WO2015005474A1 - 注出装置 - Google Patents

注出装置 Download PDF

Info

Publication number: WO2015005474A1
Authority: WO; WIPO (PCT)
Prior art keywords: flow; flow path; beer; pouring; state
Prior art date: 2013-07-12

Application number

PCT/JP2014/068577

Other languages

English (en)

French (fr)

Japanese (ja)

Inventor

坂巻洋和

西山孝太郎

Original Assignee

サントリーホールディングス株式会社

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.)

2013-07-12

Filing date

2014-07-11

Publication date

2015-01-15

2014-07-11 Application filed by サントリーホールディングス株式会社 filed Critical サントリーホールディングス株式会社

2014-07-11 Priority to SG11201600178TA priority Critical patent/SG11201600178TA/en

2014-07-11 Priority to KR1020167003503A priority patent/KR102205816B1/ko

2014-07-11 Priority to CN201480050346.0A priority patent/CN105722436B/zh

2015-01-15 Publication of WO2015005474A1 publication Critical patent/WO2015005474A1/ja

2016-09-02 Priority to HK16110455.9A priority patent/HK1222101A1/zh

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Classifications

- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47G—HOUSEHOLD OR TABLE EQUIPMENT
- A47G19/00—Table service
- A47G19/12—Vessels or pots for table use
- B—PERFORMING OPERATIONS; TRANSPORTING
- B67—OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
- B67D—DISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
- B67D1/00—Apparatus or devices for dispensing beverages on draught
- B67D1/08—Details
- B67D1/12—Flow or pressure control devices or systems, e.g. valves, gas pressure control, level control in storage containers
- B67D1/127—Froth control
- B67D1/1275—Froth control promoting froth

