KR20030025748A - A home-medical terminal and a network home-medical diagnostic sysem using the home-medical terminal and the network home-medical diagnostic method - Google Patents

Abstract

PURPOSE: A tele-commuting medical terminal is provided to be capable of making a user check a health state conveniently at any time by oneself or a family. CONSTITUTION: The first interface part(202) converts measured data transferred from a measure equipment into diagnosis data. A control part(206) judges the converted measure data according to health coefficients and performs data transfer and control on the basis of judged data. The second interface part transfers the measure data through an external network according to a control signal from the first interface. An isolation part(205) separates a supply power from a main power supply source, and a memory part(209) stores data judged by the control part. A display part(210) displays so as to confirm resultant data to a user, and a user selection mode processing part(211) senses contents selected by a user through an external select switch.

Description

At-home medical terminal and network-based home medical diagnosis system using the same and method for diagnosis thereof A-HOME

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a medical device, and in particular, a home medical terminal capable of measuring a state of health at any place at a convenient time for a user and measuring a state of health by a user or a family and a network home medical diagnosis system using the same It is about a diagnostic method.

Changes in Food and Living Patterns with Economic Development Modern people cannot be free from worry about various adult diseases such as high blood pressure, diabetes and obesity. Regular life and regular check-ups can be an effective preventive measure at home, but it is becoming a difficult method for modern people who are always busy. In addition, at home, there is no alternative but to visit a clinic with a guardian in order to receive appropriate medical services for patients such as pregnant women, mothers, chronic heart disease, dementia, and stroke.

1 is a flow chart showing a conventional medical diagnostic method.

The public makes a medical appointment at a medical center such as a hospital (S10), moves to a medical center such as a hospital (S11), and waits for medical treatment (S12). At this time, when there are many waiting for treatment, the general public has an inconvenience of waiting for a long waiting time. After the waiting for the treatment, the doctor or a doctor through the medical examination (S13) and again to wait for a detailed diagnosis on a specific part (S14). After receiving a detailed diagnosis (S15), the general public receives the medicine at the pharmacy through a prescription written by a doctor and administers or, in the case of a specific drug, returns to a treatment center such as a hospital and waits to receive the medicine (S16). Such a conventional diagnosis and diagnosis method has a disadvantage in that it takes a lot of time.

In such a situation, the "tele-medicine system" is a system that allows a healthy person who is interested in patients or health care to receive proper medical services without visiting a hospital or a clinic. In the conventional remote medical system, since the medical device directly receives and transmits instructions / questions from the medical institution, it is not a concept for the general public to use a network such as the Internet or a computer. There is no concept of biochemical variables among the measured variables. In addition, since the medical system presupposes the use only in the home, it cannot be used anywhere at work, sauna, health club, etc., and there is a space limitation. Another telemedicine system also has the problem of not including the concept of point-of-care-tset for relatively important biochemical variables.

In order for the telemedicine system to operate efficiently, it is essential for each person to easily obtain information on his or her health status at a convenient place and at a convenient time and to transmit the measured health information to the medical staff.

However, in reality, it is expensive to purchase a specific device capable of using a telemedicine system, and the specific device may also be used for simple medical examination (for example, checking a patient's condition through ejaculation or burn or direct symptoms from a patient). It is not only possible to listen through a prescription, etc.), but also has a problem in that effective remote medical treatment is not made because the user does not know the operation state of a complicated device.

In order to solve the above problems, the technical problem to be achieved by the present invention is free from temporal restraint because the user can always measure the state of health at a convenient time of day, free from spatial restraint for use at any place, and The purpose is to provide a home medical device and system that can be measured by the user himself or his family, rather than being measured by medical staff such as nurses.

In addition, another object of the present invention is to provide an in-home medical device and a system capable of measuring all the health variables (general variables, physical variables and biochemical variables, etc.) measured in order to determine the health state of the human body.

In addition, a variety of diagnostic information can be exchanged between a user and a remote medical service provider by using a network, and another purpose is to provide medical care regardless of places such as home, work, and public institutions. .

