WO2013084791A1

WO2013084791A1 - Gasket storage container

Info

Publication number: WO2013084791A1
Application number: PCT/JP2012/080932
Authority: WO
Inventors: 等沖原
Original assignee: テルモ株式会社
Priority date: 2011-12-05
Filing date: 2012-11-29
Publication date: 2013-06-13

Abstract

A gasket storage container (1) is equipped with a substantially flat plate member (2), and a gasket storage part (3) for accommodating a gasket (20). The gasket storage part (3) has an inlet (4), and a cylindrical part (5). The inlet (4) has: a substantially circular open end (4a) which opens to one surface (2a) of the plate member (2); an inner circumferential part (4b) which continues from the open end (4a); and the gasket (20) inserted therein. The cylindrical part (5) continues from the inlet (4), and protrudes from another surface (2b) of the plate member (2). Protrusions (7) are provided to the inner circumferential part (4b) of the inlet (4).

Description

Gasket storage container

The present invention relates to a gasket storage container for storing a gasket used for a medicine injection device or a needle assembly.

A medicine injection device and a needle assembly are members such as a gasket for storing a drug solution, a needle tube attached to the syringe, and a syringe for plugging the syringe containing the drug solution and discharging the drug solution by sliding in the syringe. It is composed of

Generally, a company that manufactures components such as syringes and gaskets when the manufacturing company of components such as syringes and gaskets that make up drug injection devices and needle assemblies is different from the manufacturer (filling) of chemicals Syringes and gaskets are transported from to the chemical manufacturing company. Then, after the chemical solution is filled in the syringe at the chemical solution manufacturing company, the gasket is plugged into the syringe.

It is necessary to prevent the gasket from being damaged when the gasket is transported from the component company to the chemical manufacturer or stored. Therefore, as a gasket storage container that can safely transport and store the gasket, for example, there is one described in Patent Document 1. Japanese Patent Application Laid-Open No. H10-228688 describes a device including a substantially flat plate-like member and a substantially cylindrical storage portion that vertically penetrates the member. And the gasket is accommodated by inserting a gasket in a substantially cylindrical accommodating part.

Also, it is necessary to sterilize the gasket before plugging the gasket into the syringe. In recent years, sterilization is performed in a state where a gasket is stored in a gasket storage portion and a plurality of gasket storage portions are overlapped. As a sterilization method, radiation sterilization such as gamma rays and electron radiation has been performed. However, in radiation sterilization, the gasket may corrode, and a sterilization method using high-temperature steam or gas such as high-pressure steam sterilization (autoclave) or EOG (ethylene oxide gas) sterilization is required.

WO2007 / 099649

However, in the gasket storage container described in Patent Document 1, when the gasket storage containers are overlapped, the opening of the storage part of the gasket storage container is blocked by the end portions of the gasket storage parts arranged vertically. It was. As a result, in the gasket storage container described in Patent Document 1, when the gasket storage containers are stacked and subjected to a sterilization method using high-temperature steam or gas, it is difficult for the steam or gas to reach the gasket stored in the storage unit. There was a problem of becoming.

The object of the present invention is to allow the steam and gas to easily pass around the gasket even when the sterilization process using steam and gas is performed in a state where the gasket storage containers are overlapped in consideration of the above-mentioned problems. It is to provide a gasket container.

The gasket storage container of the present invention that solves the above problems and achieves the object of the present invention is as follows.
(1) a substantially flat plate material;
A gasket storage portion that is provided on the plate and stores the gasket;
The gasket housing part is
An opening end having a substantially circular opening on one surface of the plate member, an inner peripheral portion continuous from the opening end, and an inlet portion into which the gasket is inserted;
A cylindrical portion that is provided continuously from the inlet portion, protrudes from the other surface opposite to the one surface of the plate member, and holds the gasket when the gasket is stored;
An inner diameter of the opening end of the inlet portion is formed larger than an outer diameter of the cylindrical portion,
A protrusion is provided on the inner peripheral portion of the inlet portion,
When another gasket storage container of the same type is stacked, an end of the cylindrical portion of the other type of gasket storage container opposite to the inlet is in contact with the protrusion provided on the inner peripheral portion. A gasket storage container in which a gap is formed between the end portion and the inner peripheral portion.

