KR100836272B1 - Blood separator using vacuum flotation - Google Patents

Abstract

A blood separator using vacuum flotation is provided to separate the blood cells like red blood cell, white blood corpuscle and platelet included in the blood from the blood plasma. A blood separator using vacuum flotation separates blood plasma and blood corpuscle from the whole blood, and includes a tube(1) and a vacuum formation device(4). The whole blood is stored in the sealed tube. In the tube, minute air bubbles that are generated when the pressure of the saturated air is reduced are attached to the blood cells and the blood cells ascend to separate the blood plasma and the blood cell. The vacuum formation device decompresses the inside of the tube to a negative pressure to discharge the air inside the tube by using the difference in pressure.

Description

Blood separator using vacuum flotation

1 is a block diagram showing an example of a blood separator according to the present invention,

2 is a block diagram showing another example of a blood separator according to the present invention,

Figure 3 is a block diagram showing another example of a blood separator according to the present invention,

4 is a schematic diagram showing a separation process of blood;

   (a) Before opening the valve 22a

   (b) after opening the valve 22a

   (c) after separation by vacuum.

<Description of the symbols for the main parts of the drawings>

1: tube

2: lid

  21: compressed air supply pipe

     21a, 22a, 23a: valve

  22: connector

  23: pressure control pipe

  24: pressure sensor

3: air supply device

  31: compressor

4: vacuum forming apparatus

  41: vacuum pump

  42: vacuum chamber

The present invention relates to a device for separating plasma from collected whole blood, and more particularly, blood using a vacuum wound that allows to separate plasma by injuring cells in the blood by using the force of air bubbles (bubbles). Relates to a separator.

Furthermore, the present invention lowers the internal pressure of the tube in which the blood is stored to be in a vacuum state, so that dissolved air is generated as a bubble and attached to the blood cells included in the whole blood, and the blood is separated through the flotation force of the bubble. The cells tend to move to a lower pressure, which increases the effect of separating and increasing the separation of blood, and the blood separator using a vacuum wound allows the separated plasma to be discharged without being mixed with whole blood again. will be.

As a means of diagnosing the state of health of humans, biochemical tests of body fluids, especially blood, are widely carried out.

In the analysis method, the measurement method by the chromatographic sensor using an antigen antibody reaction is used widely.

However, it is difficult to measure the type and concentration of constituents in the blood such as metabolites, proteins, fats, electrolytes, enzymes, antigens, antibodies and the like as whole blood. For this reason, the conventional general blood component analysis method requires several working processes, such as separating the pre-bleeded blood with a centrifuge and analyzing it with an analyzer or a biosensor using the obtained plasma or serum.

The centrifuge for separating blood consists of a bucket into which a tube in which a sample is stored is inserted and a rotor for rotating the bucket.

In the case of such a centrifuge, in order to balance the centrifugal force, a tube having the same weight as the tube in which the sample is stored must be inserted into a bucket on the opposite side of the sample storage tube, which is troublesome and takes a long time to separate a sample.

The present invention has been invented to solve the problems of the prior art as described above, an object of the present invention is to provide a blood separator using the flotation force of the bubble to separate blood cells, such as red blood cells, white blood cells, platelets, and the like contained in the blood plasma It is done.

Furthermore, the present invention lowers the internal pressure of the tube in which the blood is stored so that dissolved air in the blood is generated as bubbles and attached to the blood cells, thereby increasing the blood separation effect by the flotation force of the bubbles attached to the blood cells. An object of the present invention is to provide a blood separator using floating force.

Blood separator using the flotation force of the air bubble according to the present invention for solving the above technical problem, in the device for separating plasma and blood cells from whole blood, the whole blood is stored, the dissolved air pressure by the vacuum A closed tube in which plasma and blood cells are separated by bubbles being attached to the blood cells after the solubility is reduced and bubbles are attached to the blood cells due to the decrease; An air supply device for saturating air inside the tube; It characterized in that it comprises a vacuum forming device for reducing the inside of the tube in a vacuum state.

Hereinafter will be described in detail to enable those skilled in the art to easily understand and reproduce through embodiments of the present invention.

