JP2004305629A - Apparatus for detecting pulse wave - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an apparatus for detecting a pulse wave in which a position of a pulse wave sensor is hardly slipped out when a wrist is moved. <P>SOLUTION: The pulse wave sensor 202 is positioned at a position facing an artery C on the radius A side of a user by stretching a stretching/contracting part 106 of a band 108 in accordance with a size of the wrist of the user, and facing a skidproof part 203 to an outside part D of the radius A and facing another skidproof part 204 to an outside part E of the cubitus B. Then, an unstretching/contracting part 107 of the band 108 is inserted through an inserting frame 105, and Velcro tapes 109 and 110 are stuck together. The pulse wave sensor 202 is held thereby by a stretching/contracting force of the stretching/contracting part 106 under a condition that it is pushed to the artery C side to be able to detect the pulse wave from the artery C of the wrist with good accuracy. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a pulse wave detection device having a function of detecting a pulse wave of a subject.
[0002]
[Prior art]
Conventionally, a pulse wave detection device having a function of detecting a pulse wave of a subject has been developed. In the pulse wave detection device, a pulse wave sensor is attached to the wrist of the person to be measured, the pulse wave detected by the pulse wave sensor is sampled, and the sampled signal is subjected to Fourier transform processing, whereby the pulse rate of the person to be measured is measured. It is configured to obtain biological information such as blood pressure and blood pressure.
In order to detect a pulse wave from an artery on the radial side of the wrist, a structure for fixing a pulse wave sensor at a position facing the artery is used.
[0003]
By attaching the band to which the pulse wave sensor is attached to the wrist, the pulse wave sensor is fixed at the pulse wave detection position facing the artery of the wrist. As the band holding the pulse wave sensor, an elastic member is used, and the pulse wave sensor is brought into contact with the wrist at a constant pressure (for example, see Patent Document 1).
As a result, the pulse wave sensor is held at the pulse wave detection position and the pulse wave can be detected from the artery of the wrist, making it possible to perform pulse wave detection without any problem for static measurement without moving the wrist become.
[0004]
[Patent Document 1]
JP 2001-353133 A (Page 3, FIG. 1)
[0005]
[Problems to be solved by the invention]
However, since the thickness of the wrist varies from person to person, the position of the band shifts when the wrist is moved. Due to the band displacement, the pulse wave sensor is also displaced from the pulse wave detection position, and there is a problem that measurement cannot be performed after the wrist is moved.
FIG. 9 is a diagram showing pulse wave signals detected and output by the pulse wave sensor before and after moving the wrist. As shown in FIG. 9, a pulse wave signal is detected by the pulse wave sensor in a resting state where the wrist is not moved, but in a state where the wrist is moved, the signal becomes a signal containing a large noise component and the state is restored again. Sometimes, the position of the pulse wave sensor is shifted from the pulse wave detection position, so that the pulse wave signal cannot be detected.
In addition, in order to accurately detect a pulse wave, it is necessary to accurately arrange a pulse wave sensor at a pulse wave detection position. However, in the invention described in Patent Document 1, the pulse wave sensor is positioned at the pulse wave detection position by a band. There is a problem that it is cumbersome to hold the wrist in an accurately aligned state.
[0006]
An object of the present invention is to provide a pulse wave detection device in which the position of a pulse wave sensor is hard to shift even when a wrist is moved.
Another object of the present invention is to provide a pulse wave detection device that can easily position and hold a sensor at a pulse wave detection position.
[0007]
[Means for Solving the Problems]
According to the present invention, a pulse wave sensor having a pulse wave sensor and a band to which the pulse wave sensor is attached, and a pulse wave from an artery is detected by the pulse wave sensor by attaching the band to a wrist. In the wave detection device, at least a part of the band is constituted by a telescopic part that can be extended and contracted, and the pulse wave sensor is attached to the telescopic part, and a pair of non-slip parts is provided on both sides of the pulse wave sensor in the telescopic part. The pulse wave detecting device is provided. The non-slip portion suppresses the displacement of the band and, consequently, the displacement of the pulse wave sensor, and performs highly accurate pulse wave detection.
[0008]
Here, when the pulse wave sensor is located at the pulse wave detection position facing the artery of the wrist, the pair of non-slip portions are attached to the band so as to be located opposite to the outer portion of the radius and the ulna, respectively. You may comprise so that it may be provided.
Further, the pulse wave sensor may be configured to be provided at a position that divides the distance between the pair of non-slip portions into one to two and one to three.
Further, the pair of non-slip portions may be configured to be provided at both end portions of the elastic portion.
