KR20200045133A - Apparatus for Measuring Physiological Signal - Google Patents

Abstract

The present invention relates to a system for measuring a biosignal capable of preventing a disease of the aged and reducing medical expenses of the aged since a health status of a patient may be easily measured by easily sensing biosignal information such as a heart rate, oxygen saturation, body temperature, and respiration and measured bio-information is databased to predict a sign of a disease in nursing facilities such as welfare facilities for the aged and sanatorium. The system comprises: a sensing module; a measurer; and a monitoring device.

Description

Bio-signal measurement system {Apparatus for Measuring Physiological Signal}

The present invention relates to a bio-signal measurement system, and in detail, it easily detects bio-signal information such as heart rate, oxygen saturation, body temperature, and breathing in a nursing facility such as an elderly welfare facility or a nursing home, thereby easily measuring a patient's health condition. The present invention relates to a biosignal measurement system that prevents diseases of the elderly and reduces the medical expenses of the elderly by making the measured biometric information DB to predict the symptoms of the disease.

With the development of electric and electronic technology, recently, a healthcare technology capable of remotely treating and treating and managing health based on the treated information has been developed.

Interest in healthcare devices is increasing day by day, and recently, it has been developed to check and manage one's own health anytime, anywhere, not only in a hospital.

As an example of such a healthcare device, a product having a small sized portable complex biosignal measuring device developed and commercialized has been released, and this has been proposed in Patent Documents 1 to 3.

Patent Document 1 is composed of an electrode that is attached to the user's body and measures the bio-signal, and a sensing processing unit that primarily receives and processes the bio-signal that is measured through the electrode, and is detachable from the communication module through the first connector. A sensing module that is connected to the device and receives power from a communication module, and transmits the first processed bio signal to the communication module through the sensing processor; And a communication module that is physically and electrically detachably connected to the sensing module, and includes a communication module that receives the processed bio-signal through the sensing module and transmits the bio-signal to the outside after processing. The communication module includes a second connector unit. It is detachably connected to the first connector part so that power is supplied to the sensing module, and the primary processed biosignal is received through the sensing processor, and the primary processed biosignal received through the second connector is secondary. A control unit for processing, a communication unit for receiving a second processed bio-signal through the control unit, and transmitting it to the outside, a storage unit for storing the bio-signals received from the sensing module, and a bio-signal stored in the storage unit to be transmitted to the outside It consists of a selected transmission unit, a power supply unit that supplies power to the sensing module and communication module, and an LED and speaker. , The first connector portion has a plate shape, a protruding tab protruding convexly at the center portion, a first data line and a first power line made of metal spaced apart from the protruding tab, and a second connector portion having a plate shape, A concave concave groove is formed so that the protruding tab is detachably inserted in the central portion, and the second data line is a metal material that is spaced apart from the concave groove and is symmetrical to the first data line and a second power source that is symmetrical to the first power line. Line is provided, the sensing module is operated only by electrical coupling with the communication module, the communication unit is a bio-signal measuring device configured to transmit the processed bio-signal to an external analysis means,

Patent Document 2 is configured to be inserted into the user's ear canal, a first measurement unit for measuring brain waves; A second measuring unit configured to contact the user's ear ball in the form of a clip to measure infrared and / or red light signals transmitted and reflected through capillaries; A first signal processing unit receiving the output of the first measurement unit and outputting EEG information; A bio-signal measuring device comprising a second signal processing unit for receiving the output of the second measurement unit and outputting oxygen saturation information and pulse information, and a communication unit for transmitting the output of the first signal processing unit and the second signal processing unit to an external device,

Patent Document 3 is a biosignal measuring apparatus that is attached to the skin of a human body and measures a biosignal of the human body, wherein a flexible substrate on which a circuit pattern is formed between plastic films and a flexible substrate mounted on one side of the flexible substrate is mounted to the body temperature And a body temperature sensor and a pulse sensor for measuring the pulse, and a wireless transceiver that is mounted on the other side of the flexible substrate and converts the body temperature and pulse signal measured through the body temperature sensor and the pulse sensor into wireless signals and transmits them wirelessly, and the other side of the flexible substrate It is mounted on a body temperature sensor, pulse sensor, and a battery that supplies power to a wireless transceiver, and is made of an adhesive that can be attached to and detached from the skin of the human body by being applied to a flexible substrate. It is a bio-signal measurement device that can replace batteries.

Although various biosignal measurement systems have been developed as described above, they are compact and easy to carry, but it is difficult to accurately measure biometric information, and has a disadvantage in that information management is difficult.

Meanwhile, as of 2017, the medical expenses for the elderly are 27 trillion, accounting for 39% of the total medical expenses, and in 2030, the medical expenses for the elderly are expected to exceed 90 trillion won. It is emphasized that it is necessary, and the increase in medical expenses for the elderly due to the increase in life expectancy has a burden on the individual, family, and society as a whole, but the development of technology to prevent the disease of the elderly has not been developed.