1 is a block diagram showing an example of a blood separator according to the present invention, Figure 2 is a block diagram showing another example of a blood separator according to the present invention, Figure 3 is another example of a blood separator according to the present invention 4 is a schematic diagram showing a separation process of blood.

Blood separator using the flotation force of the bubble according to the present invention, as shown in Figure 1, the air supply device for supplying air to the whole blood, and the air dissolved from the air supply device 3 is dissolved The tube (1) and the tube (1), which is generated as a bubble due to the decrease in solubility due to the pressure decrease, adheres to the blood cells in the blood and gives rise to the blood cells so that the blood cells are injured so that only the plasma remains at the bottom. And a vacuum forming apparatus 4 for making the inside of 1) into a vacuum state.

The tube (1) is a cylinder having an open top, and whole blood is stored therein.

The tube (1) should have a structure that can be opened and closed because the blood should be stored therein, in order to form a structure that can be opened and closed to open the top and to install the lid (2) to open and close the tube (1) and It should be sealed to prevent air leakage between the caps (2).

The vacuum forming apparatus 4 is composed of a single device, that is, only the vacuum pump 41, as shown in Figure 1 by forcibly sucking and discharging the internal air of the tube (1) in the vacuum pump 41 tube (1) The inside of) can be vacuumed.

However, when the internal air of the tube 1 is directly evacuated by the vacuum pump 41, the air displacement of the air cannot be smoothly adjusted, and as shown in FIG. 3 between the vacuum pump 41 and the tube 1. Similarly, the vacuum chamber 42 can be further installed.

The vacuum chamber 42 is a cylindrical body having a predetermined predetermined space, and the air therein is discharged by the driving of the vacuum pump 41 so that the inside maintains a vacuum state.

A valve 22a is installed in the connection pipe 22 connected between the vacuum chamber 42 and the tube 1 to adjust the degree of vacuum of the tube 1.

In addition, the air supply device 3 is connected to the lid 2 so that the air generated from the air supply device 3 is supplied to the inside of the tube 1.

The air supply device 3 should be capable of supplying high pressure air to the inside of the tube 1 as far as possible, and a compressor or the like may be used to satisfy such conditions, and the lid 2 may be provided by the compressed air supply pipe 21. Is connected to. In addition, at the stop of the compressed air supply pipe 21, the valve 21a is further installed to adjust the amount of air supplied.

Sufficient air is supplied to the inside of the tube 1 by the air supply device 3 to dissolve it, and when the pressure is reduced by the vacuum forming device 4, bubbles are generated, and the bubbles are formed by blood cells in the blood. Combined. In order for the bubbles to be generated, and the blood cells to which the bubbles are attached are more rapidly injured, it is preferable that the internal air pressure of the tube 1 is low. The above-mentioned vacuum forming apparatus 4 is provided as a means for making the inside of the vacuum in a vacuum state.

The upper part of the tube 1 is further provided with a pressure control pipe 23 for discharging air to the outside to maintain the atmospheric pressure and saturate the air, the pressure control pipe 23 is provided with a valve (23a) have.

In addition, the pressure control tube 23 is also used as a means for allowing air outside the tube (1) to open slowly after the blood cells attached to the bubbles are separated and separated. That is, it is a means for supplying air so that the pressure in the tube 1 may become atmospheric pressure in the state in which the blood was separated.

As described above, the tube (1) should have a structure that can be opened and closed because the blood is to be stored therein, so that the top is opened and the lid (2) can be opened and closed to form such a structure that can be opened and closed. The air must be sealed between the tube (1) and the lid (2) to prevent leakage of air.

The lid 2 is connected to the compressed air supply pipe 21, the connection pipe 22, the pressure control pipe 23, the pressure sensor 24 for measuring the pressure inside the tube 1 is installed in the tub The pressure inside the tube 1 can be adjusted by sensing the pressure inside the bar 1 and viewing the detected pressure to control the valves 21a, 22a, 23a installed in the respective tubes 21, 22, 23.

Hereinafter, the operation of the blood separator according to the present invention configured as described above.

