WO2011099309A1 - 流動性物質保存容器及びその蓋 - Google Patents
流動性物質保存容器及びその蓋 Download PDFInfo
- Publication number
- WO2011099309A1 WO2011099309A1 PCT/JP2011/000827 JP2011000827W WO2011099309A1 WO 2011099309 A1 WO2011099309 A1 WO 2011099309A1 JP 2011000827 W JP2011000827 W JP 2011000827W WO 2011099309 A1 WO2011099309 A1 WO 2011099309A1
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- WIPO (PCT)
- Prior art keywords
- discharge port
- container
- lid
- fluid substance
- storage container
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D39/00—Closures arranged within necks or pouring openings or in discharge apertures, e.g. stoppers
- B65D39/04—Cup-shaped plugs or like hollow flanged members
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D47/00—Closures with filling and discharging, or with discharging, devices
- B65D47/04—Closures with discharging devices other than pumps
- B65D47/20—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D35/00—Pliable tubular containers adapted to be permanently or temporarily deformed to expel contents, e.g. collapsible tubes for toothpaste or other plastic or semi-liquid material; Holders therefor
- B65D35/14—Pliable tubular containers adapted to be permanently or temporarily deformed to expel contents, e.g. collapsible tubes for toothpaste or other plastic or semi-liquid material; Holders therefor with linings or inserts
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D35/00—Pliable tubular containers adapted to be permanently or temporarily deformed to expel contents, e.g. collapsible tubes for toothpaste or other plastic or semi-liquid material; Holders therefor
- B65D35/44—Closures
- B65D35/46—Closures with valves
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D47/00—Closures with filling and discharging, or with discharging, devices
- B65D47/04—Closures with discharging devices other than pumps
- B65D47/20—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge
- B65D47/2018—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge comprising a valve or like element which is opened or closed by deformation of the container or closure
- B65D47/2056—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge comprising a valve or like element which is opened or closed by deformation of the container or closure lift valve type
- B65D47/2062—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge comprising a valve or like element which is opened or closed by deformation of the container or closure lift valve type in which the deformation raises or lowers the valve stem
- B65D47/2068—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge comprising a valve or like element which is opened or closed by deformation of the container or closure lift valve type in which the deformation raises or lowers the valve stem in which the stem is lowered by the pressure of the contents and thereby opening the valve
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D83/00—Containers or packages with special means for dispensing contents
- B65D83/0055—Containers or packages provided with a flexible bag or a deformable membrane or diaphragm for expelling the contents
Definitions
- the present invention relates to a flowable substance storage container for storing a flowable substance such as a liquid or a jelly-like substance therein, and in particular, a lid having an outlet for guiding the flowable substance from the inside to the outside, and a flow including the lid
- the present invention relates to the structure of a storage container for chemical substances.
- the valve part In either case, holding the container made of the flexible material of the container and applying pressure to the container, the valve part is deformed or moved by that pressure to open the discharge port, and when the pressure is removed, the discharge port Inflow of outside air is prevented by the action of the check valve structure.
- the container described in Patent Document 1 is a tube-shaped container body having elasticity formed by resin or the like and having an extrusion port formed at one end thereof, an inner stopper provided by closing the extrusion port, An inner plug projection provided at the center of the inner plug and projecting to the outside of the extrusion port, a through hole provided in the inner plug and communicating between the inner side and the outer side of the container body, and formed of soft resin or rubber, has elasticity. And a nozzle member closely contacting the peripheral edge of the extrusion port and the side surface of the inner plug protrusion.
- the opening and closing of the spout is made possible by deformation in which the thin portion of the nozzle member extends, but the property of the material that the nozzle member can be expanded and contracted. Therefore, it is difficult to create a sufficient gap between the inner plug projection and the nozzle member to discharge the contents, and the nozzle member needs to be made of a soft rubber-like material. It was not possible to produce a nozzle member having the appropriate hardness and strength necessary for the above. Therefore, when a hand touches the nozzle member carelessly, there is a problem that the nozzle member is easily deformed or dropped and the airtightness is impaired.
- the nozzle member is provided with a bent portion that is recessed in a V shape, but this shape automatically changes from an open state to a closed state. There was a very difficult problem to recover.
- the opening of the container body includes a cylinder that closes the opening and has a discharge port at the center and a plug that closes the discharge port from the inside of the cylinder.
- a lid having a provided piston is provided.
- the plug and the piston are biased by a spring toward the discharge port.
- both containers of Patent Document 1 and Patent Document 2 have a structure in which the container is taken out by pressing the side surface of the container body, the container body (accommodating portion) is a hard glass bottle, plastic bottle, metal can When containers are taken out from the container, most of them are “pour” and are not easy to use as containers for alcohol, wine, soy sauce, cooking oil, etc.
- a fluid material containing a granular solid material found in the part there is a problem that the adhesion between the side surface of the inner plug protrusion and the nozzle member is hindered by the solid material and cannot be used.
- a liquid pouring nozzle having a non-return function is fusion-bonded to a side portion or a top portion of a soft and flexible packaging bag body made of a laminated film. . If the container body is strongly squeezed after opening the container, the contents will jump out like a water gun, causing the clothes and surroundings to become dirty. Also, because there is dripping, the area around the spout, the exterior of the container, the table, etc. will be soiled, and if it is laid down, the contents will flow out. There was a problem that washed away and soiled the surroundings. The present invention has been made for the purpose of solving such problems of conventional containers.
- an embodiment of the present invention includes a container body that includes an accommodating portion that forms an internal space for accommodating a fluid substance, and an opening that communicates with the internal space of the accommodating portion; A lid portion that is integrally or detachably provided in the opening portion of the container body and closes the opening portion, and is formed with a discharge port for the fluid substance, and the lid portion is moved from the container body.
- a storage chamber that can store the fluid substance that flows and communicates with the discharge port; a plug that closes the discharge port and closes the discharge port; and an elastic body that supports the plug The elastic body moves in a direction in which the plug body moves away from the discharge port when the pressure in the storage chamber increases, and the plug body closes the discharge port when the pressure in the chamber decreases. Support the plug so that it moves to And said that you are.
- the discharge port in the normal state, is in a closed state with the stopper closely contacting, and when pressure is applied to the container main body in order to take out the fluid material of the contents, At least a portion of the plug that is in contact with the discharge port moves away from the discharge port, and the discharge port opens.
