KR100899385B1 - Electronic Hemadynamometer - Google Patents

Abstract

The present invention relates to an electronic sphygmomanometer mounted on the contact portion 11 of the cuff member 10, a plurality of blood pressure sensing member 30, and connected to each of the blood pressure sensing member 30 is detected by each blood pressure sensing member (30) It is to have a control means 40 for measuring and displaying the blood pressure.

Therefore, by measuring the blood pressure of each blood vessel passing through the body part can be confirmed roughly whether there is an abnormality of the organs connected to each blood vessel, as well as accurate average blood pressure can be used as an index of accurate health diagnosis.

In addition, when used in conjunction with a device or equipment that can identify the organs connected to each blood vessel passing through the body part in the hospital, it is possible to check and prescribe the abnormality of each organ with a simple test, thereby reducing medical expenses and minimizing misdiagnosis. will be.

In addition, the blood velocity and blood flow rate of the blood can be confirmed by measuring the overall abnormality of blood vessels.

Therefore, it is a very useful invention with higher utilization in checking the health state of the user.

Description

Electronic sphygmomanometer

1 is a cross-sectional view schematically showing a conventional electronic blood pressure monitor structure

2 is a cross-sectional view schematically showing the basic structure of the present invention

Figure 3 is a block diagram schematically showing the control means of the present invention

4A to 4B are perspective views showing an embodiment of the present invention.

5 is a perspective view showing another embodiment of the present invention

* Description of the major symbols in the drawings *

10: cuff member 11: contact portion

20: pressure sensor 30: blood pressure detection member

31: microphone 40: control means

41: air pressure control unit 42: air pressure control unit

43: blood pressure reading unit 44: blood pressure reading unit

45: display unit 46: device control unit

The present invention relates to an electronic blood pressure monitor, and more particularly, to invent blood pressure of blood vessels for each point flowing to each organ.

In general, blood pressure refers to the pressure applied to blood vessel walls when blood passes through blood vessels, and is used as an index for determining the abnormality of the circulatory system including the heart and blood vessels.

Therefore, by measuring the blood pressure prevents the complications of the adult disease, it is possible to confirm the simple state of health.

The sphygmomanometer for measuring blood pressure usually measures the pressure of arterial vessels, and measures the highest and lowest blood pressures by measuring the systolic and diastolic blood pressures of the arterial vessels.

The systolic blood pressure refers to the blood pressure when the ventricles contract and the blood is pushed into the arteries, and the diastolic blood pressure refers to the blood pressure of the blood that pressurizes the artery wall when the ventricles expand and the blood is not pushed out.

The sphygmomanometer is divided into an analog and electronic sphygmomanometer, in which a measurer directly checks and measures the sphygmomanometer, and in recent years, it is easy to measure, and an accurate electronic sphygmomanometer is mainly used. It is being spread so far.

The electronic sphygmomanometer is pressurized by wrapping the human body part as shown in Figure 1, the cuff member 10, the pressing force is changed, the cuff member 10, the pressing force is changed, the pressure of the cuff member 10 The pressure sensor 20 for detecting the pressure, the cuff member 10 is provided in the cuff member 10 to control the operation of the blood pressure detecting member 30 for detecting the blood pressure of the blood vessel passing through the body part, the cuff member 10, It is connected to the pressure sensor 20 and the blood pressure detecting member 30 includes a control means for measuring and displaying the blood pressure.

The blood pressure detecting member 30 includes a microphone 31 for detecting a sound generated from a blood vessel passing through the body part wrapped by the cuff member 10.

The use method and operating principle of the blood pressure monitor are as follows.

 Normally, after the body part, i.e., the forearm, is wound with the cuff member 10 and the pressure is increased higher than the arterial blood pressure, blood flow is blocked by the pressurization of the cuff member 10.

As described above, if the pressure of the cuff member 10 is gradually lowered while the flow of blood is blocked, the blood flows through the blood vessel, which is blocked at a certain pressure, at which time sound is generated as the blood passes through the finely open vessel. The microphone detects and amplifies the generated sound and transmits the generated sound to the control means 40.

The pressure of the cuff member 10 is sensed by the pressure sensor 20 is transmitted to the control means 40, the pressure at this time is the systolic blood pressure.

