KR19990023519U - Microwave Magnetron Heat Sink - Google Patents

Abstract

The present invention relates to a magnetron heat sink of a microwave oven, and in the related art, since it simply passed between the heat sink and the heat sink, the cooling efficiency of the heat sink was not sufficient, and thus, the temperature of the magnetron tends to increase, which causes the output. In addition to the decrease in efficiency, the heat of high temperature is also transferred to various other parts in the electrical equipment room, which may cause shortening and failure of the parts, and in severe cases, there is a problem of causing parts such as damage and fire due to overheating.

Therefore, the present invention is mounted to cross the open side of the yoke 120, and both sides face the inner wall of the yoke 120 and cooled by being alternately bent at the center portion along the inner wall on the side facing the inner wall. In a magnetron heat sink of a microwave oven forming a piece (102), two or more incisions in a direction crossing the open side on both sides of the heat sink (100) toward the open portion of the yoke (120). And bending the cut pieces formed in the middle of the incision line to each other with the center as the axis to form a temperature dispersing means 130, the incision is elongated at regular intervals from both sides of the width of the heat sink to both sides. By bending the cut-out part up and down to form a passage through which the blowing wind passes through the operation of the cooling fan to maximize the contact area to increase the cooling efficiency. It works.

Description

Microwave Magnetron Heat Sink

The present invention relates to a magnetron heat sink of a microwave oven, and more particularly, a path through which wind blown through operation of a cooling fan is bent by cutting the cut up and down sections at a predetermined interval from the center of the heat sink to both sides. The present invention relates to a magnetron heat sink of a microwave oven that maximizes the contact area by increasing the cooling efficiency.

In general, a microwave oven is configured to place food on a tray in a cooking chamber and irradiate the high frequency generated from the magnet to the inside of the cooking chamber so that the food is heated and cooked by the high frequency. Among such microwave ovens, a microwave oven that heats food only by high frequency is referred to as a microwave oven having a simple function, and a microwave oven having a grill and oven function by a high frequency heater and a convection pan is called a multifunctional microwave oven.

As described above, the single function microwave and the multifunction microwave are divided into a cooking room and an electric equipment room. When the electric function is described in terms of the inherent functions of the microwave, the high voltage transformer and the high voltage transformer generate high voltage. Magnetrons and waveguides are installed to emit microwaves, and the high-pressure transformers and magnetrons are operated to generate high heat. Therefore, a cooling fan to prevent them from overheating and a duct for inducing the cooling fan to the inside of the cooking chamber are provided. It is installed.

The magnetron oscillates a high frequency corresponding to "strong" or "weak" for a predetermined time according to the selection of the output adjustment knob and the timer knob. The generated high frequency is irradiated to the food in the cooking chamber through the waveguide and uniformly. The food is cooked or thawed by heating so that the configuration of the magnetron oscillating high frequency, which is a heating source of the microwave, is as follows.

1A and 1B show a magnetron 10 of a microwave oven according to the prior art, the magnetron 1 including a terminal 10 and a filament voltage unit 12 including an anode voltage; Permanent magnets 4 are formed at both ends of the yoke 14 at the lower portion of the filament portion 12 to form a cathode voltage, respectively, and an anode cylinder 2 connecting the permanent magnets 4 is formed. A plurality of heat sinks 3 penetrating the anode cylinder 2 is mounted, and an antenna 19 for oscillating high frequency is formed, and the anode cylinder 2 is disposed between the permanent magnets 4 on both sides. A magnetic field is formed parallel to the central axis.

That is, electrons from the cathode of the center axis of the anode cylinder 2 are directed toward the surrounding anode. However, due to the magnetic field of the strong permanent magnet 4 acting in the up and down direction, the magnitude of the electrons is bent to 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, and high frequency oscillates.

However, a lot of heat is generated in the high voltage transformer and the magnetron oscillating high frequency as described above. This heat is conventionally distributed by dissipating heat by installing a heat sink 3 in the anode cylinder 2, and the heat is air-cooled by cooling air of a cooling fan installed at the rear wall of one side of the electric chamber of the microwave oven. Cooling structure to cool magnetron and high pressure transformer.

