KR102580913B1 - Dehumidifying collection tool with internal filling method capable of long-term preservation of specimens - Google Patents

Abstract

The present invention relates to a dehumidifying collection tool with an internal filling method that enables long-term storage of samples. More specifically, the cap part is filled with silica gel, so moisture penetrating into the tube part from the outside or moisture generated in the tube part is prevented. By absorbing the moisture, bacteria that may occur inside the container due to moisture are prevented in advance, thereby preventing infection and increasing the efficiency of sample collection. After collecting the sample through the header part of the stick part, the cutting groove of the stick part is used to prevent infection. Through this, the header part can be separated and placed in a separate transport container or an experimental container, which increases convenience by making sample work and sample experiments simple and easy.

Description

Dehumidifying collection tool with internal filling method capable of long-term preservation of specimens}

The present invention relates to a dehumidifying collection tool with an internal filling method that enables long-term storage of samples. More specifically, the cap part is filled with silica gel, so moisture penetrating into the tube part from the outside or moisture generated in the tube part is prevented. By absorbing moisture, it prevents infection by preventing bacteria that may occur inside the container due to existing moisture, and at the same time, it is a dehumidifying collection tool with an internal filling method that enables long-term storage of the sample, which increases the efficiency of sample collection. It's about.

All samples for microbiological testing and various disease tests can be sent to a laboratory immediately after collection to obtain the most accurate results. However, if testing cannot be done immediately, they must be stored in an appropriate environment or transported to an appropriate location.

Here, saliva collection (SALIVA) for diagnosis and analysis of samples is carried out in various ways.

There are methods for collecting saliva using a general swab (small sample) and a method for collecting saliva by spitting it out using a SALIVA COLLECTION KIT (large sample). Most of them are used on the human body, except for childcare, etc. do.

Methods used to transport specimens include syringes, sterilized plastic containers, and plastic tubes, depending on the type of specimen (Blood, Pus, Urine, Stool, etc.) and the culture environment of the transported bacteria (aerobic, anaerobic, virus, chlamydia, etc.). Commercialized transport medium containers consisting of sterilized disposable cotton swabs are widely used.

However, when the swab sample collection tool or transport container is stored for a long time or before use, moisture may be generated inside the container due to an external temperature difference, or moisture may penetrate into the container during the transportation stage after sample collection, causing bacteria, etc. There was a problem that could occur.

Republic of Korea Patent Publication No. 10-0987952

The present invention was devised to solve the above conventional problems,

Since the inside of the cap is filled with silica gel, it absorbs moisture that penetrates the tube from the outside or moisture generated within the tube, thereby preventing infection by preventing bacteria that may occur inside the container due to existing moisture. At the same time, the purpose is to provide an internally filled, dehumidifying collection tool that allows for long-term storage of samples, which increases the efficiency of sample collection.

In addition, after collecting the sample through the header part of the stick part, the header part can be separated through the cutting groove of the stick part and placed in a separate transport container or laboratory container, making specimen work and specimen experiments simple and easy, providing convenience. The purpose is to provide an internally filled, dehumidifying collection tool that allows for long-term preservation of the increasing number of samples.

In order to achieve the above object, the present invention includes a cap portion that is blocked on one side and open on the other side so that the hollow interior is filled with silica gel that absorbs moisture;

an inner cap installed in the cap portion through the other open side of the cap portion to prevent the filled silica gel from escaping while allowing moisture to penetrate;

a stick portion installed on one side of the inner cap to directly collect a sample;

Regarding a dehumidifying sampling tool with an internal filling type capable of long-term preservation of the specimen, comprising a tube part that is screwed to be attached and detachable to the other open side of the cap part and surrounds and protects the outside of the stick part. will be.

In addition, the cap part of the present invention has a step formed on the inner periphery to support the inner cap installed inside, and a coupling groove coupled to the outer circumference of the inner cap is formed on the upper inner circumference of the step, and the coupling groove The present invention relates to an internally filled, dehumidifying sampling tool capable of long-term storage of specimens, characterized in that the upper side has protruding ribs that support the end of the tube portion that is screwed together.

