JP3967821B2 - Closure member and container - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a closing member, and more particularly, to a closing member that closes an outlet for taking out the contents stored in the container, for example, a photographic processing agent container in which a photographic processing agent is stored. Used to close the outlet.
[0002]
[Prior art]
Photoprocessing agents are used for color development, bleach-fixing and the like in automatic processors such as film processors and printer processors. In order to reduce the labor and attention of the operator when replenishing the photographic processing agent, an automatic processor has been devised in which the photographic processing agent is automatically replenished to the replenishing tank simply by loading the container. That is, by loading the automatic processor with the outlet of the container equipped with a closing member that can be opened by pressing force facing downward, and punching this closing member with the pressing force of the opening member formed in a rod shape, The photographic processing agent flows out of the container and is replenished to the replenishing tank.
[0003]
As an example of such a closing member, FIG. 8 shows an exploded perspective view of the closing member 800 and the container 820, and FIG. 9 shows an enlarged cross-sectional view in which the closing member 800 is mounted on the container 820.
The closing member 800 includes a cap (fixing member) 802 and a packing 804.
[0004]
The cap 802 has a ring shape with an upper and lower opening in FIGS. 8 and 9, a pressing piece 810 is provided from the upper end portion toward the center of the circle of the cap 802, and the inside thereof is a circular opening 812. . A female screw 808 is cut on the inner peripheral surface of the cap 802, and a male screw 828 corresponding to the female screw 808 is also cut near the upper end of the mouth 824 of the container 820.
[0005]
The packing 804 has a slightly larger diameter than the outer diameter of the outlet end 822 of the container 820. The material of the packing 804 is a thin sheet made of a metal such as aluminum or a foamed resin, for example. The projection can be easily perforated by pressing the projection.
[0006]
When the packing 804 is pushed into the cap 802 from the lower surface in FIG. 8, the packing 804 is held in the cap 802 while being in contact with the pressing piece 810. When the cap 802 is screwed into the mouth 824 of the container 820 in this state, the packing 804 is pressed and fixed to the outlet end 822 at the upper end of the mouth 824 by the pressing piece 810. FIG. 8 is a cross-sectional view showing this state.
[0007]
The container 820 whose outlet is closed by the closing member 800 does not leak even when the outlet is directed downward. In this state, the packing 804 that appears in the opening 812 is used as a protrusion as an opening member (not shown). By pressing and perforating, the photographic processing agent flows out of the container 820 and is replenished in a replenishment tank (not shown).
[0008]
In this closing member 800, in order to improve the piercing property of the packing 804, it is desirable to make the packing 804 weak, such as thinning the packing 804 or providing a weak portion (low strength portion) in the packing 804. If the packing 804 is made more vulnerable, the following problems arise.
[0009]
1) When the internal pressure of the photographic processing agent filled in the container 820 is changed, the packing 804 is easily broken or easily dropped from between the outlet end 822 and the pressing piece 810, and in this case, liquid leakage occurs. When the surface of the container 820 is strongly gripped, when the container 820 is greatly shaken during transportation, or when the container 820 is impacted by dropping, the internal pressure of the filled photographic processing agent changes greatly. There is a high possibility that the packing 804 will not resist the internal pressure and will be torn or dropped. In particular, when the container 820 is thinned for the purpose of disposal and resource saving, the container 820 itself is easily deformed and the internal pressure is likely to change.
[0010]
2) When a material that is thin and easily stretched is used for the packing 804 so that the packing 804 flexibly follows changes in internal pressure, the packing 804 does not move even if the packing 804 is pressed by a protruding portion as an opening member. There are cases where problems such as stretching and not easily perforating occur.
[0011]
3) When the packing 804 is made of a thin material that does not have elasticity such as aluminum, the packing 804 also has a thickness direction of the packing 804 even when a thin material having elasticity such as foaming resin is used. A sufficient amount of pressing deformation cannot be ensured, the sealing performance (sealing performance) of the outlet by the packing 804 is lowered, and there is a possibility of liquid leakage.
[0012]
4) When a thin material is used for the packing 804, when the cap 802 that has pushed the packing 804 inward is screwed into the mouth 824 of the container 820, the packing 704 contacts both the pressing piece 810 and the outlet end 822. At the time, the frictional force in the opposite direction acts on the contact surface (upper surface) of the packing 804 with the pressing piece 810 and the contact surface (lower surface) with the outlet end 822, and the cap 802 is screwed into the mouth 824 as it is. If it goes, the packing 804 is twisted and wrinkles due to distortion occur. If wrinkles are generated in the packing 804, the sealing performance of the outlet by the packing 804 is lowered, and in some cases, a completely open portion is formed in the opening 812, and there is a possibility of liquid leakage.
[0013]
As described above, since various problems occur when the packing 804 is made more fragile, it is also conceivable that the packing 804 is not provided with a low-strength portion but is thickened to some extent, and the protruding portion as the opening member is made a sharp blade. It is done. However, it is not preferable to apply a sharp blade to the part from the viewpoint of safety of the operator.
[0014]
[Problems to be solved by the invention]
In consideration of such a fact, the present invention has been made to solve the above-mentioned various problems, in which it is difficult to reduce the thickness for the purpose of high piercing properties when a single packing is used. That is, the present invention provides a closing member that does not easily break due to a change in internal pressure while ensuring a high piercing property, can ensure a sufficient sealing property, and does not cause wrinkles of packing when the cap is attached, and the closing member It aims at providing the container using this.
[0015]
[Means for Solving the Problems]
The above object is achieved by the present invention described below.
That is, the first aspect of the present invention is a closing member for closing an extraction port for taking out the contents stored in the container, the packing capable of closing the extraction port, and the packing at the outlet end. The fixing member is provided with an opening through which the contents can be taken out from the outlet when the packing is not present, and the packing closes the outlet. It is characterized in that two sheets of a packing having a sheet shape and a perforated packing having an opening are overlapped.
[0016]
In this way, if the packing is a sheet packing and a perforated packing, it is possible to separate the functions, and while maintaining high piercing performance, it is not easily broken by changes in internal pressure, and sufficient sealing performance can be secured. In addition, it is possible to provide a closing member that does not cause packing wrinkles even when the cap is attached.
[0017]
For example, the sheet-like packing can be made highly thin, such as thinned or provided with a fragile part, and by using a flexible material with a small friction coefficient, it is not perforated, but an opening due to dropping is provided. You can also plan. On the other hand, with respect to the perforated packing, it is possible to ensure high sealing performance as a thick elastic body, and it is also possible to make up the strength of the sheet packing by reducing the area of the hole.
