SU420874A1 - DEVICE FOR MEASUREMENT OF DISPLACEMENTS OF RESEARCH POINTS - Google Patents

Description

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The invention relates to linear measurements and relates to devices for measuring longitudinal mixing, two points that are separated from one another by a considerable distance, during geodetic work.

There are known devices for monitoring the absolute displacement of points, including measuring wire that runs along the ends of the fixed points with reference points of reference, on one of which a device is installed to monitor the tension of the wire with a caliper, on the protrusion of the slider of which a carriage fixed to the wire, moreover, at the observation points, in turn, the reference carriages are installed, having, for the position of this observation point, marked on the plates for marking.

However, when the ambient temperature changes, the wire is deformed, and consequently, its tension also changes, which makes it necessary to make corrections that introduce new errors into the measurement results. In addition, the position of the extreme benchmarks, on which the ends of the wire are fixed, is assumed to be non-variable in the measurement process. However, their stability is not checked in any way and changes in the position of benchmarks can make

errors that will not be taken into account when measuring.

The proposed device makes it possible to measure the mutual longitudinal displacement of two points, regardless of the tension of the measuring instrument during the measurement and change in the temperature of the wire.

In this case, the measuring device is a wire made of an alloy with high ohmic resistance (for example, Constantan, Inchrome, Invar).

In the proposed device, the base against which the longitudinal displacement is measured is the length of the stretched wire plus the amount of primary tensile strain. In order to eliminate the influence of temperature deformations of the wire on the accuracy of determination of the c: 1 wire, in parallel with the stretched wire, a similar wire is freely suspended and connected to the general circuit. Then the second wire will be a temperature compensator and with temperature deformations of the mismatch of the bridge

will not happen.

The device will respond only to deformations caused by the longitudinal displacement of the studied points. Move one of the ends of the wire to establish the value

primary deformation, can be the largest

shear wire fastening determine the longitudinal offset points.

The drawing shows the proposed device.

The device consists of two wires 1 and 2 with a high ohmic resistance of one cross section and a material, one of which is stretched between two points, and the other is freely suspended next to it. One ends of the wires are rigidly fastened with copper conductor 3, and the other two ends are connected to the differential bridge 4, adjusted so that during the primary deformation there is no misalignment of the bridge. For tensioning the wire, a device 5 is applied, moving its end, and a clamping magnitude of the movement 6.

The device works as follows.

The measuring wire is said to have a primary deformation larger in absolute value than the expected maximum temperature deformation.

The incremental resistance caused by this deformation is balanced in the bridge circuit.

When changing the length of the measuring wire from the temperature of the mismatch of the bridge does not occur, since the temperature change in the length of the wire compensator will be the same.

The bridge mismatch will occur only when the longitudinal position of the test points changes, which is measured by a measuring device, such as an indicator.

Subject invention

A device for measuring the displacements of the test points, containing a measuring wire with high ohmic resistance, a tensioning device and a reading unit, characterized in that, in order to eliminate temperature effects on the measurement accuracy, a compensation wire with the same parameter is suspended parallel to the measuring wire, connected to the measuring wire through the differential bridge, with the measuring wire set initial deformation, greater in magnitude of the possible temperature deformation.

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