a magnetic circuit, and a filter circuit part. The dual output part 1 is a part that draws out microwave energy generated by the interaction between the anode and the cathode of the magnetron to the outside, and the anode part 2 constitutes the cavity resonator, and the cathode part 3 ) Is the part emitting electrons. And the cooling unit 4 is a portion for cooling the heat generated during the operation of the magnetron, the magnetic circuit portion 5 is a ferrite permanent magnet for supplying a magnetic field for controlling the movement of electrons between the anode and the cathode The filter circuit unit 6 is for suppressing the leakage wave, although a part of the high frequency generated by the oscillation of the magnetron leaks out along the power supply line of the cathode.

And the power supply to the magnetron is made through the ceramic cathode portion 7, the ends of the ceramic cathode portion 7 extends from the inside of the magnetron and disposed of the filament rod 8 and the cathode rod (ROD) (9) Projected. Then, power supply terminals 8-1 and 9-1 are coupled to each protruding rod. Therefore, the supply power is transmitted to the cathode portion 3 and the anode portion 2 through the respective power supply terminals 8-1 and 9-1, and the microwaves are oscillated by the interaction between the anode and the cathode.

However, the conventional magnetron had the following problems. That is, the filament rod disposed on the inner surface of the ceramic cathode portion of the magnetron has a high risk of disconnection during vibration and impact due to the extension of the length by the ceramic cathode portion.

The present invention has been made to solve the above problems, the object of the present invention is to provide a groove inside the ceramic cathode portion to extend the power terminal to the inner groove provided by connecting the filament rod, so as to design a short filament rod as a whole It is to provide a magnetron to prevent breakage of the filament due to vibration and impact.

1 is a cross-sectional view of a conventional magnetron,

2 is a cross-sectional view of a magnetron according to the present invention;

3 is a perspective view of a ceramic cathode portion of the magnetron according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: yoke 20: anode 40: output

50: input 51: ceramic cathode 52: filament rod

53: cathode rod 54, 55: power supply terminal 56: home

The configuration of the present invention for achieving the technical problem, an anode cylinder for generating high-frequency energy, the F seal tube one end is coupled to the lower portion of the anode cylinder to seal it, through the F seal tube from the outside A filament rod and a cathode rod for supplying current to an anode cylinder, an insulation member for insulating and insulating the filament rod and the cathode rod extending out of the seal tube, the filament rod and the kerosene in the insulation member In the magnetron including a power supply terminal for supplying power to the sword rod, the insulating member is a ceramic member is provided with a groove inside the ceramic member, the filament rod is extended to the inner end of the groove to the A power supply terminal is inserted into the groove and connected to the filament rod. Shall be.

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

2 is a cross-sectional view of the magnetron according to the present invention, Figure 3 is a partial perspective view of the ceramic cathode portion of the magnetron according to the present invention.

First, the structure of the magnetron will be briefly described with reference to FIG. 2.

As shown in FIG. 2, an anode portion 20 for generating energy is provided inside the yoke 10 constituting the body. In addition, an input unit 50 through which power is input is provided at a lower end of the positive electrode unit 20, and an output unit 40 for extracting microwaves is configured at an upper end thereof.

The anode portion 20 is provided with a cathode cylinder 21 having a plurality of vanes 23 connected to each other by the anode strap 24 to form a common resonance, and the vanes 23 have an inner circumferential surface of the anode cylinder 21. It is a resonator formed of magnetic induction and capacitance with vanes 23 adjacent to each other by being provided at radial equal intervals and forming a working space 22 in the center thereof. At the center of the anode cylinder 21, a spiral filament 25 for releasing hot electrons in the axial direction and a filament rod 52 for supplying current to the filament 25 are provided, and the cathode rod 53 is provided. It is installed to supply a current to the vane 23 of the anode. And the ferrite magnets (27, 28) are formed in the upper and lower portions of the anode cylinder 21 to form magnetic energy and the vane to direct the magnetic energy to the working space 22 between the filament (25) and the vanes (23) The upper and lower sides of the 23 is configured with a funnel-shaped pole piece installed at regular intervals, each consisting of an upper pole piece 29 installed on the upper portion and a lower pole piece 34 disposed on the lower portion. In addition, upper and lower caps 31 and 32 are provided at the center of each of the upper and lower magnetic pole pieces 29 and 34 to shield hot electrons emitted from the filament 25 in the upper and lower directions, and the anode cylinder 21 is provided. In the lower portion of the) f seal 30 is formed to seal it.

Meanwhile, an antenna rod 41 coupled to one of the vanes 23 to emit microwaves through the through hole 42 of the upper pole piece is connected to the output unit 40 along the tube axis. In addition, in order to dissipate heat generated in the anode cylinder 21, a plurality of cooling fins 33 are installed on the outside thereof.

The input unit 50 is provided with a ceramic cathode portion 51 into which the filament rod 52 and the cathode rod 53 are inserted and coupled, and a power source for inputting power to the filament rod 52 and the cathode rod 53. Supply terminals 54 and 55 are provided. In addition, the front end of the power supply terminal 54, 55, the filter circuit portion for preventing a part of the high frequency generated by the oscillation of the magnetron to the outside along the power supply line of the negative electrode is further configured.

Referring to the ceramic cathode portion 51 according to the present invention of the above-described configuration in more detail as follows.

The ceramic cathode portion 51 guided the coupling position of the filament rod 52 and the power supply terminal 54 to the inside of the ceramic cathode portion 51 for the purpose of shortening the length of the filament rod 52. That is, as the groove 56 is formed inside the ceramic cathode portion 51 to insert the power supply terminal 55 into the groove 56, as a whole, the groove inner insertion length of the power supply terminal 55 is as much as possible. The length of the filament rod 52 is shortened. Therefore, the filament rod 52 can reduce the influence of disconnection due to vibration and impact.

3 is a partial perspective view illustrating a connection state between the filament rod 52 and the power supply terminal 54 of the ceramic cathode portion 51.

That is, the filament rod 52 on one side of the rod of the ceramic cathode portion 51 is provided in the groove 56 inside the ceramic anode portion 51, and a power supply terminal for supplying power to the filament rod 52 (54) is wired.

As described in detail above, according to the present invention, the filament rod can be shortly designed as a whole by providing a groove in the ceramic cathode portion and extending the power supply terminal in the groove. Therefore, it is possible to reduce the problem of disconnection due to vibration and impact due to length, there is an excellent effect of improving the reliability of the product.

Claims (1)

An anode cylinder for generating high-frequency energy, an F seal tube whose one end is coupled to a lower portion of the anode cylinder to seal it, and a filament rod and a cathode rod for supplying current to the anode cylinder from the outside through the F seal tube And an insulation member for insulating the filament rod and the cathode rod extending outside the seal tube, and a power supply terminal for supplying power to the filament rod and the cathode rod in the insulation member. In the magnetron, A groove is provided inside the insulating member, and the filament rod is extended to the inner end of the groove so that the power supply terminal is inserted into the groove and connected to the filament rod.

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