JPS63234945A - Hemomanometer - 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 [Technical Field] The present invention relates to a blood pressure monitor that measures blood pressure in important parts of the human body.

[Background Art] Conventionally, this type of sphygmomanometer for measuring blood pressure in important parts of the human body has been used, as shown in FIG. is wound around the blood pressure monitor body 15 to measure blood pressure. By the way, in such a sitting measurement state, there is almost no vertical level difference between the upper arm, which is the measurement site, and the heart, so the blood pressure value measured in the upper arm is different from the blood pressure value in the aorta. They can be considered equivalent. In addition, as shown in FIG. 13, since the human body is kept horizontal at the part where the person M is lying on the bed,
Similar results are obtained with almost no vertical level difference between the measurement site and the heart site. However, with a blood pressure monitor that measures blood pressure by attaching Mancheftro to the wrist of the subject M, accurate blood pressure values can be obtained when measuring the area shown in Figure 13; As shown, there is a problem in that a normal blood pressure value cannot be obtained when the measurement subject M is in a sitting position sitting on a chair. That is, when measuring in a sitting position, a vertical level difference H occurs between the wrist, which is the measurement site, and the heart site.
There was a problem in that the intravascular pressure increased by the weight of blood corresponding to the weight of the blood, resulting in high blood pressure values. In addition, ff114
When blood pressure is measured in a sitting position as shown in the figure, the intravascular pressure is high, so even if the blood pressure value appears high, the measurement result is correct. Generally speaking, blood pressure values refer to blood pressure values in the aorta, so there has been a problem in that measurements at other locations are meaningless.

[Object of the Invention] The present invention has been made in view of the above points, and its purpose is to maintain blood pressure in the aorta even if there is a vertical level difference between the measurement site and the heart site. The objective is to provide a blood pressure monitor that can obtain blood pressure values.

[Disclosure of the Invention] (Structure) The present invention comprises: J74: a blood pressure measuring means for measuring blood pressure values of important parts of the human body; and a blood pressure correcting means for correcting the blood pressure values measured by the blood pressure measuring means. , the blood pressure correction means is configured to correct the blood pressure value according to the vertical level difference between the measurement site and the heart site, and there is a vertical level difference between the measurement site and the heart site. The present invention also provides a sphygmomanometer capable of obtaining blood pressure values in the aorta.

(Example 1) Figures 1 to 6 show an example of the present invention.
A blood pressure measuring means 1 for measuring the blood pressure value of the main body part and a blood pressure correcting means 2 for correcting the blood pressure value measured by the blood pressure measuring means 1 are arranged in a direction perpendicular to the measuring part and the heart part. The blood pressure correction means 2 is configured to correct the blood pressure value according to the level difference H between the two. Here, in the embodiment, the blood pressure measuring means 1 is a pressurizing/depressurizing device consisting of a manchettro, which is attached to the measurement site of the subject, a pressurizing pump that pressurizes air into the manchette 6, and rapid and constant speed exhaust means. means(
(not shown), a pressure detection means 8 which detects the air pressure inside the cuff 6 and outputs it as a cuff pressure value, and a Corotkoff which detects the Korotkoff sound from the micro 7 on 7 output which is self-introduced to the cuff 6 in a constant speed exhaust state. 7 sound detection means 9;
The systolic blood pressure value is the cuff pressure value at the time when the Korotkoff sounds occur, and the float.

The blood pressure value determining means 10 determines the cuff pressure value at the time when the core sound disappears as the diastolic blood pressure value.

Further, the blood pressure corrector 1'i2 is connected to the first blood pressure value input means 1.
1, second blood pressure value input means 12, and calculation means 13. Further, in the embodiment, the blood pressure value is corrected based on a correction function which is a correction value set in advance corresponding to the level difference H in the vertical direction, and the blood pressure value corrected by the blood pressure correction means 2 is The value is displayed on display 3. Control of the blood pressure display on the display 3 is performed via the control means 5 by manipulating the keys of the key means 4. In the embodiment, the blood pressure measurement means 1 measures blood pressure by auscultation method in which blood pressure is determined by Korotkoff sounds, but blood pressure is determined based on the pulse wave signal level superimposed on the cuff pressure. It goes without saying that blood pressure measurement may be performed using the vibration method (oscillometric method).

