RU1825972C - Device for identifying defect of coating on internal surface of pipeline - Google Patents

Abstract

The invention relates to measuring technique and can be used to locate a coating defect on the inside surface of a pipeline. The purpose of the invention is to increase the reliability of the device. A device containing sources of compressed air and electric current, a flexible annular chamber of conductive material, the inner walls of which are helically twisted relative to its central axis, and a camera displacement meter made in the form of a revolution sensor with a drum on which an electric wire is wound, the end of which is passed through the center of the annular chamber, covering it along an arc of 180 °, is connected to one pole of an electric current source, the other pole of which is designed to connect to a controlled ruboprovodom, provided with a cylindrical bushing with an axial hole, placed within a flexible annular chamber so that its internal wall fitted twisted in the hole vkdadysha movably. The liner is made two-layer with a rigid inner layer and an elastic outer layer, and the entire surface of the liner is coated with antifriction grease. 1 ill.

Description

The invention relates to measuring technique, and can be used to locate a coating defect on the inside surface of a pipeline.

The aim of the invention is to increase the reliability of the device.

The drawing shows a schematic diagram of a device.

 The device for determining the location of the coating defect of the inner surface of the pipeline contains a flexible annular chamber 1 from the conductive

material, the inner walls 2 of which are screw-twisted, a speed sensor with a drum 3, on which the electric wire 4 is wound, a plug 5 with an opening 6 for supplying compressed air and pressure glands 7 and 8, through which the electric wire, direct current source 9 and measuring device 10.

The electric wire 4 is passed through the center of the annular chamber 1, covers it along an arc of 180 ° and is connected to one pole of the DC source 9, the other pole of the source 9 is connected through the measuring

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a device with a controlled pipeline 11. Inside the chamber 1 there is a cylindrical insert 12 with a central hole 13 along the axis. The liner 12 is made of two layers of an elastic outer layer 14 and a hard inner layer 15 and is coated with anti-friction lubricant.

The chamber 1 is made of a tubular, flexible, conductive material of constant diameter by turning one end of the tube out and connecting to the other end. Before connecting the ends of the chamber 1, its inner walls 2 are twisted by the required number of revolutions, and an insert 12 is placed in its inner cavity.

The device operates as follows.

In the free state, before the chamber 1 with the insert 12 is placed in the pipeline 11, the diameter of the chamber with the insert slightly exceeds the internal diameter of the pipeline. When the chamber 1 with the insert 12 is inserted into the pipe 11, the external elastic layer 14, made of, for example, artificial rubber, is compressed, which ensures a tight overlap of the section of the pipe 11. A plug 5 is installed on the end of the pipe 11 and through the hole b from the compressed air source (not shown) serves the pipeline.

Under pressure, the chamber 1 with the liner 12 rolls along the inner surface of the pipe 11, unwinding the electric wire 4 from the drum 3, and in the places of defects 16 of the coating 17 closes the electric circuit, which fixes the device 10. The location of the defect 16 is determined by the readings of the speed sensor.

The liner 12, mounted inside the chamber 1, does not interfere with its rolling, because the entire surface of the liner 12 is coated with antifriction grease, for example, technical oil. By elastic compression of the liner 12 inside the pipe 11, the screw-twisted inner walls 2 in the central hole 13 do not get pinched,

because This is prevented by a hard layer 15 made, for example, of hard plastic.

The effectiveness of the proposed device lies in the fact that during depressurization of the camera, during its punctures, etc. the device continues to perform its functions, which allows to achieve increased reliability of the device.

FORMULA AND SECTION

A device for determining the location of a coating defect on the inner surface of the pipeline, containing sources of compressed air and electric current, a flexible annular chamber of conductive material, the inner walls of which are helically twisted relative to its central axis, and a camera displacement meter, made in a speed sensor with a drum, on which is wound electrical wire, the end of which is passed through the center of the annular chamber covering it along an arc of 180 °, and is connected to one pole of the source electrical wow

current, the other pole of which is designed to be connected to a controlled pipeline, characterized in that, in order to increase reliability, it is equipped with a cylindrical liner with an axial

a hole placed inside a flexible annular chamber so that its twisted inner walls are mounted in the hole of the insert with the possibility of movement, the insert is made two-layer with a rigid

the inner layer and the elastic outer layer, and the entire surface of the liner is coated with antifriction grease.

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