KR19990018437U - Anode Assembly of Microwave Oscillating Tubes for Microwave Ovens - Google Patents

Abstract

The present invention relates to an anode assembly of a microwave oven tube for microwave oven, the filter box 500 is bent at the upper end and inserted into the outer body 300, the assembly is easy, the anode 600 is the outer peripheral surface By bending to form the fastening part 620, the fastening part 620 is fastened to the frame 174 supporting the second grid 142. Meanwhile, the protrusion 640 is formed adjacent to the fastening part 620, and the recess 660 is formed adjacent to the protrusion 640.

An insulating means is inserted between the filter box 500 and the protrusion 640 of the anode 600 configured as described above. As the insulating means, for example, a ceramic annular body 700 is used. Upper and lower surfaces of the ceramic annular body 700 are brazed and fixed to the filter box 500 and the anode 600, respectively.

According to the present invention, since the filter box is fastened to the outer body, the assembly is easy, and the ceramic phantom is inserted between the protrusion part of the anode and the filter box, thereby preventing the surface current from flowing through the filter box.

Description

Anode Assembly of Microwave Oscillating Tubes for Microwave Ovens

The present invention relates to an ultra-high frequency oscillation tube for a microwave oven, and more particularly, to an anode assembly of an microwave oscillation tube for a microwave oven, which insulates the anode and the filter box main body, prevents current from flowing on the surface, and makes the size compact. It is about.

Korean Patent Application No. 97-36237 of the applicant has proposed a microwave microwave tube for the microwave structure that is simple in structure and can eliminate the risk of high voltage and achieve light weight. As shown in FIG. 1, the ultra-high frequency oscillation tube is a cathode 132 placed on the upper surface of the heater 120 as an electromagnetic radiator by an indirect heating method by the heat generation of the heater 120 by the heat generation of the heater 120. When heated to about 600-1200 ° C., the hot electrons are emitted, and the emitted hot electrons are applied to the input cavity 130 as a bias voltage is applied to the first grid 134 arranged at predetermined intervals on the cathode 132. Control and focus.

The electrons focused on the input cavity 130 are densely modulated by the automatic shielding function of the bias power of the first grid 134 to pass through the first grid 134, and at this time, the input / output cavities 130 and 140 insulated from each other. When the operating voltage is applied, the potential difference is generated therebetween, and electrons passing through the first grid 134 are accelerated to pass through the second grid 142, so that surface current is generated in the output cavity 140. Induced. As a result, microwaves are formed in the output cavity 140, and the formed microwaves penetrate through the center of the anode 146 and are radiated through the antenna 150 formed in the output cavity 140. For this purpose, the coupling end 152 of the antenna 150 is located in the output cavity 140.

Meanwhile, a feedback rod 160 for feeding back part of the microwaves formed in the output cavity 140 to the input cavity 130 is installed at the center between the input / output cavities 130 and 140 to amplify and resonate the power of the microwave. .

However, the conventional microwave microwave tube after the heat generated in the heater 120 is transferred to the anode 146 through the openings (not shown) of the first and second grid 134, 142. In order to dissipate all of these heat into the atmosphere by the cooling fin 148, the volume of the anode must be increased, but this is practically impossible. In order to solve this problem, there is a problem in that cooling performance is lowered. Therefore, in Korean Patent Application No. 97-44073, an apparatus for improving the cooling performance of a microwave microwave tube employing a plate-shaped anode has been disclosed. As shown in FIG. 2, the apparatus includes a hollow inner body 200, a hollow outer body 300 concentrically arranged at a predetermined interval outside the inner body 200, and a hole 402 in the center thereof. Comprising the formed plate-shaped anode 400, the inner body 200 is an antenna rod 150 is installed therein, the outer body 300 is a plurality of cooling fins 148 are pressed in and laminated on the outer peripheral surface of the upper portion And an anode 400 is formed flat along the outer circumferential surface and is fixed between the frame 174 supporting the second grid 142 and the filter box 105 and fixed to the outward flat portion 410. Concave downwardly formed along the inner circumference of the flat portion 410, the inner surface is fixed to the outer body 300 and the recess 420 is formed along the inner circumferential surface, the upper end is inserted into the inner body 200 Consists of the upper bent portion 430, the inner surface of the recess 420 of the anode 400 is the outer bar The inside of the die 300 is inserted, the upper bent portion 430 is inserted into the inner surface of the inner body 200, the lower end of the outer body 300 and the bottom of the recess 420 is welded and fixed.

However, even though the cooling performance is improved by adopting the plate-shaped anode, the outward flat portion 410 of the anode 400 is sandwiched between the frame 174 and the filter box 105, so that the current of the internal component is reduced by the filter box ( There is a risk of electric shock flowing to the surface of 105), in order to prevent this, each part must be composed of an insulator, there was a costly problem.

Accordingly, the present invention has been devised accordingly, and an object thereof is to provide an anode assembly of an microwave oven for microwave oven which can insulate the anode and the filter box and prevent current from flowing on the surface.

