KR200491721Y1 - Sample container for gamma ray measurement - Google Patents

Abstract

The present invention relates to a sample container for measuring gamma rays for measuring radioactivity, and in particular, the sample for measurement is spoiled or the surroundings are contaminated due to the combination of the inside lid of the housing so that the inner lid for sealing is easily sealed and sealed perfectly. This is to prevent this from happening and to make accurate measurements.
To this end, the inner lid is formed with an opening and closing that is opened and closed with a cross-shaped incision line that is automatically opened and combined by pressure on the top of the housing where the sample is stored and the detector is seated on the bottom and is automatically opened by pressure. It is fitted to be inserted to maintain the airtightness, and the outer lid is coupled to the upper edge of the housing so as to be hermetically coupled in a double structure.

Description

Sample container for gamma ray measurement {Sample container for gamma ray measurement}

The present invention relates to a sample container for measuring gamma rays by measuring the radioactivity by combining the inner lid and the outer lid in a dual structure to block the sample stored in the measuring space of the housing from the outside, in particular, the inner lid for sealing inside the housing When this is combined, the inner lid is easily combined by discharging the inner air. In the combined state, the measurement space is completely blocked from the outside to prevent external air contact of the stored sample, thereby preventing the sample from spoiling and surrounding contamination due to generated gas. The aim was to provide a sample container that can be accurately prevented and can be accurately measured.

In general, although the test equipment used to measure radionuclide analysis or radioactivity is quite expensive, when it is vulnerable to impact and when it is placed on the measurement sample, when it is impacted or contaminated by the measurement sample, the base radiation increases, resulting in a decrease in performance There was.

That is, in the related art, for measuring radioactivity, a sample is placed in a sample container, then the wrap is wrapped and sealed, then placed on a detector to measure radioactivity.

However, because the lab is easily torn even with a small impact, there is a problem in that a complete sealing is uncertain and a problem occurs that the sample is exposed to the air and decays or contaminates the surroundings.

Therefore, due to the above problems, the inner space where the sample is stored is completely isolated by using the inner and outer lids of the dual structure in the housing where the protruding seating protrusions are formed so that the detector is seated in the center of the bottom of the measuring space inside. The blocking Marinelli beaker is widely used.

The Marinelli beaker is an inner wall of the housing, and the outer wall of the inner lid is in close contact with the inner lid, so that the inner lid is inserted into the inner wall. When the inner lid is pinched inside, there is a problem that the inner lid is not properly combined due to the air located inside the measurement space. For easy coupling of the inner lid, an air exhaust hole is formed to exhaust the air. have.

However, when the sample measuring the radioactivity is a fluid sample or a biological sample, there is a problem that the inner space between the inner lid and the outer lid leaks through the air outlet hole of the inner lid, and the outer lid is completely sealed. No, there was a problem that the stored sample was exposed to micro-air, and there was a problem that the surrounding sample was contaminated with radioactivity and odor due to the decayed sample. There was a problem that the reliability of the test was deteriorating.

Therefore, recently, an improved sample container has been developed by preventing the sample from being discharged to the outside by completely sealing the housing and the cover constituting the container for storing the sample with the seam.

However, since the conventional sample container requires a separate tool to seam the housing and the cover together, the measurement for radioactivity was very inconvenient, and the tool used is contaminated with radioactivity in the seaming process. Therefore, there is a problem in that it is expensive because it must be disposed of as a sample container or a separate disinfection process.

In addition, after the sample measurement is completed, the sample container and the sample must be separated and disposed of separately, but the process for dismantling the housing and the lid of the seaming-coupled sample container is cumbersome, and there is a problem that contamination occurs in this process. Although the sample container can be sterilized and reused according to the measurement sample, it cannot be reused after use once.

[Patent Document 1] Published Patent Publication No. 10-2017-0017120 (2017.02.15)

Therefore, the present invention is intended to solve the above problems, and the air discharge hole is automatically blocked after being easily combined while the air is discharged to the outside through the air discharge hole so that the housing and the inner lid are not air resistant. The purpose is to block the measurement space so that it is completely sealed from the outside and prevent the deterioration and contamination of the sample, so that accurate measurement is possible.

In addition, there is another purpose that the sample container can be reused only through the disinfection process depending on the measurement sample.

In order to achieve the above object, in the present invention, the housing is formed with a protruding seating protrusion protruding inward so that the detector is seated in the center of the bottom of the measurement space inside, and the inner lid inserted into the housing and coupled to the top of the housing. In the sample container made of the outer lid, the inner lid is formed so as to form an opening and closing formed by a cross-shaped incision line that is automatically opened by pressure when it is clamped to the inside of the housing and then closed again after being combined.

