KR101576362B1 - Diagnostic Tester of Pulse - Google Patents

Abstract

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a pulse wave device, and more particularly, to a pulse wave device that can adjust the position of a venous sensor by moving a venous sensor while wrapping a wrist portion of the examinee through a cuff member and an air bladder, It is possible to easily move the position of the venous sensor to the correct venous point using the position adjusting means even if the position of the venous sensor is changed in the process of wrapping the venous site or the position of the venous sensor is changed by the movement of the examinee during the venous procedure Thereby providing a pulsation device capable of performing the blood vessel process more conveniently and accurately.

Description

{Diagnostic Tester of Pulse}

The present invention relates to a pulse device. More particularly, the present invention relates to a method of controlling a position of a venous sensor by moving a venous sensor while wrapping a wrist of an examinee through a cuff member and an air bag, thereby controlling the position of the venous sensor, The position of the venous sensor can be easily moved to the correct venous point by using the position adjusting means even if the position of the venous sensor is changed by changing the position of the venous sensor or by the movement of the examinee during the venous process, Which can conveniently and precisely perform a vein process.

In general, in Oriental medicine, each person has different face and personality, and the person 's constitution is different. Therefore, the food to be consumed should be different according to the constitution.

Currently, in the oriental medicine field, human constitution is divided into four constitutions classified by genetic factors or 8 constitutions which are further subdivided into four constitutions.

In this way, there are various methods of classifying and diagnosing the human constitution. First, the constitution of a person can be roughly discriminated by classifying human body type, and discrimination is made using information on personality or impression. In addition, it often identifies the constitution by analyzing the pathological symptoms that often appear. The constitution discrimination using these methods is usually carried out by a method of naturally grasping through dialogue or using a questionnaire such as a constitutional classification test. In addition, it can be said that diagnosis, diagnosis, and diagnosis of a person's pulse (pulse), discrimination by acupuncture treatment, and reaction through muscle strength examination are representative methods of differentiating and diagnosing the constitution.

Among the various methods for diagnosing the above-mentioned constitution, in general, a method used to diagnose the constitution in Oriental medicine is a method of discriminating the constitution through the touch of the vein, that is, the radial artery. Specifically, the radial artery of the wrist part of the examinee And is performed in such a manner that the examinee's pulse wave is detected.

The pulse wave from the arterial blood vessel, which is a three-dimensional structure, is not only a time series signal but also has a three-dimensional characteristic. That is, since it has the intensity of the pulse wave due to the pressurization, the width of the pulse wave (width of the transverse side where the pulse wave is detected), and the length of the pulse wave (length of the longitudinal axis of the blood vessel where the pulse wave is detected). In addition, since it is necessary to measure the three-dimensional characteristics of the reproducible pulse wave by appropriately fixing the blood vessel in the atypical peripheral shape composed of bones, ligaments, muscles, and skin, There was a problem that it was very difficult for the doctors who did not have many, and the accuracy was not accurate.

Therefore, in order to solve the inaccuracies of such a vein, recently, a pulsation device has been developed, which objectifies the senses of the examinee and sets them as a standard.

The conventional pulse wave device includes a fixing band that wraps around the wrist of a examinee, an air bag that is mounted inside the fixing band, and a pressure sensor that is mounted on the inner surface of the air bag and presses the skin of the examinee by the air pressure of the air bag. The pulse wave sensor detects the pulse wave of the examinee and processes the detected signal through the pulse wave sensor to measure the pulse wave of the examinee.

However, it is very difficult to place the venous sensor at the correct position during the process of wearing the fixed band on the wrist of the examinee. In particular, in the process of detecting the pulse wave of the examinee, There is a problem that it is very difficult and inconvenient to detect a pulse wave at an accurate pulse point. In recent years, a robotic device has been developed to solve such a problem and to improve the accuracy of a vein, but it is not only expensive equipment but also a large size and complicated operation.