KR Publication No. 10-2013-0016183 KR Publication No. 10-2014-0112989 KR Publication No. 10-2016-0015419

The present invention was developed to solve the problems of the prior art as described above, and easily detects and DBs biosignal information such as heart rate, oxygen saturation, body temperature, and breathing in elderly care facilities, nursing homes, etc. It is an object of the present invention to provide a biosignal measurement system that can easily measure the health condition and detect the signs of disease from the measured bioinformation to prevent the elderly's disease in advance.

The bio-signal measurement system according to the present invention for solving the above object includes a breathing sensor that senses a patient's breathing, a heart rate sensor that senses a patient's heartbeat, a voice sensor that senses a patient's voice, and a patient's A sensing module including a temperature sensor for detecting body temperature; An information conversion unit for converting information sensed from the sensing module into digital information, a stethoscope signal conversion unit for converting sound information input from a sensor for sensing sound information among sensors of the sensor module into an audio file, and input A DB for storing information, an analysis unit for comparing and analyzing input crucible information with preset reference information, a communication module for transmitting acquisition information and analysis information to an external device, a speaker for outputting analysis information in voice, and each of the above A measuring instrument that controls the driving of the constituent parts and includes a microprocessor unit having an analysis program; And it characterized in that it comprises a monitoring device for monitoring the information measured and analyzed by the measuring device.

The temperature sensor is an infrared temperature sensor, the voice sensor is a highly sensitive condenser microphone, and the breathing sensor is preferably an air flow sensor.

It is preferable that the measuring device is provided with a rotary switch for selecting sensor sensing information to be transmitted among information measured by the measuring device.

It is preferable that the measuring device is provided with a display on one side to display sensing information sensed by the sensor module.

The bio-signal measurement system according to the present invention can check and make the health status of the elderly even when there are relatively few nursing assistants, nursing homes, physical therapists, and management staff, compared to the elderly nursing homes, and DB can be analyzed. Therefore, the health condition of the elderly can be checked in advance, thereby preventing the disease of the elderly.

In addition, the present invention has the effect of reducing the incidence of disease by reducing the incidence of medical expenses added to the presbyopia by lowering the incidence of diseases as the disease is detected in advance.

The present invention transmits the acquired information using a communication means such as WIFI, database the received information, and checks the patient status in real time through an intuitive UI screen, as well as measuring and collecting data. It is effective to analyze the trend of health status after alone by analyzing the accumulated information according to the DB.

1 is a configuration diagram of a bio-signal measurement system according to the present invention,
2 is a photograph of an example of a measuring device constituting a biosignal measuring system according to the present invention,
3 is a configuration diagram of a measuring instrument constituting the bio-signal measuring system according to the present invention,
4 is a monitor screen constituting the bio-signal measurement system according to the present invention,
5 illustrates a mobile phone screen constituting a biosignal measurement system according to the present invention.

The present invention can be applied to various changes and can have various embodiments, and specific embodiments are illustrated in the drawings and will be described through detailed description. However, this is not intended to limit the present invention to a specific embodiment, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

In describing each drawing, similar reference numerals are used for similar components. In the description of the present invention, when it is determined that a detailed description of known technologies related to the present invention may obscure the subject matter of the present invention, the detailed description will be omitted.

In the following description, the expression “patient” is used, but it is “elderly” or “patient” in poor health.

The present invention can easily measure the health of the elderly, detect the signs of the disease from the measured bio-information, and prevent the elderly's diseases in advance, thereby reducing the medical expenses of the elderly caregivers.

As shown in FIG. 1, the bio-signal measurement system of the present invention includes a sensor module 10 composed of a plurality of sensors, a measuring device 20 for controlling sensor modules to collect desired bio-information, and a monitoring device for monitoring information It includes (30), either or both of the measuring device or the monitoring device is provided with an analysis program for measuring the health status of the patient by analyzing the sensed information.

The sensing module 10 is a means for detecting various human information related to health, as shown in FIGS. 1 and 2, a breathing sensor 11 for sensing the patient's breathing, and detecting the heartbeat of the patient It includes a heart rate sensor 12, a voice sensor 13 for detecting a patient's voice, and a temperature sensor 14 for detecting a patient's body temperature.

The breathing sensor 11 is for obtaining the patient's breathing status information, and can detect the stability of breathing, the number of times, the depth of breathing, and preferably an air flow sensor. That is, it is possible to check the patient's respiratory stability by detecting the air flow rate, frequency, and frequency of inhalation and exhalation detected by the air flow sensor.

