KR19990009046U - Magnetron Chiller - Google Patents

Abstract

The present invention relates to a magnetron cooling device that improves the cooling efficiency of the magnetron by forming a hole in the upper and lower sides of the cooling fins fastened to the inner anode of the magnetron so that fluid flows to the left and right upper and lower sides as a whole. 4) When the temperature of the anode 1 is excessively increased by the heat radiated from the anode 1 positioned inside the sealed state, thermal stress inside the sealed anode 1 is severely generated and at the same time, the anode 1 As the strap or vane not shown inside is deformed due to high heat, the performance and lifespan of the magnetron are reduced, and between the cooling fins 3 to cool the heat radiated from the anode 1. When the fluid flows, the flow of fluid flows to the left and right as a whole to obtain the boundary layer effect, but the flow in the vertical direction There is a problem that does not exist to not efficiently cool the heat radiated from the anode (1).

The present invention is formed between the outer circumferential surface of the anode and the inner surface of the yoke for protecting the anode to form a hole in the upper and lower sides of the cooling fin to cool the heat radiated from the anode in order to solve this conventional problem The fluid flows to the side to improve the cooling efficiency of the magnetron as a whole is applied to the magnetron of the microwave oven.

Description

Magnetron Chiller

The present invention relates to a magnetron cooling apparatus which improves the cooling efficiency of the magnetron as a whole by forming a hole in the upper and lower sides of the cooling fin fastened to the inner anode of the magnetron so that the fluid flows to the left and right.

Conventional magnetron is an anode (1) is located in the interior of the magnetron, as shown in Figures 1 to 3, the microwave is generated when a certain amount of anode voltage and anode current is applied and a large amount of hot electrons are emitted at the same time, An antenna cap 2 for protecting and protecting an unillustrated antenna that radiates microwaves generated by the anode 1 to the outside, and a certain amount of microwaves are not radiated when the microwaves generated by the anode 1 are radiated to the outside through the antenna. The anode (1) and the cooling fin (3) are protected so that a plurality of cooling fins (3) installed on the outer circumferential surface of the anode (1) for dissipating the heat when the remaining microwaves are converted into heat, and a magnetic closing circuit of the magnetron are configured. It is composed of a yoke (4) and a permanent magnet (5) located in the upper and lower portions of the yoke (4) in which the anode 10 is located to form a magnetic closure circuit, 6 is the filter box.

In the conventional magnetron configured as described above, as shown in FIGS. 1 to 3, when a certain amount of anode voltage and anode current are applied to the anode 1 located inside the yoke 4, the inside of the anode 1 sealed in a vacuum state is provided. In the microwave is formed is emitted to the microwave through the antenna not shown is protected and supported by the antenna cap (2).

At this time, the heat loss is generated except for the energy forming the microwave formed in the anode (1) is converted to heat, the converted heat is conducted to the not shown vane installed inside the anode (1) to the sealed anode Heat is radiated to the outside of (1).

As such, a plurality of cooling fins 3 are installed between the outer circumferential surface of the anode 1 and the inner wall surface of the yoke 4 for protecting and supporting the anode 1 when heat is radiated from the anode 1. The cooling fins 1 installed on the outer circumferential surface of the anode 1 efficiently cool the heat radiated from the anode 1, thereby preventing the performance of the magnetron.

However, in the conventional magnetron, when the temperature of the anode 1 is excessively increased by heat radiated from the anode 1 located in the sealed state inside the yoke 4, the thermal stress inside the sealed anode 1 is severely generated. At the same time, the strap or vane not shown inside the anode 1 is deformed by high heat, thereby reducing the performance and life of the magnetron, but cooling the high heat radiated from the anode 1. As a plurality of cooling fins 3 are installed on the outer circumferential surface of the anode 1, in order to bend the ends of the cooling fins 3 and divide them into several equal parts in order to widen the cooling area by the cooling fins 3. The fluid flows between the cooling fins 3 between the outer circumferential surface of the anode 1 and the inner surface of the yoke 4 which protects the anode 1 to cool the heat radiated from the anode 1. When the flow of the fluid as a whole proceeds from side to side to obtain a boundary layer effect, there is a problem that does not efficiently cool the heat radiated from the anode (1) because there is no flow in the vertical direction.

The present invention is formed between the outer circumferential surface of the anode and the inner surface of the yoke for protecting the anode to form a hole in the upper and lower sides of the cooling fin to cool the heat radiated from the anode in order to solve this conventional problem Its purpose is to improve the cooling efficiency of the magnetron as a whole to flow the fluid to the side, it will be described the configuration and effect of the present invention by the accompanying drawings.