(2) The gasket storage container according to (1), wherein the inner peripheral portion of the inlet portion is formed in a tapered shape so that the diameter continuously decreases from the opening end to the cylindrical portion.

(3) The gasket container according to any one of (1) and (2), wherein the cylindrical portion has an inner diameter of the cylindrical hole that changes in at least two stages.

(4) The cylindrical portion is
A first cylindrical hole provided on the inlet side and having an inner diameter larger than the diameter of the peak portion of the gasket;
(2) The above-mentioned (3), further comprising: a second cylinder hole portion that is provided closer to the end portion in the axial direction in the cylinder portion than the first cylinder hole portion and has an inner diameter smaller than the inner diameter of the first cylinder hole. Gasket storage container.

(5) The cylindrical portion is
A first cylindrical hole provided on the inlet side and having an inner diameter larger than the diameter of the peak of the gasket;
A second cylindrical hole portion provided on the end side in the axial direction of the cylindrical portion with respect to the first cylindrical hole portion, and having an inner diameter smaller than the diameter of the peak portion of the gasket;
(3) having a third tube hole portion provided on the end side in the axial direction of the tube portion with respect to the second tube hole portion and having an inner diameter smaller than the inner diameter of the second tube hole portion. The gasket storage container according to 1.

According to the gasket storage container of the present invention, when the gasket storage container is overlapped by the protrusion provided on the inner peripheral portion of the inlet portion, the end of the cylindrical portion of the gasket storage container disposed on the upper side and the lower side A gap can be formed between the inner peripheries of the gasket storage containers disposed in the. As a result, even if a plurality of gasket storage containers are stacked, steam and gas easily pass around the gasket stored in the gasket storage portion.

It is a top view which shows the 1st example of embodiment of the gasket storage container of this invention. It is sectional drawing which shows the 1st example of embodiment of the gasket storage container of this invention. It is sectional drawing which shows the state which accommodated the gasket in the gasket storage container of this invention. It is sectional drawing which expands and shows the principal part shown in FIG. It is sectional drawing which shows the state which accumulated the gasket storage container of this invention. It is sectional drawing which shows the 2nd Example of the gasket storage container of this invention.

Hereinafter, embodiments of the gasket storage container of the present invention will be described with reference to FIGS. In addition, the same code | symbol is attached | subjected to the common member in each figure. The present invention is not limited to the following form.

[Example of gasket configuration]
First, with reference to FIG. 4, the structural example of the gasket accommodated in the gasket storage container of this example is demonstrated.
FIG. 4 is a cross-sectional view showing a state in which the gasket is stored in the gasket storage container of this example.

The gasket 20 shown in FIG. 4 is attached to, for example, a pusher of a drug injection device or a needle assembly, and slides inside a syringe of the drug injection device or the needle assembly. As shown in FIG. 4, the gasket 20 is formed in a substantially cylindrical shape, and includes a cylindrical side portion 21 and a bottom portion 22 provided so as to seal one end side in the axial direction of the side portion 21. Have. That is, the gasket 20 is composed of a bottomed cylindrical member having a bottom 22 at one end and an opening 23 at the other end.

A screw portion 25 to which a pusher is detachably attached is provided on the inner wall of the side portion 21. In addition, a first peak portion 26 and a second peak portion 27 that protrude radially outward from the outer peripheral surface of the side portion 21 are provided on the outer peripheral surface of the side portion 21. The first peak portion 26 and the second peak portion 27 are each formed in a ring shape. The first peak portion 26 is provided on the opening portion 23 side of the side portion 21, and the second peak portion 27 is provided on the bottom portion 22 side of the side portion 21.

