SU1421987A1 - Strain-measuring device - Google Patents

Abstract

The invention relates to a measurement technique, in particular, to devices for measuring surface deformations of large structures. The purpose of the invention is to increase the accuracy and reliability of measurements and reduce the size. The deformation of the surface 16 of the tested structure is measured by registering the change in distance between the supports of the sensing element, which is pressed to the surface of the structure by spring 12 through the seat 13 and the ball bearing 6. In this case, the displacement of the structure as a rigid whole is perceived by the movable platform 10 and the rod 7 with a sliding pair and the ball bearing does not register, since the sensitive element is displaced together with the structure. 1 il.

Description

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The invention relates to a measurement technique, namely, devices for measuring the deformation of the surface of large structures.

The purpose of the invention is to increase the accuracy and reliability of measurements and reduce the size - this is provided by the new design and interconnection of the elements that ensure the contact of the sensitive element with the surface, the deformation of which is measured.

The drawing shows the diagram of the strain gauge.

The strain gauge contains a housing 1 in which an elastic U-shaped sensing element is placed, consisting of an elastic plate 2 and a rigid support 3 fixed on the crossbar 4. The cross member 4 and the overlay 5 form a hinge with a ball / prop 6 rigidly connected to the rod 7, having a lock nut 8 at the other end. At the end of the sleeve 9 of the movable platform 10, a hole 11 is formed, forming a sliding pair with a rod. Pru5kina 12 is installed in the landing slots of the platform 10 and the seat 13, resting on the ball 6. The platform 10 rests on the working surface of the housing cover 14 and is able to move relative to it. External communication system 15 serves to install a strain gauge on the surface of the test structure 16.

The strain gauge works as follows 1M.

The body 1 of the strain gauge is installed by means of an external connection system 15 near the test surface 16 so that its longitudinal axis coincides with the normal to the surface. Using a mounting device (not shown), gently lower the sensitive element onto the test surface and release its connections (not shown).

The compression spring 12 ensures reliable contact of the sensing element through the support 3 and the elastic plate 2 with the surface of the structure. When the surface is deformed, the distance between the supports of the sensing element changes, which is registered by measuring sensors (not shown). The overall displacement of the structure is perceived by the movable platform 10 and the rod 7 with a sliding pair and a ball bearing and is not recorded by the measuring system, since the sensitive element is displaced together with the structure.

Q

A strain gauge can be used to measure deformations when testing large-sized structures and their models in aviation, space, construction equipment, etc.

Claims (1)

Invention Formula A strain gauge, comprising a housing, a U-shaped sensing element, a platform mounted slidably relative to the housing, a cylindrical compression spring installed between the platform and the sensitive element, a rod with a ball bearing at the end, located inside the spring, characterized in that increasing accuracy and reliability of measurements and downsizing, the platform is equipped with a sleeve with a hole, the stem is installed with the possibility of sliding in the hole of the sleeve, the end of the rod with a ball bearing is connected to Sensitivity element through a ball joint, and the spring is arranged to transmit force from the saddle to the platform via a ball joint.