JP3138744U - Sealed container - Google Patents

Abstract

An object of the present invention is to provide a sealed container having a simple structure without using a large-scale device using a vacuum pump or the like, lightweight, difficult to break, easy to handle, and excellent in airtightness.
A sealed container having a container body, a lid that can close an opening of the container body, and a seal member that can close the container body and the lid, the container body and the lid The portion has a screw portion that can be fitted to each other, and the container body and the lid portion are formed of polyethylene terephthalate and formed by injection molding, and the lid portion includes an upper surface plate portion and the upper surface plate portion. An outer peripheral wall portion provided at an outer peripheral end portion of the container body, and an inner peripheral wall portion capable of disposing an upper end portion of the opening of the container body between the outer peripheral wall portion, and the sealing member includes the upper surface plate. And is disposed between the outer peripheral wall portion and the inner peripheral wall portion, and when the lid portion closes the container body, the upper end portion of the opening portion may be pressed against the upper end portion.
[Selection] Figure 1

Description

  The present invention relates to an airtight container, and more particularly to an airtight container that has a simple configuration and is easy to handle.

In order to culture anaerobic bacteria specimens grown under anoxic conditions, it is generally necessary to artificially create an anoxic environment.
Conventionally, in order to cultivate anaerobic bacteria specimens, the inside of the apparatus is depressurized by a vacuum pump, and nitrogen gas or carbon dioxide gas is introduced by a gas cylinder to fill the apparatus with a mixed gas suitable for culture. Thus, a deoxygenation space was created (Patent Document 1).
In general, anaerobic bacteria specimens are cultured by placing the anaerobic bacteria specimens contained in a glass sealed container in the decompressed apparatus.

However, when an apparatus using such a vacuum pump is used, the equipment becomes large and the cost increases.
Further, the above-mentioned closed container made of glass disposed in a pressure-reduced apparatus that is generally used has a problem that it is heavy and easily broken.

In order to solve such problems, various sealed containers that are easy to handle without using a device using a vacuum pump have been proposed. (Patent Document 2, Patent Document 3).
For example, Patent Document 2 discloses a sealed container having a container main body, a lid that can close an opening of the container main body, and a seal member that can close the container main body and the lid. The main body and the lid part have screw parts that can be fitted to each other, and a technique has been proposed regarding the container body and the lid part that are formed of polyethylene terephthalate and are formed by injection molding.
Patent Document 3 discloses a sealed container having a container body, a lid that can close the opening of the container body, and a seal member that can close the container body and the lid. There has been proposed a technique related to a sealed container in which the main body and the lid have screw parts that can be fitted to each other.

  However, when the container main body is closed by the lid, the upper end of the opening of the container main body is disposed between the outer peripheral wall and the inner peripheral wall of the lid to improve the airtightness of the lid and the container main body. Further, there is no disclosure of a technique for improving the airtightness by disposing a seal member on the back surface of the lid portion that has a screw portion that can be fitted to each other and that can be pressed against the upper surface of the upper end of the opening. Also, no other patent document disclosing such a sealed container has been found.

Shokai 52-47592 JP 62-251357 A No. 54-136131

  Accordingly, an object of the present invention is to provide a sealed container that has a simple structure without using a large-scale device using a vacuum pump or the like, is light and difficult to break, is easy to handle, and has excellent airtightness. .

