JP2005040259A - Pulse wave detector and pulse rate detector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a pulse wave detector capable of detecting accurate pulse waves by a simple structure, and a pulse rate detector capable of detecting the pulse rate of a user doing exercises. <P>SOLUTION: The pulse rate of the user doing exercises is measured by a wristwatch 10 with a pulse rate measuring function. The wristwatch comprises a watchband 30 attached to a watch part 20 with a display part 21 for displaying the hour and the pulse rate of the user and a pulse wave sensor 40 attached to the watchband 30. The pulse wave sensor 40 comprises a pair of light receiving elements stored in a sensor case body 41, and locking parts 45 and 45 for slidably fixing the sensor case body 41 to the watchband 30 and a positioning projection 46 on top of the sensor case body 41. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention provides a pulse wave detection device for detecting a wearer's pulse wave, which is worn on the wearer's wrist, and a pulse rate for counting and displaying the wearer's pulse rate from the output of the pulse wave detection device. The present invention relates to a detection device.
[0002]
[Prior art]
In recent years, an increase in lifestyle-related diseases such as hypertension, diabetes, heart disease, and cerebrovascular disorder has become a major social problem with the shift to an aging society and the westernization of dietary habits. As a preventive or coping therapy for such lifestyle-related diseases, exercise therapy at an individual level such as walking is actively performed. In such exercise therapy, a pedometer or exercise calorimeter is generally used as a measure of exercise amount, but recently, the above-mentioned exerciser has measured the pulse rate (heart rate) during exercise in real time. A method for estimating the degree of burden on the heart has also been proposed.
The pulse rate is usually measured by irradiating a part of the blood vessel with infrared or near-infrared light, and detecting the wearer's pulse wave from the reflected or transmitted light. Is often used. 4 (a) to 4 (c) show a schematic configuration of a conventional pulse wave sensor 50 that is worn on the wrist 1 and detects the movement of the red blood cells in the artery 2 of the wrist 1 to measure the wearer's pulse wave. In this figure, the pulse wave sensor 50 has a light emitting element 51 and a light receiving element 52 housed in a sensor case 53, and the wearer has the light emitting surface 51s and the light receiving surface 52s on the wrist 1 respectively. A pulse wave is detected by attaching the belt 1 to the inner side of the wrist 1 so as to be positioned in the vicinity of directly above the artery 2 (see, for example, Patent Document 1).
The pulse wave data detected by the pulse wave sensor 50 is sent via a signal cable 55 to, for example, a pulse rate calculation display device 56 housed in the wearer's chest pocket, etc. Is calculated and displayed. The wearer takes out the pulse rate calculation display device 56 as necessary, confirms the pulse rate during exercise, increases or decreases the amount of exercise, and rests.
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 2002-360530
[Problems to be solved by the invention]
However, in the configuration in which the pulse wave sensor 50 and the pulse rate calculation display device 56 are separated as described above, not only is the task of checking the pulse rate during exercise difficult, but the pulse wave sensor 50 is attached to the belt 54. The wristwatch has to be worn on the wrist 1, so the wristwatch must be a wrist different from the wrist 1 for measuring the pulse wave, which is inconvenient.
Also, as you can see by actually taking the pulse of the wrist, the type of pulse wave sensor attached to the wrist has a problem that it is difficult to attach the sensor at a predetermined position, so the attachment position is slightly shifted. In order to accurately detect the wearer's pulse wave, for example, like the conventional pulse wave sensor 50, a plurality of light receiving elements 52 are arranged concentrically symmetrically around the light emitting element 51. The idea of was necessary.
[0005]
The present invention has been made in view of the conventional problems, a pulse wave detection device capable of detecting an accurate pulse wave with a simple configuration, and a pulse rate detection for detecting the pulse rate of a wearer during exercise. An object is to provide an apparatus.
[0006]
[Means for Solving the Problems]
The invention according to claim 1 of the present invention is a pulse wave detection device comprising a pulse wave detection means and a band for fixing the pulse wave detection means to the wrist, wherein the pulse wave detection means is connected to the band. It is characterized in that it is slidably mounted on the inside along the length direction of the band. As a result, the mounting position of the pulse wave detecting means can be easily adjusted, so that an accurate pulse rate can be detected with a simple configuration.
According to a second aspect of the present invention, in the pulse wave detecting device according to the first aspect, the pulse wave detecting means includes a pair of light emitting elements and a light receiving element, and the light emitted from the artery of the wrist of the wearer is reflected. The pulse wave sensor detects the wearer's pulse wave by detecting reflected light from the element with a light receiving element.
