KR20100048587A - An air bag type humoral pressure sensing apparatus and a mat for the same - Google Patents

Abstract

PURPOSE: A body pressure distribution measuring device is provided to secure the uniformity of the pneumatic pressure between airbags by maintain the uniform amount of air inside the airbag. CONSTITUTION: A body pressure distribution measuring device comprises an airbag(110), a wallboard, a tube and a pressure sensor. The airbag comprises the air hole. The wallboard is respectively installed within airbag. The tube is communicated with the air hole of airbag. The pressure sensor senses the fluid pressure within each tube. The airbag is arranged within a cover(130) in matrix.

Description

Air Bag Type Humoral Pressure Sensing Apparatus and a Mat for the Same}

The present invention relates to a pressure distribution measuring instrument for measuring the pressure distribution of a measurement object. In particular, the present invention can be used to measure the pressure distribution of a person, and can be used to measure the pressure distribution in a state where a person is lying down. Thus, the pressure distribution of a particular person can be measured and used to select or customize a bed mattress suitable for that particular person according to the measured pressure distribution.

Man is composed of complex curved shapes, and the curved shapes are different from person to person. In addition, a person does not have a uniform weight, and each part has a different weight. For example, each person has different weights according to head, torso, hip and leg parts, which are main parts of the body, and thus the body pressure distribution is different for each person as well as for each part.

When lying on the bed as described above, the distribution of pressure applied to the bed, that is, the distribution of body pressure, is different for each person, and the bed mattress is generally manufactured uniformly regardless of the different body pressure distribution of the human being.

If you use a bed mattress that does not fit your body pressure distribution, it is difficult to get a good night's sleep. And, if you use a mattress that does not fit your body pressure distribution for a long time, it may cause a back disk.

Due to this problem, the body pressure distribution is recently measured to select a mattress that is suitable for the body pressure distribution of the user. That is, after measuring the body pressure of the user using the body pressure distribution measurement system to obtain the body pressure distribution, and select a mattress suitable for the measured body pressure distribution.

The selection of a suitable mattress according to the measured body pressure distribution can be made by various methods. For example, after defining the body pressure distribution by type and determining a suitable mattress according to each type, it is possible to check which type the measured body pressure distribution belongs to and select a mattress suitable for the type.

However, at this time, if the measured body pressure distribution is not accurate, the mattress selected according to the incorrect body pressure distribution may be meaningless. In other words, even if the mattress is selected according to the body pressure distribution, even if the measurement of the body pressure distribution is incorrect, it may be meaningless to select the mattress according to the body pressure distribution. Therefore, in order to select a mattress well suited to the user, it is important to measure body pressure distribution accurately.

The present invention relates to a body pressure distribution measuring device for measuring the body pressure distribution of a person. In particular, it is an object of the present invention to provide a body pressure distribution measuring instrument capable of measuring body pressure distribution more accurately.

An example of the body pressure distribution measuring device according to the present invention includes a plurality of airbags, a plurality of interior materials made of a restorative material respectively installed in the airbag, a plurality of tubes communicating with the air holes of the respective airbags, It may comprise a plurality of pressure sensors for sensing the fluid pressure in the tube.

The airbag may be filled with a fluid such as gas or liquid. Hereinafter, the case of using air will be described as an example.

The airbags each have an air hole. The interior materials are deformable and are made of a restorative material to maintain the appearance of the airbag.

When measuring the body pressure, the airbag is pressed by the pressure and the appearance is deformed. As described above, when the airbag is pressurized, the air therein is also pressurized. The pressure in the airbag is transmitted to the tube through the air hole and measured by a pressure sensor. That is, the body pressure distribution is measured by measuring the pressure in the airbag by a pressure sensor that senses the pressure in the tube.

Here, the pressure sensor may be in any form as long as it is suitable for measuring the pressure of the airbag according to the present invention. Sensors well known in the art may be used as the pressure sensor capable of measuring the gas pressure. However, it is preferable that the error is selected within the range of related conditions such as the temperature range and the measurement pressure range when measuring the body pressure distribution. Sensors that linearly output signals within the measurement range are preferred.

