KR20220060760A - Smart electronic blood pressure meter - Google Patents

Abstract

The present invention relates to a smart electronic blood pressure gauge which can provide the operating state of an electronic blood pressure gauge based on a sound signal. The smart electronic blood pressure gauge comprises: a tourniquet enclosing an arm of a subject; a pressure adjustment unit adjusting the pressure applied to the arm of the subject through an air amount injected into the tourniquet; a sensing unit sensing a pulse sound transferred from the tourniquet; a processor receiving and analyzing the pulse sound to calculate and display the highest/lowest blood pressure, and calculating and notifying the first sensing time, continuous sensing time, and final sensing time of the pulse sound; a sound output unit generating and amplifying sound signals corresponding to the first sensing time, continuous sensing time, and final sensing time of the pulse sound to output the sound signals through at least one between a speaker and a headset; and a reporting unit providing the highest/lowest blood pressure and the first/final sensing time identified through the processor in an audiovisual manner, printing the highest/lowest blood pressure and the first/final sensing time on paper, or sharing the highest/lowest blood pressure and the first/final sensing time with an external terminal.

Description

Smart electronic blood pressure meter

The present invention relates to a smart electronic blood pressure monitor that can guide the operating state of the electronic blood pressure monitor based on an acoustic signal.

An electronic blood pressure monitor measures blood vessel pressure by wrapping a cuff on the forearm and applying pressure thereto and listening to the pulse sound with a stethoscope. marked or recorded.

As shown in FIG. 1 , the electronic blood pressure monitor uses an air tube 111 built into the cuff 110 through the compression belt 110 and the air pump 121 to cover the arm of the person under test. The pressure adjusting unit 120 that injects air and exhausts the air of the air tube 111 to the outside through the solenoid valve 122, the sensing unit 130 that senses the pulse sound transmitted from the compression band 110, the pulse It is implemented including a processor 140 for calculating and displaying the highest/lowest blood pressure by receiving and analyzing the sound, and a display unit 150 for audiovisually guiding the highest/lowest blood pressure determined through the processor.

However, in the case of an electronic blood pressure monitor, the blood pressure measurement value may vary each time depending on the measurement environment and the mental state or health state of the person being measured. cases occur frequently.

Domestic Registered Patent No. 10-0899385 (Registration Date: 2009.05.19)

Accordingly, in order to solve the above problems, an object of the present invention is to provide a smart electronic blood pressure monitor that can guide the operating state of the electronic blood pressure monitor based on an acoustic signal.

Another object of the present invention is to provide a smart electronic blood pressure monitor capable of identifying and providing a cause of malfunction in units of parts when the electronic blood pressure monitor malfunctions.

The object of the present invention is not limited to the object mentioned above, and other objects not mentioned will be clearly understood by those of ordinary skill in the art from the description below.

As a means for solving the above problems, according to an embodiment of the present invention, a compression band surrounding the arm of the subject; a pressure adjusting unit for adjusting the pressure applied to the arm of the subject through the amount of air injected into the compression band; a sensing unit for sensing the pulse sound transmitted from the compression band; a processor for receiving and analyzing the pulse sound to calculate and display the highest/lowest blood pressure, and to calculate and notify the initial detection time, the continuous detection time, and the last detection time of the pulse sound; a sound output unit for generating and amplifying a sound signal corresponding to each of the first sensing time, the continuous sensing time, and the last sensing time of the pulse sound, and outputting the sound signal through at least one of a speaker and a headset; And it provides a smart electronic blood pressure monitor comprising a reporting unit that audiovisually guides the highest/lowest blood pressure and the first/last detection time detected through the processor, prints paper, or shares it with an external terminal.

The sound output unit pre-defines a plurality of sound signals corresponding to each of the first detection time, the continuous detection time, and the last detection time of the pulse sound, and selects any one of the plurality of sound signals according to the time detection result of the processor and a sound signal generating unit to output; an amplifier amplifying the selected sound signal; and a sound signal reproducing unit that reproduces the sound signal through any one of a speaker and a headset.