[0018]
In addition, when the sheet packing is thinned, due to its flexibility, the sheet packing is wrinkled when the fixing member is screwed. By overlapping the hole packing, the hole packing becomes a cushioning material. The shape stability can be improved and solved.
As described above, various required items that are in a trade-off relationship can be harmonized at a high level by functionally separating the two packings.
[0019]
The second aspect of the present invention is characterized in that, in the first aspect of the present invention, with respect to the arrangement order of the two packings, the sheet packing is arranged on the side in contact with the outlet end of the container.
[0020]
With such an arrangement, the sheet-like packing can be made thin, or a low-strength portion can be provided in the sheet-like packing, thereby forming a closing member that is easily pierced by pressing of the protruding portion as the opening member. In addition, even when the sheet-like packing is fragile as described above, the strength of the sheet-like packing can be supplemented by the perforated packing, and it is not easily broken even by a change in internal pressure. That is, the protrusion of the sheet-like packing to the outside of the outlet due to the pressure from the inside of the container is suppressed by the perforated packing, and it becomes a high-strength closing member that is not easily bent against the pressure from the inside of the container.
[0021]
At this time, if the area of the hole of the perforated packing is made smaller, the strength of the entire packing can be further improved. And if a sheet-like packing is pressed by the projection part as an opening member, a sheet-like packing will be easily pierced from the high piercing property of sheet-like packing itself, and an extraction opening can be opened.
[0022]
In addition, if the perforated packing is made of a thick elastic body, even if a thin film or a material with low elasticity is used for the sheet-like packing, the sheet-like packing is effectively pressed against the container outlet end portion to improve the adhesion. A high-strength closing member that can ensure high sealing performance and can effectively supplement the strength of the sheet-like packing due to such thickening, and is less prone to bending against pressure from inside the container. It becomes.
[0023]
In addition, when a flexible material with a small coefficient of friction (with respect to the container outlet end) is used for the sheet-like packing, when the opening by dropping is intended instead of drilling, the fixing member is pressed by the protrusion as the opening member. The sheet-like packing sandwiched between the container and the end of the take-off can be slid out from between them, and the take-out opening can be easily opened. Protrusion to the outside of the outlet is suppressed by the perforated packing, and it becomes easy to open and becomes a high-strength closing member.
[0024]
Also, when screwing the fixing member, the perforated packing that comes into contact with the pressing piece of the fixing member slides at the corresponding contact portion, becomes a cushioning material, improves the overall shape stability of the packing, and wrinkles occur in the sheet-like packing. There is no problem such as. At this time, if the perforated packing is thickened or has a certain degree of hardness, the perforated generation preventing effect of the sheet-like packing is effectively exhibited without causing the torsional deformation of the perforated packing itself.
[0025]
Furthermore, in the opening provided in the fixing member, the exposed area of the relatively fragile sheet-like packing is covered to some extent by the relatively strong perforated packing, and the blocking member is also strong against external force. It can be. In order to make this purpose more effective, it is preferable to take measures such as increasing the thickness of the hole packing, having a certain degree of hardness, or making the opening of the hole packing smaller.
[0026]
The third aspect of the present invention is characterized in that, in the first aspect of the present invention, with respect to the arrangement order of the two packings, the perforated packing is arranged on the side in contact with the outlet end of the container.
[0027]
With such an arrangement, the sheet-like packing can be made thin, or a low-strength portion can be provided in the sheet-like packing, thereby forming a closing member that is easily pierced by pressing of the protruding portion as the opening member. In addition, even when the sheet-like packing is fragile as described above, the strength of the sheet-like packing can be supplemented by the perforated packing, and it is not easily broken by pressing from the outside of the container. That is, the protrusion of the sheet-like packing into the container due to the pressure from the outside of the container is suppressed by the perforated packing, and it becomes a high-strength closing member that hardly resists the pressure from the outside of the container. At this time, if the area of the hole of the perforated packing is made smaller, the strength of the entire packing can be further improved. And if a sheet-like packing is pressed by the projection part as an opening member, a sheet-like packing will be easily pierced from the high piercing property of sheet-like packing itself, and an extraction opening can be opened.
[0028]
Also, if the perforated packing is made of a thick elastic body, even when a thin film or a material with low elasticity is used for the sheet-like packing, the perforated packing is pressed against and closely contacts the container outlet end, and has high sealing performance. Can be secured.
[0029]
Further, by making the perforated packing thicker or having a certain degree of hardness, the strength of the sheet-like packing can be supplemented more effectively, and the strength of the entire packing becomes high.
[0030]
Also, when screwing the fixing member, the perforated packing that comes into contact with the end of the container outlet slides at the corresponding contact portion, becomes a cushioning material, improves the overall shape stability of the packing, and wrinkles occur in the sheet-like packing. There is no problem such as. At this time, if the perforated packing is thickened or has a certain degree of hardness, the perforated generation preventing effect of the sheet-like packing is effectively exhibited without causing the torsional deformation of the perforated packing itself.
[0031]
Furthermore, when a sheet-like packing is made of a thin and easy-to-extend material and an attempt is made to perforate the sheet-like packing by pressing a projection as an opening member, the area of the portion where the sheet-like packing may be stretched is Since it is narrowed by the existing perforated packing and the expansion of the sheet-like packing is suppressed, it can be easily perforated.
[0032]
A fourth aspect of the present invention is a closing member that closes an outlet for taking out the contents accommodated in a container, the packing capable of closing the outlet, and the packing at the outlet end. The fixing member is sandwiched and held, and the fixing member is provided with an opening through which the contents can be taken out from the outlet when the packing is not present, and the packing can close the outlet. It is characterized in that a perforated packing having an opening is superimposed on both surfaces of the sheet-like packing.
[0033]
With such a configuration, the function of the perforated packing in the first to third aspects of the present invention can be further separated into two perforated packings arranged on both sides of the sheet-like packing, and high perforation. In addition, the sealing member is not easily broken by a change in internal pressure, can secure a sufficient sealing property, and can be a closing member that does not cause packing wrinkles when the cap is attached.
[0034]
For example, by reducing the thickness of the sheet-like packing or providing a low-strength portion in the sheet-like packing, it is possible to provide a closing member that is easily pierced by pressing of a protruding portion as an opening member. Even when the packing is fragile, the strength of the sheet packing can be supplemented by the perforated packing, and it is not easily broken even when the internal pressure changes. That is, the protrusion of the sheet-like packing to the outside of the take-out port due to the pressure from the inside of the container is suppressed by the outer perforated packing, and it becomes a high-strength closing member that is not easily bent against the pressure from the inside of the container.
