RU146979U1 - PORTABLE WIRING ELECTRONIC FONENDOSCOPE - Google Patents

Abstract

1. A portable wrist electronic phonendoscope comprising a case and an acoustic signal receiver, an amplifier, an optoelectronic unit including an analog-to-digital converter, a device for recording, storing and reproducing information are placed inside a case made of plastic; a block for program analysis of the received data, a memory card, an autonomous power source; the input of the optoelectronic unit by means of an optical communication cable, consisting of two optical fibers, through a connector the socket of which is located on the device’s case, is connected through an amplifier to an acoustic signal receiver made in the form of an optical microphone, on the front surface of the case there is a control panel with a display, and on on the side surfaces of the housing are a socket for a cord plug for connecting to a computer and a socket for recharging an autonomous power source, characterized in that in the thickness of the wall Pusa on the perimeter wall and extends around the optoelectronic microphone heating element, and an optoelectronic unit further includes a wireless communication device and the heater control system; an optical microphone is located on the front surface of the housing next to the control panel, also on the front surface of the housing is a miniature digital camera with the possibility of photo and video shooting connected to the input of the optoelectronic information and control unit; the control panel contains buttons for turning on, searching, entering information, controlling the heating element, controlling the camera and controlling the wireless device and the liquid

Description

The technical solution relates to medical equipment, namely to diagnostic equipment and devices intended for auscultation.

In medical practice for centuries, a device for auscultation was first used in the form of a wooden tube. One of the main tools of a doctor is a stethophonendoscope (phonendoscope), developed in the 40s of the 20th century.

A stethophonendoscope - a binaural acoustic device with a flexible sound conduit - is a simple, easy-to-use device. The prototype of a modern stethophonendoscope is a stethoscope, proposed by the French physician Laennock (R.T.H. Laennec) in the twenties of the 19th century.

A stethophonendoscope usually has two sockets located in the head: a stethoscopic (without a membrane) and a phonendoscopic (with a membrane). A stethoscopic bell is used to listen to low and medium frequencies, and a phonendoscopic bell is used to listen to medium and high frequency auscultatory (listened) signs.

A simpler device is a phonendoscope - a device that uses a membrane located in the socket of the head, with the help of which the sound vibrations generated during the functioning of the patient’s organs are amplified, carried out using flexible tubes to the doctor’s hearing organ. The range of sounds heard and conducted in a phonendoscope depends on the physical parameters of the membrane.

Since the development of the first models of the stethophonendoscope, it has not undergone any improvements, except for the use of a two-sided rotary head, proposed in the late 40s of the last century by the Russian doctor Rappoport.

A modern standard stethophonendoscope is designed to listen to physiological and pathological sound vibrations during the work of the lungs, heart and blood vessels, as well as to determine blood pressure, recognition of arteriovenous aneurysms; a stethophonendoscope is also used in the study of the digestive organs, as well as in the study of joints (the friction noise of intraarticular surfaces) (Grebenev A.L., Propaedeutics of internal diseases, M., Medicine, 2001)

Using a standard stethophonendoscope or phonendoscope, it is not always possible to “pick up” weak sounds by the hearing organ. In addition, the registration and interpretation of the obtained sound parameters is recorded by the doctor only in the patient’s medical history in descriptive form (in the form of a record). In this case, the objectivity of the assessment of the recorded parameters depends not only on the qualifications of the doctor, but also on the capabilities of his hearing organ.

The introduction of electronic medical records to the practice of healthcare using a computer allows you to record the interpreted auscultatory examination data of a patient not only in writing, but also to enter them into the computer’s memory and, accordingly, into the electronic medical history, as well as re-listen to auscultated data or see them in the form of graphs, and, therefore, to conduct a comparative assessment in the dynamics of the disease.

This has been made possible with the help of electronic phonendoscopes. However, the electronic phonendoscopes available at the moment of time are, by configuration, an analogue of a standard stethophonendoscope - a head with electronic “stuffing” connected to the headphones. This configuration of the phonendoscope is rather bulky and inconvenient, it can cause discomfort for the patient during the examination, especially when the cold parts of the phonendoscope touch the patient’s body, even cause emotional stress in pediatric patients, which can significantly distort the picture of the examination (Davydova E.Kh., Children's mental trauma, Psychological newspaper: We and the World, No. 11, T. 111, 2005; Is it necessary to prepare a child for a meeting with a doctor? Article from the Internet resource "Family Psychology", 11/21/2013).