In this case, the acoustic signal generator detects a point in time when the pulse sound temporarily disappears and starts to be heard again as an initial detection time, detects a point in time at which the pulse sound is continuously heard as a continuous detection time, and the pulse sound completely disappears. It is characterized in that the detection time point is detected as the last detection time point.

The smart electronic blood pressure monitor may include a power sensor for sensing the amount of power consumed by the sensing unit; and a pressure sensor sensing the internal pressure of the air tube.

And the processor checks and notifies the sensing unit malfunction when the power consumption of the sensing unit is less than a preset value, and when the internal pressure change pattern of the air tube is different from the preset pattern, confirms and notifies the air pump malfunction, and the sensing If the negative power consumption and the internal pressure change pattern of the air tube are both normal, the processor malfunction is confirmed and notified.

The present invention generates and guides an acoustic signal corresponding to each of the blood pressure initial detection time, continuous detection time, and last detection time of the electronic blood pressure monitor, so that the subject can explicitly recognize the accuracy of blood pressure measurement values and the presence or absence of equipment abnormalities. do.

In addition, by additionally utilizing the power sensor inserted into the signal line of the sensing unit, the air tube, or the pressure sensor inserted into the output end of the air pump, the cause of malfunction of the smart electronic blood pressure monitor is identified and notified in units of parts, making maintenance and management of the device simpler and to do it effectively.

1 is a diagram illustrating an electronic blood pressure monitor according to the related art.
2 is a diagram illustrating a smart electronic blood pressure monitor according to an embodiment of the present invention.
3 is a view for explaining a method of sound guidance of a smart electronic blood pressure monitor according to an embodiment of the present invention.
4 is a diagram illustrating a smart electronic blood pressure monitor according to another embodiment of the present invention.
5 is a diagram for explaining a method for guiding a device malfunction using a smart electronic blood pressure monitor according to another embodiment of the present invention.

The following is merely illustrative of the principles of the invention. Therefore, those skilled in the art will be able to devise various devices that, although not explicitly described or shown herein, embody the principles of the present invention and are included within the spirit and scope of the present invention. Further, it is to be understood that all conditional terms and examples listed herein are, in principle, expressly intended solely for the purpose of enabling the concept of the present invention to be understood, and not limited to the specifically enumerated embodiments and states as such. should be

Moreover, it is to be understood that all detailed description reciting the principles, aspects, and embodiments of the invention, as well as specific embodiments, are intended to cover structural and functional equivalents of such matters. It should also be understood that such equivalents include not only currently known equivalents, but also equivalents developed in the future, i.e., all devices invented to perform the same function, regardless of structure.

Thus, for example, the block diagrams herein are to be understood as representing conceptual views of illustrative circuitry embodying the principles of the invention. Similarly, all flowcharts, state transition diagrams, pseudo code, etc. may be tangibly embodied on computer-readable media and be understood to represent various processes performed by a computer or processor, whether or not a computer or processor is explicitly shown. should be

2 is a diagram illustrating a smart electronic blood pressure monitor according to an embodiment of the present invention.

Referring to FIG. 2 , the smart electronic blood pressure monitor of the present invention includes a cuff 210 , a pressure adjusting unit 220 , a sensing unit 230 , a processor 240 , a sound output unit 250 , and a reporting unit 260 . include

The compression band 210 has a built-in air tube and is implemented in the form of an armband surrounding the arm of the subject.

The pressure adjusting unit 220 includes an air pump 221 for injecting air into the air tube of the compression band 210 and a solenoid valve 222 for exhausting the air from the air tube to the outside, and through these, the arm of the subject Adjust the pressure applied to the

The sensing unit 230 includes a microphone installed on the cuff 210 , and senses and outputs the pulse sound of the subject through this.

The processor 240 receives and analyzes the pulse sound to calculate and display the highest/lowest blood pressure. More specifically, when blood pressure measurement is requested, the pressure applied to the arm of the subject through the pressure adjusting unit 220 is gradually increased, and when the pulse sound is no longer heard, the pressure is gradually decreased again. Accordingly, when the blood vessel of the subject opens and blood flows and the pulse sound is heard again, the pressure at this time is acquired as the systolic blood pressure. And when the pressure is continuously reduced and the pulse sound completely disappears, the diastolic blood pressure at this time is acquired.