- the plug body returns to its original shape and comes into close contact with the discharge port, and becomes a closed state. Therefore, by preventing the intrusion of outside air and the backflow of the fluid substance that has once gone out, It is possible to suppress the alteration of internal substances. Further, when the area around the outlet is cleaned after removing the contents, the outlet is in a sealed state so that the work can be easily performed with peace of mind, and it is possible to always keep it clean.
- the plug body moves in a direction away from the discharge port, and the plug body moves in a direction to close the discharge port when the pressure in the chamber decreases.
- a lever that can be manually operated may be provided on the lid.
- the discharge port portion may protrude in the direction of taking out the fluid substance so that the outer shape of the discharge port is tubular or conical.
- another embodiment of the present invention provides a container including an accommodating portion that forms an internal space for accommodating a flowable substance and an opening communicating with the internal space of the accommodating portion.
- a main body and a lid that is provided integrally or detachably in the opening of the container main body to close the opening and has a discharge port for the fluid substance formed therein.
- An extraction lid having an inner lid having an outlet and a flexible thin sheet formed in a cylindrical shape, one end of which is connected to the discharge port, and the other end having a spout.
- the portion is configured to guide the fluid substance from the discharge port to the outside.
- the spout when the container main body stands up, the spout is in a closed state in which the cylindrical inner surfaces forming the pouring part are in close contact with each other, and in order to take out the fluid substance of the contents,
- the pouring part spreads radially from the center by the pressure of the moving contents, and the pouring opening opens, and the contents are poured out.
- the pouring part 4 is composed of a flexible thin sheet that can be flexibly deformed, so that the granular solids remain sandwiched between them. It is possible to close and close.
- an inner bag having an internal space for storing a fluid substance is disposed inside the storage portion, and a space portion is formed between the inner bag and the outer wall of the container body storage portion.
- the space may be communicated with the outside air.
- an inner bag having an internal space for storing air may be disposed inside the storage portion, and the space portion may be communicated with the outside air.
- an absorbent material may be provided to remove the flowable substance that remains on the edge of the spout after the spout is closed.
- a pump mechanism that can increase the pressure in the container may be provided for the lid or the container body.
- a plastic or metal thin film having a high oxygen barrier property may be attached to the surface of the lid portion to prevent oxygen permeation and enhance the antioxidant effect.
- another embodiment of the present invention is detachably provided in an opening of a fluid substance storage container, and the opening of the fluid substance is formed while closing the opening.
- a storage chamber that is capable of storing the fluid substance moving from the container body and communicates with the discharge port; and a plug body that is in close contact with the discharge port from the inside to close the discharge port.
- An elastic body that supports the plug body, and the elastic body moves in a direction away from the discharge port when the pressure in the storage chamber increases, and when the pressure in the chamber decreases, The stopper is supported so that the stopper moves in a direction to close the discharge port.
- another embodiment of the present invention is provided integrally or detachably in an opening of a fluid substance storage container to close the opening and discharge the fluid substance.
- the lid is formed into a cylindrical shape with an inner lid having the discharge port and a flexible thin sheet, one end of which is connected to the discharge port, and the other end. And a pour-out portion having a pour-out port, wherein the pour-out portion guides the flowable substance from the discharge port to the outside.
- an inner bag for accommodating air may be further incorporated.
- the plug body when the pressure of the container main body is removed, the plug body returns to its original shape and comes into close contact with the discharge port, and becomes a closed state.
- the alteration of the substance inside the container can be suppressed.
- the outlet when the area around the outlet is cleaned after the contents are taken out, the outlet is hermetically sealed so that the work can be easily performed with peace of mind, and it is possible to always keep it clean.
- the container main body when the container main body is returned to the standing state, the pressure of the contents is lost, the pouring portion returns to its original shape, the opposing inner surfaces are brought into close contact, and the pouring port is closed. Therefore, the deterioration of the substance inside the container can be suppressed by preventing the intrusion of the outside air and the backflow of the fluid substance once outside.
- the outlet when the area around the outlet is cleaned after the contents are taken out, the outlet is hermetically sealed so that the work can be easily performed with peace of mind, and can always be kept clean.
- FIG. It is sectional drawing of the fluid substance storage container which concerns on Embodiment 5 based on this invention. It is sectional drawing of the fluid substance storage container which concerns on Embodiment 6 based on this invention. It is sectional drawing of the fluid substance storage container which concerns on Embodiment 6 based on this invention. It is sectional drawing of the fluid substance storage container which concerns on Embodiment 6 based on this invention. It is sectional drawing of the fluid substance storage container which concerns on Embodiment 9 based on this invention.
- (1) is a diagram according to the tenth embodiment of the present invention
- (2) is a diagram according to the eleventh embodiment. It is a figure explaining Embodiment 15 based on this invention. It is sectional drawing of the fluid substance storage container which concerns on Embodiment 13 based on this invention. It is sectional drawing of the fluid substance storage container which concerns on Embodiment 14 based on this invention. It is sectional drawing of the fluid substance storage container which concerns on Embodiment 15 based on this invention.
- FIG. 1 is a cross-sectional view of a fluid substance storage container according to the present embodiment.
- (1) of FIG. 2 is a state where the circular dotted line part of FIG. 1 is drawn out, and the outer lid 1 is removed. It is a figure which shows the state which the plug body 3 closely_contact
- (2) is a plan view of the inner lid 2.
- (3) is a plan view of the plug 3.
- FIG. 3 is a view showing a state in which the discharge port 7 of the fluid substance storage container is open.
- the fluid storage container shown in FIG. 1 is a tubular container, and includes a tubular container body 6 and a lid.
- the container body 6 includes an accommodating portion 6b having flexibility and an opening 6a.
- the accommodating portion 6b is formed in a bag shape having an internal space sealed inside.
- a fluid substance such as a liquid or a jelly-like substance is contained in the inner space in a filled state.
- the opening 6a is provided at one end of the housing 6b and communicates with the internal space formed by the housing 6b.
- the lid body 5 is attached to the opening 6a of the container body 6 so as to close the opening 6a.
- the joint 10 between the container main body 6 and the lid main body 5 is formed with screws having shapes opposite to each other and screwed together.
- the lid portion has a lid body 5 formed in a cylindrical shape, and an inner lid 2 is attached to one end portion in the direction of taking out the contents, and a bottom plate 20 is provided at the other end portion (opening portion 6a side). A space is formed inside the lid body 5.