1 is a flow chart showing a conventional medical diagnostic method.

Figure 2 is a block diagram showing a home medical diagnosis system according to an embodiment of the present invention.

FIG. 3 is a block diagram illustrating the home medical terminal of FIG. 2 in more detail.

FIG. 4 is a block diagram illustrating a program structure for performing data communication with the home medical terminal of FIG. 2.

5 is a flowchart illustrating a home medical diagnosis method according to an exemplary embodiment of the present invention.

Home medical terminal according to one feature of the present invention for achieving the above object,

A medical terminal for processing measurement data transmitted from a measuring device capable of measuring one or more user body conditions,

A first interface unit for converting measurement data transmitted from the measurement device into data that can be analyzed;

A first control unit discriminating for each health variable based on the converted measurement data transmitted from the interface unit and performing data transmission and control based on the determined data;

A second interface unit supporting transmission of measurement data through an external network according to a control signal from the first controller;

It includes.

Network home medical diagnosis system using a home medical terminal according to another aspect of the present invention,

When a medical terminal that processes measurement data transmitted from a measuring device capable of measuring one or more user's physical conditions transmits measured data through a network, the diagnostic system performs diagnosis based on the measured data.

A medical care data processor for determining medical care data transmitted through the network and providing a medical practitioner with information necessary for medical examination of the user; And

Health information data storage unit for storing the medical data and the one or more additional data related to the health transmitted through the network

It includes.

Network home medical diagnostic method using a home medical terminal according to another aspect of the present invention,

As a diagnostic method of processing measurement data transmitted from a measuring device capable of measuring one or more user's physical conditions and transmitting measured data through a network to a medical company service system, the diagnosis is performed based on the measured data. ,

Receiving one or more user health state measurement data from the measurement device;

Analyzing and displaying the delivered health state measurement data based on health variables; And

Transmitting the analyzed health state measurement data of the user to the medical company service system through the network and receiving a diagnosis result from a diagnoser.

It includes.

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

Figure 2 is a block diagram showing a home medical diagnosis system according to an embodiment of the present invention.

As shown in FIG. 2, an in-home medical diagnosis system according to an exemplary embodiment of the present invention includes measuring devices 100 and 110 capable of checking one or more user health conditions; The home medical terminal 200 connected with the measuring devices 100 and 110 and capable of measuring all the health variables (general variables, physical variables and biochemical variables, etc.) of the user by combining the medical data measured from the measuring devices 100 and 110. ); And a remote medical service company system 500 that receives medical data transmitted from the personal computer 300 through the Internet 400 and provides various information according to a user's health condition.

The measuring device 100 includes an electrocardiogram (101), a blood pressure meter (102), a blood glucose meter (103), a body fat analyzer (104), an oxygen saturation meter (105), an electronic stethoscope (106), an additional meter (107). do. In addition, the measuring device 110 includes a pulmonary function tester 111, urine analyzer 112. In addition, it is preferable to further include a web camera 120 that can directly check the external state of the user.

Electrocardiogram (ECG) measuring device 101 is a device for measuring the electrical signal generated when the heart muscle contracts, and when the electrode is connected to the user's arms and legs automatically detects and analyzes the ECG to detect and diagnose heart disease Provide useful information. The ECG 101 removes 60 Hz power noise with a digital filter built into a processor (not shown).

The NIBP measuring device 102 is a device for measuring a user's blood pressure by surrounding a blood pressure cuff on an upper left arm, and automatically measures systolic blood pressure, diastolic blood pressure, average blood pressure, and heart rate. At this time, the blood pressure measuring device 102 analyzes the pattern of the pulse coming out from the pressure is completed, if the pulse pattern is released when the pressure is low, and automatically re-pressurized until such pattern does not come out to set the appropriate pressure value. In the conventional blood pressure measuring device, the pressure value is set in advance, and if it is set to a value lower than the blood pressure of the user, an error occurs in the measured value. Therefore, if it is determined that the pressure value is not sufficient by analyzing the pattern of the pulse after stopping the pressurization, the automatic re-pressurization is set to a value higher than the user's blood pressure, so that accurate blood pressure measurement can be performed.

