SU943931A1 - Supporting and turning device for aerial with limited angle-of-rotation - Google Patents

Description

Union of Soviet Socialist Republics DISCLOSURE OF THE INVENTION TO COPYRIGHT CERTIFICATE (»> 943931 (61) Additional to author svnd-woo - Wprpr (22) 3Approved 06.0 & 80 (21) 297128 ^ / 18-09 (51) M. Cl | State £ another committee with joining application no. H 01 Q 1/12 USSR (23) Priority ~ for inventions Posted on 15-07.82, Bulletin He 26 (53) UDC 621.396 and discoveries Date of publication of the description 15 · 07-82 .67 (088.8)

(72) Authors of the invention (71) Applicant

V.S. Polyak, Yu.B. Sinkevich, A.G. Sokolov, V.S. Dvornikov, ....

L.V. Schoffler, V.A. Grishmanovsky, G.N. Kolcheev, Af. S.Komkrv,

V.G. Schetinin and V.M. Koptsev j. L · ·,. '

The Order of the Red Banner of Labor Central - a research and design institute of building;

metalwork | (54) ROTARY ANTENNA DEVICE WITH LIMITED ROTATION ANGLE

The invention ’relates to antenna structures and can be used in the development of highly directional antennas with a limited angle of rotation of part-turn).

The support-rotary device of a full-turn antenna is known, its content is its central support, two triangular rod pyramids, the bases of which form a flat rotary platform and have a common vertex coinciding with the central support, an annular path and azimuth guidance mechanisms [Ί}.

However, the use of a rotary support device of a full-turn antenna for part-turn antennas is irrational due to the high cost of metal construction and drives.

Closest to the proposed ²⁰ is the rotary support device of the antenna with a limited rotation angle of the rotate containing a triangular rod pyramid mounted on three supports, and rotation mechanisms in azimuth of £ 2].

ί The disadvantages of this technical solution are low rigidity and, as a consequence, a significant error in guidance in azimuth.

The aim of the invention is to reduce the pointing error in azimuth and increase rigidity, as well as simplifying the design and installation of the antenna.

The goal is achieved by introducing a second, mirror-symmetric first, triangular rod pyramid, both rod triangular pyramids having one common support, and the axis of rotation of the antenna in azimuth, made in the form of a column connected in its upper part by rods with vertices of triangular rod pyramids and based on the common support for both triangular rod pyramids, and the azimuthal rotation mechanisms are attached to the vertices of a · triangular with 943931 rod pyramids; in addition, the bases of the triangular rod pyramids are made in the form of right triangles with a common leg, one side face of each triangular 5 rod pyramid is located in a common plane passing through the common support, the rods connecting the column with the vertices of the triangular rod pyramids are located on On one straight line, the lateral ribs of the triangular rod pyramids lying in the common plane and the lower part of the column are hinged to other rods of the triangular rod pyramid 15 mid, and the ends of the other two are lateral x ribs of triangular rod pyramids are connected into a common node that can move along the common leg of the bases of triangular rod pyramids.

In FIG. 1 is a schematic representation of a rotary support device of an antenna with a limited angle of rotation, in isometry; in FIG. 2 - a variant of its execution 25.

The rotary support device of the antenna with a limited rotation angle contains two triangular rod pyramids 1 and 2 located eroso-symmetrically and mounted on five supports 3 ~ 7, and support 3 is common to both triangular rod pyramids, and the axis of rotation of the antenna along azimuth made in the form of a column 8.

the column 8 in its upper part is connected with the vertices of the triangular rod pyramids 1 and 2 by rods 9 and 10 and rests on the support common to both ⁴⁰ triangular rod pyramids

3. The mechanisms of rotation 11 and 12 in azimuth are attached to the vertices of the triangular rod pyramids,

In the embodiment of the support-rotary device · ^{45, the} antenna device with a limited angle of rotation of the base of the triangular rod pyramids 1 and 2 are made in the form of rectangular triangles with a common leg 13, one side edge ^{50 of} each triangular rod pyramid is located in a common plane passing through the common support 3 · Rods 9 and 10 connecting the column 8 with the vertices of the triangular rod ⁵⁵ pyramids G and 2 are located on one straight line, the lateral ribs 14-17 of the triangular rod pyramids 1 and 2 lying in the common plane, and the lower part of the column 8 with are pivotally connected to other rods of triangular rod pyramids, and the ends of two other lateral ribs 18 and 19 of triangular rod pyramids 1 and 2 are connected to a common node 20, which can move along the common leg 13 of the bases of triangular rod pyramids.

The antenna is attached to the rotary support device using bearing assemblies 21 mounted on the column 8.

The invention allows to increase rigidity and reduce the error of pointing the antenna in azimuth to the values achieved in full-circle antennas.

