EP0164218A2 - Appareil à siphon - Google Patents

Appareil à siphon Download PDF

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Publication number
EP0164218A2
EP0164218A2 EP85303227A EP85303227A EP0164218A2 EP 0164218 A2 EP0164218 A2 EP 0164218A2 EP 85303227 A EP85303227 A EP 85303227A EP 85303227 A EP85303227 A EP 85303227A EP 0164218 A2 EP0164218 A2 EP 0164218A2
Authority
EP
European Patent Office
Prior art keywords
syphon
head
valve
container
package
Prior art date
Legal status (The legal status 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 status listed.)
Granted
Application number
EP85303227A
Other languages
German (de)
English (en)
Other versions
EP0164218A3 (en
EP0164218B1 (fr
Inventor
Richard J. Hagan
Dennis A. Lempert
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
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 US06/635,450 external-priority patent/US4671436A/en
Priority claimed from US06/687,296 external-priority patent/US4660748A/en
Priority claimed from US06/704,763 external-priority patent/US4617973A/en
Application filed by Individual filed Critical Individual
Priority to AT85303227T priority Critical patent/ATE48827T1/de
Publication of EP0164218A2 publication Critical patent/EP0164218A2/fr
Publication of EP0164218A3 publication Critical patent/EP0164218A3/en
Application granted granted Critical
Publication of EP0164218B1 publication Critical patent/EP0164218B1/fr
Expired legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B67OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
    • B67CCLEANING, FILLING WITH LIQUIDS OR SEMILIQUIDS, OR EMPTYING, OF BOTTLES, JARS, CANS, CASKS, BARRELS, OR SIMILAR CONTAINERS, NOT OTHERWISE PROVIDED FOR; FUNNELS
    • B67C3/00Bottling liquids or semiliquids; Filling jars or cans with liquids or semiliquids using bottling or like apparatus; Filling casks or barrels with liquids or semiliquids
    • B67C3/02Bottling liquids or semiliquids; Filling jars or cans with liquids or semiliquids using bottling or like apparatus
    • B67C3/22Details
    • B67C3/24Devices for supporting or handling bottles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B67OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
    • B67CCLEANING, FILLING WITH LIQUIDS OR SEMILIQUIDS, OR EMPTYING, OF BOTTLES, JARS, CANS, CASKS, BARRELS, OR SIMILAR CONTAINERS, NOT OTHERWISE PROVIDED FOR; FUNNELS
    • B67C3/00Bottling liquids or semiliquids; Filling jars or cans with liquids or semiliquids using bottling or like apparatus; Filling casks or barrels with liquids or semiliquids
    • B67C3/02Bottling liquids or semiliquids; Filling jars or cans with liquids or semiliquids using bottling or like apparatus
    • B67C3/06Bottling liquids or semiliquids; Filling jars or cans with liquids or semiliquids using bottling or like apparatus using counterpressure, i.e. filling while the container is under pressure
    • B67C3/065Filling siphons, e.g. carbonating beverages during filling
    • 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
    • B67D1/04Apparatus utilising compressed air or other gas acting directly or indirectly on beverages in storage containers
    • B67D1/0456Siphons, i.e. beverage containers under gas pressure without supply of further pressurised gas during dispensing