Blood Glucose Meter 103 is a device for measuring blood glucose, which is an essential measuring element for diagnosing and treating diabetes. A blood glucose measuring strip is inserted into a blood glucose sensor connector and a minute amount collected from a finger using a blood sampling needle. Drops blood and measures the user's blood sugar. The blood glucose meter 103 has a three-point electrode and is composed of one reference electrode and two working electrodes. The two active electrodes are further divided into electrodes containing glucose oxidase and electrodes for control which do not contain, so that the oxidation current of pure glucose can be measured by the reaction difference between these two electrodes. Conventional blood glucose meter is a system consisting of one reference electrode and one active electrode, the error occurs because it is measured without removing the background current flowing finely from the electrode of the sensor, but the blood glucose meter 103 is the same Since only one of the two active electrodes contains glucose oxidase, the background current and the current caused by glucose flow, and the other active electrode does not contain the enzyme, so only the background current flows. Only current can be measured so precise measurement is possible. In addition, the potential across the reference and active electrodes can be automatically controlled by a feedback circuit and program built into the circuit, which can be used to measure the concentration of ketones or cholesterol in the blood as well as blood sugar. have. In addition, the conventional blood glucose meter is a strip type portable blood glucose meter, but only one potential is fixed, but besides blood glucose, other biochemical variables such as ketone, cholesterol, creatinine, GOT / GPT, lactate, etc. Creating a measurement site for each of several biochemicals is often disadvantageous in terms of cost or device size when different potentials are needed for measurement. However, the blood glucose meter 103 can measure not only a fixed potential but also several potentials by software so that one site can measure not only blood sugar but also several of the aforementioned measurement variables at one site, and glucose oxidation By using enzymes whose activity varies with temperature, the temperature sensor built into the circuit measures the temperature when measuring blood glucose to compensate for the activity of the enzyme to calculate the blood glucose value.

Body fat analyzer (Bio-electric Impedance Analysis, 104) is a device that measures the ratio of fat components in the body composition by using the electrical resistance difference between muscle and fat among the components of the body, and automatically measures the body fat percentage from the measurement of both palms of the user. Measure and provide information related to the diet.

If you place two electrodes side by side on the side of the device, and the user touches the palm with arms extended, the electrode will touch two points on both palms and measure the body impedance in a four-point manner, and the user information (weight, age, height , Gender) and body fat calculations. In the measurement of body fat, the correction of the body impedance value is automatically connected to the body fat electrode in order by automatically connecting two types of precision resistance (high value and low value) built in the circuit, and comparing the output from this with the output by the body resistance Calibrate

The pulse oximeter (105) is a device for measuring the percentage of the total amount of hemoglobin in the red blood cells that binds to oxygen in order to determine whether the amount of oxygen in the blood is appropriate. When inserted, it automatically measures the user's oxygen saturation.

Electronic Stethoscope (106) is a device that performs the function of a stethoscope to measure heart and lung sounds. When the patient or guardian touches a certain part according to a doctor's instruction, the heartbeat and lung sound are measured. When used, the measuring user himself / herself can hear the measuring heart sound and the lung sound.

Pulmonary function tester 111 is a device for measuring the decrease in pulmonary function due to smoking, pollution, disease, etc., if the breathing in accordance with the test method in the mouth portion of the tube provides a state of lung function and analysis results.

The urine analyzer 112 is a device for measuring the concentration of a component contained in urine caused by a change in a disease or a health condition, and soaks a test strip in urine and places it on the device to provide an analysis result.

The remote medical service company system 500 may include: a medical care data processing server 510 for determining and storing medical care data transmitted through the Internet 400, and providing the medical practitioner with information necessary for medical examination of the user; And a health information database (hereinafter referred to as a DB) server 520 that stores the transmitted medical data and various data related to health.

