WO2016148220A1 - Récipient - Google Patents

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Publication number
WO2016148220A1
WO2016148220A1 PCT/JP2016/058429 JP2016058429W WO2016148220A1 WO 2016148220 A1 WO2016148220 A1 WO 2016148220A1 JP 2016058429 W JP2016058429 W JP 2016058429W WO 2016148220 A1 WO2016148220 A1 WO 2016148220A1
Authority
WO
WIPO (PCT)
Prior art keywords
stock solution
container
liquid
extraction
valve body
Prior art date
Application number
PCT/JP2016/058429
Other languages
English (en)
Japanese (ja)
Inventor
鈴木祐司
相原昌俊
横山拓己
Original Assignee
サントリーホールディングス株式会社
サントリー食品インターナショナル株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from JP2015144274A external-priority patent/JP6595244B2/ja
Application filed by サントリーホールディングス株式会社, サントリー食品インターナショナル株式会社 filed Critical サントリーホールディングス株式会社
Priority to EP16765049.8A priority Critical patent/EP3272703B1/fr
Priority to ES16765049T priority patent/ES2779759T3/es
Priority to KR1020177030024A priority patent/KR102526822B1/ko
Priority to US15/559,254 priority patent/US10518938B2/en
Priority to AU2016234302A priority patent/AU2016234302B2/en
Publication of WO2016148220A1 publication Critical patent/WO2016148220A1/fr

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS 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
    • B65D83/00Containers or packages with special means for dispensing contents
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J31/00Apparatus for making beverages
    • A47J31/44Parts or details or accessories of beverage-making apparatus
    • A47J31/4403Constructional details
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J31/00Apparatus for making beverages
    • A47J31/44Parts or details or accessories of beverage-making apparatus
    • A47J31/46Dispensing spouts, pumps, drain valves or like liquid transporting devices
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B67OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
    • B67DDISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
    • B67D1/00Apparatus or devices for dispensing beverages on draught
    • B67D1/08Details

Definitions

  • the present invention relates to a container enclosing the liquid used in a liquid dispenser for pouring the liquid from the container enclosing the liquid.
  • a liquid dispenser is a device that dispenses liquid according to a user's operation.
  • a beverage dispenser for dispensing a beverage as an example of a liquid into a cup C or the like is known.
  • the conventional beverage dispenser 101 is a bag-in-box (hereinafter referred to as “BIB”) in which a concentrated stock solution that constitutes a non-carbonated beverage by being diluted with a diluent as an example of a liquid.
  • the storage unit 104 that stores a plurality of 130, the stock solution dispensing mechanism 105 for pouring the concentrated stock solution of non-carbonated beverage from the BIB 130 accommodated in the storage unit 104, and the concentrated stock solution of the carbonated beverage that has been poured out Diluted liquid nozzle 118 provided at the end of the drinking water supply line 108 for supplying drinking water (diluted liquid) for dilution, carbonated water for diluting the concentrated stock solution of carbonated beverages poured out from the raw liquid supply line 117 ( (Diluted liquid) carbonated water supply mechanism 113, carbonated water supply mechanism 113, dispenser body 102 provided with cooling tank 115 of stock solution supply line 117, etc., and drink from tap water
  • a drinking water supply mechanism 107 that supplies drinking water to the dispenser main body 102 as a diluent, a gas cylinder 109 in which carbon dioxide gas is sealed, and a carbonated beverage by being diluted with a diluent as an example of a liquid.
  • the BIB 130 is a flexible resin bag-like container in which a concentrated undiluted solution of sugar-free beverages such as teas is enclosed in a box-shaped case such as cardboard. One end of a flexible resin tube 111 is communicated, and the concentrated stock solution is poured out from a spout 119 at the other end of the tube 111. Since the sugar-free beverage needs to be cooled, the BIB 130 is accommodated in the dispenser body 102.
  • the syrup tank 120 is filled with a concentrated stock solution of a sugared beverage such as a main cider, and, together with the gas cylinder 109, outside the dispenser main body 102, for example, at the bottom of the installation table of the beverage dispenser 101 or the back of the store It is arranged in the yard.
  • a concentrated stock solution of a sugared beverage such as a main cider
  • the diluting solution for diluting the concentrated stock solution is drinking water when the concentrated stock solution to be diluted is a non-carbonated beverage, and is carbonated water when the concentrated stock solution to be diluted is a carbonated beverage.
  • the beverage to be diluted is a slightly carbonated beverage, it is drinking water and carbonated water.
  • the drinking water supply mechanism 107 includes a purification mechanism that purifies tap water.
  • the drinking water supply mechanism 107 and the diluent nozzle 118 are connected by a drinking water supply line 108.
  • the carbonated water supply mechanism 113 mixes the carbon dioxide gas in the gas cylinder 109 and the drinking water supplied from the branch line 112 from the drinking water supply line 108, and serves as a diluent for diluting the concentrated concentrate of carbonated beverages.
  • This is a so-called carbonator that generates carbonated water, and includes a carbonated water supply line 114 for supplying carbonated water.
  • a concentrated stock solution syrup supply mechanism 121 for carbonated beverages uses the carbon dioxide gas in the gas cylinder 109 to supply the concentrated stock solution in the syrup tank 120 to the dispenser body 102.
  • the syrup supply mechanism 121 and the carbonator provided in the dispenser main body 102 are connected by a stock solution supply line 117.
  • the stock solution supply line 117 passes through the cooling tank 115 in the dispenser body 102.
  • the concentrated stock solution of carbonated water and carbonated beverage is cooled to a predetermined temperature by passing through the cooling tank 115.
  • the carbonated water purified by the carbonator is poured into the cup C from the carbonated beverage discharge port 116 together with the concentrated stock solution supplied from the stock solution supply line 117.
  • the dispenser main body 102 includes a door 103 that can be opened and closed on the front surface thereof.
  • An operation unit having a selection button or the like is disposed on the front surface of the door 103.
  • the door 103 is normally locked and closed, but can be opened when the BIB 130 is replaced or when the dispenser main body 102 is maintained.
  • a tube pump mechanism is provided as a stock solution dispensing mechanism 105 below the housing part 104 of the BIB 130.
  • the tube pump mechanism is for dispensing the concentrated stock solution sealed in the BIB 130, and is provided for each BIB 130.
  • a diluent nozzle 118 is arranged alongside the spout 119, and a cup rest 106 of a cup C serving as a beverage container is provided below the diluent nozzle 118.
  • the cup rest 106 is provided with a drip tray for receiving the concentrated stock solution and the diluted solution splashed from the spout 119, the diluent nozzle 118, and the beverage overflowing from the cup C.