Note that the number of peak portions provided on the side portion 21 is not limited to two, and three or more peak portions may be provided.

<First Embodiment>
[Configuration example of gasket storage container]
Next, a configuration example of a first embodiment of the gasket storage container of the present invention (hereinafter referred to as “this example”) will be described with reference to FIGS.
FIG. 1 is a plan view showing the gasket storage container of this example, and FIG. 2 is a cross-sectional view of the gasket storage container shown in FIG. FIG. 3 is a cross-sectional view showing a state where a gasket is stored in the gasket storage container shown in FIG.

The gasket storage container 1 is used when a plurality of gaskets 20 (see FIGS. 3 and 4) are stored, transported, and stored. As shown in FIGS. 1 and 2, the gasket storage container 1 includes a substantially flat plate material 2 and a plurality of gasket storage portions 3 provided on the plate material 2.

As shown in FIGS. 3 and 4, the gasket 20 is stored in the gasket storage portion 3. The gasket housing portion 3 includes an inlet portion 4 into which the gasket 20 is inserted and a cylindrical portion 5 that holds the gasket 20.

The inlet portion 4 has an opening end 4a having a substantially circular opening on one surface 2a of the plate member 2, and an inner peripheral portion 4b continuous from the opening end 4a. The inner peripheral portion 4b is formed in a taper shape such that the diameter continuously decreases from one surface 2a of the plate member 2 to the cylindrical portion 5. In addition, four protrusions 7 are provided on the inner peripheral portion 4b.

The four protrusions 7 are arranged at substantially equal intervals along the circumferential direction of the inner peripheral portion 4b. In addition, although the example which provided the four protrusions 7 was demonstrated in this example, it is not limited to this, You may provide three or less protrusions 7, or five or more. And when the gasket storage container 1 is piled up, the cylinder part 5 of the gasket storage container 1 arrange | positioned at the upper side is inserted in the inlet part 4 which has the processus | protrusion 7 (refer FIG. 5).

The cylinder part 5 is formed in a substantially cylindrical shape. The cylindrical portion 5 is provided continuously to the inlet portion 4 and protrudes substantially perpendicularly from the other surface 2b opposite to the one surface 2a of the plate member 2. The outer diameter of the cylindrical portion 5 is set slightly smaller than the inner diameter of the opening end 4 a in the inlet portion 4.

As shown in FIG. 4, the cylinder part 5 has the 1st cylinder hole part 5a opened in the substantially cylindrical shape along the axial direction, the 2nd cylinder hole part 5b, and the 3rd cylinder hole part 5c. ing. The first tube hole portion 5a, the second tube hole portion 5b, and the third tube hole portion 5c are substantially straight tube holes that are substantially parallel to the axial direction of the tube portion 5, respectively.

The first tube hole portion 5a, the second tube hole portion 5b, and the third tube hole portion 5c are arranged in order from the inlet portion 4 along the axial direction of the tube portion 5. That is, the first tube hole portion 5a is located on the inlet portion 4 side, which is one side in the axial direction of the tube portion 5, and the third tube hole portion 5c is located on the other side in the axial direction of the tube portion 5. is doing. And the 2nd cylinder hole part 5b is located between the 1st cylinder hole part 5a and the 3rd cylinder hole part 5c.

Further, the inner diameters of the first cylinder hole part 5a, the second cylinder hole part 5b, and the third cylinder hole part 5c are set to different inner diameters. The inner diameter of the first cylindrical hole portion 5 a is set larger than the diameters of the first peak portion 26 and the second peak portion 27 of the gasket 20.

The inner diameter of the second cylindrical hole portion 5b is set smaller than the inner diameter of the first cylindrical hole portion 5a and slightly smaller than the diameter of the second peak portion 27 of the gasket 20. Further, the inner diameter of the second cylindrical hole portion 5b is set larger than the diameter of the side portion 21 of the gasket 20. Furthermore, the inner diameter of the third cylinder hole 5c is set smaller than the inner diameter of the second cylinder hole 5b. That is, the inner diameter of the cylindrical hole in the cylindrical portion 5 of this example changes in three stages.