The medical care data processing server 510 determines and analyzes the medical care data of which medical care is performed through which measuring device, and the medical care data transmitted from the personal computer 300 through the Internet 400 is determined. A data determination module 511 for calling and providing data necessary for requesting medical care data from the health information DB server 520; It further includes a DB interworking module 512 that stores the medical care data and health-related data of the user.

Each module of the treatment data processing server 510 may be a program or a device that stores each function independently, and each module may be a single program or a device in which each function is integrated. The present invention is not limited only to the examples.

FIG. 3 is a block diagram illustrating the home medical terminal of FIG. 2 in more detail.

As shown in FIG. 3, the at-home medical terminal 200 includes an AC / DC power supply 201 for supplying DC power and AC power; A contact interface 202 connected to one or more measuring devices 100 and 110 to convert signals transmitted from the measuring devices 100 and 110 into interpretable signals; An amplifier 203 for amplifying the signal converted by the contact interface 202; A sub-control unit 204 for controlling the interpretation and signal transmission of the ECG signal measured by the ECG measuring device 101 among the signals amplified by the amplifier 203; A separation unit (Isolation 205) which separates the power supply from the main power supply using a DC-DC conversion circuit and separates the power supply so that the user is electrically safe. A multiplexer 206 for multiplexing the amplified signal transmitted from the measuring device except the ECG 101; An A / D converter 207 for converting a signal multiplexed by the multiplexer 206 into a digital signal; A main control unit 208 for determining the medical treatment data of the user and performing data transmission and control based on the determined data; A memory unit 209 for storing medical care data determined by the main control unit 208; A display unit 210 which displays the treatment result data through a display window not shown to the user; A user selection mode processing unit 211 for detecting a content selected by the user from one or more modes through an external selection switch; And a connection controller 212 having a universal asynchronous receiver transmitter (UART) controller and a universal serial bus (USB) controller, and supporting data exchange with the measurement device 111 and the personal computer 300 and the web camera 120. It includes.

The contact interface 202 is provided with an expansion port for oxygen saturation and electronic stethoscope, and when a corresponding circuit is connected to the expansion module socket, the oxygen saturation level is measured or the cardiopulmonary sound of the subject is measured through an electronic stethoscope to embed the result. It can be stored in the memory unit 209 or transferred to the personal computer 300 or other controller through the external interface unit.

The separating unit 205 separates the power supply from the main power supply using a DC-DC conversion circuit, implements the circuit so that the user is electrically safe, and sends a signal through the measuring devices 100 and 110 and a photo coupler. Receive.

The home medical terminal 200 is provided with a display window (not shown) on the outside, and displays a measurable item, user information, a measurement result, a usage guide, and the like through a graphic LCD.

The memory unit 209 may store a plurality of user information and measurement results in the built-in memory. In addition to storing the user's physical state measurement results in order, the memory unit 209 may also store the time measured using a clock embedded in a circuit. Therefore, the measurement result of a user can be analyzed correctly. In addition, the measurement results stored in the memory unit 209 are displayed in a graph on the display window to facilitate the user's trend of the biological signal measurement results.

The access controller 212 is connected to a computer through a USB, RS-232 protocol to send and receive information, and by connecting an external device using the RS-232 protocol to control and send and receive information.

FIG. 4 is a block diagram illustrating a program structure for performing data communication with the home medical terminal of FIG. 2.

As shown in FIG. 4, a program structure 310 for driving a home medical terminal includes a web browser 311 and a home medical system for connecting to the Internet 400 to transmit medical data from the home medical terminal 200. An active X 312 for performing data communication with the terminal 200 is included.

The active X 312 may include a USB data communication module 312-1 performing data communication with the home medical terminal 200; A user interface module 312-2 capable of converting environment settings by a user; An Active X execution module 312-3 supporting data communication; And a web browser interworking communication module 312-4 interworking with the web browser 311.

Hereinafter, an operation of a home medical terminal and a network home medical diagnosis system using the same according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

5 is a flowchart illustrating a home medical diagnosis method according to an exemplary embodiment of the present invention.

