RU2435254C1 - Corner bend of waveguide duct - Google Patents

Abstract

FIELD: radio engineering.

SUBSTANCE: corner bend of waveguide duct includes input waveguide 1, output waveguide 2 and matching discontinuity 3 made in the form of rectangular parallelepiped; at that, one of its ribs coincides with the rib formed with outer walls of conjugated waveguides, and two opposite faces orthogonal to this rib coincide with combined walls of input and output waveguides in the bending plane. Particular design of corner bend is described.

EFFECT: simpler design of corner bend at enlarging its technical capabilities.

4 cl, 6 dwg

Description

The invention relates to radio engineering, namely to waveguide elements, and can be used in waveguide, antenna and microwave measurement technology.

The bends of the waveguide path on rectangular waveguides are of two types - angular and smooth. Corner bends are smaller, but technologically more complex, since they are more rigid in comparison with smooth ones.

A known waveguide with a single 90 ° angular bend in the H-plane, containing two identical mutually orthogonal segments of a regular metal rectangular waveguide, the first pair of narrow walls of which forms an inner edge perpendicular to the wide walls, and the second pair of narrow walls is connected by a jumper located at an angle of 135 ° to these walls, while between the wide walls of the bend a cylindrical metal rod is inserted perpendicular to it, the axis of which is located in the plane of symmetry of the bend, passing through cut the inner edge and the middle of the jumper, and the distance from the inner edge to the middle of the jumper is (0.9 ... 1.1) α, where α is the width of the wide wall of the waveguide, the distance from the middle of the jumper to the nearest point on the surface of the cylindrical metal rod is ( 13/16 ... 15/16) α, and the diameter of the cylindrical metal rod (1/32 ... 2/32) α (RF Patent for Utility Model No. 16044, IPC H01P 1/02, 2000).

The disadvantages of this technical solution are:

- constructive complexity and low technology;

- the same section of the input and output waveguides;

- angular bending is feasible only in the H-plane.

Known waveguide corner containing the input and output waveguides located at right angles to one another, in which the main mode microwave signal propagates from one to the other and in which the narrow wall of the input waveguide is combined with the wide wall of the output waveguide, and two reflectors, one of of them - a flat reflector of the input waveguide - is inclined at an angle (130 ÷ 140) ° to its narrow wall, and the other reflector is installed so that one of its faces coincides with the wide wall of the input waveguide, and the other with the combined wall input and output waveguides, and the flat reflector of the input waveguide has a length (0.7 ÷ 0.95) a1, where a1 is the size of the wide wall of the input waveguide, and the other reflector is made in the form of a tetrahedral direct prism (RF Patent for the invention No. 2267192, IPC H01P 1/02, 2004).

The disadvantages of this technical solution are:

- constructive complexity and low technology;

- the impossibility of turning the waveguide path only in the E- or H-plane.

Closest to the claimed technical solution is a waveguide bend with matching heterogeneity in the form of a forty-five degree bevel in the E or H plane (REA Designer Handbook: Components, Mechanisms. Reliability. / N.A. Barkanov, B.E. Berdichevsky, P.D. Verkhopyatnitsky et al .; Edited by R.G. Varlamov. - M.: Radio and Communications, 1985, p. 224, Fig. 7.58).

These devices have the following disadvantages:

- constructive complexity and low technology;

- the same section of the input and output waveguides.

The authors were faced with the task of creating a corner bend of the waveguide tract, devoid of the above disadvantages.

The technical result of the claimed angular bending is to simplify its design while expanding its technical capabilities.

The problem is solved due to the fact that the angular bending of the waveguide path contains the input and output waveguides located at right angles to one another, whose walls in the plane of the bend are aligned, and matching inhomogeneity, which is made in the form of a rectangular parallelepiped, and one of its edges coincides with an edge formed by the outer walls of the conjugate waveguides, and two opposite faces orthogonal to this edge coincide with the combined walls of the input and output waveguides in the plane iba.

