JPH05154116A - Health care device - Google Patents

Abstract

PURPOSE:To facilitate the health or physical condition control by executing the heart rate measurement in every state systematically extending from the static heart rate to the dynamic heart rate. CONSTITUTION:The device consists of heart rate measuring means 2, 3 and 4 for measuring heart rate data in every state extending from the static heart rate to the dynamic heart rate, and a health information output means 1 for outputting health information based on the heart rate number data, and the health information output means 1 is provided with a health state inferring means 7b for inferring a health state from the heart rate data, and a display means 8 for outputting the heart rate data, and a result of inference of the health state inferring means 7b.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a health management device for measuring heart rate in all situations from static heart rate to dynamic heart rate and providing health information to each individual.

[0002]

2. Description of the Related Art As a conventional heart rate measuring device, there are a small stationary type and a wristwatch built-in type. For measurement, a small pressure sensor is used to convert the movement of pulsating flow into an electric signal for one minute. A type is known in which the heart rate is displayed after the pulse rate is calculated.

[0003]

SUMMARY OF THE INVENTION According to the prior art, when waking up in the morning (static heart rate), during exercise (dynamic heart rate), or between static heart rate and dynamic heart rate, , For example, it is difficult to systematically measure when relaxing in the toilet or at home (quasi-static heart rate), and from these trends it is very difficult to manage health and physical condition, including the operating method. There was a problem that there is.

The present invention has been made in view of the above problems of the prior art, and its object is systematically in all situations from static heart rate to dynamic heart rate. An object of the present invention is to provide a health management device that measures the heart rate of the subject and gives health information to each individual from the measurement results to facilitate the health or physical condition management.

[0005]

In order to solve the above problems, the present invention provides a heart rate measuring means for measuring heart rate data in all situations from static heart rate to dynamic heart rate and the heart rate data. Health information output means for outputting health information based on the heart rate data, and the health information output means outputs the inference result of the heart rate data and the health condition inference means. And a display means for performing the operation.

The heart rate measuring means includes static heart rate measuring means for measuring static heart rate data when waking up in the morning, and dynamic heart rate measuring means for measuring dynamic heart rate data during exercise. The measuring means and the quasi-static heart rate measuring means for measuring quasi-static heart rate data intermediate between the static heart rate and the dynamic heart rate may be configured.

[0007]

Function: Heart rate can be measured in all situations from static heart rate to dynamic heart rate, and health information can be obtained from each heart rate data.

[0008]

Embodiments of the present invention will be described below with reference to the accompanying drawings. FIG. 1 is a block diagram showing the configuration of a health management apparatus according to the present invention, and FIG. 2 is a flowchart showing the operation of the health management apparatus according to the present invention.

The health management device comprises health information output means 1 and
The dynamic heart rate measuring means 2 for measuring the dynamic heart rate and wirelessly transmitting the heart rate measurement result to the health information output means 1 by light or radio waves, and the dynamic heart rate measuring means 2 have substantially the same configuration. However, it comprises a static heart rate measuring means 3 and a quasi-static heart rate measuring means 4 which are connected to the health information output means 1 wirelessly or by wire.

The dynamic heart rate measuring means 2 can move integrally with a body such as a wrist watch type in order to measure dynamic heart rate data during exercise. Static heart rate measuring means 3
Is equipped with a bed or the like so that it can be measured with the body lying down because it is necessary to measure static heart rate data such as when waking up in the morning. The quasi-static heart rate measuring means 4 is provided in a chair, a Western-style toilet, or the like for measuring quasi-static heart rate data between the static heart rate and the dynamic heart rate.

Since the dynamic heart rate measuring means 2 can measure the heart rate in all situations from static heart rate to dynamic heart rate, the dynamic heart rate measuring means 2 alone can measure the heart rate. 2 may serve as the static heart rate measuring means 3 and the quasi-static heart rate measuring means 4.

The health information output means 1 includes a receiving section 5 for receiving signals from the dynamic heart rate measuring means 2, a switch section 6 for performing various operations, and a dynamic heart rate measuring means 2 received by the receiving section 5. Health state is inferred from the signal from the heart rate data and each heart rate data from the static heart rate measuring means 3 and the quasi-static heart rate measuring means 4, or each measured heart rate data is out of the standard heart rate range. The control unit 7 determines whether or not the current measurement result is compared with the tendency of the measurement result up to the previous time to determine whether the difference exceeds a predetermined range. It comprises a display unit 8 for displaying each heart rate and health information, and a buzzer 9 for notifying that the heart rate data has been transferred from each heart rate measuring means 2, 3, 4.

The control unit 7 includes various input devices 3, 4, 5, 6
An input circuit 7a having a function of correcting a voltage level of an input signal from the CPU to a predetermined level, a central processing unit (CPU) 7b, various calculation programs executed by the CPU 7b, predetermined image display, and the like are stored. The memory 7c is composed of a ROM and a RAM for storing calculation results and the like, and an output circuit 7d for outputting a drive signal to the display unit 8 and the buzzer 9.

Thus, the CPU 7b has the memory 7c in advance.
A health condition based on a predetermined program from various heartbeat data from various calculation programs stored in (ROM), dynamic heartbeat measuring means 2, static heartbeat measuring means 3, and quasi-static heartbeat measuring means 4. It is equipped with a health condition inference means for inferring, and a comparison means for comparing the tendency of the measurement result up to the previous time with the measurement result of this time.