Furthermore, a first step portion 5d formed in a tapered shape is provided in a portion where the inner diameter between the first tube hole portion 5a and the second tube hole portion 5b changes greatly, and the second tube hole portion 5b. And a third step portion 5e formed in a tapered shape is provided between the third cylindrical hole portion 5c.

When the gasket 20 is inserted into the cylinder part 5, the first peak part 26 of the gasket 20 faces the first cylinder hole part 5a with a first gap T therebetween. Further, the second peak portion 27 of the gasket 20 is pressed inside (toward the axial center of the gasket 20) by the second cylindrical hole portion 5b, the second stepped portion 5e, or the third cylindrical hole portion 5c, and the gasket 20 is It is held by the cylinder part 5.

In addition, although the example which formed the inner peripheral part 4b of the entrance part 4 in the taper shape was demonstrated in this example, it is not limited to this. The shape of the inner peripheral portion 4 b may be a shape having a step surface that is recessed by one step from the one surface 2 a of the plate member 2. At this time, the diameter of the opening end 4 a of the inlet portion 4 is set slightly larger than the outer diameter of the cylindrical portion 5. The protrusion 7 has a stepped surface on the inner peripheral portion 4b, that is, when the gasket storage container 1 is overlapped, the end portion 5f on the other axial side of the cylindrical portion 5 in the gasket storage container 1 disposed on the upper side. Provided on opposite surfaces.

Examples of the material of the gasket storage container 1 include synthetic resins such as polycarbonate, polypropylene, and polyethylene. The material of the gasket storage container 1 is preferably one that is resistant to thermal deformation, and polycarbonate is most preferable.

[Gasket storage method]
Next, a method for housing the gasket 20 in the gasket housing container 1 having the above-described configuration will be described with reference to FIGS.

First, the bottom portion 22 of the gasket 20 is made to face the inlet portion 4 of the gasket storage portion 3 in the gasket storage container 1. Next, the gasket 20 is inserted into the inlet portion 4 of the gasket housing portion 3 from the bottom portion 22, and the gasket 20 is pushed into the tube portion 5 of the gasket housing portion 3. Here, as shown in FIG. 4, since the inner peripheral portion 4 b of the inlet portion 4 is formed in a tapered shape, the gasket 20 can be easily inserted into the gasket storage portion 3.

Note that the inner diameter of the second cylindrical hole portion 5b in the cylindrical portion 5 is set slightly smaller than the diameter of the second peak portion 27 of the gasket 20. Therefore, the gasket 20 is pushed into the cylindrical portion 5 while the second peak portion 27 slides on the inner wall of the second cylindrical hole portion 5b.

Furthermore, the inner diameter of the third cylindrical hole portion 5c in the cylindrical portion 5 is smaller than the inner diameter of the second cylindrical hole portion 5b and smaller than the diameter of the second peak portion 27 of the gasket 20. Therefore, when the gasket 20 is further pushed toward the other side in the axial direction of the cylindrical portion 5, the resistance applied to the second peak portion 27 of the gasket 20 by the second stepped portion 5 e of the cylindrical portion 5 increases. This resistance force signals the completion of insertion. Thereby, it is possible to prevent the gasket 20 from being inserted excessively and the bottom portion 22 of the gasket 20 from protruding from the opening on the other axial side of the cylindrical portion 5.

At this time, the second peak portion 27 of the gasket 20 is pressed inward (toward the axis) by the second step portion 5e or the third cylindrical hole portion 5c. Even if the second peak portion 27 is pushed only up to the second cylindrical hole portion 5b, the object of this example can be achieved. This ensures that the gasket 20 is securely held by the cylindrical portion 5 in the gasket storage portion 3 and prevents the gasket 20 from swinging (rattle) in the gasket storage portion 3 due to vibration or impact during transportation. it can.

