SU848976A1 - Strain gauge - Google Patents

Description

(54) METHOD

The invention relates to a measurement technique, namely, strain gauges for measuring the deformation of solids. A strain gauge is known that contains two supports for mounting on the sample, two parallel strain gauges and a stand, one ends of the strain gauges are connected to the stand and others are supported, and thickening 1 is made at the connection points of the strain gauges and stands. The disadvantages of this strain gauge are low accuracy due to the fact that the effect of distortions on the measurement result has not been eliminated, as well as the reliability of fixing on the sample is insufficient, and the sensitivity is relatively low due to the fact that, although the output signals from the strainer are summed, and each strainer has only half, the deformation to which the specimen is subjected, and not all strainer is deformed (thickening is not included in the working length). The closest to the invention to the technical essence and the achieved result is a strain gauge containing two supports for mounting on a sample, a stand and two strainer, one ends of which are connected to the stand, others - with supports 2. .. The disadvantages of the known strain gauge are the relatively low accuracy associated with the effect of distortions on the measurement result, as well as the insufficient reliability of the fixation on the sample, and the relatively low sensitivity due to the lack of mechanical multiplication of the deformation of the sample. The purpose of the invention is to increase the sensitivity and accuracy of measurements. This goal is achieved by the fact that the strain gauge is equipped with an additional stand connected to the ends of the strain gauges connected to the supports, and the stands are made with elastic hinges at the ends. Figure 1 shows the proposed tensometer, General view; figure 2 - the same,. view from above. The strain gauge contains two supports 1 and 2 for installation on the sample, two strain gauges 3 and 4, two racks 5 and 6 with elastic hinges 7-10 on the ends. One ends of the strain gauges 3 and 4 are connected, respectively, with the supports 1 and 2 and with elastic hinges 7 and 8 of the rack 5, and

others - with elastic hinges 9 and 10 pillars 6.

The grooves 11 in the strainer 3 and 4, in which are placed the screws 12 installed in the supports 1 and 2, serve to adjust the sensitivity of the strain gauge.

The strain gauge works as follows.

Moving and fixing the screws 12 in the slots 11 of the tensobal OK J and the required sensitivity is selected, after which the strain gauge with the supports 1 and 2 is mounted on the sample. When the sample is deformed, the distance between the free ends of the supports 1 and 2 increases, they rotate relative to the junction with elastic hinges 7 and 8, and the strain grommets 3 and 4 bend, the ends of which rotate, respectively, relative to the elastic hinges 7 and 9, 8 and 10. With distortions, undesirable deformations are selected by elastic hinges 7-10,

The invention makes it possible to increase the accuracy of measurements due to the use of elastic hinges, eliminating the influence of distortions, as well as sensitivity due to the use of additional

struts and elastic hinges on the struts, allowing mechanical achievement; sample strain multiplication,

Claims (1)

Invention Formula A strain gauge containing two supports for mounting on a sample, a stand and two strain gauges, one ends of which are connected to the stand, others are supported, in that, in order to increase the sensitivity and accuracy of measurements, it is equipped with an additional stand associated with the ends of the strain gauge connected to the supports, and the rack is made with elastic hinges at the ends. Sources of information taken into account in the examination 1, Rensky, A.B. et al. Tensometry of building structures and materials, M, Stroyizdat, 1977, p.53, fig.356, 2, Factory Laboratory, No. 12, 1976, p. 1513-1514 (prototype). /