SU1555660A1 - Ultrasonic transducer - Google Patents

Abstract

This invention relates to non-destructive testing. The purpose of the invention is to improve the performance characteristics by providing improved clamping of the transducer to the surface of the controlled product and cleaning the working surface of the transducer from adhered particles. To provide clamping to the product surface through a layer of magnetic fluid of the transducer containing piezoelectric elements 2 installed in the housing 1, a magnetic conductive wear-resistant layer 3 with a working surface 4 and a permanent magnet 5, the latter is brought closer to the surface 4 of layer 3, and to clean the surface 4 from adhering the particles, the magnet 5 is removed from the surface 4, reducing the force of attraction of adhered particles to it. The presence of a layer 3 of a magnetically conductive material ensures uniform distribution of the magnetic fluid on the working surface 4 when the magnet 5 is in the working position. 1 sludge.

Description

The invention relates to the field of non-destructive testing and can be used for ultrasonic inspection using magnetic contact fluid.

The aim of the invention is the loss of performance by providing improved clamping of the transducer to the surface of the controlled product and cleaning the working surface of the transducer from adhering particles. .

The drawing shows an ultrasonic transducer.

A transducer comprising a housing 1, piezoelectric elements 2 located in the housing, a wear-resistant layer 3 of magnetically conductive material, the free surface 4 of which is the working surface of the transducer, and a permanent magnet 5 mounted in the housing with the ability to move along its magnetization axis normal to free the surface of the wear-resistant layer 3. In the housing 1 there is a cavity 6 for magnetic contact fluid.

The converter operates as follows.

The transducer is mounted on the surface of the monitored product 7 and the permanent magnet 5 is brought closer to the surface 4 of the wear-resistant layer 3, providing a clamp of the latter to the surface of the monitored product, sufficient to create reliable acoustic contact, but not preventing scanning of the transducer over the surface of the monitored product 7.

Moving the transducer over the surface of the controlled product, ultrasonic vibrations are emitted and received by piezoelectric elements 2 and the presence and parameters of defects are determined by the parameters of the received signals.

If the acoustic contact of the transducer with the surface of the controlled product worsens due to particles sticking to the surface 4 of the layer 3, the permanent magnet 5 is moved in the direction from the surface 4 of the magnetically conductive wear-resistant layer 3, reducing the pressure force of the transducer to the surface of the controlled product, raise the transducer above the product, and clean the working the surface of the transducer from adhering particles without effort, which is associated with a decrease in the force of their attraction to the working surface of the transducer, provided HAND permanent magnet 5 from the surface 4 of the wear layer 3 magnetically.

The implementation of the wear-resistant layer of a magnetically conductive material ensures uniform distribution of magnetic fluid in the control zone at the working position of the magnet, which increases the reliability of acoustic contact.

The permanent magnet can be made of barium ferrite, and the magnetically conductive wear-resistant layer is made of ferrite powder and epoxy in a ratio of 3: 2.

The ability to move the permanent magnet 5 along the axis normal to the free surface 4 of the wear-resistant magnetically conductive layer 3 can be provided, for example, by means of a threaded connection of the magnet and the housing.

Thus, the ultrasonic transducer has improved performance characteristics.

Claims (1)

Claim An ultrasonic transducer comprising a housing, at least one piezoelectric element placed therein, a wear-resistant layer, the free surface of which is the working surface of the transducer, and a surface opposite the free surface of the layer, contacting the piezoelectric element, and a permanent magnet placed in the housing on the side of the piezoelectric element opposite working, so that its axis of magnetization is normal to the free surface of the wear-resistant layer, which requires that, in order to improve operational characteristics, a permanent magnet is mounted to move along its axis of magnetization, and the wear-resistant layer is made of magnetically conductive material.