JPH04129527A - Pulse wave measuring device - Google Patents

Abstract

PURPOSE:To improve the sensitivity in pulse wave detection by installing a pulse wave detecting sensor on a band, installing a mechanism which slides in the longitudinal direction of the band, facilitating the adjustment on a radius part, permitting the installation free from the generation of gap by utilizing the elasticity of the band, and allowing the sensor to be arranged on the palm side having a radius, even if the installation body is installed on the back part side of the hand on the band. CONSTITUTION:One edge of a sensor substrate 4 is connected with a lead wire 5, and serves to the connection with a pulse wave measuring machine body. As for a sensor 3 projecting from the top edge of a band 2, the sensor 3 can slide having the slit at the top edge of the band as guide, and is introduced and discharged from the top edge of the band. The slit and the substrate 4 are tightening-fitted in the degree so that dustproofness and waterproofness can be secured, and serve as the guide for holding a substrate and determines the direction for introducing and discharging the substrate. The band 2 installed at the other edge of the body 1 has a length superposed with the sensor 3, and is wound on a wrist part 12 in fitted state, by a bell cro tape 6, etc., at the top edge, thus pressing the sensor 3 on a radius.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an arm-type pulse wave measuring device that measures blood pressure and pressure pulse using a pulse wave detection sensor.

[Summary of the invention]

The present invention provides an arm-measurement type pulse wave measuring device comprising a pulse wave detecting sensor, a pulse wave calculation means, and a display means, in which the pulse wave detecting sensor slides along a belt that fixes the pulse wave measuring device to the arm. It has a mechanism that allows movement, and is intended to ensure the alignment of the arm artery and the sensor.

[Conventional technology]

A conventional wrist-type pulse wave measuring device is shown in FIG.

In the example shown in Fig. 4, a sensor electrically connected to the pulse wave calculation means is provided on the back side of the main body, and the pulsation is measured by pressing the sensor against the upper part of the artery in the wrist and tightening the wrist with a band. That's what I was doing.

For example, a conventional technique is disclosed in Japanese Utility Model Application Publication No. 58-188004.

Figure 5 shows a side view of a conventional arm-type pulse wave measuring device.
The installed state is shown in FIG. As shown in FIG. 6, there is a radial bone 11 on the palm side of the wrist and further on the thumb side, and an artery 10 protrudes below the skin above the side surface of the radial bone 11.
The side surface of the radius portion 11 is the location where pulse waves are most easily detected.

[Problem to be solved by the invention]

However, as shown in FIG. 5, in the conventional arm measurement type pulse wave measuring device, the pulse wave measuring device is pressed so that the sensor 3 provided on the back side of the main body 1 is pressed against the artery 10 on the side surface of the radius portion 11. When worn, a gap 13 is created between the radius portion 11 and the band 2, making the wearing state unstable and causing a problem in that pulse wave detection becomes unstable. In addition, the display surface of the main body 1 must be placed on the palm side, which is inconvenient for daily carrying and use.

[Means to solve the problem]

In order to solve the above problems, the present invention attaches a pulse wave detection sensor to a band and includes a mechanism that slides in the longitudinal direction of the hand IJ, making it easier to adjust to the radius, and utilizing the elasticity of the hand to close the gap. The sensor can be attached to the band on the back of the hand, but the sensor can be placed on the palm of the hand, where the radius is located.

[Effect]

In the arm-type pulse wave measuring device configured as described above, the sensor part slides and can be adjusted to the position of the individual's radius, and the elasticity of the band makes it stable to wear, and the sensor detection sensitivity can be improved.

Furthermore, since the main body can be attached to the 9 side of the hand and carried, it becomes easier to carry and the operability is improved.

〔Example〕

Embodiments of the present invention will be described below based on the drawings.

FIG. 1 is a sectional view showing a first embodiment of the present invention, and is a diagram showing a state in which a pulse wave measuring device is worn. The sensor 3 has an elastic substrate 4 provided in a hollow part inside the band 2.
attached to the tip of. The other end of the sensor board 4 is connected to a lead wire 5 passed through a hole formed in the side surface of the main body 1, and connected to the main body of the pulse wave measuring device.