In addition, the inner cap of the present invention has a coupling protrusion formed on the outer periphery to be fixed within the cap part while supported on the step of the cap part, and the coupling protrusion is coupled to the coupling groove of the cap part to fix the inner cap,

A plurality of penetration holes are formed on the bottom of the inner cap to allow moisture to penetrate and be transferred to the silica gel of the cap part,

At the center of one side of the bottom of the inner cap, an insertion portion with an insertion groove is formed to protrude so that one end of the stick portion is inserted, and a fixing groove is formed on the inner periphery of the insertion groove to secure the inserted stick portion. This relates to an internally filled, dehumidifying type harvesting tool that allows for long-term storage.

In addition, a filter part is further formed on the other side of the inner cap of the present invention to prevent silica gel from escaping through the through hole of the inner cap while allowing moisture to penetrate, and in the central part of the other side of the bottom surface of the inner cap, a through hole is provided to penetrate and secure the filter part. The present invention relates to an internally filled, dehumidifying sampling tool capable of long-term storage of specimens, wherein protrusions are formed to protrude, and the penetrating protrusions penetrate the central part of the filter unit to secure the filter unit.

In addition, the stick portion of the present invention is inserted into the insertion groove of the inner cap, and a fixing protrusion is formed protruding on the outer periphery of one end so that it is coupled to the fixing groove of the insertion groove and does not come off.

The other end of the stick part is further formed with a header part that is in direct contact with the sample to be collected, and a cutting groove is formed on the outer periphery of the lower part of the header part to separate the header part from the stick part. This relates to a dehumidifying type collection tool with an internal filling method.

As seen above, the internal filling dehumidifying collection tool capable of long-term storage of samples of the present invention is filled with silica gel inside the cap portion, so moisture penetrating into the tube portion from the outside or moisture generated within the tube portion is prevented. By absorbing , it has the effect of preventing infection by preventing bacteria that may occur inside the container due to existing moisture, and at the same time increasing the efficiency of sample collection.

In addition, after collecting the sample through the header part of the stick part, the header part can be separated through the cutting groove of the stick part and placed in a separate transport container or laboratory container, making specimen work and specimen experiments simple and easy, providing convenience. It has an increasing effect.

Figure 1 is an exploded front view showing an internally filled dehumidifying sampling tool capable of long-term preservation of specimens according to an embodiment of the present invention;
Figure 2 is a cross-sectional view showing an internally filled dehumidifying sampling tool capable of long-term preservation of samples according to an embodiment of the present invention;
Figure 3 is a cross-sectional view showing the cap portion according to an embodiment of the present invention;
Figure 4 is a cross-sectional view showing an inner cap according to an embodiment of the present invention,
Figure 5 is a perspective view showing the upper part of the inner cap according to an embodiment of the present invention,
Figure 6 is a perspective view showing the lower part of the inner cap according to an embodiment of the present invention,
Figure 7 is a front view showing a stick portion according to an embodiment of the present invention;
Figure 8 is a cross-sectional view showing a tube portion according to an embodiment of the present invention.

The present invention having such features can be explained more clearly through its preferred embodiments.

Before describing various embodiments of the present invention in detail with reference to the accompanying drawings, it should be noted that the application is not limited to the details of the configuration and arrangement of components described in the following detailed description or shown in the drawings. will be. The invention may be embodied and practiced in different embodiments and carried out in various ways. Additionally, device or element orientation (e.g. “front”, “back”, “up”, “down”, “top”, “bottom”). The expressions and predicates used herein with respect to terms such as ", "left", "right", "lateral", etc. are merely used to simplify the description of the invention and related devices. Alternatively, you may notice that it does not simply indicate or imply that an element should have a particular orientation. Additionally, terms such as “first,” “second,” and the like are used herein and in the appended claims for purposes of description and are not intended to indicate or imply relative importance or intent.

Accordingly, the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent the entire technical idea of the present invention, so at the time of filing this application, various alternatives are available to replace them. It should be understood that equivalents and variations may exist.