When the pressure of the cuff member 10 is lowered gradually, the sound generated as the blood passes is no longer heard, and the microphone 31 detects it and transmits it to the control means 40.

The pressure of the cuff member 10 is sensed by the pressure sensor 20 is transmitted to the control means 40 and the pressure is the diastolic blood pressure.

However, since the conventional blood pressure monitor is provided with only one microphone 31 for detecting blood pressure inside the cuff member 10, the arteriovascular vessel in which the loudest sound is detected by one microphone 31 is generated. Only blood pressure is measured.

Therefore, a difference occurs in the blood pressure measured according to the position of the microphone 31, that is, the blood pressure sensing member 30 in a state where the cuff member 10 wraps the body part, which makes it difficult to accurately measure and confirm the blood pressure.

In addition, various blood vessels connected to the respective organs are passed through the body. The conventional blood pressure monitor is adjacent to the microphone 31 at the body part wrapped by the cuff member 10, or the sound of blood vessels generated by the passage of blood is the largest. As a result of measuring blood pressure only, it was impossible to accurately measure blood pressure of each blood vessel, and thus there was a problem in that it was impossible to check the health status of each organ.

In addition, as described above, since the conventional blood pressure monitor measures blood pressure on blood vessels by one blood pressure detecting member 30, it is difficult to see the average blood pressure of all blood vessels passing through the body part, and the average blood pressure is accurately measured. I couldn't.

SUMMARY OF THE INVENTION An object of the present invention is to provide an electronic blood pressure monitor having a plurality of blood pressure measuring sensors capable of separately measuring blood pressure of various blood vessels in the body part, and calculating and measuring the blood pressure of various blood vessels on average.

Another object of the present invention is to provide an electronic blood pressure monitor that can roughly check the health state of organs connected to blood vessels by measuring blood pressure of each blood vessel connected to organs of the body.

Still another object of the present invention is to provide an electronic blood pressure monitor that can check the general state of blood vessels by checking the speed and blood flow rate of blood flowing into each vessel.

The purpose of the present invention is to wrap and press the human body part, the pressure of the cuff member is changed, the pressure sensor for detecting the pressure of the cuff member, and the blood pressure of blood vessels provided in the cuff member passing through the body part And a control means for controlling an operation of the blood pressure sensing member, the cuff member for sensing, and measuring and displaying the blood pressure in connection with the pressure sensor and the blood pressure sensing member,
The control means is connected to the pressure sensor and the plurality of blood pressure sensing members, respectively, the blood pressure reading unit for measuring the blood pressure sensed by the blood pressure sensing member, and the plurality of blood pressure sensing members respectively disposed at intervals along the longitudinal direction. It is achieved by providing an electronic blood pressure monitor including a blood flow reading unit for measuring the speed of blood by using a difference in sensing time between a plurality of blood pressure sensing members.

That is, a number of blood pressure sensing members are provided at the contact portion of the cuff member that is in contact with the body part, so that blood pressure of various blood vessels passing through the body part can be sequentially measured to check the health state of the organ where each blood vessel is circulated by the measured blood pressure. By measuring the blood pressure of many blood vessels, the average blood pressure of the body can be accurately measured.

When described in detail by the accompanying drawings a preferred embodiment of the present invention as follows.

Figure 2a to 2b is a cross-sectional view schematically showing the basic structure of the present invention, Figure 2a shows that a plurality of blood pressure sensing member is mounted to the contact portion of the cuff member, Figure 2b is a microphone to the sound transmission tube The example used in connection is shown.

FIG. 3 is a block diagram schematically showing a control means of the present invention, which shows control means including an air pressure control unit, a blood pressure reading unit, a blood pressure reading unit, a display unit, and a device control unit controlled by a control switch operable by a user.

Figure 4a to 4b is a perspective view showing an embodiment of the present invention, Figure 4a shows an example formed with a cuff band that the cuff member can be wound around the body portion, Figure 4b is to insert the arm of the user to measure An example of a blood pressure apparatus is shown.

FIG. 5 is a perspective view illustrating still another embodiment of the present invention, and shows two examples in which two cuff members are provided to measure an accurate blood velocity and blood flow rate.

