WO1987002345A1 - Method and apparatus for preserving and dispensing beverages - Google Patents

Method and apparatus for preserving and dispensing beverages Download PDF

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Publication number
WO1987002345A1
WO1987002345A1 PCT/US1986/002105 US8602105W WO8702345A1 WO 1987002345 A1 WO1987002345 A1 WO 1987002345A1 US 8602105 W US8602105 W US 8602105W WO 8702345 A1 WO8702345 A1 WO 8702345A1
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WO
WIPO (PCT)
Prior art keywords
enclosure
dispensing
pressure
wine
tube
Prior art date
Application number
PCT/US1986/002105
Other languages
French (fr)
Inventor
Robert E. Sitton
Original Assignee
Sitton Robert E
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
Application filed by Sitton Robert E filed Critical Sitton Robert E
Publication of WO1987002345A1 publication Critical patent/WO1987002345A1/en

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Classifications

    • 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

Definitions

  • This invention is generally directed to methods and 5 apparatuses for dispensing beverages and particularly to methods and apparatuses for improving the shelf life of opened bottles or other containers of wines and other beverages.
  • the apparatuses include enclosures in which 10 opened bottles or other opened containers of beverages are housed so that the contents thereof may be subjected to an environment of high pressure inert gas such as nitrogen while the interior of the enclosures are simultaneously being vented to atmosphere. Thereafter, the pressure may .15 be selectively reduced for 'subsequent ' product dispensing at initial dispensing pressures of up to approximately 15 p.s.i.g.
  • the methods are believed to not only remove air within the enclosures but. also purge excess oxygen from solution in the beverages thereby preventing further
  • a beverage such as wine may be selectively aged and then preserved at its peak utilizing an apparatus of the invention.
  • UBSTITUTESHEET beverages and particularly wines in order to facilitate consumer service and decrease product waste.
  • a major dir ⁇ ection of these efforts has been " to increase the shelf life of various opened containers of beverages.
  • Prolonging shelf- life is particularly advantageous for the dispensing of products which are normally stored in containers wherein the volume of product is greater than the amount of product which is likely to be utilized or consumed at one time.
  • a prolonged shelf life is particularly beneficial if it is possible to preserve the original quality and palat- ability of the product.
  • SUBSTITUTE SHEET promote oxidation of the alcohol within the wine.
  • inert gases In utilizing inert gases to preserve the life of opened containers of beverages, the containers are initially opened and exposed to atmosphere and thereafter, a plug is inserted to seal the contents. Inert gas such as nitrogen is sub ⁇ sequently introduced into the container and serves to pro ⁇ vide pressure for dispensing the fluid therein and at the same time provides a nitrogen-enriched environment above the fluid.
  • Inert gas such as nitrogen is sub ⁇ sequently introduced into the container and serves to pro ⁇ vide pressure for dispensing the fluid therein and at the same time provides a nitrogen-enriched environment above the fluid.
  • Unfortunately as most wines and other beverages are stored in glass containers, the amount of pressure which can be applied within the container is very limited. Because of this, operating pressures of up to 5 p.s.i. are generally not exceeded, not possible or not practical for use in present wine preserving and dispensing systems.
  • the plugs or valves which are used to seal con ⁇ tainers prior to pressurization often leak, come loose or pop free from engagement- with the containers thereby re ⁇ leasing the inert gas and admitting various amounts of air so that. further aging is allowed to proceed. As the wine is exposed to more oxygen, oxidation will continue until the wine spoils. Generally, it has not been possible to preserve the shelf life of wines more than several weeks without the wine beginning to spoil.
  • This invention is directed to methods and apparatuses for preserving and dispensing beverages and particularly wines from bottles or other normally sealed containers wherein an opened container of beverage is placed within a sealed enclosure and thereafter subjected to an envir- onment of high pressure inert gas at pressures in excess of approximately 20 p.s.i.g. (gauge) and wherein the pressure within the container is simultaneously balanced with the pressure within the enclosure so that failure of the container due to increased pressure is prevented. As the inert gas is being introduced, the container is vented
  • the pressure of inert gas may thereafter be selectively reduced to a lower initial dispensing pressure in the range of approximately 15 p.s.i.g. or less and the beverage stored at the lower pressure for future dispensing.
  • the enclosure is of a size to receive the bev ⁇ erage container completely therein and includes a cover to seal the enclosed container from the surrounding environ ⁇ ment. Valves are provided to permit the inlet of gases in- eluding inert nitrogen into both the enclosure and beverage container and to permit the exhaustion or purging of gases therefrom once a predetermined pressure is achieved.
  • Conduits are also provided to dispense the beverage con ⁇ tents of the container either directly from the enclosure or through secondary dispensing units such as conventional refrigerated dispensers.
  • oxygen may be selectively supplied to the enclosures to promote the aging of wines which have not yet reached their peak.
  • SUBSTITUTESHEET supplemental enclosure and therein subjected to pressures of inert gases which would normally rupture or destroy the beverage container and which act to preserve the overall shelf life of the beverage by enabling oxygen to be removed from the beverage environment.
  • Another object of the present invention is to provide a dispensing system for beverages such as wines and the like wherein high pressure inert gas is used to initially vent or expel oxygen from the dispensing enclosure so that subsequent oxidation or aging of the wine is prevented even when dispensing pressures created by the inert gases with the dispensing enclosure drop to zero or atmospheric pressure.
  • a further object of the present invention is to pro- vide an enclosure for housing opened bottles of wine for future dispensing wherein the contents thereof may be systematically aged by the selective introduction of an oxygen gas into either the wine bottle or container to thereby promote the aging of the wine and wherein further aging can be halted by exposing the wine to high pressure inert gas while purging air and oxygen within the envir ⁇ onment surrounding the wine to thereby prevent further oxidation thereof.
  • Fig. 1 is a top plan view of a preferred form of enclosure apparatus of the present invention.
  • Fig. 2 is a cross sectional view taken along lines 2-2 of Fig. 1 having portions broken away.
  • Fig. 3 is a cross sectional view taken along lines 3-3 of Fig. 1.
  • Fig. 4 is a cross sectional view taken along lines 4-4 of Fig. 1 showing a modified embodiment of the invention of Fig. 1 wherein the oxygen tube is not utilized.
  • Fig. 5 is a cross sectional illustrational view show ⁇ ing another embodiment of the present invention as it is used to house an opened bottle of wine within a conventional refrigerated wine dispenser.
  • Fig. 6 is a partial cross sectional view showing the apparatus of Fig. 5 utilizing a separate dispensing valve as opposed to a conventional dispensing cabinet.
  • Fig. 7 is a cross sectional illustrational view showing another embodiment of beverage dispensing apparatus which houses an opened bottle of wine for selective dispensing in accordance with the teachings of the present invention.
  • the contain ⁇ ers or enclosures of the present invention are shown as being specifically used to house opened bottles of wine or similar beverage so that the contents thereof may be re ⁇ tained at their peak, palatable and consumer acceptable condition. It is well known that exposure of beverages to air, such as when a bottled wine has been opened, results in the contents rapidly oxidizing until a point where spoilage occurs.
  • the dispensing enclosures of the present invention have, been designed to extend the life of opened bottles or containers of wine and other beverages and food products for unlimited periods utilizing the methods as will be hereinafter.described in detail.
  • SUBSTITUTE SHEET The primary consideration in extending the useful or shelf lives of comestible consumer products including wines and other alcoholic-beverages is to-provide a low cost method of preventing the continued oxidizing process which leads to spoilage and unpalatability of such products.
  • the interiors of the enclosures which house the wine bottles are also placed under the same pressure so that the pressures interiorly and exteriorly of the bottled wines are balanced thereby preventing the possibility of the bottles failing or exploding under pressure.
  • the wines .are being pressurized to approxi- mately 20 p.s.i.g. and preferrably between 20 to 30 p.s.i.g., the air or oxygen within the bottles and enclos ⁇ ures is vented to atmosphere.
  • the pressure level may thereafter be permitted to drop or is decreased to lower dispensing pressures, which may.be in the range of approx- imately 5 to 15 p.s.i.g. dependent upon an enclosure's volume or capcity.
  • the storage pressures are retained at approximately 10 p.s.i.g. until a product is initially dispensed and thereafter the pressure will decrease as the product level drops.
  • the initial high pressure treat- ment of the contents of opened containers or bottles of wine actually functions to drive even the slightest remain ⁇ ing oxygen from solution, thereby preventing further oxida ⁇ tion of the wine.
  • the wine can be maintained in an inert atmosphere over long periods of time at lower pressures with further aging or oxidation eliminated.
  • a Royal OPORTO, 1970 vintage Portuguese Port was- opened and exposed to atmosphere and tasted on June 19, _1985. After tasting, the opened bottle was placed into an enclosure of the type generally shown in Fig. 4 of the drawings. The enclosure surrounding the bottle was sealed and thereafter inert nitrogen gas was introduced therein.
  • a valve on the enclosure opened permitting the air therein to be vented to atmosphere.
  • the pressure was continuously raised to approximately 25 p.s.i.g. and then permitted to slowly decrease.
