RU1770887C - Eddy-current transducer - Google Patents

Abstract

The invention relates to means for non-destructive testing of materials and products and can be used for eddy current and ultrasonic automatic control of the quality of oil pipes. The aim of the invention is to increase the durability of the eddy current transducer. To achieve the goal, the converter contains a frame body, an inductor located on the working end of the frame, an elastic element, one end of which is connected to the housing, and the other with the end of the frame opposite to the working end of the latter, the connection point of the elastic element with the housing is located on its end facing to the working end of the frame, a solenoid is placed on the outer surface of the body, a part of the frame from the second end to the middle is made of ferromagnetic material and is inside the solenoid. 1 silt (L C

Description

The invention relates to means for non-destructive testing of materials and products and can be used to automatically control the quality of oil pipe lines.

The converter contains a housing mounted above the control object. Inside the housing there is a dielectric frame, on the working end of which a sensing element is mounted. The dielectric frame is connected with the second element to the working end by means of an elastic element with the housing.

The converter operates as follows.

When installing the converter in a controlled end face of the object surface

control due to the efforts of the operator, the end face of the dielectric frame with the sensitive element is pressed against the control object. The operator's efforts through the dielectric frame are transferred to the elastic element, stretching it. Due to the difference in the installation angle of the frame and the casing with respect to the test object, compressive forces occur on the elastic element. Due to the radial clearance between the elastic element and the frame, compressive forces acting on the 1 / other element are not transmitted to the frame and damped due to internal stresses. in the elastic element. After installing the dielectric frame along the normal to the surface of the test object, with the help of a sensitive element, non-electric quantities are converted into electrical quantities

XI XJ

ABOUT

00

oo xj

Yu

signals, the magnitude of which judges the quality of the object of control.

The converter cannot be used in automatic control devices for industrial products, as it does not allow, upon the command of the control device, to divert the sensitive element from the control object. There is a need to remove the converter from the monitoring object, for example, when checking the thickness of oil trunk pipes at several predetermined points.

The aim of the invention is to increase the durability of the converter.

The goal is achieved by the fact that a solenoid is placed on the outer surface of the housing, a part of the frame from the second end to the middle is made of ferromagnetic material and is inside the solenoid.

The construction of the converter is shown in the drawing.

The transducer consists of a sensor element 1 mounted on a dielectric frame 2, the continuation of which is a ferromagnetic frame 3. The mechanical strength of the transducer is provided by a housing 4 on which an elastic element 5 is attached, connected to the end of the ferromagnetic frame. A solenoid 6 is placed on the outer surface of the housing 4 in such a way that part of the ferromagnetic cage 3 is located inside the solenoid 6. The sensing element 1 is connected to the measuring part of the device using conductors 7, which pass through the holes in the casing of the elastic element 5 and the casing 4, with a digital 8 in the figure the control object is indicated.

The device operates as follows.

The transducer is installed near the controlled pipe in such a way that the sensing element 1 is in direct contact with the object 8. For

due to the stretching of the elastic element 5, the dielectric frame 2 is recessed inside the housing 4 and is installed perpendicular to the object to be monitored. At the command of the control device (not shown in the figure), the quality of object 8 is determined. For example, the measurement of thickness or electrical conductivity. Then, at the command of the control device, current is passed through the solenoid b, so that the ferromagnetic cage 3 (and with it the dielectric cage 2 and the sensing element 1 are drawn into the housing 4. At this time

the monitored pipe rotates through a predetermined angle and stops. At the command of the control device, the solenoid b is de-energized, the ferromagnetic cage 3 extends forward under

the action of the elastic element 5 and the sensitive element 1 enters into mechanical interaction with the object 8. At the command of the control device, the quality is determined in the new control

point. Similarly, measurement occurs at all control points. Due to the removal of the sensing element 1 from the pipe at the time of its rotation, an increase in the operating life of the converter is achieved.

Such transducers can be used in eddy current and ultrasonic flaw detection, thickness measurement, electrical conductivity, determination of the structural properties of the material.

Claims (1)

SUMMARY OF THE INVENTION Eddy Current Converter N; 691745, characterized in that, in order to increase durability, he equipped with a solenoid placed on the outer surface of the housing, a part of the frame from the second end to the middle is made of ferromagnetic material and is located inside the solenoid.