- a cylindrical or polygonal plug body 3 is disposed near the center of the inside of the lid body 5, and the plug body 3 is configured such that the outside of the corrugated spring-shaped portion 8 that radially spreads from a predetermined portion on the outer periphery of the lid body 5 It is fixed to the inner wall.
- the inner lid 2 is provided with a discharge port 7, and in a normal state, the protruding portion of the plug body 3 is in close contact with the discharge port 7 from the inside.
- the protrusion of the plug 3 can move in a direction away from the discharge port 7 by the expansion and contraction of the wave spring-shaped portion 8, thereby opening and closing the discharge port 7.
- the internal space of the lid body 5 is partitioned into a chamber A 17 and a chamber B 18 by the wave spring-shaped portion 8 of the plug body 3, and the chamber A 17 communicates with the accommodating portion 6 b through the outflow hole 19. Is communicated with the outside air through the lid main body air port 4.
- the plug body 3 returns to its original shape by the elastic restoring force of the wave spring-like portion 8 and closes the discharge port 7 again. Since the B chamber 18 communicates with the outside air through the lid body air hole 4, the air pressure in the B chamber is always the same as the outside air, and does not hinder the deformation and movement of the plug 3. As shown in these figures, the backflow of the contents that have once come out of the discharge port 7 and the outside air do not flow into the discharge port 7. When the periphery of the discharge port is cleaned after the stored item is taken out, the discharge port 7 is hermetically sealed, so there is no fear that the remaining stored item or dirt enters from the discharge port 7.
- the surface around the discharge port of the inner lid 2 and the surface of the end of the plug 3 form a single surface, and there is no unevenness or gap between them, making it difficult to get dirty and easy cleaning. You can always keep it clean.
- the contents are water-soluble substances such as toothpaste, it is possible to immerse the container in water and wash it with water. If the contents are oily substances, they can be washed with a cleaning solution suitable for the contents. No cleaning liquid or dirt enters from the discharge port 7.
- Forming the surface of the inner lid 2 and the tip of the plug 3 so that they are in one plane when the mouth is closed is ideal for use when transferring the contents to fingertips, glass bars, spoons, chopsticks, brushes, etc. is there.
- the surface of the inner lid 2 and the front end surface of the plug 3 may be formed as one concave surface, and the contents are temporarily stored there, and the color, fragrance, capacity, etc. may be confirmed.
- a scale may be written on the surface of the inner lid 2 so that the capacity can be easily measured when the contents are taken out.
- the surface of the inner lid 2 and the tip surface of the plug body 3 are formed into one spherical convex shape so that it can be easily applied directly to the skin.
- Various shapes may be used accordingly.
- the corrugated spring-like portion 8 in the first embodiment is formed not only in the corrugated shape but also in a predetermined optimum shape by forming it with a material having flexibility and elasticity.
- a spring having a predetermined shape such as a spiral shape or a plate shape may be provided at a predetermined location to supplement the force for urging the plug body 3 toward the discharge port 7.
- FIG. 4 is a diagram for explaining the third embodiment.
- an inner bag 14 is provided, a space 14b is provided between the container body 6 and the inner bag 14, and a container body air hole 12 is provided.
- the inner bag 14 remains deformed by the same volume as the volume of the container contained, but the outer shape of the container body 6 is its own restoring force, Outside air is taken into the space 14b through the air holes 12 and returns to the original shape. Since the outside air does not enter the inner bag 14, the contact between the contents and the outside air is prevented, and the outer shape of the main body 6 of the container is maintained at the initial shape.
- the air hole 12 may have a check valve structure in advance. Even after the container is taken out, the container 6b is restored to its original shape in the container according to this embodiment, so that the appearance of the container body 6 does not change, and the aesthetic appearance of the container is not lost until the container is used up. Moreover, since the accommodating part 6b is always the same shape, it is easy to operate when taking out the contents by grasping it with the hand.
- FIG. 5 shows a state in which the plug 3 in a normal state (when closed) is fixed in close contact with the discharge port 7.
- FIG. 6 shows a state in which the stopper 11 is moved to release the stopper 3 from being fixed.
- FIG. 7 shows a direction in which a pressure is applied to the accommodating portion 6b when the stopper 3 is released, and the central portion of the stopper 3 that contacts the discharge port 7 is separated from the discharge port 7 by the pressure of the stored item. And the discharge port 7 is opened.
- the discharge port 7 is normally closed by the elastic restoring force acting on the discharge port 7 side of the plug body 3 in the state of FIG. 6, but in the state of FIG.
- the stopper 3 is fixed to further ensure the closed state. This is effective when it is desired to keep the container completely sealed, such as when carrying the container when going out or when the contents are not used for a long period of time.
- the stopper 11 is moved to the original position when it is difficult to move and restore the plug body 3 to the position where the plug body 3 comes into close contact with the discharge port 7 only with the elastic restoring force of the plug body 3 itself, because the container is highly viscous.
- the movement can be assisted.
- This makes it possible to store a fluid substance having a considerably high viscosity.
- a slide-type stopper is shown, but the shape and mechanism of the stopper may be any shape that assists and controls the operation of the plug 3 with fingers.
- the stoppers in FIGS. 5 to 6 are configured to assist the movement only in the direction in which the stopper 3 is in close contact with the discharge port 7, but may be configured to assist the reciprocating motion. However, in this case, care must be taken because the contents flow backward when the discharge port 7 is opened while the pressure inside the container is lower than the pressure outside the container.
- FIG. 8 is a diagram for explaining the fifth embodiment.
- the outer shape of the discharge port of the inner lid 2 that was flat in the above-described embodiments (FIGS. 1 to 7) is tubular or conical from the lid body 5 side in the direction of taking out the contents. It is formed in a protruding shape. This is a convenient shape when the contents are moved directly from the discharge port 7 to a target place.
- a decorative shape such as a corrugation may be attached to the surface of the container when taking out the container, or an auxiliary tool for performing delicate work may be separately attached.
- the basic configuration is the same as that of each of the embodiments described above, except that a lid mechanism 5 is provided with a pump mechanism.
- 9, 10, and 11 are diagrams showing the configuration of the sixth embodiment.
- a pump mechanism is interposed between the inner lid 2 and the bottom plate 20.
- the pump mechanism includes an A chamber 17, a B chamber 18, a pressurizing unit (pump elastic unit 21, push button 22), and a check valve 16.
- the check valve 16 is disposed in the outflow hole 19, and a pressurizing portion is provided on a side surface of the lid body 5.