The user determines an item to be examined and sets through an external selection switch (not shown) of the home medical terminal 200 (S100). The user selection mode processor 211 detects the mode selected by the user and transmits the detected mode to the main controller 208, and the main controller 208 subtitles based on the user's mode selection result transmitted from the user selection mode processor 211. The states of operating components such as the fisherman 204, the memory unit 209, and the connection controller 212 are initialized (S110).

The user connects a lead wire to the contact interface 202 of the at-home medical terminal 200 in each of the measuring devices 100 and 110 to check the state of the body (S120).

The user self-diagnoses by attaching each measuring terminal or measuring sensor to an attachment or measuring site according to the operation order of each measuring device 100 or 110 (S130).

The health variables measured to understand the health status of the human body can be largely classified into three types: general variables, physical variables, and biochemical variables. General variables include gender, age, name, medical history, and physical variables include height, weight, body temperature, blood pressure, heart / pulmonary sound, electrocardiogram, electrocardiogram, electroencephalogram, and other pulmonary function variables such as lung capacity, In addition, there are electrical impedances of biological tissues. These general and physical variables have the advantage of being relatively easy to measure. Biochemical variables obtained by analyzing the components of various body fluids, such as blood and urine, include blood sugar, blood electrolytes (Na +, K +, Ca ++, Mg ++, Cl-, etc.), urine glucose, cholesterol, hemoglobin, and cancer using various antigen-antibody tests. Genetic analysis using markers, hormones, and DNA chip technology, as well as numerous biochemical components. These biochemical variables are relatively difficult to measure but provide more accurate information about the health of the subject. Therefore, by measuring the health variables related to the health state of the user through the measuring device (100,110), it is possible to provide the user with accurate data by medical treatment.

The measuring device (100, l10) should be provided with enough user interface (user interface) in order to be simple to use and well guided by elderly people or patients. In particular, in the case of measurement of biochemical parameters, it is impossible to collect excessive blood, so it is possible to measure the Poin-of-Care Test (POCT) using the so-called biosensor concept using a small amount of sample. .

Each measuring device (100, 110) measures the user's physical condition, and transmits the measured medical care bio-signal data (S140).

The at-home medical terminal 200 receives the received medical care data converted into data recognizable through the contact interface 202, and the amplifying unit 203 amplifies the received medical care data. The main controller 208 receives the received treatment data multiplexed by the multiplexer 206 and digitally converted by the A / D converter 207 and analyzes the received treatment data (S150). The main controller 208 temporarily stores the analyzed medical result data in the memory 209, and displays the medical result and the medical data analysis result on the display window by interlocking the display 210 (S160). At this time, not only the user's measurement results are stored in order, but also the time measured using the built-in clock can be stored together so that the user's measurement results can be accurately analyzed. The user can check his / her physical condition through the displayed medical result and analysis result.

When the user transmits the measured medical data to the remote medical service provider system 500 and wants to accurately analyze his / her measured data from a doctor or a medical doctor such as a doctor, the user operates an external selection switch to transmit medical data. Determine.

The user selection mode processor 211 checks whether the user selects an external selection switch (S170). If the user selects the external selection switch for performing the medical treatment data transmission, the main controller 208 receives a signal indicating that the external selection switch is selected from the user selection mode processing unit 211 and interlocks the access controller 212 to connect the Internet ( Data is transmitted through 400 (S180).

In order to add a function of directly connecting the home medical terminal 200 and the Internet 400, a manufacturing cost may be added in software or hardware. For example, software requires additional TCP / IP protocol stack, operating system (O / S), etc. to support Ethernet connection, and supports various Internet connection environment such as cable modem. There is a separate cost to do this, and a constant software update is required to support the new access method. In particular, when a task of frequently upgrading the software of the home medical terminal 200 connected to the Internet 400 occurs, it is necessary to use its own built-in protocol and, in some cases, separate hardware.

