KR20220072791A - Disposable sampling system - Google Patents

Abstract

The present invention is a disposable sampling system for extracting a predetermined amount of a material for a bioreaction from a container in which a predetermined material for a bioreaction is stored therein, wherein one end is coupled to the container and communicates with the inside of the container a first body portion forming a through hole provided; a second body portion having one end detachably coupled to the other end of the first body portion and forming an insertion hole provided to communicate with the through hole when one end is coupled to the other end of the first body portion; and inserted into the insertion hole and coupled to the second body part, and when one end of the second body part is coupled to the other end of the first body part, it is inserted into the container according to movement within the through hole and the living organism an extraction unit having an extraction needle for extracting a material for reaction; and a disinfection unit provided in the first body unit to disinfect the first body unit and the extraction unit.
According to the present invention as described above, the disposable sampling system can be managed more easily by forming the first body part for coupling to the container and the second body part detachably provided on the first body part. In addition, by providing a disinfection part in the first body part to disinfect the first body part and the extraction part, the degree of contamination of the first body part coupled to the container and the extraction part for extracting the material for bioreaction from the container is significantly reduced, so that the container There is an effect to prevent contamination of the material for bioreaction extracted from the There is an effect of being able to perform material extraction for bioreaction from the container

Description

Disposable Sampling System {DISPOSABLE SAMPLING SYSTEM}

The present invention relates to a disposable sampling system for extracting a material for a bioreaction from a container.

In the pharmaceutical and biotechnology field or the food manufacturing and cosmetic industry, adjustment or addition of an active medium (such as a pH-buffer of a biologically occurring culture) for microbial testing, cytometry or chemical analysis between predetermined processes of product manufacturing in each field For this purpose, continuous media sampling is required.

In this sampling, an operation of extracting a predetermined amount of the medium from a container storing a predetermined medium is performed. In this case, there is a risk of contamination of the medium extracted from external contaminants during the extraction process.

Therefore, there is a need for a sampling system capable of effectively preventing contamination of the extracted medium in the process of extracting the medium or the like.

Japanese Patent No. 3642430 (Registered on Feb. 4, 2005)

Accordingly, the present invention has been devised in the background described above, and by forming a first body part coupled to a container and a second body part detachably provided on the first body part, to provide a disposable sampling system that is easier to manage. There is a purpose.

In addition, by providing a disinfection part in the first body part to disinfect the first body part, the degree of contamination of the first body part coupled to the container is significantly reduced, thereby preventing the bioreaction material extracted from the container from being contaminated. It aims to provide a sampling system.

In addition, by providing a disinfection unit in the first body part to sterilize the first body part and the extraction part, the first body part and the extraction part are disinfected after extracting the material for bioreaction from the container. The purpose of this is to provide a disposable sampling system that can perform bioreaction material extraction from a container once more after disinfection.

The object of the present invention is not limited thereto, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve this object, an embodiment of the present invention is a disposable sampling system for extracting a predetermined amount of a material for a bioreaction from a container having a predetermined bioreaction material stored therein, and one end is coupled to the container and a first body portion having a through hole provided therein to communicate with the inside of the container; a second body portion having one end detachably coupled to the other end of the first body portion and forming an insertion hole provided to communicate with the through hole when one end is coupled to the other end of the first body portion; and inserted into the insertion hole and coupled to the second body part, and when one end of the second body part is coupled to the other end of the first body part, it is inserted into the container according to movement within the through hole and the living organism an extraction unit having an extraction needle for extracting a material for reaction; and a disinfection unit provided in the first body unit to disinfect the first body unit and the extraction unit.

In addition, the extraction unit, coupled to the end of the extraction needle while having a certain area, the pressing unit provided to move the extraction needle according to external pressure; And by extrapolating along the longitudinal direction of the extraction needle to the outer peripheral surface of the extraction needle, the spring provided to move the extraction needle back to the position before the movement by the pressing when the pressure is released; characterized by further comprising a A disposable sampling system is provided.

In addition, the disinfection unit provides a disposable sampling system, characterized in that spraying a predetermined disinfectant solution inside the through hole.

In addition, a plurality of the through holes are formed along the outer periphery of the first body part, and a plurality of the disinfection units are provided on the outer wall of the first body part along the outer periphery of the first body part, and in the through hole It provides a disposable sampling system, characterized in that provided in the corresponding position.