- the pressurizing unit is provided with a wave spring-like pump elastic portion 21 that protrudes from the side surface of the lid body 5 and can be repeatedly bent and deformed, and at the tip of the pump elastic portion 21. It consists of a thick push button 22.
- the check valve 16 is normally closed, and when the push button 22 is pressed with a finger or the like, the internal pressure of the lid main body A chamber 17 is increased, and the portion that contacts the discharge port 7 of the plug body 3 by the pressure is released from the discharge port 7. It moves to the direction of leaving
- the push button 22 is released, the push button 22 returns to its original position by the elastic restoring force of the pump elastic part, the A chamber 17 becomes negative pressure, the plug body 3 returns to its original shape, and the discharge port 7 is closed.
- the check valve 16 is opened and the contents in the container body 6 move to the A chamber 17.
- the pressurizing unit is provided on the side surface of the lid main body 5
- the entire side wall of the lid main body 5 may be formed of an elastic body.
- the above-mentioned pump action is exhibited by pushing and releasing the lid body itself.
- the container body 6 may not be flexible.
- the container body 6 can be made of hard glass or metal.
- a discharge amount may be set every time the balloon portion 15 is crushed, and the amount taken out may be taken out while being simply measured according to the number of times the balloon portion is crushed. It is convenient for seasonings and medicines that you want to measure by measuring the amount to be taken out during use.
- a balloon portion 15 provided with an air check valve 23 may be attached to the container main body air port 12.
- FIG. 12 is a diagram illustrating the configuration of the seventh embodiment.
- a plastic or metal thin film having a high oxygen barrier property is pasted.
- a thin film is formed by plating, vapor deposition, coating, or the like.
- the material of the container body 6 uses a multilayer structure material sandwiching a material having a high oxygen barrier property to prevent oxygen permeation.
- an aluminum seal is pasted on the opening of the container body. To prevent oxygen permeation before opening. Therefore, when the material of the lid part is polyethylene or the like having a low oxygen barrier property, after the opening and removing the aluminum seal, the antioxidant function was low even when the lid was closed.
- the thin film having a high oxygen barrier property of the inner lid 2 and the lid body 5 can prevent oxygen permeation, and conventionally used polyethylene and polypropylene that are generally used in many cases. Even if the lid portion is formed of a material that is relatively easy to allow oxygen to pass through, the antioxidant function can be enhanced.
- FIG. 13 is a cross-sectional view of the vicinity of the lid 6 of the fluid substance storage container and the opening 6 a of the container body 6 according to the first embodiment.
- FIG. 14 is a view showing a state where the outer lid 1 shown in FIG. 13 is removed and the spout 26 is open.
- FIG. 15 is a plan view of the inner lid 2 in FIG. FIGS.
- 16A and 16B are views of the pouring part 25, where (1) is a plan view, (2) is a cross-sectional view seen from the side of the pouring part 25, and (3) is when the spout 26 is in an open state. Sectional view seen from the side, (4) is an XX arrow view of (3).
- the fluid substance storage container according to the eighth embodiment is a bottle-shaped container, and includes a lid (outer lid 1, inner lid 2, lid main body 5), a container main body 6 (opening 6a, accommodating part 6b), and pouring. Part 25 and inner bag 14.
- a sealed inner bag inner space 14a is formed inside the inner bag 14, and a fluid substance such as a liquid or a jelly-like substance is accommodated in the inner bag inner space 14a in a filled state.
- the opening 6a is provided at one end of the accommodating portion 6b in the content take-out direction, and the other end communicates with the A space 14a in the inner bag formed by the inner bag 14.
- the opening 6a of the eighth embodiment has a cylindrical shape, and a male screw is formed on the outer diameter surface.
- the lid is attached to the container body 6 so as to close the opening 6a, and has an inner lid 2 that is partitioned from the outside in a direction opposite to the opening 6a.
- An outlet 7 and an air inlet 13 are provided.
- the discharge port 7 communicates with the inner bag inner space 14a of the inner bag 14 through the opening 6a, and is between the inner bag and the container main body outer wall, which is a gap between the inner bag 6 and the outer wall of the main body housing portion 2b.
- the space 14 a communicates with the outside air through the air inlet 13.
- the joint 10 of the lid body 5 has a female screw formed on the inner diameter surface and is screwed into the opening 6a.
- the pouring part 25 is formed in a cylindrical shape with a flexible thin sheet, one end of which is connected to the discharge port 7 and the other end has a spout 26.
- the inside of the dispensing portion 25 communicates with the A space 14a in the inner bag through the discharge port 7 and the opening 6a.
- the pouring portion 25 expands radially from the center depending on the pressure of the moving contained material. Then, the spout 26 is opened and the contents are poured out. Outside air having the same volume as the taken-out contents flows into the A space 14a from the air inlet 13 and is accommodated.
- the pressure in the pouring part 25 is lost, the pouring part 25 returns to its original shape, the opposing inner surfaces of the pouring part 25 are brought into close contact, and the pouring port 26 is closed.
- the spout 26 opens or closes in conjunction with the movement of the contents accompanying the inclination of the container body 6, so that only the contents can be poured out, and the outside air, filth, and the like can be poured. A non-return function that does not flow in from the outlet 26 is exhibited. Furthermore, even when the content is a fluid substance in which granular solids are mixed, the pouring part 4 is composed of a flexible thin sheet that can be flexibly deformed. It is possible to close and close. In this case, in order to reinforce the sealing performance, the length of the pouring part 25 from the discharge port 7 to the spout 26 may be increased. In addition, the fluid substance accommodated in the A space 14a in the inner bag 14 is isolated by the inner bag 14 from the air accommodated in the B space 14b.
- FIG. 17A is a diagram for explaining the tenth embodiment.
- (1) of FIG. 17 shows a state in which the shape viewed from above the spout 26 is a hook shape (pen nib shape).
- the spout 26 opens slightly in the form of a gap, and the content follows the bowl-shaped edge of the spout 26 and is contained from the tip of the bowl. Is poured out in small quantities.
- the spout 26 opens into an O shape (auger) to pour out the maximum amount.
- the content is a highly viscous fluid material having low fluidity, it may be difficult to obtain a fine control of the amount dispensed and the effect of the bowl shape.
- FIG. 17B is a diagram for explaining the eleventh embodiment.
