KR20080084879A - System for measuring physiological signal - Google Patents

Abstract

A system for measuring a biological signal is provided to allow a patient to check a health state frequently by synchronizing biological signal data transmitted from the system with the previously measured biological signal data to indicate the accurate biological signal data on a display. A biological signal measuring holder(111) includes a pair of main body units(100,110) and a display(50,51). The main body units have biological signal sensors(10,11) to detect patient's biological signal data, control units to amplify the biological signal data outputted from the biological signal sensors at a predetermined level and convert the amplified biological signal data into digital signals, and wireless transceiving units(40,41) to transceive the biological signal data wirelessly which are compared in the control units. The display is formed on one of the main body units to indicate the biological signal data. The biological signal data measured in one main body unit are transmitted to the other main body unit having the display through the wireless transceiving unit. The biological signal data transmitted to the other main body unit are synchronized with the previously measured biological signal data to be indicated on the display.

Description

System for measuring physiological signal using wireless communication

1 is a perspective view showing a state in which a pair of biosignal measuring holders of a biosignal measuring apparatus of the present invention is paired.

FIG. 2 is a block diagram schematically illustrating a state of wirelessly transmitting bio signal data measured by a main body of a pair of bio signal measuring holders of FIG. 1 in one direction.

FIG. 3 is a block diagram schematically illustrating a state of wirelessly transmitting bio signal data measured by a main body of a pair of bio signal measuring holders of FIG. 1 in both directions.

4 is a block diagram schematically illustrating a state in which biosignal data measured by a biosignal measuring apparatus of the present invention is wirelessly transmitted to a server system and displayed on a display.

5 is a block diagram schematically showing another state in which the biosignal data measured by the biosignal measuring apparatus of the present invention is wirelessly transmitted to a server system and displayed on a display.

6 is a front view showing an embodiment in which the biosignal measuring apparatus of the present invention is worn on a body.

7 is a front view showing a state in which a plurality of biological signal measuring apparatus of the present invention is attached to the body.

* Explanation of symbols on the main parts of the drawings

10, 11, bio-signal sensor 20, 21. control unit

30, 31. Memory unit 40, 41, 42. Wireless transceiver

50, 51, 210. Display 100, 110. Main Unit

111. Biosignal holder 200. Server system

The present invention relates to a biosignal measuring apparatus using wireless communication, and more preferably, to simply wear a biosignal measuring holder including a pair of main body parts on a wrist of a left hand and a right hand to measure a biosignal, It is to display on the display the accurate biosignal data obtained by synchronizing the biological signal data transmitted by wireless transmission of the biosignal data measured by the unit to the other main body and the previously measured biosignal data.

As is generally known, a common test performed by attaching an electrode to a human body is an electrocardiogram (ECG). Electrocardiogram is the electrical excitement that occurs when the myocardium is active, the so-called action potentials occur in the body. This is the waveform recorded by the current transmitted to the body surface. That is, the data measured by attaching an electrode to the active current according to the contraction and expansion of the heart muscle is recorded. The action potential, which occurs when the heart muscle contracts and relaxes, causes an electric current to spread from the heart to the body, and this electric current generates an electric potential difference according to the position of the body. Can be detected and recorded.

The action potential of the heart has a small potential difference of less than 1 mV and therefore requires a very sensitive ammeter. A mechanical device is used to record the electrocardiogram, which was made in the early days by Eighthoven's shunt ammeter. This string is arranged in a strong magnetic field using 2-3u quartz or platinum wire, and when an active current flows in it, it is deflected by Fleming's left hand law. A mirror was attached to the axis of rotation that deflected, and the method was used to project the image by enlarging and expanding a ray.

This principle is called a current electrocardiograph. In contrast, a device that amplifies the active voltage and expands the cathode ray and optically and mechanically is called a voltage electrocardiograph.

Electrocardiogram measurement using the machine is used to confirm the abnormality of the heart, and is used as a basic method for measuring diseases of the heart disease system such as angina pectoris, myocardial infarction, arrhythmia and occupies a very important position.

As such, the ECG measuring apparatus may be divided into wireless and wired devices according to the presence or absence of a line. The wired device has recently been used a lot of wireless devices because of the inconvenience of having to connect a plurality of wires to the body and the machine, as well as the limited measurement location.