In order to solve the above-mentioned problem, in the device according to claim 1, a container body, a lid part capable of closing the opening of the container body, and a sealing member capable of closing the container body and the lid part The container body and the lid part have screw parts that can be fitted to each other, and the container body and the lid part are formed of polyethylene terephthalate and formed by injection molding. The lid portion may be disposed between the upper surface plate portion, the outer peripheral wall portion provided at the outer peripheral end portion of the upper surface plate portion, and the upper end portion of the opening of the container body between the outer peripheral wall portion. One screw groove of the screw part is formed on the inner peripheral edge of the outer peripheral wall part, and the one screw groove is formed on the outer peripheral edge of the opening of the container body. The other thread groove of the thread part that can be fitted is formed, and the seal part Is fixed to the back surface side of the upper surface plate portion and disposed between the outer peripheral wall portion and the inner peripheral wall portion, and when the lid portion closes the container body, the upper end portion of the opening portion is It can be pressed.
Therefore, a sealed container having a container body, a lid portion that can close the opening of the container body, and a seal member that can close the container body and the lid portion, wherein the container body and the lid portion are The container body and the lid portion are formed of polyethylene terephthalate and are formed by injection molding, and thus have a simple configuration.
Moreover, the said cover part can arrange | position the upper end part of the upper-surface board part, the outer peripheral wall part provided in the outer peripheral edge part of the said upper-surface board part, and the upper end part of the opening part of the said container main body between the said outer peripheral wall parts. One screw groove of the screw part is formed on the inner peripheral edge of the outer peripheral wall part, and the one screw groove is formed on the outer peripheral edge of the opening of the container body. The other screw groove of the screw part that can be fitted with is formed, and the seal member is fixed to the back surface side of the upper surface plate part and disposed between the outer peripheral wall part and the inner peripheral wall part, When the lid closes the container body, it can be pressed against the upper end of the opening, so when the container body and the lid are fitted by the screw part, the lid of the lid The upper end of the opening of the container body is disposed between the inner peripheral wall and the outer peripheral wall, and the upper end of the opening It is configured to be pressed against the seal member.

The invention according to claim 2 is characterized in that the sealing member is a sheet material covered with an ethylene vinyl alcohol copolymer film.
The invention according to claim 3 is characterized in that the seal member is butyl rubber.

In the device according to claim 4, when the container main body and the lid portion are closed, a sub-container is disposed in a space formed between the container main body and the lid portion. The sub-container includes a sub-container main body having an opening and a sub-container lid that can close the opening.
Accordingly, when the container body and the lid are closed, the container has a sub-container disposed in a space formed between the container body and the lid, and the sub-container has an opening. Since it has the subcontainer main body which has and the subcontainer cover part which can block the said opening part, it is the structure which has the said subcontainer in the airtight container closed by the said container main body and the said cover part.

In the device according to claim 5, the bottom surface portion of the sub container main body is fixed to the upper surface of the bottom surface portion of the container main body, and the upper surface portion of the sub container lid portion is on the back surface of the upper surface plate portion of the lid portion. When fixed, and the opening of the container main body is closed by the lid, the sub-container lid can close the opening of the sub-container main body.
Accordingly, the bottom surface portion of the sub container body is fixed to the top surface of the bottom surface portion of the container body, the top surface portion of the sub container lid portion is fixed to the back surface of the top surface plate portion of the lid portion, and the opening portion of the container body Is closed by the lid portion, the sub container lid portion can close the opening of the sub container main body, so that the container main body and the sub container main body are integrated, and the lid portion and the above Since the sub container lid part is integrated, when the opening part of the container main body is closed by the lid part, the sub container lid part can close the opening part of the sub container main body.

The invention according to claim 6 is characterized in that an oxygen scavenger can be accommodated.
The invention according to claim 7 is characterized in that a desiccant can be stored.

The device according to claim 1 is a hermetically sealed container having a container main body, a lid portion capable of closing the opening of the container main body, and a sealing member capable of closing the container main body and the lid portion. Since the container body and the lid part have a simple structure having screw parts that can be fitted to each other, a sealed container with a simple structure without using a large-scale device using a vacuum pump or the like as in the prior art. Can be provided.
Moreover, since the said container main body and the said cover part are formed of the polyethylene terephthalate, it can provide the airtight container which is lightweight, is hard to break, and is easy to handle.
Further, since the container body and the lid part have a threaded part that can be fitted to each other, the sealing performance is improved unlike the case where the container body is simply covered with the lid part. After the lid portion is fitted, the fitted state between the container body and the lid portion is difficult to release, so that a sealed container that is easy to handle and excellent in hermeticity can be provided.
Moreover, since the container main body and the lid portion are formed by injection molding, the shape of the container main body or the lid portion can be easily formed into a highly airtight shape.
Moreover, when the said container main body and the said cover part are fitted by the screw part, the upper end part of the opening part of the said container main body is arrange | positioned between the said inner peripheral wall part and the said outer peripheral wall of the said cover part. And since the upper end part of the said opening part is the structure press-contacted to the said sealing member, the airtight container excellent in airtightness can be provided.