According to an embodiment of the present invention, the disposable sampling system is more easily managed by forming the first body part for coupling to the container and the second body part detachably provided on the first body part. there is

In addition, by providing a disinfection part in the first body part to disinfect the first body part and the extraction part, the degree of contamination of the first body part coupled to the container and the extraction part for extracting the material for bioreaction from the container is significantly reduced, so that from the container There is an effect to prevent contamination of the extracted bioreaction material.

In addition, by providing a disinfection unit in the first body part to sterilize the first body part and the extraction part, the first body part and the extraction part are disinfected after extracting the material for bioreaction from the container. , it has the effect of extracting materials for bioreaction from the container once more after disinfection.

1 is a perspective view illustrating a state in which a disposable sampling system according to an embodiment of the present invention is mounted on a container.
2 is a perspective view showing the overall configuration of a disposable sampling system according to an embodiment of the present invention.
3 is an exploded perspective view showing the overall configuration of a disposable sampling system according to an embodiment of the present invention.
4 is a view showing a state in which the extraction needle protrudes from the through hole by pressing the pressing unit provided in the extraction unit of the disposable sampling system according to an embodiment of the present invention.
5 is a front view showing a state of the first body of the disposable sampling system according to an embodiment of the present invention.
6 is a cross-sectional view taken along line AA′ of FIG. 2 showing the overall configuration of the disinfection unit of the disposable sampling system according to an embodiment of the present invention.
7 is an enlarged cross-sectional view showing the entire configuration of the disinfection unit of the disposable sampling system according to an embodiment of the present invention.
8 is a cross-sectional view showing a state before pressing the button of the disinfection unit of the disposable sampling system according to an embodiment of the present invention.
9 is a cross-sectional view showing a state in which the button of the disinfection unit of the disposable sampling system according to an embodiment of the present invention is pressed.
10 is a cross-sectional view illustrating a state in which the button of the disinfection unit of the disposable sampling system according to an embodiment of the present invention is released.
11 is a cross-sectional view illustrating a state in which the disinfectant solution is sprayed by pressing the button of the disinfection unit of the disposable sampling system according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, in describing the components of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the elements from other elements, and the essence, order, or order of the elements are not limited by the terms. When it is described that a component is “connected”, “coupled” or “connected” to another component, the component may be directly connected or connected to the other component, but another component is formed between each component. It should be understood that elements may also be “connected,” “coupled,” or “connected.”

1 is a perspective view illustrating a state in which a disposable sampling system according to an embodiment of the present invention is mounted on a container. 2 is a perspective view showing the overall configuration of a disposable sampling system according to an embodiment of the present invention. 3 is an exploded perspective view showing the overall configuration of a disposable sampling system according to an embodiment of the present invention. 4 is a view showing a state in which the extraction needle protrudes from the through hole by pressing the pressing unit provided in the extraction unit of the disposable sampling system according to an embodiment of the present invention. 5 is a front view showing a state of the first body of the disposable sampling system according to an embodiment of the present invention. 6 is a cross-sectional view taken along line A-A' of FIG. 2 showing the overall configuration of the disinfection unit of the disposable sampling system according to an embodiment of the present invention. 7 is an enlarged cross-sectional view showing the overall configuration of the disinfection unit of the disposable sampling system according to an embodiment of the present invention. 8 is a cross-sectional view showing a state before pressing the button of the disinfection unit of the disposable sampling system according to an embodiment of the present invention. 9 is a cross-sectional view showing a state in which the button of the disinfection unit of the disposable sampling system according to an embodiment of the present invention is pressed. 10 is a cross-sectional view illustrating a state in which the button of the disinfection unit of the disposable sampling system according to an embodiment of the present invention is released. 11 is a cross-sectional view illustrating a state in which the disinfectant solution is sprayed by pressing the button of the disinfection unit of the disposable sampling system according to an embodiment of the present invention.

