SU860717A1 - Device for ultrasound diagnosis of object inner structures - Google Patents

Description

MOS, on which is located the node of inclination of the ultrasonic energy transducer mechanically connected with the transducer.

The system for changing the orientation conditions of the ultrasonic beam is made as one set of Rizle prisms between an acoustic focusing device and an ultrasound transducer with a drive that rotates the projection in opposite directions at a given speed and has an additional pair of Rizle prisms with a drive that provides the prism rotation in opposite directions directions at a speed different from that of the first pair of Riezle prisms.

Moreover, the acoustic focusing device contains a lens having a numerical aperture larger than the control zone of the object.

FIG. 1 shows a block diagram of a device for ultrasound diagnostics of an internal structure of an object; in fig. 2 shows an image acquisition scheme by reflecting a pulse of ultrasonic vibrations; in fig. 3 and 4 are various systems for varying the angular orientation of the ultrasound beam relative to the axis of the acoustic focusing lens.

The device comprises a housing 1 filled with liquid, in which a fixed lens 2 and a block 3 are installed, containing an ultrasound energy transducer 4 (Fig. E) and a system 5 for changing the angular orientation of the ultrasound beam relative to the axis of the acoustic focusing lens 2. Excitation unit 6 is connected to block 3 and a unit 7 for processing and receiving information.

On the housing 1 of the device have the object under study.

The device works as follows.

An electrical impulse on the excitation unit b is supplied to the ultrasound energy transducer 4, which forms an acoustically-shaped beam with a plane wave front in the fluid. This acoustic beam hits a fixed lens 2, which converts it into a converging beam, having a point of convergence in a focal plane proportional to the angular displacement. To determine the structure of the object under study, it is placed in the focal plane of lens 2 and examined with a scanning ultrasound beam. The acoustic pulses reflected from the structure of the object under study are received by the acoustic transducer 4 and then fed to the information processing and reception unit 7, which provides information on the location and internal structure of the object under study.

The system 5 for changing the angular orientation of the ultrasonic beam can be made pivotally connected at one end to the transducer of the ultrasonic energy of the shaft 8 and the platform 9 fixed on it.

Stationary engine 12 drive shaft 8 at a relatively high speed of 3 s. A platform 9 and a tilt assembly of a transducer 4 are attached and rotated with the rotating shaft 8, which changes the position of the ultrasonic transducer 4 relative to the axis of the lens 2 at a relatively slow second set speed. For connecting the ultrasound transducer 4 to the excitation unit 6 and the information processing and receiving unit 7, appropriate means such as slip rings are used.

The former can also be made in the form of two pairs of Riezle prisms 13 and 14 located between the lens 2 and the ultrasound energy transducer 4. Riezle prisms 13 and 14 are connected by mechanical connections 15-18 with a drive 19. Riezle prisms reject the wave energy passing through them. At the same time, one of the prisms of each pair rotates at a predetermined speed and direction clockwise, while the other prism of each pair simultaneously rotates counterclockwise. A pair of prisms 13 sweep along the axis X rotates with a relatively high set speed, and a pair of prisms 14 with a relatively low set speed. Thus, the rotation of a pair of Riezle prisms 13 and 14 provides a change in the angle of incidence of the ultrasonic beam on the lens 2 from the transducer 4.

The proposed device allows an object to be examined at high speed with a large aperture lens.

Claims (4)

1. A device for ultrasound diagnostics of internal structures of a body, comprising a housing filled with a liquid, an acoustic focusing device, for example, a lens, an ultrasound energy transducer to which the exciter unit and an information receiving and processing unit are connected, the acoustic focusing device and the transducer are mounted into the housing and located at a fixed distance to each other. characterized in that, in order to ensure an inertialess scanning of an object, it is provided with a system of angular orientation of the ultrasonic beam relative to the axis of the acoustic focusing device mounted fixedly relative to the object being monitored. 2, The apparatus of claim 1, wherein the system for changing the angular orientation of the ultrasonic beam is made in the form of a hinge connected at one end to the ultrasound energy converter of the shaft with a fixed platform on which is mechanically connected to the converter node tilt transducer ultrasonic energy. 3. The device according to claim 1, wherein the system for changing the angular orientation of the ultrasound beam is made as installed between acoustically. a focusing device and an ultrasound energy converter of one pair of Rizle prisms with a drive. providing prisms with a speed of rotation in opposite directions; 4. The device according to claim 3, which is based on the fact that the system for changing the angular orientation of the ultrasonic beam has an additional pair of rizle prisms with a drive that ensures the rotation of the prisms in opposite directions at a speed different from that of the first Rizle prism pairs. 5, the Device in PP. 1 - 4, about tl and h ya e with the fact that the acoustic focusing device contains a lens having a numerical profile larger than the control zone of the object. Priority points; 04.03.76 on PP. 1, 2 and 5 16.0 7.76 by CPU. 3 and 4. Sources of information taken into account in the examination 1. USSR author's certificate 102951, CL G 01 N 29/04, 1950. 2. The Journal of the Acoustlca B Society of America, v.54, November, 1973, 6, p. 1628-1630 (prototype). //) 7 ///// W /, Sim. L