[0007]
According to a third aspect of the present invention, in the pulse wave detection device according to the first or second aspect, the band of the case of the pulse wave detection means is used to securely attach the pulse wave detection means to a predetermined position. A positioning protrusion protruding from the case is provided at a position on the side surface that can be viewed from a band retaining hole provided in the band.
According to a fourth aspect of the present invention, in the pulse wave detecting device according to the third aspect, the protrusion is provided at a position corresponding to the best point of sensitivity of the pulse wave detecting means.
[0008]
According to a fifth aspect of the present invention, in the pulse wave detection device according to the third or fourth aspect of the present invention, the height of the protruding portion is set to a height protruding from the band stop hole, and the positional deviation of the sensor during movement is adjusted. It is intended to prevent.
According to a sixth aspect of the present invention, in the pulse wave detection device according to any of the third to fifth aspects, in order to make the position of the protruding portion easy to understand, the protruding portion is formed on the top of the protruding portion. A marker is provided for visually recognizing the position.
A seventh aspect of the present invention is the pulse wave detection device according to any one of the first to sixth aspects, further comprising display means for displaying the magnitude of the output of the pulse wave detection means. Accordingly, it is possible to further improve the mounting position accuracy of the pulse wave detecting means.
[0009]
The invention described in claim 8 is a pulse rate detection device that measures and displays a wearer's pulse rate, and the pulse wave detection device according to any one of claims 1 to 7, and A calculation means for counting the wearer's pulse rate based on the output of the pulse wave detection means, and a display means for displaying the counted wearer's pulse rate are provided.
According to a ninth aspect of the present invention, in the pulse rate detecting device according to the eighth aspect of the invention, the magnitude of the output of the pulse wave detecting means is displayed on the display means.
A tenth aspect of the present invention is the pulse rate detecting device according to the eighth or ninth aspect, wherein the display means is attached to the band.
The invention according to claim 11 is the pulse rate detecting device according to any one of claims 8 to 10, further comprising a clock function in addition to the function of counting and displaying the pulse rate, and the display means. This makes it possible to display the time, so that the apparatus can be used as a wristwatch.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 to 3 are diagrams showing a schematic configuration of a wristwatch 10 having a pulse counting function using a pulse wave detection device according to an embodiment of the present invention. In each figure, 20 indicates time and will be described later. A clock unit having a display unit 21 for displaying the pulse rate of the wearer, 30 is a watch band, 40 is a pulse wave sensor for detecting the pulse wave of the wearer from the movement of red blood cells in the artery 2 of the wrist 1 of the wearer. (Pulse wave detection device) In the clock unit 20, an arithmetic circuit (counting the pulse rate of the wearer based on the output (pulse wave signal) from the pulse wave sensor 40 sent via the signal cable 40k) (Not shown) is built in, and the calculated pulse rate is displayed on the display unit 21.
The pulse wave sensor 40 includes a sensor case main body 41, an acrylic transparent plate 42 disposed on a surface 41a of the sensor case main body 41 that contacts the wrist 1 of the wearer (hereinafter referred to as a contact surface), A pair of light-emitting elements 43 and light-receiving elements 44 arranged on the back side of the transparent plate 42, and a face of the sensor case body 41 on the side of the watch band 30 (hereinafter referred to as the upper surface) 41b in the width direction are provided. There are provided locking portions 45, 45 and a positioning projection 46 protruding from the upper surface 41 b toward the watch band 30, and the signal cable 40 k is engaged with the sensor case body 41 of the pulse wave sensor 40. The watch portion 20 is connected to the watch portion 20 through a gap between the stop portion 45 and the watch band 30.
[0011]
The locking portion 45 has a cross section composed of a vertical piece 45a protruding from the upper surface 41b of the sensor case body 41 in the direction of the watch band 30 and a horizontal piece 45b extending horizontally from the upper end portion of the vertical piece 45a to the upper surface 41b. As shown in FIG. 2 (a), an L-shaped member is inserted into the space formed between the vertical piece 45a and the horizontal piece 45b in the width direction end portion of the watch band 30, and the pulse wave The pulse wave sensor 40 is fixed to the watch band 30 by sliding the sensor 40 on a predetermined position, that is, on the artery 2 of the wearer's wrist 1.