As described above, the measurement of a biosignal such as an electrocardiogram and wireless transmission is disclosed. Patent 197580, "A real-time biosignal monitoring system using a wireless communication network," has been disclosed. It is attached to the body and measures the biosignal data. However, there is a feeling of chest compression when worn, so it is not suitable for long time wear has been found to have problems in use. In addition, the quality of the signal could be degraded if it is loosely attached due to user error during the initial attachment or if the humidity of the dry electrode is reduced due to prolonged use.

In addition, the bio-signal measuring holder device formed of a plurality of electrodes has to be careful not to damage the electrodes, and also has difficulty in storage. When checking, it is necessary to remove clothes, attach them to the body, and then dress again. There was inconvenience.

The checked biological signal is transmitted to a wireless relay station through a wireless modem, and the wireless relay station transmits the transmitted biological signal data to a biological signal monitor server device of a hospital and monitors the received data. There is a problem that the facility cost is high, and because it is transmitted through a wireless relay station, there is a problem that can not measure the correct data due to the poor transmission.

The present invention was created to solve the above problems, the biosignal measuring holder which is a biosignal measuring device capable of measuring the active current generated in the body is composed of a pair of rings, such as a bracelet wrist of the right hand and left hand It is intended to be easy to wear and detach at the same time easy to carry and easy to store.

In addition, the present invention wirelessly transmits the biosignal data measured in one main body of the biosignal measuring holder worn on the wrist of the right hand and the left hand to the other main body to transmit the transmitted biosignal data and the previously measured biosignal data. It is intended to be able to measure accurate bio-signal data by synchronizing with each other and being displayed on the display.

In addition, an object of the present invention is to wirelessly transmit the biosignal data measured by the main body of the biosignal measuring holder to a server system which can be checked and checked by a doctor so as to be displayed on the display.

In addition, the present invention can continuously wear the body portion of the bio-signal measuring holder on the wrist so that it is possible to measure the bio-signal regardless of time and place, as well as to carry and use it conveniently. Is there.

Referring to the configuration of the present invention having the above object with reference to the accompanying drawings as follows.

As shown in FIG. 1, the present invention provides biosignal sensor units 10 and 11 for detecting biosignal data of a patient and biosignal data output from the biosignal sensor units 10 and 11 to a predetermined level. And a controller 20 and 21 for amplifying and converting the amplified biosignal data into a digital signal, and a wireless transmitter and receiver 40 and 41 for wirelessly transmitting and receiving the biosignal data compared by the controller 20 and 21. And a pair of main body parts 100 and 110 formed therein and a display 50 for displaying biosignal data on one of the main body parts 100 and 110. Bio-signal measuring holder 111 and made of,

And wirelessly transmit the biosignal data measured by the one main body unit 110 to the other main body unit 100 on which the display 50 is formed through the wireless transmission / reception unit 41,

The biosignal measurement using the wireless communication, characterized in that configured to display on the display 50 by synchronizing the biosignal data transmitted to the wireless transmission and reception unit 40 of the other main body 100 and the previously measured biosignal data with each other Provide the device.

In addition, the present invention forms a display (50, 51) on the main body portion 100, 110 of the bio-signal measuring holder 111, respectively, the respective bio-signal data measured in a pair of main body portion (100, 110) Are transmitted / received through the wireless transmitter / receiver unit 50 and 51, and the transmitted biosignal data are synchronized with the previously measured biosignal data to display 50 and 51 formed in each of the main body units 100 and 110. It provides a biological signal measuring apparatus using a wireless communication, characterized in that configured to be displayed.

In addition, the present invention forms the display (50, 51) in the main body portion 100, 110 of the bio-signal measuring holder 111, respectively, and the other body portion ( 100 to the server system 200 by synchronizing the biological signal data and the previously measured bio-signal data transmitted via the wireless transmitter and receiver 41, and transmitted through the wireless transmitter 40 of the other main body 100 to each other And transmits the biosignal data transmitted through the wireless transmitter / receiver 40 and is transmitted through the wireless transmitter / receiver 42 of the server system 200 to be displayed on the display 210 of the server system 200. Provided are a biosignal measuring apparatus using wireless communication.

In addition, the present invention transmits the bio-signal data measured in the main body portion (100, 110) of the bio-signal measuring holder 111 to the server system 200 through the wireless transmission and reception unit (40, 41), the server Biological signal measuring apparatus using wireless communication, characterized in that configured to display on the display 210 of the server system 200 by synchronizing each of the biological signal data transmitted through the wireless transmission and reception unit 42 of the system 200 with each other To provide.

