KR101588754B1 - Centrifuge tube - Google Patents

Abstract

The present invention relates to a main housing unit having a top opened; A cover housing part which is opened in a lower surface of the main housing part, an upper part of the main housing part is inserted through the lower surface to form a separation space, and is movable along the longitudinal direction of the main housing part; An outlet pipe portion extending from an upper surface of the cover housing portion and inserted into the separation space and connecting the inside and the outside of the separation space; And an inlet and outlet connection unit installed on an upper surface of the cover housing unit and connected to one end of the outlet pipe unit to open and close the outlet pipe unit. Such a tube for centrifugation facilitates extraction of the separated components by centrifugation and can maintain sterility during sample supply, centrifugation and extraction of centrifuged components.

Description

{CENTRIFUGE TUBE}

TECHNICAL FIELD The present invention relates to a centrifuge tube used for centrifugal separation, and more particularly, to a centrifuge tube capable of stably and easily extracting centrifuged components from an injected sample.

The centrifugation method refers to a method of separating, purifying, and concentrating a substance having a different component or specific gravity using centrifugal force. The centrifugation method can be divided into a separation method and a filtration method. The separation method is a method of separating by using a difference in specific gravity in a mixture of suspended matters such as fine particles and colloid. On the other hand, the filtration method is a method of separating the sample using the relative particle size depending on whether the filter is passed or not.

Particularly, the centrifugation method using the separation method is a method in which the suspension containing the suspension is rotated at a high speed to separate the suspension from the solution. Hereinafter, the centrifugal separation means a centrifugal separation method using a separation method.

Generally, a centrifuge tube that is standardized by capacity is used for the centrifugation method. The sample to be separated is injected into the centrifuge tube. Subsequently, when the centrifuge tube is rotated at a high speed, the sediment is precipitated on the bottom surface of the centrifuge tube due to the difference in centrifugal force and specific gravity, and the solution layer is floated on the upper surface of the sediment. At this time, the solution layer in the separated sample is discharged in the following form, so that it can be separated from the precipitate.

On the other hand, when the solution is to be separated by the centrifugation method, the extraction can be performed by simply discharging the separated sample in the form of solution. However, when the precipitate is to be separated, the precipitate precipitated in the lower part of the centrifuge tube may be extracted by using a reagent spoon or the like, washed with distilled water, and recovered and dried. As a result, it is difficult to extract the precipitate, and it is difficult to extract the entire amount of the precipitate. In particular, when the amount of the sample or the precipitate is small, the extraction of the precipitate is more difficult.

In addition, if the entire amount of the sediment is not extracted, the accuracy and reliability of the test result are lowered. This requires additional procedures for extracting the entire amount of the precipitate. Therefore, conventional centrifuge tubes suffer from difficulties in extracting separated components through centrifugation.

In addition, conventional centrifuge tubes are installed in a clean bench in order to maintain sterility, and it is troublesome to use a suction device and a pipette.

The present invention is intended to provide a centrifuge tube capable of easily extracting components separated by centrifugation while maintaining sterility.

The present invention also provides a centrifuge tube that can maintain sterility during sample supply, centrifugation, and extraction of centrifuged components.

The present invention relates to a main housing unit having a top opened; A cover housing part which is opened in a lower surface of the main housing part, an upper part of the main housing part is inserted through the lower surface to form a separation space, and is movable along the longitudinal direction of the main housing part; And an outlet pipe portion extending from an upper surface of the cover housing portion and inserted into the separation space, the outlet pipe portion connecting the inside and the outside of the separation space.

The centrifugal separation tube is further provided with an inlet connection portion which is provided on an upper surface of the cover housing portion and which is connected to one end of the inlet and outlet pipe portion and opens and closes the inlet and outlet pipe portions .

Further, the inlet / outlet connection portion closes the inlet / outlet pipe portion, and when the inlet / outlet pipe is coupled to the syringe, the inlet / outlet pipe portion is opened.

When the cover housing part moves along the longitudinal direction of the main housing part, the other end of the inlet / outlet pipe part also moves in the same direction as the cover housing part.

