KR19990036199U - Microwave Magnetron - Google Patents

Abstract

The present invention relates to a magnetron for a microwave oven, and particularly has an object to realize a stable magnetic properties by minimizing the magnetic resistance.

In order to achieve the above object, the present invention is a magnetron for a microwave oven provided with a top plate and a bottom plate which form a magnetic path according to magnetic flux generated from upper and lower permanent magnets, and the top plate and the bottom plate are integrally formed.

Description

Microwave Magnetron

The present invention relates to a magnetron for a microwave oven, and more particularly to a top / bottom plate structure for implementing a stable magnetic properties.

As shown in FIG. 1, a magnet for a microwave oven includes an anode 1 having a cathode cylindrical shape and a plurality of vanes 2 radially formed on an inner wall of the anode 1. On the central axis is a filament (3) which is a hot electron radiation cathode spirally formed by adding a thorium component to tungsten, and a working space (4) is formed between the tip of the plurality of vanes (2) and the filament (3) have.

On the upper and lower ends of the anode 1, the upper and lower poles 5 and 6, which are passages of the magnetic circuit, are fixed, and the upper and lower portions of the upper and lower poles 5 and 6 of the magnetic circuit are fixed. The anode seal 7 and the f seal 8, which serve as passages and body supports, are located.

Upper and lower shields 9 and 10 are disposed at both ends of the filament 3 so as to prevent separation of the hot electrons radiated from the filament 3 in the axial direction, and supports the filament 3. At the same time, a center lead 11 for applying an external power source is connected to the upper end shield 9 through the lower end shield 10, and the external lead is applied to the filament 3 together with the center lead 11. The side leads 12 are joined to the lower end shield 10, and the other ends of the center leads 11 and the side leads 12 are connected to the choke coils 13, which serve as noise filter circuits, respectively.

In this manner, the cathode portion of the magnetron is formed of the filament 3, the upper end shield 9, the lower end shield 10, the center lead 11, the side lead 12, and the like.

The antenna feeder 14 which outputs the high frequency energy generated in the working space 4 to the outside is connected to one vane 2 and drawn out through the center of the box pole 5 and the anode seal 7. The upper and lower permanent magnets 15 and 16, which supply the magnetic field to the working space 4, are fitted to the outer diameters of the anode seal 7 and the f seal 8 and are installed.

As shown in FIG. 2, the upper plate 17 and the lower plate 18 constituting the magnetic path are formed and assembled by the magnetic field formed by the permanent magnets 15 and 16, respectively.

In the conventional magnetron for a microwave oven configured as described above, the magnetic field formed by the permanent magnets 15 and 16 forms a magnetic circuit according to the upper and lower plates 18 and 19 and the upper and lower poles 5 and 6. A magnetic field is formed in the working space (4) between the (2) and the filaments (3), and the power is supplied to the filament (3) through the center lead (11), the side leads (12) so that the vanes (2) and the filaments ( 3) If an electric field is formed between the hot electrons emitted from the filament (3), the cathode by the electric field and the magnetic field is converted into high-frequency energy (microwave), which is an electron energy while performing a cycloid (cycloid) movement in the working space (4) This energy is transferred to the vanes 2 and output through the antenna feeder 14 connected to the vanes 2 into the cavity of the microwave oven.

However, since the upper plate and the lower plate of the conventional magnetron are each molded and then assembled and assembled, a lifting phenomenon occurs between the upper plate and the lower plate when an external impact occurs, thereby causing the magnetoresistance of the permanent magnet to be located therein. There was a problem that the output is reduced.

The present invention aims to realize stable magnetic properties by minimizing magnetic resistance by forming the upper plate and the lower plate into one plate and bending them to fit the structure in view of this point.

1 is a configuration diagram of a magnet for a conventional microwave oven.

Figure 2 is a detailed view of the top and bottom plate of the conventional magnetron for microwave oven.

3 is an upper / lower plate integrated case of a magnetron for a microwave oven according to the present invention;

(A) The top view.

(B) is a perspective view after bending.

*** Explanation of symbols for main parts of drawing ***

101: integrated case 102, 104: hole

103: concave groove

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 shows the upper and lower plate integrated structure of the magnetron for a microwave oven according to the present invention, the upper plate and the lower plate constituting the gyro is integrally molded and then bent to conform to the structure to have a shape.

Hereinafter, this will be referred to as an integrated case 101.

The central part of the integrated case 101 is bent and positioned above the magnetron, and the hole 102 into which the microwave output unit is inserted is formed in this part.

Semi-circular concave grooves 103 are formed at both ends of the integrated case 101, which form a complete hole 104 when they are joined to each other after bending to allow the power input unit to be inserted into the hole 104. will be.

At this time, it is important to maintain airtightness when joining both ends of the integrated case 101.

As such, since the integrated case 101 is structurally free from gaps, the integrated case 101 can smoothly serve as a path of the magnetic field generated from the permanent magnet (not shown in the drawing), and especially since the structure does not change even when an external impact occurs. It is possible to realize stable magnetic properties.

In addition, the assembly / fastening process can be eliminated, and only one plate needs to be produced, which is advantageous in terms of productivity and workability.

As described above, the present invention can realize stable magnetic properties by forming the upper and lower plates into one plate and then bending them to conform to the structure to have a perfect shape, and by reducing parts and eliminating assembly / fastening processes. There is an effect that can reduce the manufacturing cost and improve productivity.

Claims (2)

In the magnetron for a microwave oven provided with a top plate and a bottom plate to form a magnetic path according to the magnetic flux generated from the upper and lower permanent magnets, The magnetron for a microwave oven, characterized in that the upper and lower plates are integrally formed. The method of claim 1, The upper plate and the lower plate is formed into a single plate and then bent to suit the structure magnetron for a microwave oven, characterized in that configured.