JPH0757220B2 - Heart rate monitor - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a heart rate monitor.

[Background technology]

Jogging exercises and various sports are popular for reasons such as eliminating the lack of exercise in daily life and actively maintaining one's own health. In that case, if a person who does not exercise a lot on a regular basis exercises abruptly, serious injury may occur.

Therefore, it is necessary to control the exercise amount so that the exercise amount is appropriate. One of such criteria is a change in heart rate (also referred to as pulse rate) during exercise.
In other words, remember the normal heart rate when you are not exercising in advance, and compare this with the heart rate during exercise to control the amount of exercise so that the increase in heart rate does not exceed a certain level. Of. By doing this, since it is possible to avoid an excessive overload exercise, it is possible to prevent a serious failure from occurring. In order to facilitate such control, various heart rate monitors (also called pulse rate monitors) have been developed.

For example, there is a conventional heart rate monitor as shown in FIG. That is, a sensor 2 that is attached to a part of the human body 1 (such as an electrocardiographic potential induction site or a blood pulse wave detection site) to detect a heartbeat, a calculation unit 13 that calculates and counts the heartbeat from the output waveform, and a heartbeat. It is composed of an indicator 14 with an alarm device (such as a buzzer) that indicates the number and that gives an appropriate alarm when it exceeds the set blood (which is a measure of effective exercise amount). Such a heart rate monitor
Since it can be handled like a wristwatch, it can be easily used for jogging exercises and the like, and the user can easily control the amount of exercise using an alarm as an index. In the figure, 15 is a counter. Furthermore, as such a heart rate monitor, the upper and lower limits of the heart rate are set as a special function, and this value is compared with the measured heart rate,
When the upper limit is exceeded, an overload alarm is issued, while
At the lower limit, a device equipped with an upper limit / lower limit heart rate setter 16 and a comparator 17, which are adapted to issue a lack of exercise warning, has also been developed. That is, as shown in the heart rate progression graph during exercise shown in FIG. 8, the upper limit heart rate A and the lower limit heart rate B are set in advance in the heart rate meter, and after the exercise is started, the actually measured heart rate is the exercise rate. When in the shortage warning area a and the exercise overload warning area c, the warning device 14 outputs a warning. The user can appropriately control his / her exercise amount by sensing this alarm, so that the heart rate can always be kept within the optimum exercise area b.

However, it is not always the case that you finish with one exercise of the day, so if you want to know the total amount of effective exercise on that day, or if you want to use the total amount of effective exercise performed during the week or month as a guideline. In some cases, you may want to control your own momentum. Since the conventional heart rate monitor is not provided with means for accumulating the amount of exercise, it is impossible to meet such a demand.

[Object of the Invention]

In view of the above points, the present invention can easily know the total effective amount of exercise by accumulating the time during which the heart rate is maintained at or above the predetermined heart rate set according to the exercise goal of the user. The purpose is to provide a heart rate monitor.

[Disclosure of Invention]

In order to achieve the above object, the present invention provides a sensor that is worn on a part of a human body to detect a heartbeat, a calculation unit that counts heartbeats based on a signal emitted from the sensor, and outputs and displays the result of the calculation unit. In a heart rate monitor having an output display unit, the user's age and the target load amount during exercise are input, and a set heart rate that serves as a reference for effective exercise amount is calculated from this input value and output to the calculation unit. A heart rate setting device for performing a heart rate setting, and the calculating unit compares the set heart rate input from the heart rate setting device with the counted actual heart rate, and accumulates the time to generate a heart rate higher than the former. The gist is a heart rate monitor characterized by being provided with an accumulating means for performing.

This will be described in detail below with reference to the drawings showing the embodiment.

FIG. 1 shows an example of a heart rate meter according to the present invention. This heart rate monitor has the following configuration. That is, a census that is worn on a wrist or the like in the human body 1 that corresponds to a so-called electrocardiographic potential induction site or a blood pulse wave detection site, and a census that detects a heartbeat and a calculation that is performed to input a detected signal and obtain a desired output It comprises a section 3, an output display section 11 to which its output is sent, a heart rate setter 6 for setting a reference heart rate in advance, and a counter switch 12 for setting initial values of a counter 10 described later. As the sensor 2, a photoelectric type sensor that electrically detects a heartbeat is often used, but the sensor 2 is not particularly limited thereto. The calculator 3 calculates the difference between the actually measured heart rate and the preset heart rate in synchronization with the counter 5 which calculates and counts the signal emitted from the sensor 2 and the counting end of the counter 5. A subtracter 7 having a function, a clock pulse generator 8 that emits a pulse once at a fixed time interval, and a gate 9 that allows a clock pulse to pass only when the measured heart rate is larger in the result of the subtractor 7, It is composed of a counter 10 for accumulating (counting) the clock pulses output from the gate 9, and the accumulated value is displayed on the output display section 11. An input is made to the subtractor 7 from a heart rate setting device 6 capable of setting a reference heart rate in advance. A counter clear switch 12 for initializing the counter is connected to the counter 10 as needed. This counter clear switch
When 12 is provided, it is convenient because the cumulative time at a desired time can be easily obtained.

Next, the operation of the heart rate monitor according to the present invention will be described with reference to FIGS. 2 and 3.