[0035]
At this time, if the area of the hole of the outer perforated packing is made smaller, the strength of the entire packing can be further improved. And if a sheet-like packing is pressed by the projection part as an opening member, a sheet-like packing will be easily pierced from the high piercing property of sheet-like packing itself, and an extraction opening can be opened.
[0036]
Similarly, when the sheet-like packing is fragile, the strength of the sheet-like packing can be supplemented by the inner side opening (side contacting the container outlet end), and the pressure from the outside of the container Even will not break easily. That is, the protrusion of the sheet-like packing into the container due to the pressure from the outside of the container is suppressed by the inner perforated packing, and it becomes a high-strength closing member that is hard to bend against the pressure from the outside of the container.
[0037]
At this time, if the area of the hole of the inner perforated packing is made smaller, the strength of the entire packing can be further improved. And if a sheet-like packing is pressed by the projection part as an opening member, a sheet-like packing will be easily pierced from the high piercing property of sheet-like packing itself, and an extraction opening can be opened.
[0038]
If the inner perforated packing is made of a thick elastic body, the inner perforated packing is pressed against the container outlet end even when a thin film or less elastic material is used for the sheet packing. In addition, it is possible to ensure high sealing performance and to increase the thickness of the sheet packing more effectively by such thickening, and it is difficult to bend against the pressure from the inside of the container. It becomes a member.
[0039]
In addition, when screwing the fixing member, both or either of the outer perforated packing and the inner perforated packing that contacts the container outlet end and the abutting end of the container are provided. There is no problem of slipping at the portion, becoming a cushioning material, improving the shape stability of the entire packing, and causing wrinkles in the sheet packing. At this time, if one or both of the perforated packings are thickened or have a certain degree of hardness, the perforated packing itself can be effectively prevented from wrinkling without causing the torsional deformation of the perforated packing itself. Demonstrated.
[0040]
In addition, in the opening provided in the fixing member, the exposed area of the relatively fragile sheet-like packing is concealed to some extent by the outer perforated packing having a relatively high strength, and is also strong against external forces. It can be a closing member. In order to make this purpose more effective, it is preferable to take measures such as increasing the thickness of the hole packing, having a certain degree of hardness, or making the opening of the hole packing smaller.
[0041]
Furthermore, when the sheet-like packing is made of a thin and easy-to-extend material and the sheet-like packing is pierced by pressing the projection as an opening member, the area of the sheet-like packing where the elongation can occur is the inner hole. Since it is narrowed by the open packing and the expansion of the sheet packing is suppressed, it can be easily perforated.
[0042]
5th this invention is the said 1st thru | or 4th this invention, Comprising: The material of a sheet-like packing contains LDPE or HDPE 50% or more, and makes it a foamable resin whose expansion ratio is 2-100 times, And the thickness is prescribed | regulated to the range of 0.5-3 mm, It is characterized by the above-mentioned.
[0043]
A foamable resin having a foaming ratio of 2 to 100 times has high elasticity, and when a thick foamable resin is used for a sheet-like packing, it can exhibit high sealing performance by itself. descend. Therefore, by suppressing the thickness to some extent as described above and combining with the perforated packing, it is possible to ensure high sealing performance while ensuring high piercing performance.
[0044]
In addition, since the foamable resin is highly flexible and can be easily processed to reduce the coefficient of friction of the surface, when this is used for a sheet-like packing and an opening by dropping rather than perforation is intended, an opening member As a result of the pressing of the projecting portion, the sheet-like packing sandwiched at a predetermined position falls off so as to slide between them, so that the outlet can be easily opened, and the closing member is easy to open.
[0045]
Furthermore, LDPE (low density polyethylene) or HDPE (high density polyethylene) is particularly suitable for the purpose of filling chemicals such as photographic processing agents because of its high flexibility, good disposal, and high chemical resistance. Is.
[0046]
A sixth aspect of the present invention is the first to fifth aspects of the present invention, wherein the perforated packing material is a foamable resin containing 50% or more of LDPE or HDPE and having a foaming ratio of 2 to 100 times. And the thickness is prescribed | regulated to the range of 0.5-5 mm, It is characterized by the above-mentioned.
[0047]
The foaming resin having a foaming ratio of 2 to 100 times has high elasticity, and when a foaming resin having a thickness as described above is used for the perforated packing, and a thin film or a material with less elasticity is used for the sheet-like packing, The sheet-like packing is effectively pressed to the container outlet end portion to increase the adhesion, and high sealing performance can be ensured.
[0048]
Furthermore, LDPE (low density polyethylene) or HDPE (high density polyethylene) is particularly suitable for the purpose of filling chemicals such as photographic processing agents because of its high flexibility, good disposal, and high chemical resistance. Is.
[0049]
According to a seventh aspect of the present invention, the closing member according to any one of the first to sixth aspects of the present invention is applied to the closing of the outlet of the container in which the outlet for taking out the contents accommodated therein is formed. Features.
[0050]
By applying the first to sixth aspects of the present invention, a high piercing property (or easy drop-off property) can be achieved, but it is not easily broken by a change in internal pressure, and a sufficient sealing property can be secured, and a cap is attached. Even in this case, the outlet is closed by a closing member that does not cause packing wrinkles, no liquid leakage occurs, the container is safe against changes in internal pressure, and the outlet can be easily opened.
[0051]
In the eighth aspect of the present invention, the outlet for taking out the photographic processing agent from the photographic processing agent container (hereinafter referred to as “photographic processing agent container”) used for the purpose of containing the photographic processing agent is blocked. The closing member of the first to sixth inventions is applied.
[0052]
By applying the first to sixth aspects of the present invention, a high piercing property (or easy drop-off property) can be achieved, but it is not easily broken by a change in internal pressure, and a sufficient sealing property can be secured, and a cap is attached. In particular, the outlet is closed by a closing member that does not cause wrinkles of the packing, so that no leakage of liquid occurs, it is safe from changes in internal pressure, and a photographic processing agent container that can be easily opened. Therefore, when the photographic processing agent container of the eighth aspect of the present invention is used, there is no generation of wrinkles in the packing even when the photographic processing agent is filled in the container and the cap is attached, no liquid leakage occurs, and the internal pressure changes. Therefore, when loading in an automatic processor and replenishing a photographic processing agent, the take-out port can be easily opened, and handling is easy and safe.
[0053]
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be described in detail with reference to embodiments.