Definitions

the present invention relates to a dispensing device that is attached to a portable container and that dispenses a sparkling beverage contained in the portable container.
beer when poured into a container such as a mug or glass (hereinafter referred to as “jog etc.”), flavor, mouthfeel,
a creamy foam layer of about 30% is formed on a layer of about 70% of beer. This is because the finer the texture of the foam, the longer it lasts, so that it is possible to extend the flavor of beer and the like by delaying the removal of carbonic acid dissolved in the beer and the like, and the oxidation of beer and the like.
barreled beers are poured out into mugs using special beer dispensers.
skill is required for adjusting the angle of a mug or the like when pouring beer or the like, the operation of a pouring cock, the pouring amount, or the gas pressure.
Patent Document 1 proposes a tap in which an ultrasonic wave generating element is attached to a pouring channel of a beer dispenser. Such an apparatus has made it possible to form creamy bubbles easily even without being skilled.
the present invention is for solving the above-described problems, and adds an appropriate amount of creamy foam to a sparkling beverage poured from a portable container into a mug or the like without requiring skill.
An object of the present invention is to provide a pouring device that can be used.
a first characteristic configuration of the dispensing device is a dispensing device that is attached to a portable container and that dispenses an effervescent beverage contained in the portable container, and is contained in the portable container.
An intake port for taking in the sparkling beverage a spout for pouring out the sparkling beverage taken in from the intake port, a flow path for communicating the intake port and the spout, and A flow state changing mechanism that changes the flow state of the sparkling beverage flowing through the flow path to at least the first pouring state or the second pouring state, and the sparkling beverage flowing through the flow path
a vibration mechanism that imparts vibration, and the vibration mechanism is activated when the second dispensing state is established.
the vibration mechanism When bubbles are applied to the sparkling beverage by the vibration mechanism, bubbles are generated by the dissolved carbon dioxide gas.
the vibration mechanism does not give vibration without suppressing the generation of bubbles, and when it is the second pouring state, the vibration mechanism Creamy foam can be generated by applying vibration to the sparkling beverage flowing through the flow path. Accordingly, an appropriate amount of creamy foam can be added without requiring skill.
the second characteristic configuration is configured such that an effervescent beverage is poured out from the pouring outlet by making the portable container into an inclined pouring posture, and the flow state changing mechanism is
the dispensing amount of the sparkling beverage dispensed from the dispensing outlet is configured to be quantitative or changeable to a small amount
the first dispensing state is a state when the dispensing amount is quantitative
the second dispensing The dispensing state is a state when the dispensing amount is small.
the flow path is composed of a plurality of flow pipes that connect the intake port and the spout port provided at least one by one
the flow state changing mechanism includes: By closing at least one of the plurality of flow pipes, the dispensing amount is configured to be changed from a fixed amount to a small amount, and the vibration exciter is configured of the plurality of flow pipes. It is in the point which gives a vibration with respect to the sparkling beverage which flows through the other flow pipe which is not obstruct
the fourth characteristic configuration is that, among the plurality of flow pipes, the total flow path cross-sectional area of the flow pipe to be closed by the flow state changing mechanism is the total flow path cross-sectional area of another flow pipe. It is in the point set larger than.
the flow pipe to be blocked is a flow path for sparkling beverages. Accordingly, by setting the total flow path cross-sectional area of the flow path to be larger than the total flow path cross-sectional area of the flow pipe that is not the blockage target, it is possible to sufficiently secure the amount of the sparkling beverage dispensed.
a flow pipe that is not a block target is a flow path of the sparkling beverage for generating foam. Therefore, by setting the total flow path cross-sectional area of the flow path to be smaller than the total flow path cross-sectional area of the flow pipe to be blocked, it is possible to reliably generate bubbles in the flow pipe and to reduce the amount of bubbles generated. It can be an appropriate amount.
the flow pipe to be closed by the flow state changing mechanism is configured such that when the portable container is in the pouring posture, It exists in the point arrange
the flow path includes at least one flow pipe that communicates the intake port and the spout provided at least one
the flow state changing mechanism includes: The pouring amount is changed from a fixed amount to a small amount by reducing the cross-sectional area of the flow passage of the flow pipe, and the vibration exciter is applied to the sparkling beverage flowing through the flow pipe. In contrast, vibration is applied.
the flow state changing mechanism includes an operation unit, a movable unit, and a flexible tube disposed in at least a part of the flow tube. In conjunction with the operation of the operation unit, the tube is pressed and deformed, and the activation switch of the vibration mechanism is turned on.
the flow state change mechanism is configured to close the flow tube by pressing and deforming a flexible tube, or to reduce the cross-sectional area of the flow path, so it is simple, light, and inexpensive without using a complicated and expensive mechanism. Can be realized.
the flow state changing mechanism includes an operation unit, a movable unit, and a flow rate change valve disposed in at least a part of the flow tube. In addition to changing the opening of the flow rate change valve in conjunction with the operation of the unit, the activation switch of the vibration mechanism is turned on.
the flow rate changing mechanism is configured to reduce the blockage of the flow pipe or the cross-sectional area of the flow path by opening and closing the flow rate change valve, the flow rate of the fluid can be changed reliably.
the flow state changing mechanism includes a position holding mechanism that holds the movable portion at a predetermined movable position, and the position holding mechanism has the movable portion held at the movable position.
the operation unit is operated when there is not, the movable unit is held at the movable position to maintain a small amount of extraction, and the operation unit is operated when the movable unit is held at the movable position. Is operated, the holding is released, and the amount of extraction is maintained at a fixed amount.
the position holding mechanism By providing the position holding mechanism, the flow rate of the sparkling beverage flowing through the flow path is maintained at a small amount without continuing to operate the operation unit. When the operation unit is operated again, the state where the flow rate is small is cancelled.
the tenth characteristic configuration is that the vibration mechanism stops when the amount of extraction is changed from a small amount to a fixed amount by the flow state changing mechanism.
the vibration mechanism can be stopped along with the operation of stopping the dispensing of the sparkling beverage.
the eleventh characteristic configuration includes a gas supply mechanism for supplying gas into the portable container, and the internal pressure of the portable container is increased by the gas supplied by the gas supply mechanism, thereby
the sparkling beverage is configured to be poured out, and the spout includes a first spout and a second spout, and the flow path includes the intake and the first spout.
a second flow path that communicates the intake port and the second outlet, and the flow state changing mechanism includes the first flow path or the second flow path.
a flow path can be selected.
the first extraction state is a state in which the first flow path is selected. In the second extraction state, the second flow path is selected. It is in the state that is in a state.
the vibration mechanism When the first flow path is selected by the flow state change mechanism, vibration is not applied by the vibration mechanism to suppress the generation of bubbles, and when the second flow path is selected, the vibration mechanism causes the flow to pass. Creamy foam can be produced by applying vibration to the sparkling beverage flowing through the flow path. By preparing a suitable flow path for each of the sparkling beverage and foam, it is possible to dispense appropriately.
the twelfth characteristic configuration is that the flow path cross-sectional area of the first flow path is set larger than the flow path cross-sectional area of the second flow path.
the amount of sparkling beverage dispensed from the spout is quantified by selecting the first flow path with a large channel cross-sectional area by the flow condition changing mechanism. As a result, a predetermined flow rate can be secured and quick dispensing can be performed.
select the second flow path with a small cross-sectional area of the flow path by the flow condition change mechanism so that the amount of pour is reduced and bubbles are generated in that state. Can be made. That is, since the amount dispensed is small, there is no possibility of excessive foam generation. Therefore, an appropriate amount of foam can be easily poured into a mug or the like without requiring skill.
the thirteenth characteristic configuration includes a discharge path for discharging the gas supplied to the portable container, and the flow state changing mechanism includes both the first flow path and the second flow path.
the release path is opened when not selected.
the fourteenth characteristic configuration is that the vibration generating mechanism is an ultrasonic wave generating means, and the ultrasonic wave generating means vibrates to the sparkling beverage flowing through the flow path through the flow path by ultrasonic waves. It is in the point which gives.
the texture of bubbles generated by the vibration of ultrasonic waves derived from the ultrasonic wave generation means can be made fine.
the fifteenth characteristic configuration is that the ultrasonic frequency generating means includes a vibration frequency and vibration amplitude adjusting section.
the state of foam poured out can be freely adjusted by changing the vibration frequency and vibration amplitude by the adjusting unit. Since the state of the generated foam varies depending on the state and type of the sparkling beverage, such as the temperature, and the brand, a plurality of optimum settings may be stored for each sparkling beverage stored in the portable container.
FIG. 5 is a sectional view taken along line IV-IV in FIG. 4. It is explanatory drawing of bubble extraction by the extraction apparatus of 1st embodiment. It is explanatory drawing of bubble extraction by the extraction apparatus of 2nd embodiment. It is explanatory drawing of the extraction
beer as a sparkling beverage will be described as an example.
a pitcher will be described as an example of a portable container for storing beer.
