KR200149667Y1 - Magnetron - Google Patents

Abstract

The present invention relates to a magnetron that generates a high frequency, and the cooling effect is insufficient due to cooling the magnetron (1) by the cooling air of the conventional cooling fan, so that the cooling of the magnetron (1) is shortened and the life of the magnetron (1) is shortened. There was a problem. Accordingly, the upper and lower cylindrical metal cylinders 21 and 22 having different openings are joined to each other to form a heat absorption point 23, and the metal cylinders 21 and 22 are made of the same material as each material. One end of the conducting wires 24 and 25 is joined, and the other end is joined to each other to form a closed circuit in which a heating point 29 is formed, and the power supply unit 26 is connected to one of the conducting wires 24 and 25. After installing the cooling device 20, the metal cylinders 21 and 22 of the cooling device 20 are installed between the anode cylinder 2 and the heat sink 3 by the power supply unit 26. When the power is supplied, the present invention is configured to absorb and release heat at the endothermic point 23 and the heating point 29, thereby extending the life of the magnetron 10, thereby increasing the life of the microwave oven.

Description

magnetron

1 is a partial cross-sectional view showing a conventional magnetron.

2 is a partial cross-sectional view showing a magnetron of the present invention.

Figure 3 is a perspective view of the cooling device and the anode cylinder of the present invention.

* Explanation of symbols for main parts of the drawings

1, 10: magnetron 2: anode

3: heat sink 20: cooling device

21, 22: metal barrel 23: endothermic point

24, 25: wire 26: power supply

27, 28: heating plate 29: heating point

The present invention relates to a magnetron that oscillates a high frequency, and relates to a magnetron that allows itself to cool high heat generated in an anode barrel that generates a high frequency of the magnetron.

In general, the magnetron vacuum tube is widely used in radar oscillation tubes, etc., and it is spread more than us. For example, it is housed in a microwave oven and used in many homes. In the home, the food is cooked according to the taste by direct heating and thawing according to the use of the food. The magnetron is used as a heating source.

That is, in the magnetron, the high frequency is oscillated to cook food in the cooking chamber through the waveguide. In order to uniformly irradiate the food with the high frequency radiated into the cooking chamber through the waveguide, the size of the waveguide, the shape of the waveguide opening, and Steve's Various methods are still under study, considering the location and installation of the stirrer fan.

The magnetron (1) is composed of components such as anode cylinder (2), a plurality of heat sinks (3), permanent magnets (4), which are the main components, the heat sink (3) is fitted into the anode cylinder (2), Permanent magnets 4 are inserted above and below the anode cylinder 2, and other components are connected to the components.

The anode cylinder 2 has a cathode placed on its central axis, and a magnetic field is applied in parallel with this axis. The magnetic field is a permanent magnet 4 made of ferrite. The electrons from the center cathode stick out toward the surrounding anode. However, due to the strong magnetic field acting in the up and down direction, the path bends and turns to the anode toward the anode. When electrons enter the cavity of the anode, the cavity acts like a series circuit of a coil and a condenser, causing a vibration current to oscillate high frequency.

When high frequency oscillation is generated, a considerable amount of heat is generated. This heat is dissipated by installing a heat sink 3 in the anode cylinder 2, and cooling the heat generated from a cooling fan installed at one side of the electrical chamber. The effect was negligible because it was an air-cooled cooling structure cooled by air. Therefore, in order to prepare for such insignificant effects and to prepare for failure of the cooling fan, a thermistor which senses the overheat temperature when the magnetron 1 overheats and stops the operation of the microwave oven was installed and operated in the magnetron 1. .

In addition, there was a problem that the life of the magnetron (1) is shortened because the cooling is not properly performed as a result of the cooling effect is insignificant.

The object of the present invention is to provide a magnetron that increases the cooling effect of the magnetron by extending the magnetron by self-cooling the magnetron by a structure including the cooling device in consideration of the above problems.

The above object is to bond the metal cylinders to each other to form endothermic points, and to each of the metal cylinders, one end of a conductive wire of the same material is joined, and the other end is joined to each other to form a heating point to form a closed circuit. This is achieved by configuring a cooling device by installing a power supply on either conductor.