  In the invention according to claim 2, since the sealing member is a sheet material covered with an ethylene vinyl alcohol copolymer film, a sealed container having better airtightness can be provided.

  In the invention according to claim 3, since the sealing member is butyl rubber, it is possible to provide a sealed container with better airtightness.

  In the device according to claim 4, the sub-container is configured in a sealed container closed by the container main body and the lid portion, and the inside of the sub-container is more airtight. Therefore, it is possible to provide a sealed container with better airtightness.

In the invention according to claim 5, it is the composition which has the above-mentioned sub container in the airtight container closed by the container main part and the above-mentioned lid part, and the inside of the above-mentioned sub container is more airtight. Therefore, it is possible to provide a sealed container with better airtightness.
In addition, the container body and the sub-container body are integrated, and the lid and the sub-container lid are integrated, and the opening of the container body is closed by the lid. Since the sub-container lid can close the opening of the sub-container main body, the sub-container lid is easy to handle, and the specimen or the like can be easily stored inside the sub-container by closing the lid.

  According to the invention described in claim 6, an anaerobic bacterium sample that needs to be easily cultured in a deoxygenated state is cultured by storing the oxygen scavenger in an airtight sealed container. Can do.

  According to the seventh aspect of the present invention, it is possible to easily create a dry state having excellent airtightness by storing the desiccant in a sealed container having excellent airtightness.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
As shown in FIG. 1 or 2, the sealed container 10 according to the present embodiment includes a container body 11, a lid part 13 that can close the opening 12 of the container body 11, the container body 11, and the lid part. The container body 11 and the lid part 13 have screw parts 15 that can be fitted to each other, and the container body 11 and the lid part. 13 is formed of polyethylene terephthalate and is formed by injection molding. The lid portion 13 includes an upper surface plate portion 16, an outer peripheral wall portion 17 provided at an outer peripheral end portion of the upper surface plate portion 16, and the container body. 11 has an inner peripheral wall portion 19 which can be disposed between the upper end portion 18 of the opening 12 and the outer peripheral wall portion 17, and one screw of the screw portion 15 is provided on the inner peripheral edge of the outer peripheral wall portion 17. A groove 20 is formed and the container book 11, the other screw groove 21 of the screw portion 15 that can be fitted to the one screw groove 20 is formed on the outer peripheral edge of the opening portion 12, and the seal member 14 is formed on the back surface of the upper surface plate portion 16. And is disposed between the outer peripheral wall portion 17 and the inner peripheral wall portion 19, and presses the upper end portion 18 of the opening 12 when the lid portion 13 closes the container body 11. It is configured to be able to.
Moreover, the said sealing member 14 is comprised by the sheet | seat material coat | covered with the ethylene vinyl alcohol copolymer film.
The seal member 14 is made of butyl rubber.
Further, as shown in FIG. 3 or FIG. 4, when the container body 11 and the lid portion 13 are closed, the container body 11 and the lid portion 13 are arranged in a space formed between the container body 11 and the lid portion 13. The sub-container 22 includes a sub-container body 24 having an opening 23 and a sub-container lid 25 that can close the opening 23.
Further, as shown in FIG. 5 or FIG. 6, the bottom surface portion 33 of the sub-container body 24 is fixed to the top surface of the bottom surface portion 27 of the container body 11, and the top surface portion 38 of the sub-container lid portion 25 is the lid portion. When the opening 12 of the container main body 11 is closed by the lid 13, the sub container lid 25 closes the opening of the sub container main body 24. It is a possible configuration.

Details of the first embodiment will be described below with reference to the drawings.
As shown in FIG. 2, the sealed container 10 according to the first embodiment is an example when applied to a petri dish as a thin plate-like container having a substantially circular planar shape.
As shown in FIG. 1 or 2, the sealed container 10 according to the first embodiment includes a container body 11, a lid part 13 that can close the opening 12 of the container body 11, the container body 11, and the lid part 13. And a sealing member 14 capable of closing the.

