SU1578454A1 - Method of checking the quality of wiring of measuring circuit having four-component receptacles of strain gauge transducers - Google Patents

Abstract

This invention relates to a measurement technique, namely strain gauge. The purpose of the invention is to improve the accuracy of monitoring the correctness of connecting strain gauges to equipment and ensuring quality control of the attachment of strain gauges to the structure. For this, a structure with installed and connected four-component rosettes of strain gauges is loaded four times with the formation of three linearly independent deformation fields, and each time the linear strain gauges of the structure are measured by strain gauges. 1 il.

Description

This invention relates to a measurement technique, namely strain gauge.

The purpose of the invention is to improve the accuracy of monitoring the correctness of connecting strain gauges to equipment and ensuring quality control of the attachment of strain gauges to the structure.

The drawing shows the layout of the strain gauges in the socket.

Strain gauges are labeled 1-4; a., a, 2, a.z are the angles between nearby pairs of strain gauges.

The method is carried out as follows.

Structures with a measuring circuit mounted and connected to measuring equipment with four-component rosettes of strain gauges, each of which measuring axes of strain gauges are non-linear in none of the pairs and strain gauges are counted at least four times with the formation of three-line independent between the deformation fields (the fourth field is linearly dependent on one of these three). Obtaining linearly independent deformation fields in the structure provides a change in the system of forces and moments applied to the structure from loading to loading. At each / -th loading (, 2, 3, 4), linear deformations sf are measured, the constructions according to the indications of i-strain gages of each q are sockets. For each outlet of the strain gauges, according to the totality of the measured deformations efq at all loads, a system of four equations of the form is formed:

W (c e + 2 Ґzch Јz «+.

Each -system of equations is solved to determine the unknown values of y, y, and yz ,.

The solution Y0g can be undefined as it is not used further. These artificial additional terms are introduced in

SP

v

00 Ј

sd

four

equations for increasing the accuracy of determining the values of V, and V3 (, are values that functionally depend only on the actual mutual orientation of the strain gauges in each {/-socket (В ,,,) and the ratios of the multiplicative components of the systematic errors B ,,, The components Yoq exclude the influence on, the additive components of the systematic errors of measurement / on the accuracy of determination, Yzq and Ysq. Next, first determine the correctness of the connection of the switching devices to the equipment. To do this, compare the obtained values, Yzq and with the corresponding values These are the angular coefficients, V2C and VC, which depend on the angles of relative orientation of the strain gauges in each "/ -grid" and are calculated previously in accordance with the predetermined orientation of the fixation of the strain gauges using the following dependencies:

about 5taz 5sh (a2Ј + az

lq sina, q-sin (, 2q)

about 51paz-51p (, 2H + a.za).

LJ 20--1

sina.q-sina2q

g)) 3 sina.2q-sin (a q - {- ci2q)

When comparing solutions Y, with the angular coefficients Bq, the technologically permissible deviation b in the actual orientation of each strain gauge from the given one is taken into account, that is, compared with (Hz-r-bB), Y2, c (), Oz, s ().

The lack of solutions for some “/ -system of equations or their discrepancy with the corresponding values of the angular coefficients B, in sign and absolute value, taking into account the permissible error in orientation of the strain gauges in each outlet, indicates the presence of an error in the strain gauge switching. Connecting the strain gauges of one outlet to the measuring channels of the equipment allocated to other outlets, manifests itself in the form of negative test results on at least two sockets. Such a switching defect, such as connecting one or several strain gauges to several channels from among those allocated for one outlet, manifests itself in the form of either the absence of solutions,, or that, for one outlet, two solutions, have zero values and the third is one.

If the correctness of the switching of strain gauges in the measuring circuit is established,

Transition to the assessment of the quality of fastening of each outlet on the structure by the criterion:

ifyj.

A 1-1V

Poor quality of fastening (/ socket is determined by the following conditions:

1-sU d: n-Ј

where b is the allowable relative sensitivity spread for high-quality fixed strain gauges in the batch used on the structure (b is the passport value for the strain gauge batch).

This method is quite simply implemented using a computer, applicable to sockets of five, six or more components, since each n-component socket can be represented as a combination of several four-component sockets. The implementation of this method does not require any additions and changes in the test methods of engineering structures, the use of special equipment,

5 that is, it provides an increase in the accuracy of strain gauge studies of complex structures without additional material costs, since the structural loads required for the implementation of the method can be the first four out of the total prescribed by the specified program for the structure.

Claims (1)

Invention Formula Method of quality control of measuring circuit with four-component rosettes of strain gauges, consisting in loading a structure with a measuring circuit mounted and connected to measuring equipment and measuring strain gauges with linear strain of the structure, which determine the correct connection of strain gauges to the specified measuring equipment channels , characterized in that, in order to improve the accuracy of monitoring the correctness of the connection of strain gauges to the equipment and to ensure control the quality of the outlet of strain gauges on the structure, load the structure at least four times with the formation of three independent linear strain fields in the structure, measure 0 linear strains at each loading and determine the correctness of the connection of the outlet to the structure over the entire set of measurements. 0 g