  • the pressure was finally lowered to approximately 10 p.s.i.g. and the product placed in storage.
  • the product has been periodically tasted by dispensing a portion thereof utilizing a pressure reducing dispensing valve mounted to the container.
  • the wine remains at its peak flavor and totally palatable and fit for consumer consumption. No noticeable deterioration in the product has taken place.
  • a second test was made on an opened bottle of a Gammay Beaujolois, vintage 1980, wherein the opened container or
  • SUBSTITUTE SHEET bottle was also placed in a dispenser enclosure similar to that shown in Fig. 4 of the drawings.
  • a nitrogen gas was used to drive off the air and raise the pressure within the enclosure and bottle to between 20 to 25 p.s.i.g. Again, the enclosure was vented to atmosphere when the pressure reached approximately 15 p.s.i.g. Thereafter, the pressure was reduced to an initial dispensing pressure of approxi ⁇ mately 8 to 10 p.s.i.g.
  • the wine bottle was removed from the enclosure and the wine tasted. The wine was found to have remained at its peak flavor and taste and, again, the wine appeared to be as good and as consumable as it was when originally opened.
  • the enclosure used in the second example was then used on July 30, 1985 to house a bottle of La Tache 1957, bottle No. 15198 which had been opened and had begun to turn cloudy.
  • Inert nitrogen was added and the gas pressure was raised as discussed with respect to the previous examples to approximately 25 p.s.i.g. while the oxygen was vented and then the pressure reduced to approximately 10 p.s.i.g.
  • the wine had not deterior ⁇ ated or spoiled further than it had on July 30th.
  • a fourth test was made using an" opened bottle of Kistler Sauvinoin-Blanc 1982.
  • the wine was placed within an enclosure similar to those of the preceding examples and thereafter the inert nitrogen added to pressurize the wine to 20 to 25 p.s.i.g. while the air and oxygen was vented from the enclosure. The pressure was then reduced to 10 p.s.i.g.
  • the wine was originally treated on June 18, 1985 and was dispensed for consumer taste testing on July 31, 1985. The wine remained of excellent consumer quality and taste.
  • SUBSTITUTESHEET although the examples reflect initial storage pressures in the range of 8 to 10 p.s.i.g., it is believed that press ⁇ ures ranging from 0 to 15 p.s.i.g. could be suitable under some conditions. Inthis regard, it should be noted that the initial storage pressure is also the initial dispensing pressure. Also, such pressures could be as high as the highest pressure achieved during the introduction of the inert gas. The pressure is preferrably lowered for storage and dispensing as pressures in excess of 15 p.s.i.g. are generally not necessary.
  • the initial dispensing pressure need only be high enough to insure that the entire contents of the bottle can be dispensed.
  • the pressure will continue to decrease as the wine is dispensed, the wine remaining will be preserved in the inert gas environment even though the pressure may drop to zero p.s.i.g. (i.e. atmospheric pressure) as substantially all oxygen was originally purged from the environment thereby preventing further oxidation of the wine.
  • a first embodiment of enclosure 10 for housing an opened bottle 12 of wine W.
  • the enclosure 10 is shown as being generally cylindrical in configuration and in ⁇ cludes an upper removable lid or cap 13, side walls 14 and removable lower closure member 15.
  • the side walls 14 are preferrably made of a clear or transparent plastic or glass material so that the contents of the bottle 12 may be visual at all times.
  • Both the upper and lower ends 16 and 17 of the side walls 14 are threaded so as to per- mit the upper and lower closure members 13 and 15 to be selectively secured thereto by mating threaded surfaces
  • upper and lower ring gaskets 20 and 21 are provided to create air tight seals between the closures and the side walls of the container.
  • the end caps or closure members may be constructed of a plastic or metallic material.
  • the size of the enclosure may vary depending upon the size of bottle or other con ⁇ tainer 12 being housed therein. The enclosure must, how ⁇ ever, be of sufficient size to completely enclose the product container.
  • the upper cap or closure member 13 of the enclosure has a gas outlet valve 22, gas inlet valve 23 and fluid outlet or dispensing valve 24 mounted therethrough.
  • the outlet valve 22 is a conventional adjustable bleed valve and may be selectively adjusted to relieve pressure within the enclosure when the pressure therein exceeds a pre ⁇ determined maximum such as approximately 15 p.s.i.g.
  • the valve will remain opened as the pressure in the enclosure is raised to be 20 to 30 p.s.i.g. and will close when the pressure drops to below the predetermined maximum.
  • the valve shown includes nuts 25 and 26 which are adjustable to vary the compression of an inner valve spring to thereby create an exhaust port which will open when the pressure in the enclosure exceeds the preselected desired maximum which is preferrably in the range of 10 to 15 p.s.i.g.
  • the gas inlet valve 23 is also of conventional design and is similar to a valve on a tire. As shown, a cap 27 is threadingly engaged over the end of the valve in order to prevent dust or other, foreign material from contaminating the valve structure or opening.
  • the fluid outlet valve 24 is also of conventional design.
  • the valve 24 includes a dispensing button 28 which is operable to open an inner valve plug in order to create an open fluid channel between the interior of the enclosure and the faucet 29.
  • the base 30 of the dispensing valve is engaged to a threaded nipple 31 which is fixedly mounted
  • nipple 31 extends inwardly of the enclosure_10. and . is com ⁇ pletely enclosed or sealed with the exception of an opening 33 through which a fluid dispensing tube 34 is fixedly disposed so as to be in open fluid communication with the nipple 31.
  • the dispensing tube 34 extends from its innermost or intake end 34' which is disposed adjace-nt the bottom of the bottle 12 to a discharge or upper end which is in fluid communication with the dispensing valve 24 via the nipple 31
  • a gas inlet tube 35 which is oriented in generally parallel relationship to the fluid outlet or dispensing tube 34.
  • the gas inlet tube is mounted via a flexible tube 36 to one side of the gas inlet valve 23.
  • the lower portion of the inlet tube includes a one way valve 38 which will permit gas to pass therethrough into the bottle 12 but will prevent the liquid within the - bottle from entering the tube.
  • the gas inlet tube may be secured to the fluid dispensing tube by a clip or similar locking device 39.
  • an inert gas such as nitrogen is introduced under pressure through the gas inlet valve 23 into the enclosure.
  • the gas will enter the enclosure through gas inlet tube 35 which is disposed within the bottle 12.
  • the inert gas will be applied equally within the bottle and the area surrounding the bottle thereby balancing the pressure both interiorly and exter ⁇ iorly of the bottle.
  • the air originally within the en- closure will be automatically bled from the container by operation of the outlet valve 22 as the pressure rises
  • the initial dispensing pressure as for example approximately 10 p.s.i.g., will drop as the wine is dis ⁇ claimedd.
  • the pressure may drop to 1 p.s.i.g. or less, however, sufficient gas pressure is initially supplied to insure that the entire contents of the bottle will be com ⁇ pletely dispensed.
  • Another feature of the present embodiment of the invention is that in addition to the enclosure 10 providing both a storage and dispensing function for such products as wine and the like, the enclosure also provides an environ ⁇ ment in which opened bottles of wines and the like may be selectively aged.
  • the source of oxygen is- con- - - nected to the gas inlet valve 23 and thereafter oxygen is introduced directly into the wine within the enclosure through the tube 35.
  • the oxygen is introduced directly into the wine and is allowed to bubble therethrough, the oxidation process is believed to be accelerated.
  • the wine is selectively tasted by withdraw ⁇ ing the same through the dispensing valve 34.
  • the oxygen in the bottle is purged by closing off the source of oxgyen supply through the valve 23, and thereafter introducing nitrogen under pressure through the gas inlet valve 23.
  • the gas outlet or bleed valve 22 will be selectively opened when the nitrogen being introduced into the enclosure reaches the purging pressure or predetermined maximum vent- ing pressure thereby allowing all the oxygen to be forced therefrom by the continuing incoming nitrogen.
  • the nitrogen pressure is raised to a level of approximately 20 p.s.i.g. or more thereby preventing any further oxidation or aging of the wine. Thereafter, the pressure is reduced and the wine is ready for storage or dispensing as discussed above.
  • the enclosure is substantially identical to that shown in Figs. 1-3 with the exception that the gas inlet tube and flexible connector or conduit which connects the inlet valve to the tube are not included.
  • incoming inert gas and/or oxygen is supplied to the enclosure exteriorly of the bottle directly through the gas inlet valve 23.
  • This structure is regarded as being the basic structure of the invention as the testing, including those tests previously mentioned, indicate that the inert gas need not be bubbled
  • the oxygen may be introduced above the wine as opposed to being bubbled through it, although, it is believed that introducing oxygen directly into the wine may accelerate the aging process.
  • enclosure 100 for housing an opened bottle 12 of wine W.
  • the enclosure 100 is shown as being stored within a conventional refriger ⁇ ated dispensing cabinet 113 which includes a front glass access panel 114, front and rear walls 115 and 116, upper and lower walls 117 and 118 and dispensing valve 120.
  • the dispensing valve 120 is also of conventional design and is normally closed being operable by way of manipulation of the valve handle 121.
  • the area 122 within the dispensing cabinet is refrigerated by a refrigeration unit (not shown) .
  • the enclosure 100 is shown as being generally cylin ⁇ drical in configuration and includes an upper end wall 125, side walls 126 and removable cap or closure member 127.
  • at least the side walls 126 are preferrably constructed of a clear or transparent plastic, plexiglass or glass material so that the contents of the bottle 12 may be visual at all times.