In order to solve such a problem, the personal computer (PC, 300) is spread in most homes due to the rapid increase in the use of the Internet, and through this environment is prepared to access the Internet 400, the personal computer 300 With the help of the operating system environment, a method of connecting the home medical terminal 200 to the Internet 400 is used.

That is, when the user physically connects the home medical terminal 200 and the personal computer 300 and executes the web browser 311, the personal computer 300 is connected to the remote medical service company system 500. The personal computer 300 is automatically downloaded from the service provider system by remote X and embedded in the web browser. When the user interface module 231-2 of the Active X 312 built in the web browser 311 is executed, the measurement diagnostic data of the user is called, and the USB data communication module 231-1 is connected to the home access controller 212. The call request data is transmitted to the main control unit 208 through the main control unit 208, and the main control unit 208 calls user diagnostic data stored in the memory unit 209 to transmit data to the USB terminal through the connection controller 212 to communicate data. Do this. The data communication result is passed to the web browser 311 through the web browser interworking communication module 312-4 of the Active X 312, and the web browser 311 receives the result data received through the home medical terminal 200. The medical data is transmitted to the treatment data processing server 510 through the internet 400.

In an embodiment of the present invention, an Internet connection and a hardware control method through ActiveX are used, and the connection between the home medical terminal 200 and the Internet 400 depends on the function of the personal computer 300, and the personal computer. Only data communication with 300 is performed. Thus, the problem can be solved by separating the function of the at-home medical terminal 200 and the Internet connection function. Here, the active X technology is a component software production technology, and the control made by the active X is a technology that can be used by being dynamically embedded in a web browser while being used in a general application. When using ActiveX, it is easy to change the application layer among the seven layers of the network. For example, even if there are three different types of Web sites (A, B, C), Active X, which can control the home medical terminal 200, is provided at each other site without changing the firmware of the terminal. Can be linked. In addition, even if the application layer needs to be changed, it is not necessary to change the software for the home medical terminal 200 itself, and download the upgraded Active X control data from the website through the personal computer 300 ( download). However, in addition to the embodiment of the present invention, an internet access module may be installed in the home medical terminal 200 to directly connect to the Internet 400. However, the present invention is not limited to the embodiment.

In this way, through the interworking with the Internet (internet) it is possible to connect with companies that provide remote medical services in the most effective way. Accordingly, the home medical terminal 200 may be connected to a device capable of accessing the Internet, such as a personal computer 300, a personal terminal device (PDA) (not shown), a mobile phone, or the like, or the user may directly access the Internet. As such, the internet access function allows the measured health information to be easily transmitted regardless of its capacity, and the treatment and instructions of medical personnel are also available in various forms (text, picture, voice, video, etc.). It can be delivered to the subject regardless of the dose.

If the user does not want to transmit medical data and selects to stop operation of the home medical terminal 200 or to perform self-diagnosis through other measuring devices 100 and 110, the main controller 208 transmits the diagnostic data to the memory unit 209. Save (S181).

The data determination module 511 of the treatment data processing server 510 receives the treatment data of the user transmitted through the Internet 400 and determines the treatment data for each user (S190). That is, it is determined whether the currently received medical care data is measured by electrocardiogram or blood glucose. The data determination module 510 drives the DB interworking module 512 to store the biosignal medical treatment data for each user in the health information DB server 520 (S200).

The diagnoser checks whether the user state is good by accessing the medical treatment data processing server 510 through the diagnostic terminal and calling the diagnosis result data of the user stored in the health information DB server 520 (S210). If it is determined that the user's health condition is abnormal as a result of the diagnosis, the diagnoser transmits consultation information with the user through the Internet 400 (S220). In this case, the diagnoser may transmit consultation information to the user through a plurality of communication media, and the present invention is not limited to the embodiment. The user is directly or indirectly connected to the diagnoser to perform medical consultation (S230).

The embodiment of the present invention is only one embodiment, and many modifications and variations of the components are possible without departing from the gist of the present invention, and the present invention is not limited to the embodiments.