Hereinafter, as shown in FIG. 2, the cuff member 10 has a hydraulic chamber 10a filled with a fluid including gas and liquid therein, and a tube shape expanded by a fluid filled with the hydraulic chamber 10a. It is based on being formed with a contact portion 11 is provided inside the body wrapped around the user's body contact.

The cuff member 10 is based on pressurizing the body portion wrapped in the contact portion 11 with the air pressure is changed to fill the air into the hydraulic chamber (10a), supplying air to the interior of the cuff member (10) , The air pressure control device 41 which draws out the air pressure to control the air pressure is connected to the hydraulic chamber 10a of the cuff member 10 and includes a conventionally known configuration including an air hose 41a for entering and entering air into the hydraulic chamber 10a. It is to be noted that detailed description of the configuration and operation is omitted.

In addition, the air pressure control device 41 is included in the control means 40 to be described later, it turns out that the operation is controlled.

The contact portion 11 of the cuff member 10 is provided with a pressure sensor 20 for measuring the pressing force for pressing the body part in accordance with the increase and decrease of the air pressure filled into the hydraulic chamber (10a).

The pressure sensor 20 measures the pressing force of the body part of the contact portion 11 and transmits the measured electrical signal to the control means 40.

The contact portion 11 of the cuff member 10 is provided with a blood pressure detecting member 30 at intervals along the inner surface, the blood pressure detecting member 30 is the body portion in the contact portion 11 is in contact with the body part On the basis of being arranged and mounted at equal intervals along the outer periphery, the entire surface of the contact portion 11 in contact with the body part, that is, the longitudinal direction transverse to the transverse direction and the transverse direction of the longitudinal direction of the contact portion 11 It is preferable that a plurality is provided along the same interval.
Once again clearly explained, the longitudinal direction of the cuff member 10 is a direction surrounding the body part, the longitudinal direction is a direction corresponding to the longitudinal direction of the body part, the blood pressure sensing member 30 is a horizontal direction, longitudinal direction A plurality of rows are arranged along the surface of the contact portion and are evenly spaced on the entire surface of the contact portion.

The blood pressure detecting member 30 may use any one of the systolic blood pressure and the diastolic blood pressure to momentarily detect and transmit a sensed signal to the control means 40. It is based on the use of a microphone 31 and a vibration sensor 32 which transmit to the means 40.

The blood pressure detecting member 30 uses a microphone 31, and as shown in FIG. 2B, a sound transmission tube 31 a is mounted on the contact portion 11 of the cuff member 10, and the sound transmission tube ( It is also possible to configure 31a) by connecting the microphone 31.

The sound transmission tube 31a is installed so that the penetrated end faces the body part in contact with the contact portion 11, and each sound transmission tube 31a corresponds to a state in which the cuff member 10 covers the body part. The sound generated from several blood vessels is to serve to deliver the microphone (31).

The microphone 31 detects a sound generated by the flow of blood while the blood vessel is blocked and a moment when the sound is removed and transmits the electric signal to the control means 40.

The vibration sensor 32 detects the pulse and vibration generated while the blood is being opened while the blood vessel is blocked, and detects the moment when the vibration width is increased quickly and the moment when the vibration width is rapidly lowered to control the electric signal. To the means 40.

The blood pressure detecting member 30 can be used in addition to the pressure sensor 20 to detect any blood pressure, which is included in the configuration of the present invention.

On the other hand, the electrical signal measured and detected by the pressure sensor 20 and the blood pressure detecting member 30 is transmitted to the control means 40, the control means 40 as shown in Figure 3 the cuff member ( 10, that is, the air pressure control unit 41 for generating air pressure by supplying air to the hydraulic chamber 10a of the cuff member 10 and the air pressure control unit 42 for controlling the air pressure control unit 41 Include.

The air pressure control unit 42 generates air pressure by supplying air in a state in which the cuff member 10 covers the body part, and increases the air pressure controlling device 41 so as to gradually decrease the air pressure after blocking the blood vessel. It turns out that it is a conventionally well-known structure.