Definitions

  • This invention relates to the storage and dispensing of water or flavored beverages under gas pressure of between 90 and 150 psi (10 atmospheres). Such products are commonly known as syphon seltzer water, as distinguished from present day bottled sparkling waters or lightly carbonated flavored beverages which are charged to pressures of 50 to 60 psi (3 to 4 atmospheres). For further purposes of comparison, champagne is under about 6 to 7 atmospheres of pressure.
  • This invention further relates to a simplified syphon assembly for use to dispense liquids stored in a container under pressure and to a package incorporating the syphon assembly. This invention also relates to an improved closure especially configured for fabrication in a single molding step.
  • this invention relates to such a closure that is tamper-resistant prior to actuation by an end user.
  • this invention relates to a modified form of a seltzer bottle filling apparatus and to a process for filling a seltzer bottle having a detachable head with the head detached. More particularly, it relates to such an apparatus and process in which such a seltzer bottle is filled through a valve mechanism that remains on the bottle.
  • Syphon seltzer water up until now, however, because of the use of high pressures in glass bottles was a victim of several factors: (1) the high cost of products liability insurance; a heavy glass bottle exploding under a pressure of 150 psi can inflict awesome damage; (2) the high cost of heavy glass bottle manufacture; (3) the high cost of tin, rubber, and brass used in the manufacture of the pewter heads and valves; (6) the high cost of bottle delivery and pick-up of the heavy, fragile bottles; (7) the high cost and difficulty in sanitizing the returned bottles, and especially the returned heads and valves; and ultimately (8) the switch by the mass market to lightly carbonated flavored drinks in disposable cans and thin bottles.
  • the syphon seltzer water industry died, not for a good product, but for the variety of reasons set forth above which related to its storage, distribution and dispensing problems.
  • the forerunner of the present day syphon seltzer bottle was patented in 1837 by Antoine Perpigna of Paris, France.
  • the vase was made of metal, glass, china or stoneware and the head of the syphon was hollow and contained a piston, pressed down by a spring into close contact with the upper end of the tube passing to the bottom of the vase.
  • the method of attaching these early head mechanisms to the bottle or vessel is unknown to applicant but it appears from the articles that there was some sort of external collar mechanism, or perhaps the head mechanism which protruded above the bottle was adhesively affixed to the bottle.
  • the split collar mechanism which was universally adopted and is still in use today was invented in about 1855 by the Comte de Fontainemoreau and George Rogers. They used a bottle made with a groove around the outer wall of the neck into which was fitted a ring of metal divided into two segments which formed a shoulder for securing a screwed collar.
  • the problem with the Rogers mechanism and virtually every mechanism for syphon seltzer water to the present day is the fact that the head mechanism, containing the valve and spout, must be assembled on the bottle before filling.
  • the bottle is filled through the head mechanism and the entire assembly of head and filled water bottle must be transported from the factory, through the distribution chain, to the customer and then after the contents are emptied, the bottle and head must be returned through the distribution chain, back to the factory for filling. After sanitizing, the bottle is refilled through the head.
  • the seltzer industry as it was known for one hundred years, died because of the lack of a container system, not because any superior product replaced it.
  • the head - bottle combination is inverted in a cradle, a nozzle is connected to the spout of the head, the lever of the head is depressed to open the valve disposed in the head, and the seltzer water enters the bottle through the head and the syphon tube.
  • a sequence of fill and sniff operations is carried out by the filling apparatus in order to remove air displaced by the seltzer water as the bottle fills.
  • the present invention recognizes and fulfills the one basic commercial fact of our day; a beverage product must meet all of the requirements for distribution and sale through our present day supermarket system. These requirements are (1) Safety; the container must not explode even if mishandled. (2) Inexpensive; the bottle and valve must be so inexpensive that they need not be returned and routed back through the chain of distribution to the factory. (3) The bottle and valve must be light weight; water is already a heavy product and the container cannot add appreciably to the weight or containers of sufficient volume cannot be handled through the checkout stand and be bagged along with other grocery products. (4) The bottle must be made of a material that can be recycled in those states which have instituted laws for the recycling of containers. (5) The head mechanism must be simple, yet easily attached and detached from the container so that most everyone can accomplish the process without any danger or effort.
  • the key to the accomplishment of the above objectives is the separation of the head and valve actuation function from the valve and seal function and the selection of a high strength, non-frangible container.
  • the valve and seal mechanism are contained almost totally within the neck of the container, while the head, which contains the valve actuator, is a separate member which can be retained by the consumer and used over and over again.
  • the container may be charged up to 150 psi. To emphasize the high capacity of the container, it is to be noted that 150 psi is the bursting pressure of standard glass bottles used for lightly carbonated beverages.
  • a container system for storing and dispensing a pressurized fluid in accordance with one aspect of this invention includes a substantially non-frangible container having a necked opening with an inside surface.
  • a valve insert is fixedly attached to the inside surface of the necked opening.
  • a removable cap is attached to the necked opening over the valve insert.
  • a dispensing head is configured for fixed, removable engagement over the necked opening after removal of the cap.
  • the dispensing head includes a body having an opening for discharge of the fluid and a valve actuating member in the head configured for operative engagement of the valve when the dispensing head is in fixed engagement over the necked opening.
  • the head has a means for attaching the head in fixed engagement over the necked opening, such as threads on the head body.
  • the non-frangible container is fitted with the valve mechanism.
  • the container is filled with carbonated water to a pressure from about 90 to 150 psi.
  • a standard aluminum screw type cap or other simple closure is placed on the bottle. The cap is under no pressure and merely serves to protect the valve from contamination and accidental discharge if the valve should break away from the neck.
  • the container is distributed through the standard distribution channels like any other bottled or canned beverage, without any special precautions and shelved in a supermarket along with the standard lightly carbonated flavored beverages, which are under the greatly reduced pressure of about 50 to 60 psi.
  • the container is distributed and shelved without the head and spigot mechanism.
  • the head and spigot may be sold separately or distributed free of charge with the sale of one or more containers.
  • the customer refrigerates the container of seltzer water and, before using, removes the disposable cap and attaches the head mechanism to the container.
  • the high pressure is sufficient to discharge the entire contents of the container without appreciable loss of carbonation due to the use of the syphon tube.
  • the head When the entire contents of the container have been discharged, the head may be detached and placed on a freshly refrigerated container of seltzer water.
  • the used syphon seltzer non-frangible container may be discarded or recycled by returning it to a recycling center as desired.
  • the head When the head is tightly attached to the container, should the valve leak, the head will hold the pressure. In the unlikely event that the valve should break away from the neck of the container, the head would safely hold the damaged valve within the head.
  • the present containers cannot be accidentally discharged.
  • the head is never placed on the container until it is ready for use.
