SU1633280A1 - Device for measuring structure displacement - Google Patents

Abstract

The invention relates to the field of static strength tests of structures, in particular, to measurements of the angular displacements of structures. The purpose of the invention is to improve the accuracy and the invention relates to the field of static tests for the strength of structures, in particular to the measurement of angular, displacements of structures. The aim of the invention is to improve the accuracy and simplify the automation of the measurement process by using remote sensors with an isotropic scatterplot installed on the surface of the structure. The drawing shows the structural electrical circuit of the device for measuring the movements of structures. simplifying the automation of the measurement process by using remote sensors. A device for measuring the displacements of structures includes a generator, the signal of which is emitted by an antenna in the direction of a hemispherical reflector, designed to be mounted on a test structure. The signals of the scattered electromagnetic wave arrive at the first and second receiving antennas and through the phase shifter and attenuator, connected respectively to the outputs of the specified antennas, arrive at the inputs of the total differential voltage, the outputs of which through the switch are connected to the input of the receiver indicator. The radiating antenna is designed to be installed at an angle to the structure and is shielded from the receiving antennas by a radio-absorbing coating. As a result, at the output of the receiver, a signal is obtained that characterizes the position of the test structure in space. 1 il. w (/) A device for measuring the displacement of structures contains a remote sensor made in the form of a hemispherical reflector 1 with a diameter equal to half the working wavelength of the generator 2, the first 3, the second 4, the third 5 antennas, a tunable attenuator 6, a phase shifter 7 and a total difference unit 8. The first antenna 3 through the tunable attenuator 6 is connected to the first total-difference unit 8, the second antenna 4 through the phase shifter 7 Subconnect with 00 to oo

Description

Yen to the second input of the block 8, a third antenna 5 is connected to the generator 2, the outputs of the total differential unit 8 through the switch 9 are connected to the input of the receiver indicator 10. The antennas 3 and 4 are installed in the far zone of the hemispherical reflector 1. The tests are carried out on the structure 11, static loadings are carried out using a lever system 12. The parasitic radio emission is eliminated using radon-absorbing coatings 13.

The device operates as follows, the microwave signal from the generator 2 is supplied to the antenna 5 and is radiated in the direction of the hemispherical reflector 1 mounted on the test structure 11. The reflector 1 is installed in the far zone of radiation of the antenna 5, while the incident electromagnetic wave is scattered from the reflector 1 in the direction of receiving antennas 3 and 4, and the reflected wave from structure 11 falls on radio absorbing coating 13 and is attenuated. In the initial state, the receiving system comprising antennas 3 and 4, an attenuator 6, a phase shifter 7, a total difference

unit 8, switch 9 and receiver

Indicator 10 is calibrated by installation. Phaser 7 selects such a phase of the signal in the channel of the antenna 4, that a minimum signal is set at the differential output of block 8, i.e. deep zero, while the signal at the total output of block 8 is maximum.

The attenuator installed in the antenna channel 3 compensates for the loss of the phase shifter, equalizes the amplitudes of the signals of both channels and reaches a deeper zero at the differential output of the unit 8 recorded by the receiver indicator 10. When the structure 11 is loaded with the lever system 12, the reflector 1 is displaced from the point A to point B. This changes the angular orientation

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of the wave front coming from the reflector to the antennas 3 and 4. The levels of the signals at the output of block 8 change accordingly, therefore, to determine the angular displacement of the structure relative to the receiving antenna system, i.e. angle Y, it is necessary to rebuild the phase shifter 7 to the minimum initially set zero at the output of the difference channel of block 8, and by the relative change in the phase signal of the phase shifter 7 from the initial level, the angle J is determined, which is a measure of the angular displacement of the structure.

Thus, the proposed device provides improved accuracy and simplified automation of the measurement process during strength testing, which makes it more efficient.

Claims (1)

Invention Formula A device for measuring the displacements of structures, comprising a generator, a first and second antennas, a sum-difference differential switch unit, and with the aim that, in order to increase accuracy and simplify automation of the measurement process, a third antenna connected to the generator output, reflector, attenuator, phase shifter and radio absorbing coating, an attenuator is connected between the output of the first antenna and the first input of the total difference unit, the phase shifter is connected between the output of the second antenna and the second input of the total the difference unit, whose outputs through the switch are connected to the input of the receiver, the reflector is designed to be mounted on a structure in the far zone of the third antenna and is made in the form of a hemisphere, and the third antenna is designed to be installed at an angle to the structure and shielded from the first and second antennas .