  • the lower end 128 of the side walls 126 is threaded so as to permit the closure member to be selectively secured thereto.
  • the closure member may be constructed of a plastic or metallic material.
  • a foam ring 129 may be fitted around the bottle so as to engage the inner side walls of the enclosure.
  • the upper end wall 125 of the enclosure includes a gas outlet valve 130 and combination gas inlet and fluid outlet valve 132.
  • the outlet valve is of conventional design and is selectively opened to relieve pressure with ⁇ in the enclosure when the pressure therein exceeds a pre-
  • SUBSTITUTE SHEET determined maximum or purging pressure such as previously discussed.
  • the valve shown is a duckbill type valve having opposed resilient closure legs 133 and 134 which are separ ⁇ ated to create an exhaust port or opening when the pressure in the enclosure exceeds the desired maximum and will main ⁇ tain an exhaust opening until the pressure drops below that maximum.
  • the fluid outlet and gas inlet valve 132 is a dual purpose valve. As shown, the valve includes an outer threaded exterior nipple 135 which can be sealed by a cap 136 having a central opening 137 therein or by a cap which is totally closed. A duckbill type valve member 138 is disposed within the opening 139 created by the nipple and serves to close the opening against the pressure therein. The valve member 138, however, will open when gas is intro ⁇ quizd into the enclosure and will also be opened and sealed against a dispensing tube 140 which is selectively inserted through the cap 136.
  • the dispensing tube 140 extends from its innermost or intake end 141 which is disposed adjacent the bottom of the bottle 12 to a discharge or outermost end 142 which is in fluid communication , with the dispensing valve 120.
  • an inert gas such as nitrogen is introduced under pressure through the gas inlet and fluid outlet valve 132.
  • the inert gas will be applied equally within the bottle and the area surrounding the bottle.
  • the air orig- inally within the enclosure will be automatically bled from the container by operation of the outlet valve 130 as the pressure rises above the predetermined maximum for the valve as the nitrogen is being introduced into the enclos ⁇ ure.
  • the pressure of inert gas is raised above approxi- mately 20 p.s.i.g. and then lowered to approximately 15 p.s.i.g. again by operation of the outlet valve 130.
  • SUBSTITUTESHEET pressurized enclosure may now be stored or placed into service in a dispensing cabinet such as that shown at 113 or the pressure therein further reduced to a lower initial dispensing pressure of between 5 to 10 p.s.i.g. and then the enclosure stored for future use.
  • the fluid conduit or tube 140 is forced through the opening in cap 136 and the gas inlet and fluid outlet valve 132 and down into bottle 12.
  • the valve member 139 will create a seal around the tube thereby preventing the escape of the nitrogen from the enclosure 100.
  • the wine in the bottle is subsequently dispensed by operation • of the valve and valve handle 120 and 121.
  • the initial dispensing pressure will continue to drop as the wine is dispensed.
  • the pressure may drop to substantially zero p.s.i.g. , however, sufficient gas is initially available to provide complete dispensing of the contents of the bottle.
  • the wine may be dir- ectly dispensed from the enclosure by utilizing a valve and tube assembly 150 as shown in Fig. 2.
  • a conventional pressure reducing dispensing valve 151 is modified to include a threaded base portion 152 which is threadingly engaged with the nipple 135 so as to be aligned in fluid communication with the valve 132.
  • a dispensing tube 153 is carried by the valve 151 and extends through valve 132 and into the bottle 12.
  • the dispensing enclosure 160 is constructed to provide both a storage and dispensing function for such products as v/ines as well as to provide a container in which open bottles of wines and the like may be selectively aged.
  • the enclosure includes a generally clear or transparent cylin- drical body portion having side wall 161 and bottom wall 162. The upper portion of the side walls is threaded as
  • SUBSTITUTE SHEET shown at 163 in order to cooperatively receive a lid or cover member 164.
  • the enclosure 160 houses a bottle 12 having wine W contained therein.
  • a foam ring 165 is provided around the bottle 12 and extends outwardly engaging the inner side walls 166 of the enclosure.
  • the lid or cover 164 includes an upper surface portion 167 and depending side wall portions 168 which are threadingly engaged with the threaded upper end portion of the body of the enclosure.
  • a gas outlet or relief valve 170 is provided through the upper portion of the lid 164.
  • the gas outlet 170 includes a pair of resilient valve flaps 171 which are normally in closed relationship with respect to one another thereby preventing the escape of gas within the enclosure through .the opening 172 in the valve.
  • a predetermined maximum purging pressure such as 15 p.s.i.g., the flaps 171 will be forced open allowing pressure within the container to escape as the pressure within the enclosure is continu ⁇ ously increased as discussed above.
  • the bottle of wine housed within the enclosure may be dispensed utilizing either an integrally attached dispensing faucet or remote faucets such as found in conventional wine dispensing cabinets.
  • a wine dispensing tube 173 is shown as extending from its lowermost end portion 174 which is adjacent the bottom of bottle 12 upward to a T connection or fitting 175 disposed above the top of the bottle.
  • A_f_Lttin_g _17_6_ _ is contemplated to connect the upper end portion 177 of the dispensing tube 173 with one end of the T coupling 175.
  • a first outlet channel 178 of the T connection extends generally perpendicularly with the dispensing tube 173 and is threadingly connected to a discharge tube 179 which extends through the flanged portion 168 of the cover 164.
  • the outer end of the dis ⁇ charge tube is threadingly connected at 180 to a conven-
  • a second outlet channel 184 is provided in the T con ⁇ nection 175 and extends generally in axial alignment with the fluid dispensing tube 173.
  • the outlet channel 184 is threadingly connected to a tubular fitting 185 which ex ⁇ tends upwardly through the upper surface 167 of the lid 164.
  • a duckbill valve member 186 is disposed through the uppermost end portion of the tubular fitting 185 and thereby provides a seal for preventing the escape of gas or fluid therethrough which tube may receive fluid being channeled thereto. from the fluid or wine dispensing tube 173.
  • valve member 186 is shown as being retained in position by a cap 187 having a central opening 188 therein which is used to selectively guide an exterior fluid discharge tube similar to that shown at 140 with respect to the embodiment of the invention shown in Fig. 5.
  • the opera ⁇ tion of the valve assembly 186 is similar to that discussed with respect to the operation of the valve assembly 132 shown in Fig. 5 so that a fluid outlet tube inserted there ⁇ through and extending to a remote dispensing nozzle will be sealed to prevent the escape of fluid-between the outlet tube and the valve 186.
  • the dis- pensing enclosure of the present embodiment also includes a gas inlet valve 190 which extends through an opening 191 in the upper portion 167 of the lid 164.
  • the inlet valve 190 includes a centrally disposed duckbill valve 192 which is generally closed but which is opened upon the insertion of a gas inlet nozzle 193 which may be secured in place by a screw threaded cap portion 194 which engages a threaded nipple portion 195 which extends upwardly from the upper surface 167 of the cap 164.
  • the gas inlet nozzle 193 is connected to a gas supply assembly 196 which includes a T connector 197 having one branch 198 connected to a source of inert gas such as nitrogen under pressure and a second
  • SUBSTITUTE SHEET conduit 199 attached to a source of oxgyen under pressure.
  • a pair of spaced valves 200 and 201 may be selectively used to close either of the branch conduits 198 or 199, • respectivel .
  • nitrogen under pressure may be intro ⁇ quizzed within the enclosure in order to prevent any deter ⁇ ioration of the wine product contained within the bottle 12 as was discussed with respect to the embodiment of Figs. 1 - 4.
  • relatively pure oxygen may be selectively introduced into the container in order to promote rapid ox ⁇ idation of a wine product contained therein.
  • the wine is selectively tasted to determine if the wine has reached its peak.
  • the oxygen in the bottle is purged by closing off the valve 201, opening the valve 200 and introducing nitrogen under press ⁇ ure through the gas inlet nozzle 193.
  • the gas outlet valve 170 may be selectively opened as the nitrogen is being introduced into the enclosure thereby allowing all the oxygen to be forced therefrom by the incoming nitrogen.
  • the nitrogen pressure is then brought to a level of approximately 20-30 p.s.i.g. or more thereby preventing any further oxidation or aging of the wine within the bottle.
  • the pressure is thereafter sel ⁇ ectively reduced for storage and dispensing.
  • the dispensing enclosures of the present invention have been designed to extend the life of opened bottles or containers of wine and other beverages and food products for unlimited periods utilizing the methods described. The primary consideration in extending the useful or shelf
  • SUBSTITUTESHEET lives of comestible consumer products including wines and alcoholic beverages is to provide a low cost method of pre ⁇ venting the continued oxidizing process which leads to spoilage and unpalatability of such products.
  • the containers or enclosures of the present invention are shown as being specifically used to house opened bottles of wine or similar beverage so that the contents thereof may be retained at their peak, palatable and consumer acceptable condition.
  • the basis of the present invention appears to be the application of high pressures of inert gas to wines and other similar comestible products so as to substantially purge all oxygen from such products and thereafter, storing the products in inert gas environ ⁇ ments.
  • the apparatuses of the present invention insure that the pressures within the bottles or other con ⁇ tainers of wines or other beverages are offset by similar pressures within the enclosures surrounding the containers so that increased pressures can be applied to the contents thereof without risk of damaging or destroying the beverage containers.
  • the methods of the present invention may be used to selectively age and preserve beverages at a peak flavor and quality.