The heart rate sensor 12 is for detecting real-time heart rate, heart rate, and the like. The voice sensor 13 is for detecting the patient's voice and confirming the patient's condition. The voice may vary depending on the health condition, and the patient's condition may be confirmed by detecting the voice. The preferred voice sensor is to use a high-sensitivity condenser microphone so that voice can be recognized more accurately.

The temperature sensor 14 is for detecting a patient's body temperature, and a conventional thermometer may be used, but it is preferable to use an infrared temperature sensor according to a time-consuming and difficult method.

In addition, the sensor module 10 is for measuring the degree of oxygen contained in the blood of a patient, a method of directly collecting and testing blood according to a conventional measuring method, and using a sensor at the same fingertip as in a capillary tube. A method of measuring the degree of red blood cells including oxygen may be used, but the method of collecting and detecting blood is dangerous and it is preferable to configure it in a form installed at the fingertips as the patient may feel rejection.

The measuring device 20 is for controlling driving of each sensor constituting the sensing module or collecting information of sensors, an information conversion unit 21 for converting information sensed from the sensing module into digital information, and Among the sensors of the sensor module, a stethoscope signal conversion unit 22 for converting sound information input from a sensor sensing sound information into an audio file, a DB 23 for storing the input information, and input donor information are preset. The analysis unit 24 compares and analyzes the reference information, the communication module 25 that transmits acquisition information and analysis information to an external device, a speaker 26 that outputs the analysis information by voice, and drives each of the components And a microprocessor unit (20m) equipped with an analysis program.

The information conversion unit 21 is for converting various sensing information detected by the sensing module into a digital signal. That is, the information sensed by the sensing module is in analog form, and it is preferable to digitize it for analysis in a monitoring device or program that follows, and for this purpose, the information conversion unit 21 is provided.

The auscultation signal conversion unit 22 is for converting sound information in particular among acquired information, and the sound signal detected by the sensor can be information that is difficult to hear by the general public or a doctor, and is converted into an audible signal that can be easily heard. This is the stethoscope signal conversion unit.

The analysis unit 24 performs a function of comparing and analyzing the acquired information or the patient's previous information, and as shown in FIGS. 4 and 5, the acquired frequency information is displayed in the form of a frequency. Compared with can check the health status of the patient.

The communication module 25 is for transmitting the information of the measuring device to an external device, a conventional communication module may be used, but in the present invention, WiFi or the like can be used to enable communication within a hospital or a nursing home.

The analysis program is for analyzing a patient's health state by analyzing information sensed by the sensing module and the measuring device, and may be provided in the measuring device or in the monitoring device.

The monitoring device 30 is a means for monitoring the information measured and analyzed by the measuring device, a conventional PC, a notebook computer or a mobile phone can be used, and the analyzed information is a portable terminal carried by a specialist or a patient's guardian It is also desirable to be transmitted to be able to check the patient's condition in real time.

The measuring device 20 is further provided with a rotary switch 20s for selecting sensor sensing information to be transmitted among the information measured by the measuring device, so that the desired information among the added information can be displayed or transmitted to an external monitoring device.

In addition, the measuring device 20 is preferably provided with a display (20d) on one side to display the sensing information detected by the sensor module.

Of course, the measuring device 20 can be configured integrally with the sensing module, but it is preferable to have various connecting ports as shown in FIG. 2 so that various sensors can be connected to the measuring device as needed.

10: sensing module
11: Respiration sensor 12: Heart rate sensor
13: voice sensor 14: temperature sensor
20: measuring instrument 20s: rotary switch
20d: display
20m: microprocessor unit
21: information conversion unit 22: stethoscope signal conversion unit
23: DB 24: analysis unit
25: Communication module
26: speaker
30: monitoring device

Claims (4)

A sensing module including a breathing sensor sensing a patient's breathing, a heart rate sensor sensing a patient's heartbeat, a voice sensor sensing a patient's voice, and a temperature sensor sensing a patient's body temperature;
An information conversion unit converts information sensed from the sensing module into digital information, and a stethoscope signal converter converts sound information input from a sensor sensing sound information among sensors of the sensor module into an audio file. Controls the operation of each component and the speaker that outputs the analysis module and the analysis module that transmits the acquired information and analysis information to an external device, and the analysis unit that compares and analyzes the stored DB and the input information with preset reference information. And a measuring device including a microprocessor unit having an analysis program; And
A biosignal measurement system comprising a monitoring device that monitors information measured and analyzed by the meter. According to claim 1,
The temperature sensor is an infrared temperature sensor, the voice sensor is a high-sensitivity condenser microphone, and the respiration sensor is an air flow sensor. According to claim 1,
The measuring device is a bio-signal measuring system, characterized in that a rotary switch for selecting the sensor detection information to be transmitted among the information measured by the measuring device. According to claim 1,
The measuring device is provided with a display on one side, a bio-signal measurement system characterized in that it is possible to display the sensing information detected by the sensor module.

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