In addition, the processor 240 of the present invention may additionally calculate and guide the pulse sound initial detection time, continuous detection time, and last detection time for guiding the operation state. That is, the point in time when the pulse sound temporarily disappears and then starts to be heard again is detected as the initial detection time, the point in time when the pulse sound is continuously heard is detected as the continuous detection time, and the time when the pulse sound completely disappears is detected as the last detection time. to do it

The sound output unit 250 pre-defines a plurality of sound signals corresponding to each of the initial detection time, the continuous detection time, and the last detection time of the pulse sound, and selects a sound signal corresponding to the time point detection result of the processor based on this. to output.

The sound output unit 250 pre-defines a plurality of sound signals corresponding to each of the first detection time, continuous detection time, and last detection time of the pulse sound, and any one of the plurality of sound signals according to the time point detection result of the processor Implemented including a sound signal selector 251 for selecting and outputting one, an amplifier 252 for amplifying the selected sound signal, and a sound signal reproducing unit 253 for reproducing a sound signal through any one of a speaker and a headset can be

The reporting unit 260 includes a display device, a printing device, a communication device, and the like, and visually guides the maximum/minimum blood pressure and the first/last detection time of the pulse sound detected by the processor through them, prints paper, or shares it with an external terminal to do it

In addition, the peak/trough blood pressure and the first/last detection time of the pulse sound

As described above, the present invention additionally includes a sound output unit and uses the audio and visual information to guide the pulse sound sensing state in addition to the existing highest/lowest blood pressure, so that the subject actually drives the smart electronic blood pressure monitor based on the pulse sound sensing state. make it clear whether or not

3 is a diagram for explaining a method of sound guidance of a smart electronic blood pressure monitor according to an embodiment of the present invention.

As described above, the present invention pre-defines a plurality of sound signals corresponding to each of the initial detection time, the continuous detection time, and the last detection time of the pulse sound, and then distinguishes and guides the pulse sound detection state based on these sound signals. do.

For example, at the time of initial detection, a sound signal of “ding” is generated and output, at the time of continuous detection, a sound signal of “beep” is generated and output, and at the time of final detection, a sound signal of “ding” is generated and output By doing so, the subject can distinguish and recognize whether blood pressure is being measured normally based on sound, and further, whether the current measurement section is a systolic section or a diastolic section.

In addition, the blood pressure measurement operation is performed based on the pulse sound sensing result, but if the sensor unit malfunctions, the blood pressure measurement itself may not be performed. Accordingly, the present invention intends to additionally propose a technology capable of detecting whether a sensor unit malfunctions by itself.

4 is a diagram illustrating a smart electronic blood pressure monitor according to another embodiment of the present invention.

Referring to FIG. 4 , the smart electronic blood pressure monitor according to another embodiment of the present invention is located on the signal line of the sensing unit 230 other than the components shown in FIG. 2 , and any one of power or voltage consumed by the sensing unit 230 . To further include a power sensor 270 for sensing.

For reference, the sensing unit 230 is an electronic device operated by receiving a predetermined driving power, and the load power consumed by the pulse sound sensing operation is always maintained at a constant value. However, when the sensing unit malfunctions and can no longer be driven normally, a phenomenon in which load power is greatly reduced occurs.

Accordingly, in the present invention, the power consumption of the sensing unit 230 is tracked and monitored through the power sensor 270 , and the processor 240 checks whether the sensing unit 230 malfunctions based on the power consumption of the sensing unit 230 . and to be notified.

In addition, the present invention additionally includes a pressure sensor 280 inserted into the air tube or the output terminal of the air pump, so that it is also possible to additionally check whether the air pump 221 malfunctions.

That is, whether the air for pressurizing the arm of the subject is normally supplied to the air tube by the air pump 221 is additionally checked through the pressure sensor 280 inserted into the air tube or the output terminal of the air pump, and can be guided to the subject. let it be

5 is a diagram for explaining a method for guiding a device malfunction using a smart electronic blood pressure monitor according to another embodiment of the present invention.

