KR101009958B1 - System for biometric infomation to measure - Google Patents

Abstract

The present invention relates to a human body information measuring apparatus, which aims to be able to selectively and simultaneously measure a variety of human body information from the human body.

Human body information measuring apparatus according to the present invention comprises a pair of integrated electrode unit for measuring the electrocardiogram value, body temperature value and body fat value from the human body; A blood pressure monitor for measuring blood pressure values from the human body; The first integrated information is generated by receiving the ECG value and the body temperature value from the integrated electrode unit, and the second integrated information is generated by receiving the body fat value and the blood pressure value from the integrated electrode unit and the blood pressure monitor, and the first integrated information and the second integrated information are generated. A data processing device for selectively generating any one or more of the integrated information; And a user terminal receiving and outputting any one or more of the first integrated information and the second integrated information from the data processing apparatus. By such a configuration, the present invention has the effect of being able to selectively and simultaneously measure various human body information from the human body.

Human body value, human body information, measurement,

Description

System for biometric infomation to measure

The present invention relates to an apparatus for measuring human body information, and more particularly, to an apparatus for selectively and simultaneously measuring various human body information from a human body.

Recently, due to the development of science and technology and the improvement of economic level, the interest in people's health has increased, and accordingly, a number of devices have been developed in which an individual can obtain basic human information related to various biological indices with a simple operation at home.

For example, body weight, blood pressure, body temperature, and heart rate, which are types of human body information, include measuring devices that can be measured by a user's simple operation in each home without having to visit a hospital.

Users purchase body fat meters, blood pressure monitors, body temperature meters, and heart rate monitors that measure human body information, and obtain their own human body information by directly measuring the human body information.

However, these devices are not only expensive to purchase the devices for measuring the human body information when the user requires a plurality of human body information, there is a problem that is not easy to manage the devices for measuring the human body information .

In addition, there is a problem in that the location of the measurement of human body information is inevitably limited due to the ease of portability to a plurality of devices.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide a human body information measuring device capable of selectively measuring various human body information from the human body simultaneously.

Human body information measuring apparatus according to an embodiment of the present invention for achieving the above technical problem is a pair of integrated electrode unit for measuring the electrocardiogram value, body temperature value and body fat value from the human body; A blood pressure monitor for measuring blood pressure values from the human body; The first integrated information is generated by receiving the ECG value and the body temperature value from the integrated electrode part, and the second integrated information is generated by receiving the body fat value and the blood pressure value from the integrated electrode part and the blood pressure monitor. And a data processing device for selectively generating any one or more of the second integrated information. And a user terminal receiving and outputting any one or more of the first integrated information and the second integrated information from the data processing apparatus.

The pair of integrated electrode unit four electrocardiogram electrodes for measuring the electrocardiogram value; Temperature sensor for measuring the body temperature value; And four body fat electrodes for measuring the body fat value, but are arranged to be symmetrical with each other.

Each of the integrated electrode parts has the ECG electrodes formed on both sides of the outer surface, the body fat electrodes are formed above and below the ECG electrode on one side, and the temperature sensor is formed at the center of the ECG electrode on the other side of the integrated electrode part. Characterize

The data processing apparatus includes: a first module configured to independently generate first integrated information based on an electrocardiogram value and a body temperature value provided from the pair of integrated electrode units; And a second module configured to independently generate second integrated information based on the body fat value provided from the pair of integrated electrode units and the blood pressure value provided from the blood pressure monitor.

The first module may include an electrocardiogram processor configured to generate electrocardiogram data including the heart rate of the human body from the electrocardiogram value; A body temperature processor configured to generate body temperature data of the human body from the body temperature value; And a communicator configured to generate first integrated information using the electrocardiogram data provided from the electrocardiogram processor and the body temperature data provided from the temperature processor, and transmit the generated first integrated information to the user terminal. And an information measuring device.

The second module includes a body fat processing unit for generating body fat data including the body fat percentage of the human body from the body fat value; A blood pressure processor for generating blood pressure data of the human body from the blood pressure value; And a communication unit configured to generate second integrated information using the body fat data provided from the body fat processing unit and the blood pressure data provided from the blood pressure processing unit, and to transmit the generated second integrated information to the user terminal.