Korean Patent No. 10-1006955

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art, and it is an object of the present invention to provide a blood pressure monitor which can adjust a position of a vein sensor by moving a vein sensor in a state of wrapping a wrist part of an examinee through a cuff member and an air bag The position of the venous sensor is changed in the process of wrapping the subject's wrist using a cuff member or the like, or even if the position of the venous sensor is changed due to the movement of the subject in the course of the venipuncture, The position can be easily moved to the correct position of the vena cava, thereby enabling a more convenient and accurate procedure.

The present invention relates to a cuff member which is formed so as to cover a wrist part of an examinee; An air bag formed to be able to receive air pressure from a separate air pump and mounted on an inner surface of the cuff member; A sensor module mounted on an inner surface of the air bag, the sensor module including a vein sensor for detecting a pulse wave of the examinee; And position adjusting means for adjusting the position of the venous sensor by moving the venous sensor by a predetermined interval.

At this time, the sensor module includes a fixed plate fixedly mounted on an inner surface of the air bag, and having a guide rail formed at one side thereof; And a movable plate movably coupled along the guide rail, wherein the venous sensor is coupled to the movable plate.

Further, the movable plate may be formed of a flexible material capable of bending deformation.

The pulsator device may further include a cover member coupled to the air bag and surrounding the outer exposed surface of the sensor module, wherein the venous sensor is configured to be in pressure contact with the skin of the examinee through the cover member .

The position adjusting means may include a pulling wire having one end coupled to both ends of the movable plate in the moving direction of the movable plate and the other end being pulled out through the cuff member, And may be configured to be able to move the venous sensor for a predetermined interval by being pulled from the outside.

A pull band may be coupled to the other end of the pull wire located outside the cuff member.

The position adjusting means may further include a guide ring for guiding the disposing path of the pulling wire such that the pulling direction of the pulling wire is parallel to the moving direction of the movable plate or an angle between the pulling wires is less than 45 degrees can do.

According to the present invention, the position of the venous sensor can be adjusted by moving the venous sensor while the wrist part of the examinee is wrapped around the cuff member and the air bag. Thus, by wrapping the wrist of the examinee with the cuff member or the like The position of the venous sensor can be easily moved to the correct venous point by using the position adjusting means even if the position of the venous blood sensor is changed by the movement of the examinee in the course of the venipuncture, It is more convenient and accurate to carry out the step process.

FIG. 1 is a perspective view schematically showing a wear state of a beating device according to an embodiment of the present invention, FIG.
FIG. 2 is a partially exploded perspective view schematically showing a configuration of a pulse cutting apparatus according to an embodiment of the present invention. FIG.
FIG. 3 is a cross-sectional view schematically showing an internal structure of a pulse cutting apparatus according to an embodiment of the present invention, FIG.
4 is an operational state diagram schematically showing an operation state of the pulse pulse generator according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

2 is a partially exploded perspective view schematically showing a configuration of a pulse-width modulation apparatus according to an embodiment of the present invention. FIG. 2 is a perspective view of the pulse- 3 is a cross-sectional view schematically showing an internal structure of a pulse-width modulation apparatus according to an embodiment of the present invention, and FIG. 4 is an operational state diagram schematically illustrating an operation state of a pulse-width modulation apparatus according to an embodiment of the present invention.

The pulsator device according to an embodiment of the present invention is configured to wrap around the wrist of an examinee. In this state, the position of the pulse sensor for detecting the pulse wave of the examinee can be adjusted, The apparatus includes a cuff member 100, an air bag 200, a sensor module 300, and a position adjusting means 400.

The cuff member 100 is formed so as to wrap around the part of the examinee's wrist 10 and may be formed by winding the wrist 10 around one or more turns or wrapping a part of the wrist 10 And the like. The cuff member 100 is not a simple rubber band, but may be configured to be freely changed in shape by applying an external force of a predetermined size or more according to an embodiment of the present invention, ≪ / RTI > For example, it can be composed of a soft resin product of a soft material or a thin sheet metal product, and the process of wrapping the wrist part of the examinee through the free shape changing structure can be performed more easily, It is possible to carry out the work of the podium.