  • the tube pump mechanism provided corresponding to the BIB130 in which the concentrated concentrate such as the selected tea or juice is enclosed is driven, and the concentrated concentrate, the diluted solution, Is poured into cup C.
  • carbon dioxide gas is supplied from a gas cylinder 109 to the syrup tank 120 in which the concentrated concentrate of the selected carbonated beverage is stored, and is pumped, and the concentrated concentrate and carbonated water are poured into the cup C.
  • the syrup tank 120 and the gas cylinder 109 are disposed outside the dispenser main body 102, for example, in the lower part of the beverage dispenser 101 installation base or in the store's backyard. In addition to the installation space, the installation space for the syrup tank 120 is required.
  • the BIB 130 and the syrup tank 120 are installed in different places, it is necessary to check the remaining amount of each concentrated stock solution, and to replace the BIB 130 and refill the syrup tank 120 in different places. Furthermore, the handling operation at the initial installation of the stock solution supply line 117 that connects the syrup tank 120 and the dispenser main body 102 and the cleaning operation after the installation are complicated, and there is a problem that the installation cost and the maintenance cost increase.
  • the present invention has been made in view of the above circumstances, and it is possible to save space, and it is easy to check the remaining amount of liquid, replenishment work, and maintenance, and to a liquid dispenser with low installation cost and maintenance cost. It aims at providing the container with which the said liquid used was enclosed.
  • a characteristic configuration of a container according to the present invention is a container in which the liquid is used for a liquid dispenser for pouring the liquid from a container in which the liquid is sealed, and is in a bag shape in which the liquid is sealed.
  • a liquid dispenser for pouring the liquid from a container in which the liquid is sealed is a beverage dispenser for pouring the concentrated stock solution from the stock solution container in which the concentrated stock solution is sealed, and the liquid according to the present invention
  • the container filled with the liquid used in the liquid dispenser for pouring the liquid from the container filled with is applied to the stock solution container filled with the concentrated stock solution, the concentrated stock solution of the non-carbonated beverage as a liquid is obtained.
  • the syrup tank which is the concentrated undiluted solution of the carbonated drink, can be used as in the past. Space saving can be achieved in that it does not need to be installed outside the beverage dispenser. And since the operation
  • the bag-like container itself can be used for a beverage dispenser without being accommodated in the box-shaped case, so that space saving for the box-shaped case can be achieved. .
  • the opening operation of the box-shaped case like the conventional BIB is unnecessary, the replacement operation of the stock solution container is facilitated. Since a box-shaped case is not required, material costs and manufacturing costs can be reduced. Furthermore, since there is no box-shaped case, the empty stock solution container can be easily discarded.
  • the configuration of the concentrated stock dispensing mechanism provided in the beverage dispenser can be simplified.
  • the enclosing portion and the pouring portion are formed by bending a sheet of flexible resin or overlapping a plurality of sheets and heat-sealing the peripheral portion. Is preferred.
  • the container can be sealed, there is no possibility that outside air, microorganisms, or the like will be mixed inside, and quality can be easily maintained. Since the container is made of a resin sheet, it is possible to easily deform the enclosing portion for dispensing the liquid encapsulated therein. Moreover, since the container is comprised with the resin-made sheet
  • the dispensing unit is configured such that the volume of the liquid sealed in the dispensing unit is one time for the liquid dispensed from the liquid dispenser when the container is used for the liquid dispenser. It is suitable if it is comprised in the magnitude
  • the liquid sealed in the dispensing portion can be dispensed in a predetermined unit by the liquid dispensing mechanism provided in the liquid dispenser.
  • the pouring portion has a narrower cross-sectional area in a direction orthogonal to the axial direction of the pouring portion than the enclosing portion.
  • Fine control of the amount of liquid dispensed is facilitated by narrowing the spout.
  • the enclosing portion transitions in a boundary area with the extraction portion, in which a cross-sectional area in a direction orthogonal to the axial center direction of the extraction portion is smoothly reduced from the inclusion portion to the extraction portion. It is preferable to have a section.
  • the pouring part tends to have a high pressure loss in the boundary region between the sealing part and the pouring part. Due to the presence of the transition part, the pressure loss can be reduced by smoothly transitioning the change in the cross-sectional area in the boundary region between the enclosing part and the extraction part and the way the container is swollen by the liquid. In addition, since the shape is smoothly changed from the enclosing portion to the extraction portion by the transition portion, the occurrence of wrinkles in the boundary region with the extraction portion of the inclusion portion is suppressed. As a result, the liquid sealed in the sealing part smoothly flows down to the dispensing part.
  • the enclosing portion has a fan-like shape centering on the center of the transition portion and having a recess recessed in the thickness direction of the enclosing portion.
  • the extraction part tends to have a higher pressure loss in the boundary region between the enclosure part and the extraction part .
  • the change in the cross-sectional area between the enclosing portion and the extraction portion becomes smooth in the recess, so that pressure loss can be reduced. Therefore, the liquid sealed in the sealing part flows down smoothly to the dispensing part.
  • the enclosing portion includes a convex portion that cuts out the transition portion and projects outward in a cross-sectional view in a direction orthogonal to the axial direction of the extraction portion. .
  • the internal pressure due to the liquid enclosed in the enclosure acts toward the outside of the enclosure.
  • the internal pressure acts on the inner surface of the convex portion and the enclosing portion is opened in the thickness direction, the liquid encapsulated in the enclosing portion can be surely flowed down to the dispensing portion.
  • the lower end of the convex portion reaches the tip of the extraction portion.
  • the internal pressure of the liquid flowing through the pouring part acts toward the outside of the pouring part. At this time, the internal pressure acts on the inner surface of the convex portion, and the pouring portion is opened in the thickness direction, so that the liquid flowing through the pouring portion can surely flow down to the pouring port.
  • the pouring portion has a circular cross section in a direction orthogonal to the axial direction of the pouring portion.
  • the pouring portion is provided with a linear reinforcing portion parallel to the axial direction of the pouring portion at the tip portion.
  • the reinforcing part can reduce the runout of the tip of the pouring part during liquid pouring.
  • the sheet is made of a resin having excellent transparency.
  • a notch portion that can be used when forming the spout is provided in a peripheral portion in the vicinity of the tip portion of the peripheral portion of the extraction portion.
  • An open end serving as a spout can be easily formed at the tip by separating the cutout from the starting point, for example, a finger sterilized with alcohol spray or scissors.
  • the peripheral portion on the opposite side to the dispensing portion is provided with a suspension hole for hooking the container on a hook provided in the liquid dispenser. Is preferred.