In addition, the present invention is a bio-signal measurement using a wireless communication, characterized in that the body portion of the bio-signal measuring holder 111 further comprises one to two other body portion (100 '. 110') Provide the device.

In addition, the present invention further comprises a memory unit (30, 31) for storing the bio-signal data controlled by the control unit 20, 21 and compare with the already stored bio-signal data characterized in that the living body using a wireless communication Provide a signal measuring device.

Hereinafter, the most preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

As shown in FIG. 1, the body parts 100 and 110 of the biosignal measuring holder 111 for measuring the active current generated in the body are formed in rings to have a predetermined width, and are easily worn and separated on the wrist. It was configured as a pair to facilitate.

At this time, the fasteners 60 and 61 for fastening both ends of the pair of main body parts 100 and 110 are equipped with velcros so that they can be worn on the wrist when measuring the bio-signals and separated after use. Formed. Since the pair of main body parts 100 and 110 are not deformed excessively in length, it is preferable that the pair of main body parts 100 and 110 be formed of an elastic rubber band so as to be in close contact with the wrist using a material having a fixed length. Although described as described above to facilitate the removal of the Velcro, the present invention is not limited thereto, and any structure including fasteners 60 and 61 which can be worn and detached on the wrist is included.

In addition, inside the pair of main body parts 100 and 110, biosignal sensor parts 10 and 11 made of electrodes are formed to measure an active current generated from the body, that is, biosignal data. Control units 20 and 21 are configured to amplify the biosignal data measured by the signal sensor units 10 and 11 to a predetermined level and convert the amplified biosignal data into digital signals. At this time, the electrode may be selected from platinum, gold, silver, copper and the like, and the number of poles is preferably avoided because it is preferable to install one or so, but may be installed by measuring two or three times in some cases.

In addition, although the bio-signal data measured by the bio-signal sensor unit (10, 11) may be transmitted directly from the control unit via the wireless transmitter and receiver 40, 41, the memory unit that can be compared with the previously stored bio-signal data ( 30 and 31 are further formed, and the wireless transmitter / receiver 40 and 41 for converting the bio-signal data measured by the controller 20 and 21 into digital signals for wireless transmission are formed.

In addition, the main body 100 of any one of the main body 100, 110 of the bio-signal measuring holder 111 is a display 50 for displaying the bio-signal data transmitted from the radio transmitter and receiver 40, 41 It is mounted on.

Therefore, the biosignal measuring apparatus of the present invention is easy to carry and can be used without being bound to time and place.

Referring to the embodiment of the bio-signal measurement of the present invention as described above based on Figure 2, to configure the bio-signal measuring holder 111, a pair of the main body portion (100, 110) of the right hand and left hand respectively Wear on. In this case, the display 50 is formed on any one of the main body parts 100 and 110 of the pair.

The biosignal sensor units 10 and 11 measuring the active current flowing through the right and left hands wearing the pair of main body parts 100 and 110 are respectively measured. The biosignal data received from the biosignal sensor units 10 and 11 is filtered and amplified to a predetermined level, and the amplified biosignal data is converted into a digital signal by the controller 20 and 21. In this case, although the biosignals measured directly by the controller 20 and 21 may be transmitted, the measured biosignal data are stored in the memory units 30 and 31 in advance as a database.

The memory units 30 and 31 compare the previously stored biosignal data with the biosignal data received by the control unit 20 and 21 and transmit the measured biosignal data back to the control unit 20 and 21 for comparison measurement. The biosignal data thus obtained may be transmitted through the radio transmitter / receiver 41.

That is, the pair of main body parts 100 and 110 simultaneously measure the biosignal data. At this time, the bio-signal data measured by one main body (left hand main body) 110 is started wirelessly to the main body 100 (right hand main body) 100 on which the display 50 is formed with the ID signal periodically. When the transmission and reception unit 41 transmits, the main unit 100 on which the display 50 is formed transmits the ID signal and the measured biosignal data and the measured ID signal and the biosignal data transmitted to the wireless transmitter / receiver 40. In synchronization with each other, the biological signal measurement data is completed and displayed on the display 50 as data such as graphs.

