SU1224553A1 - Strain-measuring device for determining transverse deformation of specimen - Google Patents

Abstract

The invention allows to extend the functionality and increase the sensitivity of the strain gauge, for example, to measure the lateral deformation of soil samples by using a strain gauge with variable stiffness in length. A strain gauge is mounted on the sample, while the spring provides tension and a tight fit of the tape to the sample surface. During deformation, the specimen changes its diameter, which causes the bending of the strain-sensitive clevis, and the entire bending moment is concentrated in a strain gauge of low rigidity. The use of hinges at the junction of the half-rings with a flexible tape ensures the horizontal position of the strain gauge in operation, and also eliminates the indentation of the ends of the tape into a soft sample and thus allows to expand the functionality of the strain gauge when testing samples of low-strength, soft and bulk materials. 2 Il. i (rt ISD u 4 sd el oo

Description

The invention relates to a measurement technique, namely, strain gauges for measuring transverse deformation, for example, soil samples.

The purpose of the invention is to enhance the functionality and increase the sensitivity of the strain gauge.

Figure 1 shows the strain gauge, a general view; in fig. 2 - hinge, cut.

A strain gauge for measuring the lateral deformation of the sample contains a flexible non-metallic tape 1, a strain-sensitive bracket 2 consisting of two half-rings 3, one ends of which are connected by a tensile plate 4, and the other ends are interconnected by a tension spring 5 and using hinges 6 are fastened with the ends of the tape 1, which covers the test sample 7.

The strain gauge works as follows.

During tests on sample 7, a strain gauge is installed, while the spring 5 provides tension and a tight fit of the tape 1 to the surface of the sample 7, which is necessary to hold the strain gauge on the sample.

When deformed, sample 7 changes its diameter, which causes bending of the strain-sensitive bracket 2, and all the bending moment is concentrated in the tensoplate 4 due to its low rigidity compared to half-rings 3. Strain-sensitive sensors (not shown)

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The innovations on plate 4 convert the deformations into electrical signals that are transmitted to a recording device.

The use of tensoplates 4 with low rigidity compared with half rings 3 allows to increase the sensitivity of the strain gauge.

The use of hinges 6 at the junction of the half-rings 3 with the flexible tape 1 ensures the horizontal position of the strain gauge in operation, and also eliminates pressing the ends of the tape into a soft sample when a bending moment occurs in the clamp 2 and thus allows extending the functionality of the strain gauge when testing samples from low-strength , soft and soft materials.

Claims (1)

Invention Formula A strain gauge for measuring the lateral deformation of the specimen, containing a flexible tape designed to cover the specimen, and a strain-sensitive bracket, fixed at the ends of the tape, characterized in that, in order to expand, the functions-. national capacity and sensitivity, the bracket is made of two half-rings and connecting one ends of the last tensoplates, while the other ends of the half-rings are interconnected by a tension spring and a hinge with the ends of the tape. Vuf.l puff.2 Editor A. Ogar Compiled by M. Medvedev Tehred N. Bonkalo Proofreader O. Lugov Order 1913/36 Circulation 670 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4