Matching heterogeneity serves as a transformer for the cross sections of two rectangular waveguides in the plane of angular bending.

By matching inhomogeneity, two waveguides were matched, at least one of which has radial conjugation of the side walls.

At least one face of the matching inhomogeneity has a radius mate with the combined walls of the input and output waveguides in the bending plane.

The inventive corner bend has a combination of essential features not known from the prior art for products of this purpose, which allows us to conclude that the criterion of "novelty" for the invention.

The inventive corner bend, according to the applicant and the authors, meets the criterion of "inventive step", because for specialists, it does not explicitly follow from the prior art, i.e. not known from available sources of scientific, technical and patent information at the filing date.

The essence of the proposed solution is illustrated using the drawings, where:

- figure 1 shows the design of the angular bending of the waveguide path in the E-plane;

- figure 2 - characteristics of the heterogeneity during the angular bending of the waveguide path in the E-plane;

- figure 3 is a design of the angular bending of the waveguide path in the H-plane;

- figure 4 - characteristics of the heterogeneity in the angular bending of the waveguide path in the H-plane;

- figure 5 is one of the possible implementations of these bends, in which one of the waveguides has a radial conjugation of the side walls (section along the axis of the waveguides parallel to their narrow walls);

- figure 6 is a view of a waveguide having a radial conjugation of the side walls.

The angular bending of the waveguide path contains an input waveguide 1, an output waveguide 2, and matching inhomogeneity 3.

The device operates as follows.

An electromagnetic wave entering the input of the waveguide 1 passes through it and enters the orthogonal waveguide 2. This device has symmetry, therefore, waveguides 1 and 2 are interchangeable. To compensate for the reactivity formed by the interface of the waveguides, matching inhomogeneity 3 has been established, having reactivity equal in magnitude but different in sign. When adding the reflected signals from these reactances, they are mutually compensated, as a result of which the coordination of two orthogonal waveguides is achieved.

In the manufacture of angular bending between waveguides of different sections in the plane of rotation, the dimensions of the matching rectangular parallelepiped are selected experimentally to achieve the necessary coordination.

In the manufacture of matching heterogeneity, for example, by milling, there is the possibility of its formation in the manufacturing process of the waveguide path. In this case, a correction of the dimensions of the heterogeneity is necessary to compensate for deviations in the geometry of the heterogeneity associated with the technology of its manufacture, for example, compensation for rounding of right angles.

To verify the correctness of the adopted technical solutions, the company manufactured a number of microwave devices in which these angular bends were used as the angular bends of the waveguide tract.

The applicant company has developed design documentation for the proposed technical solution, according to which several products have been manufactured. As a result of their tests, coordination was achieved for waveguides that differ in the cross-section of the channels in the plane of rotation by more than 3 times while reducing the complexity of manufacturing compared to the prototype by 10 times, which confirms compliance with the criterion of "industrial applicability" for the invention.

Claims (4)

1. The angular bending of the waveguide path, containing the input and output waveguides located at right angles to one another, whose walls in the plane of the bend are aligned, and matching inhomogeneity, characterized in that the matching inhomogeneity is made in the form of a rectangular parallelepiped, one of its edges coincides with the edge formed by the outer walls of the conjugate waveguides, and two opposite faces orthogonal to this edge coincide with the combined walls of the input and output waveguides in the plane of bending. 2. The angular bending of the waveguide path according to claim 1, characterized in that the matching inhomogeneity performs the function of a transformer of sections of two rectangular waveguides in the plane of the angular bending. 3. The angular bending of the waveguide path according to claim 2, characterized in that the matching inhomogeneity is the coordination of two waveguides, at least one of which has a radial conjugation of the side walls. 4. The angular bending of the waveguide path according to claim 2, characterized in that at least one face of the matching inhomogeneity has a radius mate with the aligned walls of the input and output waveguides in the bend plane.

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