The airbags may be arranged in a matrix form. The airbags arranged in such a matrix form may form a mattress (hereinafter referred to as a 'body pressure measuring mat') to have a size sufficient to measure a body pressure distribution of a person.

The pressure sensors can be connected to a computer via an A / D converter. Thus, the pressure measured by the pressure sensors can be read through a computer and displayed on the monitor.

A unique program may be input to the computer so as to be suitable for the body pressure distribution measuring instrument according to the present invention. The measurer can easily measure the body pressure of the subject using a program of the computer while the subject is lying on the body pressure measuring mat.

Each of the pressure sensors may be defined by the location information of each airbag corresponding thereto. That is, it may be defined which airbag the pressure measured by the pressure sensor corresponds to which of the body pressure measurement mat. Thus, the pressures measured by the pressure sensors can be stored and displayed in a computer together with the location information of each corresponding airbag. In this case, the measurement result data may be displayed as a pressure value as a z coordinate with respect to a two-dimensional position coordinate which may be displayed as x and y for the body pressure measuring mat when displayed on the monitor. Alternatively, the measured pressure values may be represented by isobars separated by colors for two-dimensional position coordinates, which may be expressed as x and y for the body pressure measurement mat.

When measuring the body pressure, the air bag may be compressed and deformed by being pressed by the weight of the subject. After the body pressure measurement, the air bag is restored to its original form by the internal material in the air bag.

A certain amount of air is injected into the airbag, but since the volume of the air varies with temperature, it is difficult to keep the shape of the airbag constant. In this case, the air pressure in the airbag also changes. Thus, if there is only air in the airbag, the shape of the airbag is difficult to maintain and the air pressure may be reduced. In order to measure body pressure distribution more accurately, each air bag must be in good contact with the subject and there must be enough air pressure to support the subject's weight. However, in the case where only air is injected into the airbag, the volume and pressure of the air may be reduced by the influence of temperature, and thus, the measurement may not be made accurately due to poor contact with the subject or insufficient air pressure. In addition, the phenomenon in which the measurement may be inaccurate may be worse when the body pressure measurement mat is placed on a bed mattress having a curved surface and the body pressure is measured. In addition, when only air is injected into the airbag, it is difficult to inject the same amount of air into each airbag.

The interior material installed in the airbag maintains the shape of the airbag to reduce the problem of inaccurate measurements as described above.

The interior material maintains the shape of the airbag so that the amount of air therein can be kept constant, and also it is possible to ensure uniformity of air pressure to air amount between each airbag. Further, even if the surface on which the body pressure measuring mat is installed is bent, the airbag is maintained in a moderately tense state, so that such bending can be compensated for, so that the measurement can be made more accurately.

The interior material may be made of a breathable material.

The interior material may be made of a sponge. Here, the sponge may be an open cell sponge or a close cell sponge. In addition, the sponge may be made of polyurethane, although the sponge generally used may be used.

In addition, the interior material may be shaped to form an air chamber in communication with the air hole. For example, the interior material may be shaped to have the same shape as that of the airbag, but may have a circular air chamber in the center thereof. That is, a circular hole may be formed in the center of the quadrangle, and the circular hole in the center forms an air chamber. The air chamber is in communication with the air hole. Here, the shape of the air chamber may be other various shapes such as a square in addition to a circular shape.

When the airbags are arranged in a matrix form, the airbags in one row and the airbags in the neighboring row may be arranged so that the air holes face each other.

In addition, the tubes communicating with the airbags in the one row and the tubes communicating with the airbags in the neighboring row may be disposed between the rows.

In addition, the tubes are preferably thinner than the thickness of the airbags. This is to ensure that the pressure measurement of the airbag is not disturbed by the tube. In addition, the smaller the diameter of the tube, the faster the pressure change in the airbag can be transmitted.

The body pressure distribution measuring device according to the present invention maintains the shape of the airbag so that the amount of air therein can be kept constant, and also it is possible to ensure uniformity of air pressure to air amount between each airbag.

Further, even if the surface on which the body pressure measuring mat is installed is bent, the airbag is maintained in a moderately tense state, so that such bending can be compensated for, so that contact with the subject can be made smoothly.

In addition, the body pressure distribution measuring instrument according to the present invention has a high accuracy in measuring the temperature because the volume in the airbag is properly maintained by the interior material.

