KR0135128B1 - Magnetron antenna fixing device of microwave oven - Google Patents

Abstract

The present invention relates to an antenna feeder fixing device that transmits high frequency energy to the outside in a microwave oven, and more specifically, does not change the position of the feeder during the fixing operation of the antenna feeder. To this end, in the present invention, one end of the antenna feeder 11 is fixed to one of the vanes 2 fixed to the cylindrical anode 1, and the other end is fixed to the exhaust pipe 10. 6) the inner through-hole 13 of the exhaust pipe 10 so that the antenna feeder 11 is positioned on the central axis of the exhaust pipe 10 at the output portion 12 fixed between the exhaust pipe supporter 8; Rather than forming the larger than the outer diameter of the antenna feeder (11), the upper groove is formed in the inlet groove 14 is inserted into the exhaust pipe 10 is formed by forming a hat-shaped inclined hole 15 in the lower portion.

Description

Antenna Feeder Fixture of Magnetron for Microwave Oven

1 is a longitudinal cross-sectional view showing a conventional magnetron.

2 is a longitudinal sectional view just before fixing an antenna feeder in a conventional magnetron.

3 is a longitudinal sectional view of the magnetron to which the present invention is applied.

* Explanation of symbols for main parts of the drawings

1: cylindrical anode 2: vane

6: seal 8: exhaust pipe support

10 exhaust pipe 11: antenna feeder

12: output portion ceramic 13: through hole

14: recessed groove 15: inclined hole

The present invention relates to a fixing device for an antenna feeder that plays a transmission role to radiate high frequency energy to the outside in a microwave oven, and more specifically, does not change the position of the antenna feeder during the fixing operation of the antenna feeder.

1 is a longitudinal sectional view showing a conventional magnetron, in which a plurality of vanes 2 are fixed to be arranged radially on an inner circumferential surface of an anode cylinder 1, and a large and small strip ring is disposed above and below the vanes. (3) (4) is fixed to the vane located across one adjacent vane.

The poles 5 are fixed to both ends of the anode cylinder 1, respectively, and the circumference of the poles is positioned so that the seal 6 is connected to the poles, and the ends of the seals are fixed to the ends of the anode cylinder 1, respectively. have.

The cylindrical output part ceramic 7 is fixed to the other end of the seal 6, and the exhaust pipe supporter 8 is fixed to the upper surface of the output part ceramic.

An antenna cap 9 is fixed to an outer circumferential surface of the exhaust pipe supporter 8, and an exhaust pipe 10 is fitted and fixed to an inner circumferential surface of the exhaust pipe supporter.

On the other hand, the antenna peter 11, one end of which is fixed to one of the vanes 2 radially fixed to the inner circumferential surface of the cylindrical anode 1 extends along the axial direction of the exhaust pipe 10 through the magnetic pole 5 On exit, the other end of the exhaust pipe is secured.

In the structure of the magnetron described above, the antenna feeder 11 serves as a line to radiate high frequency energy from the vane 2 to the outside through the output ceramic 7.

The length of the electric field and the position of the path of the antenna feeder 11, which plays the above role, have a great influence on the output, efficiency, pulling figure, and stability of the magnetron.

Conventionally, in order to fix both ends of the antenna feeder 11 to the vanes 2 and the exhaust pipe 10, one end of the antenna feeder 11 is first fixed to the vanes 2, and the other end is shown in FIG. As described above, the antenna feeder and the exhaust pipe were tip-off after being positioned on the axial center line of the exhaust pipe 10 so that the ends of the antenna feeder 11 were fixed to the exhaust pipe 10.

However, such a conventional device is fixed to the antenna feeder 11 because only one end of the antenna feeder 11 is fixed to the vane 2 and the other end is tip-off while being positioned inside the exhaust pipe 10. In this state, the antenna feeder is frequently tilted to one side so that it is not positioned on the center line of the exhaust pipe.

Accordingly, there is a problem that adversely affects the output, efficiency, pulling figure, and stability of the magnetron.

The present invention has been made to solve such a problem in the prior art, by improving the structure and performing the fixing operation while the both ends of the antenna feeder is supported, the output of the magnetron, efficiency, pulling figure (Fulling Figure), stability The purpose of this is to keep it stable.

According to an aspect of the present invention for achieving the above object, the one end of the antenna feeder is fixed to one of the vanes fixed to the cylindrical anode and the other end is fixed to the exhaust pipe, fixed between the seal and the exhaust pipe supporter An antenna feeder fixing device for a microwave magnetron is formed by forming an inner through hole smaller than an inner diameter of the exhaust pipe and larger than an outer diameter of the antenna feeder so that the antenna feeder is positioned on the center axis of the exhaust pipe.