FIG. 1 is an exploded perspective view showing the closing member 100 of the first embodiment together with the container 120 as an example of the closing member of the present invention, and FIG. 2 shows a state in which the closing member 100 is mounted on the container 120. It is an expanded sectional view.
[0054]
The closing member 100 includes a cap (fixing member) 102, a perforated packing 104, and a sheet-like packing 106.
The cap 102 has a ring shape with an upper and lower opening in FIGS. 1 and 2, a pressing piece 110 is provided from the upper end portion toward the center of the circle of the cap 102, and the inside thereof is a circular opening 112. . The opening 112 does not need to be circular, and may be elliptical, rectangular, or other polygonal shape. A female screw 108 is cut on the inner peripheral surface of the cap 102, and a male screw 128 corresponding to the female screw 108 is also cut near the upper end of the mouth portion 124 of the container 120.
[0055]
In the first embodiment, the perforated packing 104 and the sheet packing 106 are overlapped, and the sheet packing is formed on the lower side in FIGS. 1 and 2, that is, on the side in contact with the outlet end 122 of the container 120. 106 is located.
[0056]
The perforated packing 104 has a slightly larger diameter than the outer diameter of the outlet end portion 122 of the container 120, has an inner opening, and has a certain thickness, and is formed of an elastic body such as foaming resin or rubber. Has been.
[0057]
The sheet packing 106 is a thin sheet made of a metal such as aluminum or a foamed resin, for example, and is configured to be easily perforated by pressing a projection as an opening member (not shown).
[0058]
When these packings are pushed into the cap 102 from the lower surface in FIG. 1, the perforated packing 104 is held in the cap 102 while being in contact with the pressing piece 110. In this state, when the cap 102 is screwed into the mouth portion 124 of the container 120, the sheet-like packing 106 is pressed by the pressing piece 110 to the outlet end portion 122 at the upper end of the mouth portion 124 through the perforated packing 104. Both packings 104 and 106 are fixed. At this time, even if the sheet-like packing 106 is thin, the perforated packing 104 that comes into contact with the pressing piece 110 of the cap 102 slides at the corresponding contact portion, becomes a cushioning material, and improves the shape stability of the entire packing, thereby improving the sheet shape. There is no problem that the packing 106 is wrinkled. FIG. 2 is a cross-sectional view showing a state where the outlet of the container 120 is closed in this manner.
[0059]
The container 120 whose outlet is closed by the closing member 100 does not leak even when the outlet is directed downward. In this state, the packing 104 that appears in the opening 112 is a protrusion as an opening member (not shown). By pressing and perforating, the photographic processing agent flows out of the container 120 and is replenished in a replenishment tank (not shown).
[0060]
In this way, the packing is functionally separated into two sheets, and the sheet-like packing 106 is disposed on the side in contact with the outlet end 122 of the container, so that the sheet-like packing 106 is pressed by the pressure from the inside of the container 120. Protrusion to the outside of the take-out port is suppressed by the perforated packing 104, and the closure member 100 with high strength is obtained which is difficult to bend against the pressure from the inside of the container 120. At this time, if the area of the hole of the perforated packing 104 is made smaller, the strength of the entire packing can be further improved, but the area at the time of opening by the protrusion as the opening member is conversely reduced. Since the opening performance is sacrificed, it may be set as appropriate depending on the size, shape, etc. of the protrusion. If the sheet-like packing 106 is pressed by the protrusions, the sheet-like packing 106 can be easily perforated by the high perforation property of the sheet-like packing 106 itself, and the outlet of the container 120 can be opened.
[0061]
Further, if the perforated packing 104 is made of a thick elastic body, the sheet packing 106 can be effectively used at the outlet end 122 of the container 120 even when a thin film or a material with low elasticity is used for the sheet packing 106. When pressed, the adhesiveness is increased and high sealing performance can be secured.
[0062]
In addition, by using a flexible material with a small coefficient of friction (for the container outlet end 122) for the sheet-like packing 106, when opening by dropping rather than perforation is intended, by pressing the projection as an opening member, The sheet-like packing 106 sandwiched between the pressing piece 110 of the cap 102 and the outlet end 122 can be slid out from the gap so that the outlet can be easily opened. On the other hand, the protrusion of the sheet-like packing 106 to the outside of the outlet is suppressed by the perforated packing 104, so that the opening member 100 is easy to open and has a high strength.
[0063]
Further, in the opening 112 provided in the cap 102, the exposed area of the relatively fragile sheet-like packing 106 is concealed to some extent by the perforated packing 104 having a relatively high strength, and has a high strength against an external force. The closing member 100 can be used. In order to make this purpose more effective, it is preferable to make the opening 112 of the perforated packing 104 smaller. However, as described above, the area at the time of opening by the protrusion as the opening member is conversely reduced. Since the opening property is sacrificed, it may be set as appropriate depending on the size, shape, etc. of the protrusion.
[0064]
The two packings 104 and 106 will be described in more detail.
As the perforated packing 104, various shapes and materials can be selected according to the purpose. The shape which can be employ | adopted as the perforated packing 104 in FIG. 3 is illustrated with a top view. Of course, the present invention is not limited to these.
[0065]
(A) is an example in which a hole 302 having the same shape as the hole-opening packing 104 shown in FIG. 1 and having a diameter smaller than that of the circular opening 112 of the cap 102 is opened. By making the diameter of the hole 302 of the perforated packing 104 smaller than the opening 112 in this way, the protrusion of the sheet-like packing 106 to the outside of the take-out port due to the pressure from the inside of the container 120 is suppressed by the perforated packing 104, and the container 120 is a high-strength occluding member 100 that is difficult to bend against pressure from the inside. In addition, since the hole 302 is sufficiently large, a sufficient area is ensured when the projection as the opening member is opened, and even if the positional relationship between the projection and the container 120 in the automatic processor is somewhat low, there is a problem. It can open without.
[0066]
In (B), a hole 304 having a smaller diameter than the circular opening 112 is opened in the same manner as the hole-opening packing 104 in (A), but the projecting piece 306 extends from the four directions of the hole 304 toward the center of the hole 304. This is a protruding example. In this way, the diameter of the hole 304 of the perforated packing 104 is made smaller than that of the opening 112, and the protruding pieces 306 protrude from the four directions of the hole 304, so that the sheet-like packing 106 is removed by pressure from the inside of the container 120. Protrusion to the outside of the outlet is suppressed by the perforated packing 104, and the closure member 100 having high strength is obtained which is not easily bent against pressure from the inside of the container 120. In particular, since the protruding piece 306 protrudes, the deformation of the sheet-like packing 106 can be more effectively suppressed by the protruding piece 306 portion. In addition, since the hole 304 provided in the perforated packing 104 is sufficiently large, a sufficient area is secured when the protrusion is used as the opening member, and the positional relationship between the protrusion and the container 120 in the automatic processor is ensured. Even if the accuracy is somewhat low, it can be opened without any problem.