Therefore, according to the body pressure distribution measuring device according to the present invention, more accurate body pressure distribution can be measured.

1 shows a body pressure measuring mat 100 included in the body pressure distribution measuring apparatus according to the present invention.

The body pressure measuring mat 100 has an airbag unit 110 in which a plurality of airbags 111 are located at the center thereof, and at one edge thereof, a pressure sensor 122 for converting the pressure of the airbags 111 into a digital signal. And the data converter 120 in which the A / D converters 121 are located.

The airbag unit 110 is provided with a plurality of airbags 111 arranged in a matrix in the cover 130.

Each of the airbags 111 is connected to a tube 112. Each of the tubes 112 is connected to the airbags 111 and installed to extend to the data converter 120 located at one edge of the body pressure measuring mat 100.

Each tube 112 is connected to the A / D converter 121. In this case, each of the tubes 112 is connected to the A / D converter 121 through the respective pressure sensor 122. Thus, the pressure in each airbag 111 can be transmitted to the pressure sensor 122 through its corresponding tube 112 so that the pressure can be measured.

16 airbags 111 are installed on the body pressure measuring mat 100 in a horizontal direction and 38 in a vertical direction.

The A / D converter 121 is composed of 38 individual A / D converters 121 capable of receiving 16 signals. Sixteen tubes 112 connected to one row of airbags 111 are connected to one A / D converter 121 capable of receiving 16 signals.

The pressure in the airbags 111 in a 16 × 38 matrix array can be measured at one time through the 38 A / D converters 121 and converted into digital signals.

2 shows in more detail the arrangement of airbags 111 installed in the body pressure measuring mat 100.

As shown in FIG. 2, the airbag 111 installed in the cover 130 is connected to the tube 112. The tube 112 is disposed in the space between the air bags 111 in one row and the air bags 111 in the other row and extends to the edge of the body pressure measuring mat 100.

3 is an enlarged view of a portion corresponding to portion 'A' of FIG. 1. As shown in FIG. 3, the respective tubes 112 are connected to the A / D converter 121. Each of the A / D converters 121 is connected in parallel to the data processing device. The data processing apparatus may be a conventional computer.

The body pressure distribution data converted from the digital signal through the A / D converter 121 may be stored and displayed through the computer. The computer may be provided with a program for post-processing the measured body pressure distribution data. Thus, the body pressure distribution measured through the program can be displayed on a monitor in various forms.

In addition, the program may be set to the bed mattress suitable for each type of body pressure distribution. Thus, after determining what type of body pressure distribution the measured body pressure distribution belongs to, it is programmed to select a suitable bed mattress and display it on the monitor.

4 shows how the airbag 111 is connected to the A / D converter 121. One end of the tube 112 is connected to the airbag 111, the other end is connected to the A / D converter 121. At this time, a pressure sensor 122 is provided between the tube 112 and the A / D converter 121.

Thus, the air pressure in the airbag 111 is transmitted to the pressure sensor 122 through the tube 112 and measured, and the measured pressure is converted into a digital signal by the A / D converter 121.

5 shows the structure of the airbag 111 in more detail. As shown in FIG. 5, the airbag 111 has an air hole 116 on one side. In addition, a sponge made of polyurethane material is provided inside the interior material 114. Here, the interior material 114 is attached to the inner surface of the outer bag of the air bag 111 is installed. In addition, the envelope of the airbag may be made of linear low density polyethylene (LLDPE).

The interior material 114 has a circular hole in the center as the air chamber 115, the air chamber 115 is in communication with the air hole 116.

In addition, the tube 112 is connected to communicate with the air hole 116.

The amount of air contained in the airbag 111 is equal to the sum of the amount of air contained in the interior material 114 and the amount of air in the air chamber 115.

Here, other gases or other fluids may be injected into the airbag 111 in addition to air. That is, the body pressure distribution measuring device according to the present invention is not limited to injecting only air into the airbag 111. However, air may be preferable in terms of cost.

As the airbag 111 is pressed, the air pressure in the airbag 111 is changed, and the pressure is transmitted to the pressure sensor 122 through the tube 112 to be measured.