As shown in FIG. 2, the container body 11 is formed by a disk-shaped bottom surface portion 27 and a cylindrical peripheral wall portion 26 provided at the outer peripheral end of the bottom surface portion 27.
Further, the peripheral wall portion 26 forms the opening 12 of the container body 11.
Further, on the outer peripheral edge of the peripheral wall portion 26 of the container body 11, the other screw groove 21 of the screw portion 15 that can be fitted to the lid portion 13 is spirally spaced along the outer peripheral edge at a predetermined interval. It is formed in a convex shape in the outer circumferential direction over the circumference.
As shown in FIG. 2, the lid portion 13 includes a disc-shaped upper surface plate portion 16, a cylindrical outer peripheral wall portion 17 provided at an outer peripheral end portion of the upper surface plate portion 16, and the container body. 11 is formed by a cylindrical inner peripheral wall portion 19 that can be disposed between the upper end portion 18 of the opening 12 and the outer peripheral wall portion 17.
In addition, on the inner peripheral edge of the outer peripheral wall portion 17 of the lid portion 13, one screw groove 20 of the screw portion 15 that can be fitted to the other screw groove 21 of the container body 11 by a rotation operation is placed at a predetermined interval. Thus, it is formed in a convex shape in the inner circumferential direction along the inner peripheral edge over two rounds.

Moreover, the said container main body 11 and the said cover part 13 are formed with the polyethylene terephthalate.
A molded article made of polyethylene terephthalate resin does not completely block air, but has a relatively low air permeability and excellent gas barrier properties. Moreover, since it is light and hard to break compared with a glass material, it is easy to handle.
Moreover, since the said container main body 11 and the said cover part 13 are formed of injection molding, the said cover part 13 is the said outer peripheral wall part 17, like this Example 1 as shown in FIG. Even when the inner peripheral wall portion 19 and the one screw groove 20 are formed, the lid portion 13 can be easily formed.

Further, as shown in FIG. 1, the seal member 14 is butyl rubber, and is fixed to the back surface side of the upper surface plate portion 16 of the lid portion 13, and as shown in FIG. When the lid portion 13 is disposed annularly along the inner peripheral wall portion 19 and is closed to the container main body 11 via the screw portion 15, the upper end portion 18 of the opening portion 12 can be pressed. It is formed as follows.
Since butyl rubber is an elastic member having excellent gas barrier properties and having a repulsive force, when the upper end portion 18 is pressed against the upper end portion 18 of the opening 12 as described above, the upper end portion 18 is in contact with the sealing member. 14 is pressed against the repulsive force of the butyl rubber as 14, so that the degree of sealing between the container body 11 and the lid portion 13 is improved, so that the airtightness of the sealed container 10 can be enhanced.

As another embodiment of the seal member 14, as shown in FIG. 7, the seal member 14 is formed by covering the upper and lower surfaces of a sheet material 30 made of foamed polyethylene with ethylene vinyl alcohol copolymer films 28 and 29. It can also be set as the structure currently formed with the sheet material 31 made.
As shown in FIG. 7, the sheet material 31 whose upper and lower surfaces as the sealing member 14 are covered with the ethylene vinyl alcohol copolymer films 28 and 29 is formed on the back surface side of the upper surface plate portion 16 of the lid portion 13. Is fixed to the ethylene vinyl alcohol copolymer film 28 on the upper surface side and is disposed annularly between the outer peripheral wall portion 17 and the inner peripheral wall portion 19, and the lid portion 13 is attached to the container body 11. When closing by fitting the screw portion 15, the screw portion 15 is disposed so as to be in pressure contact with the ethylene vinyl alcohol copolymer film 29 on the lower surface side of the sheet material 31 at the upper end portion 18 of the opening portion 12.
The ethylene vinyl alcohol copolymer films 28 and 29 are very excellent in gas barrier properties.
Further, since the sheet material 30 formed of the foamed polyethylene includes bubbles inside and has a repulsive force, the sheet material is pressed against the upper end portion 18 of the opening 12 as described above. In this case, the upper end portion 18 is pressed against the repulsive force of the sheet material 30 formed of the foamed polyethylene of the sheet material 31 as the seal member 14, so that the container body 11 is pressed. And the lid 13 can be tightly sealed, and the airtightness of the sealed container 10 can be increased.

