SU831721A1 - Gage for measuring large strains - Google Patents

Description

(54) SENSOR FOR MEASURING GREAT DEFORMATIONS

The invention relates to a measurement technology. namely, electric strain gauges for measuring the deformation of solids. A sensor for measuring large deformations is known, comprising a housing, a cantilever strain relief mounted therein and a guide rail with rods placed in the housing and a spring. The strainer is connected to the stem through pro-Icine I The disadvantages of this sensor are low sensitivity and measurement accuracy due to the limited range of elastic deformations of strainers and springs, as well as the nonlinearity of their characteristics in large ranges of deformations. The closest to the invention is in technical essence and the achieved positive The effect is a sensor for measuring large deformations, containing an elastic element made of rubber with metal strain-sensing elements, in which an elastic element NT is made of rubber nkgi with kontantantovoy wire wound on it 2 j. The disadvantages of this sensor are the relatively low sensitivity and accuracy of measurements associated with the incomplete transfer of deformation to the strain gauge element. The purpose of the invention is to increase sensitivity and measurement accuracy. This goal is achieved by having a dl. large deformation measurements are provided with a ring and protective rubber linings, the elastic element is made in the form of a ring, and the metal strain gauges are in the form of semicircular brackets with glued strain gauges, the outer diameter of which is equal to the inner diameter of the elastic element, the outer diameter of the ring is equal to the inner diameter of the brackets, strain gauges are spaced on opposite surfaces of the brackets, and protective pads on the ends of the ring so that they form a cavity, which is filled with liquid oil.

FIG. I shows a sensor for changing large strains, a view of view; in fig. 2 is a section A.-A in FIG. I.

A sensor for measuring large deformations contains an elastic element I in

Rubber rings, rubber ring 2, rubber protective pads 3 and 4, and metal strain gauges in the form of semicircular brackets 5 and 6 with glued load cells 7 and 8. i

The outer diameter of the semicircular brackets 5 and 6 is equal to the inner diameter of the elastic element I, the outer diameter of the ring 2 is equal to the internal diameter of the brackets 5 and 6, the strain gauges 7 and 8 are placed respectively on opposite surfaces of the brackets 5 and 6 (for example, strain gauges 7 are placed on the outer the surface of the bracket 5, and tbnzodatchiki 8 - on the inner surface of the bracket 6). Zao

shield plates 3 and 4 are placed at the ends of the elastic element 1, and the cavity of ring 2 is filled with liquid asl 9. To attach ring I to the object under study, serve the shanks of the Yu and It. 25

The sensor for measuring large deformations works as follows.

When tensile forces are applied to the shanks tO and tl, the elastic element I takes on an elliptical shape, thus forming staples 5 and 6, the strain gauges 7 and 8 on which, due to their position, are deformed in different ways, which makes it possible in different shoulders of the bridge circuit 35 get high sensitivity. Trims 3 and 4 and liquid oil 9 seal the sensor, protecting the load cells 7 and 8 from external influences.

The application of the invention allows to increase the sensitivity of measurements due to the use of rubber rings, between which brackets with strain gages operating under different conditions are arranged, and to increase the accuracy of measurements by eliminating external influences due to the use of protective pads and filling the cavity of an additional ring with liquid oil.

Claims (2)

1. USSR author's certificate M9 193087, class; Got in 7/16,. 2. Glagovsky B.A., and Piven, I.D. Resistance electric strain gauges. L. Energie, 1972, p. 18 (prototype) Fi8.1 Fie.2