RU162363U1 - DEVICE FOR ELECTRONIC AUSCULTATION - Google Patents

Abstract

1. Device for electronic auscultation, comprising a housing with an acoustic sensor from a bimorph piezoelectric element installed in it and connected in series, an electronic unit including an amplifier board, a battery, a headphone jack, headphones, a power switch and a volume control, characterized in that a bimorphic piezoelectric element is connected to the housing through a soundproofing pad, matched in wave impedance to the human body, and on its surface A damping layer is applied. 2. A device for electronic auscultation according to claim 1, characterized in that the housing is made of ferromagnetic material. 3. A device for electronic auscultation according to claim 1, characterized in that the damping layer is made of rubber. 4. A device for electronic auscultation according to claim 1, characterized in that the bimorph piezoelectric element is made in the form of a flat round piezoelectric plate glued to a metal base. A device for electronic auscultation according to claim 4, characterized in that the piezoelectric plate and the metal base have a thickness of 0.1 ÷ 0.2 mm

Description

The utility model relates to medical equipment, and in particular to devices for auscultation of human noise.

The prior art electronic phonendoscope (RU 132330 U1, IPC A61B 7/04, publ. 10.01.2013), comprising a housing with lower, middle and upper battery compartments for accommodating the membrane, the electronic components of the amplifier on the printed circuit board and the contact element to the battery, respectively power supply, a sensitive element associated with an amplifier that is connected to an electrical connector for connecting external equipment, a power switch, a dividing wall between the upper battery and middle compartments, characterized in that it is sensitive the th element is fixed in the lower compartment on the membrane, the printed circuit board is electrically connected to the membrane and installed with the possibility of separating the lower and middle compartments of the housing and shielding the sensitive element, the connector for connecting to external equipment and the power switch are located in the middle compartment, and the contact element is made with the possibility connections to the power switch.

The disadvantage of a phonendoscope is the complicated housing design, which consists of three compartments for accommodating a sensitive element, an electronic board and a battery element, as well as the use of a piezoelectric sensitive element that does not provide wave matching with the human body due to operation in the stretching-compression mode.

Closest to the proposed technical solution is a device for auscultation (RU 2062047 C1, IPC A61B 7/04, publ. 06/20/1966), containing a series-connected acoustic sensor, an electronic unit equipped with filters with a passband frequency corresponding to the noise frequency range of the diagnosed organs , and electrical connectors for connecting additional headphones and recording devices and headphones, characterized in that the acoustic sensor is made in the form of a receiver of vibrational acceleration, shennogo through absorber into the sensor housing to protrude receiver applicator base by no more than half the height of the vibrational acceleration of the receiver, and based on the applicator mounted on supports bimorph piezoelectric elements and electromagnetic screen. Such a device can improve the reliability of diagnostic information by increasing the signal-to-noise ratio.

The disadvantage of the device are: the limited passband of the acoustic receiver due to the inertial mass of the supports, the complexity of the design of the receiving unit containing two receiving bimorph piezoelectric plates, the resonant response sensitivity of the receiver.

The proposed technical solution is aimed at linearizing and expanding the amplitude-frequency characteristics of the receiver, increasing the manufacturability of the device by simplifying the design of the receiving unit, as well as increasing the characteristic sensitivity of the device.

The indicated technical result is achieved in that the device for electronic auscultation comprises a housing with an acoustic sensor from a bimorph piezoelectric element installed in it and connected in series, an electronic unit including an amplifier board, a battery, a headphone jack, head phones, a power switch and a regulator volume, while the bimorph piezoelectric element is connected to the housing through a soundproofing pad, matched by the wave impedance iju with the human body, and on the surface of the damping layer is applied.

In the proposed device, the damping layer can be made, for example, of rubber, and a bimorph piezoelectric transducer - in the form of a flat circular piezoelectric plate with a thickness of 0.1 ÷ 0.2 mm, glued to a metal base of a similar thickness.

A positive technical result provided by the indicated set of design features is the linearity of the amplitude-frequency characteristics of the receiver and the absence of resonances, due to the connection of the bimorph piezoelectric transducer and the housing through a soundproof gasket and the application of a damping layer on its surface.

The use of one biomorphic piezoelectric transducer in the receiving part of the auscultation device with a soundproof gasket, made mainly in the form of a ring and preventing the penetration of contact noise to the receiver, and the absence of supports allows us to simplify the design of the receiving node of the auscultation device and expand the passband of the acoustic receiver. The use of a contact transducer, matched in wave impedance to the human body due to work in bending mode, also increases the characteristic sensitivity of the device.

The utility model is illustrated by drawings, where the figure shows the design of the receiving unit and the location of the main blocks of the auscultation device.

The auscultation device includes a housing 1 made of ferromagnetic material, a contact pad 2, a bimorph piezoelectric transducer 3, a soundproofing gasket 4, a damping layer 5, an electronic unit including an amplifier board 6, a battery 7, a socket for connecting headphones 8, headphones 9 , power switch 10 and volume control 11.

The device operates as follows. After turning on the battery 7 with the switch 10 and connecting the headphones 9 to the socket 8, the doctor touches the contact area 2 to the area of the patient’s body to be auscultated. Sound vibrations are transformed by a bimorph piezoelectric transducer 3, the use of which a damping layer 5 prevents unwanted resonances, into electrical signals coming to the amplifier board 6. Contact noises that can cause interference with auscultation are absorbed by the soundproofing pad 4, the required sensitivity level is set by the volume control 11, and a housing 1 made of ferromagnetic material provides isolation of the device from external electrical interference.

Claims (5)

1. Device for electronic auscultation, comprising a housing with an acoustic sensor from a bimorph piezoelectric element installed in it and connected in series, an electronic unit including an amplifier board, a battery, a headphone jack, headphones, a power switch and a volume control, characterized in that a bimorphic piezoelectric element is connected to the housing through a soundproofing pad, matched in wave impedance to the human body, and on its surface A damping layer is applied. 2. A device for electronic auscultation according to claim 1, characterized in that the housing is made of ferromagnetic material. 3. A device for electronic auscultation according to claim 1, characterized in that the damping layer is made of rubber. 4. A device for electronic auscultation according to claim 1, characterized in that the bimorph piezoelectric element is made in the form of a flat round piezoelectric plate glued to a metal base. 5. A device for electronic auscultation according to claim 4, characterized in that the piezoelectric plate and the metal base have a thickness of 0.1 ÷ 0.2 mm

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