KR200363694Y1 - Microwave generator for magnetron - Google Patents

Abstract

The present invention relates to a microwave generator for a magnetron in which the microwave guide 20 and the high voltage device 21 are integrated into the waveguide launcher 1.

According to the present invention in the microwave generator for generating a microwave by connecting the microwave head 20 and the high voltage device 21 equipped with the magnetron 12 with a separate high voltage cable 22a and a control cable 22b By integrating the two devices into the waveguide launcher 1, a high voltage cable 22a and a control cable 22b are not used to provide a microwave generator for a magnetron.

Description

Microwave Generator for Magnetrons {MICROWAVE GENERATOR FOR MAGNETRON}

The present invention relates to a microwave generator for a magnetron, and more particularly, to a microwave generator for a magnetron in which the microwave head 20 and the high voltage device 21 are integrated into the waveguide launcher 1.

Generally, the waveguide launcher 1 has a specific size of the scene 2 and the cross section 3 inside a rectangular metal tube made of metal as shown in FIG. As shown in FIG. 1 (B), a plurality of fixing parts 10 and a shorting plate having a gasket ring 9 and a fixing bolt hole 10a press-fitted into the antenna insertion hole 8 of the waveguide 6 7) A device composed of a flange 11, on which the magnetron 12 is mounted, is referred to as a waveguide launcher 1, and the magnetron 12 is connected to the waveguide launcher 1 as shown in FIG. 2 (A) and (B). The state in which the cooling fan 13 and the control component are mounted is called the microwave head 20, and when the high voltage device 21 is included, these two devices are collectively called a microwave generator.

Among these two devices for generating microwaves, the microwave head 20 is installed directly to an applicator (not shown) or by connecting an extension waveguide (not shown), and the high voltage device 21 is an applicator (not shown). In consideration of the size and shape of the, it is installed in a separate fixing device as necessary. These two devices are connected by the high voltage cable 22a and the control cable 22b, and are connected to the supply power via the main power line 25.

In order to operate the magnetron 12 used in the microwave generator, a high DC high voltage is required. Although there are some differences among manufacturers, the magnetron requires high voltage of about 4.500v at 1kw, 5.200v at 3kw, 7.300v at 5kw, and high voltage at the cathode. It is used in a wide range of applications such as heating, plasma generation and medical devices.

However, as a structure in which the microwave head 20 and the high voltage device 21 are separated and installed, and the two devices are connected by the high voltage cable 22a and the control cable 22b, installations that are more than necessary for increasingly smaller application devices are required. Not only does it take up space, but also the free placement of the two devices is not only difficult, but also due to the complexity of the mutual control of the separate devices, safety problems such as an increase in production costs and electric shocks during inspection and repair can occur.

An object of the present invention was devised to solve the above problems, by forming an extension frame 4 in the wave guide launcher 1 to integrate the magnetron head 20 and the high voltage device 21, the high-voltage cable 22a And a control cable 22b, the present invention provides a miniaturized, low cost, safe magnetron microwave generator.

1A and 1B are cross-sectional and exploded perspective views of a conventional waveguide launcher for a magnetron;

2A and 2B are perspective views showing a conventional magnetron generator.

3 is a cross-sectional and exploded perspective view of the waveguide launcher for the magnetron according to the present invention

Figure 4 is an exploded perspective view of a generator for a magnetron according to the present invention.

5 (A) (B) is another embodiment of a launcher for a magnetron according to the present invention

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

1: Waveguide Launcher 2: Scene

3: cross section 4: extension frame

5: Wing Extend 6: Waveguide

7: Short circuit plate 8: Antenna insertion hole

9: gasket ring 10: fixing part

10a: fixing bolt hole 11: flange

12: magnetron 13: cooling fan

14: antenna

20: microwave head 21: high voltage device

22a: high voltage cable 22b: control cable

23: Device cover 24: Activity light

25: mains line 26: high voltage rectifier

27: high voltage capacitor 28: high voltage transformer

29: cover fixing bolts with balls

According to the present invention, the microwave generator 20 is connected to the microwave head 20 equipped with the magnetron 12 and the high voltage device 21 by a separate high voltage cable 22a and a control cable 22b to generate a microwave. By providing an extension frame 4 in the waveguide launcher 1 to integrate the two devices, the microwave generator for the magnetron is characterized in that the high voltage cable 22a and the control cable 22b are not used. do.

Below. Referring to the accompanying drawings, preferred embodiments of the present invention will be described with reference to the configuration of the microwave generator for a magnetron.

Figure 3 is an exploded perspective view showing an example of the waveguide launcher according to the present invention, Figure 4 is an exploded perspective view showing an example of a schematic configuration of the microwave generator according to the present invention.

The waveguide 6 constituting the body of the microwave generator according to the embodiment of the present invention is made of aluminum as a rectangular metal tube, the size of the scene (2) and cross-section (3) of the inner surface is 109.22 X54 .61mm, WR340 is 86.36 X43.18mm, WR284 is 72.1 X34mm, and the extension frame 4 and the extension blade 5 are formed in both directions of the scene 2, and they are extruded. The material can be selected from copper, brass, aluminum, stainless steel, etc. In general, aluminum is excellent in weight and workability, and the extension frame (4) and the extension blade (5), including the wave guide (6) as necessary. This is because the shape is more versatile and easier to extrude, and the size and material of the rectangle are not equivalent.

