KR101354959B1 - A separator for stem cell - Google Patents

Abstract

The present invention relates to a separator for stem cells. More specifically, the separator for stem cells smoothly transfers and extracts stem cells by automatically separating the stem cells. Therefore, the stem cells and adipose tissues are cleanly separated and extracted, and a separation process and an extraction process of the stem cells are rapidly and safely performed. A transfer rate of a fluid in a transfer pipe in the extraction process is regularly and uniformly maintained without errors.

Description

Stem cell separator {A separator for stem cell}

The present invention relates to an apparatus for separating stem cells, and in particular, by automatically separating and forming stem cells to be smoothly transported and extracted, not only can cleanly extract stem cells and adipose tissue, etc. without contamination, stems The separation and extraction process of the cells was made to be faster and safer.

In general, stem cells have the ability of self-replicating and have the ability to differentiate into two or more cells. Recently, studies have been conducted to obtain stem cells from adipose tissue in addition to bone marrow.

Adipose-derived stem cells isolated from adipose tissue are multipotent stem cells with the ability to differentiate into various types of cells such as fat cells, muscle cells, chondrocytes, and bone cells.

Compared to the mesenchymal stem cells of bone marrow origin, these adipose stem cells have excellent self-renewal ability and easy in vitro culture, and are rich in adipose tissue that can separate adipose stem cells, and are simple and safe to collect. The functional stem cells were found to have almost the same characteristics, such as differentiation ability, cytological characteristics, immunological characteristics, and tissue regeneration ability, even when compared with the mesenchymal stem cells of bone marrow origin.

In other words, adipose stem cells are very useful for stem cells having a high possibility of replacing mesenchymal stem cells of bone marrow origin.

Also, compared with mesenchymal stem cells, adipose stem cells are easier and safer to acquire tissues, and have merit without restriction on tissue supply and facilitation of in vitro culture. It is said to be above the cell.

Therefore, conventionally, various separation and extraction systems have been studied in order to isolate and extract the stem cells. In recent years, the apparatus for separating stem cells by centrifugal force has been developed.

Such a conventional stem cell separation and extraction apparatus, the main body driven to extract the stem cells, the centrifuge to separate the stem cells, the transfer unit connected to transfer the separated liquid, and the transfer pipe It consists of a sensor to detect the liquid, the peristaltic pump to transfer the liquid in the transfer pipe, and a separation unit for detecting, controlling and classifying the transfer of the liquid, the stem cell layer is automatically separated and extracted.

However, the above-described conventional stem cell separation extracting device is not easy to obtain effective cell separation in centrifugal separation, which is inefficient due to the extremely small number of cells that can be obtained.

In addition, the extraction and separation process of the stem cells takes a long time, as well as the damage of the effective cells had a lot of disadvantages, exposed to the outside has raised the problem of safety due to contamination and infection.

In order to solve the above problems, the present invention, by automatically separating the stem cells formed to be smoothly transported, extracted, it is possible to cleanly separate and extract stem cells and adipose tissue, etc., separation, extraction process of stem cells This is not only faster and safer, but also aims to maintain a constant and uniform flow rate of the liquid in the transport pipe during the extraction process without errors.

The present invention provides a separator main body formed with a display unit for displaying the operation state of the stem cell separation process, a cradle for mounting the saline pack, and a treatment solution storage box for placing the waste water collected therein for washing treatment solution;

A centrifugal separation member which is equipped with a container into which adult tissue has been injected, and is formed to separate and extract a stem cell layer by centrifugal force;

A transfer pipe connected and formed to transfer the liquid separated from the centrifugal separation member;

A sensor for fixing the transfer pipe to detect a liquid in the transfer pipe;

A peristaltic pump member which is formed to transfer the liquid in the conveying tube, and has a rotary tool for conveying the liquid in the conveying tube by rotation;

In the stem cell separator consisting of a pinch valve for controlling the movement of the liquid in the delivery pipe, and a stator member formed with a pressure sensor for sensing the pressure in the delivery pipe,

The sensor is formed to detect a liquid in the transport pipe, and is formed as a cover having a protrusion to fix the transport pipe;

The rotational opening of the peristaltic pump member is formed of a guide portion for allowing the transfer pipe to be guided and guided, a roller portion rotated to pressurize and transfer the liquid in the transfer pipe, and a spring for restoring the roller portion by elasticity. ;

The pinch valve of the fixing member is pivoted to fix the conveying tube by rotation, a solenoid portion to be operated by a control signal, and moved up and down by driving of the solenoid portion to transfer the liquid in the conveying tube. To form a blocking device for blocking and controlling;

It is characterized in that the configuration.

As described above, the present invention is formed by automatically separating the stem cells to be transported and extracted smoothly, it is possible to cleanly separate and extract stem cells and adipose tissue, etc., the separation, extraction process of stem cells is more Not only is it fast and safe, it is an advantageous invention to maintain a constant and uniform amount of the liquid in the transfer pipe during the extraction process without errors.

1 is a perspective view showing a stem cell separator of the present invention, Figure 2 is a perspective view showing a sensor of the present invention, Figure 3 is an exploded perspective view of the rotary sphere of the present invention, Figure 4 is an operation of the pinch valve of the present invention It is the front view which showed the state.
In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings.
In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1 and 2, the present invention is connected to the separator body 10 driven to extract the stem cells, the centrifugation member 20 to separate the stem cells, and transported the separated liquid Transfer tube 30, sensor 40 to fix the transfer tube to detect the liquid in the transfer tube, peristaltic pump member 50 to transfer the liquid in the transfer tube, and detect and control the transfer of the liquid It consists of a holding member 60 to be.

