KR102375491B1 - Vacuum Suction Device for Cell Smear - Google Patents

Abstract

The present invention relates to a vacuum suction device for cell smearing, in a suction device for sucking a reagent to smear cells on a slide, providing a vacuum pressure for sucking the reagent, temporarily storing the sucked reagent, When this is removed, a vacuum suction body provided to drain downward; a suction nozzle part disposed on the vacuum suction body part, directly connected to the upper part of the vacuum suction body part, and sucking the reagent to be smeared by contact with the slide by vacuum pressure; and a drain valve disposed under the vacuum suction body part and directly connected to the lower part of the vacuum suction body part to drain the reagent temporarily stored after smearing to the outside; including, the vacuum suction body part, the The suction nozzle part and the drain valve part are provided integrally to be drained after releasing the vacuum pressure in a state in which the reagent absorbed by the vacuum pressure is temporarily stored.

Description

Vacuum Suction Device for Cell Smear

The present invention relates to a vacuum suction device for cell smearing, and more particularly, by improving the structure of a suction device that removes drain after smearing in a state in which a liquid preservation reagent is sucked when cells are smeared in a thin layer on a glass slide for microscopy. Vacuum pressure due to pipe blockage caused by hardening of pipes, hardening of residual reagents inside the pipe, and foreign matter stacking over time generated through the pipe by integrally having a suction, storage, and draining configuration to remove interconnected pipes It relates to a vacuum suction device for cell smearing, which increases the lifespan by suppressing the occurrence of deterioration of smear quality and failure of vacuum pump and drain valve due to the inability to aspirate reagents due to the decrease in .

In general, to test for cancer and disease in liquid cytology, cells corresponding to the physical examination site are collected, and the collected cells are stored in a preservation reagent container containing a preservation reagent, and then transferred to the examination center.

Thereafter, the presence or absence of cancer or disease can be determined by removing foreign substances from the specimen using a sample processor and a filter container, attaching the cells and materials necessary for the examination to a slide glass, and then passing through the staining step and reading the abnormal state of the cells with a microscope. will determine

According to this method, before injecting the sample contained in the preservation reagent into the filter container, shake the preservation reagent container by hand or use a separate stirring device to disperse the cells and foreign substances in the sample.

After that, open the lid, pour the sample into the filter container, and suck the sample by attaching the suction device to the bottom of the filter. The primary mesh attached to the filter container filters out mucus and foreign substances, and the cells collected on the 5-10um pore membrane are attached to the slide glass. is not sufficiently absorbed and remains in the filter container.

When the filter container is separated to access the membrane through which the cells are filtered, the mixed solution that cannot be sucked is poured down by gravity and lost.

In addition, the process of attaching cells from the storage reagent container to the slide glass is time-consuming because it has to be done manually by the user. Since the lid has to be opened and the sample is poured, contaminants or impurities may be transferred from the user's hand to the slide glass, thereby reducing the accuracy of the cell test.

In such a conventional smearing method, the filter container for liquid cell smear is a container containing a sample consisting of a preservation reagent and cells in order to smear on a slide glass, removing mucus and foreign substances from the sample in the container, and collecting cells and necessary materials. The filter and the smearing device that smears the cells collected in the filter on the slide glass are separated from each other independently. As a result, there was a problem in that the device occupies a lot.

In the filter described above, in order to filter by injection of the sample, the user must pour the sample according to the concentration of the sample. There was a problem in that the mesh was clogged with mucus and foreign substances and thus could not be sucked and lost.

In addition, when the sample is sucked and collected, the amount of cells distributed on the slide is concentrated rather than uniformly dispersed, so there is a problem in that the efficiency of the test is lowered due to overlapping of cells or a small amount of cells.

Accordingly, recently, a smearing device has been developed and used in which a reagent containing cells is smeared by contacting a slide in a state in which the reagent is sucked using a suction means, and the sucked reagent moves to a drain device and drains.

However, this prior art smearing device has a suction nozzle sucked for spreading the reagent, a vacuum device connected to a vacuum pump to provide vacuum pressure to suck the reagent from the suction nozzle, and a device for draining the reagent in the vacuum device. As each pipe is connected to each other and time passes, the pipe line narrows or clogs due to hardening of the pipe, hardening of the remaining reagents inside the pipe, and stacking of foreign substances. There were problems in that the quality was deteriorated, the vacuum pump malfunctioned, and the drain valve malfunctioned.

