SU1180681A1 - Movement strain gauge - Google Patents

Abstract

A SHAFT SENSOR OF DISPLACEMENTS, containing an elastic U-shaped element, a strain gauge located on the horizontal part of the elastic element, and supports located at the ends of the elastic element and intended to be connected with the object of measurement, characterized in that, in order to achieve accuracy, in the lower and the upper parts of the vertical sections of the elastic element are provided with mounting holes, the supports are cylindrical, and the sensor is provided with a clamping device made in the form of a bracket with attached to its ends tulkus of antifriction material is mounted in the upper mounting holes, springs s.koltsevoy loop having one end connected to the middle bracket and the other intended for communication with the measurement object, and checks passing through the fitting holes and the lower annular spring loop. 13 1

Description

The invention relates to a measurement technique and can be used to measure deformations in low modulus materials.

The aim of the invention is to improve measurement accuracy.

The drawing shows the strain gauge displacement.

The displacement sensor contains a U-shaped element 1 with upper and lower mounting holes 2 and 3, a strain gauge 4 located on the elastic element 1, cylindrical supports 5, a clamping device 6, made in the form of a bracket 7 with bushings 8 fixed to its ends an antifriction material, a spring 9 with an annular loop 10 and checks 11 passing through the lower mounting holes 3 and the annular loop 10 of the spring 9.

Strain gauge displacement works as follows.

In sample 12, at the place of installation of the displacement sensor, a straight vertical section of the spring 9 is glued into the previously prepared opening so that the cylindrical supports

, 5 touched the surface of sample 12. At the same time, check 11 was passed through ring loop 10, while fixing the sensor base and keeping it in the assembled state. After polymerization of the adhesive composition, the check 11 is removed. From now on, the sensor rests on sample 12 with its cylindrical supports 5, and the pressing force is generated by the spring 9 and is transferred to the elastic element 1 of the sensor through the clamp 7, when moving points of the sample surface 12, the vertical sections of the elastic element 1 consumed (or converged), while the horizontal part of the elastic element 1 bends, passing the deformation of the sample 12 to the strain gauge 4. The change in the electrical resistance of the latter through the contact bus 13 is transmitted to the register ruyuschuyu apparatus (not shown). Since during the measurement of the sensor design, the hinge or close to it of the support of the cylindrical supports 5 on the surface of the sample 12 ensures that the sensor readings are independent of the elastic modulus of the sample 12 and, consequently, increase the measurement accuracy.

Claims (1)

TENZOMETRIC MOVEMENT SENSOR containing a U-shaped elastic element, a strain gauge located on the horizontal section of the elastic element, and supports located at the ends of the elastic element and designed to communicate with the measurement object, characterized in that, in order to increase accuracy, the lower and upper parts of the vertical sections of the elastic element made mounting holes, the supports are cylindrical, and the sensor is equipped with a clamping device made in the form of a bracket with fixed on its end bushes of antifriction material is mounted in the upper insertion hole of the spring with annular loop having one end connected to the middle bracket and the other intended for connection with the measurement object, and checks through the insertion holes and the lower annular spring loop.