  • the only way to discharge the container of the present invention while it is in the distribution chain is to remove the protective cap, throw it away, and then poke a small long, sharp object down through a small hole in the valve which is down inside the neck of the container.
  • the cap may be provided with a tamper proof lower skirt.
  • the syphon head assembly of this invention is for use with a container having a necked opening and holding a beverage or other liquid under pressure.
  • the syphon assembly has a tube dimensioned to extend from the necked opening into the liquid in the container.
  • a valve is positioned proximate to the necked opening end of the tube.
  • the valve has a frustoconical shaped resilient sealing member having an open base engaging the tube and a top normally biased by the resilient sealing member into sealing engagement with a passageway of the valve for the liquid to flow from the container through the necked opening.
  • An actuating member is positioned in a syphon head to apply force to deform the resilient sealing member to move its top out of the sealing engagement with the passageway of the valve.
  • the resilient sealing member has a plurality of apertures spaced around the top to allow the liquid to pass from the tube to the passageway of the valve when the resilient sealing member is deformed.
  • a means extends from the syphon head for applying force to the actuating member to deform the sealing member.
  • the syphon head has a body with threads or other means for attaching the syphon head to the necked opening.
  • the syphon assembly has a valve inserted in the necked opening for releasably confining a liquid under pressure in the container.
  • a syphon head has a body configured for attachment to the necked opening.
  • An actuating member for opening the valve is fixedly attached to the body.
  • the actuating member incorporates, in integrated form, a rod extending downward within the body for engaging the valve when the body is attached to the necked opening, a resilient diaphragm extending substantially normal to the rod, and a ring portion surrounding the resilient diaphragm for attaching the actuating member to the body.
  • the syphon assembly incorporates both the above novel resilient sealing member and the above novel actuating member.
  • the syphon head body and actuating member may be separated from the valve without releasing pressure in the container.
  • the container holding the liquid under pressure, with the closed valve in place, and a conventional closure provided over the necked opening, are distributed separately from the syphon head with the actuating member, which are attached to the package for dispensing pressurized beverage or other liquid.
  • a container closure in accordance with this invention is a head configured to fit over a necked opening of a container in sealing relationship.
  • a lever for operative engagement of the valve actuating means has a first end and a second end.
  • the lever is integrally formed with the head and is attached to an exterior surface of the head by at least one break away member.
  • the head has a first opening for insertion of the first lever end operatively to engage the valve actuating means.
  • the lever is configured so that the second lever end extends through the head opening for application of actuating force in a given direction by a user when the first lever end operatively engages the valve actuating means.
  • the lever is further permanently attached to the exterior surface of the head by a resilient biasing member, which is configured to apply biasing force in opposition to the actuating force in the given direction.
  • the resilient biasing member is preferably further configured to pivot the first lever end through the first opening into operative engagement with the valve actuating means when the break away member is broken away.
  • the valve actuating means also preferably comprises an upwardly extending rod having a first end with a transversely extending opening configured to receive the first lever end.
  • the rod has a second, valve sealing end.
  • the rod is attached to an interior surface of the head by a resilient diaphragm, and the resilient diaphragm is configured to apply biasing force to the rod in opposition to the actuating force.
  • the rod and diaphragm may be integrally formed with the head.
  • the container closure of the invention is formed as one piece, including the lever attached to the exterior surface of the head, and the resilient diaphragm and rod assembly attached to the interior surface of the head.
  • a filling apparatus in accordance with this invention includes a cradle movably attached to the apparatus and configured to receive a syphon package in a first orientation.
  • a permanent syphon filling head is attached to the apparatus proximate to a necked opening of the syphon package when the package is loaded in the cradle.
  • a pivoting means mechanically coupled to the cradle moves the cradle from the first orientation to a second orientation in which the necked opening of the syphon package is directed downward.
  • a biasing means activated during the cradle pivoting urges the syphon package into engagement with the permanent syphon filling head.
  • a head activating means activates the head to open a valve in the neck of the syphon package.
  • a source of seltzer water or other liquid under pressure connected to the permanent syphon filling head then fills the syphon package through the syphon head and valve and syphon tube of the package. The valve is then closed and the cradle returned to the first orientation to move the filled syphon package out of engagement with the permanent filling head.
  • the permanent filling head and the biasing means are on the cradle, so that a modified cradle incorporating these elements may simply replace the conventional cradle on present syphon seltzer bottle filling machines.
  • This invention provides a simple modification to the apparatus and process conventionally employed for filling syphon seltzer packages with attached heads so that this apparatus and process can be used in modified form to accomodate syphon packages without attached heads.
  • Existing equipment therefore can be used with a new type of package without extensive modification.
  • the method of the present invention for storing and dispensing fluids containered under gas pressure comprises selecting a plastic, metal, composite or other substantially non-frangible container 1 capable of safely withstanding in excess of three atmospheres of pressure and preferably a 1.8 liter bottle capable of safely carrying liquids at 150 psi (10 atmospheres).
  • the container is formed with a neck portion 2 having an external attachment member 3.
  • the bottle is an 18 to 20 mil polyester terephthalate (PET) ⁇ bottle.
  • PET polyester terephthalate
  • PET polyester terephthalate
  • One of the manufacturers of the bottle is Plaxicon Company in the City of Industry, California using equipment and molds manufactured by NISI ASB Machine Company, Ltd.
  • the unusually high strength is due to the bi-axial orientation of the molecules in the plastic. Additional information on bottle manufacture is set forth in "A Layman's Guide to Pet Chemistry and Processing", Edward E. Dennison, Eastman Chemical Products, Inc. and “One-Stage Processing of Pet Bottles", Eastman Kodak Company.
  • the external attachment member on the outside wall of the neck may be the formation of screw threads 3 in the plastic.
  • a valve means 4 is selected which is mounted substantially within the container neck portion for maintaining gas pressure of at least three atmospheres and preferably up to about 150 psi or about 10 atmospheres.
  • a tube 5, commonly known as a syphon tube, is connected to the valve and has a distal end 6 which extends to a point adjacent to the bottom 7. The fluid flows up through the hollow syphon tube and through the valve when opened.
  • the container is filled with liquid 8, such as carbonated water pressurized to about 10 atmospheres.
  • a cap member 9 for removably covering the opening in the neck portion of the bottle is selected, which is removed prior to placing the head on the bottle and dispensing the fluid.
  • the cap preferably is of light weight aluminum formed with internal threads, tamper proof and recyclable or disposable.
  • the cap should have a thin flexible seal member 54 ( Figure 2) for preventing the inside of the bottle and valve from becoming contaminated in the distribution system.
  • the cap is not under pressure, unlike all caps for lightly carbonated beverages.