Figure 1 is an exploded front view showing an internally filled, dehumidifying sampling tool capable of long-term preservation of specimens according to an embodiment of the present invention, and Figure 2 is an exploded front view showing the interior capable of long-term preservation of specimens according to an embodiment of the present invention. It is a cross-sectional view showing a filling type dehumidifying type collection tool, Figure 3 is a cross-sectional view showing the cap portion according to an embodiment of the present invention, Figure 4 is a cross-sectional view showing the inner cap according to an embodiment of the present invention, and Figure 5 is a perspective view showing the upper part of the inner cap according to an embodiment of the present invention, Figure 6 is a perspective view showing the lower part of the inner cap according to an embodiment of the present invention, and Figure 7 is a stick according to an embodiment of the present invention. It is a front view showing the part, and Figure 8 is a cross-sectional view showing the tube part according to an embodiment of the present invention.

As shown in Figures 1 to 8, the internal filling dehumidifying type sampling tool capable of long-term preservation of samples of the present invention includes a cap part 10, an inner cap 20, a stick part 30, It consists of a tube portion (40).

As shown in FIGS. 1 to 3, one side of the cap portion 10 is made of a soft, flexible and elastic material, and the other side is made of a hard material. The interior of the cap portion 10 is hollow to prevent moisture. It is filled with silica gel 50 that absorbs, one side of the cap portion 10 is blocked to be filled with silica gel 50, and the other side of the cap portion 10 is open to allow silica gel 50 to be introduced from the outside. At this time, the silica gel 50 is a dehumidifying agent. It is a silica particle with a strong network structure created by the reaction of sulfuric acid and sodium silicate. It has a very large surface area and has an excellent ability to absorb water, alcohol, etc., so it is widely used as a dehumidifying agent.

Here, the cap portion 10 has a step 11 formed on the inner periphery to support the inner cap 20 installed inside, and a silica gel filled inside by the inner cap 20 supported on the step 11. (50) prevents it from leaving.

In addition, a coupling groove 12 is formed on the inner periphery spaced apart at a predetermined distance from the upper side of the step 11 so that the coupling protrusion 21 formed on the outer periphery of the inner cap 20 is engaged, and the coupling groove 12 ) is formed long in the circumferential direction along the inner periphery of the cap portion 10.

In addition, a rib 13 is formed to protrude on the upper side of the coupling groove 12 to support the end of the tube portion 40 to be screwed, and the rib 13 is formed to protrude in a cylindrical shape, and the cap portion 10 ), a groove (not shown) is formed between the outer circumference of the ribs 13 and the inner circumference of the cap portion 10, and the end portion of the tube portion 40 is located in the groove. do. That is, with the rib 13 inserted inside the tube portion 40, the inner periphery of the cap portion 10 is located on the outer periphery of the tube portion 40, and the inner periphery of the tube portion 40 This is the shape where the outer periphery of Rivsal (13) is located.

In addition, a female thread is formed on the inner periphery of the cap portion 10 spaced apart from the outer periphery of the rib 13 to be screwed to the tube portion 40.

As shown in FIGS. 1 to 2 and 4 to 6, the inner cap 20 is installed in the cap portion 10 through the other open side of the cap portion 10 to prevent the filled silica gel 50 from coming off. At the same time, external moisture penetrates and is transferred to the silica gel (50).

Here, the inner cap 20 has a cylindrical shape, and has a coupling protrusion 21 on the outer periphery to be fixed to the coupling groove 12 of the cap part 10 while being supported on the step 11 of the cap part 10. is formed to protrude, and the engaging protrusion 21 is coupled to the engaging groove 12 of the cap portion 10 to secure the inner cap 20. The engaging protrusion 21 is aligned with the engaging groove 12 and is attached to the inner cap. It is formed to be long in the circumferential direction on the outer periphery of the engaging protrusion 21, and when the inner cap 20 is fixed to the inside of the cap portion 10, the ribs of the cap portion 10 are formed on the outer periphery of the upper side of the engaging protrusion 21. A first fastening groove 25 is further formed so that (13) can be inserted. At this time, the first coupling groove 25 is formed long in the circumferential direction on the outer periphery of the inner cap 20.