Hereinafter, the present invention will be described in more detail with reference to FIG. 3 of the accompanying drawings.

3 is a longitudinal cross-sectional view of a magnetron to which the present invention is applied, and the same configuration as that of the conventional magnetron in the present invention will be omitted with the same reference numerals.

According to the present invention, the through hole 13 is inserted into and supported so that the antenna feeder 11 is positioned at a predetermined range on the central axis of the exhaust pipe 10 to the output ceramic 12 fixed between the seal 6 and the exhaust pipe support 8. ) To support the upper part of the antenna feeder 11 during the fixing operation of the antenna feeder 11.

The inner diameter of the through hole 13 is smaller than the inner diameter of the exhaust pipe 10 and is larger than the outer diameter of the antenna feeder 11.

This is to allow the antenna feeder 11 to penetrate and the exhaust pipe 10 to be directly fixed to the upper surface of the exhaust pipe ceramic 12 during the fixing operation of the antenna feeder 11.

In order to directly fix the exhaust pipe 10 to the upper surface of the output ceramic 12, an indentation groove 14 larger than the outer diameter of the exhaust pipe 10 is formed on the upper surface of the output ceramic 12 to provide the concave groove 14 The lower part of the exhaust pipe 10 is fitted inside.

And the bottom of the output ceramic 12 is formed in the shape of a hat-shaped inclined hole (15) to the top and gradually smaller diameter. This is to allow the inclined hole 15 to serve as a guide when the antenna feeder 11 is inserted into the ceramic 12 to facilitate the insertion operation.

Referring to the operation and effects of the present invention configured as described above are as follows.

First, one end of the antenna feeder 11 is fixed to the vane 2 through the hole 5a formed in the magnetic pole 5, and then at the top of the seal to fix the output ceramic 12 to the seal 6. When the output ceramic 12 is inserted into the antenna feeder 11, since the inclined hole 15 is formed in the bottom of the output ceramic, the output ceramic is guided by the inclined hole to feed the antenna feeder 11. It is easily inserted into the upper surface of the seal (6), thereby fixing the output ceramic 12 to the seal (6).

According to the fixing operation of the output ceramic 12, the antenna feeder 11 is located in the center of the through hole 13 formed in the output ceramic.

Then, when the lower part of the exhaust pipe 10 is inserted into the recessed groove 14 formed on the upper surface of the ceramic portion 12, the inner diameter of the recessed groove is formed slightly larger than the outer diameter of the exhaust pipe so that the assembly work thereof is performed. Is done.

As described above, the exhaust pipe 10 is inserted into the upper surface of the output ceramic 12 and the exhaust pipe support 8 is fixed to the outside of the exhaust pipe 10, and then the antenna feeder 11 is connected to the exhaust pipe 10. When the tip off operation is performed to fix the bottom of the antenna feeder 11, the lower part of the antenna feeder 11 is fixed to the vane 2, and the upper part thereof is supported by the through hole 13 of the output ceramic 12. Therefore, the antenna feeder flows only within the range of the through hole 13.

However, since the diameter of the through hole 13 is set within a range that satisfies the product characteristic regulation value even when the antenna feeder is out of a fixed position (axial center of the exhaust pipe) during the fixing operation of the antenna feeder 11, the characteristics of the antenna feeder It will prevent the defect.

After the fixing operation of the antenna feeder 11 is completed as described above, the antenna cap 9 is covered on the outside of the exhaust pipe support 8 and fixed to the output ceramic 12 as described above.

As described above, the present invention changes the structure so that the output ceramic supports the upper portion of the antenna feeder so that the antenna feeder flows only within a range where no characteristic defect occurs during the fixing operation of the antenna feeder (cutoff operation). It maintains the output, efficiency, pulling figure, stability of stably, and easily inserts the output ceramic into the antenna feeder by the inclined hole to match their central axis within the regulated range to improve productivity. You get the effect.

Claims (3)

One end of the antenna feeder is fixed to one of the vanes fixed to the cylindrical anode, and the other end is fixed to the exhaust pipe. The antenna feeder is arranged on the center axis of the exhaust pipe at the output ceramic fixed between the seal and the exhaust pipe support. An antenna feeder fixing device for a microwave magnetron, in which an inner through hole is formed smaller than an inner diameter of an exhaust pipe and larger than an outer diameter of an antenna feeder so as to be located at a position thereof. The magnetron antenna feeder fixing device according to claim 1, wherein an indentation groove larger than an outer diameter of the exhaust pipe is formed on the upper surface of the output ceramic and the lower portion of the exhaust pipe is inserted into the inlet groove. The magnetron antenna feeder fixing device according to claim 1 or 2, wherein a hatch-shaped inclined hole is formed in the lower portion of the output ceramic and gradually decreases in diameter as it goes upward.