SU136838A1 - Ultrasound transducer - Google Patents

Description

Ultrasonic sensors for an ultrasonic locator are known, comprising a piezo emitter, an electric motor and two drums.

For a longitudinal scanning, i.e., moving the ultrasound beam along a straight, perpendicular line, the beam propagates a reciprocating motion of the emitter (one if it is simultaneously a receiver or located in a row of two piezo transducers - transmitting and receiving). With the reciprocating motion of the piezo emitter, which is found in large part in the water, there are relatively great forces of friction and inertia, which make it practically impossible to perform the fast scanning necessary to obtain moving images using ultrasonic locators.

In the proposed ultrasonic sensor, in order to increase the scanning frequency, an infinite tape made of absorbing ultrasonic vibrations of the material in which there is a window is used.

The tape with the window moves along the transducer, and thus the ultrasound passes only through the moving window.

The drawing shows schematically the proposed ultrasonic sensor.

A piezo emitter 1, which is a flat or focusing plate having a length approximately equal to the scanning path, is attached to the back electrode 2, which ensures contact with the piezo emitter and air or other layer 5. In front of the radiator, there is an endless ribbon 4 with a window 5, which is strongly absorbing and weakly reflecting ultrasonic vibrations. The electric motor 6 with the help of the reels 7 and 8 gives the tape movement along the piezoelectric transducer at a speed equal to the scanning speed.

Ultrasonic vibrations emitted (and received) by the piezoelectric transducer can pass only through the window 5 (the emitted oscillations in the drawing are conventionally indicated by an arrow (and form an ultrasound