beer is a concept that widely includes top fermentation, bottom fermentation, natural fermentation, beer-flavored sparkling alcoholic beverages such as sparkling liquor, beer-taste beverages such as non-alcoholic beer, and the like. , It does not exclude any particular type or brand.
“Pitcher” refers to a beer pitcher used to pour beer into a mug or the like.
FIG. 1 shows a pitcher 10 and a pouring device 30 attached so as to cover the entire opening of the pitcher 10.
the pitcher 10 is generally used for business purposes and has a capacity of about 2 liters, and can accommodate several glasses of beer such as ordinary mugs.
the pitcher 10 will be described with reference to FIGS. 1, 2, and 5.
the pitcher 10 includes an inner container part 11 that contains beer and an outer container part 12 that is disposed on the outer periphery of the inner container part 11 and forms a heat insulating space between the inner container part 11.
the inner container part 11 and the outer container part 12 are molded by a synthetic resin material such as methacrylic resin having excellent moldability and heat insulation.
the inner container portion 11 includes a substantially conical peripheral wall portion 15 that spreads upward from the bottom wall portion 13 to the upper end opening portion 14, and a skirt that is integrally formed to extend outward and downward from the opening portion 14 to the entire outer periphery.
Part 16 A spout 17 having a V-shaped cross section is formed in a part of the opening 14 obliquely upward outward.
the outer container portion 12 includes a bottom wall portion 18 and a peripheral wall portion 19 formed integrally with the bottom wall portion 18.
the upper end portion of the peripheral wall portion 19 is integrally joined with the lower end portion of the skirt portion 16 of the inner container portion 11 to constitute a joint portion 20.
the peripheral wall portion 19 of the outer container portion 12 is provided with a handle portion 21 at which the user grips the pitcher 10 at a position facing the spout 17.
the dispensing device 30 includes a main body portion 31 and a machine portion 32.
the exterior itself of the main body part 31 and the machine part 32 is molded by a synthetic resin such as ABS resin.
the main body portion 31 and the mechanical portion 32 are configured separately, but may be configured integrally by incorporating the function of the mechanical portion 32 into an exterior that is common to the main body portion 31.
the main body 31 of the dispensing device 30 will be described with reference to FIGS. 2, 4, and 5.
the main body portion 31 is formed in a substantially conical peripheral wall portion 35 that spreads upward from the lower end opening portion 33 to the upper end opening portion 34 and in the middle of the inner portion of the peripheral wall portion 35, and defines the lower end opening portion 33 and the upper end opening portion 34.
a partition part 36 and a skirt part 37 extending downward from the upper end of the peripheral wall part 35 over the entire outer periphery are provided.
the outer peripheral wall of the peripheral wall portion 35 has a shape substantially similar to the shape of the opening portion 14 including the spout 17 of the inner container portion 11 of the pitcher 10 and can be press-fitted into the pitcher 10 from above the opening portion 14 to a predetermined depth.
a packing 38 is provided in the circumferential direction on the outer peripheral wall below the peripheral wall 35, and when the peripheral wall 35 is press-fitted into the inner container 11 of the pitcher 10, a gap between the inner container 11 and the peripheral wall 35 is formed by the packing 38. Even if the pitcher 10 main body is tilted, the beer of the pitcher 10 is prevented from leaking outside through the gap between the inner container portion 11 and the peripheral wall portion 35.
the boundary portion 39 between the outer periphery of the peripheral wall portion 35 and the inner periphery of the skirt portion 37 when the pouring device 30 is attached to the pitcher 10, the pitcher 10 that has entered the clearance between the outer periphery of the peripheral wall portion 35 and the inner periphery of the skirt portion 37. It is comprised so that the peripheral part of the opening part 14 may be covered partially in the circumferential direction.
the main body 31 includes a flow path 40 for pouring out the beer in the inner container portion 11 when the pouring device 30 is attached to the pitcher 10.
the flow path 40 is a position corresponding to the spout 17 of the pitcher 10 when the pouring device 30 is attached to the pitcher 10, is provided at a predetermined position inside the peripheral wall portion 35, and is accommodated in the pitcher 10.
the flow path 40 includes a beer flow pipe 44, a beer / foam combined flow pipe 45, and a beer flow pipe 44 and a combined flow pipe 45.
the beer flow pipe 44 is in a posture (hereinafter referred to as “pouring posture”) tilted so that the pitcher 10 pours beer as shown in FIG. 6. Sometimes, it is disposed at a position relatively lower than the dual-purpose flow pipe 45.
the beer flow pipe 44 is located at the position corresponding to the spout 17 among the first intake 41 formed at the position corresponding to the spout 17 in the lower surface of the partition 36 and the upper surface of the peripheral wall 35.
the spout 43 formed in is communicated.
the combined flow pipe 45 is formed at a position corresponding to the pouring spout 17 on the lower surface of the partition portion 36 and above the first intake opening 41 when the pitcher 10 is in the pouring posture.
the second intake 42 communicates with a confluence 46 that is formed on the downstream side of the beer flow pipe 44 and that is branched obliquely downward from the spout 43. Therefore, one end of the dual-purpose flow pipe 45 is connected to the merging portion 46 having an inclined posture, and is bent in the middle to be in a vertical posture and connected to the second intake port 42.
the beer flow pipe 44 and the combined flow pipe 45 can withstand the pressure of beer flowing through the interior, and at least the beer flow pipe 44 can be deformed by an external load and is flexible with appropriate elasticity. Consists of sex tubes. As the material constituting the tube, an appropriate material that does not affect the quality of the beer flowing through the inside is selected.
the flow path cross-sectional area of the beer flow pipe 44 is set larger than the flow path cross-sectional area of the dual-purpose flow pipe 45.
the flow passage cross-sectional area per one of the beer flow pipe 44 and the dual-purpose flow pipe 45 is the same, and the number of the beer flow pipes 44 is larger than that of the dual-purpose flow pipe 45, so that You may comprise so that the flow-path cross-sectional area of the flow tube 44 may become larger than the flow-path cross-sectional area of the combined flow-through pipe 45.
the air hole 47 is formed in the partition part 36 at a predetermined position on the side facing the position where the flow path 40 is disposed.
the air hole 47 communicates the internal space on the liquid surface of the beer of the pitcher 10 with the external space of the main body 31, and the air pressure in the internal space of the pitcher 10 when beer is poured and the external space of the pitcher 10. Eliminate the pressure difference. This makes it possible to smoothly dispense beer.
the main body 31 includes a flow rate changing mechanism 50 for beer flowing through the flow path 40.
the flow rate changing mechanism 50 includes an operation unit 51 and a movable unit 52 interlocked with the operation unit 51.
the operation portion 51 is a position on the boundary portion 39 between the peripheral wall portion 35 and the skirt portion 37 that is opposed to the spout 43 of the main body portion 31 and is fixed above the handle portion 21 of the pitcher 10.
a shaft 53 and an operation lever 54 pivotally supported around the support shaft 53 are configured.
the operation lever 54 extends from the support shaft 53 toward the outside lower side of the main body 31 and extends toward the position where the user can easily press the handle 21 of the pitcher 10 by the thumb, for example. 55 and an action portion 56 formed to extend from the support shaft 53 toward the inner lower side of the main body portion 31.
the movable part 52 includes a movable bar 57 placed on the upper surface of the partition part 36.
the movable bar 57 is disposed so as to be slidable in a predetermined direction along a pair of guide portions 58 that are formed to protrude at a predetermined position on the upper surface of the partition portion 36.
One end of the movable bar 57 is an inner peripheral wall of the peripheral wall portion 35 of the main body 31, and cooperates with a pressure receiving portion 59 disposed at a position corresponding to the beer flow pipe 44, and the beer flow
a pressing portion 60 that presses and closes the tube 44 is disposed.
a contact portion 61 with which the action portion 56 contacts is disposed.
a compression spring 63 is disposed between the pressure receiving portions 62 that are formed to protrude at predetermined positions on the upper surface of the partition portion 36 on the back side of the portion of the contact portion 61 where the action portion 56 contacts. Accordingly, the movable bar 57 is constantly urged toward the action portion 56 by the elastic force of the compression spring 63. This position when the movable bar 57 is on the operation lever 54 side is referred to as an “initial position”.
the operation lever 54 When the user operates the operation lever 54, that is, when the user presses the pressing portion 55 with the thumb of the hand holding the handle portion 21 of the pitcher 10, the operation lever 54 rotates around the support shaft 53, and the action portion 56 rotates around the support shaft 53 and moves away from the peripheral wall portion 35, and the movable bar 57 is slid from the initial position to the direction facing the elastic force of the compression spring 63 via the contact portion 61. Then, the pressing portion 60 cooperates with the pressure receiving portion 59 on the main body portion 31 side to deform the tube constituting the beer flow tube 44, and the beer flow tube 44 is closed. The position when the movable bar 57 is moved to the beer flow pipe 44 side against the elastic force of the compression spring 63 is referred to as a “pressing position”.
the beer of the pitcher 10 can be poured out only from the combined flow pipe 45.
the flow rate changing mechanism 50 changes the amount of beer poured out from the spout 43 from a fixed amount to a small amount by closing at least one of the plurality of flow tubes.
the flow rate changing mechanism 50 constitutes a flow state changing mechanism for changing the flow state of beer flowing through the flow path 40 to at least the first or second discharge state, and the beer The state where the flow-through pipe 44 is not closed constitutes the first extraction state, and the state where the flow-through pipe 44 for beer is closed constitutes the second extraction state.
the movable bar 57 further includes an interlocking portion 64 that is formed to extend upward between the pressing portion 60 and the contact portion 61.
the interlocking unit 64 moves as the movable bar 57 slides, and turns on / off an activation switch 75 of the ultrasonic generator 72 described later.
the main body 31 includes a protective lid 86 that covers a part of the movable bar 57 and the portion including the compression spring 63.
the protective lid 86 is formed with a slit 87 into which the interlocking portion 64 of the movable bar 57 can enter.