As described above, the at-home medical terminal, the network-based medical medical diagnosis system using the same, and the diagnostic method thereof are free from time constraints and can be used at any place because the user can always measure the state of health at a convenient time of day. It is possible to provide a home medical device and a system which is free of spatial restraint and which is not measured by a medical staff such as a doctor or a nurse, and which can measure a health condition by a user or a family.

In addition, it is possible to provide a home medical device and system that can measure all of the health variables (general, physical and biochemical variables, etc.) measured in order to determine the health of the human body.

In addition, a variety of diagnostic information can be exchanged between a user and a remote medical service provider using a network, and a medical service can be provided regardless of a place such as a home, work, or public institution.

According to the present invention, the necessary medical service can be provided, and the measured health data is stored and managed in the database server of the company providing the remote medical service, so that it is possible to track and manage the change of the health condition for a long time.

In addition, early detection of emergencies and the dispatch of medical staff can provide adequate treatment.

Claims (17)

In a medical terminal for processing measurement data transmitted from a measuring device capable of measuring one or more user body conditions, A first interface unit for converting measurement data transmitted from the measurement device into data that can be analyzed; A first control unit discriminating for each health variable based on the converted measurement data transmitted from the interface unit and performing data transmission and control based on the determined data; A second interface unit supporting transmission of measurement data through an external network according to a control signal from the first controller; At home medical terminal comprising a. In claim 1, A separating unit separating the power supply from the main power supply source and separating the power supply so that the user is electrically safe; A memory unit for storing medical care data determined by the first controller; A display unit configured to display the medical treatment result data to the user; And User-selected mode processing unit for the user to detect the contents selected from one or more modes through the external selection switch At home medical terminal further comprising. The method of claim 1, wherein the first interface is added A contact interface connected with one or more of the measurement devices to convert signals transmitted from the measurement devices into interpretable signals; An amplifier for amplifying the signal converted by the contact interface; A second control unit for interpreting an electrocardiogram signal measured by the measuring device among the signals amplified by the amplifier and controlling signal transmission At home medical terminal comprising a. The method of claim 1, wherein the first control unit A multiplexer which multiplexes the signal amplified and transmitted from the measuring device; A digital signal converter for converting the signal multiplexed by the multiplexer into a digital signal At home medical terminal comprising a. The method of claim 1, wherein the second interface unit At-home medical terminal including a connection controller for supporting data exchange with the measurement device or user terminal or camera. In the diagnostic system for performing a diagnosis based on the measured data when the medical terminal for processing the measurement data transmitted from the measuring device capable of measuring one or more user's physical state transmits the measured data through the network, A medical care data processor for determining medical care data transmitted through the network and providing a medical practitioner with information necessary for medical examination of the user; And Health information data storage unit for storing the medical data and the one or more additional data related to the health transmitted through the network Network home medical diagnosis system using a home medical terminal comprising a. The medical data processing unit of claim 6, wherein Determine the delivery path of the medical data transmitted from the medical terminal or the terminal connected to the medical terminal through the network, analyze the medical data, and provide data necessary for requesting medical data data for the user from a medical practitioner; A data determination module for calling and providing information from the information data storage; Database interworking module for storing the medical data and health related data of the user Network home medical diagnosis system using a home medical terminal comprising a. The method of claim 6, wherein the measuring device An apparatus for measuring an electrical signal generated when the heart muscle contracts, an electrocardiogram measuring device that provides useful information for detecting and diagnosing heart disease by automatically measuring and analyzing an electrocardiogram when an electrode is connected to a user's arm and leg; A blood pressure measuring device measuring a blood pressure cuff on an upper end of the arm to automatically measure the systolic blood pressure, diastolic blood pressure, average blood pressure, and heart rate of the user; A blood glucose meter for inserting a blood sugar measuring strip into a blood sugar sensor connector for diagnosing and treating diabetes and measuring blood sugar of the user from a small amount of blood collected from the finger of the user using a blood sampling needle; A body fat analyzer for measuring