The present invention has been devised to solve the above problems, and an object of the present invention is to integrate a suction device that removes drain after smearing in a state in which a liquid preservation reagent is inhaled when cells are smeared in a thin layer on a glass slide for microscopy. By removing interconnected pipes while improving the processing speed of reagents, the hardening of the pipes over time generated through the pipes, the hardening of the remaining reagents inside the pipes, and the drop of vacuum pressure due to blockage of the pipes due to the deposition of foreign substances, thereby sucking the reagents An object of the present invention is to provide a vacuum suction device for cell smearing which increases the lifespan by suppressing the occurrence of deterioration of smear quality and malfunctions of the vacuum pump and drain valve due to this impossibility, and improving the smearing speed by reducing the equipment.

Objects of the present invention are not limited to the objects mentioned above, and other objects not mentioned will be clearly understood from the description below.

In order to achieve the above object, a vacuum suction device for cell smearing according to an embodiment of the present invention is a suction device for sucking a reagent in order to smear cells on a slide. a vacuum suction body provided to temporarily store the reagent and drain to the lower part when the vacuum pressure is removed; a suction nozzle part disposed on the vacuum suction body part and directly connected to the upper part of the vacuum suction body part to absorb the reagent so as to be smeared by contact with the slide by vacuum pressure; and a drain valve disposed under the vacuum suction body part and directly connected to the lower part of the vacuum suction body part to drain the reagent temporarily stored after smearing to the outside; including, the vacuum suction body part, the The suction nozzle part and the drain valve part are provided integrally to be drained after releasing the vacuum pressure in a state in which the reagent absorbed by the vacuum pressure is temporarily stored.

In addition, the vacuum suction body part is disposed at a position where the reagent is absorbed for smearing, and has a vacuum suction space for temporarily storing the reagent sucked through the suction nozzle part by applying a vacuum pressure therein, at the upper part A nozzle insertion support having a nozzle insertion space in which the suction nozzle is inserted and installed is provided in the center, the nozzle insertion support having a nozzle insertion slope inclined so that the cross-sectional area is reduced from the outer periphery to the center of the upper surface while closing the open part, the lower surface a vacuum suction body having a drain hole in the form of a through hole to communicate with the drain valve part; And it is disposed inside the vacuum suction body, is provided in the form of a partition wall dividing the space in the upper central position of the vacuum suction space to separate the incoming air and the reagent to suck the air in a vacuum, the reagent is the lower It may include a partition wall that discharges to

In addition, the suction nozzle unit is disposed protruding from the upper portion of the vacuum suction body portion, the lower portion is directly connected to the vacuum suction body, the upper surface is formed with suction nozzle holes penetrating at a plurality of positions to transmit vacuum pressure, and the vacuum suction a suction nozzle body provided to suck the reagent by vacuum pressure generated from the body and smear the reagent by contact with the slide on the upper surface; and a nozzle support that is disposed protruding around the outer periphery of the lower portion of the suction nozzle body, and is partially inserted and supported so that the suction nozzle body is positioned on the upper portion of the vacuum suction body and fixed thereto.

In addition, the drain valve part is disposed under the vacuum suction body part, and is directly connected with the vacuum suction body part inside to drain the reagent temporarily stored outside the drain space, which is a space communicating from the top to the outside. having a valve body; and a drain driver disposed on one side of the valve body and providing a pressure through which the reagent flows into the drain space after the vacuum pressure is removed from the vacuum suction body.

In addition, the integrated vacuum suction body portion, the suction nozzle portion, and the drain valve portion may be manufactured by outputting it through a 3D printer.

Specific details for achieving the above object will become clear with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be configured in various different forms, and these embodiments allow the disclosure of the present invention to be complete and provide common knowledge in the technical field to which the present invention pertains. It is provided to fully inform the possessor of the scope of the invention.

According to one of the above-described means for solving the problems of the present invention, when cells are smeared on a glass slide for microscopy in a thin layer, a suction device that removes drain after smearing in a state in which the liquid preservation reagent is inhaled is integrated to improve the reagent processing speed Removal of the interconnected piping while removing the interconnected piping causes the curing of the piping, curing of the remaining reagents in the piping, and the decrease in vacuum pressure due to blockage of the piping due to the accumulation of foreign substances as time passes through the piping It provides the effect of increasing the lifespan by suppressing the occurrence of generation and failure of the vacuum pump and drain valve, and improving the smearing speed by reducing the equipment.

1 is a perspective view showing a vacuum suction device for cell smear according to an embodiment of the present invention.
FIG. 2 is a partially cutaway perspective view showing the vacuum suction device for cell smearing of FIG. 1 .

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and will be described in detail through the detailed description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

In describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, numbers (eg, first, second, etc.) used in the description process of the present specification are merely identification symbols for distinguishing one component from other components.