the machine part 32 includes a housing part 70 accommodated in a space defined by the peripheral wall part 35 and the partition part 36 from above the main body part 31, and the upper part of the housing part 70 is an upper end opening part of the dispensing device 30. It extends toward the outer periphery so as to constitute 34 canopies.
a vibration mechanism 71 is accommodated in the housing unit 70.
the excitation mechanism 71 includes an ultrasonic generator 72 that applies vibration to the beer flowing through the flow path 40, a substrate 73 on which a drive circuit for the ultrasonic generator 72 is mounted, and the ultrasonic generator 72.
a battery box 74 that accommodates two AA-type dry batteries that are power sources supplied to the board 73 and an activation switch 75 for turning on / off the operation of the ultrasonic generator 72 are electrically connected.
the power source is not limited to the above-described dry battery, and any power source may be used as long as power necessary for driving the ultrasonic generator 72 can be obtained.
the ultrasonic generator 72 is an ultrasonic generator having a piezoelectric element driven by a drive circuit mounted on the substrate 73, and is configured to generate ultrasonic waves having a predetermined vibration frequency and vibration amplitude. Yes.
the vibration frequency is preferably set to about 20 to 40 kHz.
the ultrasonic generator 72 has its vibration surface 77 in a state where its periphery is guided obliquely downward to the side of the housing portion 70 and is urged outward by a compression spring 76 disposed inside. It is configured so as to be exposed to the outside, and the vibration surface 77 is disposed so as to abut the merging portion 46 in the flow path 40 when the machine portion 32 is accommodated in the main body portion 31. Therefore, the joining part 46 is vibrated by the ultrasonic waves generated by the ultrasonic generator 72, and beer is excited when the foam passes through the joining part 46, and is poured out from the spout 43 as creamy foam.
the housing unit 70 includes a detachable lid 78 on the lower surface thereof, and the excitation mechanism 71 is accommodated in the state where the lid 78 is opened.
the vibration mechanism 71 is appropriately fixed in the housing unit 70 by screws or the like (not shown).
a slit 79 into which the interlocking portion 64 of the movable bar 57 can enter is formed at a position corresponding to the slit 87 of the protective lid 86 at an appropriate position of the lid 78 of the housing unit 70.
An activation switch 75 is disposed at a predetermined position.
the interlocking portion 64 presses the start switch 75 as the movable bar 57 slides, the power from the dry battery stored in the battery box 74 is supplied to the substrate 73, and the drive circuit starts the ultrasonic generator 72.
the start switch 75 is kept on while being pressed.
the interlocking unit 64 is separated from the activation switch 75, the supply of power to the substrate 73 is stopped, and the ultrasonic generator 72 is stopped.
the drive circuit of the substrate 73 may drive the ultrasonic generator 72 so as to generate an ultrasonic wave with a constant vibration frequency and vibration amplitude, or while maintaining one ON state, the ultrasonic generator
the vibration frequency and vibration amplitude of the vibration generated by 72 may be changed.
the fineness of the foam texture can be changed according to the time when the foam is poured out.
the mechanical unit 32 may include an adjustment unit that can variably set the vibration frequency and vibration amplitude of vibration generated by the ultrasonic generator 72 as well as turning on / off the ultrasonic generator 72.
the state of the bubble poured out can be freely adjusted by changing the vibration frequency and vibration amplitude by the adjustment unit. Since the state of the generated foam varies depending on the state, type, and brand of the beer temperature and the like, a plurality of optimum settings may be stored for each beer accommodated in the pitcher 10.
the installation position of the ultrasonic generator 72 can be arbitrarily selected as long as the ultrasonic vibration can be applied to the beer flowing through the flow path 40.
the vibration surface 77 may contact the tube that constitutes the dual-purpose flow pipe 45 instead of the merging portion 46 and vibrate the tube to foam the beer that flows through the tube.
the vibration surface 77 of the ultrasonic generator 72 may be configured to be in contact with the merging portion 46 of the flow path 40 at all times, or may be configured to be in contact with the merging portion 46 only during vibration.
the structure embedded in the flow path 40 or exposed to the inner wall of the flow path 40 to directly impart vibration to the beer may be used.
the number of ultrasonic generators 72 is not limited to one, and a plurality of ultrasonic generators 72 may be provided.
the drive circuit mounted on the board 73 is provided with a delay means, and the ultrasonic generator 72 is activated after a predetermined time after the activation switch 75 is turned on, activated for a predetermined time with a timer, or a combination thereof. May be.
the beer pouring using the pouring device 30 configured as described above will be described.
beer is poured into the pitcher 10 by an employee so that foaming is suppressed as much as possible from the beer dispenser.
the pouring device 30 is attached to the pitcher 10 and provided to the customer in that state. The customer who receives the pitcher pours beer into individual mugs.
the customer that is, the user, picks up the pitcher 10 with the handle 21 and starts pouring into a mug or the like while gradually pouring the pitcher 10 from its posture (hereinafter referred to as “steady posture”). At this stage, pour gently to reduce foaming in the mug as much as possible.
steady posture the posture
the user pushes down the pressing portion 55 of the operation lever 54 with the thumb of the hand holding the handle portion 21 of the pitcher 10.
the pressing portion 60 at the tip of the movable bar 57 cooperates with the pressure receiving portion 59 to close the beer flow pipe 44, and only the combined flow pipe 45 flows. .
the interlocking portion 64 of the movable bar 57 turns on the start switch 75, and the drive circuit starts the ultrasonic generator 72 to vibrate the confluence portion 46 downstream of the combined flow pipe 45.
vibration is applied and foaming is excited, and the beer is poured into a mug or the like from the spout 42 as a creamy foam.
the main body portion 31 of the pouring device 30 includes a flow path 80 for pouring beer in the inner container portion 11.
the flow path 80 is a position corresponding to the spout 17 of the pitcher 10 when the pouring device 30 is attached to the pitcher 10, provided at a predetermined position inside the peripheral wall portion 35, and accommodated in the pitcher 10.
This is a path that connects an intake port 81 for taking in beer and a spout 82 for pouring beer taken from the intake port 81 into a mug or the like.
the flow path 80 includes a flexible tube 83 that communicates the intake port 81 and the spout 82.
the operation lever 54 of the flow rate changing mechanism 50 that is, when the pressing portion 55 is pushed with the thumb of the hand holding the handle portion 21 of the pitcher 10, the operation lever 54 is supported by the support shaft.
the action part 56 rotates around the support shaft 53 and moves away from the peripheral wall part 35, and the movable bar 57 is slid through the contact part 61 and pressed.
the portion 60 deforms the tube 83 constituting the flow passage 80 in cooperation with the pressure receiving portion 59 on the main body portion 31 side to reduce the cross-sectional area of the flow path, so that the beer poured from the spout 83 is poured. Change the output from quantitative to small.
the flow rate changing mechanism 50 configures a flow state changing mechanism that changes the flow state of beer flowing through the flow path 80 to at least the first or second discharge state.
the state where the flow path 80 is not deformed constitutes the first extraction state, and the state where the flow path 80 is deformed constitutes the second extraction state.
the vibration surface 77 of the ultrasonic generator 72 is disposed so that one end portion of the flow path 80 is in contact with the piping portion 84 constituting the spout 82.
the interlocking portion 64 of the movable bar 57 turns on the start switch 75, and the drive circuit generates ultrasonic waves.
the pipe 72 is started and the piping part 84 is vibrated. When the beer passes through the pipe portion 84, vibration is imparted and foaming is excited, and the beer is poured into a jug or the like from the spout 82 as creamy foam.
the vibration surface 77 is not limited to the configuration in contact with the piping portion 84, and is configured to contact the tube 83 to vibrate the tube 83 and to impart vibration to the beer flowing through the tube 83 to cause foaming. May be.
FIG. 8 shows the pitcher 10 and the pouring device 301 attached so as to cover the entire opening of the pitcher 10.
the dispensing device 301 includes a main body portion 311 and a machine portion 321.
the main body 311 of the dispensing device 301 will be described with reference to FIGS.
the main body portion 311 is formed in a substantially conical peripheral wall portion 35 that spreads upward from the lower end opening portion 33 to the upper end opening portion 34, and in the middle of the inside of the peripheral wall portion 35, and defines the lower end opening portion 33 and the upper end opening portion 34.
the partition part 36 and the skirt part 371 extended from the upper end of the opening part 14 to the outer periphery partially over the perimeter or the circumferential direction are provided.
the outer peripheral wall of the peripheral wall portion 35 is substantially similar to the shape of the opening portion 14 including the spout 17 of the inner container portion 11 of the pitcher 10 and can be inserted into the pitcher 10 at a predetermined depth from above the opening portion 14. It has become.
a packing 381 is provided over the entire circumference at the boundary 39 between the outer periphery of the peripheral wall portion 35 and the inner periphery of the skirt portion 371, and when the pouring device 301 is attached to the pitcher 10, the packing 381 and the inner container portion 11.
the gap at the boundary portion 39 is sealed, and even if the pitcher 10 main body is tilted, beer in the pitcher 10 is prevented from leaking outside through the gap between the inner container portion 11 and the boundary portion 39.
the main body 311 includes a flow path 401 for pouring out the beer in the inner container 11 when the pouring device 301 is attached to the pitcher 10.
the flow path 401 is a path that communicates the first intake port 41 and the second intake port 42 with the spout 43 that pours beer taken from the first intake port 41 and the second intake port 42. It is.
the flow path 401 includes a beer flow pipe 441, a beer / foam combined flow pipe 451, and a beer flow pipe 441 and a combined flow pipe 451. Inside the main body 311, the beer flow pipe 441 is arranged at a position relatively lower than the combined flow pipe 451 when in the pouring posture as shown in FIG. 13. Yes.
the beer flow pipe 441 is located at the position corresponding to the pouring spout 17 among the first intake port 41 formed at the position corresponding to the pouring spout 17 on the lower surface of the partition part 36 and the upper surface of the peripheral wall 35.
the spout 43 formed in is communicated.
the combined flow pipe 451 is formed at a position corresponding to the pouring spout 17 on the lower surface of the partition portion 36 and above the first intake opening 41 when the pitcher 10 is in the pouring posture.
