KR19990018436U - Assembly Structure of Probe Rod of Microwave Oscillation Tube for Microwave Oven - Google Patents

Abstract

The present invention relates to a probe rod assembly structure of a microwave oven tube for microwave oven, bent upwards in the center, the heater holder 200 with a screw portion 220 is formed on the inner surface, the probe portion 320 and the flange portion 340 Consists of, the screw 322 is formed on the outer circumferential surface of the probe 320 to correspond to the screw 220 of the heater holder 200, the screw rod 322 is formed, it is made of a probe rod 300 that can be adjusted up and down height Since it is characterized in that the screw assembly is easy to assemble, and the position of the probe rod according to the value of the frequency can be adjusted, it has the effect of further amplifying and resonating the power of the microwave.

Description

Assembly Structure of Probe Rod of Microwave Oscillation Tube for Microwave Oven

The present invention relates to a microwave microwave oscillation tube, and more particularly to a probe rod assembly structure of microwave microwave oscillation tube that can be easily assembled probe rod.

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 from the heater 120. When the cathode 132 is heated to about 600-1200 ° C., the cathode 132 emits hot electrons, 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 is controlled and focused 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 probe rod 160 for feeding back a portion 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.

In the conventional microwave microwave tube for the microwave, the probe rod 160 is composed of a flange portion 162 and the probe portion 164, as shown in Figure 2, the probe portion 164 is a heater holder ( Inserted into the hole 182 formed in the center of the 180, and is located in the vicinity of the coupling end 152 of the antenna 150, the flange portion 162 is in close contact with the lower surface of the heater holder 180.

However, such a conventional probe rod 160 is inserted into the hole 182 of the heater holder 180 and then the flange portion 162 is fixed to the lower surface of the heater holder 180 by welding to the heater holder 180. There was a problem that the contact surface is uneven, so that the probe portion may not be kept exactly vertical and may be deformed during welding.

Therefore, the present invention has been devised accordingly, and the purpose thereof is to screw the holder to the probe part of the probe rod, so that the assembly is easy, and the position of the probe rod can be adjusted according to the value of the frequency and welding is not required. It is to provide a probe assembly structure of the microwave microwave tube that can prevent deformation by welding.

As a means for achieving this object, the probe rod assembly structure of the microwave microwave oscillation tube of the present invention has a cathode is heated by the heat of the heater to emit hot electrons, the hot electrons by the potential difference between the first and second grid Microwave oscillation tube assembly structure for microwave oven which is accelerated to generate microwave and feed back part of microwave formed in the output cavity at the center between input and output cavity to the input cavity to amplify and resonate microwave power. WHEREIN: The center part is bent upward and consists of a heater holder with a screw part formed in the inner surface, a probe part, and a flange part, and the screw part is formed in the outer peripheral surface of the said probe part so that screw assembly may correspond to the screw part of the heater holder, It is characterized by consisting of a probe that can be adjusted in height.

According to the present invention, as the probe rod is screwed, there is no need to perform welding, the assembly is easy, the contact area is increased by the thread, there is an advantage that the height of the probe can be adjusted according to the value of the frequency.

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,

Figure 2 is a detailed view showing the assembly structure of the probe rod of Figure 1,

Figure 3 is a detailed view showing the assembly structure of the probe rod 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

160,300: probe rod 162,340: flange

164,320: probe 180,200: heater holder

182: hole 220,322: screw portion

342: screw groove

Hereinafter, with reference to the accompanying drawings will be described in detail the probe rod assembly 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.

Figure 3 illustrates a probe rod assembly structure according to an embodiment of the present invention. As shown, the probe assembly structure according to the present invention employs a screw assembly structure as a characteristic configuration.

In the heater holder 200, the center is bent upwards, for example, a burring process is performed to form a tab shape, and then a screw part 220 is formed on the inner surface thereof, and the probe part 320 and the flange part 340 are formed. The configured probe rod 300 has a screw portion 322 is formed on the outer circumferential surface of the probe 320 to correspond to the screw portion 220 of the heater holder 200, the probe rod 300 is a heater holder 200 and a screw Are assembled.

On the other hand, the lower surface of the flange portion 340 of the probe rod 200, for example, cross-shaped groove, straight groove, V-shaped grooves are preferably formed, so that the height adjustment of the probe bar 300 is convenient.

According to the present invention employing such a screw assembly structure, the probe rod increases the contact area by the thread of the probe 320 and does not need to be welded, so that the position of the probe rod can be adjusted up and down according to the value of the frequency. do.

As described above, the probe rod assembly structure of the microwave microwave oscillation tube according to the present invention is screw-assembled, and the assembly of the probe rod is simple, and the position of the probe rod can be adjusted according to the value of the frequency, thereby further amplifying and resonating microwave power. Have

Claims (2)

The cathode 132 is heated by the heat of the heater 120 to emit hot electrons, which are accelerated by the potential difference between the first and second grids 134 and 142 to generate ultra-high frequency, and the input / output cavity 130 Assembling the probe rod of microwave microwave tube for amplifying and resonating microwave power, which is installed to feed back part of the microwave formed in the output cavity 140 to the input cavity 140 at the center between In structure, The heater holder 200 is bent upward in the center, the threaded portion 220 is formed on the inner surface, Comprising the probe portion 320 and the flange portion 340, the screw portion 322 is formed on the outer circumferential surface of the probe 320 to correspond to the screw portion 220 of the heater holder 200, the upper and lower A probe rod assembly structure of a microwave oven for microwave oven, characterized in that the probe rod 300 is adjustable in height. The probe rod assembly structure of claim 1, wherein a screw groove (342) is formed on a lower surface of the flange portion (340) of the probe rod (300).