First, after the blood to be separated into the tube 1 is driven, the air supply device 3 is driven to supply sufficient air to the inside of the tube 1 to saturate the air stored in the blood stored in the tube 1. To become.

That is, the valve 22a is closed and the air supply device 3 is driven while the valves 21a and 23a are opened to allow air to be saturated in the blood under atmospheric pressure inside the tube 1.

When the air supplied by the air supply device 3 is sufficiently saturated in the blood, the driving of the air supply device 3 is stopped, the valves 21a and 23a are closed, and the vacuum pump is opened with only the valve 22a open. An internal air of the tube 1 is discharged to the outside by driving the 41.

At this time, saturated air is generated in the blood in the tube 1 as bubbles due to the pressure decrease, as shown in FIG.

At this time, when the vacuum chamber 42 is installed between the tube 1 and the vacuum pump 41, the valve 22a is also closed, and the vacuum pump 41 is driven to discharge the air from the vacuum chamber 42 to vacuum. After the tub 42 is in a vacuum state, the amount of opening of the valve 22a is adjusted to allow the internal air of the tube 1 to flow into the vacuum chamber 42 so that the internal air of the tube 1 is discharged. .

When the inside of the tube 1 is sufficiently vacuumed by the above process, bubbles attached to the blood cells are injured while the blood cells are also injured. As shown in FIG. Gathered at the top of the

When blood cells are injured by air bubbles and collect on the upper part of the tube 1, the valves 21a and 22a are closed and only the valve 23a is opened to allow external air to flow into the tube 1. .

At this time, by adjusting the opening amount of the valve (23a) by suddenly the outside air flows into the inside of the tube (1) to prevent the separated blood inside the tube (1) to be mixed again.

When the internal pressure of the tube 1 is opened to the atmospheric pressure state by opening the valve 23a, the lid 2 is opened, and blood cells separated on the upper part of the tube 1 are removed with a pipette or the like. You can use it for analysis.

As described above, the present invention makes the separation of blood easier by separating the blood cells and plasma by causing the air bubbles to saturate air into the blood and causing the fine air bubbles generated by the pressure decrease to adhere to the blood cells in the blood. It can work.

In addition, the present invention by increasing the air force of the bubbles contained in the blood by increasing the internal air pressure of the tube by the vacuum forming apparatus to a vacuum state, thereby increasing the efficiency of blood separation, thereby improving blood separation efficiency There is.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many different and obvious modifications are possible without departing from the scope of the invention from this description. Therefore, the scope of the invention should be construed by the claims described to include many such variations.

Claims (8)

In the device for separating plasma and blood cells from whole blood, A closed tube (1) in which whole blood is stored, and fine air bubbles generated by a decrease in pressure of saturated air are attached to the blood cells and plasma and blood cells are separated by the injury of blood cells; And a vacuum forming device (4) configured to discharge the air inside the tube (1) through a pressure difference to decompress the inside of the tube (1) in a vacuum state. The method of claim 1, The tube (1) is a blood separator using a vacuum flotation, characterized in that the air supply (3) is further connected to supply air to the inside thereof. The method of claim 2, The air supply device (3) is a blood separator using a vacuum wound, characterized in that the compressor connected to the lid (2). The method of claim 3, wherein The tube 1 is open at the top and the lid 2 is further installed on the open top, The vacuum forming device (4) is a blood separator using a vacuum wound, characterized in that connected to the lid (2) through a connecting pipe (22). The method of claim 3, wherein The vacuum forming device (4) is a blood separator using a vacuum float, characterized in that it comprises a vacuum pump 41 for sucking the air of the tube (1) and discharge it to the outside. The method of claim 5, Blood separator using a vacuum wound, characterized in that the vacuum pump 42 is further installed between the vacuum pump 41 and the tube (1). The method of claim 6, The upper portion of the tube (1) is further provided with a pressure control tube 23 to allow the outside air to be introduced or discharged to adjust the pressure inside the tube (1), the pressure control tube 23, the valve 23aa Blood separator using a vacuum wound, characterized in that is provided. The method of claim 7, wherein The lid (2) is a blood separator using a vacuum wound, characterized in that the pressure sensor 24 for detecting the pressure inside the tube (1) is further provided.

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