In addition, an external thread is formed on the outer side surface of the main housing part, an internal thread is formed on the inner side surface of the cover housing part, and when the upper part of the main housing part is inserted into the cover housing part, And the cover housing part is rotatable around the main housing part and is movable along the longitudinal direction of the main housing part.

Further, another end of the outlet pipe portion can be positioned close to the bottom surface of the separation space.

Further, the lower part of the separation space has a cross-sectional surface that becomes smaller as the distance from the bottom surface of the separation space becomes smaller.

The cover housing part further includes a grip part formed on the outer surface of the upper part of the cover housing part along the circumferential direction of the cover housing part.

The tube for centrifugation is characterized in that the main housing part and the cover housing part are made of a transparent material.

The centrifugation tube may further include an air discharging portion provided on an upper surface of the cover housing portion and connected to the separating space to regulate an internal pressure of the separating space and to have a filtering function. Initiate the tube.

The centrifuge tube according to the present invention has the following effects.

(1) The centrifuge tube according to the present invention includes a main housing part, a cover housing part, and an inlet / outlet pipe part. The centrifuge tube is installed in a centrifugal separator and centrifugally separates the injected sample using a syringe, . The opened main housing portion and the cover housing portion are coupled to each other to close the open portion to form a separation space. The outlet pipe portion extends from the cover housing portion and is inserted into the separation space to connect the inside and the outside of the separation space, and is connected to the syringe. The syringe is connected to one end of the outlet piping, and the sample is injected into the separation space through the outlet piping due to the action of the syringe. Also, after centrifugation in the separation space, the separated components form a layer within the separation space. At this time, the cover housing part moves along the longitudinal direction of the main housing part while maintaining the state in which the separation space is closed, and the position of the other end of the outlet pipe part can be adjusted. Thereby, the other end of the outlet pipe portion can be positioned to correspond to the layer of the component to be extracted from the separation space. Accordingly, the centrifugal separation tube according to the present invention adjusts the position of the other end of the outlet pipe portion in accordance with the movement of the cover housing portion along the longitudinal direction of the main housing portion in a state where the cover housing portion and the main housing portion are not separated, So that only the components to be extracted out of the separated components can be easily extracted from the aseptic separation space.

(2) The centrifuge tube according to the present invention further includes an inlet / outlet connection. The inlet / outlet connection portion is provided on the upper surface of the cover housing portion and is connected to one end of the inlet / outlet pipe portion. In addition, a syringe containing a sample is connected to the entrance and exit. At this time, the inlet / outlet connection portion opens and closes the inlet / outlet pipe portion, and in particular, keeps the inlet / outlet pipe portion closed. When combined with the syringe, the inlet / outlet pipe portion is opened for injecting the sample and discharging the centrifuged components. Accordingly, the centrifuge tube according to the present invention has an effect of keeping the separation space always in a closed state and keeping it in an aseptic state in a process of supplying a sample, centrifuging, and extracting centrifuged components.

1 is a perspective view showing a centrifugal separation tube according to a preferred embodiment of the present invention.
FIG. 2 is a perspective view showing the centrifugal separation tube shown in FIG. 1. FIG.
FIG. 3 is a view showing a state of movement of the cover housing part in the centrifuge tube shown in FIG. 2. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying 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.

FIG. 1 is a perspective view showing a centrifugation tube 100 according to a preferred embodiment of the present invention. FIG. 2 is a perspective view showing the centrifugation tube 100 shown in FIG. 2 is a view illustrating a state of movement of the cover housing part 102 in the centrifuge tube 100 shown in FIG.

1 to 3, a centrifuge tube 100 according to a preferred embodiment of the present invention includes a main housing portion 101, a cover housing portion 102, an inlet / outlet pipe portion 103, (Not shown) including the connection portion 104 and is used to extract the centrifuged component after centrifuging the injected sample using a syringe (not shown). Here, the sample to be centrifuged is a cell or a human tissue (for example, blood, bone marrow, fat, etc.).

