KR200278413Y1 - Array sensing device for measuring pulse wave - Google Patents

Abstract

The present invention relates to an array sensor device for pulse wave measurement, comprising a sensor housing (20) detachably connected to an interface connector (10) to a cable (C) of a computer, the inner wall of the sensor housing (20) The plurality of semiconductor pressure cells 22 are fixedly installed at predetermined intervals in the row direction and the column direction, respectively, and silicon 23 is coated on the semiconductor pressure cells 22 to form pulse wave using a semiconductor pressure cell. Accurate data can be obtained even when the wrist is measured for measurement, and multiple sensors are gathered to obtain data that can realize the thickness of the Mac and the three-dimensional vein.

Description

Array sensor device for pulse wave measurement {Array sensing device for measuring pulse wave}

The present invention relates to a sensor device for measuring the pulse wave of the human body, and more particularly to a sensor device for pulse wave measurement to be used in the pulsar and pulsator.

In general, the pulse of Chinese medicine is to diagnose the condition of the five intestinal muscles of the human body by measuring the pulse wave of the patient while applying pressure after applying three fingers on the radial artery, and various measuring instruments have been developed to measure the pulse wave.

The sensor using the change in capacitance used in the existing rare and the pulse pulverizer has a problem in the precision and various analysis of the vein of 27 to 28 veins due to sensitivity and size constraints.

In addition, the optical fiber sensor for measuring the pulse wave using the amount of change in light amount is not only complicated structure and bulky, but also difficult to pressurize, there is a problem that generates a severe noise.

In addition, since the film pressure sensor has a small cell size but a signal of a pressing force, the film type pressure sensor cannot be used for pulsation.

In addition, the infrared sensor used to measure the volumetric pulse is impossible to measure on the details of the village, tube, and chuck, and cannot be pressurized, so it can only show the elasticity of blood vessels through the flow of blood, which is not the same as the medical pulse. There was a problem with parameter mismatch in.

On the other hand, in Chinese medicine, the vein usually promotes the radial artery of the thumb from the inner side of the wrist, and the number of rhythms, rhythm, size, and duration of the vein can be used to determine the function of the heart or artery, and the radial artery is the upper arm. Divide from the artery and extend towards the periphery along the outside of the forearm.

The present invention has been made to solve the above problems, and provides a pulse sensor array sensor device having a plurality of semiconductor pressure cells to show the parameters of the thickness of the pulse wave and the pulse image in three dimensions. Has its purpose.

The present invention for achieving the above object is provided with a sensor housing detachably connected to an interface connector to a cable of a computer, a plurality of semiconductor pressure cells on the inner wall of the sensor housing in a row direction and a column direction It is fixedly installed at predetermined intervals, and silicon is coated on top of the semiconductor pressure cells.

Therefore, through the plurality of semiconductor pressure cells, it is possible to measure the thickness of the radial artery and the pulse wave to obtain a three-dimensional pulse image.

1 is an exploded perspective view showing an array sensor device for pulse wave measurement according to the present invention;

Figure 2 is a side cross-sectional view showing an array sensor of the present invention,

3 is a cross-sectional view showing an array sensor of the present invention,

Figure 4 is a side view showing a state of use of the subject innovation,

Figure 5 is a perspective view showing a three-dimensional pulse wave implemented using the pulse wave array sensor device according to the present invention.

Explanation of symbols on the main parts of the drawings

1: pulse wave measuring instrument C: cable

10 interface connector 11 socket portion

20: sensor housing 21: terminal

22 semiconductor pressure cell 23 silicon

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing an array sensor device for pulse wave measurement according to the present invention, Figure 2 is a side cross-sectional view showing the array sensor of the present invention, Figure 3 is a cross-sectional view showing the array sensor of the present invention, Figure 4 is the present invention Side view showing the state of use.

Pulse wave array array sensor device according to the present invention, the interface connector 10 is connected to the computer by a cable (C), and the sensor housing 20 is detachably coupled to the interface connector (10).

The interface connector 10 is electrically connected to a computer through a cable C, and a plurality of socket portions 11 are formed through one side thereof.

The sensor housing 20 has a plurality of terminals 21 thereon, is detachably coupled to the socket portion 11 of the interface connector 10, and has a plurality of semiconductor pressure cells 22 therein. Doing.

The socket portion 11 serves to receive and electrically connect the terminals 21 of the sensor housing 20, and the terminals 21 of the sensor housing 20 are inserted and coupled to each other.

Accordingly, as shown in FIG. 4, the interface connector 10 is hinged to the lower portion of the pulse wave measuring instrument 1, and the sensor housing 20 is connected to the socket portion 11 of the interface connector 10. Detachable coupling allows accurate measurement at a constant pressure on the wrist radial artery of the subject.

In addition, the interface connector 10 and the sensor housing 20 can be easily separated, and the interface connector 10 and the pulse wave measuring device 1 can be easily separated and replaced and repaired in case of failure. 10 is rotatably hinged to the pulse wave measuring instrument 1 so that it can be rotated arbitrarily according to the curvature of the wrist to be in close contact with the upper surface of the radial artery.

The semiconductor pressure cell 22 serves to measure pulse waves by applying pressure to the radial artery of the wrist, and is fixed to the inner wall of the sensor housing 20 at predetermined intervals in a row direction and a column direction. .

That is, as shown in Figure 3, the semiconductor pressure cells 22 are arranged in a row direction and a column direction at intervals of about 1 mm from each other to measure a plurality of pulse waves appearing in the wrist radial artery having a size of about 2 mm. It is possible to transmit a plurality of measured pulse waves to the computer through the interface connector 10 to represent a three-dimensional vein as shown in FIG. 5 so that the thickness of the radial artery can be clearly known. Through this will be able to diagnose abnormalities of the five viscera of the human body.

As shown in FIG. 2, the semiconductor pressure cells 22 have silicon 23 coated thereon.

The silicon 23 serves to support the semiconductor pressure cells 22. The silicon 23 is elastically deformed even when the semiconductor pressure cell 22 presses a wrist and a reaction force is applied to the semiconductor pressure cell 22. .

As described above, according to the pulse wave array sensor device according to the present invention, accurate data can be obtained even by pressing a wrist for measurement of pulse wave using a semiconductor pressure cell, and a plurality of sensors are aggregated so that the thickness of the Mac is measured. And it is effective to get data that can realize 3D vein.

Claims (2)

In the Chinese medicine, pulse wave measurement sensor device is applied to the computer via a cable (C) by applying pressure to the radial artery of the wrist to obtain a visually visible pulse at the time of pulse A sensor housing 20 is detachably connected to the cable C as an interface connector 10, and a plurality of semiconductor pressure cells 22 are arranged in an inner wall of the sensor housing 20 in a row direction and a column direction. Each of which is fixedly installed at predetermined intervals, and the array sensor device for pulse wave measurement, characterized in that the silicon (23) is applied to the upper portion of the semiconductor pressure cells (22). The socket housing 11 of claim 1, wherein the sensor housing 20 has a plurality of terminals 21 thereon, and the interface connector 10 accommodates the terminals 21 of the sensor housing 20. Pulse sensor array sensor device characterized in that it further comprises).