a ratio of fat components in body components using a difference in electrical resistance between muscles and fats among the components of the body; An oxygen saturation meter that measures the percentage of binding of oxygen to the total amount of hemoglobin in the red blood cells to determine if the amount of oxygen in the blood is appropriate; An electronic stethoscope that touches a certain part of the user according to a diagnosis person and measures heart sounds and lung sounds; A pulmonary function tester which provides a pulmonary function state and an analysis result when the tube part is held in the mouth and breathed according to the test method; A urine analyzer that checks the concentration of components in the urine caused by a disease or health condition through a test strip Network home medical diagnosis system using a home medical terminal comprising a. The method of claim 6, wherein the home medical terminal A first interface unit for converting measurement data transmitted from the measurement device into data that can be analyzed; A first control unit discriminating for each health variable based on the converted measurement data transmitted from the interface unit and performing data transmission and control based on the determined data; A second interface unit supporting transmission of measurement data through an external network according to a control signal from the first controller; Network home medical diagnosis system using a home medical terminal comprising a. In claim 9, A separating unit separating the power supply from the main power supply source and separating the power supply so that the user is electrically safe; A memory unit for storing medical care data determined by the first controller; A display unit configured to display the medical treatment result data to the user; And User-selected mode processing unit for the user to detect the contents selected from one or more modes through the external selection switch Network home medical diagnosis system using a home medical terminal comprising a. The method of claim 9, wherein the first interface is added. A contact interface connected with one or more of the measurement devices to convert signals transmitted from the measurement devices into interpretable signals; An amplifier for amplifying the signal converted by the contact interface; A second control unit for interpreting an electrocardiogram signal measured by the measuring device among the signals amplified by the amplifier and controlling signal transmission Network home medical diagnosis system using a home medical terminal comprising a. The method of claim 9, wherein the first control unit A multiplexer which multiplexes the signal amplified and transmitted from the measuring device; A digital signal converter for converting the signal multiplexed by the multiplexer into a digital signal Network home medical diagnosis system using a home medical terminal comprising a. The method of claim 9, wherein the second interface unit Network home medical diagnosis system using a home medical terminal comprising a connection controller for supporting data exchange with the measurement device or a user terminal or a camera. In the diagnostic method of processing measurement data transmitted from a measuring device capable of measuring one or more user's physical conditions and transmitting the measured data through a network to a medical company service system, the diagnosis method performs diagnosis based on the measured data. , Receiving one or more user health state measurement data from the measurement device; Analyzing and transmitting the health state measurement data of the user based on health variables and displaying them externally; And Transmitting the analyzed health state measurement data of the user to the medical company service system through the network and receiving a diagnosis result from a diagnoser. Network home medical diagnosis method using a home medical terminal comprising a. 15. The method of claim 14, wherein receiving the state measurement data Initializing an operating state when the user operates an external switch; Causing the user to physically connect the measuring device to check the condition of the body; Allowing the user to self-diagnose by placing a measurement terminal or a measurement sensor at an attachment or measurement site based on the operation sequence of the measurement device; When the measuring device measures the physical condition of the user, receiving the measured medical biosignal data Network home medical diagnosis method using a home medical terminal comprising a. The method of claim 14, wherein the external display step Receiving health state measurement data of the user transmitted from the measuring device, and precisely analyzing the received medical care data based on health variables; Storing the analyzed medical result data in a memory and displaying the medical result and the medical data analysis result to the outside; Causing the user to check whether there is a physical abnormality through the displayed medical result and analysis result Network home medical diagnosis method using a home medical terminal comprising a. The method of claim 14, wherein receiving the diagnosis result Receiving medical data of the user transmitted through the network to determine medical data for each user; Storing biosignal medical examination data on an information storage medium for each user; And Checking the user state by calling the diagnosis result data of the user stored in the information storage medium through the diagnoser; And If it is determined that there is an abnormality in the health state of the user, causing the diagnoser to transmit consultation information with the user through the network. Network home medical diagnosis method using a home medical terminal comprising a.