Abstract

A method and apparatus for preserving and dispensing opened containers of beverages and particularly wines wherein an opened bottle or similar container (12) is placed within a separate enclosure (10) and thereafter an inert gas such as nitrogen is introduced therein until pressures exceeding those desired for dispensing are achieved so as to purge any air from the enclosure (10) and container (12) with the gas pressure being applied equally inside and outside of the bottle or container (12) to thereby preserve the contents of the bottle or container (12) at a peak and consumer acceptable quality. The apparatus includes an enclosure (10) having gas inlet and outlet valves (22, 23) and a fluid dispensing conduit (34) which communicates the beverage with a dispensing valve (24).

Description

Description
Method and Apparatus for Preserving and Dispensing Beverages
Technical Field
This invention is generally directed to methods and 5 apparatuses for dispensing beverages and particularly to methods and apparatuses for improving the shelf life of opened bottles or other containers of wines and other beverages. The apparatuses include enclosures in which 10 opened bottles or other opened containers of beverages are housed so that the contents thereof may be subjected to an environment of high pressure inert gas such as nitrogen while the interior of the enclosures are simultaneously being vented to atmosphere. Thereafter, the pressure may .15 be selectively reduced for 'subsequent' product dispensing at initial dispensing pressures of up to approximately 15 p.s.i.g. The methods are believed to not only remove air within the enclosures but. also purge excess oxygen from solution in the beverages thereby preventing further
20 oxidation thereof. In this manner, the shelf lives of wines and other beverages may be preserved for periods exceeding- four to six weeks. The apparatuses insure that the pressures within the bottles or other containers of wines or other beverages are offset by similar pressures
25 within the enclosures surrounding the containers so that increased pressures can be applied to the beverage contain¬ ers. In one embodiment, a beverage such as wine may be selectively aged and then preserved at its peak utilizing an apparatus of the invention.
30 Background Art
In recent years there has been a growing interest in the desire to provide alternative means for dispensing
UBSTITUTESHEET beverages and particularly wines in order to facilitate consumer service and decrease product waste. A major dir¬ ection of these efforts has been" to increase the shelf life of various opened containers of beverages. Prolonging shelf- life is particularly advantageous for the dispensing of products which are normally stored in containers wherein the volume of product is greater than the amount of product which is likely to be utilized or consumed at one time. Also, a prolonged shelf life is particularly beneficial if it is possible to preserve the original quality and palat- ability of the product. In the past, it has not been possible to adequately prolong the shelf life of opened bottles or other opened containers of such beverages as wines and the like. in some instances, a single bottle of wine may be so rare as to demand hundreds or even thousands of dollars on ■ the consumer market. In such cases, once the bottle of wine has been opened, the value of the wine is destroyed. Once the wine is exposed to a new source of oxygen, the aging process or further oxidation of the wine is accel¬ erated thereby destroying the possibility of the further resale or later consumption of the wine. In such circum¬ stances, if the shelf life of the product could be extended, the contents of an expensive bottle of wine could be pre- served over a period of time either for the enjoyment of the original purchaser or for subsequent consumption and/or distribution to other consumers.
Currently, innkeepers and winekeepers and the like have begun utilizing refrigeration and inert gas storage techniques for increasing the shelf life of opened bottles of wine. The use of refrigeration not only reduces the rate of oxidation of a wine after it has been opened to atmosphere, but also provides for a chilled product which is preferred by many consumers. Use of inert gases has also been made to reduce or retard the rate of oxidation in wines by decreasing the amount of oxygen required to
SUBSTITUTE SHEET promote oxidation of the alcohol within the wine.
In utilizing inert gases to preserve the life of opened containers of beverages, the containers are initially opened and exposed to atmosphere and thereafter, a plug is inserted to seal the contents. Inert gas such as nitrogen is sub¬ sequently introduced into the container and serves to pro¬ vide pressure for dispensing the fluid therein and at the same time provides a nitrogen-enriched environment above the fluid. Unfortunately, as most wines and other beverages are stored in glass containers, the amount of pressure which can be applied within the container is very limited. Because of this, operating pressures of up to 5 p.s.i.g. are generally not exceeded, not possible or not practical for use in present wine preserving and dispensing systems. In addition, the plugs or valves which are used to seal con¬ tainers prior to pressurization often leak, come loose or pop free from engagement- with the containers thereby re¬ leasing the inert gas and admitting various amounts of air so that. further aging is allowed to proceed. As the wine is exposed to more oxygen, oxidation will continue until the wine spoils. Generally, it has not been possible to preserve the shelf life of wines more than several weeks without the wine beginning to spoil.
Summary of the Invention This invention is directed to methods and apparatuses for preserving and dispensing beverages and particularly wines from bottles or other normally sealed containers wherein an opened container of beverage is placed within a sealed enclosure and thereafter subjected to an envir- onment of high pressure inert gas at pressures in excess of approximately 20 p.s.i.g. (gauge) and wherein the pressure within the container is simultaneously balanced with the pressure within the enclosure so that failure of the container due to increased pressure is prevented. As the inert gas is being introduced, the container is vented
SUBSTITUTESHEET to atmosphere thereby permitting air and oxgyen to be purged therefrom. The pressure of inert gas may thereafter be selectively reduced to a lower initial dispensing pressure in the range of approximately 15 p.s.i.g. or less and the beverage stored at the lower pressure for future dispensing. The enclosure is of a size to receive the bev¬ erage container completely therein and includes a cover to seal the enclosed container from the surrounding environ¬ ment. Valves are provided to permit the inlet of gases in- eluding inert nitrogen into both the enclosure and beverage container and to permit the exhaustion or purging of gases therefrom once a predetermined pressure is achieved. Conduits are also provided to dispense the beverage con¬ tents of the container either directly from the enclosure or through secondary dispensing units such as conventional refrigerated dispensers. In some embodiments, oxygen may be selectively supplied to the enclosures to promote the aging of wines which have not yet reached their peak.
It is a primary object of this invention to provide a method for preserving and dispensing beverages and espe¬ cially wines and other alcoholic beverages wherein an opened container of the beverage is maintained in a peak and consumer acceptable quality over periods in excess of four to six weeks after having been opened. It is also an object of the present invention to pro¬ vide a method of preserving the alcoholic content and flavor of opened containers of beverages including wines wherein the wines are subjected to environments of high pressure inert gas at the same time any oxygen or air is purged therefrom so that further aging of the beverage is prevented thereby insuring the palatability and peak of flavor of the wines for long periods of time after such containers have been opened.
It is a further object of the present invention to provide a method of preserving and dispensing beverages in which an opened container of a beverage is housed within a
SUBSTITUTESHEET supplemental enclosure and therein subjected to pressures of inert gases which would normally rupture or destroy the beverage container and which act to preserve the overall shelf life of the beverage by enabling oxygen to be removed from the beverage environment.
It is another object of the present invention to pro¬ vide a method for preserving and dispensing such beverages as wines and the like wherein the beverages may be dis¬ pensed portion by portion over extended periods of time • without adversely affecting the consumer quality thereof. Another object of the present invention is to provide a dispensing system for beverages such as wines and the like wherein high pressure inert gas is used to initially vent or expel oxygen from the dispensing enclosure so that subsequent oxidation or aging of the wine is prevented even when dispensing pressures created by the inert gases with the dispensing enclosure drop to zero or atmospheric pressure.
A further object of the present invention is to pro- vide an enclosure for housing opened bottles of wine for future dispensing wherein the contents thereof may be systematically aged by the selective introduction of an oxygen gas into either the wine bottle or container to thereby promote the aging of the wine and wherein further aging can be halted by exposing the wine to high pressure inert gas while purging air and oxygen within the envir¬ onment surrounding the wine to thereby prevent further oxidation thereof.
SUBSTITUTE SHEET -6-
Brief Description of the Drawings
Fig. 1 is a top plan view of a preferred form of enclosure apparatus of the present invention.
Fig. 2 is a cross sectional view taken along lines 2-2 of Fig. 1 having portions broken away.
Fig. 3 is a cross sectional view taken along lines 3-3 of Fig. 1.
Fig. 4 is a cross sectional view taken along lines 4-4 of Fig. 1 showing a modified embodiment of the invention of Fig. 1 wherein the oxygen tube is not utilized.