As another embodiment, as shown in FIG. 3 or 4, a space formed between the container body 11 and the lid portion 13 when the container body 11 and the lid portion 13 are closed. There is a second embodiment as a sealed container 10 having a sub-container 22 arranged in 32.
The difference between the first embodiment and the second embodiment will be described in detail with reference to the drawings.
As shown in FIG. 4, the sub-container 22 includes a sub-container main body 24 having an opening 23 and a sub-container lid 25 that can close the opening 23.
As shown in FIG. 4, the sub-container body 24 is formed by a disk-shaped bottom surface portion 33 and a cylindrical outer peripheral wall portion 34 provided at the outer peripheral end of the bottom surface portion 33.
Further, as shown in FIG. 4, the outer peripheral wall portion 34 forms an opening 23 of the sub-container main body 22.
As shown in FIG. 4, the sub-container lid portion 25 is formed by a disk-shaped upper surface portion 38 and a cylindrical outer peripheral wall portion 37 provided at the outer peripheral end of the upper surface portion 38. .
The sub-container 22 is disposed in a space 32 formed between the container main body 11 and the lid portion 13 when the container main body 11 and the lid portion 13 are closed.
As shown in FIG. 4, the bottom surface portion 33 of the sub-container body 24 is inserted into the approximate center of the surface side of the bottom surface portion 27 of the container body 11 and placed on the bottom surface portion 27 of the container body. In addition, a cylindrical lower regulating wall 35 that can prevent the sub container 22 from moving in the radial direction of the container body 11 is provided.
Further, as shown in FIG. 4, the sub-container 22 is placed on the bottom surface portion 27 of the container main body 11 in the bottom surface limiting wall 35 in the approximate center of the back surface side of the top surface plate portion 16 of the lid portion 13. In addition, when the container body 11 and the lid portion 13 are closed, a cylindrical upper regulating wall 36 that can prevent the sub container 22 from moving in the radial direction of the container body 11 is provided. Yes.

As another embodiment, as shown in FIG. 5 or 6, the bottom surface portion 33 of the sub-container body 24 is fixed to the top surface of the bottom surface portion 27 of the container body 11, and the top surface portion of the sub-container lid portion 25. Reference numeral 38 denotes Example 3 as the closed container 10 fixed to the back surface of the upper surface plate portion 16 of the lid portion 13.
The difference between the first and second embodiments will be described in detail with respect to the third embodiment with reference to the drawings.
As shown in FIG. 6, the sub-container 22 includes a sub-container main body 24 having an opening 23 and a sub-container lid 25 that can close the opening 23.
As shown in FIG. 5, the bottom surface portion 33 of the sub-container body 24 and the bottom surface portion 27 of the container body are integrally formed, and the top surface portion 38 of the sub-container lid portion 25 and the top of the lid portion 13 are formed. The face plate portion 16 is integrally formed.
As shown in FIG. 6, the sub-container main body 24 is formed by a circular bottom surface portion 33 and a cylindrical outer peripheral wall portion 34 provided at the outer peripheral end of the bottom surface portion 33, and the container main body 11 is arranged at substantially the center.
Further, as shown in FIG. 6, the outer peripheral wall portion 34 forms the opening 23 of the sub-container main body 22.
Further, as shown in FIG. 6, the sub-container lid portion 25 is formed by a circular upper surface portion 38 and a cylindrical outer peripheral wall portion 37 provided at the outer peripheral end of the upper surface portion 38, and the lid It is arranged at the approximate center of the part 13.
The sub-container 22 is disposed in a space 32 formed between the container main body 11 and the lid portion 13 when the container main body 11 and the lid portion 13 are closed.
In addition, as shown in FIG. 5, when the opening 12 of the container main body 11 is closed by the lid 13, the sub container lid 25 can block the opening 23 of the sub container main body 24. It is configured.

The operation of the first embodiment will be described below.
A case where an anaerobic bacterial specimen is cultured using a sealed container 10 as shown in FIG. 1 will be described as an example.
In order to culture a specimen of anaerobic bacteria, it is generally necessary to artificially create an anoxic environment. Therefore, an oxygen scavenger capable of absorbing oxygen is stored in the sealed container 10 to remove oxygen. Create an environment.
Further, when the oxygen scavenger is stored in the sealed container 10, the sample of the anaerobic bacteria can be cultured in an oxygen-free environment by storing the sample of the anaerobic bacteria at the same time.
Here, when the airtightness of the airtight container 10 is excellent, anaerobic bacteria specimens can be cultured in a good state.

