KR101409333B1 - Collection vial for cytological diagnosis - Google Patents

Abstract

TECHNICAL FIELD The present invention relates to a specimen processing container for cytotoxic smear, the structure of which is improved so as to facilitate the extraction and separation of liquid specimen cells before the smear test of various specimen cells.
The present invention provides a container body including a container body having an inner space formed therein to receive a solution solution containing specimen cells, a plurality of outflow holes coupled to one end of the container body and communicating with the outside, A filter member disposed between the end portion of the container body and the step portion of the mesh cap member for filtering foreign matters contained in the solution solution; and a filter member fastened to the mesh cap member to finish the outside of the mesh- As shown in Fig.

Description

{COLLECTION VIAL FOR CYTOLOGICAL DIAGNOSIS}

The present invention relates to a sample processing container for smearing cells, and more particularly, to a cell scattering block having improved structure so that cells can be easily dispersed and collected before smear inspection of various sample cells, and sample processing It is about the container.

Generally, to check for physical anomalies, the cells that belong to the physical examination area are collected, the collected cells are stored in a solution bottle containing the cell solution solution, the cells are attached to the slide, and the cells are examined by a microscope .

Conventionally, there is a separate solution box for dispersing the cells on the brush into the solution, and the solution bottle is shaken to pour the solution into the other container while the cells are sufficiently spread in the liquid. The suction device is closely attached to the bottom of the filter, , And the filter cells are rubbed on a slide.

When the container is separated from the main body so as to approach the slides, the liquid mixture remaining in the container is poured down by gravity and is lost.

However, since the process of transferring the cells from the solution bottle to the slide must be performed manually by the user, it takes a lot of time and the contamination or impurities may be transferred from the user's hand to the slide, there was.

In addition, foreign substances may be contained in cells other than the cells collected in the solution container. In this case, since separation of foreign substances and cells is not easy, a separate tool for separation is required.

A prior art for this purpose is disclosed in Korean Patent Registration No. 10-1035427 entitled " Solution container " filed by the present applicant and includes a container body formed so as to open at its upper and lower portions, A filter member disposed inside the container body for filtering the foreign substances contained in the solution solution, and an opening / closing means disposed inside the container body for selectively blocking the inflow of the solution solution will be.

The container body is divided into an upper liquid chamber and a lower liquid chamber communicating with each other, and a receiving member is detachably coupled to the lower portion.

After the solution solution is collected in the lower liquid chamber after being filtered through the filter member, after the receiving member is detached from the container main body, sample cells are applied to the slide using a vacuum adsorber, Has a cumbersome process of smearing through slides through a membrane filter to separate the slides.

In other words, in the past, the process of separating the sample cells from the solution solution before the smearing process and smearing the separated sample cells onto the slide is troublesome, and the process of detaching the receiving member from the bottom of the container body using a mechanical device So that the workability is deteriorated.

DISCLOSURE OF THE INVENTION The present invention has been made in view of the above-described problems, and its object is to provide a method for preparing a sample for smear test, which is improved in its structure so that sample cells can be easily separated from solution solutions, To provide a container assembly.

According to an aspect of the present invention, there is provided a liquid container comprising: a container body having a space portion in which a solution solution can be filled;

A mesh cap member which is fastened to one end of the container body and has an outlet at an end thereof communicating with the outside,

A filter member disposed between the end of the container body and the step portion of the mesh cap member for filtering foreign matters contained in the solution solution;

And an outer cap which is fastened to the mesh cap member and closes the outer side of the mesh cap member.

The mesh cap member is formed to be rounded for collecting the solution solution, and has a water collecting part formed on an outer circumferential surface thereof with a fastening part for fastening with the outer cap. The water collecting part is formed to have a smaller diameter toward the outflow hole side.

The container body is made of a material having a self-elasticity so as to be deformed at the time of lateral pressing and have a restoring force after releasing the pressure.

The outflow holes are formed so that a plurality of outflow holes are spaced apart from each other at equal intervals.