the second intake 42 communicates with a confluence portion 461 that is formed on the downstream side of the beer flow pipe 441 and branched downward from the spout 43. Therefore, the dual-purpose flow pipe 451 is connected at one end to the converging portion 461 having an inclined posture and bent in the middle to be in a vertical posture and connected to the second intake port 42.
the flow passage cross-sectional area of the beer flow pipe 441 is set larger than the flow passage cross-sectional area of the dual-purpose flow pipe 451. It is to be noted that the flow passage cross-sectional area per beer flow pipe 441 and the single-purpose flow pipe 451 are the same, and the number of beer flow pipes 441 is larger than that of the double-purpose flow pipe 451, so that You may comprise so that the flow-path cross-sectional area of the flow tube 441 may become larger than the flow-path cross-sectional area of the combined flow-through pipe 451.
the beer flow pipe 441 and the dual-purpose flow pipe 451 are configured by pipes that can withstand the pressure of beer flowing inside. As the material constituting the pipe, an appropriate material that does not affect the quality of the beer flowing through the inside is selected, and a resin such as PP or POM is preferably exemplified.
the main body 311 includes a flow rate changing mechanism 501 for beer flowing through the flow path 401.
the flow rate change mechanism 501 includes an operation unit 51, a movable unit 521 that is linked to the operation unit 51, and a flow rate change valve 48 that is disposed in the beer flow pipe 441.
the movable part 521 includes a movable bar 571 placed on the upper surface of the partition part 36.
the movable bar 571 is disposed so as to be slidable in a predetermined direction along a pair of guide portions 58 that are formed to protrude at a predetermined position on the upper surface of the partition portion 36.
the movable bar 571 is composed of a crank-shaped member in plan view provided with a front portion 571a, a rear portion 571b, and an intermediate portion 571c connecting them.
a rack gear 601 for rotating a valve body 482 described later is disposed in the front portion 571a in cooperation with a pinion gear 484 described later.
An abutting portion 611 with which the action portion 56 abuts is disposed on the rear portion 571b.
a compression spring 63 is disposed between a pressure receiving portion 62 that is formed to protrude at a predetermined position on the upper surface of the partition portion 36. Accordingly, the movable bar 571 is constantly urged toward the action portion 56 by the elastic force of the compression spring 63.
the movable portion 521 has a position where the movable bar 571 is maintained at a predetermined position on the side of the beer flow pipe 441 against the elastic force of the compression spring 63.
a mechanism 90 is provided.
the position holding mechanism 90 has a heart-shaped guide groove 91 arranged in the rear portion 571b and a hook-shaped tip 92a slidably disposed in the guide groove 91, and a hook-shaped rear end 92b receiving pressure.
a pin 92 is rotatably provided on the side of the portion 62 so as to be rotatable.
the depth of the bottom surface of the guide groove 91 is inclined so as to become shallower counterclockwise in a plan view from the arrangement position of the tip 92a of the pin 92 shown in FIG. It is formed so as to incline so as to become shallower in the counterclockwise direction in plan view from the deepened portion, and to be deepened again at the stepped portion 91b.
a pin receiving portion 91c formed in an island shape having a heart shape in plan view is disposed in the guide groove 91, and the inner wall convex portion 91d of the guide groove 91 facing the pin receiving portion 91c is provided with a pin receiving portion.
the portion 91c is arranged slightly shifted downward in the drawing.
the tip 92a of the pin 92 is moved clockwise by the step 91b as the movable bar 571 moves to the left against the elastic force of the compression spring 63. Therefore, it slides in the guide groove 91 in the counterclockwise direction.
the movable bar 571 attempts to move to the right by the elastic force of the compression spring 63. It fits into the part 91c. Accordingly, the movable bar 571 is held at a predetermined position moved to the beer flow pipe 441 side against the elastic force of the compression spring 63. The position in this state is referred to as “movable position”.
the tip 92a of the pin 92 is detached from the pin receiving portion 91c as the movable bar 571 moves to the left against the elastic force of the compression spring 63. And is guided upward in the guide groove 91 along the inner wall convex portion 91d. In this way, the holding of the movable bar 571 by the position holding mechanism 90 is released. Thereafter, when the operation of the operation lever 54 is stopped, the movable bar 571 is slid counterclockwise in the guide groove 91 as the movable bar 571 is moved toward the initial position by the elastic force of the compression spring 63. The tip 92a of the pin 92 passes through the step portion 91b and returns to the position shown in FIG. 11A, so that the movable bar 571 also returns to the initial position. A part including the movable bar 571, the compression spring 63, and the position holding mechanism 90 is covered with a removable protective lid 861.
the flow rate change valve 48 includes a cylindrical valve holding portion 481 disposed in the middle of the beer flow pipe 441 and a valve body 482 rotatably held inside the valve holding portion 481.
the valve body 482 is formed with a flow passage 483 that can communicate with the beer flow pipe 441, and a pinion gear 484 is integrally provided at one end surface in the axial direction.
the rack gear 601 moves back and forth, the pinion gear 484 and the valve body 482 rotate, and the flow rate changing valve 48 opens as shown in FIG. 13 so that the flow path 483 communicates with the beer flow pipe 441. 14, the flow path 483 is closed so as not to communicate with the beer flow pipe 441.
the movable bar 571 moves to the beer flow pipe 441 side, and the rack gear 601 rotates the valve body 482 via the pinion gear 484 to change the flow rate.
the valve 48 is closed and the beer flow pipe 441 is closed.
the tip 92a of the pin 92 is fitted to the pin receiving portion 91c by the position holding mechanism 90, and the movable bar 571 is held at the movable position. Therefore, the user does not need to continue operating the operation lever 54.
the beer of the pitcher 10 can be poured out only from the dual-purpose flow pipe 451.
the flow rate changing mechanism 501 changes the amount of beer poured out from the spout 43 from a fixed amount to a small amount by closing at least one of the plurality of flow tubes.
the valve body 482 is rotated via the gear 484, the flow rate changing valve 48 is opened, the beer flow pipe 44 of the flow path 40 is unblocked, and the amount of beer poured out from the spout 43 is Change from small quantity to quantitative. That is, in this embodiment, the flow rate changing mechanism 501 configures a flow state changing mechanism that changes the flow state of beer flowing through the flow path 401 to at least the first or second discharge state, and the beer The state in which the flow-through pipe 441 is not blocked by the flow rate change valve 48 constitutes the first dispensing state, and the state in which the beer flow tube 441 is blocked by the flow rate change valve 48 is the second dispensing state. Configure.
the movable bar 57 includes an interlocking portion 641 formed to extend forward from above the action portion 56.
the interlocking unit 641 moves back and forth as the movable bar 57 slides, and turns on / off a start switch 751 of the ultrasonic generator 72 described later.
the start switch 571 is also maintained in the ON state even if the operation lever 54 is not continuously operated stably by the position holding mechanism 90.
the machine part 321 includes a housing part 701 accommodated in a space defined by the peripheral wall part 35 and the partition part 36 from above the main body part 311.
a pair of drop-off prevention levers 372 are disposed on the housing portion 701 so as to straddle the peripheral wall portion 35 of the pitcher 10.
a handle 702 is provided on the top surface of the housing portion 701.
the handle 702 is provided with a pair of button members 704 that are urged away from each other by a compression spring 703 provided inside the handle 702. ing.
the button member 704 is integrally formed with an extending portion 705 extending in the radial direction along the top surface of the housing portion 701, and the upper end of the drop-off prevention lever 372 is connected to the tip of the extending portion 705. ing.
the drop-off prevention lever 372 is disposed so as to be rotatable about the portion of the packing 381, extends outward from the upper end of the peripheral wall portion 35, and is engaged at the lower end of the outer periphery of the pitcher 10, such as a joint portion A claw portion 372 a for engaging with the knives 20 is provided.
the dispensing device 301 When the dispensing device 301 is attached to the pitcher 10, the dispensing device 301 is inserted downward with respect to the pitcher 10.
the claw portion 372a is pushed and spread while the tip inclined surface abuts against the joint portion 20 of the pitcher 10 and slides.
the drop prevention lever 372 rotates around the packing 381, whereby the extension portion 705 is moved radially inward against the elastic force of the compression spring 703.
the extension portion 705 is moved by the elastic force of the compression spring 703.
the drop prevention lever 372 is rotated about the portion of the packing 381, and the claw portion 372 a is locked to the joint portion 20.
the claw portion 372a of the drop prevention lever 372 is locked to the joint portion 20 of the pitcher 10, so that the pouring device 301 is securely fixed to the pitcher 10 and poured out from the pitcher 10 when pouring beer.
the risk of the device 301 dropping off unexpectedly is eliminated.
both button members 704 are pressed against the elastic force of the compression spring 703, both the extended portions 705 move inward in the radial direction, and both drop-off prevention levers 372 rotate around the packing 381 portion, The portion 372a is opened so as to be separated from the joint portion 20, and the locking is released.
the extraction device 301 can be removed from the pitcher 10 by lifting the extraction device 301 from the pitcher 10.
the casing 701 includes an ultrasonic generator 72 that constitutes the excitation mechanism 71, a substrate 73 on which a drive circuit for the ultrasonic generator 72 is mounted, and electric power supplied to the substrate 73 of the ultrasonic generator 72.
a battery box 74 that houses three AA type dry batteries as a source, an activation switch 751 for turning on / off the operation of the ultrasonic generator 72, and that the ultrasonic generator 72 is in a driving state.
An LED 85 that is turned on for notification and controlled so as to blink in order to prompt the replacement of the dry battery when the voltage of the dry battery falls below a predetermined threshold voltage is electrically connected and accommodated.
casing part 70 equips the cover part of the battery box 74 with the packing, and is equipped with the fastening mechanism fixed in the state which pressed the said cover part against the said packing, and is provided with waterproof performance of about IP04.
the start switch 751 is disposed at a position facing the interlocking portion 641 of the operation lever 54.
