RU1788535C - Waveguide flange - Google Patents

Abstract

Use: A microwave technique for articulating waveguide structures. SUMMARY OF THE INVENTION: a waveguide flange comprises a housing with an opening for a waveguide fixing unit in the form of protrusions in a section plane 1 of a section of one side of the housing. The protrusions have coaxial smooth and threaded screw holes. 2 ill.

Description

The invention relates to the field of microwave technology and can be used to couple waveguide structures.

A device is known for attaching a flange to a waveguide and comprising a waveguide, connecting flanges and a fixing element in the form of a frame or a ring for a rectangular or circular waveguide, respectively.

A disadvantage of the known device is the complexity of the design, which increases the complexity of manufacturing, and also does not provide a reliable mechanical connection.

A waveguide connection is known comprising a section of a rectangular metal waveguide having four sides forming four corners, a compressible metal flange for mounting on a two-part waveguide. A notch is made on the inner surfaces of the flanges, and there are also several angled protrusions providing electromagnetic tightness after mounting the flanges on the waveguide.

A disadvantage of the known device is the difficulty in manufacturing the flange due to the angular protrusions and notches on the inner surfaces of the flange parts, as well as the inability to quickly dismantle it if necessary.

The closest in technical essence to the claimed invention is a quick-detachable waveguide flange selected as a prototype, which contains a rectangular metal flange proper. On it there are cutouts located from the inner to the outer surface, ridges in the form of a comb are formed on the inner surface, forming a rectangular window for mounting the flange on the waveguide.

The disadvantage of this waveguide flange is poor electromagnetic tightness, since when mounting the flange on the waveguide, the surface of the flange protrusions and interacting with

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the surface of the waveguide provides contact only at individual points.

The production of a flange is laborious, since the manufacture of a rectangular comb hole in the flange requires complex technological equipment and a significant investment of time. In addition, this device does not provide rigid fastening with the waveguide, and the perpendicularity of the flint relative to the waveguide will be violated. This circumstance does not allow / g e-g ™ to provide good contact of the coupled waveguides at the junction, while at the junction there will be large losses of electromagnetic energy of the radio waves and there will be a lot of radiation into the environment.

Thus, the structural complexity of the quick-detachable waveguide flange causes considerable difficulties in its manufacture, while the flange does not provide good electromagnetic tightness and rigidity of mechanical fastening on the waveguide, which reduces the quality of the product and its reliability.

The aim of the invention is to improve the electromagnetic tightness and increase the reliability of the connection by simplifying the design and ensuring the rigidity of the mechanical fastening.

This goal is achieved by the fact that in the waveguide flange containing the housing, in the center of which an opening for the waveguide according to the invention is made, the housing is cut on one side and provided with a fixing unit in the form of protrusions in the section plane with coaxial smooth and threaded screw holes.

Figure 1 shows the proposed waveguide flange (a structural variant for a rectangular waveguide); figure 2 - the process of mounting the flange on the waveguide; figure 2 - position 1 - waveguide, 2 - flange, 3 - cracker, 4 - flat surface, 5 - screw.

The drawings conventionally show a flag for a rectangular waveguide. The waveguide flange (Fig. 1) consists of a housing 1, a fixing evil 2, in which there is a slot 3 and a screw 4 for tightening the flange on the waveguide.

The mounting of the waveguide flange on the waveguide is carried out as follows in Fig. 2). The flange 2 is placed on a flat horizontal surface 4, a waveguide 1 is inserted into the flange hole, into which a cracker 3 is previously inserted, the waveguide into the horizontal surface, then the flange is pulled onto the waveguide by means of a fixing unit screw, and the cracker is removed from the waveguide cavity.

The flange is removed by unscrewing the screw of the fixing unit and removing the flange from the waveguide.

An example of a specific implementation:

The flange case is made of LS59-T brass alloy, the case thickness is 6 mm, the case has a protective coating - Chemical.NE. The holes of the fixation unit have diameters of 2 mm, MZ, the width of the slit of the fixation unit is -0.10 mm; the diameter of the screw fixing unit - MH.

Compared with the prototype, a simplification of the flange design has been obtained, its manufacturability has been improved, electromagnetic tightness has been improved, and the connection reliability has been improved due to the rigidity of the mechanical fastening, while the possibility of quick mounting and dismounting of the flange on the waveguide section is preserved.

Claims (1)

SUMMARY OF THE INVENTION A waveguide flange containing a housing has an opening for a waveguide in the center of T, characterized in that, in order to improve electromagnetic tightness and increase the reliability of connection with the waveguide due to simplified design and rigidity of mechanical fastening, the housing is cut on one side and provided with a fixing unit in the form of protrusions in the section plane with coaxial smooth and threaded screw holes. Ys r -Sl.liOi f - -. .- Figure 1