As shown in the figure, the disposable sampling system according to an embodiment of the present invention is a disposable sampling system for extracting a predetermined amount of a material for a bioreaction from a container 20 having a predetermined bioreaction material stored therein. As (10), the first body portion 100 having one end coupled to the container 20 and forming a through hole 110 provided therein to communicate with the inside of the container; One end is detachably coupled to the other end of the first body part 100 , and when one end is coupled to the other end of the first body part 100 , an insertion hole 210 provided to communicate with the through hole 110 is formed. a second body portion 200; And when inserted into the insertion hole 210 and coupled to the second body portion 200, one end of the second body portion 200 is coupled to the other end of the first body portion 100, in the through hole (110) an extraction unit 300 having an extraction needle 310 inserted into the container 20 according to the movement of the extraction needle 310 to extract a material for a bioreaction; and a disinfection unit 400 provided in the first body unit 100 to disinfect the first body unit 100 and the extraction unit 300 .

Hereinafter, each configuration of the present invention will be described in detail with reference to FIGS. 1 to 11 .

The present invention is a disposable sampling system (10) for extracting a predetermined amount of a material for a bioreaction from a container (20) in which a predetermined material for a bioreaction is stored therein.

The disposable sampling system 10 of the present invention may be provided, for example, in a bioreactor that provides a biochemical reaction environment. It may be provided to extract a predetermined material for a bioreaction (such as a biocatalyst) stored in the container 20 .

The present invention is coupled to the first body portion 100 coupled to the container 20, the second body portion 200 detachably coupled to the first body portion, and the second body portion 200, coupled to the container The extraction unit 300 for extracting the material for bioreaction in (20) and the disinfection unit 400 provided in the first body unit 100 to disinfect the first body unit 100 and the extraction unit 300 may include.

First, one end of the first body part 100 is coupled to the container, and a through hole 110 communicating with the inside of the container is formed therein.

A plurality of through-holes 110 are formed along the outer periphery of the first body portion 100, and at this time, a plurality of disinfection units 400, which will be described later, are formed along the outer circumference of the first body portion 100 along the outer circumference of the first body portion ( It is provided on the outer wall of the 100), it may be provided at a position corresponding to the through hole (110).

On the other hand, the first body portion 100 may be formed in a cylindrical shape, for example, may form a coupling flange 130 coupled to the container 20 at one end.

When the first body part 100 is formed in a cylindrical shape, a plurality of through holes 110 may be formed along the outer circumferential direction of the first body part 100 .

More specifically, a plurality of through-holes 110 may be provided by being spaced apart by a predetermined distance along the outer circumferential direction of the first body portion 100 , and the through-holes 110 may be provided in the first body portion 100 . It may be formed by penetrating in the longitudinal direction of the.

Here, a sealing member (not shown) made of a silicon material may be provided at an end communicating with the container 20 among both ends of the through hole 110 .

Meanwhile, as shown in FIG. 6 , the extraction needle 310 of the extraction unit 300 to be described later may be inserted into the through hole 110 .

Then, the second body part 200 has one end detachably coupled to the other end of the first body part 100 and communicates with the through hole 110 when one end is coupled to the other end of the first body part 100 . An insertion hole 210 provided to do so is formed.

The second body 200 may be formed in a cylindrical shape corresponding to the shape of the first body 100 described above, for example.

The second body part 200 has one end detachably provided on the other end of the first body part 100, and in a situation in which the material for bioreaction is not extracted from the container, the second body part 200 is attached to the first body. It may be provided to be separated from the unit 100 .

By configuring the second body part 200 to be detachable from the first body part 100 , it is easy to clean the inside of the second body part 200 after the extraction operation, so that the management of the disposable sampling system 10 can be more effectively can do.

When one end of the second body part 200 is coupled to the other end of the first body part 100 , an insertion hole 210 provided to communicate with the through hole 110 is formed, and the insertion hole 210 is the second A plurality of insertion holes 210 may be formed along the outer circumference of the main body 200, and more specifically, the plurality of insertion holes 210 are spaced apart from each other by a predetermined interval along the outer circumferential direction of the second body 200. The insertion hole 210 may be formed to penetrate in the longitudinal direction of the second body portion 200 .

At this time, the plurality of insertion holes 210 are provided in the first body part 100 so that one end of the second body part 200 communicates with the through hole 110 when the other end of the first body part 100 is coupled to it. It may be formed in a position and number corresponding to the formed plurality of through-holes 110 .

Meanwhile, an extraction part 300 to be described later may be inserted into the other end of the insertion hole 210 in the longitudinal direction of the insertion hole 210 .