the interlocking portion 641 presses the start switch 751 by operating the operation lever 54, power from the dry battery stored in the battery box 74 is supplied to the substrate 73, and the drive circuit starts the ultrasonic generator 72.
the start switch 751 is kept on while being pressed.
the action unit 56 is separated from the activation switch 751, the supply of power to the substrate 73 is stopped, and the ultrasonic generator 72 is stopped.
the ultrasonic generator 72 is disposed such that the vibration surface 77 thereof abuts on the merging portion 461 in the flow path 401. Therefore, the joining portion 461 vibrates due to the ultrasonic waves generated by the ultrasonic generator 72, and beer is excited when it passes through the joining portion 461, and is extracted from the spout 43 as creamy foam.
the flow path 401 includes a beer flow pipe 441, a beer / foam combined flow pipe 451, a beer flow pipe 441 and a combined flow pipe 451.
the flow path 401 may be configured without the dual-purpose flow pipe 451, the merge part 461, and the second intake port 42.
the flow rate change valve 48 provided in the beer flow pipe 441 is closed by not closing the beer flow pipe 441 even when the movable bar 571 is in the movable position. It is comprised so that the flow volume of the sparkling drink poured out from the exit 43 may be made into a small quantity from fixed quantity.
the position holding mechanism 90 provided in the third embodiment described above can also be applied to the first and second embodiments. Since the movable bar 57 can be held at the pressed position by the position holding mechanism 90, the movable bar 57 is configured to keep blocking the tube even when the operation lever 54 is stopped. Therefore, the user does not need to keep operating the operation lever 54 when the foam is dispensed.
start switch 751 and the interlocking unit 641 included in the third embodiment can also be applied to the first and second embodiments.
the drop prevention lever 372 provided in the third embodiment can be applied to the first and second embodiments.
the pouring device 30 according to the present invention is not limited to the above-described double-structured pitcher 10 but can be configured to be attachable to other pitchers that do not have a heat insulating space, for example. Further, the dispensing device 30 is not limited to covering the entire opening of the pitcher 10. For example, a configuration in which a part of the opening is exposed may be used.
the portable container is the pitcher 10
the portable container may be a can, a bottle, or a resin container.
the case where a portable container is a can demonstrates to 4th embodiment of the extraction
the dispensing apparatus 100 includes a storage unit 111 that can store the can 101 from the opening 104 on the back surface, and a can stored in the storage unit 111.
a lower casing portion 102 provided with a piping portion 120 for pouring beer or foam from the first outlet 121 or the second outlet 122 provided above the front surface thereof, and a ceiling
the upper casing 103 is provided with a control unit 150 that controls the piping unit 120 and can dispense beer or foam.
a disc-shaped base 112 that is larger than the lower casing 102 is provided at the lower part of the lower casing 102, and the first spout 121 or the second spout 122 is provided in front of the base 112.
a receiving part 113 for receiving spilled beer or foam is provided.
the upper housing portion 103 includes a pair of engaging portions 107 on the side surface, and can be engaged with an engaged portion 108 disposed around the lower housing portion 102. By engaging / disengaging the engaging portion 107 and the engaged portion 108, the upper housing portion 103 is configured to be detachable from the lower housing portion 102.
a placement portion 114 having a convex portion that can be fitted into a recess on the bottom surface of the can 101 is disposed.
An inclined surface 115 whose depth gradually increases along the circumferential direction is disposed on the bottom surface of the mounting portion 114.
a lower sliding member 116 having a handle 116 a is disposed inside the base portion 112 and below the placement portion 114.
the lower sliding member 116 slides around the axis in the base portion 112 by operating the handle 116a around the axis of the can 101 in the vertical direction.
the lower sliding member 116 is provided with a protruding portion 117 that can contact the inclined surface 115 of the mounting portion 114.
the protruding portion 117 has a length that is approximately the same as the depth of the deepest portion of the inclined surface 115.
the protruding portion 117 slides along the inclined surface 115 as the lower sliding member 116 slides, and as the inclined surface 115 becomes shallower, the difference between the deepest portion and the shallowest portion of the inclined surface 115.
the placement unit 114 is pushed up by this amount.
a packing 118 capable of covering the top surface of the can 101 is disposed above the lower casing 102.
the packing 118 is formed with a recess 119 capable of accommodating the winding fastening portion 105 at a position corresponding to the winding fastening portion 105 around the top surface of the can.
the distance from the mounting portion 114 to the packing 118 is slightly shorter than the distance obtained by adding the difference between the deepest portion and the shallowest portion of the inclined surface 115 to the height of the can 101, and the mounting portion 114 has the lowest distance. The distance is set so that the can 101 can be placed smoothly when in position.
the distance from the tightening portion 105 to the recess 119 of the can 101 is set to a distance shorter than the difference between the deepest portion and the shallowest portion of the inclined surface 115, and when the placement portion 114 is pushed upward
the winding tightening portion 105 is configured to be pressed against the concave portion 119. Accordingly, when the can 101 is placed on the placement unit 114 in a state where the placement unit 114 is at the lowest position and the placement unit 114 is pushed up by operating the handle of the lower sliding member 116, the can The winding portion 105 of 101 is pressed against the concave portion 119 of the packing 118 and is firmly sealed.
the distance from the mounting part 114 to the packing 118 is set on the basis of the height of the 500 mL can so that the can 101 can mount any of the 500 mL can, the 350 mL can, and the 330 mL can. Therefore, when using a 350 mL can or a 330 mL can, a spacer member for compensating for the difference in height from the 500 mL can is placed on the placement portion 114, and the 350 mL can or 330 mL can is placed on the spacer member. Will be placed.
the opening 104 is also set to a size that allows 500 mL cans to be taken in and out.
a pipe 123 that can be inserted into the drinking mouth 106 formed by operating the tab of the can 101 is suspended.
the pipe 123 has a length at which the lower end intake port 123a sufficiently reaches the bottom surface of the can 101, and the upper end penetrates the packing 118 and is connected to the pipe part 120.
the packing 118 is provided with a gas flow path 124 through which gas flows from the piping part 120 side to the can 101 side or gas flows out from the can 101 side to the piping part 120 side.
Exterior parts such as the upper casing portion 103, the lower casing portion 102, the base portion 112, and the placement portion 114 are molded from a synthetic resin such as ABS resin.
the piping part 120 is equipped with the manifold 125 by which the beer taken in from the intake 123a is buffered, and the 1st extraction pipe
the cross-sectional area of the first extraction pipe 126 is set to be larger than the cross-sectional area of the second extraction pipe 127.
the material which comprises the piping part 120 and the appropriate material which does not affect the quality of the beer which flows through the inside are selected, For example, resin, such as PP, POM, and ABS resin, is illustrated preferably.
the piping unit 120 includes a chamber 130 that communicates with the gas flow path 124.
the chamber 130 communicates with the discharge port 131 that communicates with the external space. Therefore, the path from the can 101 to the external space via the gas flow path 124, the chamber 130, and the discharge port 131 constitutes a discharge path.
the upper casing unit 103 includes an excitation mechanism 140 that vibrates the second flow path 129 of the piping unit 120, a gas supply mechanism A that supplies gas to the chamber 130, and these control units 150. I have.
the vibrating mechanism 140 includes an ultrasonic generator 141 that applies vibration to the beer flowing through the second flow path 129.
the gas supply mechanism A includes a pump 170 and a motor 171 that drives the pump 170.
the control unit 150 is a battery box that houses a drive circuit for the ultrasonic generator 141, a board on which the drive circuit for the motor 171 is mounted, and two AA batteries serving as power sources supplied to the board.
the start switch 173 for turning on / off the ultrasonic generator 141 and the start switch 172 for turning on / off the motor 171 are electrically connected.
the power source is not limited to the above-described dry battery, and any power source may be used as long as power necessary for driving the ultrasonic generator 141 and the motor 171 is obtained.
the ultrasonic generator 141 is an ultrasonic generator having a piezoelectric element driven by a drive circuit mounted on the substrate, and is configured to generate ultrasonic waves having a predetermined vibration frequency and vibration amplitude. Yes.
the vibration frequency is preferably set to about 20 to 40 kHz.
the ultrasonic generator 141 has its vibration surface in a state in which the periphery is guided downward in the upper casing portion 103 and is urged downward by a compression spring 144 (see FIG. 19) disposed inside. 145 is configured to be exposed to the outside, and the vibration surface 145 is disposed so as to contact the second flow path 129.
the second flow path 129 is vibrated by the ultrasonic waves generated by the ultrasonic generator 141, and the beer is excited to foam when passing through the second flow path 129, thereby becoming creamy foam. It is poured out from the spout 122.
the start switch 173 When the operation lever 164 is tilted, the start switch 173 is turned on, the power from the dry battery is supplied to the substrate, and the drive circuit starts the ultrasonic generator 141.
the start switch 173 is kept on while the operation lever 164 is tilted.
the start switch 173 When the operation lever 164 is returned to its original position, the start switch 173 is turned off, the supply of power to the substrate is stopped, and the ultrasonic generator 141 is stopped.
the vibration mechanism 140 is interlocked with the operation of the operation lever 164, and when the first valve body 152 is closed and the second valve body 152 is opened, that is, the first flow path 128 is closed. It is activated when the second flow path 129 is in communication. Of the beers flowing through the first flow path 128 and the second flow path 129, only the beer flowing through the second flow path 129 foams.
the drive circuit may drive the ultrasonic generator 141 so as to generate an ultrasonic wave with a constant vibration frequency and vibration amplitude, or may be generated by the ultrasonic generator 141 while maintaining the ON state once.
the vibration frequency and vibration amplitude of the vibration to be changed may be changed.
