SU1394278A1 - Waveguide choke flange - Google Patents

Abstract

The invention relates to radio engineering. The purpose of the invention is to improve the manufacturability, the ylanets contain plate 1, in which the cylindrical are made. hole (CO) 2 and additional hole (DO) 3. In CO 2, sleeve 4 is placed. In DO 3, waveguide section (OB) 5 is fixed coaxially to CO 2. The surface of CO 2, one end surface 6 of sleeve 4 and the surface of the groove 7, is made on the surface of the sleeve 4, form a choke groove. The end face OV 5 is connected to the other end surface 8 of the sleeve 4. The profile and the dimensions of the hole 9 in the sleeve 4 correspond to the profile and dimensions of the channel 10 ОВ 5. Therefore, the installation of the sleeve 4 in the central heating 2 and the connection to the OB 5 is done without soldering. 1 il.

Description

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The invention relates to the field of radio engineering, namely to waveguide technology, and can be used in waveguide paths of predominantly millimeter wavelength range.

The purpose of the invention is to improve the manufacturability „

The drawing shows the throttle waveguide flange, a general view "

The throttle waveguide flange contains a plate J, in which a cylindrical hole 2 and an additional hole 3 are made. A sleeve 4 is placed in the cylindrical hole 2, and a waveguide section 5 is fixed in the additional hole 3 coaxially to the cylindrical hole 2. The surface of the cylindrical bore 2, one end surface 6 of the sleeve 4 and the surface of the groove 7, performed on the surface of the sleeve 4, form a throttle groove. The end face of the waveguide cut-off 5 is connected to the other end surface 8 of the sleeve 4, and the profile and dimensions of the hole 9 in the sleeve 4 correspond to the profile and dimensions of the channel 10 of the waveguide section 5.

Dr. ossel waveguide flange works as follows.

The throttle waveguide flange is part of the throttle connection of the waveguides. With the corresponding dimensions of the throttle groove formed by the surfaces of the cylindrical bore 2, the sleeve 4 and the groove 7, a contactless connection of the waveguide section 5 through the plate 1 and the flat flange with another waveguide section (not shown) is provided.

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The throttle waveguide flange is assembled in the following sequence.

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An additional hole 3 is made in the plate 1, the waveguide piece 5 is prepared. The waveguide section 5 is attached in the Additional hole. A cylindrical bore 2 is bored and coated. The sleeve 4 is made and coated. The sleeve 4 is pressed into the cylindrical bore 2.

Since the sleeve 4 is designed in such a way that its opening 9 corresponds to the profile and dimensions of the channel 10 of the waveguide section 5, it is installed in the cylindrical hole 2 and connected to the waveguide section 5 without using soldering. An improvement in the manufacturability of manufacturing the throttle waveguide flange as compared to the known one is achieved by eliminating the need to use solders with different melting points.

Claims (1)

Invention Formula The throttle waveguide flange, the fragmentary section of the waveguide, the plate in which the cylindrical hole coaxial to the segment is completed, the waveguide in which the sleeve is placed, and the choke formed by the surface of the cylindrical hole, one end surface of the sleeve and the surface of the groove made on the external surface of the sleeve, characterized by the fact that, in order to improve manufacturability, an additional hole is made in the plate, in which a waveguide section is fixed, the end of which is connected to the other The first end surface of the sleeve, and the profile and dimensions of the hole in the sleeve correspond to the profile and dimensions of the channel of the waveguide length.