  • the last step in the method is to select a head member 10, which is removably affixed to the external attachment member on the neck portion of the container.
  • a preferred means of attachment is by internal threads 11 formed on the inside of wall 12 of the head member.
  • the head member has a manually engageable valve actuating member, such as a lever 13.
  • a remote valve actuating member, such as a pin 14 is selectively operable by the valve actuating member and is positioned for engagement with the valve means.
  • the head is formed with a chamber 16 which receives the fluid and channels it to a channel 17 in spout 18.
  • a safety neck plug member 19 which encloses the valve means and is integrally connected to the syphon tube 5.
  • the neck plug member is preferably attached to the inside wall 20 of the container by an adhesive.
  • a suitable adhesive is General Electric RTV Silicone Adhesive.
  • Another method of attaching wall 49 of neck plug 19 is to use a solvent to soften the PET and weld the plug to the neck wall of the container. Spin welding may also be employed.
  • the valve means includes an inner chamber 21 formed in neck plug member 19 having upper and lower portions 22 and 23.
  • a valve seat 24 is formed in the upper portion of the valve chamber. This may simply be an annular protrusion.
  • a valve cup 25 is positioned for registration with the valve seat in a valve closed position and is movable to a valve open position away from the valve seat. Sealing means, such as a rubber washer 26, is positioned within the cup for sealing registration with the valve seat in the valve closed position.
  • a spring retainer member 27 is mounted in the lower portion 23 of the chamber 21 and flared portion 101 of the syphon tube and a spring member 28 is mounted in the spring retainer member and biases the valve cup to the valve closed position.
  • the manually operable means for selectively opening the valve for release of the contents of the container may be any member capable of depressing the valve cup 25.
  • a suitable head member 10 is illustrated in Figures 3 and 4 for actuating the valve.
  • a guide member 29 having threads 99 is threadably inserted into an opening 30 formed in the head to engage head internal threads 31.
  • Pin 14 is mounted for vertical reciprocation within opening 32 of the guide member.
  • Lever 13 is formed with a protrusion 33 which bears on cup 34.
  • Injection molded plastic washer 35 bears against annular protrusion 36 which surrounds cup 34.
  • the lever pivots about end point 100.
  • a syphon tube 5 is selected having a length which will reach to a point adjacent the bottom of the container. Since the container is plastic and will expand with increased pressure from increased temperature and shrink with the loss of pressure, it is advisable to select an end member 37 which is frictionally placed over the distal end 6 in a telescoping manner so that if the bottom of the bottle pushes up against flared end 38, the end member 37 will simply slip over the distal end 6. Note that openings 39 formed in the end member 37 permit liquid to flow into the syphon tube even though the end member is pressed tightly against the bottom wall of the bottle.
  • syphon tube 5 is formed with an outwardly extending flange 40.
  • a suitable filling apparatus depresses valve cup 25 and the liquid enters through opening 50 in plug member 19 and into inner chamber 21.
  • the water is forced past openings 51 and 52 and into syphon tube 5.
  • the water flows through end member 37 and then into the bottle.
  • the valve cup is released and spring 28 forces the cup and washer 26 into sealing engagement with valve seat 24. Pressure in the container also tends to force washer 26 into sealing engagement.
  • a cap 9 is then threaded onto the container to prevent contamination of the end surface 53 and opening 50 of the plug.
  • the cap member may be provided with a flexible sealing member 54 to further enhance the seal to prevent contamination. As previously noted, the cap is not under any pressure since the container pressure is entirely held by the sealing washer 26 within the safety plug.
  • valve means and plug member is within the neck of the bottle except for a thin flange 55 which may rest on the upper rim 56 of the bottle.
  • Flange 55 mechanically prevents the plug from slipping inside the bottle when the plug is first assembled and adhered to the inside wall of the neck of the container. It may also serve to provide an abutment when the cap is screwed onto the bottle.
  • the container is shipped through the distribution chain with the cap on and without any head mechanism.
  • the container is shelved in supermarkets and other retail stores, where it is purchased directly by the ultimate consumer and carried to a home or business place.
  • the container is chilled in the refrigerator and, when ready for consumption, the cap 9 is removed from the bottle and the head member 10 is screwed onto the container.
  • the guide member 29 mates with conical surface 53, which is a rigid non-compressible sealing surface, at its matching concave surface 58.
  • Pin 14 is inserted through opening 50 in the plug member and opening 47 in washer 26.
  • FIG. 1 It is standard practice in industry to provide a plastic base member for plastic bottles.
  • the drawings illustrate such a standard base as indicated by the number 103.
  • the base is attached to the bottle by applying adhesive at areas 94 and 95.
  • the base will remain affixed to the bottle in spite of the expansion and contraction of the bottle which results from the varying pressure in the bottle, as affected by varying temperature and varying fill levels of the bottle.
  • the difference in shape of the bottle is shown in Figure 5 when the bottle is empty and in Figure 6, which shows the shape of the bottle when it is filled and pressurized. Note particularly the indentation along line 96 in Figure 5 at a point just above the top edge 97 of the base 103.
  • indent 96 disappears and becomes a smooth curved line.
  • Some vertical growth occurs in the bottle, but it is not as dramatic as the diameter expansion.
  • the difference in vertical height is, however, of sufficient importance that is necessary to make provision for this dimensional change as has been described above in the various syphon tube end members and the provision for openings in the edge of the end member.
  • cap 9 be subject to pressure at any time. If, however the valve should leak, and build-up pressure, danger from the cap may be obviated by providing a plurality of vertical slots in the outer sidewall of the neck of the bottle which cross threads 3. Thus, when the cap is loosened, if there should accidently happen to be any pressure against the cap, the pressure would safely vent through the vertical slots to atmosphere, the instant the cap seal was broken.
  • the vertical slot system is presently found on plastic bottles which are under light carbonation.
  • FIG. 7 shows a syphon assembly 110 and a seltzer water package 112 incorporating the syphon assembly 110, in accordance with the invention.
  • the package 112 includes a high strength polyester terephthalate (PET) bottle 114 of the type described in the above referenced application, having a wall thickness of from about 18 to 20 thousandths of an inch.
  • PET polyester terephthalate
  • the bottle 114 has a necked opening 116 with exterior threads 118.
  • the syphon assembly 110 includes an insert assembly 120 (see also Figure 2), bonded to the inside wall 122 of the necked opening 116 and extending into the bottle 114.
  • a head assembly 124 (see also Figure 2) is attached to the necked opening by means of threads 126 on body 128, which mate with the threads 118 on the necked opening 116. When assembled in this manner, the head assembly 124 engages the insert assembly 120 during use of the seltzer water package 112.
  • the insert assembly 120 includes a tube 130 which extends from the necked opening 116 into the seltzer water 132 in bottle 114 and to bottom 134 of the bottle. Openings 136 are provided at end 138 of the tube 130 to allow the seltzer water 132 to enter the tube 130.
  • the tube 130 has a flanged upper end 140 within the necked opening 116.
  • a resilient, substantially frustoconical shaped valve sealing member 142 rests on end 140 of the tube 130.
  • Insert 144 fits over the valve sealing member 142 and is bonded to edge 146 of the tube end 140.
  • the tube end 140 and insert 144 are both bonded in sealing engagement to the interior surface 122 of necked opening 116.
  • Valve sealing member 142 has a raised portion 148, which normally seals centrally disposed passageway 150, which extends through the insert 144.