The air bag 200 is formed to be able to receive air pressure from a separate air pump (not shown) through the air pressure supply hose 210, and is mounted on the entire inner side or a part of the inner side of the cuff member 100. The air bag 200 is inflated by the air pressure to press the sensor module 300 to be pressed against the wrist of the examinee, and at the same time, the entire device including the sensor module 300 is pressed by the wrist Thereby stably fixing the liquid to the site.

The sensor module 300 is mounted on the inner surface of the bladder 200 and includes a vein sensor 330 for detecting a pulse wave of the examinee. That is, the sensor module 300 is pressed toward the wrist of the examinee by the air pressure of the air bag 200 on the arrangement structure. At this time, the venous sensor 330 of the sensor module 300 presses the skin of the examinee . Of course, the quick axis sensor 330 may directly contact the skin of the examinee, but may indirectly contact the skin of the examinee through a separate cover member 500. [

Since the sensor module 300 is formed in such a manner that the pressing force of the sensor module 300 on the examinee's wrist is different according to the air pressure of the air bag 200, the examiner adjusts the air pressure of the air bag 200, You will be able to control it.

Meanwhile, the information detected by the sensor module 300, more specifically, the chamfer sensor 330 is transmitted to a separate data processing device (not shown) through the data cable 340, And output information of the examiner to the examiner.

The position adjusting unit 400 is configured to adjust the position of the venous sensor 330 of the sensor module 300 by moving the venous sensor 330 by a predetermined distance. At this time, the position adjusting means 400 can adjust the position of the sensor module 300 even when the sensor module 300 is in contact with the wrist of the examinee due to the air pressure of the air bag 200.

The pulsation device according to an embodiment of the present invention may include the position adjusting means 400 in a state in which the air bag 200 and the sensor module 300 are wound around the wrist of the examinee with the cuff member 100, It is possible to adjust the position of the minute hand sensor 330 and to perform more accurate chin work.

That is, in the conventional pulse wave devices, the position of the pulse signal sensor is changed in the course of winding a separate rubber band or the like around the wrist part of the examinee, or the pulse sensor is moved by the motion of the examinee. It is very difficult to accurately maintain the position of the cuff member 100 and the accuracy of the vein is very inaccurate. However, the pulse device according to the embodiment of the present invention is effective in that the cuff member 100 and the air bladder 200 are placed on the examinee's wrist The position of the angular sensor 330 can be adjusted through the position adjusting means 400 while the cuff member 100 and the air bag 200 are wound around the wrist. Even if the position of the venous sensor 330 is changed by the movement of the examinee or the position of the venous sensor 330 through the position adjusting means 400, Values can be re-adjusted to the correct jinmaek point. Therefore, the accuracy of the work can be improved.

2 and 3, the sensor module 300 is fixedly mounted on the inner surface of the air bag 200, and the sensor module 300 is mounted on the inner surface of the air bag 200 A fixed plate 310 having a guide rail 311 formed on one side thereof and a movable plate 320 movably coupled along a guide rail 311 of the fixed plate 310. At this time, the venous sensor 330 may be coupled to one surface of the movable plate 320 and move along the guide rail 311 along with the movable plate 320 for a predetermined interval.

While the movable plate 320 and the venous sensor 330 are moving as described above, the movable plate 320 and the venous sensor 330 may move as they are in contact with the skin of the examinee. In this case, A separate cover member 500 surrounding the outer exposed surface of the sensor module 300 may be disposed on the inner surface of the air bag 200 to prevent the pain. According to this structure, since the movable plate 320 and the venous sensor 330 come into contact with the skin of the examinee through the cover member 500, the movement of the movable plate 320 and the venous sensor 330 can be performed more smoothly. It is possible to prevent the occurrence of pain that may occur to the examinee.

In addition, since the movable plate 320 is moved by the position adjusting means 400 in a state in which the movable plate 320 is pressed, the area where the movable plate 320 moves is the skin of the wrist region of the examinee. Is not flat and has irregular shape. Accordingly, when the movable plate 320 is made of a rigid material, the examinee may cause pain and the movement of the movable plate 320 may not be smooth even if the cover member 500 is interposed between the movable plate 320 and the movable plate 320. Therefore, And can be formed of a flexible material capable of bending deformation such that the pressure contact state with the examinee can be favorably maintained.