On the other hand, the other end of the second body part 200 may be in contact with the pressing part 330 of the extraction part 300 to be described later, the support flange 230 for supporting the pressing part 330 may be formed.

Then, the extraction unit 300 is inserted into the insertion hole 210 and coupled with the second body part 200, when one end of the second body part 200 is coupled to the other end of the first body part 100, An extraction needle 310 inserted into the container according to movement within the through hole 110 to extract a material for a bioreaction is provided.

The extraction unit 300 is inserted into the insertion hole 210 of the above-described second body unit 200 and coupled with the second body unit 200 , wherein the extraction unit 300 is inserted into the insertion hole 210 . , may be provided to be movable in the longitudinal direction of the insertion hole 210 .

On the other hand, the extraction unit 300 is provided with an extraction needle 310 for extracting a material for a bioreaction from the inside of the container.

Here, as shown in FIG. 6 , the extraction needle 310 has one end of the second body 200 when coupled to the other end of the first body 100, one end of the through hole of the first body 100 ( 110), and the extraction needle 310 has one end inserted into the container 20 as it moves within the insertion hole 210 of the extraction unit 300 and is stored in the container 20. A material for the reaction can be extracted.

In this case, an extraction hole 311 for extracting a material for bioreaction may be formed at one end of the extraction needle 310 .

The extraction hole 311 may be formed inside the extraction needle 310 along the longitudinal direction of the extraction needle 310 while opening at the end of one end of the extraction needle 310 , and the bioreaction extracted from the container 20 . The solvent material moves along the extraction hole 311 .

On the other hand, as shown in FIG. 3, the extraction unit 300 is coupled to the other end of the extraction needle 110 while having a certain area, and a pressing unit provided to move the extraction needle 310 according to external pressure ( 330), and the extraction needle 310 is extrapolated along the longitudinal direction of the extraction needle 310 on the outer peripheral surface, when the pressure is released, the spring provided to move the extraction needle 310 back to the position before the movement by the pressure (350) may be further included.

The extraction unit 300 may be moved by pressing the pressure tool 330 provided at the other end of the extraction needle 110, and accordingly, the extraction needle 310 may be inserted into the container or withdrawn out of the container. .

At this time, the extraction unit 300 is further provided with a spring 350, so that when the extractor releases the pressing force through the pressing unit 330, the extraction needle 310 is moved back to the position before the movement by pressing. can be

More specifically, as shown in FIGS. 3 and 6, the spring 350 is extrapolated along the longitudinal direction of the extraction needle 310 to the outer peripheral surface of the extraction needle 310, When the second body part 200 is coupled and the extraction part 300 is inserted into the insertion hole 210 of the second body part 200 , one end of the support jaw 211 is formed at one end of the insertion hole 210 . ), and the other end is supported in contact with the pressing part 330 .

On the other hand, the other end of the extraction unit 300 may be provided with a moving tube 370 through which the bioreaction material extracted through the extraction needle 310 moves.

One end of the moving tube 370 is connected to the extraction hole 311, and the other end is connected to an opening of an extraction vessel (not shown) for storing the extracted bioreaction material, and the extracted bioreaction material is extracted from the extraction unit 300 . ) may be provided to move from the extraction vessel.

Subsequently, the disinfection unit 400 is provided in the first body unit 100 to disinfect the first body unit 100 and the extraction unit 300 .

More specifically, the disinfection unit 400 is provided in the first body unit 100 , the inside of the through hole 110 of the first body unit 100 , and the extraction unit 300 inserted into the through hole 110 . ) may be provided to disinfect the extraction needle 310.

When the through-hole 110 of the first body 100 or the extraction needle 310 of the extraction unit 300 is contaminated by the external environment, when extracting the material for bioreaction from the container 20, the through-hole According to the contamination state of the 110 and the extraction needle 310, there is a risk that the extracted bioreaction material is also contaminated.

In order to solve this problem, the first body part 100 of the present invention may include a disinfection part 400 for sterilizing the inside of the through hole 110 and the extraction needle 310 .

As described above, a plurality of through-holes 110 of the first body part 100 may be formed along the outer periphery of the first body part 100, and in this case, a plurality of disinfection units 400 are provided in the first body part ( It may be provided at a position corresponding to the through hole 110 along the outer periphery of the 100 , to disinfect each through hole 110 and the extraction needle 310 inserted into the through hole 310 .