  • a cruciform cross-section valve guide 152 extends upward from the raised portion 148 into the passageway 150. Openings 154 are provided around the raised portion 148 through the valve sealing member 142.
  • Figure 9 shows the necked portion 116 of the bottle 114 and the insert assembly as the packaged seltzer water 132 is sold.
  • a conventional aluminum twist-off cap 156 is fastened over the necked opening 116 by means of the screw threads 118. Pressure from the seltzer water 132 in bottle 114 is not applied to the cap 156 because passageway 150 is sealed by the raised portion 148 of the valve sealing member 142.
  • the purchaser removes the cap 156 and replaces it with the syphon head assembly 124, as shown in Figures 7 and 8.
  • the package 112 is then ready to dispense the seltzer water 132.
  • the head assembly 124 includes a one-piece actuator 160, consisting of an actuating rod 162, a diaphragm 164 and a ring 166 for bonding the actuator 160 to body 128 of the head assembly 124.
  • Bend 168 in the resilient diaphragm 164 provides spring tension in the diaphragm.
  • Actuating rod 162 extends above the diaphragm 164 and has a curved end 170, which engages curved surface 172 of lever 174.
  • Lever 174 extends through aperture 176 in body 128 and is pivotally connected to the body 128 at 178, on the opposite side of the body 128 from aperture 176.
  • Actuating rod 162 has a cruciform cross-section portion 180 which extends downward from the diaphragm 164 to engage the cruciform cross-section projection 152 of the valve sealing member 142 within passageway 150.
  • Ring 166 of the actuator 160 has an orifice 182 extending through the ring 166, to connect cavity 184, defined by the actuator 160 and the insert 144, to bore 186 within spigot 188.
  • FIG 10 shows the syphon assembly 110 in its open position, to discharge seltzer water 132 through spigot 188.
  • actuating rod 162 is pushed downward, exerting force on the valve sealing member 142, deforming it away from sealing engagement with passageway 150.
  • the seltzer water flows through apertures 154, passageway 150, cavity 184, and orifice 182 to spigot 188.
  • spring force from diaphragm 164 moves actuating rod 162 and lever 174 upwards, back to the position shown in Figure 7, allowing valve sealing member 142 to assume its normal position sealing passageway 150.
  • tube 130, valve sealing member 142, insert 144, activator 160, head body 128 and lever 174 are preferably separately fabricated from a suitable plastic material in a molding operation.
  • a suitable plastic material for this purpose, an injection molded co-polyester plastic is preferably employed.
  • the valve sealing member 142 is placed on flanged end 140 of the tube 130, and insert 144 is then bonded to rim 146 of the end 140, such as by spin welding.
  • the completed insert may then be placed into bottle 114 through necked opening 116.
  • the insert assembly 120 is then bonded at insert 144 in sealing engagement to the interior wall 122 of the necked opening 116, such as by spin welding or with a suitable adhesive.
  • the actuator 160 is bonded at ring 166 to head body 128, such as by spin welding.
  • the head 210 includes a body 212 with tapered flanges 214 for attachment to both inside surface 213 and outside surface 215 of neck 217 of plastic bottle 219 by spin or ultrasonic welding.
  • a spigot 216 incorporates a passageway 218 through the body 212, communicating with interior surface 220 of the body 212.
  • An actuating lever 222 is attached to exterior surface 224 of the body 212 by first and second break away filaments 226 and 228 and by a thicker, resilient biasing ribbon 230.
  • a top 232 is attached to the body 212 by flexible hinge 234.
  • the top 232 is configured to fit flange 236 of the body 212 in a snap fit.
  • An upwardly extending actuating rod 238 is centrally disposed within body 212, and is attached to interior surface 220 of the body 212 by a resilient, flexible diaphragm 240.
  • the diaphragm 240 divides the head 212 into an upper chamber 242 and a lower chamber 244.
  • Actuating rod 338 has an cavity 246 extending into the rod 238 and dimensioned to receive end 248 of the lever 222.
  • all of the parts of the head closure 210 are preferable fabricated together from a suitable plastic material in a single molding step.
  • a suitable plastic material for this purpose, an injection molded co-polyester plastic is preferably employed.
  • the body 212, lever 222, cap 232 and spigot 216 are formed by a one piece mold cavity, with separate cores from above into upper chamber 242, from below into lower chamber 244 and from the side to form the rod 238, flexible diaphragm 240 and the passageway 218.
  • a slider within the core used to form spigot 216 forms the passageway 218.
  • the syphon tube 216 Prior to attachment of the body 212 to a container, the syphon tube 216 is attached to the inside surface 220 of the body 212, by spin or ultrasonic welding the flange 258 in place. Tip 257 of rod 238 engages opening 259 of tube 256 in a sealing fit when tube 256 is in place. After the syphon tube 256 is attached in the body 212, the top 232 is snapped into position in flange 236, as shown in Figure 12.
  • Figure 12 shows closure 210 in place on neck 217 of a plastic bottle 219, permanently attached by welding. Flange 274 extending around the neck of the bottle 217 provides support for the body 212 against lateral shearing forces, such as might occur if the bottle 219 were dropped.
  • the bottle 219 is filled with highly carbonated water 276 through spigot 216, as is conventional in seltzer bottling, by inserting a suitable member through opening 278 in body 212 to engage rod 238 to apply force for moving end 257 of the rod away from opening 259, thus opening the valve assembly and allowing the highly carbonated water 276 to flow into the bottle 219. This procedure is explained more fully below in connection with Figures 18-22.
  • the bottle 219 is stored, shipped and sold in the form shown in Figure 12.
  • lever 222 Since lever 222 must be inserted through opening 278 to engage the rod 238 to discharge the highly carbonated water 276 from the bottle 219, the presence of intact break away filaments 226 and 228 on the package assures the user that the package 211 has not been tampered with prior to sale. If desired, a removable label or other sealing strip may also be placed over the opening 278 during storage and shipment of the package 211.
  • Figure 13 shows the syphon head closure 210 during the process of activating the syphon head closure for dispensing the seltzer 276 from bottle 219 by insertion of the lever 222 through opening 278.
  • the user pulls upward on the lever handle 280, first rupturing the filament 226.
  • Spring strip 230 guides the lever 222 with continued upward force on the handle 280, so that end 248 of the lever 222 enters the opening 278.
  • the second break away filament 228 breaks during this travel.
  • the spring strip 230 is configured so that it will guide the end 248 into cavity 246 in rod 238 to give the configuration shown in Figure 14.
  • Nipples 281 on either side of the lever 222 engage inside surface 220 of the upper chamber 242 to keep the lever 222 in place once it has been inserted through opening 278.
  • Edge 283 of opening 278 serves as a fulcrum for raising rod 238 when downward force is applied to handle 280.
  • Figure 15 shows the syphon head closure 210 actuated by a user.
  • Downward force on the handle 280 of the lever 222 is converted to upward force on the rod 238 by fulcrum edge 283, thus moving tip 257 out of sealing engagement with opening 259 in the syphon tube 256.
  • the seltzer water 276 is then discharged by the carbon dioxide pressure in bottle 219 through opening 259 into lower chamber 244 and out passageway 218 of spigot 216.
  • the downward biasing force of diaphragm 240 on rod 238 returns the head closure 210 to the position shown in Figure 14, with tip 257 sealing the opening 259.
  • a compressed spring can be inserted between end 285 of rod 238 and top 232, and top 232 bonded in place, to provide additional downward biasing force on rod 238.
  • FIGS 16 and 17 show a third embodiment of a package 300 in accordance with the invention.
  • This package 300 includes an insert assembly 302, which is inserted in the neck 350 of a bottle 352, and a head closure 304, which is screwed by threads 306 onto mating threads on the neck of the bottle.
  • the bottle 352 containing the seltzer water 356 is sold with the insert assembly 302 in place in the neck of the bottle and a conventional aluminum twist off or plastic snap on cap fastened over the neck of the bottle. The end user replaces the cap with the head closure 304.