The position adjusting means 400 is configured to move the movable plate 320 of the sensor module 300 so that the immersion sensor 330 moves together with the movable plate 320. The movable plate 320 is coupled to both ends of the moving plate 320 And a pulling wire 410 through which the other end passes through the cuff member 100 and is drawn out to the outside. The other end of the pulling wire 410 located at the outside of the cuff member 100 is provided with a separate handle band 410 for facilitating the pulling out operation of the pulling wire 410 and preventing the pulling wire 410 from being twisted. 420 may be combined.

When the pulling wire 410 is pulled out and moved to move the movable plate 320, it is most advantageous that the pulling direction of the pulling wire 410 is formed parallel to the moving direction of the movable plate 320 For this purpose, a separate guide ring 430 may be disposed inside the air bag 200.

The guide ring 430 may be formed in the form of a simple ring through which the pulling wire 410 can pass, and the pulling direction of the pulling wire 410 may be moved Direction or an angle [alpha] therebetween is guided to be less than or equal to 45 [deg.].

Thus, when the examinee pulls the other end of the pulling wire 410 located outside the cuff member 100, that is, the pull band 420, the pulling wire 410 is pulled out from the movable plate 320, Even if the pulling out force on the pulling wire 410 is relatively small, the force of the movable plate 320 (i.e., the pulling force of the movable plate 320) Can move smoothly.

4 shows an operating state in which the movable plate 320 and the vein sensor 330 are moved according to the structure described above. As shown in FIG. 4 (a), the handle band 420 located on the right side is taken out The pulling wire 410 pulls the movable plate 320 in the right direction to move the movable plate 320 and the chamfer sensor 330 coupled thereto to the right. 4 (b), when pulling out the grip band 420 located on the left side, the pulling wire 410 pulls the movable plate 320 in the left direction, 320 and the chamfer sensor 330 coupled thereto move to the left.

Therefore, the position of the pulse sensor 330 can be adjusted even in a state where the pulse wave device according to the embodiment of the present invention is wound on the examinee's wrist region in this manner, so that the pulse wave device can be accurately and conveniently performed.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: cuff member 200: air bag
300: Sensor module 310: Fixing plate
311: guide rail 320: movable plate
330: centering sensor 400: position adjusting means
410: tow wire 420: handle band
430: guide ring 500: cover member

Claims (7)

delete A cuff member formed to wrap around the wrist of the examinee;
An air bag formed to be able to receive air pressure from a separate air pump and mounted on an inner surface of the cuff member;
A sensor module mounted on an inner surface of the air bag, the sensor module including a vein sensor for detecting a pulse wave of the examinee; And
A position adjusting means for adjusting the position of the venous sensor by moving the venous sensor by a predetermined interval;
/ RTI >
The sensor module
A fixing plate fixedly mounted on an inner surface of the air bag and having a guide rail formed on one side thereof; And
A movable plate movably coupled along the guide rail,
Wherein the venous sensor is coupled to the movable plate.
3. The method of claim 2,
Wherein the movable plate is formed of a flexible material capable of bending deformation of the movable plate.
3. The method of claim 2,
And a cover member coupled to the air bag and surrounding the outer exposed surface of the sensor module, wherein the venous sensor is in press contact with the skin of the examinee through the cover member.
3. The method of claim 2,
The position adjusting means
A pulling wire having one end coupled to both end portions in the moving direction of the movable plate and the other end being pulled out through the cuff member,
Wherein the pull wire is pulled from the outside of the cuff member to move the pacemaker sensor for a certain period of time.
6. The method of claim 5,
The position adjusting means
And a pull band is coupled to the other end of the pull wire located outside the cuff member.
6. The method of claim 5,
The position adjusting means
A guiding ring for guiding an arrangement path of the traction wire so that a traction movement direction of the traction wire is parallel to a moving direction of the movable plate or an angle therebetween is at least 45 degrees or less,
Further comprising:

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