Claims (2)

The invention relates to antenna structures (can be used in the development of highly directional antennas with a limited angle of rotation (part-turn). It is known to have a turn-turn device for a full-turn antenna, containing its central support, two triangular rod pyramids, the bases of which form a flat rotary antenna platform and have a common vertex, coinciding with the central support, the annular path and the guidance mechanisms in azimuth Cll. However, the use of a turn-turn device of a full-turn antenna For part-turn antennas, it is irrational due to the high cost of metalwork and actuators.The closest to the proposed is a pan-tilt antenna device with a limited angle of rotation, containing a triangular rod pyramid mounted on three bearings, and rotation mechanisms in azimuth 2. j The disadvantages of this The technical solution is small and, as a result, a significant azimuth pointing error. The aim of the invention is to reduce the azimuth pointing error and increase the rigidity , as well as simplifying the design and installation of the antenna. The goal is achieved by introducing a second, mirror-symmetric first, triangular rod pyramid, with both rod triangular pyramids having one common support, and the axis of antenna rotation in azimuth, made in the form of a column, connected in its upper part with rods with apexes of triangular rod pyramids are supported on a common support for both triangular rod pyramids, and azimuth rotation mechanisms are attached to the vertices of a triangular rod pyramids; In addition, the bases of the triangular core pyramids are made in the form of right triangular triangles with a common leg, one side face of each triangle. The rod core pyramid is located in a common plane passing through a common support, the rods connecting the column with the vertices of the triangular rod pyramids are located on the same straight, lateral edges of the triangular rod pyramids that lie in the common plane, and the lower part of the cores are connected pivotally with the other rods of the triangular rod piers MID, and the ends of the two other lateral edges of the triangular rod pyramids are connected to a common node that can move along the common base of the bases of the triangular rod feasts d. FIG. 1 is a schematic representation of a turntable aerial device with a limited angle of rotation, in isometry; in fig. 2 is a variant of its implementation. The antenna pan-tilt device with a limited angle of rotation contains two triangular rod pyramids 1 and 2 arranged mirror-symmetrically and mounted on five supports 3 7, with support 3 common to both triangular rod pyramids, and The azimuth antenna rotation axis, made in the form of a column 8. The column 8 in its upper part is connected with the vertices of the triangular rod pyramids 1 and 2 with rods 9 and 10 and rests on a common support for both triangular rod pyramids 3. Mechanisms 11 and 12 are turned the azimuth company is attached to the vertices of the triangular rod pyramids. In the version of the rotary bearing device, the antenna with a limited angle of rotation of the base of the triangular rod pyramids 1 and 2 is made in the form of rectangular triangles with a common leg 13, one side face of each triangular rod the pyramids in the common plane passing through the common support 3 Rods 9 "10 connecting the column B with the vertices of the triangular rod pyramids 1 and 2 are located on the same straight, side edges lA-17 of the triangular rod pyramids 1 and 2, lying in a common plane, and the lower part of column 8 are pivotally connected to other rods of triangular rod pyramids, and the ends of two other lateral edges 18 and 19 of triangular rod pyramids 1 and 2 are connected to a common node 20, having the ability displacement along the common leg 13 of the bases of the triangular rod pyramids. The antenna is attached to the turntable with the help of bearing units 21 mounted on the column 8. The invention allows to increase the rigidity and reduce the antenna pointing error in azimuth to the values achieved in full-turn antennas. Claim 1. Antenna-rotary antenna device with a limited rotation angle, containing a triangular rod pyramid mounted on supports, and an azimuth rotation mechanism, characterized in that, in order to reduce the azimuth induction error and increase rigidity, a second is added, mirror-symmetrical to the first triangular. rod pyramid, both triangular rod pyramids having one common support, and antenna azimuth axis, made in the form of a column, connected in its upper part with rods to the vertices of triangular rod pyramids and supporting on common for both triangular rod pyramids a support, and the azimuth rotation mechanisms are attached to the vertices of the triangular rod pyramids. 2. The device according to claim 1, which is designed so that, in order to simplify the design and installation of the antenna, the bases of the triangular rod pyramids are made in the form of right-angled triangles with a common leg, one side geranium of each triangular rod pyramid is located in a common the planes passing through the common support, the rods connecting the column with the vertices of the triangular rod pyramids are located on the same straight, side edges of the triangular rod pyramids lying in the plane of the plane, and the lower part of the column are connected hingedly with the other rods of the triangular rod pyramids, and the ends of the two other side edges of the triangular rod pyramids are connected to a common node that can move along the 1st leg of the base of the triangular rod pyramids. Sources of information taken into account in the examination- 1. For France of France 217237 cells. H 01 Q 1/00, 1973, 2. For France of W 2252663 cl. H 01 Q 1/12, 1975 prototype). ten 2 i3 15 - 3