- (2) of FIG. 17 shows a method in which the spout 26 is sealed by fusion or the like before opening, and the tip is opened by tearing with fingers from the broken line portion Y at the time of opening.
- the airtight state before opening can be ensured, and opening and unopening can be shown.
- a trough or a thin wall portion that induces tearing may be provided at a tearing portion.
- Embodiment 12 In the standing state of the container body 6, the surface of the portion that supports the pouring part 25 of the lid body 5 is formed so that the height position gradually increases in the direction from the discharge port 7 toward the spout 26.
- the contents in the extraction unit 25 may induce liquid drawing by its own weight.
- FIG. 19 is a diagram for explaining the thirteenth embodiment.
- the basic configuration is the same as that of each of the embodiments described above, except that an air inlet lid 29 that is opened and closed with fingers is provided at the air inlet 13.
- the air inlet 13 opens only when the air inlet lid 29 is pushed open with a finger, and closes when the finger is released.
- the content can be poured out only when the air inlet lid 29 is pushed open with a finger, and when the finger is separated, the content is prevented from flowing out even if the container is accidentally overturned.
- the basic configuration is the same as that of each of the embodiments described above, except that the lid body 1 is provided with a mechanism for controlling the amount of contents to be dispensed by adjusting the inflow amount of outside air.
- the balloon portion 15 is connected to the air inlet 13 of the lid body 5 as a simple pump mechanism that allows a constant amount of air to flow in each operation.
- the pump mechanism forces the movement of the outside air, the pump mechanism can be used as a container for a substance having a high content viscosity and low fluidity.
- FIG. 18 is a cross-sectional view of a fluid substance storage container according to a seventh aspect of the present invention, illustrating the fifteenth embodiment.
- the role of the space that accommodates the fluid substance of the contents and the inflowing outside air is reversed from that in the eighth embodiment.
- the fluid substance is accommodated in the B space 14b between the inner bag 14 and the outer wall of the accommodating portion 6b, and the inflowing outside air is accommodated in the A space 14a in the inner bag.
- the lid is attached to the container body 6 so as to close the opening 6a, and has an inner lid 2 that is partitioned from the outside in a direction opposite to the opening 6a.
- An outlet 7 and an air inlet 13 are provided.
- the discharge port 7 communicates with the B space 14b through the opening 6a, and the A space 14a communicates with the outside air through the air inlet 13.
- the joint 10 of the lid body 5 has a female screw formed on the inner diameter surface and is screwed into the opening 6a.
- the dispensing part 25 radiates from the center by the pressure of the moving weight of the contained material. It is pushed out and the contents are poured out. Outside air having the same volume as the taken-out contents flows from the air inlet 13 into the A space 14a in the inner bag 14 and is stored therein.
- the pressure in the pouring part 25 is lost, the pouring part 25 returns to its original shape, the opposing inner surfaces of the pouring part 25 are brought into close contact, and the pouring port 26 is closed.
- the spout 26 opens or closes in conjunction with the movement of the contents accompanying the inclination of the container body 6, so that only the contents can be poured out, and the outside air, filth, and the like can be poured. A non-return function that does not flow in from the outlet 26 is exhibited. Furthermore, even when the content is a fluid substance in which granular solids are mixed, the pouring part 4 is composed of a flexible thin sheet that can be flexibly deformed. It is possible to close and close. In this case, in order to reinforce the sealing performance, the length of the pouring part 25 from the discharge port 7 to the spout 26 may be increased.
- the fluid substance contained in the B space 14b is isolated from the air contained in the A space 14a by the inner bag 14.
- the advantage of the fifteenth embodiment is that, even if the container 10b has a slightly different shape by forming the inner bag 14 with a volume larger than the capacity of the container, the shape of the joint 10 is common.
- the lid and inner bag 14 can be shared. Therefore, it is also possible for the consumer to attach and use the lid portion and the inner bag 14 having the joint portion 11 that adapts to the shape of the opening portion of the container after opening the container.
- a wine distributor can provide a combination of the lid and the inner bag 14 for existing wine in a conventional container, and the consumer can use it by attaching it to the container when the container is opened. It is.
- FIG. 21 is an image diagram when the lid and the inner bag 14 are combined. In this case, the inner bag 14 may be folded or rounded.
- the size of the inner bag 14 also increases.
- a thin tube of a predetermined length formed of a flexible porous material is attached as a guide inside the inner bag 14.
- the inner bag 14 may be spread smoothly by the air flowing in.
- the fifteenth embodiment is suitable for the case where it is desired to reduce the initial investment per product when the product of the contents is a multi-product / small-volume production.
- the eighth embodiment is suitable for mass production and is advantageous in terms of container quality control, cost (unit price), and the like. Further, when the container is disposed after the product is used, if the inner bag 14 is removed, the inside of the container body 6 does not need to be cleaned at all, which is advantageous in terms of recycling.
- the shape of the container body 6 is described by taking a tube and a bottle as an example, but this is an example, and it may be a box type or a bag-like container.
- the case where the outer lid 1 is attached to the lid main body 5 by way of fitting is illustrated, but this is an example, and a hinge type, a screw-in type, or the like may be used.
- the joint portion 10 between the lid main body 5 and the container main body 6 is a screw-in type, but may be attached by fitting, or may be fixedly coupled by thermal fusion or the like.
- various materials such as synthetic resin, metal, and carbon fiber are selected and used in consideration of the nature of the fluid substance to be stored and the usage form. Further, it is also possible to make it difficult for the stored matter to remain attached by applying, for example, a material having a property of repelling the stored content to the outside of the discharge port 7 or the spout 26.
- the present invention can be suitably used as a fluid substance storage container for storing fluid substances such as liquids and jelly-like substances inside.