[0067]
(C) is an example in which two slightly smaller holes 308 are provided in the perforated packing 104. When two protrusions as opening members are arranged side by side, if the holes 308 are provided corresponding to the protrusions, the container 120 can be opened without problems when set in the automatic processor. In addition, since the size of the hole 308 is reduced, the protrusion of the sheet-like packing 106 to the outside of the take-out port due to the pressure from the inside of the container 120 is more effectively suppressed by the perforated packing 104, and the inside of the container 120 It becomes the obstruction | occlusion member 100 with high intensity | strength which is hard to bend with respect to a pressure. In particular, since the central portion having the largest deformation amount is reinforced by the perforated packing 104 in the sheet-like packing 106, the deformation of the sheet-like packing 106 can be suppressed more effectively. Even if there is only one protrusion as the opening member, the positional relationship between the protrusion and the container 120 in the automatic processor is also preferable in the case where the protrusion is displaced from the center of the opening 112. Can be applied.
[0068]
(D) is an example in which three slightly smaller holes 310 are provided in the perforated packing 104. The present invention can be particularly preferably applied to a case where the protrusion as the opening member in the automatic developing machine is disposed so as to be displaced from the center of the opening 112 as the positional relationship with the container 120. That is, when the container 120 is set in the automatic processor, any one of the three holes 310 only needs to correspond to the protruding portion. For example, when only one hole 310 corresponding to the protruding portion is provided. In comparison, the labor of the operator is reduced. Since the size of the hole 310 is small, the protrusion of the sheet packing 106 to the outside of the outlet due to the pressure from the inside of the container 120 is more effectively suppressed by the perforated packing 104, and the pressure from the inside of the container 120 is reduced. On the other hand, the closure member 100 is high in strength and is not easily bent. In particular, since the central portion having the largest deformation amount is reinforced by the perforated packing 104 in the sheet-like packing 106, the deformation of the sheet-like packing 106 can be suppressed more effectively. Of course, there may be three protrusions as opening members, and three slightly smaller holes 310 may be provided in the hole-opening packing 104 in a corresponding manner.
[0069]
The thickness of the perforated packing 104 can be appropriately selected according to the purpose, the material used, or the shape, and is preferably about 0.05 to 5 mm. Even when an elastic material is used, high sealing performance is ensured, wrinkles of the sheet packing 106 are prevented when the cap 102 is screwed, and the strength of the sheet packing 106 is more effective. In order to compensate for this, it is desirable that the wall be thick to some extent.
[0070]
The shape that can be adopted as the perforated packing 104 has been described above, but the shape, size, number, etc. of the hole are the material of the perforated packing 104, the shape, size, number, and number of the protrusions as the opening member. What is necessary is just to select suitably by the material of the packing 106, a shape, various performances calculated | required by the closure member 100, etc.
[0071]
Any material can be used for the perforated packing 104 according to the purpose. For example, various resins, rubbers, metals, and the like can be used, and paper or the like can be used because they are not in direct contact with the photographic processing agent. When a material having elasticity to some extent is used for the sheet-like packing 106, the perforated packing 104 can be made of a hard material such as metal or hard resin, but the sheet-like packing 106 is thin. When an inelastic material is used, or when it is desired to achieve further sealing performance, it is preferable to use an elastic material such as rubber, an elastomer, or a foamable resin. By using an elastic material, the amount of pressing deformation of the perforated packing 104 can be sufficiently ensured, and the closing member 100 having a high sealing property can be obtained.
[0072]
Among these, a foamable resin containing 50% or more of LDPE or HDPE and having a foaming ratio of 2 to 100 times has high flexibility, good disposability, and high chemical resistance. Especially suitable for filling chemicals. In addition, LDPE here has a density range of 0.910 to 0.929 (g / cm in JIS K 6748-1982). ^Three ) And a density range of 0.942 to (g / cm) in JIS K 6748-1982. ^Three ) And high density polyethylene.
[0073]
Here, when a foamable resin containing a large amount of LDPE is used for the perforated packing 104, it is flexible and easily deformed, so that the protruding portion as the opening member hits a portion other than the hole of the perforated packing 104. Even in this case, the pressing force is not dispersed and is effectively transmitted to the sheet-like packing 106, so that opening by drilling or dropping is easy. Moreover, since it is flexible and easily deformed, a sufficient amount of pressing deformation of the perforated packing 104 can be ensured, and the closing member 100 with high sealing performance can be obtained.
[0074]
On the other hand, when a foamable resin containing a large amount of HDPE is used for the perforated packing 104, the resin is hard to some extent, so that the protection against external force is enhanced. Further, since the resin is hard to some extent, the coefficient of friction with respect to the sheet-like packing 106 is small, and it is particularly suitable for an application in which the sheet-like packing 106 is dropped and opened by pressing of a projection as an opening member.
[0075]
When foaming resin is used for the perforated packing 104, the thickness of the perforated packing 104 is preferably in the range of 0.5 to 5 mm in order to effectively exhibit the characteristics of the foamable resin.
[0076]
Next, the sheet packing 106 will be described.
The sheet-like packing 106 can be selected from various shapes and materials depending on the purpose. The shape which can be employ | adopted as the sheet-like packing 106 in FIG. 4 is illustrated with a top view. Of course, the present invention is not limited to these.
[0077]
(A) is an example of a thin sheet of the same shape as the sheet-like packing 106 shown in FIG. 1 and the same diameter as the perforated packing 104, for example, a metal such as aluminum or a foamable resin. By using a thin-walled material that can be easily perforated, it is possible to easily perforate by pressing the projection as an opening member, and for the pressure from the inside of the container, the sheet-like packing 106 protrudes to the outside of the outlet. Is suppressed by the perforated packing 104, the opening member is easily opened, and the closing member 100 having high strength is obtained.
[0078]
Further, by using a flexible material with a small coefficient of friction (relative to the container outlet end 122) for the sheet-like packing 106, it is possible to contemplate opening by dropping rather than perforation, and in this case, a protrusion as an opening member By pressing the portion, the sheet-like packing 106 sandwiched between the cap 102 and the outlet end 122 can be slid out from the gap to easily open the outlet, and pressure from the inside of the container On the other hand, the protrusion of the sheet-like packing 106 to the outside of the outlet is suppressed by the perforated packing 104, and it becomes easy to open and becomes a high-strength closing member.