The main housing part 101 has a cylindrical shape. The upper surface of the main housing part 101 is opened. In addition, an external thread 111 is formed on the outer surface of the main housing part 101, particularly on the upper outer surface.

The cover housing part 102 also has a cylindrical shape. The lower surface of the cover housing part 102 is opened. The upper part of the main housing part 101 is inserted into the inside of the cover housing part 102 through the lower surface of the cover housing part 102. At this time, the main housing part 101 and the cover housing part 102 are combined to form a closed separation space 110. Also, the cover housing part 102 is movable along the longitudinal direction of the main housing part 101, that is, up and down.

An internal thread 121 is formed on the inner surface of the cover housing part 102, particularly on the lower inner surface. When the upper portion of the main housing portion 101 is inserted into the inside of the cover housing portion 102 through the lower surface of the cover housing portion 102, the external threads 111 and the internal threads 121 are mutually engaged. Thus, the cover housing part 102 is rotatable about the main housing part 101 and is movable along the longitudinal direction of the main housing part 101. At this time, the size of the separation space 110 may be adjusted. At this time, even if the cover housing part 102 moves, since the separation space 110 is in the closed state, it is always kept sterile.

A grip portion 123 is formed on the outer surface of the upper portion of the cover housing portion 102. The grip portion 123 is formed in a rugged concavo-convex shape along the circumferential direction of the cover housing portion 102. The operator can rotate the cover housing part 102 about the main housing part 101 while holding the cover housing part 102 through the grip part 123. [ Thereby, the operator can rotate the cover housing part 102 without sliding.

The outlet pipe portion 103 is formed in a tubular shape and extends from the upper surface of the cover housing portion 102 and is inserted into the separation space 110. At this time, the inside and the outside of the separation space 110 are connected by the outlet piping 103. One end of the outlet pipe portion 103 is connected to the cover housing portion 102 and the other end of the outlet pipe portion 103 is directed to the bottom surface of the separation space 110. A sample used in the centrifuge tube 100 is injected into the separation space 110 through the inlet and outlet piping 103 and the separated components can be discharged from the separation space 110.

The lower part of the separation space 110 (for example, the inner lower part of the main housing part 101) becomes closer to the bottom surface of the separation space 110 (for example, the lower surface of the main housing part 101) And has a gradually decreasing cross-section. Accordingly, the sample injected into the separation space 110 or the components separated through centrifugation can be stably collected in the lower part of the separation space 110.

When the cover housing part 102 rotates about the main housing part 101 and moves along the longitudinal direction of the main housing part 101, the other end of the outflow pipe part 103 contacts the cover housing part 102, As shown in FIG. At this time, the other end of the outlet pipe portion 103 can be moved close to the bottom surface of the separation space 110.

When the centrifugation of the sample injected into the separation space 110 is completed, the components centrifuged from the sample have different densities and form an upper layer and a lower layer in the separation space 110 by gravity. At this time, the position of the other end of the outlet pipe portion 103 is determined by the component to be discharged from the separation space 110. In order to discharge the upper layer component in the separation space 110, the other end of the outlet piping 103 is positioned near the upper and lower layer interfaces, while the outlet piping unit 104 Is close to the bottom surface of the separating space 110. [0051] That is, the outlet piping section 103 can be used for discharging the component positioned above the other end. At this time, it is preferable that the other end of the outlet piping 103 is located on the lower surface of the layer made of the component to be discharged.

The outlet connecting portion 104 is provided on the upper surface of the cover housing portion 101 and is coupled to one end of the outlet pipe portion 103 to be used for opening and closing the outlet pipe portion 103,

The inlet / outlet connection portion 104 is generally kept closed with the inlet / outlet pipe portion 103. [ Therefore, the separation space 110 defined by the main housing part 101 and the cover housing part 102 can be closed and kept sterile. On the other hand, when the syringe is coupled to the outlet connecting portion 104, the outlet connecting portion 104 opens the outlet pipe portion 103. At this time, the separation space 110 is connected to the inside of the syringe through the outlet piping 103. Therefore, the syringe can inject the sample into the separation space 110 through the inlet / outlet piping 103, and centrifugally separate the components from the separation space 110 through the centrifugation. The separation space 110 connected to the inside of the syringe may also be closed and kept sterile. The principle of the Luer lock syringe can be applied to the above-mentioned access connection part 104. [