In addition, the inner cap 20 is formed in a "┗┛" shape in vertical cross-section, and moisture penetrates the bottom surface (horizontal surface) of the inner cap 20 so that it is transmitted to the silica gel 50 of the cap portion 10. A plurality of spheres 22 are formed.

In addition, at the center of one side of the bottom surface of the inner cap 20 (the inner side of the inner cap), an insertion portion 23 with an insertion groove 24 is formed to protrude so that one end of the stick portion 30 is inserted, The insertion part 23 is formed in a rib shape to press the stick part 30 inserted into the insertion groove 24 so that it does not fall out easily, and the rib-shaped insertion part 23 is located on the inner periphery of the insertion groove 24. A number of them are formed by being spaced apart from each other along the line.

In addition, a fixing groove 26 is formed on the inner periphery of the insertion groove 24 to securely fasten the inserted stick portion 30, and the fixing groove 26 is oriented at a right angle to the insertion groove 24, that is, in a horizontal direction. The fixing groove 26 is formed on the inner periphery of the insertion groove 24 to be long in the circumferential direction.

Meanwhile, on the other side of the inner cap 20 (the side opposite to the insertion portion 23), a filter unit is provided to prevent the silica gel 50 from being separated through the through hole 22 of the inner cap 20 and to allow moisture to penetrate. (60) is further formed, and the filter part (60) is formed in the form of a mesh network, so that silica gel (50) cannot pass through, but moisture can pass through.

Here, a through protrusion 27 that penetrates and secures the filter part 60 is formed protruding in the central portion of the other side of the bottom surface of the inner cap 20 (the side opposite to the insertion part 23), and the through protrusion 27 is formed to protrude. A stopper (not shown) is formed to protrude through the center of the filter unit 60 at the end to prevent the filter unit 60 from falling out.

In addition, a support protrusion 28 is formed to protrude from the edge of the other side of the inner cap 20 where the filter unit 60 is installed to support the outer periphery of the filter unit 60, and the support protrusion 28 is formed on the inner cap 20. It is formed long in the circumferential direction at the edge of the other side of the cap 20.

As shown in FIGS. 1 to 2 and 7, the stick portion 30 is installed in the insertion groove 24 of the insertion portion 23 of the inner cap 20 and is a tool for directly collecting a sample, The stick portion 30 is formed as a cylindrical long body, and at the end of the other side of the body (the opposite side installed in the insertion groove 24 of the inner cap 20) is a header portion ( 31) is further formed, and the header portion 31 is made of a material that can absorb the sample like a cotton swab. At this time, one end of the stick portion 30 is formed in a pointed shape so that it can be easily inserted when installed in the insertion groove 24 of the inner cap 20.

Here, a cutting groove 32 is formed on the outer periphery of the lower body of the header portion 31 to separate the header portion 31 from the stick portion 30, and the cutting groove 32 is formed on the outside of the body. It is formed to be long in the circumferential direction at the periphery, and the cutting groove 32 is formed to be inclined on both sides toward the center, so that the body of the stick portion 30 can be easily cut.

In addition, the stick part 30 is inserted and fixed into the insertion groove 24 of the inner cap 20, and is coupled to the fixing groove 26 of the insertion groove 24 so that it does not come off. ) (opposite side) a fixing protrusion 33 is protrudingly formed on the outer periphery of the end portion, the fixing protrusion 33 is formed long in the circumferential direction on the outer periphery of the body of the stick portion 30, and the fixing protrusion 33 is One side is inclined and the other side is formed vertically so that the fixing protrusion 33 is easily coupled to the fixing groove 26 of the insertion groove 24, but is not easily separated when removed.

In addition, when the fixing protrusion 33 is coupled to the fixing groove 26 of the insertion groove 24, the inner cap 20 is located on the outer periphery of the upper side of the fixing protrusion 33 (in the direction toward the header part 31). A second fastening groove 34 is further formed so that one side of the insertion groove 24 is inserted. At this time, the second fastening groove 34 is formed long in the circumferential direction on the outer periphery of the body of the stick portion 30.