The separator body 10 is a display unit 11 for displaying the operating state of the stem cell separation process, a cradle 12 for mounting the saline pack, and a treatment to settle the waste hundreds in which the washing treatment solution is collected. A liquid storage box 13 is formed.

The centrifugal separation member 20 is equipped with a container into which adipose tissue and stem cells are inserted, and is formed to separate and extract the stem cell layer by centrifugal force.

The transfer pipe 30 is connected and formed to transfer the liquid separated from the centrifugal separation member 20.

The sensor 40 is formed to detect the liquid in the transfer pipe, and forms a cover 41 having a protrusion 42 for fixing the transfer pipe 30.

The peristaltic pump member 50 is formed to convey the liquid in the conveying tube, and forms a rotary hole 51 for conveying the liquid in the conveying tube by rotation.

The rotary hole 51 is a guide portion 52 for guiding the guide pipe 30 is inserted, guided roller portion 53 is rotated to pressurize and transport the liquid in the transfer pipe, and the roller portion 53 To form a spring 54 to be restored by elasticity.

The fixing member 60 forms a pinch valve 61 for controlling the movement of the liquid in the conveying pipe, and a pressure sensor 62 for sensing the pressure in the conveying pipe.

The pinch valve 61 is a rotational opening 63 for fixing the transfer pipe 30 by rotation, a solenoid portion 64 for operating by a control signal, and driving of the solenoid portion 64. It moves up and down by to form a block 65 to block and control the transfer of the liquid in the transfer pipe.

Hereinafter, with reference to the accompanying drawings, the operation and effect of the configuration of the present invention will be described in detail.

As shown in FIG. 1, the adipose tissue, etc. are introduced into the centrifuge member 20 and mounted thereon, and the saline pack is placed on the holder 12 of the separator body 10. After the waste water bag is placed on the back panel, the transfer pipe 30 is connected to each part, and the stem cell separator is driven by a power source. Each process is displayed through the display unit 11. will be.

The liquid separated and extracted by the centrifugal separation member 20 is moved to the inside of the transfer tube, so that the sensor 40 detects the liquid in the transfer tube.

In this case, as shown in FIG. 2, the cover 41 of the sensor 40 blocks the illumination, so that the detection of the liquid state in the delivery pipe may be more accurate, and the protrusion 42 of the sensor 40 may be more accurate. Through it will be able to firmly secure the transfer pipe (30).

And, as shown in Figure 3, the transfer pipe 30 is recessed in the guide portion 52 of the peristaltic pump member 50, the liquid inside the transfer pipe 30 by the pressure of the roller portion 53 Will be transported smoothly.

In addition, due to the spring 54 of the rotary ball 51, the roller portion 53 is embedded, and restored, to compensate for errors such as the difference in the thickness of the transfer pipe 30, transfer pipe 30 It is possible to maintain a constant and uniform amount of transport of the liquid in the interior.

As shown in Figure 4, by the pinch valve of the fixing member 60, to block and control the movement of the liquid in the transfer pipe.

When the control signal is received by the solenoid portion 64 of the pinch valve 61, the blocking port 65 is lowered, by pressing the fixed feed pipe 30 through the rotating port 63, It is to easily block and control the movement of the liquid inside the transfer pipe.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments.

The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

1 is a perspective view showing a stem cell separator of the present invention
Figure 2 is a perspective view of the sensor of the present invention
Figure 3 is an exploded perspective view of the rotary sphere of the present invention
Figure 4 is a front view showing the operating state of the pinch valve of the present invention
DESCRIPTION OF THE REFERENCE SYMBOLS
10: separator body 11: display unit
12: holder 13: treatment liquid storage box
20: centrifuge member 30: transfer pipe
40: sensor 41: cover
42: protrusion 50: peristaltic pump member
51: rotary hole 52: guide
53: roller 54: spring
60: fixing member 61: pinch valve
62: pressure sensor 63: rotating hole
64: solenoid part 65: block

Claims (1)

A display unit 11 for displaying the operation state of the stem cell separation process, a cradle 12 for mounting the saline pack, and a treatment solution storage box 13 for placing the waste water bag from which the washing treatment solution is collected is formed. With one separator body 10,
A centrifugal separation member 20 mounted with a container into which adult tissue has been introduced, formed to separate and extract a stem cell layer by centrifugal force;
A transfer pipe 30 connected and formed to transfer the liquid separated from the centrifugal separation member 20;
A sensor 40 for fixing the transfer pipe to detect a liquid in the transfer pipe;
A peristaltic pump member 50 which is formed to transfer the liquid in the conveying tube, and has a rotary tool 51 for conveying the liquid in the conveying tube by rotation;
In the stem cell separator consisting of a pinch valve 61 for controlling the movement of the liquid in the delivery pipe, and a fixing member 60 formed with a pressure sensor 62 for sensing the pressure in the delivery pipe,
The sensor 40 is formed to detect a liquid in the transport pipe, and is formed as a cover 41 having a protrusion 42 for fixing the transport pipe 30;
The rotary part 51 of the peristaltic pump member 50, the guide portion 52 to guide the conveying pipe 30 is introduced, and the roller portion 53 is rotated to pressurize and convey the liquid in the conveying pipe And a spring 54 for restoring the roller portion 53 by elasticity;
The pinch valve 61 of the fixing member 60, the rotation port 63 to fix the feed pipe 30 by rotation, the solenoid portion 64 to be operated by a control signal, and It is formed by the shut-off port 65 to move up and down by driving the solenoid portion 64 to block, control the transfer of the liquid in the transfer pipe;
Stem cell separator, characterized in that configured.

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