First, the oxygen scavenger and the anaerobic bacteria specimen are placed on the bottom surface portion 27 of the container body 11 of the sealed container 10 as shown in FIG.
Then, after the oxygen scavenger is in a state capable of absorbing oxygen, the lid 13 is quickly put on the opening 12 of the container body 11.
In this case, since the screw portion 15 is provided, one screw groove 20 on the lower end side of the lid portion 13 and the other screw groove 21 on the upper end side of the container body 11 are in contact with each other. The sealed container 10 is not closed.

Next, the lid portion 13 is rotated and tightened by a rotation operation so that the one screw groove 20 and the other screw groove 21 are fitted.
As shown in FIG. 1, the opening 12 of the container body 11 is fixed to the sealing member 14 that is fixed to the back surface side of the upper surface plate portion 16 and disposed between the outer peripheral wall portion 17 and the inner peripheral wall portion 19. The lid portion 13 is rotated and tightened until the upper end portion 18 is pressed.
By such an operation, the upper end portion 18 of the opening 12 of the container body 11 is disposed between the outer peripheral wall portion 17 and the inner peripheral wall portion 19 of the lid portion 13 and the upper end portion 18 of the opening portion 12 is Since the sealing member 14 is pressed against the butyl rubber, the sealed container 10 is excellent in airtightness.
Thus, when it was made to fit by the screw part 15, unlike the case where the said cover part 16 was simply covered on the said container main body 11, sealing performance improved and the said container main body 11 and the said cover part 16 were made to fit. After that, since the fitting state between the container body 11 and the lid portion 16 is difficult to release, the sealed container 10 is easy to handle and has excellent airtightness.

  In addition, since butyl rubber is an elastic member having excellent gas barrier properties and having a repulsive force, when the upper end portion 18 is pressed against the upper end portion 18 of the opening 12 as described above, the upper end portion 18 is Since it is pressed against the repulsive force of butyl rubber as the sealing member 14 and the sealing degree between the container body 11 and the lid portion 13 is increased, the airtightness of the sealed container 10 can be improved.

  As shown in FIG. 7, when the sealing member 14 is a sheet material 31 covered with ethylene vinyl alcohol copolymer films 28 and 29, the ethylene vinyl alcohol copolymer films 28 and 29 are The sheet material 30 that is very excellent in gas barrier properties and formed of foamed polyethylene constituting the sheet material has a repulsive force when it contains pressure bubbles and is pressed into the inside, so that the opening portion is formed as described above. 12 is pressed against the repulsive force of the sheet material 30 formed of the foamed polyethylene so that the container body 11 and the lid portion 13 The degree of sealing is increased, and the airtightness of the sealed container 10 can be increased.

Moreover, as shown in FIG. 1, since the said container main body 11 and the said cover part 13 are formed with the polyethylene terephthalate, the lightweight container which is hard to break, is easy to handle, and provides the airtight container 10 excellent in airtightness. be able to.
Moreover, since the said container main body 11 and the said cover part 13 are formed by injection molding, the shape of the said container main body 11 or the said cover part 13 can be easily shape | molded in a shape with high airtightness.

Thus, since the airtight container 10 is excellent in airtightness, the culture | cultivation of the sample of anaerobic bacteria can be performed in a favorable state.
In addition, since it is light and difficult to break and is easy to handle without using a large-scale apparatus using a vacuum pump or the like, anaerobic bacteria specimens can be easily cultured.