Also, the first step portion 5d located between the first tube hole portion 5a and the second tube hole portion 5b is formed in a tapered shape. Further, the inner diameter of the first tube hole portion 5 a is set larger than the diameters of the first peak portion 26 and the second peak portion 27. Thus, the gasket 20 is easily pushed to a predetermined position in the cylindrical portion 5 until the second peak portion 27 is pressed inward (toward the axis) by the second stepped portion 5e or the third cylindrical hole portion 5c. Can do.

When a gasket having three or more peak portions is accommodated, only the peak portion arranged closest to the bottom portion 22 in the gasket 20 is the second step portion 5e of the tube portion 5 or the third tube hole portion 5c. Thus, the gasket 20 is held on the cylindrical portion 5 by being pressed inward (toward the shaft). And it is preferable that the other peak part opposes the 1st cylinder hole part 5a or the 2nd cylinder hole part 5b of the cylinder part 5, without contacting the inner wall of the cylinder part 5. FIG.

And as shown in FIG. 3, the gasket 20 is accommodated in the some gasket accommodating part 3 provided in the board | plate material 2, respectively. Thereby, a plurality of gaskets 20 can be stored in the gasket storage container 1.

[Examples of gasket sterilization]
Next, an example of sterilization treatment for the gasket 20 stored in the gasket storage container 1 will be described with reference to FIG.
FIG. 5 is a cross-sectional view showing a state where the gasket storage containers 1 are overlapped.
The first gasket storage container 1A and the second gasket storage container 1B shown in FIG. 5 have the same configuration.

First, as shown in FIG. 5, the second gasket storage container 1B is overlaid on the first gasket storage container 1A. At this time, the outer diameter of the cylindrical portion 5 is set to be approximately equal to or slightly smaller than the inner diameter of the opening end 4 a of the inlet portion 4. Therefore, the end portion 5f of the second gasket storage container 1B opposite to the inlet portion 4 of the cylindrical portion 5 in the gasket storage portion 3 is inserted into the inlet portion 4 of the gasket storage portion 3 in the first gasket storage container 1A. The Thereby, it can prevent that the 2nd gasket storage container 1B piled up on 1A of 1st gasket storage containers is rattling.

Further, the end portion 5f of the cylindrical portion 5 in the second gasket storage container 1B comes into contact with the protrusion 7 provided on the inner peripheral portion 4b of the inlet portion 4 of the first gasket storage container 1A. Therefore, a second gap S is formed between the end portion 5f of the cylindrical portion 5 in the second gasket storage container 1B and the inner peripheral portion 4b of the inlet portion 4 of the first gasket storage container 1A.

When the stacking operation of the first gasket storage container 1A and the second gasket storage container 1B is completed, high-temperature steam or gas such as high-pressure steam sterilization (autoclave) sterilization or EOG (ethylene oxide gas) sterilization is then used. Sterilize.

The end portion 5f side of the cylindrical portion 5 of the first gasket storage container 1A and the inlet portion 4 of the second gasket storage container 1B are open. Therefore, steam and gas are distributed to the bottom 22 side of the gasket 20 stored in the first gasket storage container 1A and to the side 21 and the opening 23 side of the gasket 20 stored in the second gasket storage container 1B. .

Further, as described above, the second gap S is formed in the end portion 5f of the cylindrical portion 5 in the second gasket storage container 1B and the inner peripheral portion 4b of the inlet portion 4 of the first gasket storage container 1A. Has been. Therefore, in the first gasket storage container 1A, when steam or gas passes through the second gap S, the steam or gas enters from the inlet portion 4 into the cylindrical portion 5, and the side portion 21 and the opening of the gasket 20 are opened. Steam and gas are distributed to the part 23 side. Further, in the second gasket storage container 1B, when steam or gas passes through the second gap S, the steam or gas enters the cylindrical portion 5 from the opening on the end portion 5f side of the cylindrical portion 5, and the gasket Steam and gas are distributed to the bottom 22 side of 20.

