SU800620A1 - Strain transducer - Google Patents

Description

one

i The invention relates to a measurement technique, namely to strain gauges using a change in active resistance.

Known strain gauge containing a beam sensitive element, a sensor and a thermocouple placed on the sensitive element and included in the bridge circuit 1.

The disadvantage of this strain gauge is the low accuracy associated with the need to use transition elements to measure deformation directly on a flat surface: and the limited limits of temperature compensation.

The closest in technical essence and the achieved result to the invention is a strain gauge containing a plate sensing element and a strain gauge placed on the sensitive element 2.

The disadvantage of this strain gauge is the relatively low measurement accuracy associated with the absence of thermal compensation.

The purpose of the invention is to improve the measurement accuracy.

This goal is achieved by the fact that the strain gauge is equipped with

A thermal compensating screw made of a material with a thermal expansion coefficient different from the thermal expansion coefficients of the materials of the sensing element and the strain gauge has a threaded hole in the plate, the axis of which is parallel to the plane of least rigidity of the sensing element in which the screw is installed.

5 The drawing shows a general view of a strain gauge.

The strain gauge contains a melted quartz plate sensing element 1, a temperature sensor 2,

0 placed on the sensing element 1, and thermal compensation screw 3 made of a material with a thermal expansion coefficient different from the coefficients of thermal expansion of the materials of the sensing element 1 and the strain gauge 2. The strain gauge 2 is made of monocrystalline silicon and coated on its parallel surfaces; on one gold electrodes 4 and 5, and

on - the gold electrode 6. The electrodes 4-6 are connected via a switch 7 to the recording circuit 8. The temperature sensor 2 is mounted on the sensing element 1 by the electrode plane b. In the sensing element 1 there is a hole 9 with a thread, the axis of which is parallel to the plane of least rigidity of the sensing element 1. The thermal compensating screw 3 is installed in the hole 9.

Tension converter works in the following way.

The sensing element 1 is installed with a free surface on the object under study. The deformation of the object under study is transmitted to the strain gauge 2 through the sensing element 1, causing a change in the resistance of the strain gauge 2, which is measured using electrodes 4-6. Temperature compensation of the strain gauge 2 is provided by expanding or decreasing the size of the thermal compensating screw 3, causing application or removal of compensating loads on the strain gauge 2. Adjusting the degree of thermal compensation is done by screwing in or unscrewing the thermal compensating screw-3.

The application of the invention allows to increase the accuracy of strain measurement by providing a more accurate thermal compensation and fine adjustment of it in the appropriate temperature ranges by using a thermal compensating screw, which creates compensating loads on the strain gauge.

Claims (2)

1.Shushkevich v.A. Basics of electrical tensometry. Minsk, High School, 1975, p. 112-113, 121.. 2. USSR author's certificate No. 524072, cl. G 01 B 7/18, 1973 (prototype).