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Abstract
Description
外気の流入を防ぐ容器として、例えば特許文献1や特許文献2に記載された容器がある。いずれの場合も、容器の可撓性材料でつくられた収容部を握り、収容物に圧力を加えると、その圧力で弁部を変形または移動して吐出口を開き、圧力を取り除くと吐出口を閉じる、逆止弁構造の作用により外気の流入を防止している。
容器側面の押圧をやめると、容器本体に押されて生じた変形を元に戻す力が働き、容器内部が負圧となって、ノズル部材の変形が復元して中栓突起に密着して空気の流入を防ぐ逆流防止容器である。
また、特許文献1に記載された発明の第二実施形態によれば、ノズル部材の形状に、V字型にくぼむ屈曲部を設けているが、この形状では開口状態から閉口状態に自動的に復帰することは極めて難しい問題があった。
本発明は、このような従来容器の課題を解決することを目的としてなされたものである。
また、本発明の一実施形態では、前記栓体が前記吐出口から離れる方向に移動し、前記室内の圧力が低くなると前記栓体が前記吐出口を閉塞する方向に移動する栓体の動作を、手動によって操作可能なレバーを蓋部に設けてもよい。
また、本発明の一実施形態では、前記吐出口の外形が管状若しくは錐状となるように、前記吐出口部分が流動性物質の取出方向に向けて突出するようにしてもよい。
さらに、本発明の実施形態では、前記収容部の内側に流動性物質を収容する内部空間を有する内袋を配置し、前記内袋と前記容器本体収容部外壁との間に空間部を形成し、この空間部を外気と連通させてもよい。
さらに、本発明の実施形態では、前記収容部の内側に、空気を収容する内部空間を有する内袋を配置し、この空間部を外気と連通させてもよい。
さらに、本発明の実施形態では、前記蓋部または容器本体に対し、容器内の圧力を高くすることが出来るポンプ機構を備えてもよい。
さらに、本発明の実施形態では、前記蓋部の表面に酸素バリア性の高いプラスチック製または金属製の薄膜を付着し、酸素透過を防止して酸化防止効果を高めてもよい。
本発明の蓋に係る実施形態では、さらに、空気を収容するための内袋を組み込んでもよい。
(実施形態1)
図1は、本実施形態に係る流動性物質保存容器の断面図である。図2の(1)は、図1の円形点線部を抜き書きしたものであり、外蓋1を取り外した状態である。吐出口7に栓体3が密着し、吐出口7が閉じている状態を示す図である。(2)は、中蓋2の平面図である。(3)は、栓体3の平面図である。(4)は、蓋本体5の平面図である。図3は、流動性物質保存容器の吐出口7が開いている状態を示す図である。
また、開口部6aは収容部6bの一端部に設けられ、収容部6bが形成する内部空間に連通する。
前記蓋部は、蓋本体5が筒状に形成され、収容物を取り出す方向の一端部に中蓋2が取り付けられており、他端部(開口部6aの側)には、底板20が備えられており、蓋本体5の内部に空間を形成している。
中蓋2には、吐出口7が備えられており、常態時においては、吐出口7を内側から塞ぐ形で栓体3の突起部が密着している。
蓋本体5の内部空間は、栓体3の波形バネ状部8によって、A室17とB室18に仕切られて、A室17は、流出孔19を通じて収容部6bに連通し、B室18は蓋本体空気口4を通じて外気に連通している。
収容部6bから圧力を取り除くと、収容部6bが元の形に戻ろうとする力によって、収容部6b内部及びA室17が負圧となる。
これらの図が示す通り、吐出口7から一旦外部に出た収容物の逆流や、外気が吐出口7内に流入することがない。
収容物を取り出した後に吐出口周辺を清掃する場合、吐出口7が密閉状態なので、残存する収容物や汚れが吐出口7から入る心配が全くない。
更に、収容物が練歯磨など水溶性物質の場合、水に容器を浸して水洗いすることも可能であり、収容物が油性物質の場合は、その収容物に適応する洗浄液等で洗浄しても吐出口7から洗浄液や汚れが入らない。
また、収容物が肌へ直接塗布する薬剤やスキンクリーム等の場合、中蓋2の表面と栓体3の先端表面を一つの球面凸状にして、肌に直接塗布しやすくするなど、目的に応じて様々な形状にしても良い。
本実施形態は、実施形態1における波形バネ状部8を可撓性及び弾性のある材料により形成することによって波形に限らず、所定の最適な形状に形成する。この場合、栓体3を吐出口7に向けて付勢する力を補う、螺旋状・板状など所定の形状のバネを所定の場所に設けても良い。
図4は、本実施形態3を説明するための図である。本実施形態3は、実施形態1の構造に加え、内袋14を設け、容器本体6と内袋14との間に空間14bを備え、容器本体空気孔12を設けている。
収容物を取り出した後に、容器本体6の圧力を取り除くと、内袋14は取り出した収容物の容積と同じ容積分変形したままであるが、容器本体6の外形は、自らの復元力で、空気孔12を通じて空間14bに外気を取り込み、元の形状に戻る。
内袋14の中には外気が入らないので、収容物と外気の接触が防止され、容器の本体6の外形は初期の形状が維持される。
図5、図6、図7は、本実施形態4を説明するための図である。基本構成は、前記各実施形態と同じであるが、前記各実施形態の構造に加え、ストッパー11を設けている。図5は、常態時(閉口時)の栓体3が吐出口7に密着して固定された状態を示す。図6は、ストッパー11を移動して栓体3の固定を解除した状態を示している。図7は、栓体3の固定が解除された状態において、収容部6bに圧力が加えられ、収容物の圧力で前記栓体3の前記吐出口7に接する中央部分が吐出口7から離れる方向に移動して吐出口7が開口した状態を示している。
図8は、本実施形態5を説明するための図である。本実施形態5では、前記各実施形態(図1~図7)の場合に平坦であった中蓋2の吐出口外形が、蓋本体5側から収容物の取出し方向に向けて、管状もしくは錐状に突出した形に形成されている。
収容物を目的とする場所に吐出口7から直接移しかえる場合に便利な形状である。吐出口7の先端部に、収容物を取出す際に収容物表面に波形など飾り形を付けたり、繊細な作業をするための補助具を別途装着しても良い。
基本構成は、前記各実施形態と同様であるが、蓋本体5にポンプ機構を設けた点が異なる。図9と図10及び図11は、本実施形態6の構成を示す図である。
図9に示す例では、中蓋2と底板20の間に、ポンプ機構を介装した。そのポンプ機構には、A室17、B室18、加圧部(ポンプ弾性部21、押しボタン22)、逆止弁16を備える。
前記逆止弁16は、流出孔19に配置され、前記蓋本体5の側面に加圧部が設けられている。加圧部は、前記蓋本体5の側面から張り出した波形バネ状の、反復して撓み変形可能なポンプ弾性部21と、そのポンプ弾性部21の先端に設けられて、ポンプ弾性部21よりも肉厚の押しボタン22とからなる。