Therefore, according to the present invention, the housing and the inner lid are easily combined, but after being combined, a complete sealing is achieved, thereby making it easy to use the container for sample measurement, and accordingly, it is possible to accurately measure radioactivity, thereby increasing the reliability of the measurement. There is an advantage that, after the measurement is completed, the separation of the container and the sample for disposal is easy.

In addition, depending on the measurement sample, it is possible to reuse the sample container only through the disinfection process, thereby providing a synergistic effect economically.

1 is an exploded view of a sample container to which the inner lid according to the first embodiment of the present invention is coupled.
Figure 2 is an operation diagram showing the opening and closing state of the opening and closing according to the first embodiment of the present invention.
Figure 3 is a perspective view of the inner lid is formed opening and closing according to the second embodiment of the present invention.
Figure 4 is an opening and closing operation diagram of the opening and closing of Figure 3;
5 is a perspective view of an inner lid having an opening and closing according to a third embodiment of the present invention.
Figure 6 is an opening and closing operation diagram of the opening and closing of Figure 5;

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

1, the basic configuration of the sample container of the present invention is formed of a plastic housing 10 and an inner lid 20 and an outer lid 30 to be introduced from the top of the housing 10.

At this time, the housing 10 is formed with a measuring space 11 containing a sample therein, and the center of the measuring space 11 is recessed from the bottom surface, and the inside is a seating protrusion 12 formed as an empty space 14. Is protruding upward, the detector for measuring the radioactivity of the sample is introduced into the empty space 14 where the seating protrusion 12 is formed.

In addition, the inner lid 20 is formed of a side wall surface 23 upright from the edge of the bottom surface 22 and the bottom surface, the outer diameter of the side wall of the inner lid 20 and the inner diameter of the housing 10 It is formed with the same diameter, the side wall surface 23 of the inner lid 20 is inwardly inward from the opened upper direction of the housing 10, and is in contact with the inner wall surface 10a while maintaining the airtightness primarily. will be.

In more detail, the side wall surface 23 of the inner lid 20 and the inner wall surface 10a of the housing 10 are in close contact with each other to be tightly coupled to have airtightness.

In addition, the upper edge of the housing 10 is formed with the upper cover 16 of a certain width extending more outwardly than the side wall surface 23 so that the outer cover 30 is coupled to be sealed in a double structure. When the projected surface 17 of a certain width is provided in the state of being downward and the engaging frame 15 is formed at the lower end of the projected surface 17, perfect sealing is achieved when combined with the outer cover 30 as described later. It will be done.

In addition, the top cover 16 is coupled to the upper surface 16 and the protruding surface 17 and the locking frame 15 so that the complete lid is formed, the outer cover 30 has a constant length in the lower direction on the upper surface 31 and the borders of the upper surface. The side wall frame 32 protruding downward is formed, and the side wall frame and the daily interval are spaced apart to form a separation space 34 while the upper edge of the housing inserted into the separation space 34 is coupled to support the inner wall frame for support. (33) is formed and is provided with a support frame (35) to support the locking frame (15) of the housing to the inner surface of the side wall frame (32).
At this time, the upper frame 16 of the housing 10 can be accurately inserted into the space 35 of the outer cover 30, and for this purpose, the diameter of the space and the diameter of the upper frame are formed to have the same diameter. It is combined to maintain confidentiality.

This airtightness is that the top surface of a certain width provided on the upper edge of the housing 10 and the protruding frame extending downwardly are in close contact with the two surfaces, and the protruding frame in that state. As the fastening frame 15 provided at the bottom is supported by the supporting frame 35 of the side wall frame of the outer cover 30, close contact is induced, and in this state, the inner wall frame is in close contact with the inner wall surface of the housing and has three surfaces. The airtightness is maintained due to the close contact, and thus, it can be reused after disinfection by detachment of the outer cover.

In this case, FIGS. 1 and 2 show that an opening 21 for air discharge is formed on the inner lid according to the first embodiment, and when the inner lid is inserted inside the housing 10, it is inserted by close contact. The opening and closing openings are formed so that the air can be discharged to prevent insertion, and the air is not allowed to enter after being introduced, so that the inner lid can be easily coupled and the airtightness is maintained after being combined.

In the present invention, the opening / closing opening 21 is formed as a cross-shaped incision line to make it impossible to enter air after the inner lid is discharged while being easily discharged.

