JPS5849136A - Blood pressure measuring apparatus - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a blood pressure measuring device equipped with a display that digitally displays changes in cuff pressure.

Generally, this type of device is configured as shown in the first Wi. That is, a cuff (1) equipped with a pressure bag is equipped with a microphone (2) and a tube (3).
) are connected. Connected to this tube (3) are a rubber ball (4) used for pressurization, a constant speed exhaust device (5) for depressurizing at a constant rate, and a pressure sensor (6) for detecting internal pressure. has been done. Next, the above! The icrophone (2) and the pressure sensor (6) are connected to the electronic circuit section (
7), and this electronic circuit section (7) is connected to the display device (8).
It is connected to the.

Then, wrap the arm cuff (1) around your upper arm and attach the rubber ball (4).
When pressure is applied, the arm pressure line increases sequentially as shown in FIG. 3, and this pressure is displayed on the display (8) every moment. Then, my predicted systolic blood pressure value should be approximately 30■■ or higher.
Apply pressure at t and leave it. After that, the constant speed exhaust system (
5) The blood pressure is automatically lowered.

The rate of ζO blood pressure reduction is preset, but! -4 MlIIH9/a.

During such a drop in blood pressure, the brachial artery opens and a sound (hereinafter referred to as "X sound") is generated. The pressure at which the first sound occurs is called the systolic blood pressure, and the point at which the brachial artery is completely open and the JjK sound disappears is called the diastolic blood pressure.

ζOne problem here is the arm cuff pressure when the K sound occurs! ~4
This means that sumHp increases. When the exhaust speed is slow and the pulse rate is high, the blood pressure value at the time of sound X is higher than the blood pressure value immediately before the sound is generated, so that value is displayed on the display (8)K. Therefore, it has the disadvantage that it is not possible to accurately measure systolic blood pressure and diastolic blood pressure.

The present invention has been made in view of the above points, and an object of the present invention is to obtain a blood pressure measuring device that is not affected by pressure increases caused by ;-t;f sounds.

In the present invention, when the pressure decreases after increasing the arm cuff pressure, a filter circuit is provided that allows the decrease in pressure value to pass through but cuts the increase in pressure value, so that accurate measurement values can be obtained without the influence of the Korotkoff sound due to the increase in pressure. %O configured so that it can obtain
Deaaa.

An embodiment of the present invention will be explained based on FIGS. 3 and 4. Since the overall configuration is the same as that shown in FIG. 1, the same reference numerals are used. First, the pressure sensor (6) is connected to the amplifier (9), and this amplifier (9) passes through the filter circuit (to), JyD Pumpata α Ling! This microphone is connected to the Ikua combinator (2) and the computer (
2) is connected to a display (8).

Therefore, the filter circuit (G) is connected to the OP amplifier (2).
On the output side of ), a diode (14) marked as ) is connected in the opposite direction and a resistor R1 is connected, and in parallel with the diode a◆, marked as SW, 9 analog switch (2)
is connected. This analog switch (to) 11d
-r connected to and controlled by the microcombinator (6). That is, when pressurizing, the expanded analog switch (2) is in a conductive state, and when the peak value is reached and the exhaust state appears, the microphone 4 computer (b) senses this and turns off the analog switch (2).

In such a configuration, since the analog switch (to) is conductive during pressurization, the arm cuff pressure increases sequentially, and this is stored in LIK and displayed on the display (8). Then, when the pressure becomes reduced and the pressure starts to drop, the analog switch (2) turns OFF.
L. Even if the arm cuff (1) is newly pressurized and the pressure rises due to the sound, it is cut off by the diode a◆ and the display shows 11 before the pressure rise. Therefore, the pressure on the microphone combiator (6) K should be smooth as shown in Figure 4, and based on the generation and disappearance of sound during this period, the pressure on the microphone combinator (6) K should be smooth without any pressure increase due to the sound. Systolic blood pressure and diastolic blood pressure are determined.

In the present invention, as described above, a filter circuit is installed in the pressure value data transmission line to cut off the increase in pressure value at the time when the arm cuff is pressurized and then depressurized. It is possible to obtain blood pressure values without the influence of sound, which allows accurate measurement values to be obtained even if the blood pressure is lowered slowly, and errors may occur even in people with a fast pulse rate. This has the effect of expressing things.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the general configuration of a blood pressure needle. FIG. 2 is a graph showing changes in arm band pressure in the conventional art, FIG. 3 is a circuit diagram showing an embodiment of the present invention, and FIG. 4 is a graph showing changes in arm band pressure.

Claims (1)

[Claims] By pumping air into the arm cuff wrapped around the upper arm and pressurizing it, the upper arm is pumped with blood, and then the air is exhausted and lowered. systolic blood pressure and diastolic blood pressure by detecting the systolic blood pressure and diastolic blood pressure, the blood pressure measurement is characterized in that a filter circuit is provided in the pressure value data transmission line to cut off the increase in pressure value after the start of blood pressure reduction. Device.