[0009]
In addition, the apparatus has a pulse wave detection device main body that displays a pulse rate based on a signal detected by the pulse wave sensor, and the pulse wave sensor and the pulse wave detection device main body are configured to be attached to the same band. You may.
In addition, the apparatus has a pulse wave detection device main body that displays a pulse rate based on a signal detected by the pulse wave sensor, and the pulse wave detection device main body and the pulse wave sensor are attached to different bands, respectively. You may comprise.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
FIGS. 1, 2, and 3 are a front view, a rear view, and a side view, respectively, showing a state in which the pulse wave detection device according to the first embodiment of the present invention is worn on a user's wrist. The first embodiment is an example in which the main body of the pulse wave detector and the pulse wave sensor are integrally provided in one band.
1 to 3, the pulse wave detection device is connected to the pulse wave detection device main body 101 by a pulse wave detection device main body 101, a display unit 102, an operation unit 103, an electric cable 104, an insertion frame 105, a band 108, and an electric cable 104. A pulse wave sensor 202 that is electrically connected and detects a pulse wave of a human body is provided.
[0011]
The pulse wave detection device main body 101 is configured to receive a pulse wave of a human body detected by the pulse wave sensor 202 via the electric cable 104 and to display a pulse rate and the like on the display unit 102. The pulse wave detecting device 101 is operated by a built-in battery, and a battery cover 201 for battery replacement is provided on the back side thereof. In the first embodiment, the main body 101 of the pulse wave detecting device has a clock function, and the time can be displayed on the display unit 102.
The operation unit 103 has a function of switching the display on the display unit 102 to a time or a pulse rate. The electric cable 104 electrically connects the pulse wave sensor 202 and the main body 101 of the pulse wave detection device.
[0012]
The band 108 includes an elastic portion 106 formed of an elastic member, and a non-elastic portion 107 formed of a non-elastic member. Velcro tapes 109 and 110 are integrally provided on the front sides of the elastic portion 106 and the non-elastic member 107, respectively.
A pulse wave sensor 202 and a pair of non-slip portions 203 and 204 are integrally provided on the back side of the elastic portion 106. As a material forming the non-slip portions 203 and 204, for example, a silicon-based material, a rubber-based material, or the like can be used, and a foam material can also be used. The pulse wave sensor 202 includes a first non-slip portion 203 provided on the pulse wave detection device main body 101 and a second non-slip portion 204 provided on the side remote from the pulse wave detection device main body 101. It is located between them. The ratio of the distance L1 between the non-slip portion 203 and the pulse wave sensor 202 to the distance L2 between the pulse wave sensor 202 and the non-slip portion 204 is set in a range of 1: 2 to 1: 3.
[0013]
When the pulse wave detection device configured as described above is worn on the wrist of the user, the telescopic portion 106 of the band 108 is extended according to the thickness of the wrist of the user, and the non-slip portion 203 of the bone A is removed. The non-slip portion 204 is made to face the outer portion E of the ulna B while facing the outer portion D. That is, when the band 108 is worn on the wrist, the distance between the non-slip portions 203 and 204 is maximized.
The ratio of the distance L1 between the non-slip portion 203 and the pulse wave sensor 202 to the distance L2 between the pulse wave sensor 202 and the non-slip portion 204 is set in a range of 1: 2 to 1: 3. According to the statistics of the inventor of the present application, if L1 and L2 are in the above-mentioned ratio, the pulse wave sensor 202 is located at a position (pulse wave detection position) facing the artery C on the radius A side of the user. become.
[0014]
In this state, after passing the non-stretchable portion 107 of the band 108 through the insertion frame 105, the Velcro tape 109 and the Velcro tape 110 are attached. As a result, the pulse wave sensor 202 is placed at the pulse wave detection position, is held in a state of being pressed against the artery C by the expansion and contraction force of the expansion and contraction unit 106, and can accurately detect the pulse wave from the artery C on the wrist. Will be possible. Therefore, by attaching the band 108 with the non-slip portions 203 and 204 facing the outer portion D of the radius A and the outer portion E of the ulna, respectively, the pulse wave sensor 202 can be easily positioned at the pulse wave detection position. It is possible to hold in the state in which it is performed.
[0015]
Further, in the pulse wave detecting device, since the slip from the mounting position is suppressed by the non-slip portions 203 and 204, as shown in FIG. The signal can be detected accurately. That is, in FIG. 4, a pulse wave signal is detected in a resting state in which the wrist is not moved, and in a state in which the wrist is moved, a signal including a noise component (a noise component smaller than that in FIG. 9) is included. Then, the pulse wave signal is detected again.