  • the insert assembly 302 includes a tube 310 which extends from the neck 350 of the bottle into the seltzer water 356 and to the bottom of the bottle 352. Openings 312 are provided at end 314 of the tube 310 to allow the seltzer water to enter the tube 310.
  • the tube 310 has a flanged upper end 316 within the neck of the bottle.
  • a resilient, substantially frustoconical shaped valve sealing member 318 rests on end 316 of the tube 310.
  • Insert 320 fits over the valve sealing member 318 and is bonded to edge 322 of the tube end 316.
  • the tube end 316 and insert 320 are both bonded in sealing engagement to interior surface 358 of the bottle neck.
  • Valve sealing member 318 has a raised portion 324, which normally seals centrally disposed passageway 326, which extends through the insert 320.
  • a cruciform cross section valve guide 328 extends upward from the raised portion 324 into the passageway 326. Openings 330 are provided around the raised portion 324 through the valve sealing member 318.
  • the head 304 has a lever 340, mounted on exterior surface 360 of head body 362. To activate the head 304, lever 340 is extended through an opening 342 to engage a vertically disposed actuating rod 344.
  • Cruciform cross section end 346 of the rod 344 is configured to engage the valve guide 328.
  • the head 304 is provided separately from the seltzer water package 300 including the insert assembly 302 and a conventional aluminum twist off or plastic snap on cap. After replacing the cap with the head 304, the user separates lever 340 from body 362 of the head 304 in the same manner as in the Figures 11-15 embodiment, to insert the lever 340 through opening 342, aperture 348 extending transversely through rod 344 and into socket 364. When the seltzer package is empty, the user may remove the head 304 for use with another seltzer package.
  • the construction and operation of the Figures 12-13 embodiment is the same as the Figures 11-15 embodiment.
  • FIG 18 shows a filling apparatus 420 in accordance with the invention for filling the bottles 1 ( Figure 1).
  • the apparatus 420 has a rotatable frame 422, to which are mounted a plurality of filler stations, such as the stations 424A, 424B and 424C shown in Figure 18.
  • a typical filling apparatus 420 contains from 8 to 40 of the filler stations 424A-424C.
  • Each of the stations 424A-424C has a cradle 426A, 426B and 426C, configured to receive one of the bottles 1.
  • the cradles 426A-426C are pivotally coupled to arms 428A, 430A, 428B, 430B, 428C and 430C at pivots 432A, 432B and 432C.
  • the cradles 426A-426C are also pivotally coupled to brackets 434A, 434B and 434C at pivot points 436A, 436B and 436C.
  • the cradles 426A-426C each have a head, such as the heads 438A and 438B visible in Figure 18, above the bottle receiving area of the cradles 426A-426C.
  • the cradles 426A-426C have movable platforms 440A, 440B and 440C engaging the bottom of the bottles 1.
  • the movable platforms 440A-440C are connected to the pivot points 432A-432C by linkages 442A, 444A, 442B, 444B, 442C and 444C.
  • the linkages 442A-444C serve to urge the bottles 1 against the heads 438A-438C when the cradles 426A-426C are raised to the position shown at 426C.
  • Filling apparatus of the general type shown, but only capable of filling conventional syphon bottles with attached heads, is commercially available from Marcel S.A., wholesome Aires, Argentina.
  • the bottles 1 are loaded in the cradles 426A-426C when they are in the vertical position shown for cradle 426A.
  • the arms 428A-428C are raised as sequentially shown for cradles 426B and 426C to pivot the cradle through a horizontal position shown at 426B to the raised position shown at 426C.
  • Lines 443A, 443B and 443C are connected to a source of liquid 8 under pressure and to valves 441A, 441B and 441C.
  • Lines 445A, 445B and 445C are connected to vent entrapped air and other gas 439 from the bottles 1 as they are filled.
  • Lines 445A, 445B and 445C are also.connected to valves 441A, 441B and 441C.
  • the valves 441A, 441B and 441C are controlled to switch between the lines 443A, 443B, 443C and the lines 445A, 445B, 445C to carry out the alternate fill and sniff cycles.
  • Figures 19-21 show further details of the cradle 426. Since corresponding elements are present on each of the cradles 426A-26C shown in Figure 18, the letter designations following each reference number will not be employed in the following discussion of Figures 19-21.
  • Figure 19 shows the cradle 426 in its orientation for loading the bottle 1 for filling, and also for unloading the bottle 1 after it has been filled.
  • Figure 20 shows the cradle 426 after it has been raised to the position for filling the bottle 1. Head 438 is permanently attached to the cradle 426 so that it rests above the bottle 1 when the cradle 426 is in the position shown in Figure 19.
  • the head 438 contains the same functional elements as the head 10 of Figure 1 that the user attaches to the neck 2 of the bottle prior to discharging the liquid 8.
  • Lever 450 is pivotally attached to the head 438 at 452, so that force to move the lever to the position shown in solid line in Figure 21 moves actuating rod 454 in the direction shown by arrow 456 to open the valve 4 in neck 2 of the bottle 1.
  • Spring 458 biases the actuating rod 454 to the position shown in dotted line in Figure 21, where it will not engage the valve 4.
  • the head 438 has a resilient seat 460 formed from polytetrafluoroethylene or other durable, resilient material lining cavity 462 to form an effective seal with the neck 2 of the bottle when the bottle is urged against the head 438 by the plate 440.
  • the seat 460 and cavity 462 have a centrally disposed aperture 464 communicating with spout 466 so that liquid may enter the bottle 1 through the head 438.
  • Linkage 442 for activating plate 440 to urge bottle 1 against the head 438 has a first lever 468 pivotally attached to the cradle 426 at 432. Slot 472 of the lever 468 is pivotally attached to pivot point 436 of bracket 434 ( Figure 18). Lever 468 is angled, with a second portion 474 extending from the pivot 432. Portion 474 of the lever 468 is pivotally attached to rod 476 at 478. Rod 476 is also pivotally attached at 480 to a second angled lever 482. Lever 482 is in turn pivotally attached to the cradle 426 at 484. Portion 486 of the angled lever 482 is pivotally attached to rod 488 at 490. Rod 488 is fixedly attached to the plate 440. Linkage 444 ( Figures 18 and 22) contains corresponding elements and therefore will not be described further. If desired, one or more of the members comprising the linkages 442 and 444 can be made adjustable in length to provide increased tolerance in the mechanism.
  • lever 468, rod 476, and lever 482 pivot from force applied to the lever 468 by bracket 434, as indicated by arrows 492, 494 and 496 so that rod 488 forces plate 440 against the bottle 1.
  • Neck 2 of the bottle 1 moves into sealing engagement with the head 438, as indicated by arrow 498.
  • the plate 440 should apply a pressure of from about 150 to 200 psi against the bottle 1 for this purpose.
  • a tension spring 500 can be provided connecting the pivot 484 and the lever 482 to limit the pressure to this amount.
  • Figure 21 shows the bottle 1 with its neck 2 in sealing engagement with the seat 460 of head 438, and the head 438 activated to open valve 4, so that the liquid 8 may enter the bottle through the head 438, valve 4 and syphon tube 5.
  • fitting 502 is moved down as indicated by arrow 504 to engage the spigot 466.
  • Fitting 502 is connected to valve 441 ( Figure 18).
  • Rod 506 is then moved upward, as indicated by arrow 508, to move the lever 450 from the position indicated in dotted line in Figure 21 to the position there shown in solid line.
  • Rod 454 is therefore activated to open valve 4, thus allowing the pressurized liquid 8 to enter the bottle 1.
  • the fitting 502 is alternately connected by the valve 441 to receive the liquid 8 from line 443 for filling the bottle and to the exhaust line 445 for removing gas trapped in the bottle 1 above the liquid 8 through the syphon tube 5.
  • This mode of filling is referred to in the seltzer industry as alternate fill and sniff cycles.
  • rod 506 is lowered so that rod 454 may move out of engagement with valve 4, allowing the valve to close.
  • Fitting 502 is then disconnected from the spigot 466, and the cradle 426 returned to the position shown in Figure 19 for removal of the filled bottle.
  • Figure 22 shows the tandem linkages 442 and 444 on either side of the cradle 426. Providing the linkages 442 and 444 in tandem assures even application of force across the surface of plate 440 against the bottle 1, giving reliable operation and preventing uneven wear of the cradle assembly.