Fig. 5 is a cross sectional illustrational view show¬ ing another embodiment of the present invention as it is used to house an opened bottle of wine within a conventional refrigerated wine dispenser. Fig. 6 is a partial cross sectional view showing the apparatus of Fig. 5 utilizing a separate dispensing valve as opposed to a conventional dispensing cabinet.
Fig. 7 is a cross sectional illustrational view showing another embodiment of beverage dispensing apparatus which houses an opened bottle of wine for selective dispensing in accordance with the teachings of the present invention.
Detailed Description
With continued reference to the drawings, the contain¬ ers or enclosures of the present invention are shown as being specifically used to house opened bottles of wine or similar beverage so that the contents thereof may be re¬ tained at their peak, palatable and consumer acceptable condition. It is well known that exposure of beverages to air, such as when a bottled wine has been opened, results in the contents rapidly oxidizing until a point where spoilage occurs. The dispensing enclosures of the present invention have, been designed to extend the life of opened bottles or containers of wine and other beverages and food products for unlimited periods utilizing the methods as will be hereinafter.described in detail.
SUBSTITUTE SHEET The primary consideration in extending the useful or shelf lives of comestible consumer products including wines and other alcoholic-beverages is to-provide a low cost method of preventing the continued oxidizing process which leads to spoilage and unpalatability of such products.
Current processes which utilize inert gas pressurization of comestible products including wines apply gases at pressures of up to about 5 p.s.i.g. within the product containers. The design of the product containers makes the addition of greater pressures unsafe.
Through testing of various comestible products and pri¬ marily wines, it has been determined that the useful life of opened containers of such products may be extended well beyond the limits achievable using current gas pressuriza- tion techniques. A basis of the present methods appears to be the ability to subject wines and other similar comest¬ ible products to high pressures of inert gas so as to sub¬ stantially purge all oxygen from such products and there¬ after storing the products in inert gas environments. Particularly, through testing which is still continu¬ ing with regard to the methods of the invention, opened bottles of wines have been placed within enclosures wherein pressures of approximately 20 to 30 p.s.i.g. are originally applied thereto. The interiors of the enclosures which house the wine bottles are also placed under the same pressure so that the pressures interiorly and exteriorly of the bottled wines are balanced thereby preventing the possibility of the bottles failing or exploding under pressure. As the wines .are being pressurized to approxi- mately 20 p.s.i.g. and preferrably between 20 to 30 p.s.i.g., the air or oxygen within the bottles and enclos¬ ures is vented to atmosphere. The pressure level may thereafter be permitted to drop or is decreased to lower dispensing pressures, which may.be in the range of approx- imately 5 to 15 p.s.i.g. dependent upon an enclosure's volume or capcity. Although the products may be stored
SUBSTITUTE SHEET and dispensed at higher pressures, it is preferred to store the products at the lower dispensing pressures so that the products may be dispensed- directly -from the enclosures without requiring removal of the product containers there- from. Preferrably, the storage pressures are retained at approximately 10 p.s.i.g. until a product is initially dispensed and thereafter the pressure will decrease as the product level drops.
It is theorized that the initial high pressure treat- ment of the contents of opened containers or bottles of wine actually functions to drive even the slightest remain¬ ing oxygen from solution, thereby preventing further oxida¬ tion of the wine. - Thereafter, the wine can be maintained in an inert atmosphere over long periods of time at lower pressures with further aging or oxidation eliminated. By way of example, a Royal OPORTO, 1970 vintage Portuguese Port was- opened and exposed to atmosphere and tasted on June 19, _1985. After tasting, the opened bottle was placed into an enclosure of the type generally shown in Fig. 4 of the drawings. The enclosure surrounding the bottle was sealed and thereafter inert nitrogen gas was introduced therein. As the pressure reached approximately 15 p.s.i.g., a valve on the enclosure opened permitting the air therein to be vented to atmosphere. The pressure was continuously raised to approximately 25 p.s.i.g. and then permitted to slowly decrease. The pressure was finally lowered to approximately 10 p.s.i.g. and the product placed in storage. The product has been periodically tasted by dispensing a portion thereof utilizing a pressure reducing dispensing valve mounted to the container. To the date of the preparation of the application or October 7, 1985, the wine remains at its peak flavor and totally palatable and fit for consumer consumption. No noticeable deterioration in the product has taken place. A second test was made on an opened bottle of a Gammay Beaujolois, vintage 1980, wherein the opened container or
SUBSTITUTE SHEET bottle was also placed in a dispenser enclosure similar to that shown in Fig. 4 of the drawings. A nitrogen gas was used to drive off the air and raise the pressure within the enclosure and bottle to between 20 to 25 p.s.i.g. Again, the enclosure was vented to atmosphere when the pressure reached approximately 15 p.s.i.g. Thereafter, the pressure was reduced to an initial dispensing pressure of approxi¬ mately 8 to 10 p.s.i.g. On July 30th, the wine bottle was removed from the enclosure and the wine tasted. The wine was found to have remained at its peak flavor and taste and, again, the wine appeared to be as good and as consumable as it was when originally opened.
The enclosure used in the second example was then used on July 30, 1985 to house a bottle of La Tache 1957, bottle No. 15198 which had been opened and had begun to turn cloudy. Inert nitrogen was added and the gas pressure was raised as discussed with respect to the previous examples to approximately 25 p.s.i.g. while the oxygen was vented and then the pressure reduced to approximately 10 p.s.i.g. When tested on October 7, 1985, the wine had not deterior¬ ated or spoiled further than it had on July 30th.
A fourth test was made using an" opened bottle of Kistler Sauvinoin-Blanc 1982. The wine was placed within an enclosure similar to those of the preceding examples and thereafter the inert nitrogen added to pressurize the wine to 20 to 25 p.s.i.g. while the air and oxygen was vented from the enclosure. The pressure was then reduced to 10 p.s.i.g. The wine was originally treated on June 18, 1985 and was dispensed for consumer taste testing on July 31, 1985. The wine remained of excellent consumer quality and taste.
Although the foregoing tests have been made with initial pressures between 20 to 30 p.s.i.g., it is believed that greater pressures could also be used and that under certain circumstances slightly lesser initial pressures could be used as, for example, 18 to 20 p.s.i.g. Also,
SUBSTITUTESHEET although the examples reflect initial storage pressures in the range of 8 to 10 p.s.i.g., it is believed that press¬ ures ranging from 0 to 15 p.s.i.g. could be suitable under some conditions. Inthis regard, it should be noted that the initial storage pressure is also the initial dispensing pressure. Also, such pressures could be as high as the highest pressure achieved during the introduction of the inert gas. The pressure is preferrably lowered for storage and dispensing as pressures in excess of 15 p.s.i.g. are generally not necessary. As the inert gas within an enclosure will be used to dispense the wine product from an opened bottle housed therein, the initial dispensing pressure need only be high enough to insure that the entire contents of the bottle can be dispensed. Although the pressure will continue to decrease as the wine is dispensed, the wine remaining will be preserved in the inert gas environment even though the pressure may drop to zero p.s.i.g. (i.e. atmospheric pressure) as substantially all oxygen was originally purged from the environment thereby preventing further oxidation of the wine.
With respect to the dispensing enclosures of the present invention, such enclosures are designed to perm¬ anently retain the contents of an opened bottle of wine or other beverage or comestible product until the contents have been totally dispensed therefrom. In Figs. 1 - 3, a first embodiment of enclosure 10 is disclosed for housing an opened bottle 12 of wine W. The enclosure 10 is shown as being generally cylindrical in configuration and in¬ cludes an upper removable lid or cap 13, side walls 14 and removable lower closure member 15. The side walls 14 are preferrably made of a clear or transparent plastic or glass material so that the contents of the bottle 12 may be visual at all times. Both the upper and lower ends 16 and 17 of the side walls 14 are threaded so as to per- mit the upper and lower closure members 13 and 15 to be selectively secured thereto by mating threaded surfaces
SUBSTITUTESHEET 18 and 19, respectively. In addition, upper and lower ring gaskets 20 and 21 are provided to create air tight seals between the closures and the side walls of the container. The end caps or closure members may be constructed of a plastic or metallic material. The size of the enclosure may vary depending upon the size of bottle or other con¬ tainer 12 being housed therein. The enclosure must, how¬ ever, be of sufficient size to completely enclose the product container. The upper cap or closure member 13 of the enclosure has a gas outlet valve 22, gas inlet valve 23 and fluid outlet or dispensing valve 24 mounted therethrough. The outlet valve 22 is a conventional adjustable bleed valve and may be selectively adjusted to relieve pressure within the enclosure when the pressure therein exceeds a pre¬ determined maximum such as approximately 15 p.s.i.g. The valve will remain opened as the pressure in the enclosure is raised to be 20 to 30 p.s.i.g. and will close when the pressure drops to below the predetermined maximum. The valve shown includes nuts 25 and 26 which are adjustable to vary the compression of an inner valve spring to thereby create an exhaust port which will open when the pressure in the enclosure exceeds the preselected desired maximum which is preferrably in the range of 10 to 15 p.s.i.g.