If the blood pressure measurement is started, the processor 240 increases the pressure applied to the arm to be measured through the cuff 210 to the maximum value and then sequentially decreases the pressure while repeatedly sensing and analyzing the pulse sound to maximize/minimum blood pressure. , calculates the first/last pulse sound detection time (S1).

When the blood pressure measurement operation in step S1 is successfully completed, the normal operation of the electronic blood pressure monitor is confirmed, and then the step S1 is re-entered (S2).

However, if the blood pressure measurement operation in step S1 fails, an operation for determining the cause of the blood pressure error detection is additionally performed as follows.

First, when the blood pressure measurement fails, the processor 240 requests a posture correction from the subject and simultaneously activates the power sensor 270 and the pressure sensor 280 and then performs the blood pressure measurement operation again (S3). .

Then, if the power consumption amount of the sensing unit 230 sensed through the power sensor 270 is received and analyzed and the power consumption is less than a preset value, a malfunction of the sensing unit is checked and notified (S4).

In addition, the internal pressure of the air tube sensed through the pressure sensor 280 is tracked and monitored, and when the internal pressure change pattern of the air tube is different from the preset pattern, the malfunction of the air pump is checked and notified (S5).

However, if the malfunction of the sensing unit and the air pump is not confirmed, the processor operation error is checked and notified (S8).

As described above, the present invention additionally utilizes a power sensor inserted into the signal line of the sensing unit, an air tube, or a pressure sensor inserted into the output terminal of the air pump, so that the cause of malfunction of the smart electronic blood pressure monitor can be identified and notified in units of parts. .

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and it is common in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Various modifications can be made by those having the knowledge of

Claims (5)

a cuff that wraps around the subject's arm;
a pressure adjusting unit for adjusting the pressure applied to the arm of the subject through the amount of air injected into the compression band;
a sensing unit for sensing the pulse sound transmitted from the compression band;
a processor for receiving and analyzing the pulse sound to calculate and display the highest/lowest blood pressure, and to calculate and notify the initial detection time, the continuous detection time, and the last detection time of the pulse sound;
a sound output unit for generating and amplifying a sound signal corresponding to each of the first sensing time, the continuous sensing time, and the last sensing time of the pulse sound, and outputting the sound signal through at least one of a speaker and a headset; and
A smart electronic blood pressure monitor comprising a reporting unit for audiovisually guiding the maximum/lowest blood pressure and the first/last detection time detected through the processor, printing paper, or sharing it with an external terminal. According to claim 1, wherein the sound output unit
A sound for pre-defining a plurality of sound signals corresponding to each of the initial detection time, the continuous detection time, and the last detection time of the pulse sound, and selecting and outputting any one of the plurality of sound signals according to the time point detection result of the processor signal generator;
an amplifier amplifying the selected sound signal; and
A smart electronic blood pressure monitor comprising a sound signal reproducing unit that reproduces the sound signal through any one of a speaker and a headset. The method of claim 2, wherein the sound signal generator
A point in time when the pulse sound temporarily disappears and then starts to be heard again is detected as an initial detection time, a point in which the pulse sound is continuously heard is detected as a continuous detection time, and a time when the pulse sound completely disappears is detected as the last detection time. Smart electronic blood pressure monitor, characterized in that it detects. The method of claim 1,
a power sensor for sensing the power consumption of the sensing unit; and
The smart electronic blood pressure monitor further comprising; a pressure sensor sensing the internal pressure of the air tube. 5. The method of claim 4, wherein the processor
If the power consumption of the sensing unit is less than the preset value, the sensing unit malfunction is checked and notified, and if the internal pressure change pattern of the air tube is different from the preset pattern, the air pump malfunction is confirmed and notified, and the power consumption of the sensing unit and Smart electronic blood pressure monitor, characterized in that if all of the internal pressure change pattern of the air tube is normal, the processor malfunction is confirmed and notified.

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