In addition, the control means 40 is connected to the pressure sensor 20 and each blood pressure detecting member 30 receives the electrical signals sensed by the pressure sensor 20 and the blood pressure detecting member 30 to pass through various body parts. And a blood pressure reading unit 43 for measuring blood pressure of blood vessels, and the blood pressure reading unit 43 receives a sound generated when blood flows from a blocked blood vessel and a moment at which the sound is removed. The pressure of 20 measures systolic blood pressure and diastolic blood pressure, that is, the highest and lowest blood pressure.

 The blood pressure reading unit 43 also includes a function of calculating and measuring an average of blood pressures sensed and measured by the plurality of blood pressure sensing members 30.

The control means 40 is connected to each of the blood pressure detecting member 30, the detection time difference between the plurality of blood pressure detecting member 30 disposed at intervals along the longitudinal direction, that is, the same of the plurality of blood pressure detecting member 30 It includes a blood flow reading unit 44 for measuring the speed and blood flow rate of the blood by using the detected time difference between the blood pressure detecting member 30 and the blood pressure detecting member 30 which detects blood vessels. do.

The control means 40 includes a display unit 45 for displaying the numerical value measured by the blood pressure reading unit 43 and the blood flow reading unit 44 to the outside.

The control means 40 controls the pneumatic pressure control unit 42, the blood pressure reading unit 43, the blood flow reading unit 44, and the display unit 45, but is controlled by a user-operable control switch 46a. The control unit 46 is included.

On the other hand, the blood pressure monitor of the present invention as described above can be manufactured in a fixed type installed in a public place such as a portable type and a hospital, which is easy to use at home as shown in Figure 4a to 4b.

The portable blood pressure monitor illustrated in FIG. 4A includes a cuff band 12 in which a cuff member 10 surrounds a user's wearing part, and the cuff band 12 is connected to an air hose 41a therein to expand and contract. And, one side end is provided with a Velcro tape 12a that is easily removable.

The cuff band 12 is worn by wrapping a user's wearing area, for example, the upper arm, and then attaching the Velcro tape 12a to the outer surface of the cuff band 12.

And the cuff band 12 is to press the body part, that is, the upper arm while inflated when air is supplied to the inside in a worn state.

In addition, the fixed blood pressure monitor shown in Figure 4b is fixed to a predetermined position, and includes a cuff housing 13 is formed integrally with the casing 40a of the control means 40, the cuff housing 13, the user's body part That is, the cuffing portion 13a is provided with a cuff tube 13b that can pass the arm and expand and contract by air pressure on the inner circumferential surface thereof.

The cuff housing 13 has a forearm support 13c that can mount the forearm of the arm, that is, the forearm.

The cuff tube 13b is to place the upper arm after passing the user's arm to the cuff ring 13a, and presses the upper arm while inflated by air pressure in the state mounted on the forearm support 13c.

In addition, the control means 40 has a pneumatic pressure control unit 42, a blood pressure reading unit 43, and a blood pressure reading unit 44 including a pneumatic pressure control unit 41 inside the casing 40a, the outside of the casing 40a The control switch 46a and the display unit 45 are configured to be exposed.

The blood pressure monitor of the present invention can be manufactured and implemented as a blood pressure monitor having various structures in addition to the above, which is included in the configuration of the present invention.

Referring to the operation of the blood pressure monitor using the microphone 31 as the blood pressure detecting member 30 in the present invention.

The cuff member 10 is wrapped around the body part, for example, the upper arm (the upper elbow portion of the arm) that can measure blood pressure.

Several blood vessels passing through the body part wrapped by the cuff member 10 correspond to microphones 31 of the plurality of microphones 31 provided at the contact portions 11 of the cuff member 10 as close as possible. .

If the air pressure control device 41 is operated by operating the control switch 46a in this state, the air pressure control device 41 supplies air into the hydraulic chamber 10a of the cuff member 10 to increase the air pressure. After increasing the air pressure to block the flow of blood vessels passing through the body part is gradually discharged air in the hydraulic chamber (10a) to lower the air pressure.

As described above, the blood vessel having the highest blood pressure is opened first while the air pressure gradually decreases while the flow of blood is blocked by the air pressure of the cuff member 10.

