KR0133650B1 - Automatically repressed sphygmomanometer and its control method - Google Patents

Abstract

The present invention relates to a blood pressure measuring device that is automatically re-pressurized and a control method thereof, the pressure sensor unit for detecting the air pressure in the cuff, the analog air pressure detection signal detected by the pressure sensor unit to be converted into a digital signal A / D converter unit, a microcomputer that separates and detects the cuff pressure and arterial pulse pressure value from the air pressure detection signal of the A / D converter unit, and determines the maximum, minimum, average blood pressure and pulse rate, and the determination signal of the microcomputer to the outside. The display unit is configured to display the signal by converting the output signal of the pressure sensor that detects the air pressure in the cuff to separate and determine the converted signal, and automatically repressurizes the pressure to a measurable pressure value when the pressure value is not reached. This ensures that accurate high, low, and mean blood pressure data can be obtained so that accurate diagnostics can be performed. It is so.

Description

Automatically repressurized pressure measuring device and its control method

1 is a block diagram for explaining the apparatus of the present invention,

2 is a flowchart of the present invention,

3 (a) is a graph that appears when the air pressure of the cuff is inadequate,

(b) is a graph of the arterial pulse pressure value when the cuff is inadequate,

4 (a) is a graph of the air pressure of the cuff that appears when the subject makes irregular swings,

(b) is a graph of arterial pulse pressure values shown in FIG.

5 is a flowchart of a conventional blood pressure measuring method.

* Explanation of symbols for main parts of the drawings

1: Cuff 2: Pressurization

3: pressure sensor unit 4: A / D converter unit

5: microcomputer 6: display unit

7: exhaust unit 8: keyboard unit

The present invention relates to a blood pressure measuring device that is automatically re-pressurized and a control method thereof. In particular, the output signal of the pressure sensor for detecting the air pressure in the cuff is converted into a signal, and the converted signal is separated and judged to not reach the set pressure value. If it is not possible, the pressure is automatically re-pressurized to the measurable pressure value, so that the data of accurate high, low, and average blood pressure are obtained so that accurate diagnosis can be carried out, and even if the pressure is insufficient, the pressure is automatically re-pressured. The present invention relates to a blood pressure measuring device that is automatically repressurized to improve reliability and a control method thereof.

The conventional blood pressure measuring method will be described with reference to FIG. 5. First, the measurer first attaches a cuff (compression band to press a certain portion by introducing air therein) to a portion of the subject, and decompresses and determines the blood pressure measuring apparatus. Put it in mode. Then, air is introduced into the cuff to press the measuring part of the human body and the cuff pressure at that time is measured. In addition, the measured cuff pressure data is compared with the reference value, that is, the pressure of the measurable value, and when the result is smaller than the reference value, the process returns to the previous stage and repeats the loop. However, if the determination result is greater than the reference value, that is, the pressure of the measurable value, the next step is performed to calculate arterial pulse pressure data from the measured cuff pressure data. In the next step, the maximum, minimum, and average blood pressure are sequentially calculated from the arterial pulse pressure data, and displayed through an external display unit (not shown). In the next step, it is determined whether the blood pressure determination is completed.

In addition, when the blood pressure determination operation is not finished, the determination returns to the step of comparing the reference value and the measured value, and the loop is repeatedly performed. When the blood pressure determination operation is completed, the measurement operation is terminated. However, in the conventional blood pressure measurement method as described above, the measurement error occurs when the subject fluctuates, so that the accuracy of the measurement is considerably degraded. Therefore, there was a problem that the reliability of the measurement operation is lowered. Accordingly, the present invention has been invented to solve the above problems, the signal conversion of the output signal of the pressure sensor for detecting the air pressure in the cuff is separated by determining the converted signal and then measured when the set pressure value is not reached By automatically repressurizing the pressure as much as possible, to provide accurate high, low, and average blood pressure data, thereby providing an automatic re-pressurized blood pressure measuring device and a control method for precise diagnosis. There is a purpose.

In order to achieve the above object, a pressure sensor unit for detecting the air pressure in the cuff, an A / D converter unit for converting the analog air pressure detection signal detected by the pressure sensor unit into a digital signal, The microcomputer is configured to separately detect the cuff pressure and the arterial pulse pressure value from the pneumatic pressure detection signal of the D converter unit, and to determine the maximum, minimum, average blood pressure and pulse rate, and a display unit configured to externally display the determination signal of the microcomputer. do. Hereinafter, the apparatus of the present invention will be described in detail with reference to the accompanying drawings.

According to the present invention, as shown in FIG. 1, the pressurization unit 2 is configured to pressurize the air in the cuff 1 (the member blocking the flow by being worn on the measurement site) and the air pressure in the cuff 1. Of the A / D converter unit 4 and the A / D converter unit 4 which convert the analog air pressure detection signal detected by the pressure sensor unit 3 into a digital signal. The microcomputer 5 is configured to separately detect the cuff pressure and the arterial pulse pressure value from the air pressure detection signal to determine the highest, lowest, average blood pressure and pulse rate, and the display unit 6 to externally display the determination signal of the microcomputer 5. ), The exhaust part 7 is configured to reduce the air in the cuff 1 according to the control signal of the microcomputer 5. Next, the control method of the present invention having the above configuration will be described.