3 is a block diagram illustrating another embodiment of the present invention, in which the displays 50 and 51 are formed on the main body parts 100 and 110 of the biosignal measuring holder 111, respectively.

The bio-signal measuring holder 111 including the pair of main body parts 100 and 110 is an active current flowing through the body by wearing the main body parts 100 and 110 on the wrists of the right hand and the left hand, as in the above-described embodiment. Is measured by the biosignal sensor units 10 and 11. The biosignal data measured by the biosignal sensor units 10 and 11 may be filtered, amplified to a predetermined level by the control unit 20 and 21, converted into digital signals, and directly transmitted wirelessly. The biosignal data is transmitted to and stored in the memory units 30 and 31, and the biosignal data is compared by comparing the biosignal data transmitted to the memory units 30 and 31 with the biosignal data previously stored in the memory units 30 and 31. When transmitting to the control unit 20, 21, the control unit 20, 21 can display the data measured through the wireless transmission and reception unit 40, 41 on each display (50, 51).

That is, when the biological signal data and ID signals measured by simultaneously measuring the biological signal data in the left hand and the right hand are transmitted through the wireless transmitting and receiving units 50 and 51 formed in the respective body parts 100 and 110, respectively, the right hand body In the unit 100, the biosignal data signal transmitted from the left hand main unit 110 and the ID signal and previously measured biosignal data are synchronized with each other and displayed on the display 50 formed in the right hand main unit 100. In the unit 110, the biosignal data transmitted from the right-hand body unit 100 and the ID signal are synchronized to each other and displayed on the display 51 formed on the left-hand body unit 110 to accurately measure electrocardiogram. I could do it.

In the above embodiment, the biosignal data measured by one main body unit 100 and the biosignal data measured by the other main body unit 110 are transmitted and received through the wireless transmitter / receiver unit 40 and 41 to exchange each other. The data is synchronized to be displayed on each of the displays 50 and 51.

Another embodiment of the present invention will be described with reference to FIG. 4 as follows. As described above, the body currents 100 and 110 of the pair of biosignal measuring holders 111 are worn on the wrists of the left and right hands, respectively, and the active current flowing through the body is measured by the biosignal sensor units 10 and 11. Will be measured. Although the biosignal data measured by the biosignal sensor units 10 and 11 are filtered and amplified to a predetermined level by the control unit 20 and 21, converted into digital signals and directly transmitted wirelessly, the measured biosignal data is transmitted. The biosignal data transmitted to the memory units 30 and 31 and stored therein is compared with the biosignal data transmitted to the memory units 30 and 31 and the biosignal data previously stored in the memory units 30 and 31. Transmission to the control unit 20, 21 may also be transmitted through the wireless transmission and reception unit (40, 41).

That is, when the biosignal data and the ID signal measured by simultaneously measuring the biosignal data in the left hand and the right hand are transmitted through the wireless transmission / reception unit 41 formed in one main body unit 110, the other main body unit 100 may be used. In the present invention, the biosignal data transmitted through the wireless transmitter 40 and the ID signal and the measured biosignal data are synchronized with each other and transmitted to the server system 200 through the wireless transmitter / receiver 40 formed in the main body 100. . The biosignal data and the ID signal transmitted through the wireless transmitter / receiver 42 of the server system 200 are displayed on the display 210. Therefore, the doctor may check the bio-signal data displayed on the display 210 to check the health of the patient.

As another embodiment of the present invention will be described with reference to Figure 5 as follows. As described above, the body currents 100 and 110 of the pair of biosignal holders 111 are worn on the wrists of the left and right hands, respectively, and the active current flowing through the body is measured by the biosignal sensor units 10 and 11. Done. The biosignal data measured by the biosignal sensor units 10 and 11 may be filtered, amplified to a predetermined level by the control unit 20 and 21, converted into a digital signal, and transmitted directly by wireless, but the measured biosignal may be directly transmitted. The biosignal is compared by comparing the biosignal data transmitted to the memory units 30 and 31 with the biosignal data previously stored in the memory units 30 and 31. The data may be transmitted to the control unit 20 or 21 and transmitted through the wireless transmission / reception unit 40 or 41.

That is, the server system 200 is wirelessly transmitted through the wireless transmitter / receiver 40 and 41 formed on the main body 100 and 110 by measuring the bio-signal data simultaneously in the left and right hands. When transmitted to, the biosignal and ID signal transmitted through the wireless transmitter / receiver 42 of the server system 200 are checked and displayed on the display 210.