Therefore, when the inner lid 20 is pinched into the housing 10, the internal pressure is generated due to airtightness, and the opening and closing opening 21 formed by the incision line is opened and the air is discharged to the outside, and the inner lid 20 is coupled. In this completed state, the opening / closing opening 21 is closed in the original state due to the snow thickness of the bottom surface of the inner lid, thereby completely blocking the exterior.

In order to open and close the opening / closing opening 21, the inner lid 20 is formed of a soft plastic having excellent elasticity and flexibility when possible.

At this time, FIGS. 3 and 4 show the inner lid 20 having the opening 21 according to the second embodiment, and the flesh thickness of the opening 21 is thinner than the overall thickness of the inner lid 20. It is made to be thick.

Therefore, as the thickness of the opening 21 is thin, the elastic force is improved, and the inner lid 20 is more easily opened and closed when the inner lid 20 experiences air resistance due to a pinched coupling to the housing 10. You lose.

At this time, FIGS. 5 and 6 show a third embodiment of the inner lid 30 in which the opening and closing openings 21 are formed, and when the opening and closing openings 21 are formed of rubber or silicone material that is flexible and has excellent adhesion and elasticity, double injection molding is performed. It is formed integrally by molding or insert molding.

In addition, since the opening and closing portion 21 is made of a material different from the inner lid 20 made of plastic, it is preferable to use an elastomer material having excellent adhesion if possible to prevent mold release.

At this time, the inner wall of the upper end of the housing 10 is fitted or coupled to the inner lid 20 by forming a stepped frame 13 which is seated so that the inner lid 20 that is fitted into the measuring space 11 is no longer allowed to enter the measurement space 11. It is to facilitate the separation of the inner lid 20.

10: housing 11: measuring space
12: seating protrusion
20: inner lid 21: opening and closing
30: outer lid

Claims (1)

The measurement space 11 containing the sample is formed therein, and the seating protrusion 12 formed in the hollow space 14 is projected upward from the bottom surface in the center of the measurement space 11 to protrude upward. In the empty space 14 in which the seating protrusion 12 is formed, the housing 10 into which the detector for measuring the radioactivity of the sample is introduced and the air discharge supported by the stepped frame 13 to be introduced from the top of the housing 10 As the inner lid 20 formed of the side surface 22 which is erected upward from the edge of the bottom surface 22 and the bottom surface provided with the means, and the outer lid 30 covered while covering the upper border of the housing 10 In the formation,
The outer diameter of the side wall surface of the inner lid 20 and the inner diameter of the inner wall surface of the housing 10 are formed to have the same diameter, so that the side wall surface 23 of the inner lid 20 is opened toward the top of the housing 10 Inwardly, while being inwardly contacted with the inner wall surface 10a, the airtightness is primarily maintained,
Opening and closing openings 21 are formed on the bottom surface of the inner lid so as to be able to be combined as described above, and the opening and closing openings facilitate easy air discharge when entering the inside of the housing, and after the discharge, the crossing of the air is impossible. It is formed as an incision line,
In order to maintain airtightness when the outer lid 30 is coupled to the housing, the upper edge of the housing is formed with a certain width of the upper rim 16 extending outwardly than the side wall 18, and is fixed downward in the extended state. A projecting surface 17 having a width is provided, and a locking frame 15 is formed at the lower end of the projecting surface 17,
The outer lid 30 which is engaged with the upper edge of the housing is formed with a top surface 31 and a side wall frame 32 that protrudes downward at a predetermined length in the bottom direction on the edge of the top surface, and the space between the side wall frame and the daily interval is spaced apart. When the upper edge of the housing inserted into the separation space 34 is coupled while forming the separation space 34, an inner wall frame 33 for support is formed, and the inner side of the side wall frame 32 is a housing. The support frame (35) is provided so that the support frame (15) can be supported in the spaced-in space.
The upper surface of the housing 10 is provided with an upper surface frame of a certain width and a protruding frame extending downwardly into the spaced space, the two surfaces are in close contact in the spaced space of the outer lid,
In this state, the close contact is induced while the engaging frame 15 provided at the lower end of the protruding frame 17 is supported by the supporting frame 35 of the side wall frame of the outer cover 30, and in this state, the inner frame 33 ) Is in close contact with the inner wall surface (10a) of the housing, and the airtightness is maintained through the close contact of the three surfaces, and thereby, the sample container for gamma ray measurement is characterized in that it can be reused after disinfection by detachment of the outer cover. .

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