Here, the disinfection unit 150 according to an embodiment of the present invention may be provided to spray a predetermined disinfectant solution L into the through hole 110 .

More specifically, as shown in FIGS. 6 and 7 , the disinfection unit 400 includes a button 430 , a piston 440 , a piston elastic body 450 , a first valve 460 , and a second valve 470 . and a spray hole 480 , and may be provided in the first body part 100 to spray a predetermined disinfectant solution L into the through hole 110 of the first body part 100 .

First, the button 430 is inserted and mounted in the button mounting part 411 recessed in the inner direction of the first body part 100 from the outer peripheral surface of the outer wall of the first body part 100, and the button mounting part 411 by external pressure. It is provided so that it can move in a straight line along the.

Subsequently, the piston 440 is mounted to the piston mounting space 412 formed inside the outer wall of the first body portion 100 to be capable of linear reciprocating motion while one end is coupled to the button 430 .

The piston 440 is coupled to the button 430 and is provided so as to linearly reciprocate in the piston mounting space 412 according to the pressing force acting on the button 430, at this time, the button mounting part 411 and the piston mounting space 412 ), the reciprocating motion section may be limited by the first protruding jaw 421 formed between, and the second protruding jaw 422 formed between the piston mounting space 412 and the disinfecting solution flow space 413 .

Here, the antiseptic solution flow space 413 is formed inside the first body part 100 and the upper part is formed to communicate with the piston mounting space 412, and one side and the other side are respectively a second valve mounting space 415 to be described later. And it is formed to communicate with the first valve mounting space (414).

Next, the piston elastic body 450 is formed inside the outer wall of the first body portion 100 and provided in the disinfectant solution flow space 413 formed to communicate with the piston mounting space 412, one end of the piston 440 is Coupled to the end to provide an elastic force to the piston (440).

The piston elastic body 450 may be provided as, for example, a spring having an elastic force.

As described above, the piston 440 is coupled to the button 430 to enable linear reciprocating movement of the piston mounting space 412 according to the pressing force acting on the button 430 , and the pressing force is applied to the button 430 . Thus, when the piston 440 moves linearly in one direction, the piston elastic body 450 is compressed, and when the pressing force is released, the piston elastic body 450 is restored and provides an elastic force to the piston 440 so that the piston 440 is a straight line in the opposite direction. It is provided to return to the original position by movement.

Next, the first valve 460 is formed inside the outer wall of the first body portion 100 so that one side communicates with the other side of the disinfectant solution flow space 413 , and the other side is formed inside the outer wall of the first body portion 100 . is mounted in the first valve mounting space 414 formed to communicate with the disinfectant solution storage space 416 in which the disinfectant solution L is stored, and communicates with the disinfectant solution storage space 416 of the first valve mounting space 414 It is provided to open and close the other side.

More specifically, as shown in FIG. 7 , the first valve 460 abuts against the third protruding jaw 423 formed on the other side of the first valve mounting space 414 , to the third protruding jaw 423 . The first opening/closing member 461 provided to open and close the communication hole formed on the other side of the first valve mounting space 414 by the A first elastic body 463 supported by the fourth protruding jaw 424 and the other end contacting the first opening and closing member 461 to provide an elastic force to the first opening and closing member 461 may include.

The first opening/closing member 461 moves through the first valve mounting space 414 according to the pressure change inside the disinfectant solution flow space 413 that changes according to the linear reciprocating motion of the piston 440 as will be described later. It is provided to open and close the communication hole formed on the other side of the first valve mounting space 414 by the jaw 423 .

At this time, the other end of the first elastic body 463 is coupled to the first opening/closing member 461, and the first opening/closing unit 461 is formed on the other side of the first valve mounting space 414. Third protruding jaw 423 Provide elastic force to the first opening and closing member 461 in the direction of the third protrusion 423 so as to close the communication hole formed on the other side of the first valve mounting space 414 by the third protrusion 423 in contact with do.

On the other hand, the disinfectant storage space 414 is formed inside the outer wall of the first body portion 100 to communicate with the other side of the first valve mounting space 414, and inside the disinfectant storage space 414, a predetermined disinfectant solution (L) is stored.