The sensor 3 protruding from the tip of the band is slidable using a slit at the tip of the band as a guide, and has a structure in which it can be inserted and removed from the tip of the band.

The slit and the substrate 4 are tightly fitted to a degree that ensures dustproof and waterproof properties, and at the same time holds the substrate, it also serves as a guide for determining the direction of insertion and removal of the substrate.

The band 2 attached to the other end of the main body 1 has a length that overlaps with the sensor 3, and while pressing the sensor 3 against the radius, it is wrapped around the wrist 12 using a Velcro tape 6 or the like at its tip. It's supposed to stick.

FIG. 2 is a sectional view showing a second embodiment of the present invention, in which the slide guide of the sensor 3 is performed by a dovetail groove provided in the band 2.

FIG. 3 is a sectional view showing this dovetail groove.

A substrate 4 is connected to the upper part of the sensor 3, and the outer periphery has a groove. The narrow portion of the band 2, which has a U-shaped cross section, engages with the groove of the sensor and holds the sensor 3. This dovetail groove is formed along the longitudinal direction of the band, and the sensor 3 can slide along this dovetail groove. Further, at this time, the substrate 4 connected to the sensor 3 passes through the slit of the band and is connected to the lead wire 5 within the band. The slit and the substrate 4 have the same fit as in the first embodiment.

FIG. 4 is a sectional view showing a third embodiment of the present invention, showing a structure in which the side surface of the band 2 is used as a guide for the sensor crimp 7 in which the sensor 3 is embedded, and has a sliding function. At this time, the lead wire 8 connecting the main body and the sensor clip 7 is stored under the band 3, and the lead &! i!
Consideration has been taken to ensure that the slack at No. 8 does not get caught.

Further, it is also possible to mount a battery, a pulse wave detection circuit, etc. on the sensor clip 6 separately from the main body. Furthermore, if one end of the lead wire 8 is a plug, it can be separated from the main body, and the sensor clip 7 can be carried only when necessary.

[Effects of the Invention] The present invention has a structure in which a pulse wave detection sensor is incorporated into a heald via a slidable mechanism in a standard arm-side pulse wave measuring device, thereby making it possible to align the sensor with an artery in the arm. Since this can be done reliably, it has the effect of improving the sensitivity of pulse wave detection. Additionally, since it is attached to the sensor band, it is stable to wear and has good portability.

[Brief explanation of drawings]

Fig. 1 is a sectional view showing a first embodiment of the present invention, Fig. 2 is a sectional view showing a second embodiment of the invention, Fig. 3 is a sectional view of a dovetail groove, and Fig. 4 is a sectional view of the invention. FIG. 5 is a side view of a conventional arm-measuring type pulse wave measuring device, and FIG. 6 is a diagram showing how the conventional arm-measuring type pulse wave measuring device is worn. . l...Main body 2...Band 3...Sensor 4...Board 5...Lead wire 6...Herculo tape 7...Sensor clip 8...Lead wire 10...Artery 1] ...Radius 12...above the wrist

Claims (3)

[Claims] (1) An arm measurement type pulse wave measuring device that has a pulse wave detection sensor and measures blood pressure or pressure pulse, comprising: a band having a sensor guide section that holds the sensor movably in the longitudinal direction of the band; and the sensor. A pulse wave measuring device characterized by having a sensor slidably held in a guide section. (2) The pulse wave measuring device according to claim 1, further comprising: a board that holds the sensor and is slidably held; a band that has a board guide section that slidably guides the board; and a band that includes the sensor fixed to the board. Pulse wave measurement equipment. (3) The pulse wave measuring device according to claim 1, further comprising: a band having a sensor guide portion on its outer periphery; a sensor clip fixing a sensor movably supported by the sensor guide portion; and connecting the sensor and the main body. A pulse wave measuring device that has a transmission means for