SU859639A1 - Borehole deformation meter - Google Patents

Description

(54) WELL DEFORMOMETER

I

The invention relates to the mining industry and is intended to investigate the stress-strain state of a rock mass.

A wellbore deformometer is known, consisting of a body, a photoelastic sensing element and stops with reducing devices 1.

However, when using this deformer, the reading of the count by the photoelastic sensor is made by the operator and g is a laborious measurement that does not allow fixing fast processes. Such visual measurements have limited depth capability and exclude the installation of two or more deformometers in the same well. 15

Also known is a borehole deformometer, containing successively arranged parabolic mirror, light bulb, polarizer, photoelastic, “sensitive element, analyzer and photodetector connected to a recording device 2.

The disadvantage of this device is that the accuracy and accuracy of the measurements are not high enough, since it does not provide the possibility of carrying out a reversible counting, taking into account the direction of displacement of the interference pattern relative to the point of information retrieval.

The purpose of the invention is to increase the reliability and accuracy of measurements.

This goal is achieved by the fact that the deformometer is equipped with a screen with holes behind which photodetectors are mounted, and the photoelastic element is designed as a rectangular beam with the supports offset to one of the sides.

FIG. 1 shows a schematic of a borehole deformeter; in fig. 2 shows section A-A in FIG. one.

Claims (2)

A photoelastic sensing element 2 with spacer devices 3, additional spacer devices 4, a light source 5, a reflector 6, a polarizer 7, an analyzer 8, a screen 9 with holes, photodetectors 10 connected to a recording device 11 are located in the housing 1. downhole deformer next. A deformometer is set into the drilled well to the required depth, oriented in the direction of the measured well deformations and propagated with the help of expansion devices. The flow of light from the source 5 through the polarizer 7, the photoelastic element 2, the analyzer 8, the hole in the screen 9 passes to the photo cells 10, where it is converted into electric current and fed to a recording device, such as a counter of moving interference fringes. In the process of deforming the well, the interference fringes in the photoelastic element shift, which is fixed by the recording device. The proposed device allows to automate the process of measuring well deformations. A deformometer can also be used to record fast processes. This design of the strain gauge allows it to be installed at any depth of the well, as well as in curved wells. It is possible to install several sensors in one well. In addition, the simplicity of the pattern of moving forward interference fringes allows one to install photoreceivers with the necessary spatial phase shift, which makes it possible to carry out reversible counting, and the interpolation of the fringes makes it possible to increase the reliability and accuracy of measurements. Claims of the Invention A downhole deformometer containing successively arranged parabolic mirror, light bulb, polarizer, photoelastic sensing element, analyzer and photoreceiver connected to a recording device, characterized in that, in order to increase the accuracy and accuracy of measurements, the deformometer is equipped with additional photoreceivers and placed after the analyzer a screen with holes behind which photodetectors are mounted, and the photoelastic element is designed as a rectangular beam with displacements to one side supports. Sources of information taken into account during the examination 1. USSR author's certificate No. 587252, cl. E 21 C 39/00, 1972. 2. USSR author's certificate for application number 2710530, cl. E 21 C 39/00, 1979 (prototype). P //