  • the container can be stored in the liquid dispenser by a simple operation of hooking the suspension hole on the hook.
  • the liquid is a beverage. Space-saving is possible, and it is possible to configure a container in which the beverage is used for a beverage dispenser that can be easily checked for a remaining amount of beverage, replenished, and easily maintained.
  • the liquid is a concentrated stock solution constituting a beverage by being mixed with a diluent.
  • Space-saving is possible, and it is possible to configure a container in which the concentrated stock solution used for a beverage dispenser that is easy to check the remaining amount of the concentrated stock solution and to perform replenishment work and maintenance is enclosed.
  • a second valve body is disposed on the outlet side of the outlet part in a flow path from the outlet part to the outlet.
  • a relief valve that opens when a predetermined pressure is applied can be preferably exemplified.
  • FIG. 13 is an explanatory diagram of a stock solution container according to another embodiment, and is a view taken along line XIII-XIII in FIG. 12.
  • FIG. 13 is an explanatory diagram of a stock solution container according to another embodiment, and is a view taken along line XIV-XIV in FIG.
  • FIG. 16 is an explanatory view of a stock solution container according to another embodiment, and is a view taken along the line XVI-XVI in FIG. 15.
  • FIG. 16 is an explanatory diagram of a stock solution container according to another embodiment, and is a view taken along the line XVII-XVII in FIG. 15. It is explanatory drawing of the stock solution container by another embodiment.
  • FIG. 19 is an explanatory diagram of a stock solution container according to another embodiment, and is a view taken along line XIX-XIX in FIG. 18.
  • a beverage dispenser 1 as an example of a liquid dispenser includes a dispenser body 2 having an opening on the front surface and a door 3 that opens and closes the opening.
  • a plurality of stock solution containers 30 as an example of containers in which a liquid is enclosed are accommodated.
  • Storing unit 4 stores eight stock solution containers 30.
  • the stock solution container 30 is diluted with a diluent as an example of a liquid, so that it is diluted with a diluted solution as an example of a 10-fold concentrated stock solution constituting a sugar-free beverage such as tea or an example of a liquid.
  • a 6-fold concentrated stock solution is enclosed as an example of a liquid constituting a sugared beverage such as cider.
  • the beverage dispenser 1 includes a cooling mechanism that cools the inside of the storage unit 4.
  • Each stock solution container 30 accommodated in the accommodating portion 4 is cooled to a predetermined temperature by the cooling mechanism.
  • an operation unit (not shown) having a selection button for selecting a desired beverage from a menu such as sugar-free beverages such as tea and sugared beverages such as cider is disposed.
  • a stock solution dispensing mechanism 5 as an example of a liquid dispensing mechanism for dispensing the concentrated stock solution sealed in the stock solution container 30 is disposed below the storage unit 4.
  • the container which pours a drink is not restricted to the cup C, For example, the container which can pour drinks, such as a glass and a pitcher, is used.
  • a drinking water supply mechanism 7 is connected to the dispenser body 2 by a drinking water supply line 8 for introducing drinking water from outside the system to generate drinking water and supplying the drinking water to the dispenser body 2 as a diluent.
  • a gas cylinder 9 filled with carbon dioxide gas is connected to the dispenser body 2 by a gas supply line 10.
  • FIG. 2 is a view showing the structure of the beverage dispenser 1.
  • the dispenser body 2 of the beverage dispenser 1 opens and closes the dispensing portion 32 of the stock solution container 30 suspended from the hook 18 as a suspended portion provided inside the accommodating portion 4, and according to the selected beverage
  • a carbonated water supply mechanism 13 for generating carbonated water as a diluent for diluting the concentrated concentrate of carbonated beverages, a carbonated water supply line 14 for supplying the carbonated water, and the like.
  • a part of the carbonated water supply mechanism 13 and the carbonated water supply line 14 is disposed in a cooling tank 15 disposed in the dispenser body 2.
  • the pouring part 32 of the stock solution container 30, the drinking water supply line 8, and the terminal part of the carbonated water supply line 14 are opened to the beverage discharge port 16.
  • the beverage outlet 16 is not necessarily provided.
  • FIG. 3A shows the stock solution container 30.
  • the stock solution container 30 is a bag-shaped enclosing part 31 in which the concentrated stock solution is encapsulated, and an extraction part projecting downward from the bag-like enclosing part 31 for pouring the concentrated stock solution to the outside. 32.
  • a suspension hole 33 for hooking the stock solution container 30 to the hook 18 provided in the beverage dispenser 1 is provided in the peripheral portion of the enclosing portion 31 on the side opposite to the dispensing portion 32.
  • the notch 34 which can be utilized when forming the spout 35 is provided in the peripheral part of the vicinity of the front-end
  • the stock solution container 30 is formed by stacking two sheets of flexible resin and heat-sealing the peripheral portion so as not to be peeled off.
  • the stock solution container 30 is formed by stacking two sheets, forming a bag shape by heat-sealing the peripheral portion of the enclosing portion 31 leaving the pouring portion 32, and concentrating the stock solution in the enclosing portion 31.
  • the sealing method is not limited to this. For example, it is possible to fill from the peripheral portion of the enclosing portion 31 without filling from the pouring portion 32. In addition, it is preferable that manufacture of the undiluted
  • the sheet has at least the inner surface of the stock solution container 30 made of synthetic resin.
  • the sheet is, for example, a single layer mainly composed of polyolefin resin, polyamide resin, polyester resin, (meth) acrylic resin, vinyl chloride resin, vinylidene chloride resin, polyethersulfone, ethylene-vinyl alcohol copolymer, or the like. It consists of a multilayer synthetic resin. Polyolefin resins are preferred because of their excellent transparency, flexibility and hygiene, and low cost.
  • polyolefin resins examples include high-density polyethylene, medium-density polyethylene, high-pressure low-density polyethylene, linear low-density polyethylene, ethylene-vinyl acetate copolymer and other polyethylene resins, and ethylene- ⁇ -olefin random copolymers.
  • olefin elastomers such as polypropylene, ethylene-propylene random copolymers, polypropylene resins such as ⁇ -olefin-propylene random copolymers, and cyclic polyolefin resins. These resins may be mixed for performance improvement. It may be partially crosslinked for the purpose of improving heat resistance.
  • the sheet is not limited to a single layer made of polyolefin resin, but may be a multilayer sheet in which each layer is composed of a plurality of polyolefin resins or the like. In the case of a multilayer sheet, a configuration in which an adhesive or the like is not used is preferable.