The gas inlet valve 23 is also of conventional design and is similar to a valve on a tire. As shown, a cap 27 is threadingly engaged over the end of the valve in order to prevent dust or other, foreign material from contaminating the valve structure or opening.
The fluid outlet valve 24 is also of conventional design. The valve 24 includes a dispensing button 28 which is operable to open an inner valve plug in order to create an open fluid channel between the interior of the enclosure and the faucet 29. The base 30 of the dispensing valve is engaged to a threaded nipple 31 which is fixedly mounted
SUBSTITUTESHEET through the side walls of the cap or closure 13 utilizing a locknut member 32 which is disposed inside of the cap. The nipple 31 extends inwardly of the enclosure_10. and. is com¬ pletely enclosed or sealed with the exception of an opening 33 through which a fluid dispensing tube 34 is fixedly disposed so as to be in open fluid communication with the nipple 31.
The dispensing tube 34 extends from its innermost or intake end 34' which is disposed adjace-nt the bottom of the bottle 12 to a discharge or upper end which is in fluid communication with the dispensing valve 24 via the nipple 31
Also shown in Fig. 2 is a gas inlet tube 35 which is oriented in generally parallel relationship to the fluid outlet or dispensing tube 34. The gas inlet tube is mounted via a flexible tube 36 to one side of the gas inlet valve 23. The lower portion of the inlet tube includes a one way valve 38 which will permit gas to pass therethrough into the bottle 12 but will prevent the liquid within the - bottle from entering the tube. For purposes of rigidity, the gas inlet tube may be secured to the fluid dispensing tube by a clip or similar locking device 39.
In use of the enclosures 10 of Figs. 1-3 after an opened bottle of wine has been placed within the enclosure and the ends thereof sealed, an inert gas such as nitrogen is introduced under pressure through the gas inlet valve 23 into the enclosure. In this embodiment, the gas will enter the enclosure through gas inlet tube 35 which is disposed within the bottle 12. As the gas is supplied, it will bubble up through the wine and enter the area surrounding the bottle. As the bottle is opened within the enclosure, the inert gas will be applied equally within the bottle and the area surrounding the bottle thereby balancing the pressure both interiorly and exter¬ iorly of the bottle. The air originally within the en- closure will be automatically bled from the container by operation of the outlet valve 22 as the pressure rises
SUBSTITUTESHEET above the predetermined maximum for the valve as the nitro¬ gen is being introduced into the enclosure. Therefore, if the outlet valve is adjusted" to open at 15 p.s.i.g., the valve will begin to vent any air and excess nitrogen when the pressure within the enclosure reaches 15 p.s.i.g. The pressure of inert gas, however, is raised above approxi¬ mately 20 p.s.i.g. and then allowed to be reduced by oper¬ ation of the outlet valve 22. The pressure may be further reduced for storage and dispensing to pressures of between 5 to 10 p.s.i.g. The wine is dispensed by operation of the valve 24. -The initial dispensing pressure, as for example approximately 10 p.s.i.g., will drop as the wine is dis¬ pensed. The pressure may drop to 1 p.s.i.g. or less, however, sufficient gas pressure is initially supplied to insure that the entire contents of the bottle will be com¬ pletely dispensed.
Another feature of the present embodiment of the invention is that in addition to the enclosure 10 providing both a storage and dispensing function for such products as wine and the like, the enclosure also provides an environ¬ ment in which opened bottles of wines and the like may be selectively aged.
Utilizing the gas inlet valve and tube arrangement of the present embodiment, it is not only possible to intro- duce nitrogen under pressure within the enclosure in order to prevent any deterioration of the wine contained within the bottle 12, as has been discussed, but it is also poss¬ ible to selectively introduce relatively pure oxygen into the container in order to promote rapid oxidation of a wine contained therein. It has been found that some wines when opened and tasted have not reached their peak. In this regard, utilizing the appratus of the present inven¬ tion, it is possible to introduce relatively pure oxygen to accelerate the oxidation process of the wine. By introducing the oxygen at pressures in excess of approxi¬ mately 20 p.s.i.g., it is possible to speed the oxidation
SUBSTITUTESHEET process into minutes or hours as opposed to days, weeks, or even years. When utilizing the aging process utilizing the apparatus of this invention, the source of oxygen is- con- - - nected to the gas inlet valve 23 and thereafter oxygen is introduced directly into the wine within the enclosure through the tube 35. As the oxygen is introduced directly into the wine and is allowed to bubble therethrough, the oxidation process is believed to be accelerated. Once the oxygen has been introduced into the container and allowed to remain in contact with the wine over a predetermined period of time, the wine is selectively tasted by withdraw¬ ing the same through the dispensing valve 34. Once the wine has been determined to have reached its peak, the oxygen in the bottle is purged by closing off the source of oxgyen supply through the valve 23, and thereafter introducing nitrogen under pressure through the gas inlet valve 23. The gas outlet or bleed valve 22 will be selectively opened when the nitrogen being introduced into the enclosure reaches the purging pressure or predetermined maximum vent- ing pressure thereby allowing all the oxygen to be forced therefrom by the continuing incoming nitrogen. As with the prior examples, the nitrogen pressure is raised to a level of approximately 20 p.s.i.g. or more thereby preventing any further oxidation or aging of the wine. Thereafter, the pressure is reduced and the wine is ready for storage or dispensing as discussed above.
In the embodiment shown 'in Fig. 4, the enclosure is substantially identical to that shown in Figs. 1-3 with the exception that the gas inlet tube and flexible connector or conduit which connects the inlet valve to the tube are not included. In this embodiment, incoming inert gas and/or oxygen is supplied to the enclosure exteriorly of the bottle directly through the gas inlet valve 23. This structure is regarded as being the basic structure of the invention as the testing, including those tests previously mentioned, indicate that the inert gas need not be bubbled
SUBSTITUTE SH through the wine in order to effectively prevent further aging of the wine. Also when the enclosure is used to age wine, the oxygen may be introduced above the wine as opposed to being bubbled through it, although, it is believed that introducing oxygen directly into the wine may accelerate the aging process.
With particular reference to Figs. 5 and 6 of the draw¬ ings, another embodiment of enclosure 100 is disclosed for housing an opened bottle 12 of wine W. The enclosure 100 is shown as being stored within a conventional refriger¬ ated dispensing cabinet 113 which includes a front glass access panel 114, front and rear walls 115 and 116, upper and lower walls 117 and 118 and dispensing valve 120. The dispensing valve 120 is also of conventional design and is normally closed being operable by way of manipulation of the valve handle 121. The area 122 within the dispensing cabinet is refrigerated by a refrigeration unit (not shown) .
The enclosure 100 is shown as being generally cylin¬ drical in configuration and includes an upper end wall 125, side walls 126 and removable cap or closure member 127. As with the prior embodiment, at least the side walls 126 are preferrably constructed of a clear or transparent plastic, plexiglass or glass material so that the contents of the bottle 12 may be visual at all times. The lower end 128 of the side walls 126 is threaded so as to permit the closure member to be selectively secured thereto. The closure member may be constructed of a plastic or metallic material. In order to stabilize the bottle or container 12 within the enclosure 10, a foam ring 129 may be fitted around the bottle so as to engage the inner side walls of the enclosure.
The upper end wall 125 of the enclosure includes a gas outlet valve 130 and combination gas inlet and fluid outlet valve 132. The outlet valve is of conventional design and is selectively opened to relieve pressure with¬ in the enclosure when the pressure therein exceeds a pre-
SUBSTITUTE SHEET determined maximum or purging pressure such as previously discussed. The valve shown is a duckbill type valve having opposed resilient closure legs 133 and 134 which are separ¬ ated to create an exhaust port or opening when the pressure in the enclosure exceeds the desired maximum and will main¬ tain an exhaust opening until the pressure drops below that maximum.
The fluid outlet and gas inlet valve 132 is a dual purpose valve. As shown, the valve includes an outer threaded exterior nipple 135 which can be sealed by a cap 136 having a central opening 137 therein or by a cap which is totally closed. A duckbill type valve member 138 is disposed within the opening 139 created by the nipple and serves to close the opening against the pressure therein. The valve member 138, however, will open when gas is intro¬ duced into the enclosure and will also be opened and sealed against a dispensing tube 140 which is selectively inserted through the cap 136.
The dispensing tube 140 extends from its innermost or intake end 141 which is disposed adjacent the bottom of the bottle 12 to a discharge or outermost end 142 which is in fluid communication, with the dispensing valve 120.