The communication unit may include a universal serial bus coupled with the user terminal.

As described above, the present invention can simultaneously measure various human body information from the human body using the integrated electrode and the blood pressure monitor, and has the effect of selectively measuring the human body information by using independent first and second modules. .

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a human body information measuring apparatus according to an embodiment of the present invention.

Referring to FIG. 1, a human body information measuring apparatus according to an exemplary embodiment of the present invention measures and outputs human body information from a human body. As illustrated, a pair of integrated electrode units 100 and a human body measuring a plurality of human body values are illustrated. A blood pressure monitor 200 for measuring a blood pressure value of the user, a data processing apparatus 300 for generating the first integrated information and the second integrated information, and a user terminal 400 for outputting the first integrated information and the second integrated information. .

2 is a configuration diagram of an integrated electrode unit according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the integrated electrode unit 100 according to an exemplary embodiment of the present invention is connected to the data processing apparatus 300 by a connection line 105, and the electrocardiogram electrode 110 measuring the electrocardiogram value of the human body and the human body. It includes a body fat electrode 120 for measuring the body fat value of the body temperature electrode 130 for measuring the body temperature of the human body.

The electrocardiogram electrode 110 measures the electrocardiogram value of the human body. The electrocardiogram electrode 110 is formed in each integrated electrode unit 100 having a conductor property in order to measure an electrocardiogram value having electrical properties occurring with the heartbeat of the human body. The ECG electrode 110 measures ECG values using four electrodes.

The body fat electrode 130 measures a body fat value of the human body. The body fat electrode 130 is formed in each of the integrated electrode units 100 with a conductor property in order to transmit current to both hands of the human body and measure the amount of resistance change in the human body. The body fat electrode 130 includes four electrodes. To measure body fat value.

The temperature sensor 120 measures the temperature of the human body. The temperature sensor 120 may be a temperature sensor such as a thermistor, thermocouple, radiation (radiation) and IC, or another temperature sensor. For example, the temperature sensor 120 may be a single thermal sensor type. Here, the single thermal sensor method is a method of measuring the body temperature of the human body by using a single thermal sensor 120 formed on the ECG electrode 110, unlike a plurality of thermistor methods.

On the other hand, the ECG electrode 110 and the body fat electrode 130 in each of the above-described integrated electrode unit 100, the ECG electrode 110 and the body fat when each of the integrated electrode unit 100 is held in both hands of the human body Preferably, the electrode 130 is formed at a symmetrical position of each integrated electrode unit 100 so as to be in contact with the same position of both hands of the human body.

For example, as shown in FIG. 2, one electrocardiogram electrode 110 of each integrated electrode unit 100 is formed to be in contact with one palm of the human body, and the other one core conduction electrode 110 is It is formed to be in contact with the inner surface of the middle finger, each of the two body fat electrode 130 is preferably formed to contact with the different inner surface of the finger with the other one ECG electrode 110 in between.

On the other hand, the temperature sensor 130 is preferably formed in the center of the ECG electrode 110 in contact with the palm of one of the integrated electrode unit 100.

The blood pressure monitor 200 measures the blood pressure value from the human body and provides the measured blood pressure value to the second module 350 included in the data processing apparatus 300. To this end, the blood pressure monitor 200 may be a blood pressure monitor such as mercury and aneroid or other blood pressure measurement means. For example, the blood pressure monitor 200 may use an oscillometric method. The oscillometric method is a non-invasive method of applying pressure to a cuff (not shown) worn on the human body (not shown) through an air pump (not shown), and then slowly depressurizing the pressure. The size of oscillation is measured by a pressure sensor.

The data processing apparatus 300 receives the ECG value and the body temperature value from the integrated electrode unit 100 and generates the first integrated information, the body fat value and the blood pressure value from the integrated electrode unit 100 and the blood pressure monitor 200. Including a second module for receiving the second integrated information, the first module and the second module may be configured independently.

3 is a block diagram of a first module according to an embodiment of the present invention.

Referring to FIG. 3, the first module 310 according to an embodiment of the present invention uses an electrocardiogram processor 320 for generating electrocardiogram data, a temperature processor 330 for generating body temperature data, and electrocardiogram data and body temperature data. It includes a communication unit 340a for generating the first integrated data.