[0079]
The thickness of the sheet packing 106 can be appropriately selected according to the purpose or the material to be used, and is preferably about 0.05 to 3 mm. When the low-strength portion is provided in the sheet-like packing 106, it may be thick to some extent, but when it is not provided, it is preferable to reduce the thickness.
[0080]
As a material for such a sheet-like packing 106, when an opening by drilling is intended, a material that is easily punched, for example, a metal such as aluminum or a foaming resin as described above, various resins, and a metal surface. And paper coated with resin. Among these, the foamable resin, combined with the effect of the perforated packing 104 due to its own elasticity, can ensure a high sealing performance, and by the pressing of the protrusion as the opening member due to the high perforation property of the foamable resin, It can be easily drilled.
[0081]
Further, when the opening by dropping is intended, the material itself of the sheet packing 106 can be the same as that by which the opening by punching is intended, but the ease of being drilled is not necessary, and flexibility And those that are not very stretchable are preferred. A particularly preferable material is a foamable resin as in the case where an opening by perforation is intended. Moreover, as a property required for the sheet-like packing 106 when an opening due to dropping is intended, it is desirable that the coefficient of friction with respect to the outlet end 122 of the container 120 is small. In addition to using a material having a small coefficient of friction and high surface smoothness, the coefficient of friction can be reduced by applying various surface treatments.
[0082]
Regardless of the opening by perforation or the opening by dropping, the foamable resin preferable as the material for the sheet-like packing 106 contains 50% or more of LDPE or HDPE and has a foaming ratio of 2 to 100 times. Such a foamable resin is particularly suitable for the purpose of filling a chemical such as a photographic processing agent because of its high flexibility, good disposability, and high chemical resistance.
[0083]
Here, when a foamable resin containing a large amount of LDPE is used for the sheet-like packing 106, the resin is particularly flexible, which is preferable when an opening by drilling is intended.
[0084]
On the other hand, when a foamable resin containing a large amount of HDPE is used for the sheet-like packing 106, the resin is hard to some extent, which is preferable when an opening due to dropping is intended.
[0085]
When foaming resin is used for the sheet-like packing 106, the thickness of the sheet-like packing 106 is as follows in order to effectively show the characteristics of the foaming resin. 0.5 It is preferable to be in a range of ˜3 mm.
[0086]
(B) is an example of the sheet-like packing 106 that is made of a resin that is hard to some extent and that is provided with a low-strength portion 402. The low-strength portion 402 can be formed by providing a V-shaped or U-shaped cut and making the portion thinner than the other portions, or using the portion as a low-strength material. Further, when a resin molded product is molded by injection molding or the like, a so-called weld line generated by recombination of the resin that has flowed out of the gate and diffused into the periphery in the mold is formed into the shape of the low strength portion 402. Can also be formed. The material is preferably LDPE or HDPE, but can be appropriately selected from any resin depending on chemical resistance to chemicals and the like contained in the container 120, required strength, discardability, and the like.
[0087]
When the protrusion as the opening member presses the approximate center of the low strength portion 402, the sheet-like packing 106 is easily perforated into the shape of the low strength portion 402. At this time, if the shape of the low-strength portion 402 is as shown in (B), it can be effectively broken to the vicinity of the edge of the sheet-like packing 106, and the contents can be taken out almost completely. Further, there is no problem that the sheet-like packing 106 after the breakage clings to the protrusion as the opening member and closes the outlet. Of course, the shape of the low-strength portion 402 is not limited to this, and any shape can be adopted depending on the purpose.
[0088]
The outlet of the container 120 is closed by the closing member 100 configured as described above. FIG. 5 shows a state in which the outlet of the container 120 is closed by the closing member 100 of the first embodiment. That is, the entire photographic processing agent container is constituted by the closing member 100 and the container 120.
[0089]
Examples of the photographic processing agent stored in the container 120 include a color developer, a black and white developer, a bleaching solution, and a fixing solution. These photographic processing agents are used for processing silver halide light-sensitive materials and are commercially available and known.
[0090]
The container 120 is formed in a substantially rectangular tube shape as a whole, and a cylindrical mouth portion 124 is formed at one axial end (upper end in FIG. 5). One end of the mouth portion 124 is an outlet, and the photographic processing agent accommodated in the container 120 can be taken out from the outlet. In addition, in the above description, the container 120 for photographic processing agent in which the photographic processing agent is accommodated is given as an example as the container closed by the closing member 100, but it is not limited to this. Any container may be used.
[0091]
FIG. 6 is an exploded perspective view showing the closing member 600 of the second embodiment together with the container 620 as an example of the closing member of the present invention. 1 differs from the configuration of the first embodiment shown in FIG. 1 only in that the order in which the perforated packing 604 and the sheet packing 606 are overlapped is reversed. That is, the perforated packing 606 is positioned on the lower side in FIG. 6, that is, on the side in contact with the outlet end 622 of the container 620.
[0092]
Therefore, the configurations of the other cap 602, female screw 608, pressing piece 610, opening 612, container 620, outlet end 622, mouth 624, and male screw 628 are the same as those corresponding to those in the first embodiment. It is. Further, the configurations of the perforated packing 604 and the sheet-like packing 606 are the same as those of the respective packings in the first embodiment.
[0093]
Even when the packings 604 and 606 are arranged in such an overlapping order and a fragile material such as a thin film is used as the sheet packing 606, the strength of the sheet packing 606 can be supplemented by the perforated packing 604. Even if the container 620 is pressed from the outside due to an accident, it is not easily broken. That is, the high-strength closing member 600 that prevents the sheet-like packing 606 from protruding into the container 620 due to the pressure from the outside of the container 620 is suppressed by the perforated packing 604, and is difficult to bend against the pressure from the outside of the container 620. It becomes. At this time, if the hole area of the perforated packing 604 is made smaller, the strength of the entire packing can be further improved. And if the sheet-like packing 604 is pressed by the protrusion as an opening member, the sheet-like packing 604 can be easily perforated due to the high punchability of the sheet-like packing 604 itself, and the outlet can be opened.
[0094]
Further, if the perforated packing 604 is made of a thick elastic body, the sheet packing 606 can be effectively used at the outlet end 622 of the container 620 even when a thin film or a material with little elasticity is used for the sheet packing 606. When pressed, the adhesiveness is increased and high sealing performance can be secured.