In use of the enclosures 100 of Fig. 5, after an opened bottle of wine has been placed within the enclosure and the cap 127 sealed, an inert gas such as nitrogen is introduced under pressure through the gas inlet and fluid outlet valve 132. As the bottle is opened within the enclosure, the inert gas will be applied equally within the bottle and the area surrounding the bottle. The air orig- inally within the enclosure will be automatically bled from the container by operation of the outlet valve 130 as the pressure rises above the predetermined maximum for the valve as the nitrogen is being introduced into the enclos¬ ure. The pressure of inert gas is raised above approxi- mately 20 p.s.i.g. and then lowered to approximately 15 p.s.i.g. again by operation of the outlet valve 130. The
SUBSTITUTESHEET pressurized enclosure may now be stored or placed into service in a dispensing cabinet such as that shown at 113 or the pressure therein further reduced to a lower initial dispensing pressure of between 5 to 10 p.s.i.g. and then the enclosure stored for future use. Once the enclosure is in the cabinet, the fluid conduit or tube 140 is forced through the opening in cap 136 and the gas inlet and fluid outlet valve 132 and down into bottle 12. The valve member 139 will create a seal around the tube thereby preventing the escape of the nitrogen from the enclosure 100. The wine in the bottle is subsequently dispensed by operation • of the valve and valve handle 120 and 121. The initial dispensing pressure will continue to drop as the wine is dispensed. The pressure may drop to substantially zero p.s.i.g. , however, sufficient gas is initially available to provide complete dispensing of the contents of the bottle.
Instead of utilizing the enclosure 100 of Fig. 5 in a conventional wine dispensing cabinet, the wine may be dir- ectly dispensed from the enclosure by utilizing a valve and tube assembly 150 as shown in Fig. 2. In this embodi¬ ment, a conventional pressure reducing dispensing valve 151 is modified to include a threaded base portion 152 which is threadingly engaged with the nipple 135 so as to be aligned in fluid communication with the valve 132. A dispensing tube 153 is carried by the valve 151 and extends through valve 132 and into the bottle 12.
Another embodiment of dispensing enclosure of the present invention is shown in Fig. 6. In this embodiment, the dispensing enclosure 160 is constructed to provide both a storage and dispensing function for such products as v/ines as well as to provide a container in which open bottles of wines and the like may be selectively aged. The enclosure includes a generally clear or transparent cylin- drical body portion having side wall 161 and bottom wall 162. The upper portion of the side walls is threaded as
SUBSTITUTE SHEET shown at 163 in order to cooperatively receive a lid or cover member 164. The enclosure 160 houses a bottle 12 having wine W contained therein. In order to secure the bottle within the enclosure, a foam ring 165 is provided around the bottle 12 and extends outwardly engaging the inner side walls 166 of the enclosure. The lid or cover 164 includes an upper surface portion 167 and depending side wall portions 168 which are threadingly engaged with the threaded upper end portion of the body of the enclosure. As with the structure of the first embodiment of the invention, a gas outlet or relief valve 170 is provided through the upper portion of the lid 164. The gas outlet 170 includes a pair of resilient valve flaps 171 which are normally in closed relationship with respect to one another thereby preventing the escape of gas within the enclosure through .the opening 172 in the valve. When the pressure within the enclosure reaches or exceeds a predetermined maximum purging pressure such as 15 p.s.i.g., the flaps 171 will be forced open allowing pressure within the container to escape as the pressure within the enclosure is continu¬ ously increased as discussed above.
The bottle of wine housed within the enclosure may be dispensed utilizing either an integrally attached dispensing faucet or remote faucets such as found in conventional wine dispensing cabinets. To enable this dual dispensing feature, a wine dispensing tube 173 is shown as extending from its lowermost end portion 174 which is adjacent the bottom of bottle 12 upward to a T connection or fitting 175 disposed above the top of the bottle. A_f_Lttin_g _17_6_ _is„utilized to connect the upper end portion 177 of the dispensing tube 173 with one end of the T coupling 175. A first outlet channel 178 of the T connection extends generally perpendicularly with the dispensing tube 173 and is threadingly connected to a discharge tube 179 which extends through the flanged portion 168 of the cover 164. The outer end of the dis¬ charge tube is threadingly connected at 180 to a conven-
RUR.QT-TI JTF W^^T tional pressure reduction dispensing valve 182 which is operable using a pushbutton assembly 183.
A second outlet channel 184 is provided in the T con¬ nection 175 and extends generally in axial alignment with the fluid dispensing tube 173. The outlet channel 184 is threadingly connected to a tubular fitting 185 which ex¬ tends upwardly through the upper surface 167 of the lid 164. A duckbill valve member 186 is disposed through the uppermost end portion of the tubular fitting 185 and thereby provides a seal for preventing the escape of gas or fluid therethrough which tube may receive fluid being channeled thereto. from the fluid or wine dispensing tube 173. The valve member 186 is shown as being retained in position by a cap 187 having a central opening 188 therein which is used to selectively guide an exterior fluid discharge tube similar to that shown at 140 with respect to the embodiment of the invention shown in Fig. 5. In addition, the opera¬ tion of the valve assembly 186 is similar to that discussed with respect to the operation of the valve assembly 132 shown in Fig. 5 so that a fluid outlet tube inserted there¬ through and extending to a remote dispensing nozzle will be sealed to prevent the escape of fluid-between the outlet tube and the valve 186.
As with the prior embodiments of Figs. 1-4, the dis- pensing enclosure of the present embodiment also includes a gas inlet valve 190 which extends through an opening 191 in the upper portion 167 of the lid 164. The inlet valve 190 includes a centrally disposed duckbill valve 192 which is generally closed but which is opened upon the insertion of a gas inlet nozzle 193 which may be secured in place by a screw threaded cap portion 194 which engages a threaded nipple portion 195 which extends upwardly from the upper surface 167 of the cap 164. The gas inlet nozzle 193 is connected to a gas supply assembly 196 which includes a T connector 197 having one branch 198 connected to a source of inert gas such as nitrogen under pressure and a second
SUBSTITUTE SHEET conduit 199 attached to a source of oxgyen under pressure. A pair of spaced valves 200 and 201 may be selectively used to close either of the branch conduits 198 or 199, respectivel . Utilizing the gas inlet valve arrangement of the present embodiment, nitrogen under pressure may be intro¬ duced within the enclosure in order to prevent any deter¬ ioration of the wine product contained within the bottle 12 as was discussed with respect to the embodiment of Figs. 1 - 4. Likewise, relatively pure oxygen may be selectively introduced into the container in order to promote rapid ox¬ idation of a wine product contained therein. Again, by introducing oxygen at pressures in excess of approximately 20 p.s.i.g., it is possible to speed the aging process. Once the oxygen has been introduced into the container and allowed to remain in contact with the wine over a predeter¬ mined period of time, the wine is selectively tasted to determine if the wine has reached its peak. Thereafter, the oxygen in the bottle is purged by closing off the valve 201, opening the valve 200 and introducing nitrogen under press¬ ure through the gas inlet nozzle 193. The gas outlet valve 170 may be selectively opened as the nitrogen is being introduced into the enclosure thereby allowing all the oxygen to be forced therefrom by the incoming nitrogen. As with the prior examples, the nitrogen pressure is then brought to a level of approximately 20-30 p.s.i.g. or more thereby preventing any further oxidation or aging of the wine within the bottle. The pressure is thereafter sel¬ ectively reduced for storage and dispensing.
Industrial Applicability
The dispensing enclosures of the present invention have been designed to extend the life of opened bottles or containers of wine and other beverages and food products for unlimited periods utilizing the methods described. The primary consideration in extending the useful or shelf
SUBSTITUTESHEET lives of comestible consumer products including wines and alcoholic beverages is to provide a low cost method of pre¬ venting the continued oxidizing process which leads to spoilage and unpalatability of such products. The containers or enclosures of the present invention are shown as being specifically used to house opened bottles of wine or similar beverage so that the contents thereof may be retained at their peak, palatable and consumer acceptable condition. Through testing of various comestible products and primarily wines, it has been determined that the useful life of opened containers of such products may be extended well beyond the limits achievable using current gas pressurization techniques. The basis of the present invention appears to be the application of high pressures of inert gas to wines and other similar comestible products so as to substantially purge all oxygen from such products and thereafter, storing the products in inert gas environ¬ ments.
In addition, the apparatuses of the present invention insure that the pressures within the bottles or other con¬ tainers of wines or other beverages are offset by similar pressures within the enclosures surrounding the containers so that increased pressures can be applied to the contents thereof without risk of damaging or destroying the beverage containers.
Also, the methods of the present invention may be used to selectively age and preserve beverages at a peak flavor and quality.
SUBSTITUTE SHEET