The antenna insertion hole 8 at the center of the scene 2 on one side close to the rectangular surface of the wave guide 6 configured as described above, and the plurality of magnetrons 12 are fixed to the extension frame 4 formed in both directions. A fixing bolt hole 10a is formed, and the gasket ring 9 is press-fitted into the antenna insertion hole 8 to fix it. The flange 11, which is a rectangular aluminum plate, has a central opening with the same size so that a rectangular surface of the wave guide 6 can be inserted in the center thereof, and is formed of a plurality of bolt fastening holes around the flange 11. FIG. A portion of the extension frame 4 is cut, inserted into the flange 11, and welded together with the shorting plate 7 so that the rectangular face of the wave guide 6 can be inserted into the flange 11 opening. 1), the magnetron waveguide launcher 11 is formed in which the fixing portion 10 for fixing the magnetron 12 is formed in the extension frame 4.

The shorting plate 7 for releasing the microwave in one direction is made of an aluminum plate having a width covering the scene 2 and the end face 3 of the wave guide 6, and the length of the shorting plate abutting the end face 3 is flange 11. With a length that can serve as a pedestal parallel to the bottom surface, the microwave generator forms a plurality of bolt fastening balls so that the microwave generator is horizontal and easy to fix. When the magnetron 12 is fixed to the plurality of fixing bolt holes 10a formed in the extension frame 4 and mounted to the waveguide 6 together with the cooling fan 13, the antenna 14 of the magnetron 12 is formed of a metal ring. The antenna 14 is fixed to a rectangular center inside the waveguide 6 through the gasket ring 9 formed to be slightly larger than the diameter, and the gasket of the magnetron 12 is pressed against the waveguide 6 to fix the gasket. Squeezed into the ring 9 to prevent leakage of the microwaves.

The high-voltage transformer 28, the high-pressure condenser 27, the high-pressure rectifier 26, and the like are made by making a bolt fastening hole in the extension frame 4 of the space between the magnetron 12 and the flange 11 of the microwave head configured as described above. The included control components are mounted together and wired together to form a waveguide generator.

Therefore, it is preferable that the width of the extension frame 4 is such that the bottom surface of the mounting parts is the size that can be sufficiently mounted, and extends after covering the device cover 23 in which the operation indicator 24 is embedded. It is fixed to a plurality of cover fixing bolt holes 29 formed in the blade (5), the extension blade (5) including the device cover 23, and directly fixed by adding another cooling fan, terminal, etc. required to be mounted to the outside of the device You may. The main power line 25 is connected to a supply power source, and the microwave generator 20 for the magnetron, in which the microwave head 20 and the high voltage device 21 are integrated, does not need the high voltage cable 22a and the control cable 22b. do.

The structure of the extension frame 4 and the extension blade 5 of the present embodiment is adopted based on the extrusion, but the present invention is not limited to the extrusion, the extension frame 4 is bent in a similar form according to the present invention In this way, the waveguide 6 can be welded to have the same configuration. In addition, depending on the size and shape of the parts to be mounted, it is also possible to manufacture a separate frame on which these parts are mounted and mount them on the extension frame 4.

Although described above with reference to a preferred embodiment of the present invention, those skilled in the art will understand that the present invention can be variously modified and changed within the spirit and scope of the present invention described in the claims of the following design It will be appreciated that the claims of the invention will include such modifications and variations as fall within the spirit of the invention.

For example, the waveguide launcher 1 of the above embodiment is configured to mount a high voltage component including the magnetron 12 by forming an extension frame 4 through extrusion of aluminum or the like, but FIGS. 5A to 5B. Shows other embodiments of the waveguide launcher 1 according to the present invention.

FIG. 5 (A) shows that the extension frame 4 can be formed in a rod shape so that the extension frame 4 can be integral with or separate from the fixing part 10. In FIG. By mounting high-voltage components and the like on the extension frame 4 separately configured in the guide launcher 1 and fixing them to the scene 2 in the opposite direction in which the magnetron 12 is mounted, a more compact microwave generator is shown. give.

According to the present invention as described above, by integrating the microwave head 20 and the high voltage device 21 into the extension frame 4 in the wave guide launcher 1, the high voltage cable 22a and the control cable 22b are integrated. By implementing a miniaturized, low-cost, safe device that is not used, a safe magnetron microwave generator capable of saving installation space, relatively free placement, and increasing the reliability of the device according to a simple structure is provided. Can provide.

Claims (3)

In the microwave generator for generating microwaves by connecting the microwave head 20 equipped with the magnetron 12 and the high voltage device 21 with separate high voltage cables 22a and control cables 22b, the waveguide launcher 1 extension frame (4) is formed to integrate the two devices, thereby controlling the high voltage cable 22a. A microwave generator for a magnetron, characterized in that no cable (22b) is used. The waveguide launcher according to claim 1, further comprising an extension blade (5) in the extension frame (4). The short circuit board (7) according to claim 1, further comprising a plurality of fixing balls and a length parallel to the flange (11) of the waveguide launcher (6).