Landscapes

  • Closures For Containers (AREA)
  • Basic Packing Technique (AREA)
  • Sampling And Sample Adjustment (AREA)
  • Filling Of Jars Or Cans And Processes For Cleaning And Sealing Jars (AREA)
  • Devices For Dispensing Beverages (AREA)
  • Jet Pumps And Other Pumps (AREA)
  • External Artificial Organs (AREA)
  • Packages (AREA)
  • Auxiliary Devices For And Details Of Packaging Control (AREA)
EP85303227A 1984-05-10 1985-05-07 Appareil à siphon Expired EP0164218B1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AT85303227T ATE48827T1 (de) 1984-05-10 1985-05-07 Siphonanlage.

Applications Claiming Priority (10)

Application Number Priority Date Filing Date Title
US60928084A 1984-05-10 1984-05-10
US609280 1984-05-10
US635450 1984-07-31
US06/635,450 US4671436A (en) 1984-07-31 1984-07-31 Syphon assembly and package incorporating the assembly
US68591284A 1984-12-27 1984-12-27
US685912 1984-12-27
US687296 1984-12-28
US06/687,296 US4660748A (en) 1984-12-28 1984-12-28 Integral syphon package head
US704763 1985-02-20
US06/704,763 US4617973A (en) 1985-02-20 1985-02-20 Seltzer filling apparatus and process

Related Child Applications (2)

Application Number Title Priority Date Filing Date
EP88107317A Division EP0291788A1 (fr) 1984-05-10 1985-05-07 Appareil et procédé pour le remplissage d'un siphon distributeur de boissons
EP88107317A Division-Into EP0291788A1 (fr) 1984-05-10 1985-05-07 Appareil et procédé pour le remplissage d'un siphon distributeur de boissons

Publications (3)

Publication Number Publication Date
EP0164218A2 true EP0164218A2 (fr) 1985-12-11
EP0164218A3 EP0164218A3 (en) 1986-03-19
EP0164218B1 EP0164218B1 (fr) 1989-12-20

Family

ID=27541984

Family Applications (2)

Application Number Title Priority Date Filing Date
EP85303227A Expired EP0164218B1 (fr) 1984-05-10 1985-05-07 Appareil à siphon
EP88107317A Withdrawn EP0291788A1 (fr) 1984-05-10 1985-05-07 Appareil et procédé pour le remplissage d'un siphon distributeur de boissons

Family Applications After (1)

Application Number Title Priority Date Filing Date
EP88107317A Withdrawn EP0291788A1 (fr) 1984-05-10 1985-05-07 Appareil et procédé pour le remplissage d'un siphon distributeur de boissons

Country Status (6)

Country Link
EP (2) EP0164218B1 (fr)
AT (1) ATE48827T1 (fr)
BR (1) BR8502217A (fr)
DE (1) DE3574864D1 (fr)
IL (1) IL75101A (fr)
MX (1) MX161651A (fr)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0302105A1 (fr) * 1987-01-29 1989-02-08 Richard J. Hagan Siphon d'eau de seltz, soupape, soupape soulevante et ressort
EP0420561A1 (fr) * 1989-09-25 1991-04-03 Lawson Mardon Group (Uk) Limited Récipient pour la distribution de liquides carbonatés
WO1996024553A1 (fr) * 1995-02-06 1996-08-15 Song Jerng Sik Bouchon de bouteille de boisson gazeifiee
WO2003035535A2 (fr) * 2001-10-24 2003-05-01 Fedor Fedorovich Voloshin Recipient pour boisson gazeuse et procede de remplissage de ce recipient
WO2021252544A3 (fr) * 2020-06-08 2022-01-20 GrowlerWerks, INC. Distributeur de boisson sous pression

