CZ300799B6 - Device for increasing efficiency of elimination of undesired reflections of ultrasonic waves propagated in a liquid - Google Patents

Abstract

In the present invention, there is provided a device for increasing efficiency of elimination of undesired reflections of ultrasonic waves propagated in a liquid (2) contained in a measuring tank (1). Said measuring tank (1) inner walls are provided with a stable absorber (3) and above the measuring tank (1), there is disposed a positioning device (7) provided with a suspension (71) with a target (8) secured therein, wherein said target (8) being submerged into the liquid (2) is positioned opposite to a measured converter (6). The device is formed by a fixed absorber (9) and/or a movable absorber (10), which are provided in the inner space of the measuring tank (1) in the area between the target (8) and its wall opposite to the direction of ultrasonic wave propagation from the measured converter (6).

Description

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The device is designed to increase the efficiency of eliminating unwanted echoes of ultrasonic waves propagated in the fluid (2) through which the measuring bath (1) is filled. Its inner walls are provided with a stable absorber (3) and above it is placed a positioning device (7) provided with a hinge (71) in which the target (8) is immersed in the liquid (2) against the measured transducer (6). a fixed absorber (9) and / or a movable absorber (10), which are arranged in the interior of the measuring bath (i) in the region between the target (8) and its saliva opposite the direction of the ultrasonic waves from the transducer (6).

From 300,799 B6 «rt ^r <1

Device for increasing the efficiency of elimination of unwanted reflections of ultrasonic vines propagated in a fluid

Technical field

BACKGROUND OF THE INVENTION The present invention relates to the construction of an apparatus for enhancing the efficiency of eliminating unwanted reflections of ultrasonic waves propagated in a fluid through which a measuring bath is filled.

BACKGROUND OF THE INVENTION

At present, ultrasonic devices are used in technical and medical fields, the principle of which is based on the intake of ultrasonic energy reflected from the investigated structure.

The characteristics and technical parameters of these devices should be measured during their development, production and during use. Nowadays, measuring phantoms and measuring baths filled with a suitable liquid medium are used for this purpose. The measuring phantoms consist of suitable containers filled with a substance mimicking the ultrasound properties of the tissue. Various reflectors are then suitably distributed and fixed therein, wherein various types of devices are described in DE 281436, US 5,670,719; US 5,625,137; US 5,054,310; US 4,286,455; US 4,331,021; US 4,406,153; US 4,417,582; US 4,453,408 or US 4,463592. The measuring baths are used primarily for detecting the sound pressure distribution in the radiated ultrasonic field as described in US 4,277,367, or for measuring by means of a movable reflector whose construction is evident from CZ PV 2003-3425. Measurements in such baths reflect ultrasonic energy from their walls, causing the reflected waves to interfere with the waves propagated in the fluid, resulting in time-shifted signals against the transmitted signal. This creates artificial parasitic patterns in the image, and these phenomena reduce the accuracy of measurements, in some cases make them completely impossible. Therefore, suitable absorbing elements are placed on the walls of the measuring bath, which absorb the incident energy and significantly reduce the intensity of the reflected waves. The dimensions of the measuring trough must then be much larger than the actual measuring area in order to absorb ultrasonic energy in the trough filling. As a filling of the measuring bath, a mixture of degassed water with ethyl alcohol is usually used. They are able to process very low intensities of received ultrasonic energy, the effectiveness of these measures is not sufficient to eliminate reflected waves sufficiently. This situation further worsens the possibility of eliminating interfering signals by selecting the appropriate measurement area in the display area. which in such circumstances arises when measuring the moving reflector described in CZ PV 2003-3425, when the position of the reflector gradually changes, and thus the position of the parasitic reflections caused by it and at the same time the position of the area of interest in the image. Therefore, under these circumstances, the measurement is limited to certain areas of the image where there is no parasitic signal at the time of measurement, which reduces the range of possible measurement and significantly complicates the process of its preparation.

SUMMARY OF THE INVENTION

The above-mentioned disadvantages of the known solutions are largely eliminated by devices for increasing the efficiency of eliminating unwanted echoes of ultrasonic waves propagated in a fluid, filled with a measuring bath, the inner walls of which are provided with a stable absorber and above which a positioning device with hinge is mounted. in the fluid against the measured transducer. The principle of the solution is that the device consists of a fixed absorber and / or a movable absorber, which are arranged in the interior of the measuring bath in the area between the target and its wall opposite the direction of ultrasonic wave propagation from the measured transducer.

It is a further object of the invention that the rigid absorber is positively mounted by means of a support to a support which is mounted in the measuring bath parallel to the direction of ultrasonic wave propagation and preferably has a planar plate shape.

It is also an object of the invention that the movable absorber is fastened to the target hinge by a grip so that it substantially forms a unit with the hinge, and preferably has a planar plate shape.

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Finally, it is an object of the invention that the transducer to be measured is either located outside the measuring bath against an acoustic window formed in one of its walls or is located inside the measuring bath so that it is immersed in a liquid.

The present invention achieves a new and higher effect in that the design of the device makes it possible to adjust the structure of absorbers and reflectors of a suitable shape and design in the measuring bath in such a way as to eliminate interfering signals. the ultrasonic signals and their reception time, as well as the position and number of dynamic focus foci during transmission. This effect is achieved by adjusting the absorbers both statically prior to measurement and dynamically during measurement.