The heat sink 3 is beaded to one side along the open direction at predetermined intervals from the upper and lower inner walls of the yoke 14, and forms a constant distance from each other with the length of the beaded process as a length. Four cut pieces are formed, and the central cut pieces are alternately bent to form cooling pieces 21 and 21 '.

The cooling fan is mounted to the heat sink 3 thus formed in the direction in which the yoke 14 is opened, and the wind generated by the operation of the cooling fan passes between the heat sinks 3.

By the way, since the wind of the said cooling fan simply passed between the heat sink and the heat sink, the cooling efficiency of this heat sink was not enough.

As a result, the magnetron tends to rise above the normal temperature due to the long-term use and continuous use of the microwave oven, and as a result, the output efficiency decreases and high temperature heat is transferred to various other parts in the electrical room. It may cause shortening of life and failure, and in severe cases, it may cause risk of component damage and fire due to overheating.

Therefore, an object of the present invention is to solve the above problems, the long incision from the center of the width of the heat sink to the both sides at a predetermined interval long bend the cut section up and down the passage through which the wind blown by the operation of the cooling fan passes through The present invention provides a magnetron heat sink of a microwave oven that maximizes the contact area by increasing the cooling efficiency.

The object of the present invention is mounted across the open side to the yoke of the magnetron, and beaded at a predetermined distance from the inner wall of the yoke, the beaded both ends after cutting the beaded In the heat sink to form a cooling piece, forming three incision line across the open direction of the yoke in the mounting direction, and bending the center of the incision piece formed between the incision line to the axis to form a temperature dispersion wing It is achieved by the feature.

The present invention, when the cooling fan is operated, the cooling wind passes the temperature in the open direction of the yoke and takes the temperature from the surface of each heat sink, and is also cut across the open portion of the yoke to the bent temperature distribution means The above object can be achieved by further adding a degree of taking away the temperature.

1 is a view showing a magnetron of a microwave oven equipped with a heat sink according to the prior art, Figure 1a is a full perspective view, Figure 1b is a partial side view,

Figure 2 is a view showing a magnetron of a microwave oven equipped with a heat sink according to an embodiment of the present invention, Figure 2a is a perspective view, Figure 2b is a partial side view.

Explanation of symbols for main parts of the drawings

100: heat sink 102: cooling piece

110: magnetron 120: yoke

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings, in which the technical constitution and effect of the present invention can be effectively achieved.

Figure 2 is a view showing a magnetron 110 of a microwave oven equipped with a heat sink 100 according to an embodiment of the present invention, Figure 2a is a perspective view, Figure 2b is a partial side view.

The heat sink 100 is mounted to cross the open side of the yoke 120, both sides of the yoke 120 to the inner wall of the side facing the inner wall and bent to cross each other in the middle portion along the inner wall As a result, the cooling piece 102 is formed as in the prior art.

In this embodiment, two or more incisions are formed on both sides of the heat sink 100 toward the open portion of the yoke 120 in a direction crossing the open side, and a cut formed in the middle of the incision line. It is characterized by forming the temperature dispersing means 130 by bending the pieces apart from each other with the center as the axis.

According to the preferred embodiment of the present invention described above, when the microwave oven is operated to emit high frequency in the magnetron, and the cooling fan is operated, the cooling fan passes through the opening of the yoke to take the temperature from the surface of the heat sink, in particular Dissipate more heat from the temperature spreading means.

As described above, the present invention has a long incision from the center of the width of the heat sink to both sides at a predetermined interval to bend the cut up and down to form a passage through which the wind blowing through the operation of the cooling fan to maximize the contact area This has the effect of increasing the cooling efficiency.

Claims (1)

The open side of the yoke 120 is mounted to cross, and both sides face the inner wall of the yoke 120 and are alternately bent in the middle portion along the inner wall to the side facing the inner wall, thereby cooling the cooling piece 102. In the magnetron heat sink of the microwave oven formed, two or more incision lines are formed in both directions toward the open portion of the yoke 120 from the heat sink 100 in the direction crossing the open side. A magnetron heat sink of a microwave oven, characterized in that to form a temperature dispersing means (130) by bending the cut pieces formed in the middle of the incision line to each other with a central axis.