RU2451371C1 - Bench to measure radio engineering parameters of blisters - Google Patents

Abstract

FIELD: radio engineering.

SUBSTANCE: bench to measure radio engineering parameters of blisters comprises a support bed, a rotary platform with a stand, where a blister and a receiving antenna are installed, is equipped with an automated system for control of measurement modes, independent controlled drives of blister rotation in the horizontal plane and by an elevation angle in the vertical plane, rotation of the receiving antenna in the horizontal plane around the centre of pumping and rotation of the blister and the receiving antenna around the longitudinal axis. Independent controlled drives of turn and rotation of the receiving antenna are installed outside the blister and comprise flexible inelastic elements.

EFFECT: higher accuracy, objectivity, efficiency of measurements of radio engineering characteristics of blisters at a bench, expanded range of measurements, functional capabilities, higher level of bench automation.

3 cl, 3 dwg

Description

The invention relates to the field of radio engineering and can be used for testing and measuring the radio technical characteristics (PTX) of antenna fairings.

A known stand for measuring the radio parameters of antenna fairings, containing a support frame, a device for turning the antenna in the form of two identical parallelogram mechanisms, each of which is made in the form of a double parallelogram, all links of which are placed in parallel planes (USSR author's certificate No. 817615 class. H01Q 1 / 42, 1979).

However, such a stand has insufficient accuracy of measuring the PTX of the fairings due to the inability to manufacture and align parallelogram mechanisms with the necessary accuracy. In addition, the parallelogram antenna mechanism occupies most of the volume of the antennae space, which is used to place the microwave and RF antenna paths. The stand is not equipped with independent drives for moving the antenna and the fairing, which does not allow the calibration of the received signal, to evaluate the effect of the fairing on the antenna pattern. At the stand, it is impossible to measure the PTX of the fairing at elevation angles (changing the direction of the axis of sight of the fairing in a vertical plane). The bench has a low level of automation, which with multimode measurement leads to low productivity.

Closest to the proposed invention is a stand for measuring the radio parameters of antenna fairings, consisting of a bed, a turntable with a stand on which is mounted a horizontal, articulated, rotary rod with an antenna at the end, a rotary base with a stand for attaching the fairing. A retractable rail is installed inside the rod to fix the position of the antenna when turning the rod. The stand is equipped with three drives for alternately moving the retractable rail and turning the horizontal rod (USSR author's certificate No. 576630 class. H01Q 1/42, 1975).

Such a stand has insufficient accuracy and performance of PTX measurements, especially at angles requiring a change in the position of the turntable, and does not provide all the required combinations of cowl orientation relative to the antenna due to the lack of an independent drive to rotate the cowl around the longitudinal axis, and the lack of an independent drive to rotate the cowl around the vertical axis does not allow calibration of the received signal, to evaluate the effect of the fairing on the antenna pattern. In addition, the stand has two power swivel units: a swivel platform and a swivel base with uprights, which complicates its supporting structure. At the stand, it is impossible to measure the PTX of the fairing at elevation angles (changing the direction of the axis of sight of the fairing in a vertical plane). The bench has a low level of automation, which with multimode measurement leads to low productivity.

The objective of the invention is to improve the accuracy, objectivity, measurement performance of the radio parameters of the antenna fairings, expanding the measurement range, as well as expanding the functionality by equipping all directions of movement of the antenna and fairing with independent controllable drives, increasing the level of automation and simplifying its design.

The problem is solved as follows.

1. A stand for measuring the radio technical parameters of antenna fairings, comprising a support frame, a rotary platform with a stand, on which a fairing and a receiving antenna are installed, characterized in that the receiving antenna is mounted on a rack, the stand is equipped with an automated control system for measurement modes, independent controlled drives of the fairing rotation in the horizontal plane and in the elevation angle in the vertical plane, the rotation of the receiving antenna in the horizontal plane around the center of pumping and rotated a radome and a receiving antenna around a longitudinal axis.