  • the two sheets may be the same or different, but it is preferable that at least the facing surfaces are made of the same kind of resin from the viewpoint of easy heat sealing. Moreover, it is preferable that it is the same sheet
  • a scale indicating the type of the concentrated undiluted solution, the remaining amount, and the expiration date may be displayed.
  • the thickness of the sheet is preferably about 30 to 600 ⁇ m, and more preferably about 100 to 400 ⁇ m. Since the stock solution container 30 becomes a thin sheet after the concentrated stock solution is almost completely poured out, the stock solution container 30 can be compactly folded and disposed of.
  • the stock solution container 30 configured as described above is poured out by hooking the suspension hole 33 on the hook 18 provided inside the accommodating portion 4 of the dispenser body 2.
  • the part 32 is suspended in a state of being downward. In this state, the lower end of the pouring part 32 is cut off horizontally or diagonally with a finger sterilized with alcohol spray, scissors or the like, starting from the notch 34 shown in FIG. 3A formed at the lower end.
  • FIG. 3B an open end is formed, and this open end constitutes the spout 35.
  • a pinch valve 41 is disposed on the sealing portion 31 side of the dispensing portion 32.
  • a pinch valve 42 is disposed on the outlet 35 side of the extraction portion 32.
  • the pinch valves 41 and 42 are configured so that, for example, the plunger driven by electromagnetic force controls the flow of the concentrated stock solution from the sealing portion 31 side to the spout 35 side by pinching or not pinching the pouring portion 32. It is configured.
  • the pinch valve 41 is a first valve body disposed in a flow path from the sealing portion 31 to the dispensing portion 32, and the pinch valve 41 serving as the first valve body is driven to open and close the pinch valve 41.
  • the pinch valve 42 is a second valve body disposed in a flow path from the dispensing portion 32 to the spout 35 and opens and closes the pinch valve 42 by driving a plunger of the pinch valve 42 as the second valve body.
  • the mechanism which performs comprises the 2nd valve body opening / closing mechanism.
  • the first valve body opening / closing mechanism and the second valve body opening / closing mechanism are configured so that both the plunger of the pinch valve 41 and the plunger of the pinch valve 42 are not in a state of not pinching the dispensing portion 32 simultaneously by an opening / closing control mechanism (not shown). To be controlled.
  • the first valve body, the second valve body, the first valve body opening / closing mechanism, the second valve body opening / closing mechanism, and the opening / closing control mechanism constitute the stock solution dispensing mechanism 5.
  • the plunger of the pinch valve 41 or the pinch valve 42 sandwiches the dispensing portion 32, and the enclosing portion 31 in the sandwiched portion. This means that the concentrated stock solution does not flow from the side to the spout 35 side.
  • the first valve body that is, the pinch valve 41 or the second valve body, that is, the pinch valve 42
  • the pinch valve 41 or the pinch valve 42 It means that the concentrated stock solution flows from the enclosing portion 31 side to the spout 35 side because the plunger does not sandwich the pouring portion 32.
  • the interval between the pinch valve 41 and the pinch valve 42 is such that when the pinch valve 41 or the pinch valve 42 is closed, the amount of the concentrated stock solution stored in the pouring part 32 therebetween becomes a specified amount per dispensing.
  • the pinch valves 41 and 42 can also function as a measuring mechanism for the concentrated stock solution.
  • the storage section 4 for storing the stock solution container 30 is formed of a sealed space that keeps the surroundings airtight with the stock solution container 30 suspended, and the carbon dioxide gas in the gas cylinder 9 is supplied as pressurized gas to this sealed space.
  • a pressurized gas supply mechanism (not shown) is connected.
  • the accommodating part 4 is equipped with the pressure control mechanism which relieves the pressurized gas supplied by the pressurized gas supply mechanism.
  • the pressurized gas supply mechanism is a first pressurizing mechanism that can pressurize the sealing portion 31 from the outside.
  • the pinch valve 42 is maintained in a state in which the inside of the accommodating portion 4 is kept at a positive pressure and a predetermined pressing force is applied to the stock solution container 30.
  • the pin is closed and the pinch valve 41 is opened, the concentrated stock solution in the enclosing part 31 is caused to flow from the enclosing part 31 to the dispensing part 32 by gravity and the pressing force based on the positive pressure.
  • FIG. 4B when the pinch valve 41 is closed while the pinch valve 42 is closed, the flow of the concentrated stock solution from the enclosing unit 31 to the extraction unit 32 is stopped.
  • FIG. 4C when the pinch valve 42 is opened while the pinch valve 41 is closed, the concentrated stock solution in the pouring part 32 is poured out from the spout 35.
  • the stock solution dispensing mechanism 5 and the gas supply mechanism As described above, by appropriately controlling the stock solution dispensing mechanism 5 and the gas supply mechanism, a prescribed amount of concentrated stock solution is appropriately dispensed from the stock solution container 30. Further, by controlling the pressing force applied by the first pressurizing mechanism while interlocking with the opening / closing control of the pinch valves 41, 42, it is also possible to control the amount of concentrated concentrate discharged from the outlet 35. .
  • the first pressure mechanism also functions as a metering mechanism.
  • the stock solution dispensing mechanism 5 corresponding to the operated selection button is controlled, and the stock solution container 30 is controlled.
  • the concentrated stock solution sealed in is poured out from the spout 35, and at the same time, the diluted solution corresponding to the concentrated stock solution poured out of the drinking water or carbonated water is used as the drinking water supply line 8 or the carbonated water supply line 14.
  • the beverage adjusted from the beverage outlet 16 is supplied to the cup C.
  • first valve body is the pinch valve 41 and the second valve body is the pinch valve 42 has been described, but the first valve body, the second valve body, the first valve body opening / closing mechanism, and The configurations of the second valve body opening / closing mechanism and the opening / closing control mechanism are not limited thereto.
  • the stock solution dispensing mechanism 5 may include a tube pump mechanism as shown in FIGS. 5 (a) to 5 (c), for example.
  • This tube pump mechanism includes a rotor 52 having a plurality of rollers 51 disposed at equal intervals in the circumferential direction and rotatably held, and a pressure receiving wall 53 that sandwiches the extraction portion 32 between the rotors 52. And. By disposing the extraction portion 32 between the roller 51 and the pressure receiving wall 53 and rotating the rotor 52 in a certain direction, the plurality of rollers 51 sequentially press the extraction portion 32 against the pressure receiving wall 53 and handle it while moving.
  • the concentrated stock solution is configured to be dispensed from the spout 35 by one section of the adjacent rollers 51, that is, by a predetermined amount.
  • the tube pump mechanism can continuously dispense the concentrated stock solution by continuing to rotate the rotor 52 while the operation button is being operated.
