KR19990024324U - Heater Structure of Microwave Oscillation Tube for Microwave Oven - Google Patents

Abstract

In the present invention, the heater 120 is inserted into the hole 182 of the ceramic insulator 186 by using the ceramic insulator 186 having a hole 182 formed therein and a groove 184 formed along the outer circumferential surface thereof. After inserting the ceramic insulator 186 into the band 190 having a shape corresponding to the groove 184 of the ceramic insulator 186 to prevent the flow and contact of the heater 120, the band 190 is heated by the heater. The lower surface of the holder 180 is welded and fixed to the base plate 194 having the ceramic lead portion 198 attached thereto, and the cathode 132 is positioned on the heater holder 180, and the cathode housing 196 is disposed thereon. The heater structure of the microwave microwave oscillating tube for assembling inside, wherein the cathode housing is formed by forming a plurality of heat dissipation holes 210 in the lower portion of the base plate 194 to which the ceramic lead portion 198 is attached. It features.

According to the present invention, since the heat of the upper part is not transferred to the lower part, heat loss is minimized compared to the conventional heater structure, and the temperature of the lower part can be lowered, so that parts having low heat resistance can be used, thereby reducing the manufacturing cost. Have

Description

Heater Structure of Microwave Oscillation Tube for Microwave Oven

The present invention relates to a heater structure of a microwave microwave oscillation tube, and more particularly to a heater structure of a microwave microwave oscillation tube that can minimize the loss of heat generated by the heater.

The applicant's Korean Patent Application Nos. 97-36327 and 36328 disclose microwave microwave oscillating tubes for a simple structure, which can eliminate the risk of high voltage and achieve light weight. Referring to FIG. 1, the ultra-high frequency oscillation tube is schematically described with reference to FIG. 1. The cathode 132 serving as the electron radiator mounted on the upper surface of the heater 120 is indirectly heated by the heating of the heater 120 due to the application of an operating voltage. When heated to about 600-1200 ℃ it emits hot electrons. In this case, a bias voltage is applied to the first grid 134 which is arranged at a predetermined interval on the cathode 132 to form the input cavity 130 together with the cathode 132 to input electrons emitted from the cathode 132. The control is focused on the cavity 130. The output cavity 140 arranged above the input cavity 130 includes a second grid 142 provided at predetermined intervals to face the same shape as the first grid 134 of the input cavity 130, and a second grid. And an anode 146 positioned above the 142, an operating voltage applied to the heater 120 is applied to the second grid 134, and a bias voltage is applied to the first grid 134. The electrons focused on the input cavity 130 are accelerated by the potential difference of H and the surface current is induced in the second grid 142 while passing through the first grid 134 and the second grid 142, and the second grid 142. ) And amplified gradually in the space between the anode and the anode 146, thereby forming a microwave. Such microwaves are radiated through the antenna 150. At this time, the plurality of cooling fins 148 are press-fitted and stacked in the anode 146 to radiate heat.

As shown in FIG. 2, the heater 120 used in the microwave microwave tube for the microwave includes a ceramic insulator 186 having a hole 182 formed therein and a groove 184 formed along an outer circumferential surface thereof. To insert the heater 120 into the hole 182 of the ceramic insulator 186, and to prevent the flow and contact of the heater 120 to have a shape corresponding to the groove 184 of the ceramic insulator 186. After the ceramic insulator 186 was inserted into the band 190, the band 190 was welded to the base plate 194 of the lower surface of the heater holder 180 to fix it. The cathode 132 was positioned above the heater holder 180 and assembled into the cathode housing 196.

However, since the heater structure generates high temperature heat by heating the heater 120, and the heat is transferred to the cathode housing 196 as it is, heat loss occurs and various components must use a material resistant to heat. There was a problem in manufacturing costs.

Accordingly, the present invention has been devised accordingly, and its object is to provide a heater structure of a microwave oven tube for microwave oven which can minimize the loss of heat generated by the heater.

As a means for achieving the above object, the cathode housing of the heater structure of the microwave oven for microwave oven according to the present invention is characterized in that a plurality of heat dissipation holes formed in the lower portion of the base plate with a ceramic lead.

Since the heater structure according to the present invention has a plurality of heat dissipation holes formed in the lower portion of the cathode housing, even if heat generated by the heater is transferred, heat loss is minimized and the temperature of the heater lower is lowered to lower the heat resistance. Since the parts can be used, the manufacturing cost is reduced.

1 is a schematic cross-sectional view showing the structure of a conventional microwave oven for microwave oven,

2 is a cross-sectional view illustrating a mounting state of the heater illustrated in FIG. 1;

3 is a perspective view illustrating a cathode housing of a heater structure according to the present invention.

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

120,300: Heater 130: Input cavity

132: cathode 134: first grid

140: output cavity 142: second grid

146: anode 148: cooling fin

150: antenna 180: heater holder

182: hole 184: groove

186 ceramic insulator 190 band

194: base plate 196: cathode housing

198: ceramic lead portion 200: the present cathode housing

210: heat dissipation hole

Hereinafter, with reference to the accompanying drawings will be described in detail the heater structure of the microwave oven for microwave oven according to a preferred embodiment of the present invention.

3 shows a heater structure according to the present invention, and the heater structure of the present invention adopts a characteristic configuration in which a plurality of heat dissipation holes 210 are formed in the lower portion of the cathode housing, as shown.

In the upper portion of the cathode housing 200 according to the present invention, the heater holder 180 having the heater 120 built therein and the cathode 132 positioned on the holder 180 are assembled therein, while the lower portion of the cathode housing 200 is assembled therein. The base plate 194 with the ceramic lead portion 198 attached thereto is assembled therein.

Meanwhile, in FIG. 3, as an embodiment, the plurality of heat dissipation holes 210 are formed in three rows along the outer circumferential surface of the lower portion of the cathode housing 200 to be formed at equal intervals, but positioned between each row. It is.

When the heater 120 is heated to generate heat, heat is intensively transferred to the upper portion of the cathode housing 200, and only a portion thereof is transferred to the lower portion thereof, thereby minimizing heat loss and increasing the temperature of the lower portion of the cathode housing 200. It will be lower than the temperature of.

As described above, the heater structure of the microwave microwave oscillation tube according to the present invention minimizes heat loss and lowers the temperature of the lower part, compared to the conventional heater structure, so that parts with low heat resistance can be used, thereby reducing manufacturing costs. Has the effect of

Claims (1)

The heater 120 is inserted into the hole 182 of the ceramic insulator 186 by using the ceramic insulator 186 having a hole 182 formed therein and a groove 184 formed along the outer circumferential surface thereof. To prevent the flow and contact of the 120, the ceramic insulator 186 is inserted into the band 190 having a shape corresponding to the groove 184 of the ceramic insulator 186, and then the band 190 is replaced with the heater holder 180. ) Is fixed by welding to a base plate 194 having a ceramic lead-out portion 198 attached thereto, and placing a cathode 132 on an upper portion of the heater holder 180, and assembling them into the cathode housing 196. In the heater structure of the microwave oven tube for microwave, The cathode housing is a heater structure of the microwave oscillation tube for microwave oven, characterized in that a plurality of heat dissipation holes (210) formed in the lower portion of the base plate (194) to which the ceramic lead-out portion (198) is attached.