押しボタン22を放すと押しボタン22はポンプ弾性部の弾性復元力によって元の位置に戻り、A室17が負圧となって栓体3は元の形に戻って吐出口7が閉口し、逆止弁16が開いて容器本体6の収容物がA室17に移動する。
または、図10に示すように蓋本体5に対してA室17に連通する弾性体からなる風船部15を設けても良い。この場合、風船部15を押しつぶして吐出口7から収容物を取出し、風船部15への押圧を解除することで容器本体6からA室17に収容物を移動させる。
また、図11に示すように、容器本体空気口12に、空気逆止弁23を設けた風船部15を取り付けても良い。容器本体と内袋の間の空間14bに流入する空気の量を風船部15により制御することによって、収容物を取り出す量を制御することが可能となる。
図12は、本実施形態7の構成を示す図である。図12に示すように、酸素バリア性の高いプラスチックや金属の薄膜を貼る。または、メッキ・蒸着・塗布等によって薄膜を形成する。
従来、容器本体6の材料は、酸素バリア性の高い材料を挟んだ多層構造の材料を使用して酸素透過を防止しているが、蓋部については、容器本体の開口部にアルミシールを貼って密閉し、開封前の酸素透過を防止している。そのため、蓋部の素材が、酸素バリア性の低いポリエチレン等であった場合、一旦開封してアルミシールを除去した後は、蓋を閉じた状態においても酸化防止機能は低い状態であった。
次に実施形態8について図面を参照しつつ説明する。なお前記各実施形態と同様な構成については同一の符号を付して説明する。
図13は、本実施形態1に係る流動性物質保存容器の蓋部及び容器本体6の開口部6a付近の断面図である。図14は、図13にて示す外蓋1を取り外し、注出口26が開いている状態を示す図である。図15は、図14における中蓋2の平面図である。図16は、注出部25の図であり、(1)は平面図、(2)は注出部25の側面から見た断面図、(3)は注出口26が開口状態にある時の側面から見た断面図、(4)は(3)のX―X矢視図である。
さらに、内容物が粒状の固形物を混在した流動性物質の場合も、注出部4は柔軟に変形可能な可撓性の薄いシートによって構成されているので、粒状の固形物を挟んだままで密着し閉塞することが可能である。この場合、密閉性能を強化するために、吐出口7から注出口26までの注出部25の長さを長くしても良い。
尚、内袋14内のA空間14aに収容されている流動性物質は、B空間14bに収容される空気とは内袋14によって隔離されている。
外蓋1の内側に、液体吸収性が高く柔軟性のある素材で形成された吸収材(クッション)28を装着し、外蓋1を閉じている時は、吸収材28の押圧により注出口25及び吐出口7の密閉力を補強することと併せて、空気流入口13を閉塞することによって、B空間14b(内袋と容器本体外壁との間の空間)内の空気及びA空間14a(内袋14内の空間)の内容物の移動を抑制することによって注出口26及び吐出口7の密閉力を補うようにしても良い。
吸収材28を簡単に着脱可能な状態で装着しておき、必要に応じて随時取り外し、洗浄後、再び取りつけるようにしてもよい。これにより、注出口26周辺を常に清潔に保つことが容易になる。
図17の(1)は実施形態10を説明する図である。図17の(1)は、注出口26の上から見た形状を∧形(ペン先形)にした状態を示している。内容物を微量注出する場合、容器本体6を僅かに傾けると、注出口26は隙間状に僅かに開き、内容物は注出口26の∧形縁を辿って∧形の先端部分から収容物が少量、細く注出される。多くの量を注出する場合は、容器本体6の傾きを大きくすると、注出口26はO形(オーガタ)に開いて最大量を注出する。但し、内容物が流動性の低い高粘度の流動性物質の場合は、注出量の細かい制御と∧形の効果が得難い場合もある。
図17の(2)は実施形態11を説明する図である。図17の(2)は、注出口26を開封前は融着等により封鎖しておき、開封時に先端を破線部Yより手指によって引裂き開封する方法を示している。これによって、開封前の気密状態を確実にすると共に、開封、未開封を示すことが出来る。尚、正確な注出口の形状を得るために、引裂く箇所に引裂きを誘導する疵や薄肉部を設けても良い。
容器本体6の起立状態において、蓋本体5の注出部25を支える部分の表面を、吐出口7の側から注出口26の方向に、高さ位置が徐々に高くなるように形成し、容器本体6を起立状態に戻す時に注出部25内の収容物が自重で液引きを誘導するようにしても良い。
図19は本実施形態13を説明する図である。基本構成は、前記各実施形態と同様であるが、空気流入口13に手指で開閉する空気流入口蓋29を設けた点が異なる。空気流入口蓋29を指で押し開けている場合のみ空気流入口13が開き、指を放すと閉じる。これによって、空気流入口蓋29を指で押し開けている場合のみ内容物の注出を可能とし、指が離れている場合は不用意に容器を転倒させても内容物は流出しないようにする。
基本構成は、前記各実施形態と同様であるが、蓋本体1に、外気の流入量を調整することによって内容物の注出量を制御する機構を設けた点が異なる。「図20」に示す例では、蓋本体5の空気流入口13に、1回の動作毎に一定量の空気を流入する簡易なポンプ機構として風船部15を連結している。
これによって、風船部15を任意の回数押し潰すことによって、流入する空気とほぼ同量の容積の内容物を簡易に計量しながら取出すことができる。また、ポンプ機構は外気の移動を強制するので、内容物の粘性が高く流動性が低い物質の容器として使用することも可能となる。
図18は、請求項7に係る流動性物質保存容器の断面図であり、本実施形態15を説明する図である。本実施形態15では、内容物の流動性物質と流入する外気を収容する空間の役割が実施形態8の場合と逆転している。流動性物質は内袋14と収容部6b外壁との間のB空間14bに収容されており、流入する外気は内袋内のA空間14aに収容される構成となっている。
尚、B空間14bに収容されている流動性物質は、A空間14aに収容される空気とは内袋14によって隔離されている。
本実施形態15の利点は、内袋14の容積を収容物の容量より大きめに形成することによって収容部6bの形状が多少異なる容器であっても、接合部10の形状が共通しておれば前記蓋部及び内袋14を共用できる。したがって、消費者が任意の容器に、開封後、自ら、その容器の開口部の形状に適応する接合部11を有する前記蓋部及び内袋14を取り付けて使用することも可能である。また、例えばワイン等の販売業者が従来容器の既存のワインに対し、別途に前記蓋部と内袋14を組み合わせて提供し、消費者が容器開封時に自らその容器に取り付けて使用することも可能である。図21は、前記蓋部と内袋14を組み合わせる場合のイメージ図である。この場合、内袋14は折りたたむなり、丸めるなりしても良い。