Description of the figure in the attached drawing

A specific embodiment of the invention is shown schematically in the accompanying drawing, representing a vertical section of a basic embodiment of a measuring bath in the plane of the axis of the ultrasonic beam transmitted by the transducer being measured, wherein the measuring bath is provided with both fixed and movable absorber.

DETAILED DESCRIPTION OF THE INVENTION

The device according to the invention consists of a measuring bath 1, which is filled with a suitable liquid

2, selected to provide a constant and minimal attenuation of the ultrasonic waves and a defined velocity of their propagation, and secondly, its inner walls are provided with a flat, stable absorber 3. The measuring bath 1 is mounted on the base plate 4 and is provided with an acoustic window 10b against The positioning device 7 provided with a hinge 71, in which the target 8, which may be a suitable sensor or a reflector, is fixed above the measuring pan 1, preferably fixedly fastened. A fixed absorber 9 and a movable absorber 10 are disposed in the interior of the measuring bath X in the region between the target 8 and its wall opposite the acoustic window 101.

The fixed absorber 9 is supported by a support 9 [positionably mounted on a beam XX mounted in the upper part of the measuring bath X above the level of the fluid 2 in parallel with the direction of the ultrasonic wave propagation. The position of the fixed absorbers 9 is established prior to the measurement, adjustable in the direction of ultrasonic wave propagation, and limited to the transducer 6 by the maximum distance of the hinge 7X of the target 8 from the transducer 6 being measured during the measurement. The solid absorber 9 may be plate-shaped, or may be suitably shaped so as to achieve a minimum reflection of ultrasonic energy back towards the transducer to be measured 6. The solid absorber 9 carrier 9 may then be mounted on the beam XX also to allow it to rotate relative to it. the axis of ultrasonic propagation, thus again ensuring that the reflected energy does not point back to the transducer to be measured 6.

-7 GB 300799 B6

The movable absorber 10 is fastened to the hinge 71 of the target 7 by means of a grip 12 so that it substantially forms a single unit with it and moves simultaneously with the hinge 71 so that in each position the target 8 is always between the transducer 6 and the movable absorber 10. This completely eliminates the strongest interfering signals that occur in the region of the axis of the emitted ultrasonic beam where the intensity of the emitted ultrasonic waves is greatest. The two absorbers 9, 10 can have different shapes and must be made of a material characterized by a maximum ultrasonic energy absorption coefficient and a minimum reflection coefficient at the fluid interface 2 of the measuring cell filling k For normal applications in measuring sonographic properties, absorber 9,10 planar plate shape. However, it is evident that another suitable shape may be used, e.g. a curved plate. It is desirable to provide the surface of the absorbers 9, 10 with pyramid-shaped irregularities which substantially improve the efficiency of the ultrasonic energy absorption.

Before starting the measurement, it is necessary to first mount the measured transducer 6 in the holder 5 and adjust its position for measurement. Thereafter, the positioning device 7 moves the target 8 out of the area displayed by the sono15 chart so that neither the target 8 nor the movable absorber 10 is displayed by the measured sonograph. In the next stage of preparation, the desired sonographic dynamic focusing mode is selected and the fixed absorber 9 is set to such a position that there are as few disturbing signals as possible in the display field on the sonograph screen. This ensures optimum initial measurement conditions. During the actual measurement, the effect of the solid absorbers 9 is substantially enhanced by the effect of the movable absorbers 10, which move along with the target and absorb ultrasonic waves that propagate near the target 8 and may produce interfering signals depending on its immediate position.

The described embodiment is not the only possible solution according to the invention when the transducer to be measured 6 can be placed inside the measuring bath 1 so that it is immersed in the liquid 2 and fixed in a suitable holder 5.

For certain types of measurements or types of transducers 6, the device may be equipped with either a fixed absorber 9 or a movable absorber 10 only.

Industrial applicability

The device according to the invention is useful for measurement in the field of application of continuous and pulsed ultrasound in the field of physical sciences and various fields of technology using ultrasound.

Claims (6)

PATENT CLAIMS 5 1. Apparatus for increasing the efficiency of eliminating unwanted echoes of ultrasonic waves propagated in a fluid (2), filled with a measuring pan (1), the inner walls of which are provided with a stable absorber (3) and above which a positioning device (7) (71), in which a target (8) immersed in the fluid (2) is mounted against the transducer (6) to be measured, characterized in that it consists of a fixed absorber (9) and / or a movable absorber (10), in the interior of the measuring trough (1) in the region between the target (8) and its wall opposite the direction of propagation of the ultrasonic waves from the transducer to be measured (6). Device according to claim 1, characterized in that the fixed absorber (9) is positively mounted by means of a support (91) on a support (11) mounted in the measuring bath (1) parallel to the direction of ultrasonic wave propagation. 15 Dec Device according to claim 2, characterized in that the fixed absorber (9) has a planar plate shape. Device according to claim 1, characterized in that the movable absorber (10) is fixed to the hinge (71) of the target (7) by means of a grip (12) such that it substantially forms a single unit with the hinge (71). 20 May Device according to claim 4, characterized in that the movable absorber (10) has a planar plate shape. Device according to one of Claims 1 to 4, characterized in that the transducer to be measured (6) is located either outside the measuring pan (1) against an acoustic window (101) formed in one of its walls or located inside the measuring pan (1). so that it is immersed in the liquid (2).