  • the second valve body disposed in the flow path from the pouring part 32 to the pouring port 35, and the rotor 52 for moving the first valve body and the second valve body is provided with a first valve body opening / closing mechanism.
  • an actuator for configuring the second valve body opening / closing mechanism and rotating the rotor 52 constitutes an opening / closing control mechanism.
  • Each roller 51 is arranged at a predetermined position in the circumferential direction of the rotor 52 so that none of the rollers 51 is in a state of sandwiching the extraction portion 32 with the pressure receiving wall 53.
  • the first valve body, the second valve body, the first valve body opening / closing mechanism, the second valve body opening / closing mechanism, and the opening / closing control mechanism constitute the stock solution dispensing mechanism 5.
  • the stock solution dispensing mechanism 5 may include a finger pump mechanism as shown in FIGS. 6 (a) to 6 (c).
  • a finger pump mechanism As shown in FIGS. 6 (a) to 6 (c), fingers 61 arranged at equal intervals along the arrangement direction of the extraction portion 32, a pressure receiving wall 63 that sandwiches the extraction portion 32 between the fingers 61, and the fingers 61 are sequentially provided.
  • a cam mechanism 62 that moves forward and backward.
  • the concentrated stock solution is discharged from the spout 35 by handling the spout 32 by a peristaltic motion created by disposing the spout 32 between the fingers 61 and the pressure receiving wall 63 and sequentially moving the fingers 61 forward and backward.
  • Each finger 61 is configured to be dispensed by one phase, that is, by a predetermined amount. Note that the finger pump mechanism can continuously dispense the concentrated stock solution by continuing the peristaltic movement of each finger 61 while the operation button is being operated.
  • the finger 61 disposed on the side of the sealing portion 31 of the extraction portion 32 is a first valve body disposed in a flow path from the sealing portion 31 to the extraction portion 32.
  • the finger 61 disposed on the side of the spout portion 32 of the spout portion 32 is a second valve body disposed in the flow path from the spout portion 32 to the spout port 35.
  • a cam mechanism 62 for moving the second valve element forward and backward constitutes a first valve element opening / closing mechanism and a second valve element opening / closing mechanism, and an actuator for driving the cam mechanism 62, for example, constitutes an opening / closing control mechanism. .
  • the first valve body, the second valve body, the first valve body opening / closing mechanism, the second valve body opening / closing mechanism, and the opening / closing control mechanism constitute the stock solution dispensing mechanism 5.
  • the finger 61 and the pressure receiving wall 63 sandwich the extraction portion 32, and the spout from the sealed portion 31 side in the sandwiched portion. It means that the concentrated stock solution does not flow to the side 35, and when the first valve body or the second valve body, that is, the finger 61 and the pressure receiving wall 63 open, the finger 61 and the pressure receiving wall 63 sandwich the extraction portion 32. By not doing, it means that the concentrated stock solution flows from the enclosure 31 side to the spout 35 side.
  • the stock solution dispensing mechanism 5 includes an upper clamping member disposed on the sealing portion 31 side of the dispensing portion 32 and a lower sandwiching member disposed on the dispensing port 35 side of the dispensing portion 32. You may comprise.
  • the both clamping members are driven by, for example, an actuator to clamp the extraction part 32 so that the concentrated stock solution does not flow from the sealing part 31 side to the outlet 35 side, and the extraction part 32 is not clamped.
  • the concentrated stock solution is configured to flow from the sealing portion 31 side to the spout 35 side.
  • the upper clamping member is a first valve body disposed in a flow path from the sealing portion 31 to the extraction portion 32
  • the lower clamping member is disposed in a flow path from the extraction portion 32 to the extraction outlet 35.
  • the second valve body, and the actuator for opening and closing the first valve body and the second valve body constitutes a first valve body opening / closing mechanism and a second valve body opening / closing mechanism.
  • the first valve body opening / closing mechanism and the second valve body opening / closing mechanism are controlled by an opening / closing control mechanism.
  • the opening / closing control mechanism controls the first valve body opening / closing mechanism and the second valve body opening / closing mechanism, respectively, so that the upper holding member and the lower holding member do not simultaneously hold the extraction portion 32. .
  • the first valve body, the second valve body, the first valve body opening / closing mechanism, the second valve body opening / closing mechanism, and the opening / closing control mechanism constitute the stock solution dispensing mechanism 5.
  • the upper clamping member or the lower clamping member sandwiches the extraction portion 32 and is enclosed in the sandwiched portion. This means that the concentrated stock solution does not flow from the portion 31 side to the spout 35 side.
  • the upper clamping member or It means that the concentrated stock solution flows from the sealing portion 31 side to the spout 35 side by the lower pinching member not pinching the pouring portion 32.
  • the stock solution pouring mechanism 5 includes an upper folding mechanism that can bend the sealing portion 31 side of the pouring portion 32 and a lower folding that can bend the pouring port 35 side of the pouring portion 32.
  • a bending mechanism may be provided.
  • the bi-folding mechanism is driven by an actuator and bends the pouring part 32 so that the concentrated stock solution does not flow from the sealing part 31 side to the pouring port 35 side, and the pouring part 32 is not bent.
  • the concentrated stock solution is configured to flow from the sealing portion 31 side to the spout 35 side.
  • the upper bending mechanism is a first valve body arranged in a flow path from the enclosing portion 31 to the extraction portion 32, and the lower bending mechanism is arranged in a flow path from the extraction portion 32 to the outlet 35.
  • the first valve body and the actuator that opens and closes the first valve body and the second valve body constitute a first valve body opening / closing mechanism and a second valve body opening / closing mechanism.
  • the first valve body opening / closing mechanism and the second valve body opening / closing mechanism are controlled by an opening / closing control mechanism.
  • the opening / closing control mechanism includes the first valve body opening / closing mechanism and the second valve body opening / closing mechanism, respectively, so that the upper bending mechanism and the lower bending mechanism do not bend the dispensing portion 32 at the same time. Control.
  • the first valve body, the second valve body, the first valve body opening / closing mechanism, the second valve body opening / closing mechanism, and the opening / closing control mechanism constitute the stock solution dispensing mechanism 5.
  • the upper bending mechanism or the lower bending mechanism bends the extraction portion 32 and is bent. It means that the concentrated stock solution does not flow from the sealed portion 31 side to the spout 35 side in the portion, and the first valve body and the second valve body, that is, the upper folding mechanism and the lower folding mechanism are opened.
  • the upper bending mechanism and the lower bending mechanism mean that the concentrated stock solution flows from the sealing portion 31 side to the spout 35 side by not bending the pouring portion 32.