Another object of the present invention is to improve the assembly structure of the anode and the filter box to provide a compact microwave microwave tube for compact microwave oven.

As a means for achieving this object, the present invention is composed of a hollow inner body, a hollow outer body arranged concentrically at a predetermined interval outside the inner body and a plate-shaped anode having a hole in the center, the inner body Is an antenna rod is installed therein, the outer body is a plurality of cooling fins are pressed and stacked on the outer peripheral surface of the upper portion, the anode is formed flat along the outer peripheral surface between the frame and the filter box for supporting the second grid An outwardly flattened portion inserted into and fixed to the outer portion, a recessed portion formed downwardly along the inner circumference of the outwardly flattened portion, the inner side of which is fixedly attached to the outer body, and an upper side formed along the inner circumferential surface and the upper end inserted into the inner body A bent portion, the inner side of the recess of the anode is inserted inside the outer body, the upper cut The anode is inserted into the inner surface of the inner body, the bottom of the outer body and the bottom of the concave portion of the anode assembly of the microwave microwave tube for welding is fixed, the filter box bent to be inserted inside the outer body, An anode comprising a fastening portion bent to the frame to be fastened to the frame, a protrusion formed adjacent to the fastening portion, a concave portion formed adjacent to the protrusion, and inserted between the protrusion of the anode and the filter box It is characterized by consisting of the insulating means.

According to the present invention, it is easy to assemble by inserting the filter box to the inside of the outer body, and has an effect of preventing the current flow to the surface by inserting the insulating means between the projection of the anode and the filter box.

1 is a cross-sectional view showing the structure of a conventional ultra-high frequency oscillation tube used as an ultra-high frequency oscillation tube for a microwave oven,

2 is a detailed view showing the structure of a conventional anode,

3 is a detailed view showing the structure of the anode assembly according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

105: filter box 120: heater

130: input cavity 132: cathode

134: first grid 140: output cavity

142: second grid 146: anode

148 cooling pin 150 antenna

160: feedback rod 174270: frame

200: inner body 300: outer body

400,600: anode 402: hole

410: outwardly flat portion 420: concave portion

430: upper bent portion 620: fastening portion

640: protrusion 660: recess

700: ceramic annulus

Hereinafter, with reference to the accompanying drawings will be described in detail the anode assembly of the microwave oven for microwave oven according to a preferred embodiment of the present invention. For convenience of explanation, the same reference numerals are given to the same configuration as in the prior art.

3 illustrates an anode assembly according to a preferred embodiment of the present invention. As shown, the anode assembly according to the present invention is the same as the conventional configuration except that the insulating means is inserted between the anode and the filter box as a characteristic configuration, only the characteristic configuration will be described for convenience of description.

The filter box 500 according to the present invention is easy to assemble by bending the top of the outer body 300 inside the assembly, the anode 600 is bent the outer peripheral surface to form a fastening portion 620, The fastening part 620 is fastened to the frame 270 supporting the second grid 142. Meanwhile, the protrusion 640 is formed adjacent to the fastening part 620, and the recess 660 is formed adjacent to the protrusion 640.

An insulating means is inserted between the filter box 500 and the protrusion 640 of the anode 600 configured as described above. As the insulating means, for example, a ceramic annular body 700 is used. Upper and lower surfaces of the ceramic annular body 700 are brazed and fixed to the filter box 500 and the anode 600, respectively.

As described above, the anode assembly of the microwave microwave oscillation tube of the present invention is easy to assemble because the filter box is fastened to the outer body, and the ceramic phantom is inserted between the protrusion part of the anode and the filter box to the filter box. The surface current does not flow.

Claims (1)

A hollow inner body 200, a hollow outer body 300 concentrically spaced apart from the inner body 200 by a predetermined interval, and a plate-shaped anode 400 having a hole 402 in the center thereof, The inner body 200 is an antenna rod 150 is installed therein, the outer body 300 is a plurality of cooling fins 148 are pressed and stacked on the outer peripheral surface of the upper portion, the anode 400 Is formed to be flat along the outer circumferential surface, and is fixed between the second frame 174 supporting the second grid 142 and the filter box 105 and fixed to the outward flat portion 410, and the outward flat portion 410. Concave downwardly formed along the inner circumference of the inner surface is a concave portion 420 fixedly attached to the outer body 300, and the upper bent portion 430 is formed along the inner circumferential surface is inserted into the inner body 200 The inner surface of the recess 420 of the anode 400 is the outer body 300 Is inserted into the inside, the upper bent portion 430 is inserted into the inner surface of the inner body 200, the lower end of the outer body 300 and the bottom of the concave portion 420 is microwave microwave for welding fixed In the anode assembly of the oscillation tube, A filter box 500 that is bent to be inserted into the outer body 300, and A fastening part 620 bent the outer circumferential surface to be fastened to the second frame 174, a protrusion 640 formed adjacent to the fastening part 620, and a recess formed adjacent to the protrusion 640. An anode 600 consisting of 660, The anode assembly of the microwave oscillation tube for microwave oven, characterized in that it consists of an insulating means inserted between the projection (640) of the anode 600 and the filter box (500).