In the control method of the present invention, as shown in FIG. 2, when the cuff 1 is first worn on the measurement site and the pressure and determination mode are set through the keyboard unit 8, the microcomputer 5 determines and presses the pressure. The pressure control signal is applied to the unit 2. Then, air is introduced into the cuff 1 from the pressurizing unit 2 and proceeds to the next step. In the next step, the microcomputer 5 measures the pressure in the cuff 1 through the pressure sensor unit 3 and determines whether the measured value reaches the pressure value set in the next step.

That is, since the air pressure in the cuff 1 measured by the pressure sensor unit 3 is an analog signal, the analog signal is converted into a digital signal by the A / D converter unit 4 and input to the microcomputer 5. . On the other hand, when the air pressure in the cuff 1 is less than the reference value as determined in the comparison step, the process returns to the pressure mode step and repeats the loop.

However, if the air pressure in the cuff 1 is larger than the reference value as a result of the judgment, the arterial pulse pressure data is separated from the measured air pressure in the cuff 1, that is, the exhaust portion 7 detects the cuff ( 1) As the air in the air is gradually exhausted, the pulse pressure is measured, and the flow proceeds to the next step to determine whether the arterial pulse pressure data value satisfies the preset first reference value (= pressurized value suitable for measurement), that is, when the arterial pulse pressure data value is first detected. The detection and comparison is made to determine whether the data is necessary for the accurate determination of the maximum, maximum and average arterial pulse pressure data values. If the reference value is not reached, for example, if the data becomes irregular as shown in a of FIG. 3 (a) and (b), the process proceeds to the next step, repressurizes the air in the cuff 1, and returns to the previous step, thereby looping. Repeat In addition, if the first reference value is reached as a result of the determination, the process proceeds to the next step to determine whether the measured pulse pressure has reached the second reference value. Here, the second reference value is a data group preset for detecting an unsuitable condition of the blood pressure measurement state such as the movement of the subject. On the other hand, if the data value of arterial pulse pressure does not reach the second reference value in the judging step, for example, as shown in (b) of FIG. 4 (a) and (b), the subject is moved or the blood pressure measurement state is in an inadequate condition. The process proceeds to repressurize the air in the cuff 1 and returns to the previous stage to repeat the loop.

However, as a result of the determination, if the arterial pulse pressure data reaches the second reference value, the procedure proceeds to the next step to determine the highest, average, and lowest blood pressure sequentially. Then, the sequentially determined blood pressure measurement value is displayed to the outside through the display unit (b), and it is determined whether the blood pressure measurement operation is completed in the next step.

In addition, if the blood pressure measurement operation is not completed as a result of the determination, the loop returns to the first stage and repeats the loop. If the blood pressure measurement operation is completed, the blood pressure measurement operation is terminated.

On the other hand, according to another embodiment of the present invention, in the step of determining the data value of the arterial pulse pressure as the first reference value and the second reference value may be provided with a step of continuously checking the comparison period short.

As described above, the present invention, by converting the signal output signal of the pressure sensor for detecting the air pressure in the cuff is separated and judged the converted signal and automatically re-pressurized to the pressure value that can be measured when the set pressure value is not reached By doing so, it is possible to obtain accurate data of the highest, lowest, and average blood pressure, so that accurate diagnosis can be performed, and the pressure of the blood pressure measurement device is automatically re-pressurized even when the pressure is insufficient.

Claims (3)

A blood pressure measuring device having a cuff (1), which is a member that is worn on a measurement site and prevents blood flow, and a pressurizing portion (2) configured to pressurize the air in the cuff (1), wherein the air pressure in the cuff (1) A pressure sensor unit 3 configured to detect a pressure sensor, an A / D converter unit 4 configured to convert an analog air pressure detection signal detected by the pressure sensor unit 3 into a digital signal, and an A / D converter unit ( 4) The microcomputer 5 and the microcomputer 5 which determine the maximum, minimum, average blood pressure and pulse rate by separately detecting the pressure of the cuff 1 and the arterial pulse pressure value from the air pressure detection signal of 4) are displayed externally. Automatically re-pressurized blood pressure measuring device, characterized in that consisting of a display portion (6). Measuring the air pressure in the cuff through the pressure sensor unit; determining whether the air pressure in the cuff measured during the step has reached the set pressure value; if the air pressure in the cuff has reached the set pressure value during the step, Calculating an arterial pulse pressure value at pneumatic pressure; sequentially comparing the arterial pulse pressure value calculated during the step with a first reference value and a second reference value; and the arterial pulse pressure value calculated during the step is the first reference value and the second reference value. When the reference value is not reached, the cuff is automatically recompressed, and when the calculated arterial pulse pressure value reaches the first reference value and the second reference value, the calculated arterial pulse pressure value is compared. Automatically measuring the maximum, minimum, and mean blood pressure from the arterial pulse pressure value. A control method of blood pressure measurement device to be re-pressurized to. 3. The blood pressure automatically recompressed according to claim 2, wherein the step of comparing the arterial pulse pressure value with the first reference value and the second reference value may include a step of continuously checking the comparison period shortly. Control method of measuring device.