[0016]
FIG. 5 is a front view of the pulse wave detection device according to the second embodiment of the present invention. FIGS. 6 and 7 are a front view and a rear view, respectively, showing the pulse wave sensor side in the pulse wave detection device according to the second embodiment of the present invention. FIG. 8 is a side view of a state in which the pulse wave detection device according to the second embodiment is worn on a user's wrist. Note that the first embodiment is an example in which the main body of the pulse wave detection device and the pulse wave sensor are integrally provided in one band, but the second embodiment is the main body of the pulse wave detection device. And a pulse wave sensor are attached to different bands.
[0017]
5 to 8, the pulse wave detection device includes a pulse wave detection device main body 501, a display unit 502, an operation unit 503, an electric cable 504, a main body band 506 to which the pulse wave detection device main body 501 is attached, and an electric cable 504. A pulse wave sensor 505 that is electrically connected to the pulse wave detection device main body 101 to detect a pulse wave of a human body, and a sensor band 512 to which the pulse wave sensor 505 is attached.
The pulse wave detection device main body 501 receives a pulse wave of a human body detected by the pulse wave sensor 505 via the electric cable 504, calculates a pulse rate and the like based on the pulse wave signal, and displays it on the display unit 502. Is configured. The pulse wave detecting device main body 501 is operated by a built-in battery as in the first embodiment. Note that the main body 501 of the pulse wave detection device has a clock function, and can display time on the display unit 502.
[0018]
The operation unit 503 has a function of switching the display unit 502 between time display and pulse rate display. The electric cable 504 electrically connects the pulse wave sensor 505 and the pulse wave detection device main body 501.
The main body band 506 is provided with a beautiful lock having an insertion frame 507 and a protruding bar 508 at one end thereof, and an engagement hole 509 for inserting the protruding bar 508 at the other end thereof. When the main body 501 of the pulse wave detection device is mounted on the wrist, the band is inserted into the insertion frame 507 and the protruding bar 508 is inserted into the engagement hole 509.
[0019]
On the other hand, the sensor band 512 includes an elastic portion 510 configured by an elastic member, a non-elastic portion 511 configured by a non-elastic member, and an insertion frame 515 provided at an end of the elastic portion 510. Have been. Velcro tapes 701 and 702 are integrally provided on the front surfaces of the elastic portion 510 and the non-elastic member 511, respectively.
A pulse wave sensor 505 and a pair of non-slip portions 513 and 514 are integrally provided on the back side of the elastic portion 510. The pulse wave sensor 505 includes a first non-slip portion 514 disposed on a side remote from the non-expandable portion 511 (closer to the insertion frame 515) and a second anti-slip portion disposed on the non-expandable portion 511 side. The unit 513 is disposed between the unit and the unit 513. The ratio of the distance L1 between the non-slip portion 514 and the pulse wave sensor 505 to the distance L2 between the pulse wave sensor 505 and the non-slip portion 513 is set in a range of 1: 2 to 1: 3.
[0020]
When the pulse wave detection device configured as described above is worn on the wrist of the user, the pulse wave detection device body 501 is worn using the body band 506.
The pulse wave sensor 505 is attached using the sensor band 512. At this time, the telescopic portion 510 of the band 512 is extended according to the thickness of the wrist of the user, and the non-slip portion 513 is positioned at the wrist position. The non-slip portion 514 faces the outer portion D of the ulna B while facing the outer portion D of the radius A. That is, when the band 512 is worn on the wrist, the distance between the non-slip portions 513 and 514 is set to be the longest. Since the ratio of the distance L1 between the non-slip portion 514 and the pulse wave sensor 505 to the distance L2 between the pulse wave sensor 505 and the non-slip portion 513 is set in a range of 1: 2 to 1: 3, In this state, the pulse wave sensor 505 comes to a position (pulse wave detection position) facing the artery C on the radius A side of the user.
[0021]
In this state, after passing the non-stretchable portion 511 of the band 512 through the insertion frame 515, the Velcro tape 701 and the Velcro tape 702 are attached. As a result, the pulse wave sensor 505 is held in a state where it is pressed against the artery C by the expansion and contraction force of the expansion and contraction unit 510, and the pulse wave can be accurately detected from the artery C on the wrist. Therefore, by attaching the band 512 with the non-slip portions 513 and 514 facing the outer portion D of the radius A and the outer portion E of the ulna, the pulse wave sensor 505 can be easily positioned at the pulse wave detection position. It is possible to hold in the state in which it is performed.