The sound generated when the blood vessel is opened is transmitted to the control means 40, that is, the blood pressure reading unit 43, which is detected by the microphone 31 corresponding to the blood vessel.

In the above principle, as the air pressure of the cuff member 10 is lowered, blood vessels are opened in the order of high blood pressure among blood vessels passing through the body part, and the microphone 31 at a position corresponding to each blood vessel is generated when the blood vessel is opened. And the moment when the sound disappears are sequentially sensed, and the electrical signal is transmitted to the blood pressure reading unit 43.

That is, the blood pressure reading unit 43 receives the sound generated by the flow of blood from the blocked blood vessel and the moment when the sound is removed and the systolic blood pressure and the diastolic blood pressure, that is, the highest, at the pressure of the pressure sensor 20 at this time. , To measure the lowest blood pressure.

And while measuring the blood pressure of each of the blood vessels, it is to measure the blood pressure of the blood vessel corresponding to each microphone 31, respectively.

In addition, the blood flow reading unit 44 uses the difference in the detection time of the blood pressure signal detected by one of the microphones 31 and the other of the microphones 31 that detect the same blood vessel among the microphones 31 arranged in the longitudinal direction. Your blood speed and blood flow will be measured.

The data measured by the blood pressure reading unit 43 and the blood flow reading unit 44 is displayed on the display unit 45 together with the position of the microphone 31 that is detected in correspondence with blood vessels of the body part, so that the user himself / herself The location of several blood vessels passing through the body parts of the blood vessels, blood pressure and blood flow of each blood vessel can be confirmed.

In addition, by operating the control switch 46a of the device control unit 46 it is possible to check the average blood pressure, blood velocity, and blood flow rate of the entire blood vessel.

On the other hand, the operation of the oscillometric metric blood pressure monitor using the vibration sensor 32 as the blood pressure detecting member 30 in the present invention will be described.

The cuff member 10 once wraps the body part, for example, the upper arm (the upper elbow portion of the arm), in which blood pressure can be measured.

Several blood vessels passing through the body part enclosed by the cuff member 10 correspond to the vibration sensor 32 as close as possible to each of the plurality of vibration sensor 32 provided in the contact portion 11 of the cuff member 10, respectively. Will be.

If the air pressure control device 41 is operated by operating the control switch 46a in this state, the air pressure control device 41 supplies air into the hydraulic chamber 10a of the cuff member 10 to increase the air pressure. After increasing the air pressure to block the flow of blood vessels passing through the body part is gradually discharged air in the hydraulic chamber (10a) to lower the air pressure.

As described above, the blood vessel having the highest blood pressure is opened first while the air pressure gradually decreases while the flow of blood is blocked by the air pressure of the cuff member 10.

The blood vessel is opened slowly as the air pressure of the cuff member 10 decreases as described above, and the pulse and vibration are generated as the blood passes into the blood vessel gradually opened.

The pulse and vibration are gradually increased as the blood vessels widen, and gradually decrease again after recording the maximum vibration width.

The vibration sensor 32 measures the moment when the vibration width increases rapidly as the blood vessel is opened with the highest blood pressure, and measures the moment when the vibration width decreases rapidly with the lowest blood pressure to control the electric signal detected at both points. ), That is, the blood pressure reading unit 43 is transferred.

In the above principle, as the air pressure of the cuff member 10 is lowered, blood vessels are opened in the order of high blood pressure among blood vessels passing through the body part, and the vibration detection sensor 32 at a position corresponding to each blood vessel vibrates as the blood vessel is opened. The moment when the width is rapidly increased and the moment when the width is rapidly lowered are sequentially detected, and the electrical signal is transmitted to the blood pressure reading unit 43.

That is, the blood pressure reading unit 43 receives the moment when the pulse and the amplitude of vibration generated by the flow of blood in the blocked blood vessel are rapidly increased and the moment is rapidly lowered, and the systolic blood pressure and the expander are the pressure of the pressure sensor 20 at this time. It is to measure the blood pressure, that is, the highest and lowest blood pressure.

And while measuring the blood pressure of each of the blood vessels, it is to measure the blood pressure of the blood vessels corresponding to the respective vibration detection sensor (32).