Hereinafter, the technical configuration and effect of the present invention will be described in detail with reference to the accompanying drawings.

According to the present invention, in the construction of a magnetron in which a plurality of heat sinks 3 are fitted on the outer circumference of the anode cylinder 2, the cylindrical upper and lower openings of different materials are opened as shown in FIG. 2 and FIG. The metal cylinders 21 and 22 are bonded to each other to form a heat absorption point 23, and the metal cylinders 21 and 22 have one end of the conductive wires 24 and 25 made of the same material. The angle lines 24 and 25 are brought into contact with the separate heating plates 27 and 28 which are made of the same material as the two metal cylinders 21 and 22 without being directly connected to the other end thereof. 29 is formed in a closed circuit, and the power supply unit 26 is installed in any one of the conductive wires 24 and 25 to form the cooling device 20, and then the metal cylinder 21 of the cooling device 20 is formed. (22) is installed between the anode tube (2) and the heat sink (3) to supply power by the power supply unit 26, the endothermic point (23) and the heating point (29) Will open up the configure the magnetron 10 so that the absorption and emission.

The reason for forming the heating point 29 against the heating plates 27 and 28 without forming the heating point 29 by connecting the other ends of the conductive wires 24 and 25 as it is is the area of the heating point 29 To increase the heating effect.

Forming endothermic point and heating point by connecting different kinds of metals by using a known Peltier effect, the Peltier effect is the absorption of heat at each junction point when current flows through a circuit of two kinds of metals. Generation occurs when the external current is supplied in the same direction as the thermal current, so that heat is absorbed at the hot junction of the thermocouple and occurs at the cold junction. If the current direction is reversed, absorption and generation will change.

As described above, after inserting and installing the cooling device 20 configured by using the above Peltier effect between the anode cylinder 2 and the heat sink 3, when the microwave oven is operated, the high frequency generated in the anode cylinder 2 In the process of oscillating through the antenna and irradiating into the cooking chamber, the anode cylinder 2 is heated to become hot, but the cooling apparatus 20 inserted into the anode cylinder 2 by the current supplied from the power supply unit 26 of the cooling device 20. The contacts of the two metal cylinders 21 and 22 of the) become the endothermic point 23 to absorb the heat of the anode cylinder 2, and the absorbed heat is drawn out from the two metal cylinders 21 and 22. As the heat is generated through the heating point 29 of the 24 and 25, the anode cylinder 2 is cooled.

As the cooling effect of the magnetron 10 is further increased by the cooling air of the cooling fan installed at one side of the electric room, the magnetron 10 is cooled more effectively than the cooling method which was dependent on the conventional cooling fan. The life of the magnetron 10 is extended to have the effect of increasing the life of the microwave oven.

As described above, the present invention self-cools the magnetron 10 by using the Peltier effect, and furthermore, as the cooling by the cooling fan is added, the cooling effect is increased much more than that of the conventional air-cooling cooling system using only the cooling fan. The magnetron 10 is not overheated and its lifespan is increased so that the lifespan of the microwave oven is increased.

Claims (2)

In constructing a magnetron in which a plurality of heat sinks 3 are fitted on the outer circumference of the anode cylinder 2, the cylindrical metal cylinders 21 and 22 having the upper and lower sides of different materials joined to each other are joined to each other and the endothermic point 23 ), And one end of the conductive wires 24 and 25 made of the same material as each of the metal cylinders 21 and 22, and the other ends thereof are joined to each other to form a heating point 29 After configuring the cooling device 20 by installing the power supply unit 26 to any one of the conductive wires (24) and (25), the metal cylinders (21) and (22) of the cooling device (20) It is installed between the anode cylinder (2) and the heat sink (3) when the power is supplied by the power supply unit 26 is characterized in that the heat is absorbed and released at the endothermic point (23) and the heating point (29). Magnetron. A separate heating plate (10) according to claim 1, wherein the other heating plate (1) which is in contact with each other as the same material as the metal cylinders (21) 22 without directly connecting the other ends of the conductive wires (24) and (25) connected to both metal cylinders (21) and (22). The magnetron characterized by increasing the area of the heating point 29 by bringing the angle lines 24 and 25 into contact with the 27 and 28.