SU1740981A1 - Device for measuring deformations - Google Patents

Abstract

The invention relates to a measurement technique. The purpose of the invention is to increase the information content by performing a transverse strain sensor in the form of a set of blocks of sensing elements 7-15 consisting of two elastic cantilever tension gauges each attached to their 16 strain gauges with a sensor for measuring longitudinal strain consisting of body 1 of one or two elastic strain gauge 2 with glued resistance strain gages, spring supports 3 and 4 of the bracket 5 with a clamp 6 2 hp f f ly 2 silt with vj 4 O Yu 00 Fig1

Description

The invention relates to a measurement technique, namely, devices for measuring the deformation of solids.

A strain gauge is known for measuring longitudinal and transverse strain, comprising a body and strain gauges with supports for measuring longitudinal and transverse strain. The plane of smallest rigidity of one strainer is parallel, and the other is perpendicular to the longitudinal axis of the strain gauge.

The disadvantage of this strain gauge is the impossibility of simultaneous measurement of transverse strain in several sections of the working part of the test specimen, which does not allow testing to determine the quality of sheet steel (formability indicators of sheet steel for the manufacture of passenger car and bus bodies) .

Closest to the present invention is a sensor for measuring longitudinal and transverse deformation, comprising a body, a pair of supports, two strain gauges, spring-loaded to the sample.

The disadvantage of this sensor is that it allows to measure the lateral deformation only in one section of the test specimen, which also does not allow determining the formability of sheet steel (plastic anisotropy coefficient (R), strain hardening index (p), unequal - dimension of plastic deformation (A)

The purpose of the invention is to increase the informativity due to the simultaneous measurement of the longitudinal and transverse deformation of the test specimen in several sections, which makes it possible to test thin sheet steel with the definition of stampability

This goal is achieved by the fact that the sensor for measuring transverse deformation is made in the form of a set of blocks of sensing elements, and the body is made with a cantilever protrusion designed to support its end surface on the non-working surface of the sample.

This goal is achieved by the fact that the elastic cantilever strain gauge sensitive elements are spring-loaded to the sample.

In addition, counterweights are mounted on the free ends of the elastic cantilever tension gauge of sensitive elements

Fig. 1 shows a device for measuring strain, a general view: in Fig. 2, a device for measuring strain is a top view.

The device for measuring deformations is a sensor for measuring longitudinal strain, consisting of body 1, one or two elastic strain gauge 2 with glued strain gauges, prism supports 3 and 4, bracket 5 with latch 6 of the base for measuring longitudinal strain, and a sensor for measuring transverse deformation consisting of a set of blocks of sensitive elements 7-15 arranged along the sample axis, each consisting of body 16, two elastic cantilever strain gauges 17 and 18 with resistance strain gages glued to them. One ends of the elastic cantilever strainer 17 and 18 together with the clamping springs 19 and 20 are attached to the housing 16; At the second ends of the elastic strain gauges 17 and 18, prism bearings 21 and 22 are mounted with bevels (A) and (B) to install the sensor on sample 23 and counterweights 24 and 25, designed to balance the weight of the sensor element block on the sample. The housings 16 have cantilevered protrusions (B), with the end surfaces of which the blocks rest on the non-working surface of the sample 23, which makes it possible to fix the predetermined position of the transverse strain sensor when it is installed on the sample and to compensate for inaccuracies in balancing each block of sensitive elements on the sample 23.

The device for measuring deformations works as follows.

A strain gauge device is mounted on the test specimen 23, with one hand a sensor for measuring the longitudinal strain is attached to the sample 23, and a second hand the sensor for measuring the transverse strain is also attached to the sample 23 on the opposite side. In this case, the supports 21 and 22, with their bevels (A) and (B), press the springs 19 and 20, and the hooks 26 and 27, the slides along the bevels (D) and (D), press and, after passing the bevels (D) and (D) , snap and press the supports 3 and 4 of the sensor for longitudinal deformation to the sample. Then the retainer 6 of the base for measuring the longitudinal strain sensor is removed and the device for measuring the strain is ready for operation.

Removed from the sample after testing the device in reverse order.

One hand holds the sensor to measure the longitudinal strain, and the second hand holds the hooks 26 and 27, and the device is easily removed from sample 23.

In this case, the deformation of the test specimen 23 both in length and width in

Claims (3)

measured using the proposed device for measuring strain. Claim 1. A device for measuring deformations, comprising a sensor for measuring longitudinal strain and a sensor for measuring transverse strain, made in the form of a block of sensitive elements consisting of a body, a pair of supports and two elastic cantilever tension structures, characterized by to increase the information content, the sensor for measuring transverse deformation is carried out not in the form of a set of blocks of sensing elements, and the body is made with a cantilever protrusion designed to support its end surface on the non-working surface of the sample. 2. The device according to claim 1, that is, so that the elastic cantilever tension sensors of the sensitive elements are spring-loaded to the sample. 3. Pop 1 device, characterized by the fact that on the free ends of elastic cantilever tension gauges of sensitive elements counterweights are installed.