The operating principle of the embodiment will be explained below. Now, when the level difference H is H,, H2, the measured blood pressure value P,
, P2 changes according to the level difference H, and this change is expressed as
For example, as shown in the fJS3 diagram, the fluctuation of the level difference H (H
1→H2), the measured blood pressure value P changes linearly (p+
→P2), the blood pressure value P0 at a height corresponding to the heart region (H=0) can be easily determined by calculation.

With this blood pressure value P0 as the reference value, the correction values C+(=P l-P O), 02(=P
2 P 0) is required. By setting a straight line connecting the correction values C+tC2 as shown in the tJSA diagram obtained in this way as a correction function, you can easily connect the measurement site and the heart when measuring blood pressure from now on. By simply inputting the level difference (H) between site a and the above correction function, changes in the load resistance of the artery depending on the measurement posture, such as sitting on a chair or lying on the bed, and differences in the measurement site can be calculated. It is also possible to accurately measure blood pressure values, which vary depending on an individual's physical and mental condition.

Figure MS6 is a flowchart showing specific operations. First, when performing the first blood pressure measurement, it is necessary to perform an initial setting operation to set a correction function. Level difference between measurement sites H,,
With H2 set to a predetermined value, blood pressure values PI-P2 are measured by the blood pressure measurement means 1, and the measured blood pressure values P, -, P2 are tJSl, and the second blood pressure value input means 1
1.12 to the calculation means 13. The calculation means 13 calculates a correction value C1- based on the positive values P, , P2 at both points.
In addition to finding C2, between corrections! ! The straight line connecting k (CI, Cz) is determined and stored in the storage means. In this case, the person M is made to take a posture as shown in Fig. 5, and the level difference H,
, Instructions for setting H2 to a predetermined value include ``Keep the measurement site several centimeters higher than the heart area,'' ``Keep the measurement site at head height,'' and ``Keep the measurement site at the same height as the eyebrows.'' ”、・
It gives specific instructions such as... In addition, as a storage means for storing the correction function,
By using a nonvolatile memory or a memory with a backup power supply, once the initial setting operation for setting the correction function is performed, there is no need to perform the initial setting operation for subsequent blood pressure measurements even if the power is turned off. This greatly simplifies measurement operations.

Next, when the initial setting operation is completed or when the initial setting operation is not required, an instruction to input the level difference H7 of the measurement area is first displayed on the display 3, and the person to be measured When the level difference H3 is manually pressed according to this instruction, the display 3 displays that the blood pressure measurement is for the level difference H. The person to be measured follows these instructions to maintain the measurement site at a predetermined level (H), presses a key to that effect, and the blood pressure is measured.

The measuring means 1 operates to measure blood pressure, and
In the correction means 2, the measured blood pressure value is corrected based on the correction function, and the corrected blood pressure value, that is, the blood pressure value of H=0, is displayed on the display 3.

In addition, it goes without saying that the initial setting operation is omitted when measuring continuously. Further, it is also possible to obtain a blood pressure value with an arbitrary level difference H (any value other than H=0) by correction.

As mentioned above, in the embodiment, even if the vertical level difference H between the measurement site and the heart site differs, it is equivalent to always measuring with the same level difference H by performing correction based on the correction function. This has the effect that measurement errors due to changes in the level difference H between the measurement sites are corrected and accurate measurement values are always obtained.

(Example 2) Figure tJS7 and Figure tjS8 show other examples, in which the correction value Cf! is preset by the level difference input means that inputs the level 5H in the vertical direction. :The blood pressure correction means 2 is formed so as to be selective. Note that the correction value C corresponding to the level difference H may be stored in the correction value table memory, or may be stored as a correction function as in the first embodiment.