In addition, with this configuration of the electronic phonendoscope, it takes time to transfer data to a stationary computer, since each time you need to connect a suitable wire to the phonendoscope to transfer data to a removable or built-in computer memory device.

In addition, auscultation should be followed by a general examination of the patient — constitution, pupil size, skin color, and swelling. Auscultatory signs of various diseases are directly related to the external manifestations of the disease - for example, heart failure is characterized by cyanotic coloration of the skin, the so-called “Corvisar's face”; for croupous pneumonia is characterized by a febrile blush, more pronounced on the side of the inflammatory process in the lung; for long-term, chronic diseases of the lungs and heart - bulb-like thickenings of the upper phalanges of the fingers (the so-called “drumsticks”) and the shape of the nails in the form of watch glasses (Grebenev A.L., Propaedeutics of internal diseases, M., Medicine, 2001 .). The identification of this correlation contributes to a more accurate diagnosis, however, when entering written examination data into the medical history, some subjectivity may be present. The way out is photo and video shooting, made in accordance with the principles of medical deontology and professional ethics, with the knowledge and consent of the patient. However, photo / video shooting is possible with a camera, which may not be at the site of inspection.

The use of an equipped with a miniature camera operating in both photo and video shooting modes, an electronic phonendoscope, with an integrated device for wireless data transmission, is the best way out of this situation.

The purpose of the utility model is to create a portable electronic phonendoscope that allows almost imperceptibly for the patient, without causing him discomfort, to perform auscultation, and if necessary photo / video shooting, recording, storage and quick transfer of information to a desktop computer using wireless technology, which contributes to objectification and optimization of the survey process.

An optoelectronic phonendoscope was used as an analogue (patent for utility model No. 86434 dated 06/17/2009). The analogue consists of a housing made of plastic and an acoustic signal receiver, an amplifier is placed inside the housing, an optoelectronic unit including an analog-to-digital converter, a device for recording, storing and reproducing information; a block for program analysis of the received data, a memory card, an autonomous power source; the input of the optoelectronic unit through an optical communication cable, consisting of two optical fibers, through a connector, the socket of which is located on the device’s body, is connected through an amplifier to an acoustic signal receiver, made in the form of an optical microphone, which is located in the socket; the output of the optoelectronic unit by means of a cable for conductive communication through a connector, the socket of which is located on the device’s body, connected to stereo headphones; on the front surface of the case there is a control panel with a display, and on the side surfaces of the case there is a socket for a cord plug for connecting to a computer and a socket for recharging an autonomous power source. The analogue in configuration is close to a conventional phonendoscope and has the above disadvantages.

A diagram of the proposed portable wrist electronic phonendoscope is shown in FIG. 1, where a high-frequency ultra-high-sensitivity optical microphone (1) is used, connected to an amplifier (2), a heating element (3), an optoelectronic unit (4), including an analog-to-digital converter, a wireless communication device (4a), a recording, storage device and reproducing information with a replaceable memory card, as well as a heating element control device; a software analysis unit for the received data (5) with a control panel (6) designed to turn on the device, search and enter the received information using digital and alphabetic characters with their registration on the liquid crystal display; autonomous power source (7), miniature digital camera with the possibility of photo and video shooting (8), wireless stereo headphones (9), which are connected through a wireless channel through the device (4a) of the optoelectronic unit (4).

The optoelectronic unit may include an electronic phonendoscope voice control device connected to an optical microphone (1).

The control unit of the heating element is configured to turn the heating element on and off, and can also be configured to adjust the temperature in the physiological range of 36-40 ° C.

The control panel can be made in the form of a touch screen.

As an autonomous power source, you can use a rechargeable battery.

The proposed device is a portable wrist electronic phonendoscope (Fig.2) consists of a device housing (1a) made of plastic, on the front wall of which there is a highly sensitive wide-range (with the possibility of different frequencies) optical microphone (1). In the thickness of the wall of the housing (1a), a heating element (3) passes along the perimeter of the wall and around the microphone. The back wall of the device (1b) is removable - under it is an amplifier (2) and an optoelectronic unit (4), which includes an analog-to-digital converter, a wireless communication device (4a), a device for recording, storing and reproducing information, as well as a heating control device element (3)) with a replaceable memory card, as well as a program analysis unit for the received data (5), an autonomous power source - a battery (7) (shown in figure 1); next to the microphone on the front wall of the device’s body is the control panel (6), where there are buttons for turning on, searching, entering information, controlling the heating element, controlling the camera and controlling the wireless device; as well as a digital camera with the possibility of photo and video shooting (8) and a liquid crystal display (10).