Next, the second valve 470 is mounted on the second valve mounting space 415 formed inside the outer wall of the first body part 100 and the other side communicates with one side of the disinfectant solution flow space 413 , It is provided to open and close the other side of the second valve mounting space 415 communicating with the storage space 416 .

More specifically, as shown in FIG. 7 , the second valve 470 abuts against the fifth protruding jaw 425 formed on the other side of the second valve mounting space 415 , to the fifth protruding jaw 425 . The second opening and closing member 471 provided to open and close the communication hole formed on the other side of the second valve mounting space 415 by the may include a second elastic body 473 that comes into contact with the second opening and closing member 471 to provide an elastic force to the second opening and closing member 471 .

As will be described later, the second opening and closing member 471 protrudes a fifth while moving the second valve mounting space 415 according to the pressure change inside the disinfectant solution flow space 413 that changes according to the linear reciprocating motion of the piston 440 , as will be described later. It is provided to open and close the communication hole formed on the other side of the second valve mounting space 415 by the jaw 425 .

At this time, the second elastic body 473 has the other end coupled to the second opening/closing member 471, so that the second opening/closing unit 471 is formed on the other side of the second valve mounting space 415. The fifth protruding jaw 425 Provides an elastic force to the second opening and closing member 471 in the direction of the fifth protrusion 425 to close the communication hole formed on the other side of the second valve mounting space 415 by the fifth protrusion 425 in contact with do.

Subsequently, the injection port 480 is formed so that one side communicates with the second valve mounting space 415 and the other side communicates with the through hole 110 formed in the first body part 100 , and the disinfectant solution is introduced into the through hole 110 . provided for spraying.

The injection hole 480 may be provided, for example, in the form of a nozzle for spraying the disinfectant solution into the through hole 110 .

Hereinafter, an operation process of the disinfection unit 400 will be described with reference to FIGS. 8 to 11 .

In the initial state (FIG. 8), when the user presses the button 430, the piston 440 moves from the top to the bottom of the piston mounting space 412, and at this time, the piston elastic body 450 is compressed (FIG. 9). .

As such, when the piston 440 moves from the top to the bottom of the piston mounting space 412 , the internal pressure of the disinfectant solution flow space 413 communicating with the piston mounting space 412 increases, and at this time, the disinfectant solution flow space When the internal pressure of 413 rises, the second valve 470 mounted in the second valve mounting space 415 communicating with one side of the disinfecting solution flow space 413 is opened (at the fifth protrusion 425 ). The first valve 440 mounted in the first valve mounting space 414 communicating with the other side of the second valve mounting space 415) and the other side of the disinfecting solution flow space 413 is closed or The closed state (the communication hole formed on the other side of the second valve mounting space 415 is closed by the third protruding jaw 423) is maintained (FIG. 9).

Accordingly, the internal pressure of the disinfectant solution flow space 413 is changed to be the same as the internal pressure (atmospheric pressure) of the through hole 110, and when the internal pressure of the disinfectant solution flow space 413 is equal to the internal pressure of the through hole 110, the first Since external force does not act on the second valve 470 , the second valve 470 is closed by the second elastic body 473 (the second opening/closing member 471 is the second by the fifth protruding jaw 425 ). Close the communication hole formed on the other side of the valve mounting space (415) (not shown).

In this state, when the pressing force acting on the button 430 is released, the piston 440 moves from the lower part of the piston mounting space 412 to the upper direction by the elastic force of the piston elastic body 450, and the disinfectant solution flow space 413. The internal pressure of is decreased (FIG. 10).

At this time, when the internal pressure of the disinfectant solution flow space 413 drops, the second valve 470 mounted on the second valve mounting space 415 communicating with one side of the disinfectant solution flow space 413 maintains a closed state, The first valve 440 mounted in the first valve mounting space 414 communicating with the other side of the disinfectant solution flow space 413 is opened (by the third protruding jaw 423 ) of the second valve mounting space 415 . The communication hole formed on the other side is opened) and the disinfectant solution L stored in the disinfectant solution storage unit 416 passes through the first valve mounting space 414 and flows into the disinfectant solution flow space 413 and the piston mounting space 412 (Fig. 10).

In this state, when the button 430 is pressed again, the piston 440 moves from the top to the bottom of the piston mounting space 412 , and at this time, the piston elastic body 450 is compressed while communicating with the piston mounting space 412 . The internal pressure of the antiseptic solution flow space 413 is increased (FIG. 11).

