JP3128928U - Wireless electrocardiograph with portable health management function and real-time transmission / reception function - Google Patents

Abstract

The present invention relates to a portable electrocardiograph distributed in the market, wirelessly from a sensor unit attached to a chest for detecting and transmitting biological information to a unit for receiving and processing the biological information, The components and system that make up the system are minimized until it can be incorporated into a mobile phone, and biometric information can be received and transmitted from anywhere at any time in real time.
The present invention reduces the size of components of a sensor unit 2 to be mounted on a chest 4 of a subject, optimizes each component of the unit, and a control system between the components, and transmits from the sensor unit 2. The mobile phone 5 or the PDA to which the biometric information is transmitted by reducing the size of the components of the biometric information and the components of the center device 1 and optimizing the components of the unit and the control system between the components. It can be incorporated into the body and is useful for health management in the daily life of people with heart disease and on-site exercise management such as sports.
[Selection] Figure 1

Description

The present invention relates to an electrocardiograph with a small wireless portable health management function and a real-time transmission / reception function that can be incorporated into a mobile phone, a PDA, or the like.

Portable electrocardiographs on the market are wired from the unit attached to the chest that transmits biological information such as electrocardiogram waveform and heart rate to the unit that receives and processes such biological information. Restraint between the electrocardiograph and its user is indispensable, and the user's behavior is restricted.

A portable electrocardiograph for continuous measurement has a large weight of 20 to 50 g and is too difficult for a user with weak body, for example, a person with heart disease, to use it.

The problem the device is trying to solve

Development of a portable wireless electrocardiograph that allows patients and doctors to send and receive biometric information from anywhere at any time in real time is necessary for predictive management in daily life of patients with heart disease. The present invention seeks to solve the above-mentioned drawbacks by developing a unit that receives and processes wirelessly miniaturized biological information that can be incorporated into a mobile phone, a PDA, or the like.

In the field of sports, the development of a lightweight and compact wireless electrocardiograph that can grasp the electrocardiogram and heart rate in real time and can evaluate daily exercise management and fatigue level is required. It is intended to solve the above-mentioned drawbacks by downsizing and wireless.

Means for solving the problem

The present invention reduces the size of each component of the sensor unit, the sensor body, the sensor drive control unit, the sensing signal transmission unit, and the antenna unit that wears, detects, and transmits biological information such as an electrocardiogram waveform and heart rate on the chest. For example, in order to minimize the total power consumption of the unit, the control system between each part and each part when detecting and transmitting biological information and when not detecting it is minimized. As a result, the electrocardiograph can be driven by a commercially available small-sized coin-type battery, which solves the problem of miniaturization. The biological information sensor unit of the embodiment can be reduced in size and weight to 11.5 g, 1/5 to 1/2 of the conventional product.

The present invention reduces the size of each component of the signal distribution unit, receiving unit, and electrocardiogram data processing unit constituting a unit that receives biological information such as an electrocardiogram waveform and heart rate, and minimizes the total power consumption of the unit, for example. Therefore, the control system between each part and each part at the time of reception and non-reception of biometric information has been minimized by optimization. This makes it possible to minimize the components that receive biological information such as electrocardiogram waveforms and heart rate, and the system between the components, and can be incorporated into the mobile phone or PDA to which the biological information is transmitted, thus solving the aforementioned problems. is doing.

Effect of device

As described above, the small-sized electrocardiograph with wireless portable health management function and real-time transmission / reception function of the present invention can be incorporated into, for example, a mobile phone, so that biometric information such as an electrocardiogram waveform and heart rate can be obtained from anywhere at any time. You can watch it on your mobile phone in real time. The unit that receives the biometric information is, for example, the subject's claim which is a claim of our application patent (Japanese Patent Application No. 2005-314934) “Biometric Information Monitor System” and (Japanese Patent Application No. 2005-291283) “Biometric Information Monitor System”. In the case of a unit incorporating electrocardiogram abnormality determination software, it can be determined whether there is an abnormality in the electrocardiogram, which can be used for predictive management and contribute to daily health management.

As mentioned above, you can view biometric information such as electrocardiogram waveform and heart rate from your mobile phone in real time anytime and anywhere, so you can send this biometric information to your patient's hospital or doctor anytime and anywhere. It is possible to respond to an emergency for a person with heart disease.

An electrocardiograph with a wireless portable health management function and a real-time transmission / reception function is claimed by our patent application (Japanese Patent Application No. 2005-314934) “Biological Information Monitor System” and (Japanese Patent Application No. 2005-291283) “Biological Information Monitor System”. Biological information system as a matter, that is, detecting and transmitting biological information such as an electrocardiogram waveform and a heart rate Sensor unit and biological information including three main components described below, a sensor body, a sensor drive controller, and a sensing signal transmitter Assemble the sensor data collection processing unit consisting of the following three main components, signal distribution unit, reception unit, and electrocardiogram data processing unit, and attach the electrocardiograph transmission unit to a mobile phone or PDA By doing so, the present invention can be implemented.

Hereinafter, an embodiment will be described with reference to the accompanying drawings.
FIG. 1 is a diagram showing a schematic configuration in which the biological information monitoring system of the present invention is incorporated in a mobile phone.
Reference numeral 4 denotes a user, that is, a subject. The sensor unit 2 is attached to the chest of 4.
Biological information such as an electrocardiogram waveform and a heart rate received by the sensor unit 2 is transmitted to the center device 1 via the wireless network 3. The biometric information such as the electrocardiogram waveform and heart rate received by the center device 1 is compared with the normal electrocardiogram waveform by the data collection processing unit, and the determination result of the presence or absence of abnormality is transmitted to the mobile phone 5.
FIG. 2 is a diagram in which the sensor unit 2 is attached to the user, that is, the chest of the subject 4.
FIG. 3 is a configuration diagram of the sensor unit 2. The sensor unit 2 includes a sensor main body and a sensor drive control unit.
FIG. 4 is a configuration diagram of the center device 1. Data processed by the sensor data collection processing unit, such as the presence or absence of abnormalities in the electrocardiogram waveform, is transmitted to the mobile phone via the transmission unit.

1 shows a schematic configuration in which a biological information monitor system of the present invention is incorporated in a mobile phone. FIG. 2 is a diagram in which the sensor unit 2 is attached to a user, that is, a chest of a subject 4. FIG. 2 is a configuration diagram of the sensor unit 2. FIG. 2 is a configuration diagram of the center device 1.

Explanation of symbols

1 center device 2 sensor unit 3 wireless network 4 electrocardiograph user, ie subject 5 mobile phone

Claims (1)

One of the components of a portable electrocardiograph, the biological information of the subject is transmitted wirelessly from a sensor unit attached to the chest, and the unit that receives and processes the biological information is minimized and incorporated into a mobile phone, PDA, etc. Portable miniaturized electrocardiograph that can be miniaturized

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