Hereinafter, the difference between the operation of the second embodiment and the operation of the first embodiment will be described.
As shown in FIG. 3, when the container main body 11 and the lid portion 13 are closed, the sub-container 22 disposed in the space 32 formed between the container main body 11 and the lid portion 13 is The hermetic container 10 can be used to culture an anaerobic bacterial specimen.
In such a case, first, as shown in FIG. 4, the oxygen-absorbing agent and the anaerobic bacteria sample are placed on the bottom surface portion 33 of the sub-container main body 24 of the sub-container 22, and the sub-container lid portion 25. Thus, the opening 23 of the sub container body 24 is closed.
Next, the sub-container 22 closed by the sub-container lid portion 25 is placed on the bottom surface portion 27 of the container main body 11 restricted by the lower restriction wall 35, and the oxygen scavenger is added to the sub-container 24. The container body 22 is placed on the bottom surface portion 27 of the container body 11 where the sub-container 22 is not placed.
Next, the opening 12 of the container body 11 is closed by the lid 13 as shown in the operation of the first embodiment.
In this case, the sub-container 22 has a sub-container main body 24 having an opening 23 and a sub-container lid 25 that can close the opening 23, and a certain degree of airtightness is secured. Since no special means for improving the airtightness is provided, the airtightness is not so excellent that the specimen of the anaerobic bacteria is cultured in a good state using only the auxiliary container 22.
However, as shown in the first embodiment, since the airtightness of the space 32 formed between the container main body 11 and the lid portion 13 is excellent, the sub container 22 is replaced with the container main body 11 and the lid. When the container main body 11 and the lid part 13 are closed inside the sub-container 22 in which a certain degree of airtightness is secured by being housed in the space 32 formed between the parts 13. It has airtightness superior to the airtightness of the space 32 to be formed.
Therefore, since the inside of the sub-container 22 is more airtight than the space 32 sealed by the container main body 11 and the lid portion 13, it is possible to provide the airtight container 10 with better airtightness.

  Further, since the movement of the sub-container 22 in the radial direction on the container body 11 is regulated by the lower regulating wall 35 and the upper regulating wall 36, even when the sealed container 10 is moved to another location. The movement of the sub-container 22 on the container body 11 is prevented, and the handling is easy.

Hereinafter, the operation of the third embodiment will be described with respect to differences from the operations of the first and second embodiments.
As shown in FIG. 5, when the container main body 11 and the lid portion 13 are closed, the sub-container 22 disposed in the space 32 formed between the container main body 11 and the lid portion 13 is The hermetic container 10 can be used to culture an anaerobic bacterial specimen.
In such a case, first, as shown in FIG. 6, an oxygen scavenger and an anaerobic bacterium sample are placed on the bottom surface 33 of the sub container main body 24 of the sub container 22, and the oxygen scavenger is added to the sub oxygen container. The container 22 is placed on the bottom surface portion 27 of the container body 11 on which the container 22 is not placed.
Next, the opening 12 of the container body 11 is closed by the lid 13 as shown in the operation of the first embodiment.
In this case, the sub-container 22 has a sub-container main body 24 having an opening 23 and a sub-container lid 25 that can close the opening 23, and a certain degree of airtightness is secured. Since no special means for improving the airtightness is provided, the airtightness is not so excellent that the specimen of the anaerobic bacteria is cultured in a good state using only the auxiliary container 22.
However, as shown in the first embodiment, since the airtightness of the space 32 formed between the container main body 11 and the lid portion 13 is excellent, the sub container 22 is replaced with the container main body 11 and the lid. When the container main body 11 and the lid part 13 are closed inside the sub-container 22 in which a certain degree of airtightness is secured by being housed in the space 32 formed between the parts 13. It has airtightness superior to the airtightness of the space 32 to be formed.
Therefore, since the inside of the sub-container 22 is more airtight than the space 32 sealed by the container main body 11 and the lid portion 13, it is possible to provide the airtight container 10 with better airtightness.
In addition, the container body and the sub-container body are integrated, and the lid and the sub-container lid are integrated, and the opening of the container body is closed by the lid. Since the sub-container lid is configured to close the opening of the sub-container body, it is easy to handle, it is not necessary to make the sub-container 22 easy, and it is not necessary to close the sub-container lid separately. An oxygen scavenger or anaerobic bacteria can be easily accommodated in the sub container simply by closing the lid.

  Further, when an anaerobic specimen is cultured without using an oxygen scavenger using the sealed container 10 according to the present invention, for example, a deoxygenated state is created by an apparatus using a vacuum pump or the like, and the deoxygenation is performed. Even when the anaerobic specimen is stored in the sealed container 10 in an oxygen state, the sealed container 10 is excellent in airtightness even when the outside of the sealed container 10 moves to a deoxygenated place. Therefore, the culture of the anaerobic specimen can be performed in a good state.