Further, the dynamic heart rate measuring means 2 comprises a sensor section 10 for converting the movement of the pulsating flow into an electric signal, and a switch for setting dynamic or static or quasi-static measurement conditions and measurement time. And a heart rate measurement switch (SW), a switch unit 11, a control unit 12 that processes signals from the sensor unit 10 and the switch unit 11, and measurement results of each heart rate calculated by the control unit 12. A transmission unit 13 wirelessly transmitting to the health information output unit 1 by light or radio waves, a display unit 14 displaying each heart rate calculated by the control unit 12, and an abnormality based on the calculation processing result by the control unit 12. It is composed of a buzzer 15 for notifying the user.

The control section 12 shapes an input signal waveform from the sensor section 10 and the switch section 11, corrects the voltage level to a predetermined level, and converts the analog signal into a digital signal. A central processing unit (CPU) 12b, a memory 12c including a ROM for storing various calculation programs executed by the CPU 12b and a RAM for storing calculation results, and a signal to the transmission section 13, the display section 14 or the buzzer 15 Output circuit 1 to output
2d.

The operation of the health care apparatus according to the present invention having the above-mentioned structure will be described with reference to the flow chart shown in FIG. First, the switch unit 11 of the dynamic heart rate measuring means 2 is operated to input its own ID (identification number), and dynamic heart rate measurement is set as a measurement condition (S1). The switch (SW) is turned on (S2).

Then, the heart rate data is measured at a predetermined time (S3), and it is determined whether the measured heart rate N is higher than the limit heart rate NMAX (S4). Large (N> NMA
If it is determined to be X), the buzzer 15 emits a warning buzzer sound "beep beep" (S5), and step S3 for measurement again.
Go to.

If it is determined that the measured heart rate N is less than or equal to the limit heart rate NMAX (N ≦ NMAX), it is a percentage of the measured heart rate N and the standard heart rate N0 (N / N0) × 100%.
Is displayed (S6). The standard heart rate N0 is
It is peculiar to an individual due to age, weight, etc., and is instructed in advance under the diagnosis of a doctor.

Further, a desired measurement time is set by operating the switch section 11 (S7), and heart rate data is measured and recorded (S8). It is determined whether or not the set measurement time has expired (S9), and if it is determined that the time has not expired, the process proceeds to step S8. If it is determined that the time is up, the heart rate measurement switch is automatically turned off (S1
0). Further, the data transfer SW of the switch unit 11 is turned on and the measurement data is transferred to the health information output means 1 (S11).

Similarly, the static heart rate measuring means 3 and the quasi-static heart rate measuring means 4 respectively transfer the static heart rate data and the quasi-static heart rate data to the health information output means 1. In addition,
The switch unit 11 of the dynamic heart rate measuring means 2 sets the measurement condition to static or quasi-static, and outputs static heart rate data in the static state and quasi-static heart rate data in the quasi-static state as health information. It may be transferred to the means 1.

The health information output means 1 determines whether or not the data has been transferred while waiting (S12). If the data is not transferred even after the lapse of a predetermined time, the heart rate measurement ends. On the other hand, if it is judged that the data has been transferred, the buzzer 9
The reception buzzer sound "Peep" is emitted at (S13).

Then, the health condition inference means 7b infers the health condition from each heart rate data transferred and stored in the memory 7c based on a predetermined program, or the heart rate data is out of the standard heart rate range. And the difference between the current measurement result and the tendency of the measurement result up to the previous time is determined to determine whether the difference exceeds a predetermined range, and the difference is calculated (S14).

Then, from the result of inferring the health condition, the health information and the tendency of the heart rate change up to this time are displayed in a graph on the display unit 8 (S15), and the heart rate data and the health information of the inference result and the current time are displayed. The data such as the tendency of the change in heart rate is stored in the memory 7c (S16), and the heart rate measurement is completed.

As described above, the heart rate is systematically and systematically measured from static to dynamic, and not only the heart rate per minute is converted and displayed, but also the intervals of individual heart rate data, etc. Since heartbeat is also measured, it is possible to detect a missing heartbeat, and it is easy to find abnormalities such as arrhythmia.

[0026]

As described above, according to the present invention, it is possible to systematically measure the static heart rate to the dynamic heart rate of an individual and grasp the tendency of the change in heart rate up to now from the measurement result. Improves reliability of information regarding health management. Further, since abnormalities such as arrhythmia can be easily detected, it can contribute to preventive medicine.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of a health management device according to the present invention.

FIG. 2 is a flowchart showing the operation of the health management device according to the present invention.

[Explanation of Codes] 1 ... Health information output means, 2 ... Dynamic heart rate measuring means, 3 ...
Static heart rate measuring means, 4 ... Quasi-static heart rate measuring means, 7b
... CPU (health condition inference means), 8 ... display means.

Claims (2)

[Claims] 1. A heart rate measuring means for measuring heart rate data in all situations from a static heart rate to a dynamic heart rate, and a health information output means for outputting health information based on the heart rate data. The health information output means includes health condition inference means for inferring a health condition from the heart rate data, and display means for outputting the heart rate data and the inference result of the health condition inference means. apparatus. 2. The heart rate measuring means includes static heart rate measuring means for measuring static heart rate data when waking up in the morning, and dynamic heart rate measuring means for measuring dynamic heart rate data during exercise. The health management device according to claim 1, comprising: a measuring means and a quasi-static heart rate measuring means for measuring quasi-static heart rate data intermediate between the static heart rate and the dynamic heart rate.