When the internal pressure of the disinfectant solution flow space 413 rises, the second valve 470 mounted on the second valve mounting space 415 communicating with one side of the disinfectant solution flow space 413 is opened (the fifth protruding jaw) (Opening the communication hole formed on the other side of the second valve mounting space 415 by 425), the disinfectant solution L in the disinfectant solution flow space 413 flows into the second valve mounting space 415.

The antiseptic solution L introduced into the second valve mounting space 415 passes through the second valve mounting space 415 and the extraction needle 310 is inserted through the injection port 480 in communication with the second valve mounting space 415. It is sprayed into the first through-hole 110 in which the

As described above, by configuring the disinfectant solution L to be sprayed into the first through-hole 110 , it is possible to disinfect the first through-hole 110 and the extraction needle 310 inserted into the first through-hole 110 . do.

At this time, the extraction needle 310 may be inserted into the first through-hole 110 such that the extraction hole 311 of the end faces the injection port 480 .

On the other hand, the first body portion 100 according to an embodiment of the present invention may be provided with a sterilization unit (not shown) for sterilizing the inside of the through hole 110, in this case, the sterilization unit may be provided with a UV lamp, etc. have.

As described above, according to an embodiment of the present invention, the first body part 100 for coupling the disposable sampling system 10 to the container 20, and the first body part 100 are detachably provided. By forming the second body portion 200 to be, there is an effect that the management of the disposable sampling system 10 is easier.

In addition, the first body part 100 and the first body part combined with the container 20 and the container ( By significantly reducing the degree of contamination of the extraction unit 300 for extracting the material for the bioreaction in 20), there is an effect that can prevent the material for the bioreaction extracted from the container 20 from being contaminated.

In addition, by providing a disinfection unit 400 in the first body unit 100 to sterilize the first body unit 100 and the extraction unit 300 , extraction of substances for bioreaction from the container 20 is performed. After performing the disinfection operation for the first body 100 and the extraction unit 300, there is an effect that can perform the bioreaction material extraction from the container 20 once more after the disinfection operation.

In the above, even though all the components constituting the embodiment of the present invention are described as being combined or operated in combination, the present invention is not necessarily limited to this embodiment. That is, within the scope of the object of the present invention, all the components may operate by selectively combining one or more.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10: disposable sampling system
20: container
100: first body part
110: through hole
130: coupling flange
200: second body part
210: insertion hole
230: support flange
300: extraction unit
310: extraction needle
311: extraction hole
330: pressurizing part
350: spring
370: moving tube
400: disinfection unit
430: button
440: piston
450: piston elastic body
460: first valve
470: second valve
480: nozzle

Claims (4)

A disposable sampling system for extracting a predetermined amount of a material for a bioreaction from a container in which a material for a given bioreaction is stored therein,
a first body portion having one end coupled to the container and forming a through hole provided therein to communicate with the inside of the container;
a second body portion having one end detachably coupled to the other end of the first body portion and forming an insertion hole provided to communicate with the through hole when one end is coupled to the other end of the first body portion; and
It is inserted into the insertion hole and coupled to the second body part, and when one end of the second body part is coupled to the other end of the first body part, it is inserted into the container according to movement within the through hole and the bioreaction an extraction unit having an extraction needle for extracting a substance for use; and
a disinfection unit provided in the first body unit to disinfect the first body unit and the extraction unit;
Disposable sampling system comprising a. According to claim 1,
The extraction unit,
a pressing unit coupled to the end of the extraction needle while having a certain area, and provided to move the extraction needle according to external pressure; and
By extrapolating along the longitudinal direction of the extraction needle to the outer peripheral surface of the extraction needle, the spring provided to move the extraction needle back to the position before the movement by the pressure when the pressure is released;
Disposable sampling system, characterized in that it further comprises. According to claim 1,
The disinfection unit,
Disposable sampling system, characterized in that spraying a predetermined disinfectant solution into the through hole. According to claim 1,
The through hole is
A plurality is formed along the outer periphery of the first body portion,
The disinfection unit,
Disposable sampling system, characterized in that a plurality of doedoe provided on the outer wall of the first body portion along the outer circumference of the first body portion, provided at a position corresponding to the through hole.

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