the fineness of the foam texture can be changed according to the time when the foam is poured out.
the drive circuit may be provided with an adjustment unit that can variably set the vibration frequency and vibration amplitude of the vibration generated by the ultrasonic generator 141 as well as turning on / off the ultrasonic generator 141.
the state of the bubble poured out can be freely adjusted by changing the vibration frequency and vibration amplitude by the adjustment unit. Since the state of the generated foam varies depending on the state, type, and brand such as the temperature of beer, a plurality of optimum settings may be stored for each brand.
the installation position of the ultrasonic generator 141 can be arbitrarily selected as long as the ultrasonic vibration can be applied to the beer flowing through the second flow path 129.
the ultrasonic generator 141 may be configured to be in contact with the second flow path 129 at all times, or may be configured to be in contact with the second flow path 129 only during vibration.
route 129 or exposed to the inner wall of the 2nd flow path 129, and gives a vibration directly to beer may be sufficient.
the number of ultrasonic generators 141 is not limited to one, and a plurality of ultrasonic generators 141 may be provided.
the drive circuit mounted on the board is provided with delay means, and the ultrasonic generator 141 is activated after a predetermined time after the activation switch 173 is turned on, activated for a predetermined time by a timer, or a combination thereof. May be.
the pump 170 is configured to be driven by a motor 171 driven by a driving circuit mounted on the substrate and to supply outside air to the chamber 130.
the pressure of the gas to be supplied is set to a predetermined pressure at which beer can be poured out from the first outlet 121 or the second outlet 122 by pressing the liquid level of the beer inside the can 101.
the start switch 172 When the operation lever 164 is tilted, the start switch 172 is turned on, the power from the dry battery is supplied to the substrate, and the drive circuit starts the motor 171.
the start switch 172 is kept on while the operation lever 164 is tilted.
the start switch 172 When the operation lever 164 is returned to the original position, the start switch 172 is turned off, the supply of power to the substrate is stopped, and the motor 171 is stopped.
the gas When the gas is supplied to the chamber 130 by the pump 170, the gas is separated from the space defined by the packing 118 and the top surface of the can 101 via the gas flow path 124, and the inner surface of the can 101 via the drinking hole 106. It is supplied to the space partitioned by the liquid level of beer.
the internal pressure of the can 101 is increased by the gas supplied by the pump 170, that is, the liquid level of the beer is pressed downward, and the beer is pushed out to the manifold 125 through the intake port 123 a and the pipe 123. And it pours out from the 1st outflow port 121 or the 2nd outflow port 122 via the 1st flow path 128 or the 2nd flow path 129.
control part 150 is the 1st valve body 151 which can obstruct
the first valve body 151 includes a valve body 151b that is slidably accommodated in the valve support 151a, a valve head 151c connected to the upper end of the valve body 151b, and a lower part of the valve body 151b.
the valve leg 151d is provided.
a compression coil spring 151e that urges the first valve body 151 upward is disposed between the valve support portion 151a and the valve head portion 151c.
the valve leg portion 151d is configured by a bellows member whose upper end is fixed to the valve support portion 151a side, and whose lower end is movable up and down as the valve body portion 151b moves up and down.
the valve head 151c is pressed downward against the elastic force of the compression coil spring 151e
the valve main body 151b moves downward in the valve support 151a by the elastic force
the valve leg 151d is formed on the lower surface thereof.
the flow hole 126a from the manifold 125 to the first extraction pipe 126 is closed.
control unit 150 includes a cam mechanism 160 that controls opening and closing of the valve bodies 151, 152, and 153 based on the operation of the operation lever 164.
the cam mechanism 160 includes a shaft portion 165 to which an operation lever 164 is attached, a support body 166 that pivotally supports the shaft portion 165, a first cam 161 attached to the shaft portion 165, A second cam 162 and a third cam 163 are provided.
the first cam 161, the second cam 162, and the third cam 163 rotate with the rotation of the shaft portion 165 by the operation of tilting the operation lever 164, and the first valve body 151, the second valve on the peripheral surface thereof It is comprised with the plate cam which can press the body 152 and the 3rd valve body 153 below.
the first cam 161 releases the downward pressure of the first valve body 151 when the operation lever 164 is tilted to one side, and the first cam body 151 is moved when the operation lever 164 is not tilted or tilted to the other side. It has an eccentric shape so as to press downward.
a restricting portion 161b is formed to extend upward when the operation lever 164 is not tilted.
the restricting portion 161b abuts against a stopper provided on the support body 166 and restricts further rotation of the operation lever 164.
the operation lever 164 when the operation lever 164 is inclined to the one side with respect to the first cam 161 by the torsion spring 161c provided on the side of the first cam 161, the operation lever 164 is moved to the other side by the elastic force. You may comprise so that rotation more than necessary of the operation lever 164 may be controlled by energizing. Moreover, you may combine these.
An extending portion 161 a that extends outward is formed on the peripheral surface of the first cam 161, and when the operation lever 164 is not tilted or tilted to one side, the extending portion 161 a is connected to the start switch 172 of the pump 170. Although it is separated, when the operation lever 164 is tilted to the other side, the extending portion 161 a is configured to be in contact with the start switch 172 of the pump 170 to be turned on. Furthermore, the start switch 173 of the vibration mechanism 140 is disposed only on the first cam 161 side and on the side of the start switch 172, and the extension portion 161a can be turned on / off simultaneously with the on / off of the start switch 172. It is configured to be made.
the second cam 162 has basically the same shape as the first cam 161, but is arranged so as to be 180 degrees rotationally symmetric with respect to the operation lever 164.
a restricting portion 162b is formed to extend upward when the operation lever 164 is not tilted.
the restricting portion 162b comes into contact with a stopper provided on the support body 166 and restricts further rotation of the operating lever 164.
the operation lever 164 is tilted to the other side with respect to the second cam 162 by the torsion spring 162c provided on the side of the second cam 162, the operation lever 164 is moved to the one side by its elastic force. You may comprise so that rotation more than necessary of the operation lever 164 may be controlled by energizing. Moreover, you may combine these.
An extended portion 162a extending outward is formed on the peripheral surface of the second cam 162, and when the operation lever 164 is not inclined or when the operation lever 164 is inclined to the one side, the second valve body 152 is moved downward. When pressed and inclined to the other side, the downward pressing of the second valve body 152 is released. When the operation lever 164 is tilted to the one side, the projecting portion 162a comes into contact with the start switch 172 of the pump 170 and turns on. When the operation lever 164 is not tilted or tilted to the other side, the projecting portion 162a It is configured to be separated from the start switch 172.
the third cam 163 presses the third valve body 153 downward when the operation lever 164 is tilted to the one and the other, and does not press the third valve body 153 downward when the operation lever 164 is not tilted. It has an eccentric shape.
a flow state changing mechanism that can select a second discharge state in which bubbles are discharged through the second flow path 129 when tilted is configured.
the flow state changing mechanism is configured such that when the operation lever is tilted to the other side, the beer is poured through the first flow path 128 and the operation lever 164 is tilted to the one side. You may comprise so that selection of the 2nd extraction state which pours a bubble through the 2nd flow path 129 sometimes is possible.
the flow state changing mechanism opens the discharge port 131 when neither the first flow path 128 nor the second flow path 129 is selected, that is, when the operation lever 164 is not tilted, The gas supplied into the interior of 101 is extracted, and the increased internal pressure is returned to atmospheric pressure. By releasing the pressurized state inside the can 101 in this way, the possibility that beer or foam is unexpectedly poured out from the first spout 121 or the second spout 122 is prevented.
the beer pouring using the pouring device 100 configured as described above will be described.
the user opens the drinking port 106 of the beer can 101 and inserts the intake port 123a of the pipe 123 suspended in the accommodating portion 111 of the pouring device 100 into the drinking port 106 while the can 101 Is placed on the placement unit 114 in the storage unit 111.
the handle 116 a of the base portion 112 is slid to push up the placement portion 112, and it is confirmed that the winding tightening portion 105 of the can 101 is fitted in the recess 119 of the packing 118.
the operation lever 164 is tilted to one side while being applied in the vicinity of the first spout 121 and the second spout 122 with the mug or the like tilted.
the pump 170 is driven, the internal pressure of the can 101 is increased by the gas supplied by the pump 170, the beer liquid level is pressed downward, and the beer is fed to the manifold 125 via the intake port 123 a and the pipe 123. Extruded and discharged from the first outlet 121 through the first flow path 128. At this stage, pour gently to reduce foaming in the mug as much as possible.
the user returns the operation lever 164 to a state where it is not tilted.
the operation lever 164 is tilted to the other side.
the pump 170 is driven again, the internal pressure of the can 101 is increased by the gas supplied by the pump 170, the beer liquid level is pressed downward, and the beer is fed to the manifold 125 via the intake port 123 a and the pipe 123. And is discharged from the second outlet 122 through the second flow path 129.
the drive circuit activates the vibration exciting mechanism 140 and vibrates the second flow path 129, so that when the beer passes through the second flow path 129, vibration is applied and foaming is excited, and the second Beer poured out from the spout 122 becomes creamy foam and is poured out into a mug or the like.
the user When a desired amount of foam is poured into a mug or the like, the user returns the operation lever 164 to a state where it is not tilted. As described above, an appropriate amount of creamy foam can be added to beer poured into a mug or the like without requiring skill.
beer has been described as an example of an effervescent beverage, it is not limited to this, and it may be a sparkling liquor, a cider, a so-called low alcoholic beverage, or the like.
a drink is not restricted to the drink containing alcohol, The drink which does not contain alcohol may be sufficient.