When measuring blood pressure, first, an instruction for the posture to be maintained at the time of measurement and an instruction to input the level difference H in that posture are displayed on the display 3, and the level difference manually entered by the key is set as Hl. With this posture maintained, the blood pressure value is measured by the blood pressure measurement means 1, and the blood pressure correction means 2 reads out the correction value C1 corresponding to the level difference H7 from the correction value table memory and performs correction, and the corrected blood pressure is Display the value on the display.

It has become. In this case, blood pressure measurement is performed with the measurement conditions other than the level difference H fixed, so the true blood pressure value can be obtained by simply inputting the level difference H3 without having to perform measurements many times. Blood pressure measurement has become easier.

(Example 3) Figures 9 to 11 show still another example,
The correction value C is switched by mode selection means consisting of a changeover switch 1G that selects between a sitting mode in which the measurement subject M is seated and a body part mode in which the measurement is carried out while lying down, and the selected mode is light emitting diode 17
a, 17b.

Now, when the power is turned on, the blood pressure measurement mode is initially set to the sitting mode, and when the changeover switch 16 for changing the measurement mode is pressed, the blood pressure measurement mode is cyclically switched each time it is pressed ( By pressing the start switch 18, blood pressure measurement is started in the blood pressure measurement mode set at that time. Here, blood pressure correction means 2
The correction values C1-C2 for each measurement mode (sitting mode, body part mode) are set in advance, and the blood pressure value measured by the blood pressure measurement means 1 is determined by the measurement mode selected by the blood pressure correction means 2. The corrected true blood pressure value is displayed on the display 3 based on the corrected values C,,C,. In this way, in this embodiment, the true blood pressure value can be obtained by simply fixing the measurement site and switching the measurement conditions using the mode selection means, making the blood pressure measurement operation easier. It has become.

[Effects of the Invention] As described above, the present invention includes a blood pressure measuring means for measuring blood pressure values of important parts of the human body, and a blood pressure correcting means for correcting the blood pressure values measured by the blood pressure measuring means. The blood pressure correction means is configured to correct the blood pressure value according to the vertical level difference between the measurement area and the heart area, and the blood pressure value corrected according to the level difference can be obtained. Even if there is a vertical level difference between the two regions, the blood pressure value in the aorta can be obtained.

[Brief explanation of the drawing]

FIG. 1 is a block circuit diagram of one embodiment of the present invention, FIG. 2 is a block circuit diagram of the main part of the same as above, FIGS. 3 to 6 are operation explanatory diagrams of the same as above, and FIGS. 7 and 8 are FIGS. 9 to 11 are explanatory diagrams of operations of the embodiment, and FIGS. 12 to 14 are explanatory diagrams of blood pressure measurement states. 1 is a blood pressure measuring means, and 2 is a blood pressure correcting means. Agent Patent Attorney Ishi 1) 7 Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 (a) (b)

Claims (4)

[Claims] (1) A blood pressure measuring means for measuring a blood pressure value of an important part of the human body, and a blood pressure correcting means for correcting the blood pressure value measured by the blood pressure measuring means, and a level in the vertical direction between the measuring part and the heart part. A blood pressure monitor characterized in that a blood pressure correction means is formed to correct the blood pressure value according to the difference. (2) The blood pressure correction means is formed to correct the blood pressure value based on a preset correction value or correction function corresponding to the level difference in the vertical direction. Sphygmomanometer. (3) A blood pressure monitor according to claim 1, characterized in that the blood pressure correction means is formed so that a preset correction value is selected by a level difference input means for inputting a level difference in the vertical direction. . (4) The correction value is switched by a mode selection means that selects between a sitting mode in which the measurement subject is seated and a supine mode in which the measurement is carried out while the subject is lying down. The blood pressure monitor mentioned.