1 is a cross-sectional view showing the structure of a conventional magnetron.

Figure 2 is a detailed view of the cooling fins showing a cooling fluid flow state of the conventional magnetron.

Figure 3 (a) (b) is a perspective view showing a partial structure of a conventional magnetron.

Figure 4 is a detailed view of the cooling fins showing the cooling fluid flow state of the present invention magnetron.

Figure 5 (a) (b) is a perspective view showing a partial structure of the magnetron of the present invention.

First, as shown in FIGS. 4 and 5, the cooling device of the inventive magnetron forms a plurality of holes 3A in the cooling fins 3 for cooling the high heat generated in the anode 1, and the As the cooling fluid is configured to flow in the left and right and up and down directions when flowing into the cooling fin 3, the same parts as in FIG.

As shown in FIGS. 4 and 5, the effect of the present invention configured as described above is that when the anode 1 and the anode current of a certain amount are applied to the anode 1 located inside the yoke 4, the anode sealed in a vacuum state ( Inside 1), microwaves are formed and emitted into the microwave through an unshown antenna that is protected and supported by the antenna cap 2.

At this time, the heat loss is generated except for the energy forming the microwave formed in the anode (1) is converted to heat, the converted heat is conducted to the not shown vane installed inside the anode (1) to the sealed anode Heat is radiated to the outside of (1).

As described above, in order to cool the heat radiated from the anode 1 when the heat is radiated from the anode 1, the cooling is performed by a forced air cooling method using a fan (not shown). When forcibly introduced into the yoke 4, the cooling fluid introduced into the yoke 4 flows into the cooling fins 3 installed on the inner surface of the yoke 4 and the outer circumferential surface of the anode 1.

At this time, the plurality of cooling fins (3) installed on the inner surface of the yoke (4) and the outer peripheral surface of the anode (1) is formed in a way that both ends are bent and divided into several equally folded folding fins (3) inside As the cooling fluid flows into the turbulent flow, the introduced cooling fluid flows to the left and right of the cooling fins 3, and at the same time, the cooling fins 3 are formed with a plurality of holes 3A. When the cooling fluid flows into the cooling fin 3 by force and flows left and right, the cooling fluid flows into the plurality of holes 3A formed in the cooling fin 3, and thus the cooling fluid introduced as a whole is cooled by the cooling fin 3 Since the inside flows in the left and right and up and down directions, the cooling efficiency of the magnetron is improved.

That is, when heat is radiated from the anode 1, when a cooling fluid is forcibly introduced into the cooling fin 3 by a fan (not shown), turbulence is formed by the shape of the cooling fin 3 so that it is cold ( When the cooling fluid flows primarily to the left and right sides of 3), the cooling fluid is secondaryly generated through the holes 3A formed in the cooling fins 3, thereby increasing the overall cooling efficiency.

As described above, when heat is radiated from the anode, when the heat generated from the anode is cooled by a plurality of cooling fins installed on the outer circumferential surface of the anode, a plurality of holes are formed in the cooling fins so that the cooling fluid flows into the cooling fins. As a result, the cooling fluid of the magnetron is improved as a whole by flowing the cooling fluid in the horizontal direction and the vertical direction during the flow.

Claims (1)

It is located inside the magnetron and sealed to the anode (1) where a microwave is generated when a certain amount of anode voltage and anode current is applied, and at the same time a large amount of hot electrons are emitted, and not shown to radiate the microwave generated from the anode (1) to the outside. An antenna cap (2) for protecting the antenna and the anode for radiating the heat when the microwave generated from the anode (1) is radiated to the outside through the antenna and the remaining microwave is converted into heat A plurality of cooling fins (3) provided on the outer circumferential surface of (1), a yoke (4) for protecting the anode (1) and the cooling fins (3) to form a magnetic closure circuit of the magnetron, and the anode (1) is located In the magnetron made of a permanent magnet (5) located in the upper and lower portions of the yoke (4) to form a magnetic closure circuit, The outer circumferential surface of the anode 1 and the yoke 4 to cool the high heat generated by the anode 1 when the heat converted when the microwave is generated at the anode 1 by the anode voltage and the anode current are generated at the anode 1. Cooling performance is improved by forming a plurality of holes (3A) in the surface of the plurality of cooling fins (3) fastened between the inner surface of the cooling fins (3) flows in the left and right and up and down directions Cooling device of the magnetron, characterized in that configured to be improved.