Further, in order to securely attach the pulse wave sensor 40 to a predetermined position, it is desirable that the position of the protrusion 46 be provided at a position where the protrusion 46 can be seen from a band retaining hole 30 s provided in the watch band 30. Further, if the position of the protrusion 46 is provided immediately above the best point of sensor sensitivity, that is, the midpoint between the center of the light emitting surface 43s of the light emitting element 43 and the center of the light receiving surface 44s of the light receiving element 44, The pulse wave sensor 40 can be reliably attached at a predetermined position.
Further, the height of the protrusion 46 is set to be a height protruding from the band retaining hole 30s, and the pulse wave sensor 40 is moved to the watch band 30 while raising the center of the watch band 30 with a fingertip as shown in FIG. 2, and the protrusion 46 is inserted into the band retaining hole 30 s as shown in FIG. 2A, the pulse wave sensor 40 will not be displaced due to vibration or the like when moving. Therefore, it is possible to reliably prevent the displacement of the pulse wave sensor 40 during movement (the displacement in the xx ′ direction in FIG. 1).
If the marker 46m for visually recognizing the position of the protrusion 46 is provided at the top of the protrusion 46, the position of the protrusion 46 can be more easily understood. It can be done easily. The marker 46m is preferably a marker having a center position such as a cross mark or a conspicuous one using various patterns or colors.
[0012]
Next, the usage method of the wristwatch 10 with a pulse counting function will be described.
The wearer wears the pulse wave sensor 40 at an appropriate position of the watch band 30 so that the transparent plate 42 is on the lower side (the wrist 1 side), and then wears the watch band 30 lightly on the wrist. Then, the pulse wave sensor 40 is slid using the position of the marker 46m provided on the top of the protrusion 46, which can be seen from the band stop hole 30s, as a guide, and the marker 46m is located near the artery 2 on the wrist 1. Then, the protrusion 46 is protruded from the nearest band stop hole 30 s to fix the pulse wave sensor 40 to the watch band 30.
At this time, for example, the display unit 21 of the timepiece unit 20 displays a bar or the like whose length or number changes corresponding to the output level of the pulse wave sensor 40, and displays the output level of the pulse wave sensor 40. By doing so, the mounting position accuracy of the pulse wave sensor 40 can be further improved.
The near-infrared ray irradiated from the light emitting element 43 of the pulse wave sensor 40 toward the wrist 1 is reflected by red blood cells flowing through the artery 2 of the wrist 1, so that the wearer can detect the reflected light by detecting the reflected light with the light receiving element 44. The pulse wave can be detected. The detected pulse wave data is sent to a calculation circuit (not shown) of the timepiece unit 20 through the signal cable 40k, and the pulse rate is counted by the calculation circuit and displayed on the display unit 21. At this time, both the time and the pulse rate may be displayed on the display unit 21, or one of them may be selected and displayed. Therefore, the wearer can easily check the pulse rate during exercise and also check the time.
[0013]
Thus, according to the present embodiment, a pair of light emission stored in the sensor case body 41 is attached to the watch band 30 attached to the watch unit 20 having the display unit 21 that displays the time and the pulse rate of the wearer. In addition to the element 43 and the light receiving element 44, locking portions 45, 45 for slidably fixing the sensor case body 41 to the watch band 30 on the upper surface 41b of the sensor case body 41, and positioning protrusions Since the pulse rate during exercise is measured using the wristwatch 10 with a pulse counting function to which the pulse wave sensor 40 having the unit 46 is attached, the pulse wave sensor 40 is accurately mounted at a predetermined position on the wrist. The pulse rate can be accurately measured, and the pulse rate and time during exercise can be easily confirmed.
[0014]
In the above-described embodiment, the case where the pulse wave sensor 40 in which one light emitting element 43 and one light receiving element 44 are disposed is used as the pulse wave sensor. The present invention can also be applied to pulse wave sensors having other configurations such as the pulse wave sensor 50 having a configuration in which the light receiving elements 52 disclosed in Document 1 are concentrically arranged symmetrically around the light emitting elements 51.
In the above example, the protrusion 46 is provided immediately above the best point of the sensor sensitivity. However, the protrusion 46 is used only for stopping the shift, and means for separately displaying the magnitude of the output of the pulse wave sensor 40 is provided. It may be provided to adjust the position of the pulse wave sensor 40.
