SU1145240A1 - Strain gauge for measuring longitudinal and angular deformations - Google Patents

Abstract

TENSION METER FOR MEASURING PENAL AND ANGULAR DEFORMATIONS, containing two rings with spring-loaded supports for mounting on a sample, interconnected with the possibility of mutual longitudinal and angular displacements and sensors of angular and longitudinal deformation, one end of each of which is rigidly connected to the first ring , which is characterized by the fact that, in order to improve the measurement accuracy, it is equipped with two levers, one ends of which are rigidly fixed on the second ring symmetrically relative to the axis of the latter, and two leashes and with rigid bases, the end of each driver is supported on the first ring, and the base through an elastic hinge is connected to the other end of the corresponding lever, the second end of each ® (L sensor of angular deformation is fixed on the basis of the corresponding driver, and the second ends of the sensors of the longitudinal deformations are on the second ring .4 sd o | s

Description

The invention relates to a measuring technique and can be used to measure the longitudinal and angular deformations of solids. A strain gauge for measuring longitudinal and angular deformations is known, containing two rings with spring-loaded, supports for installation on the specimen, two strain gauges connected to the rings, and a flange mounted to Cho on one of the rings can be rotated relative to the indicated ring. Disadvantages of this device the impossibility of measuring the strain before the failure of the sample and the low accuracy of the measurement of the strain. The closest to the invention to the technical essence and the achieved result is a strain gauge for measuring longitudinal and angular deformations, which contains two rings with spring-loaded supports for mounting a sample, interconnected with the possibility of mutual longitudinal and angular displacement, and angular sensors and longitudinal deformations, one ends of each of which are rigidly connected with the first ring 2. However, this strain gauge cannot achieve high measurement accuracy due to the presence of a constructive gap s, which are necessary for the liver to ensure the mutual movement of the elements of the strain gauge. The aim of the invention is to increase the measurement accuracy. This goal is achieved by the fact that a strain gauge for measuring longitudinal and angular deformations, containing two rings with spring-loaded supports for mounting on a sample, interconnected with the possibility of mutual longitudinal and angular displacements, and sensors for angular and longitudinal deformations, one ends of each which are rigidly connected with the first ring, provided with two levers, one ends of which are rigidly fixed on the second ring symmetrically about the axis of the latter and two leashes with rigid bases, the end each driver is supported on the first ring, and the base is connected via an elastic hinge to the other end of the corresponding lever, the second end of each angle deformation sensor is fixed on the basis of the corresponding driver, and the second ends of the longitudinal strain sensors on the second ring. FIG. 1 shows a strain gauge, section; in fig. 2 - the same, top view. The strain gauge contains dp rings 1 and 2 with spring-loaded supports 3 for mounting on sample 4, interconnected with the possibility of mutual longitudinal and angular displacement, longitudinal strain sensors 5 and angular strain sensors 6, one ends of each of sensors 5 and 6 st. They are fitted with an O-ring 1. The strain gauge also contains two levers 7 rigidly fixed by one ends on ring 2 symmetrically with respect to the axis of the latter, and two levers 8 with rigid bases 9, the end of each of which is supported on ring 1, and the base 9 through elastic Rod 10 is coupled with the second end soot4zststvuyuschego lever 7. The second ends of each angular deformation sensor 6 fixed to the base 9 of the respective leash and second ends of the longitudinal strain sensors 5 are fixed to the ring 2. Tensometer operates as follows. When deformation of sample 4, rings 1 and 2 are displaced. When angular deformation of sample 4, sensors 6 fix the opposite rotation of rings 1 and 2, while longitudinal deformation sensors 5 fix mutual displacement of rings 1 and 2. When both types of deformation act simultaneously, leads 8 turn Angular strain sensors 6 with respect to the axis of elastic hinges 10, which eliminates the influence of longitudinal movements of rings 1 and 2 on the results of measurements of angular deformations. The proposed strain gauge allows us to conduct measurement of the longitudinal and angular deformations under complex loads, i.e., under the combined action of the longitudinal force and torque.

FIG H

Claims (1)

TENSOMETER FOR MEASURING LONGITUDINAL AND ANGULAR DEFORMATIONS, containing two rings with spring-loaded supports intended for installation on a specimen, interconnected with the possibility of mutual longitudinal and angular displacements, and angular and longitudinal strain gauges, one ends of each of which are rigidly connected to the first a ring, characterized in that, in order to increase the accuracy of measurements, it is equipped with two levers, one ends of which are rigidly fixed to the second ring symmetrically with respect to the axis of the latter, and two leashes with the same with solid bases, the end of each leash is supported on the first ring, and the base is connected through an elastic hinge to the other end of the corresponding lever, the second end of each angular strain gauge is fixed to the base of the corresponding leash, and the second ends of the longitudinal strain gauges are attached to the second ring. SU „, .1145240 Figure 1 1 1145240