And a fixed amount discharging means disposed at the other end of the container body for discharging the solution solution in a fixed amount to apply a pressing force thereto.

Wherein the quantitative discharging means includes a lower cap member which is fastened to the other end of the container body and has a through hole formed at the center thereof and a lower cap member which is fitted to a through hole of the lower cap member and has its own elasticity And a pushing member for transmitting a pressing force to the space portion.

The pushing member has a central portion protruding outwardly and a thickness of the center portion is formed to be thinner than a thickness of a rim portion fitted to the rim of the through hole.

First, since the mesh type filter member is interposed between the container body and the mesh cap member, not only the liquid specimen cells can be easily extracted at the time of discharging the solution solution, but also the specimen cells and the foreign substances extracted from the brush contained in the solution solution And the solution solution can be easily separated.

Secondly, since a plurality of outflow holes are formed at the end portion of the mesh cap member so as to be spaced apart from each other at equal intervals, the sample cells are advantageously arranged uniformly on the surface of the membrane filter when the solution solution is discharged.

Thirdly, since the material of the container body is made of a material capable of elastic deformation, the solution solution filled in the space portion by a simple lateral pressing operation can be easily discharged to the outside through the outflow hole.

Fourth, since the solution solution can be discharged in a constant amount by using the fixed amount discharging means, it has an advantage that the smear efficiency can be improved.

1 is a perspective view showing an embodiment of a sample processing container for smearing a cell according to the present invention;
Fig. 2 is an exploded perspective view of Fig. 1; Fig.
3 is a bottom view of the mesh cap member of the present invention.
FIG. 4 is a perspective view showing a second embodiment of a sample processing container for smearing cells according to the present invention. FIG.
FIG. 5 is a perspective view showing a pushing member and a lower cap member which are the fixed quantity discharging means of the present invention. FIG.
6 is a use state diagram of the second embodiment of the present invention.
7 is an exploded perspective view showing a configuration of a third embodiment of the present invention.
8 is a coupled state view of a third embodiment of the present invention.

The present invention provides a method for separating a foreign substance contained in a solution solution, a sample cell, and a solution solution in a process of discharging a solution solution to a membrane filter, which is constituted by a single container, The present invention relates to a specimen processing container for smearing a cell which has an improved structure for discharging the specimen.

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

1 to 3, an embodiment of a sample processing container for smearing a cell according to the present invention will be described with reference to FIGS. 1 to 3. The configuration of the sample processing container includes a space portion 105 formed therein to receive a solution solution containing a sample cell A plurality of outflow holes 210 coupled to one end portion (upper portion) of the container body 100 and communicating with the outside at one end thereof and having a step portion 240 formed on an inner circumferential surface thereof, A filter member 400 disposed between the end of the container body 100 and the step portion 240 of the mesh cap member 200 for filtering foreign substances contained in the solution solution, And an outer cap 300 fastened to the mesh cap member 200 to close the outer side of the mesh cap member 200.

More specifically, the container body 100 is formed with a space portion 105 formed therein, one end of which is opened and the other end thereof is configured to be hermetically closed, so that the container body 100 is deformed when the lateral pressing force acts and is restored after the pressing force is released It is preferable to adopt a material having self-elasticity.

As a material of the container body 100 for this purpose, for example, a PE material or a PP material can be adopted.

In addition, the container body 100 is formed with a first screw portion 110 having a screw thread formed on the outer circumferential surface thereof for fastening with the mesh cap member 200.

The filter member 400 is configured as a mesh type for passing the sample cells contained in the solution solution and filtering the foreign substances.

The mesh cap member 200 is formed in a round shape for collecting solution solution and has a water collecting part 220 formed on its outer circumferential surface with a coupling part 230 for coupling with the outer cap 300, Is formed to have a smaller diameter toward the outlet hole 210 formed at the end portion.

When the container body 100 is lifted upside down while holding the container body 100, the solution liquid is collected, temporarily stored in the catching hole, and then discharged to the outlet hole 210 side.