Using the control panel, the sound level is also adjusted and the microphone is tuned to select the necessary frequencies of electromagnetic sound vibrations. Wireless stereo headphones (9) are supplied with the device, the proposed phonendoscope communicates with them via a wireless channel equipped with its own power source.

On the side surface of the device there is a socket (11) for the plug of the battery charger, on the same surface there is a socket (12) for the plug of the cord for entering information into the computer. On both side surfaces are located the means of mechanical connection (13) (hinges, fasteners) with a bracelet or watch strap (14).

Portable electronic wrist phonendoscope works as follows:

1. They put the device on the hand like a wrist watch, put on wireless stereo headphones.

2. By pressing the button, the panels turn on the device, turn on the headphones.

3. If necessary, using the built-in digital camera, photograph and / or video the patient.

4. Set the temperature of the heating element or use the temperature value set in the device by default. Turn on the heating element of the device.

5. Turn on the wireless feature if it is not enabled by default.

6. On the display, the last name, first name, middle name of the patient, age, medical history number, research time are typed (automatic recording of time is possible if this function is available in the program).

7. Then include a program for recording information and carry out the procedure of auscultation (listening) by pressing the wrist with the device to the patient's body; using the control panel set the sound level and adjust the frequency necessary for a clearer perception of information.

8. At the end of the examination procedure, a preliminary conclusion appears on the display screen based on the results of a program analysis of the parameters identified during auscultation, then the information is automatically entered into the device’s memory.

9. If it is necessary to transfer the received information to a computer equipped with a wireless device, turn on the wireless device of this computer, establish a connection and transmit the received information via a wireless channel.

10. If necessary, transfer the received information to a computer that is not equipped with a wireless device, use the socket for the plug (12) (figure 2) and a cord for entering information into the computer.

The proposed development is based on the principle of a wristwatch, mounted on the wrist, allows, without attracting the attention of the patient and without causing discomfort, to perform auscultation, if necessary photo / video shooting, recording, storage and transmission of information to a desktop computer, laptop, tablet, smartphone . It can be used for educational purposes, as well as in practical health care, which is especially important in connection with the planned implementation of the electronic medical history. This will optimize the diagnostic process, reduce the time it takes to fill out medical documentation, and will improve the quality of medical care.

Claims (6)

1. A portable wrist electronic phonendoscope comprising a case and an acoustic signal receiver, an amplifier, an optoelectronic unit including an analog-to-digital converter, a device for recording, storing and reproducing information are placed inside a case made of plastic; a block for program analysis of the received data, a memory card, an autonomous power source; the input of the optoelectronic unit by means of an optical communication cable, consisting of two optical fibers, through a connector the socket of which is located on the device’s case, is connected through an amplifier to an acoustic signal receiver made in the form of an optical microphone, on the front surface of the case there is a control panel with a display, and on on the side surfaces of the housing are a socket for a cord plug for connecting to a computer and a socket for recharging an autonomous power source, characterized in that in the thickness of the wall Pusa on the perimeter wall and extends around the optoelectronic microphone heating element, and an optoelectronic unit further includes a wireless communication device and the heater control system; an optical microphone is located on the front surface of the housing next to the control panel, also on the front surface of the housing is a miniature digital camera with the possibility of photo and video shooting connected to the input of the optoelectronic information and control unit; on the control panel there are buttons for turning on, searching, entering information, controlling the heating element, controlling the camera and controlling the wireless communication device and a liquid crystal display; on both side surfaces of the case there are means of mechanical connection with a bracelet or watch strap. 2. The portable wrist electronic phonendoscope according to claim 1, characterized in that the optoelectronic unit includes a voice control device with a portable wrist electronic phonendoscope. 3. The portable wrist electronic phonendoscope according to claim 1, characterized in that the heating element control device is configured to adjust the temperature in the range of 36-40 ° C. 4. Portable wrist electronic phonendoscope according to claim 1, characterized in that the control panel is made in the form of a touch screen. 5. The portable wrist electronic phonendoscope according to claim 1, characterized in that a rechargeable battery is used as an autonomous power source. 6. Portable wrist electronic phonendoscope according to claim 1, characterized in that the back wall of the device is removable.

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