At this time, the diameter of the tube 112 is made sufficiently small so as not to interfere with body pressure measurement when disposed between the airbag 111 and the airbag 111. That is, even if the subject is lying on the body pressure measuring mat 100 and the airbag 111 is compressed, the tube 112 may be made small so as not to be pressed by the subject.

6 is a view for explaining a method of measuring the body pressure distribution with an embodiment of the body pressure distribution measuring apparatus according to the present invention.

First, the body pressure measuring mat 100 is spread on the bed mattress and connected to the computer 99.

Next, the zero point is set in the state in which no pressure is applied to the body pressure measuring mat 100. That is, the pressure of the airbag 111 is zeroed before measuring the body pressure of the subject.

Then, the subject is allowed to lie down on the body pressure measuring mat 100, and then a program in the computer 99 is executed to measure the body pressure distribution.

With the body pressure distribution measured as above, a bed mattress suitable for the subject can be selected and proposed.

When the measurement is finished and the subject comes out of the body pressure measuring mat 100, the airbags 111 are restored to their original shape by the interior materials 114 therein. As such, since the shape of the airbag 111 may be immediately restored, the next measurement may be accurately performed and may be immediately performed.

In addition, it is common that the surface of the bed mattress is not smooth and is formed with a lot of bending. The body pressure measuring mat 100 is provided because the airbags 111 are properly maintained due to the interior materials 114. Despite the same bend, more accurate measurements are possible.

If the interior material 114 is not present, the airbags 111 may not be in a taut state and may be in a loose state, such as a blown ball. In this case, the airbags 111 located in the depression of the curved bed mattress may be in contact with the subject. It may not work properly. In this case, the body pressure of the part that is not properly contacted cannot be measured accurately, and the airbags 111 of the other parts must support the weight of the subject further, so that accurate body pressure cannot be obtained. .

The above embodiments are merely examples of the present invention and should not be construed as limiting the claims of the present invention. The present invention may be practiced with modifications other than the above embodiments, and such various embodiments are also within the scope of the present invention. For example, the present invention is not limited to being used to select a customized bed, and the measured body pressure includes not only the part but also the whole body of the subject.

In addition, the body pressure measuring mat 100 may be made larger or smaller than the above embodiment depending on the purpose. The matrix arrangement of 16x38 is only one embodiment and may be increased or decreased in consideration of the intended use or precision.

1 shows an embodiment of a body pressure measuring mat according to the present invention.

2 shows an arrangement of air bags installed in the body pressure measuring mat.

3 is an enlarged view of a portion corresponding to portion 'A' of FIG. 1.

4 shows how the airbag is connected to the A / D converter.

5 shows the structure of the airbag in more detail.

Figure 6 shows an example of measuring the body pressure distribution with one embodiment of the body pressure distribution measuring instrument according to the present invention.

Description of the main parts of the drawing

100: body pressure measurement mat 111: air bag

112 tube 113 outer jacket

114: interior material 115: air chamber

116: air hole 121: A / D converter

122: pressure sensor

Claims (6)

A plurality of airbags each having an air hole; A plurality of interior materials, each of which is installed in the airbag, is deformable and made of a resilient material to maintain the appearance of the airbag; A plurality of tubes in communication with the air holes of each air bag; And A plurality of pressure sensors for sensing fluid pressure in the respective tubes; Body pressure distribution measuring instrument comprising a. The body pressure distribution measuring device according to claim 1, wherein the interior material is made of a breathable material. The body pressure distribution measuring device according to claim 2, wherein the interior material is a sponge. 4. The body pressure distribution analyzer of claim 3, wherein the sponge is an open cell sponge or a close cell sponge. The body pressure distribution measuring device according to claim 1, wherein the interior material is shaped to form an air chamber in communication with the air hole. cover; A plurality of airbags each having an air hole and disposed in a matrix arrangement within the cover; A plurality of interior materials, each of which is installed in the airbag, is deformable and made of a resilient material to maintain the appearance of the airbag; A plurality of tubes connected to the air holes of each air bag in the cover and extending to one edge of the cover; A plurality of pressure sensors for sensing fluid pressure in the respective tubes; And Body pressure measurement mat is installed on one side of the cover including an AD (A / D) converter for converting the analog signal of the pressure sensor into a digital signal.

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