It is preferable that a plurality of outflow holes 210 are formed so as to be spaced apart from each other at equal intervals to uniformly arrange the sample cells by discharging the solution solution through the plurality of outflow holes 210 under the same pressure.

The outer cap 300 has a thread on the inner circumferential surface to be fastened to the fastening portion 230 of the mesh cap member 200 and has a function of closing the outer and the outflow holes 210 when fastened to the fastening portion 230.

The operation of the present invention having such a configuration will now be described.

The sample processing container according to the first embodiment of the present invention separates the mesh cap member 200 from the container body 100 to make the space portion 105 of the container body 100 communicate with the outside, (Not shown) into which solution solution and sample cells are collected.

Thereafter, the mesh cap member 200 is again tightened using the first screw portion 110 formed on the outer peripheral surface of the one end (upper portion) of the container main body 100, and the outer side of the fastening portion 230 of the mesh cap member 200 Tighten to the outer cap 300 to close.

When such a container is inverted and centrifuged or vortexed, sample cells are separated from the brush contained in the solution solution.

The separated sample cells and the solution solution are precipitated to flow into the catching part 220 through the filter member 400, and the foreign substances are filtered by the filter member 400 in this process.

The outer cap 300 is first separated from the mesh cap member 200 and then the outer cap 300 is separated from the outer surface of the outlet cap 210 are lifted upside down so as to be disposed close to the external membrane filter (not shown), and then the container body 100 is pressed in the lateral direction held by the fingers.

The solution in the space 105 is discharged to the outside through the outflow hole 210 while the lateral diameter of the container body 100 is deformed by the pressing force transmitted from the lateral direction.

At this time, the solution solution has a process of passing the sample cells through the filter member 400 of the mesh type, filtering the foreign matter, and discharging the filtered solution through the collecting unit 220 to the outlet hole 210 .

Thereafter, the solution solution is discharged to the plurality of outflow holes 210 side and uniformly discharged to the membrane filter side, so that the sample cells are uniformly arranged on the surface of the membrane filter.

The sample cells on the surface of the membrane filter have a process of being smudged on the surface of the slide as the surface of the slide that comes in contact with the surface of the membrane filter is contacted.

4 to 6 illustrate a second embodiment of the present invention. The second embodiment of the present invention has the same constituent elements as those of the preceding embodiment, and provides a pressing force within the space 105 of the container body 100, And a fixed amount discharging unit 500 for discharging the solution S filled in the unit 105 by a predetermined amount.

The fixed amount discharging means 500 includes a lower cap member 510 which is fastened to the other end of the container body 100 and has a through hole 515 formed at the center thereof and a lower cap member 510 which is fitted to the edge of the through hole 515 of the lower cap member 510 And a pushing member 520 which is composed of a material having self-elasticity and has a deforming and restoring force due to a pressing force transmitted from the outside, and which transmits a pressing force to the space portion 105 side.

The lower cap member 510 and the container body 100 have a fastening coupling structure. To this end, a second screw portion 120 having a thread is formed on the outer peripheral surface of the other end of the container body 100, Is formed with an engagement portion having a thread to correspond to the second screw portion 120. [

The pushing member 520 has a structure in which the thickness of the central portion is formed to be thinner than the thickness of the rim portion fitted to the rim of the through hole 515 and elastically deformed.

That is, the pushing member 520 is formed so that the central portion protrudes outward, and a function of discharging the solution solution S by applying pressure in the space portion 105 during the pressing operation of pressing the protruded central portion from the outside .

According to another embodiment of the present invention having such a configuration, when a user's fingertip presses the pushing member 520, a certain amount of the solution solution S is discharged as described above, and when the pressing force pressing the pushing member 520 is released, .

The discharging process of the solution liquid S is the same as that of the preceding embodiment in which the discharging process of the solution liquid S is performed to the outlet hole 210 side through the collecting part 220, so that a duplicate description will be omitted.

