SU1413416A1 - Deformation-measuring device - Google Patents

Abstract

The invention relates to a measurement technique and can be used to measure the deformations of moving objects. The aim of the invention is to expand the technological capabilities by measuring the deformations of moving objects. This goal is achieved by the fact that, when measuring elements are made in the form of two identical laser-transparent cylinders 2 with polarizers 3 fixed at their ends, the linear polarization radiation of laser 1, which after circular wave plate 4 has passed, passes circular polarization the measuring elements, and its intensity, recorded at the photosensor 7, is determined by the angle between the polarizers 3 of the measuring elements. When the object is deformed in the direction of its movement, the angle between the axes of polarization of the polarizers 3 changes, and the signal on the photosensor 7 also changes with it, which allows you to continuously record the deformation of 1 sludge. i (L O5 41 O5

Description

The invention relates to a measurement technique and can be used to measure the deformations of two spinning objects.

The aim of the invention is the expansion of technological capabilities by providing measurement of the deformations of moving objects.

The drawing shows a diagram of the described device for measuring strain.

The device contains a laser 1, whose axis is offset relative to the axis of the measuring element consisting of a cylinder 2 transparent to laser radiation and a polarizer 3 fixed at its end, by an amount not exceeding the radius of cylinder 2, as well as a quarter-wave plate 4 installed along the radiation path behind laser 1, a rotary 180 prism 5 with a reflective coating 6 on mutually perpendicular faces, installed. For measuring elements (the larger edge is perpendicular to their axis), and a photo sensor 7

The device works as follows.

Linearly polarized radiation from laser 1, whose axis is displaced relative to the axis of the measuring element consisting of a cylinder 2 transparent to laser radiation and a polarizer 3 fixed at its end, by an amount not exceeding the radius of cylinder 2, goes to a quarter-wave plate 4 and after its passage, it acquires a circular polarization. Then the radiation with circular polarization passes through the polarizer 3 of the measuring element, which is rotated by the moving object, and at the same time again becomes linearly polarized with the square polarity, rotation with the angular velocity of the measuring element. Further, this radiation falls on the rotary 180 prism 5, installed behind the measuring elements with a larger face perpendicular to the I axis, and after reflection from the perpendicular edges of the latter with the coating 6 applied on them

on another measuring element consisting of a laser-transparent cylinder 2 and a polarizer

3, attached to its end, also rotated by a moving object. In the absence of deformation of the object in the direction of its movement, both measuring elements rotate synchronously,

the angle between their axis of polarization does not change to the intensity of the radiation arriving after passing the measuring elements to the photosensor 7 remains constant. If there is a deformation of the object in the direction of its movement, the rotation of the measuring elements is out of sync, and the signal at the photosensor 7 changes. By the magnitude of the change in the signal at the photosensor 7, the magnitude of the deformation is judged.

Claims (1)

Invention Formula A device for measuring deformations, containing a radiation source and a photo sensor, as well as two measuring elements placed between them, interconnected by themselves, are so that, in order to expanding technological capabilities by providing measurement of deformations of moving objects, it is equipped with a quarter-wave plate installed along the radiation behind the radiation source, and a 180 ° prism with a reflective coating on the perpendicular faces, installed behind the measuring elements with a larger edge perpendicular to their axes, and the measuring elements are made in the form of two identical laser-transparent cylinders mounted for axial rotation, the axes of which are located Yenes are parallel and rigidly bonded to each other, and two polarizers mounted on the ends of the cylinders, while the laser is used as the radiation source, the axis of which is offset relative to the axis of the measuring element by an amount that does not exceed (the radius of the latter. VNIIPI Order 3782/41 Random polygons pr-tie, Uzhgorod st. Project, 4 Circulation 680 Subscription