In addition, the 1st clearance gap T is formed between the 1st peak part 26 and the 1st cylinder hole part 5a, and the internal diameter of the 2nd cylinder hole part 5b is from the diameter of the side part 21 of the gasket 20. As shown in FIG. Is also set larger. Therefore, the vapor or gas that has entered from the opening end 4 a of the inlet portion 4 can reach the second peak portion 27 of the gasket 20.

Therefore, it is easy for steam and gas to reach the gasket 20 stored in the first gasket storage container 1A and the gasket 20 stored in the second gasket storage container 1B. That is, steam and gas can be spread all around the gasket 20. As a result, it is possible to reduce the portion where sterilization steam or gas does not reach and sterilization is not performed, and the entire gasket 20 can be sterilized.

In the embodiment shown in FIG. 5, the example in which the two

gasket storage containers

1A and 1B are overlapped has been described, but the present invention is not limited to this. That is, even when three or more gasket storage containers 1 are stacked and subjected to sterilization, sterilization vapor or gas can be spread all around the gaskets 20 stored in all the gasket storage containers 1.

<Second Embodiment>
Next, a second embodiment of the gasket storage container of the present invention will be described with reference to FIG.
FIG. 6 is a cross-sectional view showing a second embodiment of the gasket storage container.

The difference between the gasket storage container according to the second embodiment and the gasket storage container 1 according to the first embodiment is the configuration of the cylindrical portion. Therefore, here, the cylindrical portion will be described, and the same reference numerals are assigned to portions common to the gasket storage container 1 and redundant description will be omitted.

As shown in FIG. 6, the cylinder part 55 in the gasket storage container 51 has a first cylinder hole part 55a and a second cylinder hole part 55b that are opened in a substantially columnar shape along the axial direction thereof. The first tube hole portion 55 a is disposed on one side in the axial direction of the tube portion 55, that is, the inlet portion 4 side, and the second tube hole portion 55 b is disposed on the other side in the axial direction of the tube portion 55. The first tube hole portion 55 a is a substantially straight tube hole that is substantially parallel to the axial direction of the tube portion 5.

The inner diameter of the first cylindrical hole portion 55a is set larger than the diameters of the first peak portion 26 and the second peak portion 27. When the gasket 20 is stored in the cylindrical portion 55, the inner wall of the first cylindrical hole portion 55 a and the first peak portion 26 of the gasket 20 face each other with the first gap T therebetween.

The second cylindrical hole portion 55b is formed in a tapered shape so that the inner diameter thereof continuously decreases as the distance from the first cylindrical hole portion 55a increases. Further, the inner diameter of the intermediate portion in the axial direction of the second cylindrical hole portion 55 b is set smaller than the inner diameter of the first cylindrical hole portion 55 a and the diameter of the second peak portion 27 of the gasket 20.

That is, the inner diameter of the cylindrical portion 55 of the gasket container 51 according to the second embodiment changes in at least two stages. Then, the second peak portion 27 of the gasket 20 is pressed inward (toward the axial center of the gasket 20) by the axial intermediate portion of the second cylindrical hole portion 55b, and the gasket 20 is held by the cylindrical portion 55. The

Since the second cylindrical hole portion 55b is formed in a tapered shape, the gasket 20 accommodated in the cylindrical portion 55 can be prevented from falling from the opening on the opposite side of the inlet portion 4 in the cylindrical portion 55. Moreover, you may provide the convex part which protrudes from the inner wall of the 2nd cylinder hole part 55b in the vicinity of the opening on the opposite side to the entrance part 4 in the 2nd cylinder hole part 55b. By providing this convex part, it is possible to more effectively prevent the gasket 20 from dropping from the opening of the cylindrical part 55 opposite to the inlet part 4.

