RU18578U1 - DEVICE OF ULTRASONIC THICKNESS OF PRODUCTS - Google Patents

Abstract

A device for ultrasonic thickness control of articles, comprising a synchronously connected synchronizer, a probe pulse generator, an emitting and receiving electro-acoustic transducers, an input amplifier, an optical filter and a time interval meter, the second input of which is connected to the synchronizer output, characterized in that it is equipped with a calculator connected between output amplifier input and optimal filter input.

Description

tii # b „, G gg

Ultrasonic device

The utility model relates to measuring equipment, in particular to systems for ultrasonic testing of products, and is intended for use in ultrasonic thickness measurement and can be used both for measuring extended sheet materials and bar diameters.

Ultrasonic thickness gauges are known that contain emitting and receiving transducers located on the surface of the product; the time delay measurement unit described in Devices for non-destructive testing of materials and products. Directory. In 2 volumes, Prince. 2 ed. Klyueva V.V. - M.: Mechanical Engineering, 1986, p. 275. The emitting transducer pulse excites an ultrasonic wave. The receiving transducer receives an ultrasonic echo wave, and the thickness of the product is judged by the delay time from the last relative to the probe pulse.

A disadvantage of the known thickness gauge is the low accuracy of the thickness measurement, especially with high attenuation of ultrasound in the product material, when the level of the echo signal becomes comparable with the noise level of the input path.

The closest in technical essence is the device that implements the method of ultrasonic control of the thickness of the products (see RF patent No. 2121659, IPC 6 G01B 17/02, publ. 10.11.1998), containing an electroacoustic series-connected synchronizer, a probe pulse generator, emitting and receiving an electro-acoustic transducer, an input amplifier, an optical filter and a time interval meter, the second input of which is connected to the synchronizer output. The product excites ultrasonic vibrations,

IPC7: G01B 17/02 thickness of products

determine the maximum point. The delay time of the echo signal is determined at the point of minimum error in measuring the time delay corresponding to the maximum of the absolute value of the derivative, and the thickness of the product is determined from the time of the accumulated signal.

The disadvantage of this device is the error in determining the delay time of the point of the maximum value of the time derivative of the optimal filtered signal when controlling materials and products with high integral attenuation.

The technical task of the utility model is to increase the accuracy of determining the thickness.

The solution to this problem is achieved by the fact that the known device for ultrasonic thickness control of products, containing a synchronously connected synchronizer, a probe pulse generator, emitting and receiving electro-acoustic converters, an input amplifier, an optical filter and a time interval meter, the second input of which is connected to the output of the synchronizer, is equipped with a calculator connected between the output of the input amplifier and the input of the optimal filter.

The essence of the utility model is illustrated by the drawing, which shows the structural diagram of the device for ultrasonic thickness control of products.

The device contains electro-acoustically connected synchronizer 1, a generator 2 of probe pulses emitting 3 and receiving 4 electro-acoustic transducers, an input amplifier 5, calculator 6, an optical filter 7 and a meter 8 time intervals, the second input of which is connected to the output of the synchronizer 1, and the controlled product 9 The calculator 6 and the meter time intervals can be made in the form of a PC.

The device operates as follows.

Claims (1)

An ultrasonic thickness control device for products, comprising a synchronously connected synchronizer, a probe pulse generator, an emitting and receiving electro-acoustic transducers, an input amplifier, an optical filter and a time interval meter, the second input of which is connected to the synchronizer output, characterized in that it is equipped with a calculator connected between the output of the input amplifier and the input of the optimal filter.