本明細書では、容器本体6の形状について、チューブとボトルを例に説明しているが、これは一例であって、ボックスタイプや袋状の容器等であっても良い。
本明細書では、蓋本体5と容器本体6の接合部10は、ねじ込み式となっているが、嵌合で取り付けるか、熱融着等による固定的な結合でも良い。
蓋部の材料は、保存する流動性物質の性質や使用形態を考慮して、合成樹脂、金属、カーボン繊維など様々な材料を選んで使用する。また、吐出口7または注出口26の外側に、保存する収容物を弾く性質の物質をあらかじめ塗布する等、付着しておくことによって、収容物が付着残存し難いようにしても良い。
Claims (13)
- 流動性物質を収容するための内部空間を形成する収容部及びその収容部の内部空間内に連通する開口部を備える容器本体と、前記容器本体の前記開口部に一体若しくは着脱可能に設けられてこの開口部を塞ぐと共に前記流動性物質の吐出口が形成された蓋部と、を備え、
前記蓋部は、前記容器本体から移動してくる前記流動性物質を収容可能で且つ前記吐出口に通じる収容室と、前記吐出口に内部側から密着してこの吐出口を閉塞する栓体と、この栓体を支持する弾性体と、を有し、
前記弾性体は、前記収容室内の圧力が高くなると前記栓体が前記吐出口から離れる方向に移動し、前記室内の圧力が低くなると前記栓体が前記吐出口を閉塞する方向に移動するように、前記栓体を支持していることを特徴とする流動性物質保存容器。 - 前記吐出口の閉口時において前記栓体の前記離れる方向への移動を規制するストッパーを設けたことを特徴とする請求項1に記載した流動性物質保存容器。
- 前記栓体が前記吐出口から離れる方向に移動し、前記室内の圧力が低くなると前記栓体が前記吐出口を閉塞する方向に移動する栓体の動作を、手動によって操作可能なレバーを蓋部に設けたことを特徴とする請求項1または2に記載した流動性物質保存容器。
- 前記吐出口の外形が管状若しくは錐状となるように、前記吐出口部分が流動性物質の取出方向に向けて突出していることを特徴とする請求項1乃至3のいずれか1項に記載した流動性物質保存容器。
- 流動性物質を収容するための内部空間を形成する収容部及びその収容部の内部空間内に連通する開口部を備える容器本体と、前記容器本体の前記開口部に一体若しくは着脱可能に設けられてこの開口部を塞ぐと共に前記流動性物質の吐出口が形成された蓋部と、を備え、
前記蓋部は、前記吐出口を有する中蓋と、可撓性の薄いシートで筒状に形成され、その一端部が前記吐出口に連結され、その他端部に注出口を有する注出部と、を有し、
前記抽出部が前記流動性物質を前記吐出口から外部に導くようになっていることを特徴とする流動性物質保存容器。 - 前記収容部の内側に流動性物質を収容する内部空間を有する内袋を配置し、前記内袋と前記容器本体収容部外壁との間に空間部を形成し、この空間部を外気と連通させたことを特徴とする請求項1乃至5のいずれか1項に記載した流動性物質保存容器。
- 前記収容部の内側に、空気を収容する内部空間を有する内袋を配置し、この空間部を外気と連通させたことを特徴とする請求項1乃至6のいずれか1項に記載した流動性物質保存容器。
- 前記注出口の閉口後に、この注出口の縁に流動性物質が付着残存した場合、これを除去する吸収材を設けることを特徴とする請求項1乃至7のいずれか1項に記載した流動性物質保存容器。
- 前記蓋部または容器本体に対し、容器内の圧力を高くすることが出来るポンプ機構を備えることを特徴とする請求項1乃至8のいずれか1項に記載した流動性物質保存容器。
- 前記蓋部の表面に酸素バリア性の高いプラスチック製または金属製の薄膜を付着し、酸素透過を防止して酸化防止効果を高めることを特徴とする請求項1乃至9のいずれか1項に記載した流動性物質保存容器。
- 流動性物質保存容器の開口部に着脱可能に設けられて、この開口部を塞ぐと共に前記流動性物質の吐出口が形成された蓋であって、
前記容器本体から移動してくる前記流動性物質を収容可能で且つ前記吐出口に通じる収容室と、前記吐出口に内部側から密着してこの吐出口を閉塞する栓体と、この栓体を支持する弾性体と、を有し、
前記弾性体は、前記収容室内の圧力が高くなると前記栓体が前記吐出口から離れる方向に移動し、前記室内の圧力が低くなると前記栓体が前記吐出口を閉塞する方向に移動するように、前記栓体を支持していることを特徴とする流動性物質保存容器用の蓋。 - 流動性物質保存容器の開口部に一体若しくは着脱可能に設けられて、当該開口部を塞ぐと共に前記流動性物質の吐出口が形成された蓋であって、
前記蓋は、前記吐出口を有する中蓋と、可撓性の薄いシートで筒状に形成され、その一端部が前記吐出口に連結され、その他端部に注出口を有する注出部と、を有し、
前記注出部が前記流動性物質を前記吐出口から外部に導くようになっていることを特徴とする流動性物質保存容器の蓋。 - 請求項11または12に記載した流動性物質保存容器の蓋であって、空気を収容するための内袋を組み込んだ蓋。
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CN2011800153904A CN102822066A (zh) | 2010-02-15 | 2011-02-15 | 流动性物质保存容器及其盖 |
US13/579,273 US20130200099A1 (en) | 2010-02-15 | 2011-02-15 | Fluid storage container and lid thereof |
EP11742058A EP2537773A1 (en) | 2010-02-15 | 2011-02-15 | Fluid storage container and lid thereof |
KR1020127024113A KR20120128141A (ko) | 2010-02-15 | 2011-02-15 | 유동성 물질 보존 용기 및 그 뚜껑 |
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Also Published As
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JPWO2011099309A1 (ja) | 2013-06-13 |
JP2015178388A (ja) | 2015-10-08 |
CN102822066A (zh) | 2012-12-12 |
JP5994112B2 (ja) | 2016-09-21 |
US20130200099A1 (en) | 2013-08-08 |
EP2537773A1 (en) | 2012-12-26 |
KR20120128141A (ko) | 2012-11-26 |
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