7 and 8 illustrate a third embodiment of the present invention in which the upper part of the mesh cap member 200 is spaced apart from the collecting part 220 of the mesh cap member 200 to have a receiving space, And a collecting cap (250) for collecting a certain amount of solution solution in the receiving space.

The water collecting cap 250 is disposed between the mesh cap member 200 and the filter member 400 and the communicating hole 252 is formed in the intermediate portion to communicate with the mesh cap member 200.

Further, it is preferable that the water collecting cap 250 has a structure in which the filter member 400 is fused and integrated at the bottom.

The receiving space has a volume such that about 2cc of solution solution is collected.

In the same manner as in the previous embodiment, when the specimen cells and the solution solution are collected in the accommodation space, centrifugation or vortexing is performed while inverting the external cap 300 so that the specimen cells After the separation, the separated sample cells and solution solution pass through the filter member 400 by the specific gravity difference, and settle into the lower receiving space.

After the outer cap 300 is separated from the mesh cap member 200 similarly to the above, the process of discharging the sample cells and the solution solution in the receiving space is performed by pressing the container body 100 in the lateral direction, And provides a pressing force to the sample solution and the solution in the space, and flows out through the outflow hole 210 to the outside.

Meanwhile, the pushing means of the second embodiment may be provided in the third embodiment, and a detailed description thereof will be omitted.

The embodiments of the present invention described above can be modified in various ways within the scope and spirit of the present invention.

Description of the Related Art [0002]
100: container body 105:
110: first thread portion 120: second thread portion
200: mesh cap member 210:
220: collecting part 230: fastening part
240: Step jaw 250: Holder cap
252: communication hole 300: outer cap
400: Filter element 500: Quantitative discharge means
510: lower cap member 512:
515: through hole 520: pushing member
S: solution amount

Claims (8)

A container body 100 having a space 105 in which a solution solution can be filled;
A mesh cap member (200) having a plurality of outflow holes (210) formed at end portions thereof so as to be spaced apart from each other at equal intervals and having a step portion (240) formed on an inner circumferential surface thereof;
A filter member (400) disposed between an end of the container body (100) and a lower portion of the mesh cap member (200) to filter foreign matters contained in the solution solution;
An outer cap 300 fastened to the mesh cap member 200 to close the outer side of the mesh cap member 200;
(500) disposed at the other end of the container body (100) for delivering a pressing force to discharge the solution solution (S) in a fixed amount,
The metering means 500 includes a lower cap member 510 which is fastened to the other end of the container body 100 and has a through hole 515 formed at the center thereof and a lower cap member 510 which is connected to the edge of the through hole 515 of the lower cap member 510 And a pushing member (520) which is composed of a material having self-elasticity to have a deforming and restoring force due to the pressing force transmitted from the outside and transmits a pressing force to the space portion (105) side. Sample handling container for smearing. The method according to claim 1,
The mesh cap member 200 is formed in a round shape for collecting the solution solution and has a water collecting part 220 formed on an outer circumferential surface thereof with a fastening part 230 for fastening with the outer cap 300,
Wherein the collecting part (220) is formed to have a smaller diameter toward the outflow hole (210) side. The method according to claim 1,
Wherein the container body (100) is made of a material having self-elasticity so as to be deformed at the time of lateral pressing and to have a restoring force after releasing the pressure. delete The method according to claim 1,
A communication hole 252 is formed between the mesh cap member 200 and the filter member 400 to communicate with the mesh cap member 200 and an upper portion of the mesh cap member 200 is connected to the water collecting portion 220 of the mesh cap member 200 And a collecting cap (250) spaced apart from the receiving space and collecting a predetermined amount of the solution solution (S) in the receiving space. delete delete The method according to claim 1,
The pushing member 520 has a central portion protruding outwardly and a thickness of the center portion is formed to be thinner than a thickness of a rim portion fitted to the rim of the through hole 515. [ Sample handling container.

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