On the other hand, the sample injected into the centrifuge tube 100 and the components centrifuged through the centrifugation of the sample are placed in the separation space 110. It is preferable that the main housing part 101 and the cover housing part 102 are made of a transparent material so that at least the main housing part 101 is made of a transparent material . Thus, the operator can confirm the amount of the injected sample, the state of centrifugal separation, and the position of the other end of the outlet piping section 103. Particularly, the operator rotates the cover housing part 102 in a state where it is not separated from the main housing part 101, and adjusts the position of the other end of the outlet pipe part 103 to separate the centrifuge tube 100 Only the components to be extracted from the space 110 can be extracted through the inlet / outlet pipe section 103. Therefore, since the centrifuge tube 100 according to the present embodiment is maintained in an aseptic state, it is not necessary to use a conventional clean bench and a pipette, Only the components can be extracted.

In addition, the centrifugation tube 100 according to the present embodiment further includes an air outlet 105. The air discharge unit 105 is installed on the upper surface of the cover housing unit 102 and is connected to the separation space 110. At this time, the air discharge unit 105 can adjust the internal pressure of the separation space 110. Further, the air discharge portion 105 has a filtering function. Therefore, foreign matter does not flow into the separation space 110 by the air discharge unit 105, and the inside of the separation space 110 can be maintained in an aseptic state by the air discharge unit 105.

While the present invention has been described in connection with certain exemplary embodiments, it will be understood by those skilled in the art that various changes may be made without departing from the scope of the present invention. In addition, the description in parentheses in the description of the claims is intended to prevent obscuration of the description, and the scope of the claims of the claims should be construed to include all the items in parentheses.

100: Centrifuge tube
101: Main housing part
111: External thread
102: Cover housing part
121: Internal thread
123:
103:
104: access connection
105:
110: separation space

Claims (10)

A main housing part having an opened upper surface;
A cover housing part which is opened in a lower surface of the main housing part, an upper part of the main housing part is inserted through the lower surface to form a separation space, and is movable along the longitudinal direction of the main housing part;
An outlet pipe portion extending from an upper surface of the cover housing portion and inserted into the separation space and connecting the inside and the outside of the separation space; And
And an inlet and outlet connection unit installed on an upper surface of the cover housing unit and connected to one end of the outlet pipe unit to open and close the outlet pipe unit,
An external thread is formed on an outer surface of the main housing part,
An internal thread is formed on the inner surface of the cover housing part,
When the upper part of the main housing part is inserted into the inside of the cover housing part, the external thread and the internal thread are mutually engaged, and the cover housing part rotates about the main housing part and moves up and down along the longitudinal direction of the main housing part. Movable,
Wherein when the cover housing part moves up and down along the longitudinal direction of the main housing part, the other end of the outlet pipe part also moves up and down in the same direction as the cover housing part.
delete The method according to claim 1,
Wherein the inlet / outlet connection portion closes the inlet / outlet pipe portion, and when the inlet / outlet pipe is coupled to the syringe, the inlet / outlet pipe portion is opened.
delete delete The method according to claim 1,
And the other end of the outlet pipe portion can be positioned close to the bottom surface of the separation space.
The method according to claim 1,
Wherein a lower portion of the separation space has a cross-sectional surface that becomes smaller as it approaches a bottom surface of the separation space.
The connector according to claim 1, wherein the cover housing part
Further comprising a grip portion formed on the outer surface of the upper portion of the cover housing portion along the circumferential direction of the cover housing portion to have a concavo-convex shape.
The method according to claim 1,
Wherein the main housing part and the cover housing part are made of a transparent material.
The centrifuge tube according to claim 1,
Further comprising an air discharging portion provided on an upper surface of the cover housing portion and connected to the separating space to adjust an internal pressure of the separating space and to have a filtering function.

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