And, when the stick portion 30 is coupled to the insertion groove 24 of the inner cap 20, the stick portion 30 is coupled to the right position on the outer periphery of the upper side of the second fastening groove 34 (in the direction toward the header portion 31). A positioning groove 35 is formed as much as possible, and the installation position of the stick part 30 can be determined according to the positioning groove 35.

As shown in FIGS. 1 to 2 and 8, the tube part 40 is open on one side so as to be attached and detachable to the other open side of the cap part 10 and communicates with it, and has a stick part inside the tube part 40. (30) is provided to protect it, that is, it surrounds and protects the outside of the stick portion (30). At this time, the tube part 40 is in the form of a transparent tube, and the stick part 30 provided inside can be visually confirmed.

Here, the tube part 40 has a male thread formed on the outer periphery to be screwed to the cap part 10, and the inner bottom surface of the tube part 40 is used to collect a sample through the end of the stick part 30. It is formed slanted toward the center in the form of upper and lower narrows to facilitate transportation to the lower side.

10: cap part 11: step
12: Coupling groove 13: Rib joint
20: inner cap 21: coupling protrusion
22: through hole 23: insertion portion
24: Insertion groove 25: First fastening groove
26: fixing groove 27: penetrating protrusion
28: Support protrusion
30: stick part 31: header part
32: cutting groove 33: fixing protrusion
34: second fastening groove 35: correct position groove
40: tube part 50: silica gel
60: filter part

Claims (5)

a cap portion (10) with one side blocked and the other side open so that the hollow interior is filled with moisture-absorbing silica gel (50);
an inner cap (20) installed in the cap part (10) through the other open side of the cap part (10) to prevent the filled silica gel (50) from leaving and to allow moisture to penetrate;
a stick part (30) installed on one side of the inner cap (20) to directly collect a sample;
It is configured to include a tube portion 40 that is screwed to be detachably attached to the other open side of the cap portion 10 and surrounds and protects the outside of the stick portion 30,
The cap portion 10 has a step 11 formed on the inner periphery to support the inner cap 20 installed inside, and the upper inner periphery of the step 11 is coupled to the outer periphery of the inner cap 20. A coupling groove 12 is formed, and a rib 13 is formed to protrude from the upper side of the coupling groove 12 to support the end of the tube portion 40 to be screwed,
The inner cap 20 is supported on the step 11 of the cap part 10, and a engaging protrusion 21 is formed on the outer periphery to protrude so as to be fixed within the cap part 10, and the engaging protrusion 21 is formed in the cap part ( The inner cap 20 is fixed by being coupled to the coupling groove 12 of 10),
A plurality of penetration holes 22 are formed on the bottom surface of the inner cap 20 to allow moisture to pass through and transfer to the silica gel 50 of the cap portion 10,
At the center of one side of the bottom surface of the inner cap 20, an insertion portion 23 having an insertion groove 24 is formed to protrude so that one end of the stick portion 30 is inserted, and the inner periphery of the insertion groove 24 is formed. A fixing groove 26 is formed to secure the inserted stick part 30,
A filter part 60 is further formed on the other side of the inner cap 20 to prevent the silica gel 50 from leaving through the through hole 22 of the inner cap 20 and to allow moisture to penetrate, and the inner cap ( A through protrusion 27 is formed to protrude from the center of the other side of the bottom surface of the filter unit 60, and the through protrusion 27 penetrates the central part of the filter unit 60 to form the filter unit 60. An internally filled, dehumidifying collection tool capable of long-term preservation of samples, characterized by fixing the.
According to clause 1,
The stick portion 30 is inserted into the insertion groove 24 of the inner cap 20, and has a fixing protrusion 33 on the outer periphery of one end so that it is coupled to the fixing groove 26 of the insertion groove 24 and does not come off. ) is formed protruding,
The other end of the stick part 30 is further formed with a header part 31 that is in direct contact with the sample to be collected, and the header part 31 is attached to the outer periphery of the lower part of the header part 31. ) An internally filled, dehumidifying collection tool capable of long-term preservation of the sample, characterized by a cutting groove 32 that can be separated from the sample. delete delete delete