  • the accommodating portion 4 that accommodates the stock solution container 30 is configured in a sealed space, and carbon dioxide gas in the gas cylinder 9 is generated by the pressurized gas supply mechanism connected to the sealed space.
  • the configuration has been described so that the concentrated stock solution sealed in the sealing portion 31 is pushed out to the pouring portion 32 by supplying the pressurized gas as a positive pressure inside the housing portion 4, but is not limited thereto. .
  • the first pressurizing mechanism is configured to press the undiluted liquid container 30 by supplying the carbon dioxide gas in the gas cylinder 9 to the airbag provided adjacent to the undiluted liquid container 30 in the accommodating portion 4 and inflating it. May be. Moreover, you may comprise with the water bag which replaces with an airbag and inflates by supplying cooling water. In this case, the concentrated stock solution sealed in the stock solution container 30 can also be cooled by the cooling water supplied to the water bag. By controlling the degree of pressing by the air bag or water bag, the amount of concentrated stock solution poured out from the spout 35 can be controlled.
  • the first pressurizing mechanism is configured by a pressurizing member provided adjacent to the stock solution container 30 in the accommodating portion 4, and the stock solution container 30 is pressed by moving the pressurization member toward the stock solution container 30.
  • You may comprise.
  • the movement of the pressing member may be mechanically or hydraulically performed by an actuator, or may be configured to be performed by the elastic force of an elastic body such as a spring or a sponge. Further, the movement of the pressure member may be performed by the weight of the pressure member.
  • the stock solution container 30 may be placed without being suspended in the storage unit 4, and the pressurizing member may be placed on the stock solution container 30 placed in the storage unit 4.
  • the first pressurizing mechanism may be configured to squeeze the concentrated stock solution by twisting the enclosing portion 31.
  • the same structure as the first pressurizing mechanism described above is used as the second pressurizing mechanism so that the portion sandwiched between the first valve body and the second valve body in the dispensing portion 32 can be pressurized from the outside. May be.
  • the roller 51 shown in FIGS. 5A to 5C and the finger 61 shown in FIGS. 6A to 6C also function as a second pressure mechanism.
  • the second pressurizing mechanism may be configured by a pair of rollers disposed on both surfaces of the extraction unit 32.
  • the concentrated stock solution can be poured by sandwiching the pouring part 32 by a pair of rollers and handling it from top to bottom.
  • the second pressurizing mechanism is operated when the first valve body is closed and the second valve body is opened, so that the portion between the first valve body and the second valve body is The concentrated stock solution can be poured out more reliably.
  • the drink dispenser 1 does not need to be provided with the 1st pressurization mechanism and 2nd pressurization mechanism which were mentioned above.
  • a configuration is employed in which the concentrated stock solution is poured out from the spout 35 of the stock solution container 30 by its own weight.
  • a flexible tube extending over at least the first valve body and the second valve body may be inserted into the dispensing portion 32.
  • the concentrated stock solution of the enclosing portion 31 is forcibly forced by the first pressurizing mechanism. Even if it does not send to the extraction part 32, the extraction part 32 opens with the restoring force of a flexible tubular body.
  • the stock solution dispensing mechanism 5 may be configured to dispense the concentrated stock solution from the spout 35 by an opening / closing mechanism that forcibly opens and closes the dispensing unit 32 of the stock solution container 30.
  • the opening / closing mechanism includes a pair of push / pull members 71 additionally joined to both surfaces of the extraction portion 32 by attachment, adhesion, pressure bonding, or the like. 72, 73 or a pair of push-pull members 71, 72, 73 provided integrally on both sides of the extraction portion 32.
  • a push / pull member 71 is disposed on the side of the sealing portion 31 of the extraction portion 32.
  • a push / pull member 73 is disposed on the outlet 35 side of the extraction portion 32.
  • a push / pull member 72 is disposed between the push / pull member 71 and the push / pull member 73.
  • the push / pull members 71, 72, and 73 force the open / close portion 32 by, for example, pushing and pulling the discharge portion 32 by an actuator, and concentrate the concentrate from the sealed portion 31 side to the discharge port 35 side. It is comprised so that the flow of may be controlled.
  • the push-pull member 71 is a first valve body disposed in a flow path from the enclosing portion 31 to the extraction portion 32, and an actuator that pushes and pulls the push-pull member 71 as the first valve body is a first valve body.
  • a valve body opening / closing mechanism is configured.
  • the push-pull member 73 is a second valve body disposed in a flow path from the dispensing portion 32 to the spout 35, and an actuator that pushes and pulls the push-pull member 73 as the second valve body is a second valve body.
  • a valve body opening / closing mechanism is configured.
  • the push-pull member 72 is a third valve body disposed between the first valve body and the second valve body, and an actuator that pushes and pulls the push-pull member 72 as the third valve body is a third valve body.
  • a body opening / closing mechanism is configured.
  • the first valve body opening / closing mechanism to the third valve body opening / closing mechanism are controlled by an unillustrated opening / closing control mechanism so that all of the push / pull member 73 to the push / pull member 73 do not open the dispensing portion 32 at the same time. Is done.
  • the first valve body to the third valve body, the first valve body opening / closing mechanism to the third valve body opening / closing mechanism, and the opening / closing control mechanism constitute the stock solution dispensing mechanism 5.
  • the first valve body, that is, the push / pull member 71, the second valve body, that is, the push / pull member 73, and the third valve body, that is, the push / pull member 72, are closed. Means that the concentrated stock solution does not flow from the enclosing portion 31 side to the spout 35 side in the closed portion, and the first valve body, that is, the push-pull member 71 and the second When the valve body, that is, the push / pull member 73 or the third valve body, that is, the push / pull member 72 is opened, the push-pull member 71, the push-pull member 73, or the push-pull member 72 opens the extraction part 32, thereby It means that the concentrated stock solution flows from the 31 side to the spout 35 side.
  • the distance between the push-pull member 71 and the push-pull member 73 is such that the pair of push-pull members 72 is closed in a state where the pair of push-pull members 71, 73 are pushed to close the sealing portion 31 side of the extraction portion 32 and the spout 35.
  • the push / pull members 71, 72, 73 also function as a measuring mechanism for the concentrated stock solution.
  • the enclosing portion 31 is opened when the pushing and pulling member 71 is opened with the pushing and pulling members 72 and 73 closed.
  • the concentrated concentrate in 31 is caused to flow to the extraction section 32 by gravity and the suction force to the extraction section 32 generated by opening the push-pull member 71.
  • FIG. 7B when the push-pull member 71 is closed with the push-pull member 73 closed and the push-pull member 72 opened, the encapsulating part 31 to the dispensing part 32 is closed. The flow of the concentrated stock solution is stopped.
