SU1280519A1 - Method of determining thickness of layer - Google Patents

Abstract

The invention relates to the region. These measuring instruments can also be used in determining the thickness of a layer using ultrasonic (US) vibrations. The aim of the invention is to expand the field of application by allowing the standardless determination of the thickness of a layer of water-like and bulk materials by taking into account the maximum Doppler shift frequency. The combined and receiving transducers on the surface of the layer are installed at a fixed distance. First, the combined ultrasonic transducer pulses emit normal vibrations to the boundary of the layer and measure their propagation time. Then, by combined transducer, continuous ultrasonic oscillations are emitted at an angle to the boundary of the layer and this angle is changed with a constant angular velocity. a The ultrasonic receiving transducer having passed through the layer is received by the receiver, and the maximum Doppler shift frequency C is measured, which is taken into account when determining the thickness of the layer over the time of propagation. 1 il.

Description

It can also be used to determine the thickness of a layer using ultrasonic (US) vibrations, in particular, when measuring the thickness of the layers of adipose tissue of farm animals. The aim of the invention is to expand the field of application by ensuring the possibility of referenceless determination of the thickness of a layer of liquid, water-like and bulk materials. The drawing shows mounted and receiving transducers mounted on the surface of the layer. In the drawing, the following are indicated: the combined transducer 1, the receiving transducer 2, layer 3, whose thickness is determined. The essence of the method for determining the thickness of a layer is as follows. Combined and receiving transducers are installed at a fixed distance on the surface of the layer. The combined transducer from the ray beam pulses of ultrasonic vibrations is normal to the boundary of the layer and receives ultrasonic waves reflected by the bottom surface. The propagation time, T, of the combined ultrasonic ultrasonic transducer is measured. Then, by combined transducer, continuous ultrasonic vibrations are emitted at an angle H at the boundary of the layer and the angle f is changed at a fixed speed uJ. Continuous ultrasonic vibrations that have passed through the layer are received by the receiving transducer and the maximum frequency of the aux. leer shift. The thickness of the layer is determined by the time T of propagation taking into account the maximum frequency of the Doppler shift. The method for determining the thickness of the layer is implemented as follows. Combined and receiving converters 1 and 2 are installed on the surface of layer 3 in such a way that the distance between the most distant points of converters 1 and 2 is equal to A. Radiated ultrasonic waves oscillate normally to the interface of layer 3 with the combined converter 1 and receive them reflected by the bottom surface layer 3 ultrasonic vibrations. The time T of the propagation of an ultrasonic pulse in the layer in the forward and reverse directions is measured by one of the known methods, for example, using an oscillographic indicator. Then combined

Claims (3)

ultrasonic vibrations and rotate the ultrasound beam with a fixed angular velocity tO so that the reflected bottom surface of layer 3 slides along the other surface of layer 3, moving towards the receiving transducer 2. Radiation of ultrasonic vibrations at an angle to the layer boundary and performing rotation with a constant angular velocity h, for example, by electron scanning methods; Continuous ultrasonic vibrations passing through layer 3, which have undergone a frequency shift due to the Doppler effect, are adopted by the converter 2. The received signal contains the frequency spectrum of the Doppler shift, whose maximum frequency f corresponds to the time when the beam of reflected ultrasound rays goes beyond the limits of converter 2 (the drawing corresponds to this moment). The maximum Doppler shift frequency max is measured, for example, using a C4-25 spectrum analyzer. Considering the beam of ultrasound rays parallel, and the reflection on the bottom surface of layer 3 is specular, we get f -f -f MOX о о where f is the radiation frequency; I is the thickness of layer 3; C - the speed of propagation of ultrasonic vibrations in the material of the layer 3. Since, the thickness f of layer 3 is determined by the time T, taking into account the frequency f from the expression АТ. (F..l ne / ff- fj t f) t Simultaneously with the thickness of layer 3, it is possible to determine the speed C of the propagation of ultrasonic vibrations the material of layer 3 from the expression, {2iA f., .- ui J,, + A (.fMa. 97f-f (f. ..VT 2 (f.) in the case of determining the thickness of the layer of liquid media or soft biological tissues turn An ultrasonic beam can also be carried out mechanically, for example, by rotating the combined transducer around an axis passing through its center, lying in the plane of the transducers and perpendicular to the transducer. The first line connecting the centers of the combined and receiving transducers. In this case, the thickness of the first layer and the speed of propagation of ultrasonic vibrations in its material are determined by solving the system of equations using numerical methods. 2f. – u) 1Т (А-К) + 4Г / IA-R2l + AL-H 2 jyAV4 E-2AR-RiA-R) 2 (AR) FT 2f / C, R is the radius of the combined predominant. The invention of the method for determining the thickness of the layer, which consists in installing combined and receiving converters on the surface of a layer at a fixed distance, emits ultrasonic vibration pulses normally to the layer boundary with a transducer combined, takes oscillations reflected in the layer, measures their propagation time, emit an ultrasonic oscillation at an angle to the boundary of the layer with a combined transducer and receive oscillations that have passed through the layer, the receiving transducer, which differs In order to expand the field of application, with the continuous emission of ultrasonic vibrations at an angle to the boundary of the layer, this angle is fixed at a fixed speed, the maximum Doppler shift frequency is measured, and the thickness of the layer is determined by the propagation time taking into account the maximum Doppler shift frequency .