SU1262366A1 - Device for ultrasonic check of objects - Google Patents

Abstract

The invention relates to the field of non-destructive testing and can be used for ultrasonic flaw detection for medical diagnostics. The purpose of the invention is to expand the functionality by providing spatial scanning according to a given law. The device contains an electroacoustic transducer, a liquid crystal chamber in contact with its radiating surface, tape electrodes placed parallel to the radiating surface of the transducer in layers with at least two electrodes each, and the directions of the electrodes in adjacent layers are perpendicular and also connected to the electrodes in series switch and voltage source. In the process of control, under the action of a control voltage applied to the electrodes of adjacent layers by means of a switch from a voltage source, the orientation of liquid crystal molecules changes, which causes a change in the propagation velocity of ultrasonic vibrations and, therefore, of the phase of the transmitted ultrasonic oscillation. Voltage is applied to various (L electrodes; it is possible to carry out linear, circular or spiral scanning of an ultrasonic beam in space. 1 Il.

Description

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Claims (1)

05 The invention relates to non-destructive testing and can be used for ultrasonic flaw detection and medical diagnostics. The purpose of the invention is to expand the functionality by providing spatial scans according to a given law. The drawing shows the proposed Device for ultrasonic inspection of objects. The device contains an electroacoustic transducer 1, a chamber 2 in the form of a rectangular parallelepiped with a liquid crystal 3, in contact with its radiating surface, identical tape electrodes 4 and 5 placed in a chamber parallel to the radiating surface of the electroacoustic piezoelectric transducer 1 in layers of two electrodes each with a distance between their planes, defined by the relation 0 ,, where and is the voltage between the electrodes; C. The distance between the electrodes, the directions of the electrodes 4 and 5 being perpendicular, as well as the switch 6 and the voltage source 7 connected in series with the electrodes. The width of the electrodes and their number is chosen based on the required cross section of the ultrasonic beam, and the angular scanning step of the ultrasonic beam changes as the width of the electrodes decreases and the number of electrodes increases. On the surfaces of the electrodes 4 and 5, orienting grooves are applied by engraving, rubbing or spraying in a direction parallel to the surface of the electroacoustic transducer 1. The device operates as follows. In the absence of controllable voltage between the electrodes 4 and 5 of the liquid crystal molecule 3 due to the presence of orienting grooves on the surfaces of the electrodes 4 and 5 are oriented in a direction parallel to the working surface of the electroacoustic converter 1. Under the action of the control voltage supplied to the electrodes 4 and 5 adjacent layers using the switch 6 from the voltage source 7, a change in the orientation of the molecules, which causes a change in the speed of propagation of ultrasonic vibrations. The change in speed leads to a change in the time of the passage of ultrasonic vibrations through a layer of liquid crystal 3 located between adjacent layers, and consequently, to a change in the phase of the passed ultrasonic oscillation. As a result of the spatial addition of ultrasonic vibrations with different phases, spatial scanning of the ultrasonic beam is carried out. Voltage can be applied to various electrodes using switch 6 from voltage source 7; linear, circular or spiral scanning of an ultrasonic beam in space can be carried out. To more effectively control the scanning of the ultrasound beam, the device can be multi-layered. The elements of the device can be made as follows: the camera is made of fluoroplastic, the electroacoustic converter is made of quartz, and the tape electrodes can be applied by photolithographic method on lithium niobate plates. Thus, the proposed device for ultrasound monitoring of objects has wider functionality due to the provision of spatial scanning according to a given law. The invention The device for ultrasonic control of objects, containing an electroacoustic transducer, a chamber with a liquid crystal in the form of a rectangular parallelepiped, identical ribbon electrodes placed in it with a distance between their planes, defined by the ratio of, 5 lo where and life between electrodes; E is the distance between the electrodes and the voltage source, characterized in that, in order to expand the functionality, it is equipped with a switch connected to the tape electrodes and a voltage source, while the tape electrodes are placed parallel to the surface of the converter in the layers and not less than two electrodes each, and the directions of the electrodes in the adjacent layers are perpendicular. / /