Further, instead of the projection 46, a part of the horizontal piece 45b of the locking part 45 may be projected in the band width direction, and a marker similar to the marker 46m may be provided on the projected part. At this time, the marker position is preferably provided immediately above the best point of sensor sensitivity.
In the above example, the signal cable 40k is shown through the gap between the locking portion 45 and the watch band 30, but the route from the sensor case body 41 of the signal cable 40k to the watch portion 20 is not limited to this. Alternatively, it may be passed under the watch band 30. Further, it is preferable to provide the sensor case main body 41 with a steadying member so as to prevent the signal cable 40k from shaking during movement.
[0015]
【The invention's effect】
As described above, the pulse wave detection means and the band for fixing the pulse wave detection means to the wrist are provided, and the pulse wave detection means is disposed inside the band along the length direction of the band. Since the pulse wave of the wearer is detected by being slidably mounted, the mounting position of the pulse wave detecting means can be easily adjusted. Therefore, an accurate pulse rate can be detected with a simple configuration.
In addition, since the positioning projection protruding from the case housing the pulse wave detecting means is provided at a position where the pulse wave detecting means can be seen through the band stop hole provided in the band, the pulse wave detecting means Can be securely mounted at a predetermined position. Furthermore, if the height of the protrusion is set to a height protruding from the band stop hole, it is possible to prevent displacement of the pulse wave detecting means during movement.
Further, by using the pulse wave detection device, a calculation means for counting the wearer's pulse rate based on the output of the pulse wave detection means, and a display means for displaying the counted wearer's pulse rate. Thus, a pulse rate detecting device capable of detecting and displaying an accurate pulse rate can be obtained.
Furthermore, in addition to the pulse counting function, a clock function is provided, the time can be displayed on the display means, and the time and pulse rate can be displayed on the display unit of the wristwatch. Can be easily confirmed.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a schematic configuration of a wristwatch with a pulse counting function provided with a pulse wave detection device according to an embodiment of the present invention.
FIG. 2 is a diagram showing a method for adjusting a mounting position of a pulse wave sensor according to the present embodiment.
FIG. 3 is a diagram showing a configuration of a pulse wave sensor according to the present embodiment.
FIG. 4 is a diagram showing a schematic configuration of a conventional pulse wave sensor.
[Explanation of symbols]
1 wrist, 2 wrist artery, 10 wristwatch with pulse counting function,
20 Watch part, 21 Display part, 30 Watch band, 30s Band stop hole,
40 pulse wave sensor, 40k signal cable, 41 sensor case body,
42 Transparent plate, 43 Light emitting element, 44 Light receiving element, 45 Locking part, 46 Projection part, 46m Marker.

Claims (11)

A pulse wave detection device comprising a pulse wave detection means and a band for fixing the pulse wave detection means to the wrist, wherein the pulse wave detection means is located inside the band along the length direction of the band. A pulse wave detection device characterized by being slidably mounted. The pulse wave detecting means includes a pair of light emitting elements and a light receiving element, and the reflected light from the light emitting element reflected from the artery of the wrist of the wearer is detected by the light receiving element to detect the pulse wave of the wearer. The pulse wave detection device according to claim 1, wherein the pulse wave detection device is a pulse wave sensor. 2. A positioning projection protruding from the case is provided at a position of the surface of the case of the pulse wave detecting means on the side of the band that can be seen from a band stop hole provided in the band. Or the pulse-wave detection apparatus of Claim 2. 4. The pulse wave detection device according to claim 3, wherein the protrusion is provided at a position corresponding to the best point of sensitivity of the pulse wave detection means. The pulse wave detection device according to claim 3 or 4, wherein a height of the protruding portion is a height protruding from the band stop hole. The pulse wave detection device according to any one of claims 3 to 5, wherein a marker for visually recognizing the position of the protrusion is provided on the top of the protrusion. 7. The pulse wave detection device according to claim 1, further comprising display means for displaying the magnitude of the output of the pulse wave detection means. The pulse wave detection device according to any one of claims 1 to 7, calculation means for counting a wearer's pulse rate based on an output of the pulse wave detection means, and the counted wearer's pulse rate And a display means for displaying the pulse rate. 9. The pulse rate detecting device according to claim 8, wherein the magnitude of the output of the pulse wave detecting means is displayed on the display means. The pulse rate detecting device according to claim 8 or 9, wherein the display means is attached to the band. 11. The pulse rate detection according to claim 8, further comprising a clock function in addition to the function of counting and displaying the pulse rate and displaying the time on the display means. apparatus.

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