In addition, in this specification, when a component is referred to as “connected” or “connected” with another component, the component may be directly connected or directly connected to the other component, but in particular It should be understood that, unless there is a description to the contrary, it may be connected or connected through another element in the middle.

The suffixes "module" and "part" for components used in the following description are given or mixed in consideration of only the ease of writing the specification, and do not have distinct meanings or roles by themselves. In addition, in order to clearly explain the present invention, parts irrelevant to the description are omitted from the drawings, and in the drawings, the width, length, thickness, etc. of components may be exaggerated for convenience. Like reference numerals refer to like elements throughout.

Hereinafter, detailed contents for practicing the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a vacuum suction device for cell smearing according to an embodiment of the present invention, and FIG. 2 is a partially cutaway perspective view showing the vacuum suction device for cell smearing of FIG. 1 .

1 and 2, the vacuum suction device 100 for cell smearing according to an embodiment of the present invention sucks a reagent to smear cells on a slide, and a filter is used to filter the reagent containing cells in the container. By integrating a vacuum suction device that performs smearing after suctioning with the installed suction device and drains to the outside when smearing is finished, interconnected pipes are removed, thereby blocking problems caused by pipes and improving the speed of smearing. there is.

The vacuum suction device 100 for cell smearing includes a vacuum suction body unit 110 , a suction nozzle unit 120 , and a drain valve unit 130 .

The vacuum suction body part 110 is provided to temporarily store the sucked reagent while providing a vacuum pressure for sucking the reagent, and to drain it downward when the vacuum pressure is removed.

Here, a vacuum pump for providing vacuum pressure is installed in the vacuum suction body 110 , and a detailed description thereof will be omitted as a conventional vacuum pump is used.

This, the vacuum suction body portion 110 includes a vacuum suction body 111, and a separation barrier rib (117).

The vacuum suction body 111 is disposed at a position where the reagent is absorbed for smearing, and a vacuum suction space 112 for temporarily storing the reagent sucked through the suction nozzle unit 120 by applying a vacuum pressure therein. has a nozzle insertion inclined part 115 that is inclined so that the cross-sectional area of the upper surface is reduced from the outer periphery to the center while closing the open part at the upper part, and the nozzle insert in which the suction nozzle part 120 is inserted into the center A nozzle insertion support 113 having a space 114 is provided, and a drain hole 116 in the form of a through hole is formed on the lower surface to communicate with the drain valve unit 130 .

The separation partition wall 117 is disposed inside the vacuum suction body 111 and is provided in the form of a partition wall partitioning the space at the upper central position of the vacuum suction space 112 to separate the incoming air and the reagent to vacuum the air. and the reagent is provided to discharge to the bottom.

The suction nozzle part 120 is disposed on the upper part of the vacuum suction body part 110, and is directly connected to the upper part of the vacuum suction body part 110 to suck the reagent in order to smear it by contact with the slide by vacuum pressure. do.

The suction nozzle unit 120 includes a suction nozzle body 121 and a nozzle support body 123 .

The suction nozzle body 121 is protrudingly disposed on the upper portion of the vacuum suction body 111, the lower portion is directly connected to the vacuum suction space 112, and the suction nozzle hole ( 122) is formed, and the reagent is sucked by the vacuum pressure generated in the vacuum suction space 112, and smearing is performed by contact of the slide on the upper surface.

The nozzle support body 123 is disposed to protrude to the outer periphery of the lower portion of the suction nozzle body 121, and a part of the suction nozzle body 121 is positioned on the upper portion of the vacuum suction body 111 and fixed thereto. ) is provided to be inserted and supported.

The drain valve 130 is disposed under the vacuum suction body 110 and is directly connected to the lower portion of the vacuum suction body 110 to finish smearing and to drain the temporarily stored reagent to the outside.

The drain valve 130 includes a valve body 131 and a drain actuator 133 .

The valve body 131 is disposed below the vacuum suction body 111, and is directly connected to the vacuum suction space 112 therein to drain the temporarily stored reagent to the outside from the upper part communicating with the drain hole 116 to the outside. It is provided to have a drain space 132 that is a space communicating in the direction.

The drain actuator 133 is disposed on one side of the valve body 131 , and is provided to provide a pressure through which the reagent is introduced into the drain space 132 after the vacuum pressure of the vacuum suction space 112 is removed.

First, a filter is installed on the upper part of the suction nozzle body 121 in a state where the container is positioned for smearing, and the vacuum pressure is operated in the vacuum suction space 112 by the operation of the vacuum pump connected to the vacuum suction body 111. When the reagent is transferred to the filter through the suction nozzle hole 122 formed on the upper portion of the suction nozzle body 121, the reagent contained in the container is sucked and dispensed into the filter.