2. The stand for measuring the radio parameters of the antenna fairings according to claim 1, characterized in that the independent controlled drives of rotation and rotation of the receiving antenna are located outside the fairing.

3. The stand for measuring the radio parameters of the antenna fairings according to claim 1, characterized in that the independent controlled drives of rotation and rotation of the receiving antenna contain flexible inelastic elements.

Independent control of the antenna and fairing drives allows you to expand the functionality of the stand: calibrate the received signal with a receiving antenna, evaluate the influence of the fairing on the antenna pattern at any angle of the measuring range.

The location of the receiving antenna on the rack, on which the antenna fairing is installed, allows to simplify the design of the stand, eliminating the rotary base, as a power element that requires accurate manufacturing and alignment.

The relative orientation of the antenna and the cowl for various measurement modes, as well as the change of frequency ranges and radiation power, is carried out according to a predetermined program and is carried out by means of an automated control system for measurement modes, which eliminates operator errors and improves productivity.

Independent controlled drives of rotation of the antenna in the horizontal plane and its rotation around the longitudinal axis are located outside the fairing, which frees the entangled space and, in this case, the measurement range is limited only by the design features of the antenna.

The use of a flexible inelastic element, for example, in the form of a cable, rope, tape or belt, when transmitting movement in independent controlled drives of rotation and rotation of the antenna from the motor shaft to the receiving antenna, allows the antenna and the fairing to be oriented with maximum accuracy relative to each other, which increases the reliability and accuracy of measurements.

Figure 1 presents a General view of the stand for measuring the radio parameters of the antenna fairings. Figure 2 presents a top view of the stand for measuring the radio parameters of the antenna fairings. Figure 3 presents the automated control system of the measurement modes of the stand for measuring the radio parameters of the antenna fairings. The stand contains a support frame 1, a rotary platform 2 with a stand 3, on which a cowl 4 and a receiving antenna are mounted 5. The stand is equipped with independent controllable drives: turning the cowl in the horizontal plane 6 and in the elevation angle in the vertical plane 7, turning the receiving antenna in the horizontal plane 8, the rotation of the fairing 9 and the receiving antenna 10 around a longitudinal axis. Drives of rotation of the receiving antenna in the horizontal plane 8 and rotation around the longitudinal axis 10 are located outside the fairing and the transmission of motion occurs through a flexible inelastic element 11. The stand has an automated control system for measurement modes 12.

The device operates as follows. When measuring the PTX of the antenna cowl 4, it is rotated in a horizontal plane around the center of pumping, since the antenna 5 and the cowl are structurally located on the same rack 3, while the rotational drive of the antenna 8 in the horizontal plane performs synchronous and opposite motion relative to the movement of the cowl 6 , which allows the antenna 5 to remain stationary. The PTX measurement of the fairing is carried out at different elevation angles and polarizations of the antenna, which provide drives for the rotation of the fairing 9 and antenna 10 around the longitudinal axis and a drive for the rotation of the fairing along the elevation angle in the vertical plane 7, according to the specified program through the automated control system for measurement modes 12.

Using the proposed stand allows you to measure the radio parameters of the antenna fairings in the required ranges of angles of rotation and rotation of the fairing and the receiving antenna with the required accuracy and speed in automatic mode.

Claims (3)

1. A stand for measuring the radio technical parameters of antenna fairings, comprising a support frame, a rotary platform with a stand on which the fairing is mounted, and a receiving antenna, characterized in that the receiving antenna is mounted on a rack, the stand is equipped with an automated control system for measurement modes, independent controlled rotation drives fairing in the horizontal plane and in the elevation angle in the vertical plane, the rotation of the receiving antenna in the horizontal plane around the center of pumping and rotated I fairing and receive antenna around the longitudinal axis. 2. The stand for measuring the radio parameters of the antenna fairings according to claim 1, characterized in that the independent controlled drives of rotation and rotation of the receiving antenna are located outside the fairing. 3. The stand for measuring the radio parameters of the antenna fairings according to claim 1, characterized in that the independent controlled drives of rotation and rotation of the receiving antenna contain flexible inelastic elements.

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