FIG. 2 shows the change over time in the heart rate when a certain amount of exercise is performed. Here, D is a preset heart rate, and T1 to T4 represent the time when the heart rate during exercise exceeds this D (the time during which the effective exercise amount is maintained). Taking the case of such exercise as an example,
The operation of the heart rate monitor will be described with reference to FIG.

Before starting the exercise, the counter clear switch 12 is operated to set the initial value to zero. (G). The counter 5 receives the signal emitted from the sensor 2 to count the heart rate. When the counting of the heart rate is completed, the heart rate calculation end signal (C) is sent to the subtractor 7. The subtractor 7 compares and subtracts the measured heart rate B and the set heart rate A in synchronization with this signal (C) (that is, the subtractor 7 has a function of comparing the magnitude), and based on this subtraction result. , When the measured heart rate B becomes higher, an output signal (D: borrow output) that allows the clock pulse (E) to pass through the gate 9 is emitted. A clock pulse passes through the gate 9 while this borrow output is occurring. That is, the clock pulse (E) transmitted from the clock pulse generator 8 passes through the gate 9 and is sent to the counter 10 only during this output period. counter
The counter 10 counts the clock pulses that have passed through the gate 9 (H) and outputs the result to the output display unit 11. The output display unit 11 displays the total momentum, which is the total of clock pulses, in time. The display method at this time is not limited to the one in which the cumulative time is represented by a digital value, and the configuration of the above-described calculation unit is an analog circuit, and the heart rate setting, calculation, etc. are analog-processed, and the result is displayed. You may make it an analog display.

In this way, the counter 10 counts only the time during which the heart rate exceeding the set heart rate is maintained among the measured heart rates, so that the user can easily know the total amount of effective exercise.

A reference example of the heart rate setting device 6 will be described. That is, a heart rate setting device 19 as shown in FIG. 4 may be provided. That is, the heart rate setting device 19 includes a keyboard 20 that can input an arbitrary heart rate, and a keyboard controller 21 that converts the heart rate input from this into a predetermined signal. The signal is latched by the latch section 22. This is convenient because the set heart rate can be easily changed at any time.

However, it is very troublesome to calculate and input the set heart rate one by one like the heart rate setting device 19 of the reference example.
Therefore, in the present invention, as shown in FIG. 5, a heart rate setter 23 is provided so that the age and the amount of load during exercise can be input and a predetermined heart rate can be set in consideration of these. That is, as shown in FIG. 6, it has been found that there is a certain relationship between the heart rate at the maximum load (100%) at which a person can exercise and the age. It is possible to represent the relationship between the load amount and the heart rate according to the law. The figure (a) shows the relationship between the age and the heart rate in the case of the maximum load (100%), and the figures (b) and (c) show
For example, it shows a similar relationship for 60% and 50% loading. Data (HR11 ... HRnn) as shown in Table 1 is prepared in advance for such a relationship, and this data is incorporated in the heart rate output device 24 provided in the heart rate setting device 23. When the user inputs his or her age and target load amount through the keyboard 20,
The heart rate output device 24 obtains the heart rate and outputs it to the latch unit 22 so that the set heart rate (HRnn) can be obtained. Use of such a heart rate monitor is extremely convenient for securing the amount of exercise according to one's physical strength.

[Effect of the Invention] Since the heart rate monitor according to the present invention is configured as described above, the exercise target for any desired period desired by the user can be easily set, and the accumulation of the exercise amount during that period can be easily known. And it ’s easier to manage your exercise goals,
It is extremely convenient.

Moreover, since it becomes possible to easily set a target according to one's physical strength, it can be used over a wide range of age groups.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of a heart rate meter according to the present invention, FIG. 2 is a graph explaining the use of the heart rate meter of the same figure at the time of exercise, and FIG. 3 is an operation of the heart rate meter of FIG. FIG. 4 is a block diagram showing a reference example for comparison with an embodiment of a heart rate setting device provided in the heart rate meter according to the present invention, and FIG. 5 is a heart rate provided in the heart rate meter according to the present invention. FIG. 6 is a block diagram showing an embodiment of a setting device, FIG. 6 is a graph showing the relationship between heart rate and age, FIG. 7 is a block diagram showing the configuration of a conventional heart rate monitor, and FIG. 8 is a conventional heartbeat during exercise. It is a graph explaining the use of a meter. 1 ... human body, 2 ... sensor, 3 ... calculation section, 11 ... output display section

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Yoshihiro Sakurai 1048, Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Works, Ltd. (56) Reference JP-A-57-66735 (JP, A) JP-A-57-142237 ( JP, A) JP-A-57-95104 (JP, A)

Claims (1)

[Claims] 1. A sensor which is worn on a part of a human body to detect a heartbeat, a calculation unit which counts heartbeats based on a signal emitted from the sensor, and an output display unit which outputs and displays the result of the calculation unit. In the heart rate monitor, the user's age and the target load during exercise are input, and the heart rate setter that calculates the set heart rate as the reference of the effective exercise amount from this input value and outputs it to the calculation unit is set. The arithmetic unit is provided with accumulating means for comparing the set heart rate input from the heart rate setter with the counted actually measured heart rate, and accumulating time for generating a heart rate higher than the former. Heart rate monitor characterized by