KR19990039196A - Heater Fixing Structure of Microwave Oscillation Tube for Microwave Oven - Google Patents

Abstract

The present invention relates to a heater fixing structure of a microwave oven tube for microwave oven, and comprises a heater holder 200 and a ceramic support holder 300.

In the heater holder 200, a hole 210 is formed at a lower surface thereof, and the locking protrusion 220 protrudes obliquely to the hole 210, and the locking protrusion 220 preferably has elasticity.

The ceramic support holder 300, which is a characteristic configuration of the present invention, includes a support part 360 formed integrally between the fastening part 320 and the heater fixing part 340 between the fastening part 320 and the heater fixing part 340. The fastening part 320 is inserted into the hole 210 formed in the lower surface of the heater holder 200 and fastened to the locking protrusion 220. In order to easily fasten the fastening part 320 to the locking protrusion 220 of the heater holder 200, the locking jaw 322 and the inclined surface 324 are formed on both sides, and the heater fixing part 340 is a heater ( A circular groove 342 is formed to match the shape of the heater so that the 120 is inserted and fixed.

The heater fixing structure of the present invention has a structure that is easy to fasten, and the heater is easily inserted into the groove of the heater fixing part and assembled in a fixed state, so that the heater is easily handled, thereby preventing damage or deformation of the heater. This has the effect of improving the reliability of the product.

Description

Heater Fixing Structure of Microwave Oscillation Tube for Microwave Oven

The present invention relates to an ultra-high frequency oscillation tube for a microwave oven, and more particularly, to a heater fixing structure of an microwave microwave tube for microwave ovens, which can reduce the number of assembly processes by improving the structure to simplify the assembly of the heater. 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 mounted on the upper surface of the heater 120 by placing the cathode 132 as a ring-shaped disk-shaped electron radiator in an indirect heating method and generating heat by the heater 120. When the cathode 132 is heated to about 600-1200 ° C. by the indirect heating method, hot electrons are emitted, and the released hot electrons are biased to the first grid 134 arranged at predetermined intervals on the cathode 132. As it is applied, it controls and focuses on the input cavity 130.

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

However, as shown in FIG. 2 to fix the heater 120, the conventional microwave microwave tube for microwave oven has a ceramic insulator having a hole 182 formed therein and a groove 184 formed along an outer circumferential surface thereof. The heater 120 is inserted into the hole 182 of the ceramic insulator 180 using the 180, and corresponds to the groove 184 of the ceramic insulator 180 to prevent the heater 120 from flowing and contacting the heater 120. After inserting the ceramic insulator 180 into the band 190 of the shape, and inserting the band 190 into the hole 195 of the lower surface of the heater holder 194 in the cathode support assembly 192 to bend, The welding of the heater 194 and the base plate 196 together and fixed together, this conventional heater fixing structure has a lot of assembly labor, and when the heater is inserted into the hole of the ceramic insulator, the handling of the heater is difficult to be damaged. , The band is inserted into the groove and bent to deform when welding to the holder. There is a possibility, and when the heater between the ceramic insulators is extended and sag occurs underneath, there is a fear that they are shorted in contact with each other.

Accordingly, the present invention is to provide a heater fixing structure of the microwave microwave oscillation tube for microwave oven that can reduce the number of assembly process by improving the structure to simplify the assembly of the heater.

As a means for achieving the above object, the heater fixing structure of the microwave microwave oscillation tube of the present invention has a hole is formed in the lower surface, the engaging holder is formed in the hole, the fastening portion, the heater fixing portion, A support formed between the fastening part and the heater fixing part is integrally formed, the fastening part is inserted into the hole and fastened to the locking jaw, and the heater fixing part is a ceramic support holder for inserting the heater above the fastening part. Characterized in that made.

According to the present invention, the fastening part is inserted into the hole of the lower surface of the heater holder in a state in which the heater is fixed to the heater fixing part of the ceramic support holder to be fastened to prevent generation of plate damage and deformation during handling of the heater.

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,

FIG. 2 is an enlarged detailed view of the heater fixing structure of FIG. 1;

Figure 3 is a detailed perspective view showing the assembled state of the heater fixing structure according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

120: heater 130: input cavity

132: cathode 134: first grid

140: output cavity 142: second grid

146: anode 150: antenna

160: feedback rod 200: heater holder

210: hole 220: protrusion

300: ceramic support holder 320: fastening portion

322: locking jaw 324: slope

340: heater fixing part 342: groove

360: support

Hereinafter, with reference to the accompanying drawings will be described in detail the heater fixing structure 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 shows a heater fixing structure of the present invention. As shown, the heater fixing structure of the present invention consists of a heater holder 200 and a ceramic support holder 300.

In the heater holder 200, a hole 210 is formed at a lower surface thereof, and the locking protrusion 220 protrudes obliquely to the hole 210, and the locking protrusion 220 preferably has elasticity.

The ceramic support holder 300, which is a characteristic configuration of the present invention, includes a support part 360 formed integrally between the fastening part 320 and the heater fixing part 340 between the fastening part 320 and the heater fixing part 340. The fastening part 320 is inserted into the hole 210 formed in the lower surface of the heater holder 200 and fastened to the locking protrusion 220. The fastening part 320 is fastened to the locking projection 220 of the heater holder 200, the locking projections 322 and the inclined surface 324 is formed on both sides.

On the other hand, the heater fixing part 340 is formed with a circular groove 342 corresponding to the shape of the heater so that the heater 120 is inserted and fixed.

The heater fixing structure of the microwave microwave oscillation tube of the present invention configured as described above is the fastening portion 320 of the ceramic support holder 300 after fixing the heater 120 by inserting the groove 342 of the heater fixing part 340. ) Is inserted into the hole 210 of the heater holder 200, it is easy to insert by the inclined surface 324, the locking projection 220 is pressed, and after the insertion the locking projection 220 by the elastic Since the ceramic support holder 300 is squeezed upward, the support 360 and the lower surface of the heater holder 200 are tightly fixed.

As described above, the heater fixing structure of the microwave oven tube of the present invention is easy to fasten, and the heater is easily inserted into the groove of the heater fixing part and assembled in a fixed state, so that the heater is easily handled. It is possible to prevent breakage or deformation of the heater, thereby improving the reliability of the product.

Claims (3)

In a heater fixing structure of a microwave high frequency oscillation tube for microwave oven, in which a cathode is heated by heat generation of a heater to emit hot electrons, and the hot electrons are accelerated by a potential difference between the first and second grids to generate ultra-high frequency. A heater holder having a hole formed in the lower surface thereof and having a protrusion formed in the hole; A fastening part, a heater fixing part, and a support body integrally formed between the fastening part and the heater fixing part, wherein the fastening part is inserted into the hole and fastened to the locking projection, and the heater fixing part is located above the fastening part. The heater fixing structure of the microwave oven for microwave oven, characterized in that the ceramic support holder for inserting the heater into. The heater fixing structure of claim 1, wherein the fastening portion of the ceramic support holder is formed on both sides thereof with a locking jaw and an inclined surface. The heater fixing structure of claim 1, wherein the heater fixing part of the ceramic support holder is formed with a circular groove.