SU808832A1 - Strain gauge - Google Patents

Description

The invention relates to the field of measuring equipment, namely, strain gauges for measuring the deformation of solids. A strain gauge is known, comprising a housing, a movable non-movable support installed in the housing, a deformable reservoir with a working fluid and a capillary, one end connected to a reservoir connected to its opposite sides with a movable and fixed support, a needle valve and a plunger pair, the cylinder of which is fixed to the casing, and the plunger is connected to the return spring of the sensing element of the registering device. The disadvantages of this strain gauge are the low accuracy associated with the presence of a needle of the valve, and the impossibility of registering the maximum deformations of. Closest to the present invention is a strain gauge, comprising a housing, a movable support and a movable support mounted in the housing, a deformable reservoir in the form of a chamber with a rubber membrane, filled with a working fluid, a capillary with a scale, one end connected to a reservoir connected with its opposite sides under-, viznaya and with fixed supports G21. The disadvantages of this strain gauge are the impossibility of detecting maximum strains, due to the fact that, due to the elasticity of the membrane, the working fluid returns to the reservoir after the removal of the object under study and decreases the strain, as well as the relatively low accuracy due to the influence of ambient conditions ( temperature and gd) on the measurement results and with the lack of protection from dynamic effects. The purpose of the invention is to increase the accuracy of measurements. This goal is achieved by the fact that the strain gauge is equipped with an elastic inert gas camop connected with

the free end of the capillary and the wire placed in the reservoir, and at the end, of the capillary; connected to the reservoir, which is made tapering into which the wire rests.

FIG. 1 shows a strain gauge, a general view; Fig. 2 shows a deformable tank with a capillary tube, wire, and an elastic chamber.

The strain gauge contains a housing 1, a movable 2 mounted in a housing, and a fixed 3 - deformable reservoir, made in the form of a bellows

4 with a hollow torp 5. The bellows 4 is co-dinene with a capillary 6, in which a narrowing is made at the junction,

7. The free end of the capillary 6 is connected to an elastic chamber 8 filled with an inert gas 9. In the bellows .4 and in the capillary 6 there is a working body 10, which can be used, for example, mercury. One end of the bellows 4 is connected to a movable support, 2, the other - with a fixed support 3. In the bellows 4 is placed a wire 11, one end of which is connected to a blind end

5 bellows 4, the other rests against the constriction 7 of the capillary 6. In the capillary 6, safety extensions 12 are also made to prevent the working fluid 10 from entering the cavity of chamber 8

and an inert gas into the bellows 4. The adjusting screw 13 serves to set the zero of the strain gauge and abuts against the centering pad 14 placed on the blind end 5 of the bellows 4. On the housing 1 parallel to the capillary 6 is placed the scale 15.

The strain gauge works as follows.

When the object under study is deformed, the movable support 2 is displaced relative to the fixed support 3, and this displacement is transmitted through the screw 13 and the ball 14 to the bellows 4. The working body 10 is pushed out of the bellows 4, thereby measuring the position of the working body 10-column 6, and on the 15

deformation count is taken. When measuring the maximum deformations while reducing the deformation, the wire 11 and the constriction 7 of the capillary 6 prevent

reverse flow of the working fluid 10. With dynamic effects, the end of the wire 11 also does not allow the meniscus of working ted 1O to be briefly pushed through the constriction 7. Chamber

8, the inert gas 9 separates the working fluid 10 from the atmosphere, and also serves to return the working fluid 10 to the bellows 4 after work is completed (by pressing on the chamber 8 grandchild). The invention improves the accuracy of strain measurement by eliminating the influence of environmental conditions and dynamic effects on the strain gauge.

Claims (2)

1. Author's testimony of the USSR No. 533812, cl. (01 B 5 / ZO, 1979. 2. USSR author's certificate N9 6581, cl. C 01 B 13 / OO, 1927 (prototype). V .I si /X.fo///X/XVW TZ gZZZZZS ///////// / /////// / PG