  • FIG. 7A even if the enclosing portion 31 is not pressed by the first pressurizing mechanism, the enclosing portion is opened when the pushing and pulling member 71 is opened with the pushing and pulling members 72 and 73 closed.
  • the concentrated concentrate in 31 is caused to flow to the extraction section 32 by gravity and the suction force to the extraction section 32 generated by opening the push-pull member 71.
  • FIG. 7B when the push-pull member 71 is closed with
  • first valve body and the second valve body are provided in the beverage dispenser 1, but the valve body itself that opens and closes the dispensing portion 32 may be provided on the beverage dispenser 1 side, or the stock solution container It may be provided on the 30 side. Further, the first valve body may be provided on the beverage dispenser 1 side, and the second valve body may be provided on the stock solution container 30 side.
  • the pinch valves 41 and 42, the tube pump mechanism, the finger pump mechanism, and the push / pull members 71, 72, and 73 can also function as the concentrated stock solution measuring mechanism.
  • the mechanism may have the following configuration.
  • a measuring mechanism for measuring the concentrated stock solution poured out from the spout 35 may be separately provided below the spout 35.
  • the suction mechanism is attached to the spout 35 and sucks and discharges a predetermined amount of concentrated stock solution from the spout 35, and a predetermined amount of concentrated stock solution is poured by controlling the discharge amount by the suction mechanism. Can do.
  • the concentrated stock solution may be measured with a load cell that is incorporated in the cup rest 6 and detects the weight of the concentrated stock solution poured into the cup C. When it is detected that a prescribed amount of concentrated stock solution has been poured into the cup C, the dispensing of the concentrated stock solution may be controlled to stop.
  • the stock solution container 30 is described as being formed in a liquid-tight manner by superposing two sheets of flexible resin and heat-sealing the peripheral edge so as not to be peeled off. .
  • a part of the description of the same configuration as that described above will be omitted.
  • the stock solution container 30 may be formed from a single sheet made of flexible resin.
  • the stock solution container 30 bends one sheet, leaves the pouring part 32 and heat seals the peripheral part of the enclosing part 31 to form a bag, and after the concentrated stock solution is injected into the enclosing part 31 It is obtained by heat-sealing the peripheral part of the extraction part 32 and forming it liquid-tight. Since the undiluted solution container 30 is created from a single sheet, the number of parts to be heat-sealed is smaller and the cost is lower than in the case of creating from a plurality of sheets.
  • the stock solution container 30 may have a configuration including an outer covering portion 36 that further covers the enclosing portion 31.
  • the stock solution container 30 has a double structure, and includes a pressurized gas injection part 37 in the outer cover part 36. A pressurized gas is injected from the injection part 37 into the space 38 between the enclosure part 31 and the outer cover part 36, and the interior of the space 38 is brought into a positive pressure state, whereby the concentrated stock solution enclosed in the enclosure part 31 is obtained. It can be reliably pushed out to the dispensing part 32.
  • the outer cover portion 36 serves as a first pressurizing mechanism that can pressurize the enclosing portion 31 from the outside.
  • Carbon dioxide gas in the gas cylinder 9 may be used as the pressurized gas.
  • the pressurized gas supplied by the pressurized gas supply mechanism is not limited to the carbon dioxide gas in the gas cylinder 9. That is, the pressurized gas supply mechanism may be constituted by a fan, a blower, or a piston. In this case, a gas such as air is compressed and supplied as a pressurized gas.
  • the stock solution container 30 is formed by stacking four sheets, and first heat-sealing the peripheral part of the enclosing part 31 and the peripheral part of the outer cover part 36 leaving the pouring part 32 and forming it into a bag shape. After the concentrated stock solution is injected into the enclosing part 31, the peripheral part of the extraction part 32 is heat-sealed to obtain a liquid-tight shape.
  • the stock solution container 30 may be formed from a single sheet of flexible resin.
  • the undiluted solution container 30 heat seals the opposite ends so as to form a cylindrical body by rolling one sheet, and then forms the peripheral portion of the enclosing portion 31 leaving the extraction portion 32.
  • One of the openings of the cylindrical body is heat-sealed and formed into a bag shape, and after the concentrated stock solution is injected into the enclosing part 31, the other of the openings of the cylindrical body constituting the peripheral part of the extraction part 32 It is obtained by heat-sealing and forming liquid-tight.
  • any undiluted solution container 30 is configured so that the pouring portion 32 is formed by hooking the suspension hole 33 on the hook 18 provided inside the storage portion 4 of the dispenser body 2. It is suspended in a state where it is downward. In this state, the open end is formed by separating the lower end of the pouring part 32 horizontally or obliquely with, for example, a finger sterilized with alcohol spray or scissors, and this open end constitutes the spout 35. .
  • each stock solution container 30 the tip end of the pouring portion 32 is formed into a bottle mouth shape having a spout 35, and a separate cap is screwed to the bottle mouth, so that the spout 35 is sealed. It may be a configured. Moreover, the structure provided with the relief valve (valve body) which opens when predetermined
  • the beverage dispenser 1 can include any of the first valve bodies described above, and the relief valve can function as the second valve body.
  • prescribed pressure which can open a 2nd valve body functions also as a 2nd valve body opening / closing mechanism.
  • an elastic tube having a length from at least the spout 35 to the sealing portion 31 may be inserted in advance on the inner periphery of the spout portion 32, or the stock solution container 30 may be opened. It may be inserted after the stopper. In the case where the first pressurizing mechanism and the second pressurizing mechanism are not provided, this is particularly effective from the viewpoint of stable dispensing of the concentrated stock solution from the stock solution container 30.
  • an elastic tube having a length from the spout 35 to the sealing portion 31 at least on the outer periphery of the spout 32 of the stock solution container 30 or the spout 35 from the spout 35
  • An elastic ring may be attached in advance at an appropriate position between them, or may be attached after opening the stock solution container 30. In this way, by using an elastic tube or ring for the extraction portion 32 of the stock solution container 30 and using an easily stretchable member or an elastic member such as rubber or resin for at least a part of the extraction portion 32, a constant amount is obtained. Stable dispensing of the quantity can be controlled with a simple configuration.
  • the stock solution container 30 can further include the following components.
  • the same reference numerals are given to configurations corresponding to the configurations described above.
  • the stock solution container 30 includes a transition portion 80 in a boundary region between the sealing portion 31 and the extraction portion 32.
  • the transition part 80 is configured such that the cross-sectional area in the direction orthogonal to the axial direction of the extraction part 32 is smoothly reduced from the enclosing part 31 to the extraction part 32.