Families Citing this family (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4947739A (en) * 1989-02-17 1990-08-14 Charlie O Company, Inc. Home soda dispensing system
WO1992000231A1 (fr) * 1990-06-22 1992-01-09 Mckesson Corporation Siphon d'eau de seltz pourvu d'un insert soude electromagnetiquement
DE29504343U1 (de) * 1995-03-14 1996-07-18 Emsa-Werke Wulf GmbH & Co, 48282 Emsdetten Kanne für Flüssigkeiten
ES1034471Y (es) * 1996-06-20 1997-06-01 Martinez Marta Perez Grifo aplicable a una botella.
DE19816429A1 (de) * 1998-04-15 1999-10-21 Brita Gmbh Vorrichtung zum Begasen einer Flüssigkeit
HU226023B1 (en) * 2002-06-28 2008-03-28 Laszlo Schlotthauer Process and device for automatic bottling of carbonated drinks
DE60313146D1 (de) * 2003-06-03 2007-05-24 Begudes Tosca S L Siphonkopf
US7040514B2 (en) * 2004-04-21 2006-05-09 Mihail Octavian Colan Membrane activated carbonated beverage dispenser
EP1693335B1 (fr) 2005-11-04 2008-02-27 Begudes Tosca, S.A. Bouchon à vanne d'un siphon
FR2927245B1 (fr) * 2008-02-07 2010-05-14 Mastrad Appareil de cuisine du genre siphon a creme chantilly avec support de rangement
CN202358459U (zh) * 2011-11-03 2012-08-01 苏打史柏高国际有限公司 一种汽水制造装置
CH707676A2 (fr) 2013-03-05 2014-09-15 Simone Russo Dispositif de vaporisation de liquide comme du champagne.
WO2018125803A1 (fr) 2016-12-27 2018-07-05 Midnight Madness Distilling, Llc Distributeur de liquide effervescent
EP3658487A1 (fr) * 2017-07-25 2020-06-03 Midnight Madness Distilling, LLC Distributeur de liquide effervescent

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR351139A (fr) * 1904-01-28 1905-07-04 John George Henrich Bouchons pour siphons
US2066121A (en) * 1935-11-26 1936-12-29 Clarence P Morris Dispensing device
US2185290A (en) * 1936-11-10 1940-01-02 Bravo Hilario Sanchez Closure for containers for aerated beverages
FR1036948A (fr) * 1950-05-17 1953-09-14 Siphon pour liquides sous pression gazeuse
FR2382946A1 (fr) * 1977-03-08 1978-10-06 Oreal Recipient muni d'une pompe manuelle pour le conditionnement et la distribution d'un liquide
FR2462629A1 (fr) * 1979-07-30 1981-02-13 Lambert Louis Perfectionnements apportes aux soupapes distributrice s de fluide
EP0097094A2 (fr) * 1982-06-11 1983-12-28 VALVE PRECISION S.A.R.L. (société à responsabilité limitée) Dispositif de pulvérisation pour liquide

Family Cites Families (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE187933C (fr) *
DE56881C (de) * THE BON-WICK FOREIGN AND COLONIAL PATENT SYphon Stopper Syndicate Limited in London, 33 Aldermanbury Neuerung an Flaschenverschlüssen
DE46601C (de) * O. AVEDYK, Rue des Brassenes in Löwen, Belgien, und E. HALOT, 53 Rue Derosne Molenbeck St. Jean b. Brüssel Vorrichtung zum Füllen von Syphonflaschen
GB191326490A (en) * 1913-11-18 1914-06-25 Jansen & Sutorius Nv An Improved Method and Apparatus for Filling Bottles with Aerated Liquids.
US2021543A (en) * 1933-09-29 1935-11-19 Cowey Leonard Eugene Filling machine for aerated mineral water siphon bottles
US2281604A (en) * 1936-04-24 1942-05-05 Aeration Processes Inc Container for holding liquid under pressure

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR351139A (fr) * 1904-01-28 1905-07-04 John George Henrich Bouchons pour siphons
US2066121A (en) * 1935-11-26 1936-12-29 Clarence P Morris Dispensing device
US2185290A (en) * 1936-11-10 1940-01-02 Bravo Hilario Sanchez Closure for containers for aerated beverages
FR1036948A (fr) * 1950-05-17 1953-09-14 Siphon pour liquides sous pression gazeuse
FR2382946A1 (fr) * 1977-03-08 1978-10-06 Oreal Recipient muni d'une pompe manuelle pour le conditionnement et la distribution d'un liquide
FR2462629A1 (fr) * 1979-07-30 1981-02-13 Lambert Louis Perfectionnements apportes aux soupapes distributrice s de fluide
EP0097094A2 (fr) * 1982-06-11 1983-12-28 VALVE PRECISION S.A.R.L. (société à responsabilité limitée) Dispositif de pulvérisation pour liquide

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0302105A1 (fr) * 1987-01-29 1989-02-08 Richard J. Hagan Siphon d'eau de seltz, soupape, soupape soulevante et ressort
EP0302105A4 (fr) * 1987-01-29 1989-10-12 Richard A Hagan Siphon d'eau de seltz, soupape, soupape soulevante et ressort.
EP0420561A1 (fr) * 1989-09-25 1991-04-03 Lawson Mardon Group (Uk) Limited Récipient pour la distribution de liquides carbonatés
GB2237605A (en) * 1989-09-25 1991-05-08 Lmg Fibrenyle Limited Container for dispensing carbonated liquids.
WO1996024553A1 (fr) * 1995-02-06 1996-08-15 Song Jerng Sik Bouchon de bouteille de boisson gazeifiee
WO2003035535A2 (fr) * 2001-10-24 2003-05-01 Fedor Fedorovich Voloshin Recipient pour boisson gazeuse et procede de remplissage de ce recipient
WO2003035535A3 (fr) * 2001-10-24 2003-09-12 Fedor Fedorovich Voloshin Recipient pour boisson gazeuse et procede de remplissage de ce recipient
WO2021252544A3 (fr) * 2020-06-08 2022-01-20 GrowlerWerks, INC. Distributeur de boisson sous pression

Also Published As

Publication number Publication date
EP0291788A1 (fr) 1988-11-23
IL75101A0 (en) 1985-09-29
IL75101A (en) 1989-07-31
MX161651A (es) 1990-11-30
BR8502217A (pt) 1986-01-14
EP0164218A3 (en) 1986-03-19
EP0164218B1 (fr) 1989-12-20
DE3574864D1 (de) 1990-01-25
ATE48827T1 (de) 1990-01-15

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