The embodiment of the present invention displays the biosignal data transmitted by wirelessly transmitting the biosignal data measured by the main body parts 100 and 110 of the biosignal measuring holder 111 to the server system 200. (210) so that the doctor can check the health of the patient while viewing the bio-signal data.

Although the above embodiment has been described with reference to an embodiment in which a pair of main body parts 100 and 110 constituting the biosignal measuring holder 111 is worn on the wrist of the right hand and the left hand to measure the biosignal data, FIG. 6. As shown in FIG. 1, two or more main body parts 100 ′ and 110 ′ may be additionally formed in the main body parts 100 and 110 of the biosignal measuring holder 111, and the main body part 100 ′ may be formed on the ankles of the right foot and the left foot. 110 '), and the ID signal and the bio-signal data measured at four places of the wrist and ankle are wirelessly transmitted to the main body 100 having the display 50 through the wireless transmitter / receiver. Each bio-signal data, ID signal, and previously measured bio-signal data are synchronized with each other to be displayed on the display 50, thereby making it possible to measure a more accurate bio-signal.

In this case, as described above, the display unit 50 may be formed in any one of the main body parts 100 of the main body parts 100, 110, 100 ′ and 110 ′ of each biosignal measuring holder 111. And display units 50, 51, 50 ', and 51' on all main body parts 100, 110, 100 ', and 110' to transmit the measured biosignal data to each other and to synchronize the measured biosignal data with each other. Can be displayed on the displays 50, 51, 50 ', and 51'.

Although the present invention has been described in detail with reference to the drawings and the specification, specific terms herein are used only for the purpose of illustrating the present invention and are not used to limit the scope of the present invention as defined in the meaning or claims.

Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described above, the present invention measures the biosignal data in the main body of the biosignal measuring holder mounted on both wrists, and displays the biosignal data and wirelessly measured biosignal data, which are wirelessly transmitted, to be displayed accurately on the display. By doing so, you can check your health at any time.

Claims (6)

A biosignal sensor unit for detecting biosignal data of a patient, a controller for amplifying the biosignal data output from the biosignal sensor unit to a predetermined level, and converting the amplified biosignal data into a digital signal; A pair of main body parts including a wireless transmission and reception unit for wirelessly transmitting and receiving compared bio signal data, and a display for displaying bio signal data is formed in any one of the pair of main body parts formed of a pair Biological signal measuring holder, Wirelessly transmitting the bio-signal data measured by the one main body to another main body having a display formed through the wireless transmission / reception unit, Biometric signal measuring apparatus using wireless communication, characterized in that configured to display on the display in synchronization with the bio-signal data and the previously measured bio-signal data transmitted to the wireless transmission and reception unit of the other main body. The method of claim 1, The display unit forms a display on the main body of the biosignal measuring holder, and transmits the biosignal data measured by the pair of main body parts through the wireless transmitter / receiver, respectively, and transmits the transmitted biosignal data to the measured biosignal data. Biometric signal measurement apparatus using a wireless communication, characterized in that configured to be displayed on the display formed in each of the main unit in synchronization with each other. The method of claim 1, The display unit forms a display on the main body of the biosignal measuring holder, and transmits and receives biosignal data measured by one main body to another main body through a wireless transmitter and receiver, and transmits the biosignal data transmitted through the wireless transmitter of the other body. By synchronizing the measured bio-signal data with each other through a wireless transmission and reception unit to the server system, and configured to display the bio-signal data transmitted through the wireless transmission and reception unit of the server system to be displayed on the display of the server system Biological signal measuring device. The method of claim 1, The biosignal data measured by the main body of the biosignal measuring holder are transmitted to the server system through the wireless transmitter / receiver, and the respective biosignal data transmitted through the wireless transmitter / receiver of the server system are synchronized with each other and displayed on the display of the server system. Biological signal measuring apparatus using a wireless communication, characterized in that configured to. The method of claim 1, Bio-signal measuring apparatus using a wireless communication, characterized in that the main body portion of the bio-signal measuring holder further comprises one to two. The method of claim 1, And a memory unit configured to store the biosignal data controlled by the controller and to compare the biosignal data with the already stored biosignal data.

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