  • the extraction portion 32 Since the cross-sectional area in the direction orthogonal to the axial center direction of the extraction portion 32 is set narrower than that of the enclosure portion 31, the extraction portion 32 has a higher pressure loss in the boundary region between the enclosure portion 31 and the extraction portion 32. It tends to be.
  • the transition part 80 By providing the transition part 80 at such a location, the transition of the cross-sectional area in the boundary region between the enclosing part 31 and the extraction part 32 and the method of swelling the stock solution container 30 by the concentrated stock solution are smoothly transitioned. , Can reduce pressure loss.
  • the shape is smoothly changed from the encapsulating part 31 to the extraction part 32 by the transition part 80, the occurrence of wrinkles in the boundary region of the enclosing part 31 with the extraction part 32 is suppressed. As a result, the concentrated stock solution sealed in the sealing part 31 smoothly flows down to the dispensing part 32.
  • the enclosing portion 31 includes a concave portion 81 that extends in a fan shape around the center of the transition portion 80 and is recessed in the thickness direction of the enclosing portion 31 as shown in FIG. 13. .
  • the encapsulating part 31 cuts the transition part 80 vertically, and, as shown in FIG. Convex part 82 is provided.
  • the convex portion 82 has an upper end that extends above the concave portion 81, and a lower end that reaches the tip of the extraction portion 32.
  • the concave portion 81 and the convex portion 82 are obtained by pre-molding the sheet constituting the stock solution container 30 by heat press or the like.
  • the extraction section 32 is set to have a smaller cross-sectional area in the direction orthogonal to the axial direction of the extraction section 32 than the enclosure section 31, pressure loss occurs in the boundary region between the enclosure section 31 and the extraction section 32. Tend to be expensive.
  • the recessed part 81 in the enclosure part 31, since the change of the cross-sectional area of the enclosure part 31 and the extraction
  • the internal pressure of the concentrated undiluted solution enclosed in the enclosing unit 31 and the concentrated undiluted solution flowing through the extraction unit 32 is external to the enclosing unit 31 and the extraction unit 32. Acts towards the direction. At this time, since the internal pressure acts on the inner surface of the convex portion 82 and the enclosing portion 31 and the extraction portion 32 are opened in the thickness direction, the concentrated stock solution enclosed in the enclosing portion 31 is surely discharged. In addition, the liquid flowing through the extraction portion 32 can surely flow down to the outlet 35.
  • the extraction portion 32 includes a plurality of linear reinforcing portions 83 that are parallel to the axial direction of the extraction portion 32 at the tip portion.
  • the reinforcing portion 83 can be obtained by pre-molding the sheet constituting the stock solution container 30 with a heat press or the like.
  • the reinforcing portion 83 can reduce the deflection of the tip portion of the extraction portion 32 when the concentrated stock solution is extracted.
  • the stock solution container 30 does not need to be provided with all of the concave portion 81, the convex portion 82, and the reinforcing portion 83, but only one of the concave portion 81, the convex portion 82, and the reinforcing portion 83, or the concave portion 81,
  • the structure provided with combining the convex part 82 and the reinforcement part 83 may be sufficient.
  • pouring part 32 may be sufficient.
  • the stock solution container 30 also includes a concave portion 81 and a convex portion 82.
  • the convex portion 82 of the stock solution container 30 is provided only in the enclosing portion 31.
  • the extraction portion 32 of the stock solution container 30 has a circular cross section in a direction orthogonal to the axial direction of the extraction portion 32. That is, since the inner space of the pouring part 32 is cylindrical, the liquid flowing through the pouring part 32 can surely flow down to the pouring port 35.
  • pouring part 32 is obtained by previously shaping
  • the concave portion 81, the convex portion 82 and the reinforcing portion 83 or the extraction portion 32 described above can also be employed in the stock solution container 30 shown in FIGS.
  • a concave portion 81, a convex portion 82, and a dispensing portion 32 can be employed in the stock solution container 30 shown in FIG. 8.
  • the liquid sealed in the stock solution container 30 is a concentrated stock solution that forms a beverage by being diluted with a diluent
  • the stock solution container 30 is a container in which the concentrated stock solution is sealed.
  • the drink may be enclosed with the container as it is as a liquid.
  • the beverage dispenser 1 does not need to include a dilution liquid supply mechanism such as a drinking water supply mechanism and a carbonated water supply mechanism, or a cooling mechanism for cooling the carbonated water supply mechanism.

Abstract

L'invention concerne un récipient, qui est rempli d'un liquide utilisé dans un distributeur de liquide qui peut économiser l'espace et qui facilite la maintenance, des opérations de recharge et la vérification de la quantité de solution restante. Ce récipient de solution mère (30) est rempli d'une solution mère concentrée qui est utilisée dans un distributeur de boisson qui distribue une boisson comprenant une solution mère concentrée et une solution de dilution, et comprend une unité scellée en forme de sac (31) qui est remplie de solution mère concentrée et une unité de distribution (32) qui distribue la solution mère concentrée à l'extérieur et qui fait saillie de l'unité scellée (31). Une ouverture de distribution (35) est prévue au niveau de l'extrémité avant de l'unité de distribution (32), et la solution mère concentrée est distribuée depuis l'ouverture de distribution (35) lorsqu'une force externe déforme l'unité scellée (31).
PCT/JP2016/058429 2015-03-19 2016-03-17 Récipient WO2016148220A1 (fr)

Priority Applications (5)

Application Number Priority Date Filing Date Title
EP16765049.8A EP3272703B1 (fr) 2015-03-19 2016-03-17 Récipient
ES16765049T ES2779759T3 (es) 2015-03-19 2016-03-17 Recipiente
KR1020177030024A KR102526822B1 (ko) 2015-03-19 2016-03-17 용기
US15/559,254 US10518938B2 (en) 2015-03-19 2016-03-17 Container
AU2016234302A AU2016234302B2 (en) 2015-03-19 2016-03-17 Container

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JP2015056964 2015-03-19
JP2015-056964 2015-03-19
JP2015144274A JP6595244B2 (ja) 2015-03-19 2015-07-21 容器
JP2015-144274 2015-07-21

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WO2016148220A1 true WO2016148220A1 (fr) 2016-09-22

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US20180127192A1 (en) * 2016-11-04 2018-05-10 Adam Cohen Methods and Apparatus for Automated Food Preparation
CN109790010A (zh) * 2016-09-30 2019-05-21 株式会社 Mtg 供水服务装置
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CN111801035B (zh) * 2018-03-14 2023-04-21 雀巢产品有限公司 具有部分打开的分配面的饮料机器
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