[0095]
Further, when screwing the cap 602, the punching packing 604 is pressed by the pressing piece 610 through the sheet packing 606 to the outlet end 622 at the upper end of the mouth 624, and both packings 604 and 606 are fixed. However, even if the sheet-like packing 606 is thin, the perforated packing 604 that comes into contact with the outlet end portion 622 slides at the corresponding contact portion and acts as a cushioning material to improve the overall shape stability of the packing. There is no problem of wrinkles.
[0096]
Furthermore, when the sheet-like packing 606 is made of a thin and easy-to-extend material and the sheet-like packing 606 is intended to be perforated by pressing the projection as the opening member, the area of the portion where the sheet-like packing 606 can be stretched is Since it is narrowed by the perforated packing 604 existing on the inside and the expansion of the sheet-like packing 606 is suppressed, it can be easily perforated.
[0097]
A preferable thickness, shape, material, and the like for the perforated packing 604 in this case are the same as those described in the first embodiment. Similarly, the preferable thickness, shape, material, and the like of the sheet-like packing 606 are the same as those described in the first embodiment.
[0098]
In the second embodiment, since the perforated packing 604 is in direct contact with the photographic processing agent or the like inside the container 620, it is desirable to use a chemical-resistant material, and to ensure sealing performance. Because of the press deformation of the perforated packing 604 itself, it is not preferable to use a material such as paper that is difficult to secure the sealing performance itself, a metal having no elasticity, a hard plastic, or the like.
[0099]
FIG. 7 is an exploded perspective view showing the closing member 700 of the third embodiment together with the container 720 as an example of the closing member of the present invention. 1 differs from the configuration of the first embodiment shown in FIG. 1 only in that the packing of the closing member 700 is such that both sides of the sheet-like packing 706 are sandwiched by two perforated packings 704a and 704b. . That is, the perforated packing 706a is positioned on the side of the container 120 that contacts the outlet end 122, and the perforated packing 706b is positioned on the side of the container 720 that contacts the outlet end 722, and is sandwiched between the perforated packings 706a and 706b. In this state, the sheet packing 706 is positioned.
[0100]
Accordingly, the configurations of the other cap (fixing member) 702, female screw 708, pressing piece 710, opening 712, container 720, outlet end 722, mouth 724, and male screw 728 correspond to those in the first embodiment. It is the same structure as a location. The configurations of the perforated packings 704a and 704b and the sheet-like packing 706 themselves are the same as those of the respective packings in the first embodiment.
[0101]
The hole packing referred to in the first embodiment and the second embodiment is further divided into two, and the function-separated hole packings 704a and 704b are used, for example, to reduce the thickness of the sheet packing 706, Alternatively, by providing the sheet-like packing 706 with a low-strength portion, it is possible to make the closing member 700 easily pierced by pressing of the protruding portion as the opening member, and when the sheet-like packing 706 is fragile as described above. In addition, the strength of the sheet-like packing 706 can be supplemented by the perforated packing 704a, and it is not easily broken by a change in internal pressure. That is, the protrusion of the sheet-like packing 706 to the outside of the take-out port due to the pressure from the inside of the container is suppressed by the outer perforated packing 704, so that the high-strength closing member 700 that hardly resists the pressure from the inside of the container is obtained. .
[0102]
At this time, if the hole area of the outer perforated packing 704a is made smaller, the strength of the entire packing can be further improved. If the sheet-like packing 706 is pressed by the protruding portion as the opening member, the sheet-like packing 706 can be easily perforated due to the high punchability of the sheet-like packing 706 itself, and the outlet can be opened.
[0103]
Similarly, when the sheet-like packing 706 is fragile, the strength of the sheet-like packing 706 can be supplemented by the inner perforated packing 704b, and the sheet-like packing 706 is not easily broken even by pressing from the outside of the container 720. . In other words, the sheet packing 706 is prevented from projecting into the container 720 due to the pressure from the outside of the container 720, and the inner hole packing 704b prevents the pressure from the outside of the container 720. The member 700 is obtained.
[0104]
At this time, if the area of the hole of the inner perforated packing 704b is made smaller, the strength of the entire packing can be further improved. If the sheet-like packing 706 is pressed by the protruding portion as the opening member, the sheet-like packing 706 can be easily perforated due to the high punchability of the sheet-like packing 706 itself, and the outlet can be opened.
[0105]
Further, if the inner perforated packing 704b is made of a thick elastic body, the perforated packing 704b is formed at the outlet end 722 of the container 720 even when a thin film or a material with less elasticity is used for the sheet-like packing 706. While being pressed and in close contact, it is possible to ensure high sealing performance, and by increasing the thickness, the strength of the sheet-like packing 706 can be supplemented more effectively, and it is difficult for the pressure from the inside of the container 720 to yield. Therefore, the closure member 700 is high in strength.
[0106]
Further, when the cap 702 is screwed, both the outer perforated packing 704a that abuts the pressing piece 710 of the cap 702 and / or the inner perforated packing 704b that abuts the outlet end 722 of the container 720 are both present. Alternatively, there is no problem that the sheet-like packing 706 is wrinkled by slipping at any one of the abutting portions and becoming a cushioning material to improve the shape stability of the entire packing.
[0107]
At this time, if the perforated packing 704a and / or the perforated packing 704b is thickened or has a certain degree of hardness, the perforated packing 704a and / or the perforated packing 704b itself does not undergo torsional deformation. The effect of preventing wrinkling of the sheet-like packing 706 is effectively exhibited.
[0108]
Further, in the opening 712 provided in the cap 702, the exposed area of the relatively fragile sheet-like packing 706 is partially concealed by the outer perforated packing 704a having a relatively high strength, and is strong against external force. The closure member 700 having a high height can be obtained. In order to make this purpose more effective, it is preferable to make the opening of the outer perforated packing 704a smaller.
[0109]
Furthermore, when the sheet-like packing 706 is made of a thin and easy-to-extend material and the sheet-like packing 706 is to be perforated by pressing the protruding portion as the opening member, the area of the portion where the sheet-like packing 706 may be stretched is Since it is narrowed by the inner perforated packing 704b and the expansion of the sheet-like packing 706 is suppressed, it can be easily perforated.
[0110]
As described above, in the first to third embodiments, the case where the shape of the container outlet is circular has been described. However, the shape of the polygon, such as a rectangle or a hexagon, or the shape of an ellipse or any other shape of the outlet is described. However, the present invention can be applied by adopting the shape of the closing member corresponding thereto. Further, in the first to third embodiments, the case of the screw-in type in which the female screw and the male screw are cut into the cap and the outlet, respectively, has been described, but both can be coupled by any other means. In either case, the present invention can be applied.