In addition, the blood pressure reading unit 44 detects blood pressure detected by one vibration detection sensor 32 and the other vibration detection sensor 32 that detect the same blood vessel among the plurality of vibration detection sensors 32 arranged in the longitudinal direction. The speed and blood flow rate of the blood are measured using the time difference of the detection of the signal.

The data measured by the blood pressure reading unit 43 and the blood flow reading unit 44 are displayed on the display unit 45 together with the position of the vibration detecting sensor 32 corresponding to the blood vessels of the body part and detected. It is possible to check the location of various blood vessels passing through their body parts, blood pressure, blood flow, and blood flow rate of each blood vessel.

In addition, by operating the control switch 46a of the device control unit 46 it is possible to check the average blood pressure, blood velocity, and blood flow rate of the entire blood vessel.

On the other hand, the blood pressure monitor according to the present invention is preferably provided with a plurality of cuff member 10, as shown in Figure 5 for measuring the speed and blood flow rate of the blood.

One cuff member 10 is provided with a plurality of blood pressure sensing member 30 in the contact portion 11, because the interval between the blood pressure sensing member 30 for detecting the same blood vessels is small, the detection time difference is minute, so the speed of blood and blood It is not enough to measure a sufficient detection time difference to measure the flow rate.

The plurality of cuff members 10 are provided with a plurality of blood pressure sensing member 30 corresponding to each other in order to detect the same blood vessel in each contact portion 11, which is a body portion with a plurality of cuff members 10 It is wrapped at intervals, but wrapped and pressed with the same directionality so that the multiple blood pressure sensing members 30 of each cuff member 10 are positioned on the same symmetrical line to correspond to each other.

Therefore, a blood pressure signal detected by the blood pressure sensing member 30 of one cuff member 10 and the blood pressure sensing member 30 of the other cuff member 10 correspond to the blood pressure sensing member 30 to detect the same blood vessel. Since the blood pressure is measured using the time difference of the blood pressure signal detected by the blood pressure detecting member 30, the distance between the blood pressure detecting members 30 detecting the same blood vessel is far enough to secure a sufficient detection time difference, and the accurate blood speed and blood flow rate. Can be measured.

As described above, the blood pressure of each blood vessel passing through the body part can be roughly checked for abnormalities of organs connected to each blood vessel, and the accurate average blood pressure can be measured. .

In addition, when used in conjunction with a device or equipment that can identify the organs connected to each blood vessel passing through the body part in the hospital, it is possible to check and prescribe the abnormality of each organ with a simple test, thereby reducing medical expenses and minimizing misdiagnosis. will be.

In addition, the blood velocity and blood flow rate of the blood can be measured and confirmed, thereby confirming the overall abnormality of blood vessels.

Therefore, it is a very useful invention with higher utilization in checking the health state of the user.

Claims (6)

A cuff member provided with a contact portion wrapped around the body part of the person and pressurized therein; A pressure sensor for sensing a pressure of the cuff member; A plurality of blood pressure sensing members disposed at intervals along the longitudinal direction transverse to the contact portion of the cuff member and in the longitudinal direction transverse to the transverse direction, respectively, for detecting blood pressure of blood vessels passing through body parts; Control means for controlling the operation of the cuff member, and the control means for measuring and displaying the blood pressure in connection with the pressure sensor and the blood pressure sensing member, The control means is connected to the pressure sensor and the plurality of blood pressure sensing members, respectively, the blood pressure reading unit for measuring the blood pressure sensed by the blood pressure sensing member, and the plurality of blood pressure sensing members respectively disposed at intervals along the longitudinal direction. Electronic blood pressure monitor comprising a blood flow reading unit for measuring the speed of blood by using the detection time difference between the plurality of blood pressure sensing members. The method according to claim 1, The cuff member is provided with a plurality, the plurality of cuff member is an electronic blood pressure monitor, characterized in that a plurality of blood pressure sensing member corresponding to each other is disposed to detect the same blood vessel in each contact portion. delete delete delete The method according to claim 1, The blood pressure reading unit is an electronic blood pressure monitor, characterized in that by measuring the average of the blood pressure detected by the plurality of blood pressure sensing member and measured.

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