The ECG processor 320 generates ECG data including the heart rate of the human body from the ECG value. In this case, the ECG processor 320 uses a four-electrode method to generate ECG data. The four-electrode method receives electrocardiogram values having electrical properties occurring along with the heartbeat of the human body from the four electrocardiogram electrodes 110 and generates electrocardiogram data including heart rate data from the electrocardiogram waveform included in the electrocardiogram values.

The body temperature processor 330 generates body temperature data including the body temperature of the human body from the body temperature value. To this end, the body temperature processor 330 may include a digital converter (not shown) to digitize the body temperature value transmitted from the temperature sensor 120 to generate body temperature data.

The communication unit 340a generates first integrated information by using the electrocardiogram data generated by the electrocardiogram processor 320 and the temperature data generated by the temperature processor 330, and converts the generated first integrated information to the user terminal 400. send. The communication unit 340a further includes a universal serial bus 345a for transmitting the first integrated information including the heart rate and body temperature of the human body to the user terminal.

4 is a block diagram of a second module according to an embodiment of the present invention.

Referring to FIG. 4, the second module 350 according to an exemplary embodiment of the present invention uses a body fat processor 360 to generate body fat data, a blood pressure processor 370 to generate blood pressure data, and body fat data and blood pressure data. And a communication unit 340b for generating second integrated data.

The body fat processing unit 360 generates body fat data including the body fat percentage of the human body from the body fat value. In this case, the body fat processor may generate body fat data of a human body using an impedance measuring method (BIA). Impedance measurement (BIA) is a method of using the relationship between water and electrical resistance, a method of measuring the resistance value (impedance) in the human body by passing a weak current of about 250mA through the body fat electrode.

The blood pressure processor 370 generates the blood pressure data of the human body from the body temperature value. To this end, the blood pressure processor 370 may include a digital conversion device (not shown) to generate blood pressure data of the human body by digitizing the blood pressure value of the human body transferred from the blood pressure monitor.

The communication unit 340b generates second integrated information using the body fat data generated by the body fat processor and the blood pressure data generated by the blood pressure processor, and transmits the generated second integrated information to the user terminal. To this end, it includes a universal serial bus (345b) for transmitting the second integrated information including the body fat percentage and blood pressure of the human body to the user terminal.

On the other hand, in the communication scope (340a, 340b) of the scope of the right or the first module 310 and the second module 320 described above using only the universal serial bus (345a, 345b) and the first integrated information and Although transmitting the second integrated information to the user terminal 400, other transmission means may be used. For example, the transmission method is a general-purpose transmission control protocol (TCP) / Information Processing (IP) communication, wired / wireless LAN (Local Area Network), Bluetooth, Zigbee, Ultra-Wideband (UWB), Ruby (Rubee) ), A wireless transmission method or a wired transmission method including binary CDMA, WiBRO, Infrared Data Association (IrDA) or wired / wireless communication including a communication terminal.

The user terminal 400 receives and outputs the first integrated information and the second integrated information from the data processing apparatus 300. To this end, the user terminal includes a display device 410.

The user terminal receives the first integrated information and the second integrated information from the data processing apparatus and outputs the same through the display apparatus 410. In this case, the first integrated information and the second integrated information are digitized and output through the display apparatus 410.

Meanwhile, the above-described user terminal 400 outputs the first integrated information and the second integrated information only through the display device 410, but further includes a voice output device (not shown), thereby providing first integrated information and The second integrated information may be output.

Operation of the human body information measuring apparatus according to an embodiment of the present invention is as follows.

First, the integrated electrode unit 100 measures the ECG value, the body temperature value and the body fat value from the human body, and the blood pressure monitor 200 measures the blood pressure value.

At this time, the integrated electrode unit 100 is held by both hands of the human body (not shown), the electrocardiogram value, the body temperature using the ECG electrode 110, the temperature sensor 120 and the body fat electrode 130 in contact with a part of the human body Value and body fat value

Subsequently, the first module 310 receives the ECG value and the body temperature value to generate the first integrated information, and the second module 350 generates the body fat value and the blood pressure value from the integrated electrode part 100 and the blood pressure monitor 200. Receives and generates second integrated information.

