RU1812485C - Rotatory eddy-current converter for testing pipes - Google Patents

Abstract

The invention relates to the field of non-destructive testing of materials and products by the eddy current method and can be used for inspection of heat-exchanging tubes of steam generators. The purpose of the invention is to increase the reliability of control - this is achieved due to the fact that the rotating eddy current transducer for pipe control, comprising a housing with supports, a rotor with an axis located on the supports, measuring and exciting windings and a connecting cable, is equipped with a rotational speed meter fixed in the housing. made in the form of two windings connected in series-opposite and placed symmetrically relative to the axis of the rotor, ferrite and non-ferromagnetic electrically conductive elements located symmetrically with respect to the rotor axis in its body with the possibility of electromagnetic interaction with the rotational speed meter, the rotor is made of dielectric material with screw grooves for the passage of compressed air, the measuring winding is mounted on the side surface of the rotor perpendicular to its axis, and the exciting winding is mounted on the housing, the rotor axis is composed of two cone-shaped axle shafts of electrically conductive material electrically connected to the output of the measuring winding, and the supports are made of electrical wire its material and electrically connected to the connecting cable. 1 ill. THX

Description

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The invention relates to the field of non-destructive testing of materials and products by eddy current methods and can be used for defectoscopy of heat exchangers of steam generators.

The aim of the invention is to increase the reliability of control by increasing the stability of the rotation speed of the windings.

The invention is illustrated in the drawing, which shows a longitudinal section of the inventive converter.

The rotating eddy-current transducer for monitoring pipes includes a housing 1 with supports 2 and 3, on which a dielectric rotor 6 with screw, grooves 7 and ferrite 8 and conductive non-ferromagnetic 9 inclusions, made, for example, in the form of rods. In addition, a measuring winding 10 is located on the rotor 6. The terminals of the measuring winding 10 are connected to the half shafts 4 and 5, which are made conductive and isolated from each other. The excitation winding 11 and the rotor speed meter 12 are located in the housing. The meter 12 consists of two windings connected in series in the opposite direction and placed symmetrically with respect to the axis of the rotor 6 with the possibility of electromagnetic interaction with ferrite 8 and non-ferromagnetic conductive 9 inclusions. The supports 2, 3 are made conductive, isolated from each other and connected to one core of the connecting cable 13, to the other core of which the leads of the windings 11 and 12 are connected. For air supply to the rotor 6 in the housing 1 holes 14 are made and, in addition, A flexible tube 15 is connected to the housing 1. For the air outlet in the housing 1, openings 16 are made. Inside the support 3 there is a conductive spring-loaded washer 17.

The converter operates as follows. During monitoring, the transducer moves along the pipe at a constant speed. Eddy currents are induced in the test object by means of the field winding 11. Using compressed air passing through the flexible tube 15, the holes 14 and 16 in the housing 1, the rotor 6 and, therefore, the measuring winding 10 are rotated. When the transducer enters the defect zone, a signal appears on the terminals of the measuring winding 10, which is transmitted through the axle shafts 4 and 5, supports 2 and 3, the connection cable 13 is transferred to the flaw detector electronic unit. The location in the support 3 of the spring-loaded washer 17 made it possible to provide both low friction and stable contact.

At the moments when the inclusions 8 and 9 are turned relative to the windings of the meter 12, the voltage at its terminals is close to zero. When the inclusions 8 and 9 are located near the windings of the meter 12 on its output. Next, signals arise whose repetition rate is directly proportional to the rotational speed of the rotor 6. The air pressure supplied to the converter is controlled depending on the repetition rate of these signals and, as a result, the rotational speed is kept constant.

Thus, firstly, the exclusion of friction between the surface of the pipe being monitored and the rotating part of the transducer while reducing the length of the transducer housing, and secondly, the regulation of air pressure as indicated by the rotational speed sensor made it possible to ensure the rotation speed of the measuring winding and, therefore, high reliability of control.

Formula A is a rotary eddy current transducer for monitoring pipes, comprising a housing with supports, a rotor with an axis located on the supports, measuring and exciting windings and a connecting cable, characterized in that, in order to increase the reliability of the control, it is equipped with a meter fixed in the housing rotation speed, made in the form of two windings connected in series counter and placed symmetrically relative to the axis of the rotor, ferrite and non-ferromagnetic

electrically conductive elements located symmetrically relative to the axis of the rotor in its body with the possibility of electromagnetic interaction with the rotational speed meter, the rotor is made of dielectric material with screw grooves for the passage of compressed air, the measuring winding is mounted on the side surface of the rotor perpendicular to its axis, and the exciting winding - on

In the housing, the rotor axis is composed of two cone-shaped axle shafts of electrically conductive material electrically connected to the output of the measuring winding, and the supports are made of electrically conductive material and are electrically connected to the connecting cable.