[0111]
【The invention's effect】
According to the first aspect of the present invention, since the function can be separated into two packings, a high piercing property can be achieved, but it is not easily broken by a change in internal pressure, and a sufficient sealing property can be secured, and a cap is attached. In this case, it is possible to provide a closing member that does not cause packing wrinkles.
[0112]
According to the second aspect of the present invention, even when a fragile material such as a thin film is used as the sheet-like packing, it becomes a high-strength closing member that does not easily buckle against pressure from the inside of the container. If the perforated packing is made of a thick elastic body, high sealing performance can be ensured even when a thin film or a material with little elasticity is used for the sheet-like packing. By using a flexible material with a small coefficient of friction (relative to the end of the container outlet) for the sheet-like packing, it is possible to easily open the outlet and to block off with high strength when opening by dropping is intended instead of drilling. It becomes a member. Even when the fixing member is screwed, the perforated packing serves as a cushioning material, and the sheet packing does not wrinkle. Furthermore, in the opening provided in the fixing member, the exposed area to the outside of the sheet-like packing is concealed to some extent by the perforated packing, so that the closing member having high strength against external force can be obtained.
[0113]
According to the third aspect of the present invention, even when a fragile material such as a thin film is used as the sheet-like packing, it becomes a high-strength closing member that is difficult to bend against pressure from the outside of the container. If the perforated packing is made of a thick elastic body, high sealing performance can be ensured even when a thin film or a material with little elasticity is used for the sheet-like packing. Even when the fixing member is screwed, the perforated packing serves as a cushioning material, and the sheet packing does not wrinkle. Further, a thin and easily stretchable material is used for the sheet-like packing, and the sheet-like packing is prevented from being stretched when it is attempted to pierce the sheet-like packing by pressing a projection as an opening member. .
[0114]
According to the fourth aspect of the present invention, the function of the perforated packing in the first to third aspects of the present invention can be further separated into two perforated packings arranged on both sides of the sheet-like packing, which is high. While achieving the piercing property, it is not easily broken by a change in the internal pressure, can secure a sufficient sealing property, and can be a closing member that does not cause packing wrinkles when the cap is attached.
[0115]
According to the fifth aspect of the present invention, a foamable resin having appropriate properties and thickness can be used for the sheet-like packing, and high sealing performance can be ensured while ensuring high piercing performance.
[0116]
According to the sixth aspect of the present invention, it is possible to ensure high sealing performance by using a foamable resin having appropriate properties and thickness for the hole packing.
[0117]
According to the seventh aspect of the present invention, the sealing member that does not easily break due to a change in internal pressure and can secure a sufficient sealing property and does not cause wrinkles of the packing even when the cap is mounted, while achieving high piercing performance. The outlet is closed, no liquid leakage occurs, the container is safe against changes in internal pressure, and the outlet can be easily opened.
[0118]
According to the eighth aspect of the present invention, it is possible to obtain a high piercing property, but it is not easily broken by a change in internal pressure, can secure a sufficient sealing property, and does not generate a wrinkle of packing even when a cap is attached. The outlet is closed, no liquid leakage occurs, it is safe against changes in internal pressure, the outlet can be easily opened, and the container for photographic processing agents is easy to handle and safe.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view of a closing member according to a first embodiment of the present invention and a container to which the closing member is attached.
FIG. 2 is an enlarged cross-sectional view showing a state where the closing member according to the first embodiment of the present invention is attached to the container.
FIG. 3 is a plan view showing a preferable example of a hole packing in the closing member according to the first embodiment of the present invention.
FIG. 4 is a plan view showing a preferred example of a sheet packing in the closing member according to the first embodiment of the present invention.
FIG. 5 is a perspective view showing a state in which the closing member according to the first embodiment of the present invention is attached to the container.
FIG. 6 is an exploded perspective view of a closing member according to a second embodiment of the present invention and a container to which the closing member is attached.
FIG. 7 is an exploded perspective view of a closing member according to a third embodiment of the present invention and a container to which the closing member is attached.
FIG. 8 is an exploded perspective view of a conventional closing member and a container to which the closing member is attached.
FIG. 9 is an enlarged cross-sectional view showing a state where a conventional closing member is attached to a container.
[Explanation of symbols]
100, 600, 700: Occlusion member
102, 602, 702: Cap (fixing member)
104, 604, 704a, 704b: perforated packing
106, 606, 706: Sheet packing
108,608,708: Female thread
110, 610, 710: pressing pieces
112, 612, 712: Opening
120, 620, 720: container
122, 622, 722: outlet end
302, 304, 308, 310: Hole
306: Projection

Claims (8)

A closing member that closes an outlet for taking out the contents contained in the container,
A packing capable of closing the outlet, and a fixing member that sandwiches and holds the packing at the end of the outlet;
In the state where the packing is not present, the fixing member is provided with an opening through which the contents can be taken out from the outlet,
Said packing, said intake closable sheet packing exit state, and are not superposed two packing the perforated gasket having an opening, the opening diameter of the perforated gasket is open the fixing member smaller than the diameter, closure member outlet of the container and said opening to Rukoto by drilling or fall off by pressing the sheet-like gasket.   The closing member according to claim 1, wherein a sheet-like packing of the two packings is disposed on a side in contact with the outlet end portion of the container.   2. The closing member according to claim 1, wherein, of the two packings, the perforated packing is disposed on the side in contact with the outlet end of the container. A closing member that closes an outlet for taking out the contents contained in the container,
A packing capable of closing the outlet, and a fixing member that sandwiches and holds the packing at the end of the outlet;
In the state where the packing is not present, the fixing member is provided with an opening through which the contents can be taken out from the outlet,
The packing is, on both sides of the closable sheet packing the outlet state, and are not superposed perforated packing having an opening, the opening diameter of the perforated gasket is smaller than the opening diameter of the fixing member , closure member outlet of the container and said opening to Rukoto by drilling or fall off by pressing the sheet-like gasket.   2. The sheet-like packing contains 50% or more of LDPE or HDPE, is made of a foamable resin having an expansion ratio of 2 to 100 times, and has a thickness of 0.5 to 3 mm. 5. The closing member according to any one of 4 to 4.   2. The perforated packing is made of a foamable resin containing 50% or more of LDPE or HDPE, a foaming ratio of 2 to 100 times, and a thickness of 0.5 to 3 mm. The occluding member according to any one of 5 to 5.   A container characterized in that an outlet is formed for taking out the contents contained therein, and the outlet is closed by the closing member according to any one of claims 1 to 6.   The container for a photographic processing agent according to claim 7, which is used for the purpose of containing a photographic processing agent.

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