Further, in the pulse wave detecting device, since the slip from the mounting position is suppressed by the non-slip portions 513 and 514, the pulse wave sensor 505 detects the position from the pulse wave detecting position in the same manner as in the first embodiment. Since the displacement can be suppressed, the pulse wave signal can be accurately detected by resting again after moving the wrist.
[0022]
As described above, according to the pulse wave detection device according to each of the above-described embodiments, the pair of non-slip portions 203 and 204 are attached to the surfaces of the bands 108 and 512 to which the pulse wave sensors 202 and 505 are attached, in contact with the wrists. Since the 513 and 514 are provided, there is an effect that the positions of the pulse wave sensors 202 and 505 are not easily shifted when the wrist is moved.
When the pulse wave sensors 202 and 505 are located at the pulse wave detection position facing the artery C of the wrist, the pair of non-slip portions 203, 204, 513, and 514 respectively include the radial portion and the outer portion D of the ulna. Since the bands 108 and 512 are provided on the bands 108 and 512 so as to face E, the pulse wave sensors 202 and 505 can be mounted on the wrist by adjusting the positions of the non-slip portions 203, 204, 513 and 514. Are automatically arranged at the pulse wave detection position, and the positioning of the pulse wave sensors 202 and 505 can be easily performed.
[0023]
If the non-slip portions 203, 204, 513, and 514 are not provided, the band is strongly tightened more than necessary to prevent the band from being displaced. However, by providing the non-slip portions 203, 204, 513, and 514 as in the above-described embodiments, the sensor 202 does not shift for a long time even after exercising with an appropriate tightening force. , 505 are held at the pulse wave detection position, so that it is possible to suppress a decrease in the pulse wave signal and the occurrence of pressure on the arm.
[0024]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, there exists an effect that the position of a pulse-wave sensor does not shift easily when a wrist is moved.
Further, according to the present invention, it is possible to easily position the pulse wave sensor at the pulse wave detection position.
[Brief description of the drawings]
FIG. 1 is a front view of a pulse wave detection device according to a first embodiment of the present invention.
FIG. 2 is a rear view of the pulse wave detecting device according to the first embodiment of the present invention.
FIG. 3 is a side view showing a use state of the pulse wave detection device according to the first embodiment of the present invention.
FIG. 4 is a diagram showing a pulse wave signal detected by the pulse wave detection device according to the first embodiment of the present invention.
FIG. 5 is a front view of a pulse wave detection device according to a second embodiment of the present invention.
FIG. 6 is a front view showing a pulse wave sensor side in a pulse wave detection device according to a second embodiment of the present invention.
FIG. 7 is a rear view showing a pulse wave sensor side in a pulse wave detection device according to a second embodiment of the present invention.
FIG. 8 is a side view showing a use state of a pulse wave detection device according to a second embodiment of the present invention.
FIG. 9 is a diagram showing a pulse wave signal detected by a conventional pulse wave detection device.
[Explanation of symbols]
101, 501: Pulse wave detector main body 102, 502: Display unit 103, 503: Operation unit 104, 504: Electric cable 106, 510: Telescopic unit 107, 511: Non Bands 109, 110, 701, 702 Velcro tapes 202, 505 Pulse wave sensors 203, 204, 513, 514 Non-slip sections

Claims (6)

A pulse wave sensor and a pulse wave detection device having a band to which the pulse wave sensor is attached, and a pulse wave from an artery detected by the pulse wave sensor by attaching the band to a wrist,
At least a part of the band is constituted by an extendable stretchable portion,
A pulse wave detection device, comprising: attaching the pulse wave sensor to the expandable portion; and providing a pair of non-slip portions on both sides of the pulse wave sensor in the expandable portion. When the pulse wave sensor is located at the pulse wave detection position facing the artery of the wrist, the pair of non-slip portions are provided on the band so as to be located opposite to the radius and the outer portion of the ulna, respectively. The pulse wave detection device according to claim 1, wherein The pulse wave sensor according to claim 1, wherein the pulse wave sensor is provided at a position that divides a distance between the pair of non-slip portions into one to two and one to three. The pulse wave detection device according to any one of claims 1 to 3, wherein the pair of non-slip portions are provided at both end portions of the elastic portion. A pulse wave detection device main body that displays a pulse rate based on a signal detected by the pulse wave sensor, wherein the pulse wave sensor and the pulse wave detection device main body are attached to the same band. Item 5. The pulse wave detection device according to any one of Items 1 to 4. A pulse wave detection device main body that displays a pulse rate based on a signal detected by the pulse wave sensor, and the pulse wave detection device main body and the pulse wave sensor are each attached to a different band. The pulse wave detection device according to any one of claims 1 to 4.

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