In addition, the 2nd cylinder hole part 55b should just be a shape which can prevent the fall of the gasket 20, ie, can hold | maintain the gasket 20. As shown in FIG. For example, the second cylinder hole portion 55b is formed in a substantially straight shape, and a protrusion protruding from the inner wall of the second cylinder hole portion 55b is provided in the vicinity of the opening on the opposite side of the inlet portion 4 in the second cylinder hole portion 55b. Also good. At this time, since the gasket 20 is prevented from dropping by the convex portion provided in the second cylindrical hole portion 55b, the inner diameter of the second cylindrical hole portion 55b may be larger than the first peak portion 26 of the gasket 20. Or smaller.

Further, the convex portion protruding from the inner wall of the second cylindrical hole portion 55 b is provided so as to be positioned between the first peak portion 26 and the second peak portion 27 when the gasket 20 is stored in the gasket storage container 51. May be. At this time, the inner diameter of the second cylindrical hole portion 55b is set so that the gas for sterilization reaches between the first peak portion 26 and the second peak portion 27. It is set to be larger than the diameter.

Other configurations are the same as those of the gasket storage container 1 according to the above-described first embodiment, and thus description thereof is omitted. Also with the gasket storage container 51 having such a configuration, the same operations and effects as those of the gasket storage container 1 according to the first embodiment described above can be obtained.

The present invention is not limited to the embodiment described above and shown in the drawings, and various modifications can be made without departing from the scope of the invention described in the claims.

1, 1A, 1B, 51 ... gasket storage container, 2 ... plate material, 2a ... one side, 2b ... other side, 3 ... gasket storage part, 4 ... inlet part 4a ... open end, 4b ... inner periphery, 5, 55 ... Tube portion, 5a, 55a ... first tube hole portion, 5b, 55b ... second tube hole portion, 5c ... third tube hole portion, 5d ... first step portion, 5e ... second step portion, 5f, 55f ... end Part, 7 ... protrusion, 20 ... gasket, 21 ... side part, 22 ... bottom part, 23 ... opening part, 26 ... first peak part, 27 ... second peak part, T ... first gap, S ... second Gap

Claims

A substantially flat plate material;
A gasket storage portion that is provided on the plate and stores the gasket;
The gasket housing part is
An opening end having a substantially circular opening on one surface of the plate member, an inner peripheral portion continuous from the opening end, and an inlet portion into which the gasket is inserted;
A cylindrical portion that is provided continuously from the inlet portion, protrudes from the other surface opposite to the one surface of the plate member, and holds the gasket when the gasket is stored;
An inner diameter of the opening end of the inlet portion is formed larger than an outer diameter of the cylindrical portion,
A protrusion is provided on the inner peripheral portion of the inlet portion,
When another gasket storage container of the same type is stacked, an end of the cylindrical portion of the other type of gasket storage container opposite to the inlet is in contact with the protrusion provided on the inner peripheral portion. A gasket storage container in which a gap is formed between the end portion and the inner peripheral portion.
The gasket storage container according to claim 1, wherein the inner peripheral portion of the inlet portion is formed in a tapered shape such that the diameter continuously decreases from the opening end to the cylindrical portion.
The gasket storage container according to claim 1, wherein an inner diameter of the cylindrical portion of the cylindrical portion changes in at least two stages.
The cylindrical portion is
A first cylindrical hole provided on the inlet side and having an inner diameter larger than the diameter of the peak portion of the gasket;
The second cylinder hole portion having an inner diameter smaller than an inner diameter of the first cylinder hole, the second cylinder hole section being provided closer to the end portion in the axial direction in the cylinder portion than the first cylinder hole portion. Gasket storage container.
The cylindrical portion is
A first cylindrical hole provided on the inlet side and having an inner diameter larger than the diameter of the peak of the gasket;
A second cylindrical hole portion provided on the end side in the axial direction of the cylindrical portion with respect to the first cylindrical hole portion, and having an inner diameter smaller than the diameter of the peak portion of the gasket;
A third cylindrical hole portion provided on the end side in the axial direction of the cylindrical portion with respect to the second cylindrical hole portion and having an inner diameter smaller than an inner diameter of the second cylindrical hole portion. The gasket storage container as described.