RU68881U1 - STETHOSCOPE - Google Patents

Abstract

The invention relates to medicine, in particular to cardiology, and can be used for auscultation in measuring the strength of heart sounds. The problem to which the claimed invention is directed is to increase the sensitivity of the stethoscope in a wide frequency range and expand its functionality. The stethoscope contains a housing with a resonator, a measuring transducer with a membrane with a mirror surface. The membrane is placed in a protective casing, while the elements of the connection of the measuring conversion with the registration unit are made in the form of optical fibers located with a gap to the mirror surface of the membrane.

Description

The invention relates to medicine, in particular to cardiology, and can be used for auscultation in measuring the strength of heart sounds.

The known design of a device for measuring the strength of heart sounds, containing the head of a stethophonendoscope, a sound-conducting tube with a hole with olives (RF patent No. 2.261.046 according to Ki A 61 B 7/02 from 09/27/2005).

The disadvantage of this device is the low sensitivity and, as a consequence, the lack of objectivity in the results of auscultation.

A known design of an electronic stethoscope sensor, in which, in order to increase sensitivity to weak signals, the sensor contains an electro-acoustic transducer with a mounting unit, in which there are additional crimping elements for the cable sheath, and the resonator is made of material with a speed of propagation of sound vibrations greater than the speed of propagation of sound vibrations cable sheath material (RF patent No. 2130755 according to Ki. A 61 7/04 dated 05/27/1999).

A disadvantage of the known device is the insufficient attenuation coefficient of sound noise, as well as the presence of transient distortions caused by the displacement of the transducer membrane, which ultimately reduces the sensitivity of the device and the objectivity of the results of auscultation.

The closest technical solution for the totality of essential features is a stethoscope containing a housing with a resonator, a measuring transducer with a membrane sensitive to acoustic signals and elements for connecting the transducer to the registration unit (European Patent No. 0.242.371 B1, class A 61 B 7/04 of 08.10 .1986).

The disadvantage of this device is the relatively low sensitivity due to the low range of frequencies used, and the presence of an error caused by noise occurring during operation of this device.

The problem to which the claimed invention is directed, is to increase the sensitivity of the stethoscope in a wide frequency range and expand its functionality.

The problem is solved due to the fact that in a stethoscope containing a housing with a resonator, a measuring transducer with a membrane sensitive to acoustic signals and elements connecting the transducer to the recording unit, the membrane of the measuring transducer is made with a mirror surface and placed in a protective casing, and the connecting elements of the measuring transducer with the registration unit are made in the form of emitting and receiving fibers, the end surfaces of which are located with a gap to the mirror surface

the membrane and the cavity of the resonator is connected by a flexible hose to the cavity of the protective casing in which the membrane is located.

Figure 1 presents a General view of a stethoscope.

Figure 2 General view of the measuring transducer. The stethoscope contains a housing 1 with a resonator 2.

The measuring transducer is equipped with a membrane 3 located in the protective casing 4, and from the side of its mirror surface “A” the emitting 5 and receiving optical fiber 6 are placed.

The end surfaces of the optical fibers 5 and 6 are placed with a gap to the mirror surface of the membrane, and the opposite sides of the optical fibers are connected to the registration unit 7, in which the light source (for example, infrared) is placed and the photodiodes are not shown in the drawing).

The cavity of the resonator 2 is connected by a flexible hose 8 with the cavity 9 of the protective casing 4.

The device operates as follows. When the registration unit is on, the stethoscope resonator is pressed against the heart area. Sound waves captured from the surface of the body excite acoustic vibrations in the cavity of the resonator, which are transmitted through a flexible hose to the cavity of the protective casing and are perceived by the membrane, which causes its deflection. When an optical signal is applied to the optical fiber 5 and the signal reflected from the mirror surface of the membrane is received through the optical fiber 6, it is converted by the photodiodes into an electrical signal in the recording unit, which makes it possible to measure the change in the gap between the membrane and the end of the receiving optical fiber 6 and convert it to a change the reflected light flux is proportional to the change in pressure of the sound wave.

Ultimately, this allows you to determine the parameters of the pulse wave, the strength of the currents of the heart, evaluate their dynamics, etc.

Using the measuring transducer with fiber-optic communication elements allows you to expand the range of perceived frequencies from infrasound to audible sound frequencies with increased sensitivity, and also makes it possible to use it for multi-channel shooting of diagnostic information.

Claims (1)

The stethoscope contains a housing with a resonator, a measuring transducer with an acoustic-sensitive membrane and elements for connecting the transducer to the recording unit, characterized in that the membrane of the measuring transducer is made with a mirror surface and is placed in a protective casing, and the connection elements of the measuring transducer with the registration unit are made in the form of emitting and receiving fibers, the end surfaces of which are located with a gap to the mirror surface of the membrane, while the cavity of the resonator is connected by a flexible hose to the cavity of the protective casing in which the membrane is located.