At this time, the electrocardiogram processor 320 generates electrocardiogram data using the electrocardiogram value, and the body temperature processor 330 generates body temperature data using the body temperature value. The communication unit 340, a generates first integrated information by using electrocardiogram data and body temperature data.

In this case, the body fat processor 360 generates body fat data using the body fat value, and the blood pressure processor 370 generates blood pressure data using the blood pressure value. The communicators 345 and b generate second integrated information using body fat data and blood pressure data.

On the other hand, the human body information measuring apparatus according to an embodiment of the present invention may simultaneously generate the first integrated information and the second integrated information, but may also be selectively generated.

Subsequently, the first integrated information and the second integrated information are received and output.

The first integrated information and the second integrated information may be output in any one or more forms of a display device (not shown) and a voice output device (not shown).

As such, the human body information measuring apparatus according to the embodiment of the present invention may simultaneously measure various human body information from the human body using the integrated electrode 100 and the blood pressure monitor 200, and are independent of the first module 310 and the first. By using the two modules 350, it is possible to selectively measure the human body information.

Those skilled in the art to which the present invention pertains will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. Therefore, it is to be understood that the embodiments described above are exemplary in all respects and not restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts should be construed as being included in the scope of the present invention. do.

1 is a block diagram of a human body information measuring apparatus according to an embodiment of the present invention,

2 is a configuration diagram of an integrated electrode unit according to an embodiment of the present invention,

3 is a block diagram of a first module according to an embodiment of the present invention;

4 is a block diagram of a second module according to an embodiment of the present invention.

<Description of Major Codes in Drawings>

100: integrated electrode portion 110: ECG electrode

120: temperature sensor 130: body fat electrode

200: blood pressure monitor 300: data processing device

310: first module 340 (a, b): communication unit

350: second module 400: user terminal

Claims (7)

In the device for measuring human body information, A pair of integrated electrode units for measuring electrocardiogram, body temperature and body fat value from the human body; A blood pressure monitor for measuring blood pressure values from the human body; The first integrated information is generated by receiving the ECG value and the body temperature value from the integrated electrode part, and the second integrated information is generated by receiving the body fat value and the blood pressure value from the integrated electrode part and the blood pressure monitor. And a data processing device for selectively generating any one or more of the second integrated information. And And a user terminal receiving and outputting any one or more of the first integrated information and the second integrated information from the data processing device. The method of claim 1, The pair of integrated electrode unit, Four electrocardiogram electrodes for measuring the electrocardiogram value; A temperature sensor for measuring the body temperature value; And Human body information measuring device comprising four body fat electrodes for measuring the body fat value, but are arranged to be symmetrical to each other. The method of claim 2, Electrocardiogram electrodes are formed on both sides of the body surface of each of the pair of integrated electrodes, body fat electrodes are formed on one of the upper and lower electrocardiogram electrodes, and a temperature sensor is formed on the center of the ECG electrode formed on the other. Human body information measuring device, characterized in that formed only in the integrated electrode portion. The method of claim 1, The data processing device, A first module configured to independently generate first integrated information based on an electrocardiogram value and a body temperature value provided from the pair of integrated electrode units; And And a second module configured to independently generate second integrated information based on the body fat value provided from the pair of integrated electrode units and the blood pressure value provided from the blood pressure monitor. The method of claim 4, wherein The first module, An electrocardiogram processor for generating electrocardiogram data including the heart rate of the human body from the electrocardiogram value; A body temperature processor configured to generate body temperature data of the human body from the body temperature value; And Human body information, characterized in that it comprises a communication unit for generating the first integrated information using the electrocardiogram data provided from the electrocardiogram processor and the body temperature data provided from the temperature processor, and transmits the generated first integrated information to the user terminal Measuring device. The method of claim 4, wherein The second module, A body fat processing unit configured to generate body fat data including the body fat percentage of the human body from the body fat value; A blood pressure processor for generating blood pressure data of the human body from the blood pressure value; And Human body information measurement, characterized in that it comprises a communication unit for generating the second integrated information using the body fat data provided from the body fat processing unit and the blood pressure data provided from the blood pressure processing unit and transmits the generated second integrated information to the user terminal. Device. The method according to claim 5 or 6, The communication unit, Human body information measuring device comprising a universal serial bus (Universal Serial Bus) coupled to the user terminal.

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