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Devices For Dispensing Beverages (AREA)
Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)
Engineering & Computer Science (AREA)
Mechanical Engineering (AREA)

PCT/JP2014/068577 2013-07-12 2014-07-11 注出装置 WO2015005474A1 (ja)

Priority Applications (4)

Application Number	Priority Date	Filing Date	Title
SG11201600178TA SG11201600178TA (en)	2013-07-12	2014-07-11	Pouring device
KR1020167003503A KR102205816B1 (ko)	2013-07-12	2014-07-11	주출 장치
CN201480050346.0A CN105722436B (zh)	2013-07-12	2014-07-11	流出装置
HK16110455.9A HK1222101A1 (zh)	2013-07-12	2016-09-02	流出裝置

Applications Claiming Priority (4)

Application Number	Priority Date	Filing Date	Title
JP2013146940		2013-07-12
JP2013-146940		2013-07-12
JP2014017887A JP6227433B2 (ja)	2013-07-12	2014-01-31	注出装置
JP2014-017887		2014-01-31

Publications (1)

Publication Number	Publication Date
WO2015005474A1 true WO2015005474A1 (ja)	2015-01-15

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ID=52280151

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
PCT/JP2014/068577 WO2015005474A1 (ja)	2013-07-12	2014-07-11	注出装置

Country Status (7)

Country	Link
JP (1)	JP6227433B2 (zh)
KR (1)	KR102205816B1 (zh)
CN (1)	CN105722436B (zh)
HK (1)	HK1222101A1 (zh)
SG (1)	SG11201600178TA (zh)
TW (1)	TWI619653B (zh)
WO (1)	WO2015005474A1 (zh)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
WO2017105552A1 (en) *	2015-12-14	2017-06-22	Fizzics Group Llc	Beer dispenser with ultrasonic foaming mechanism for bulk-storage container
US9745187B2 (en)	2015-05-05	2017-08-29	Fizzics Group Llc	Carbonated fluid dispenser with ultrasonic foaming mechanism
US9895667B2 (en)	2015-05-05	2018-02-20	Fizzics Group Llc	Carbonated fluid dispenser with ultrasonic foaming mechanism

Families Citing this family (10)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
JP6598509B2 (ja) *	2015-05-19	2019-10-30	有限会社ユタカ産業	注出装置
KR101807359B1 (ko) *	2015-08-28	2017-12-11	씨제이제일제당 (주)	발효식품 보관 용기
JP2018122892A (ja) *	2017-01-31	2018-08-09	株式会社グリーンハウス	振動付与装置
JP6160890B1 (ja) *	2017-03-31	2017-07-12	株式会社グリーンハウス	液体供給機
KR102304505B1 (ko) *	2017-07-21	2021-09-23	도판 인사츠 가부시키가이샤	초음파 진동 부여 장치
JP6934664B2 (ja) *	2017-11-21	2021-09-15	フジテクノ株式会社	飲料案内管付き交換部品、飲料案内管付き交換部品とディスペンスヘッドとの組み合わせ、飲料案内管付き交換部品と注出コック部との組み合わせ、および、交換部品の取付方法
JP7217512B2 (ja) *	2018-01-19	2023-02-03	フジテクノ株式会社	発泡性飲料の注出方法、および、発泡性飲料の注出装置
TWI667187B (zh) *	2018-11-28	2019-08-01	先進動力實驗股份有限公司	加壓液體保存裝置及其配送方法
JP7263395B2 (ja) *	2018-12-27	2023-04-24	サントリーホールディングス株式会社	発泡性飲料の注出装置
JP7204191B2 (ja) *	2018-12-28	2023-01-16	フジテクノ株式会社	発泡性飲料注出装置

Citations (5)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
JPH04253691A (ja) *	1991-02-04	1992-09-09	Daiichi Denki Kk	ビール超音波泡付け装置と方法
JP2003165599A (ja) *	2001-11-28	2003-06-10	Mitsumi Electric Co Ltd	発泡促進装置
JP3100108U (ja) *	2003-08-28	2004-04-30	株式会社タイザー	泡立て用サーバー
JP2012144258A (ja) *	2011-01-06	2012-08-02	Tekkusu Iijii:Kk	容器入り発泡飲料用泡立て装置
JP2014150727A (ja) *	2013-02-05	2014-08-25	Tekkusu Iijii:Kk	瓶入り発泡飲料用泡立て装置

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
JP2000327096A (ja)	1999-05-14	2000-11-28	Sapporo Breweries Ltd	発泡性飲料注出用タップ及びこれを備えた注出装置
JP4394863B2 (ja) *	2001-09-25	2010-01-06	サッポロビール株式会社	ガス含有アルコール飲料の注出方法
US7021206B2 (en) *	2002-06-18	2006-04-04	Eckenhausen Roland B	Hot dairy-based beverage dispenser

2014
- 2014-01-31 JP JP2014017887A patent/JP6227433B2/ja active Active
- 2014-07-11 KR KR1020167003503A patent/KR102205816B1/ko active IP Right Grant
- 2014-07-11 WO PCT/JP2014/068577 patent/WO2015005474A1/ja active Application Filing
- 2014-07-11 CN CN201480050346.0A patent/CN105722436B/zh active Active
- 2014-07-11 SG SG11201600178TA patent/SG11201600178TA/en unknown
- 2014-07-11 TW TW103124205A patent/TWI619653B/zh active
2016
- 2016-09-02 HK HK16110455.9A patent/HK1222101A1/zh unknown

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
JPH04253691A (ja) *	1991-02-04	1992-09-09	Daiichi Denki Kk	ビール超音波泡付け装置と方法
JP2003165599A (ja) *	2001-11-28	2003-06-10	Mitsumi Electric Co Ltd	発泡促進装置
JP3100108U (ja) *	2003-08-28	2004-04-30	株式会社タイザー	泡立て用サーバー
JP2012144258A (ja) *	2011-01-06	2012-08-02	Tekkusu Iijii:Kk	容器入り発泡飲料用泡立て装置
JP2014150727A (ja) *	2013-02-05	2014-08-25	Tekkusu Iijii:Kk	瓶入り発泡飲料用泡立て装置

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US9745187B2 (en)	2015-05-05	2017-08-29	Fizzics Group Llc	Carbonated fluid dispenser with ultrasonic foaming mechanism
US9895667B2 (en)	2015-05-05	2018-02-20	Fizzics Group Llc	Carbonated fluid dispenser with ultrasonic foaming mechanism
WO2017105552A1 (en) *	2015-12-14	2017-06-22	Fizzics Group Llc	Beer dispenser with ultrasonic foaming mechanism for bulk-storage container

Also Published As

Publication number	Publication date
JP2015034057A (ja)	2015-02-19
HK1222101A1 (zh)	2017-06-23
TWI619653B (zh)	2018-04-01
KR20160030293A (ko)	2016-03-16
CN105722436B (zh)	2017-10-13
TW201520143A (zh)	2015-06-01
JP6227433B2 (ja)	2017-11-08
CN105722436A (zh)	2016-06-29
SG11201600178TA (en)	2016-02-26
KR102205816B1 (ko)	2021-01-20

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WO2015005474A1 - 注出装置 - Google Patents

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