Further, in the operation of Examples 1, 2 and 3, in the case of culturing anaerobic bacteria specimens, an example of storing an oxygen scavenger capable of absorbing oxygen inside the sealed container 10 has been described. Since the airtight container 10 is excellent in air tightness, it can be used for other purposes depending on the purpose of use.
For example, since the sealed container 10 is excellent in airtightness, it is possible to keep the inside of the storage container 10 in a dry state and hold the dry state for a long time by storing silica gel as a desiccant. it can.

  Further, in the present embodiment, the case where the present invention is applied to a petri dish as a flat plate-like thin dish-like container has been described as an example, but the closed container 10 is not limited to a petri dish, It can also be applied to tubes and bottle shaped containers.

  The present invention relates to a wide range of sealed containers and can be applied to a sealed container having excellent airtightness.

It is sectional drawing which shows one Embodiment of the airtight container which concerns on this invention. It is a perspective view which shows one Embodiment of the airtight container which concerns on this invention. It is sectional drawing which shows one Embodiment by which the subcontainer was arrange | positioned inside the airtight container which concerns on this invention. It is a perspective view which shows one Embodiment by which the subcontainer was arrange | positioned inside the airtight container which concerns on this invention. It is a perspective view which shows one Embodiment by which the subcontainer was fixed inside the airtight container which concerns on this invention. It is a perspective view which shows one Embodiment by which the subcontainer was fixed inside the airtight container which concerns on this invention. It is a partial cross section figure showing one embodiment of the sealing member of the airtight container concerning the present invention.

Explanation of symbols

10 Sealed container 11 Container body
12 Opening 13 Lid
14 Sealing member
15 Screw part
16 Top plate part 17 Outer peripheral wall part
18 Upper end of opening 19 Inner peripheral wall
20 One screw groove
21 Other screw groove 22 Sub container 23 Opening
24 Subcontainer body 25 Subcontainer lid
26 peripheral wall portion 27 bottom surface portion 28 ethylene vinyl alcohol copolymer film 29 ethylene vinyl alcohol copolymer film 30 sheet material 31 formed of foamed polyethylene sheet material 32 space 33 formed between container main body and lid portion Bottom portion 34 of main body Outer peripheral wall portion 35 of sub container main body Lower regulating wall 36 Upper regulating wall 37 Outer peripheral wall portion 38 of sub container lid portion Upper surface portion of sub container lid portion

Claims (7)

  A sealed container having a container body, a lid portion capable of closing the opening of the container body, and a sealing member capable of closing the container body and the lid portion, wherein the container body and the lid portion are mutually The container body and the lid portion are formed of polyethylene terephthalate and formed by injection molding, and the lid portion includes an upper surface plate portion and an outer peripheral end portion of the upper surface plate portion. An outer peripheral wall portion provided on the outer peripheral wall portion, and an inner peripheral wall portion capable of disposing an upper end portion of the opening of the container main body between the outer peripheral wall portion and the inner peripheral edge of the outer peripheral wall portion, One screw groove is formed on the outer peripheral edge of the opening of the container body, and the other screw groove of the screw part that can be fitted to the one screw groove is formed on the seal member. Is fixed to the back surface side of the upper surface plate portion and the outer peripheral wall portion Is disposed between the inner circumferential wall, closed container the lid is characterized in that in the case of closing the container body can be pressed against the upper end of the opening.   The sealed container according to claim 1, wherein the sealing member is a sheet material covered with an ethylene vinyl alcohol copolymer film.   The sealed container according to claim 1, wherein the sealing member is butyl rubber.   When the container main body and the lid are closed, the container has a sub-container disposed in a space formed between the container main body and the lid, and the sub-container has a sub-portion having an opening. The hermetic container according to any one of claims 1 to 3, further comprising a container main body and a sub-container lid that can close the opening.   The bottom surface portion of the sub container body is fixed to the top surface of the bottom surface portion of the container body, the top surface portion of the sub container lid portion is fixed to the back surface of the top surface plate portion of the lid portion, and the opening portion of the container body is the above The sealed container according to claim 4, wherein, when the lid is closed by the lid, the secondary container lid can close the opening of the secondary container main body.   The sealed container according to any one of claims 1 to 5, wherein an oxygen scavenger can be stored.   The airtight container according to any one of claims 1 to 5, wherein a desiccant can be stored.