At this time, the reagent dispensed into the filter is introduced into the inside of the vacuum suction body 111 through the suction nozzle hole 122 during vacuum suction, and the introduced reagent is in contact with the separation partition wall 117 and suctioned by vacuum pressure. As the contained air is sucked and removed by a vacuum pump, the separated liquid reagent moves to the lower part of the vacuum suction space 112 and is temporarily stored.

After dispensing the reagent on the filter, smear the slide by contacting the filter, and remove the filter after smearing. When the drain actuator 133 is driven after the vacuum pressure is removed in a state in which the filter is removed, it is drained to the outside while moving to the drain space 132 in the valve body 131 through the drain hole 116 .

The vacuum suction apparatus 100 for cell smearing according to an embodiment of the present invention described above is provided with a vacuum suction body unit 110 , a suction nozzle unit 120 , and a drain valve unit 130 integrally connected to each other. Because the pipe can be removed, the volume is reduced while simplifying the device, and the cause of the failure is eliminated because it fundamentally blocks clogging and hardening of the pipe, and the replacement and maintenance of parts for the pipe is eliminated, so in terms of maintenance It can act as an upper advantage.

The above-described integrated vacuum suction body unit 110 , suction nozzle unit 120 , and drain valve unit 130 may be manufactured by outputting them through a 3D printer.

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.

<Explanation of symbols for main parts of the drawing>
100: suction device 110: vacuum suction body part
111: vacuum suction body 112: vacuum suction space
113: nozzle insertion support 114: nozzle insertion space
115: nozzle insertion inclined part 116: drain hole
117: separation bulkhead 120: suction nozzle part
121: suction nozzle body 122: suction nozzle hole
123: nozzle support 130: drain valve part
131: valve body 132: drain space
133: drain actuator

Claims (5)

A suction device for sucking a reagent to smear cells on a slide, the suction device comprising:
a vacuum suction body part provided to temporarily store the sucked reagent while providing a vacuum pressure for sucking the reagent, and to drain the reagent downward when the vacuum pressure is removed;
a suction nozzle part disposed on the vacuum suction body part and directly connected to the upper part of the vacuum suction body part for sucking the reagent to be smeared by contact with the slide by vacuum pressure; and
A drain valve disposed under the vacuum suction body part and directly connected to the lower part of the vacuum suction body part to drain the reagent temporarily stored after smearing to the outside; including;
The vacuum suction body part, the suction nozzle part, and the drain valve part are provided integrally to be drained after dissolving the vacuum pressure in a state in which the reagent absorbed by the vacuum pressure is temporarily stored,
The suction nozzle unit,
It is disposed protruding on the upper part of the vacuum suction body part, the lower part is directly connected to the vacuum suction body part, and suction nozzle holes penetrated at a plurality of positions are formed on the upper surface to transmit vacuum pressure, and the vacuum generated in the vacuum suction body part is formed. a suction nozzle body provided to suck the reagent by pneumatic pressure and apply smearing by contact of the slide on the upper surface; and
a nozzle support body which is disposed protruding around the outer periphery of the lower part of the suction nozzle body, and a part of the suction nozzle body is inserted and supported so as to be fixed while being positioned on the upper part of the vacuum suction body;
The vacuum suction body portion,
It is disposed at a position where the reagent is absorbed for smearing, and has a vacuum suction space for temporarily storing the reagent sucked through the suction nozzle unit by applying a vacuum pressure therein, and the upper surface while closing an open part at the top A nozzle insertion support having a nozzle insertion slope inclined so as to reduce the cross-sectional area in the central direction from the outer periphery, a nozzle insertion space having a nozzle insertion space in which the suction nozzle unit is inserted and installed, is provided on the lower surface so as to communicate with the drain valve unit A vacuum suction body having a drain hole in the form of a through hole; and
It is disposed inside the vacuum suction body and is provided in the form of a partition wall partitioning the space at the upper central position of the vacuum suction space to separate the incoming air and the reagent to suck the air into a vacuum, and the reagent to the bottom Separation bulkhead that discharges; including
Vacuum suction device for cell smear.
delete delete The method of claim 1,
The drain valve unit,
a valve body disposed under the vacuum suction body and having a drain space, which is a space communicating from the top to the outside, to drain the reagent temporarily stored in direct connection with the vacuum suction body therein; and
A drain driver disposed on one side of the valve body and providing a pressure through which the reagent flows into the drain space after removing the vacuum pressure of the vacuum suction body
Vacuum suction device for cell smear.
The method of claim 1,
The integrated vacuum suction body part, the suction nozzle part, and the drain valve part are manufactured by outputting through a 3D printer.
Vacuum suction device for cell smear.

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