Claims

1. A beverage preserving and dispensing apparatus for dispensing the fluid contents from an opened container of the beverage comprising an enclosure means, said enclosure means having a body portion within which the opened con¬ tainer is housed, removable closure means for sealing said body portion of said enclosure means from the outside at¬ mosphere, a dispensing tube means extending inwardly of said body portion and within the opened container, first dispensing valve means connected to said dispensing tube means for selectively dispensing the fluid contents of the opened container exteriorly of said enclosure means, an inlet gas valve means in said enclosure means for permit¬ ting the supply of an inert gas into said enclosure means, and a pressure release valve mounted to said enclosure means for permitting the release of gases therein when pressures above a predetermined maximum are .achieved within the enclosure means.
2. The beverage preserving and dispensing apparatus of Claim 1 in which said dispensing tube means includes a first conduit section extending downwardly into said enclosure means, a second conduit section extending gen¬ erally perpendicular with respect to said first conduit section and being disposed through said closure means, said first conduit section being in fluid communication with said second conduit section, said first dispensing valve means-being selectively- connected _to said_second conduit section exteriorly of said enclosure means.
3. The beverage preserving and dispensing apparatus of Claim 2 including a gas inlet tube means disposed within said enclosure means, said gas inlet tube means being connected to said inlet valve means and extending generally parallel with said dispensing tube means.
SUBSTITUTESHEET
4. The beverage preserving and dispensing apparatus of Claim 2 in which said body portion of said enclosure means is generally cylindrical, a pair of closure means mounted adjacent each end of said body portion of said enclosure means so as to be in air tight engagement there¬ with, said first dispensing valve means, said inlet gas valve means and said pressure relief valve means being mounted through one of said closure means.
5. The beverage preserving and dispensing apparatus of Claim 1 in which said enclosure means includes a dis¬ pensing tube inlet valve means which is normally closed to prevent fluid dispensing from said enclosure, said dis¬ pensing tube inlet valve means having means to permit the insertion of said dispensing tube means into said enclos- ure means so that said valve means is in sealed engagement therewith.
6. The beverage preserving and dispensing apparatus of Claim 1 including a fluid discharge opening within said enclosure means, said dispensing tube means including a first tube section within said enclosure means extending into the opened container, a second tube section within said enclosure means communicating said first tube section with said first dispensing valve means, and a third tube section within said enclosure means communicating said first tube section with said fluid discharge opening.
7. The beverage preserving and dispensing apparatus of Claim 6 including a second dispensing valve means and means for connecting said second dispensing valve means to said fluid discharge opening so as to be in open communication with said third tube section of said dispensing tube means.
SUBSTITUTESHEET
8. The beverage preserving and dispensing apparatus of Claim 7 in which said first dispensing valve means is mounted directly to said enclosure means and said second dispensing valve means is disposed remotely of said enclos- ure means.
9. The beverage preserving and dispensing apparatus of Claim 1 including stabilizing means within said enclosure means, said stabilizing means engaging with said enclosure means and the opened container thereby steadying the container within said enclosure means.
10. The beverage preserving and dispensing apparatus of Claim 1 including gas supply means connected to said gas inlet valve means, said gas supply means including a first supply line connected to a source of inert gas under press- ure, a second supply line connected to a source of oxygen gas under pressure and valve means for selecting and regu¬ lating the flow of gas through said gas inlet valve means and into said enclosure means.
11. Method of preserving alcoholic beverages contained in open containers of such beverage comprising the steps of: a) Placing the opened container of beverage into a separate outer enclosure; b) Sealing the outer enclosure from atmosphere; c) Introducing an inert gas into the outer enclosure and allowing the pressure within both the container and enclosure to-rise generally simultaneously so that the pressure within the container is essentially equal to the pressure within the enclosure; d) Increasing the pressure of the inert gas within the outer enclosure to pressures above approximately 20 p.s.i.g.
■to force oxygen from the beverages and retard further oxi¬ dation thereof;
SUBSTITUTE SHEET e) Reducing the pressure of the inert gas within the outer enclosure to an initial storage pressure; f) Retaining the opened container of beverage within the outer enclosure for subsequent dispensing of the bev- erage therefrom.
12. The method of Claim 11 including the additional step of initially venting the inside of the outer enclos¬ ure to atmosphere as the inert gas is being introduced therein.
13. The method of Claim 12 wherein the pressure of inert gas is reduced to storage pressures of approximately 15 p.s.i.g. or less.
14. The method of Claim 13 in which the storage pressure is reduced to between 5 to 10 p.s.i.g. '
15. The method of Claim 14 in which the outer enclos¬ ure is vented when pressures initially reach a maximum of approximately 15 p.s.i.g. and remains vented until press¬ ures therein are reduced from pressures above approxi¬ mately 20 p.s.i.g. to said maximum pressure.
16. The method of Claim 15 in which the pressure of inert gas is initially raised to between approximately 20 to 30 p.s.i.g.
17. The method of Claim 16.wherein -the inert gas is nitrogen.
18. The method of aging and preserving previously bottled wines for subsequent dispensing comprising the steps of: a) Opening the bottles of wine to atmosphere; b) Placing the opened bottle of wine into a separate
SUBSTITUTE SHEET outer enclosure; c) Sealing the outer enclosure from atmosphere; d) Introducing oxygen into the outer enclosure for a selected period of time in order to promote additional aging of the wine; e) Venting the oxygen to atmosphere while introducing an inert gas within the outer enclosure so the pressure thereof reaches at least approximately 20 p.s.i.g. in order to retard further aging of the wine; f) Retaining the opened bottle of wine within the inert gas environment within the outer enclosure for sub¬ sequent dispensing therefrom.
19. The method of Claim 18 including the additional step of decreasing the pressure of the inert gas within the enclosure to approximately 10 p.s.i.g. or less after the wine has been exposed to the pressure of at least approximately 20 p.s.i.g.
20. The method of Claim 19 wherein the oxygen is introduced directly into the wine.
SUBSTITUTE SHEET
PCT/US1986/002105 1985-10-09 1986-10-09 Method and apparatus for preserving and dispensing beverages WO1987002345A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US78564585A 1985-10-09 1985-10-09
US785,645 1985-10-09

Publications (1)

Publication Number Publication Date
WO1987002345A1 true WO1987002345A1 (en) 1987-04-23

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ID=25136166

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/US1986/002105 WO1987002345A1 (en) 1985-10-09 1986-10-09 Method and apparatus for preserving and dispensing beverages

Country Status (3)

Country Link
EP (1) EP0241535A1 (en)
AU (1) AU6543886A (en)
WO (1) WO1987002345A1 (en)

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FR2616767A1 (en) * 1987-06-22 1988-12-23 Cruover Sa Device permitting the dispensing of a bottled liquid beverage, particularly wine
FR2819687A1 (en) * 2001-01-23 2002-07-26 Jean Michel Ernewein PORTABLE WINE STORAGE AND STORAGE DEVICE
WO2003016198A1 (en) * 2001-08-15 2003-02-27 Big Bottle I.P. Pty Ltd Liquid dispensing system and apparatus
US8272538B2 (en) 2008-07-08 2012-09-25 Morgan William Weinberg Wine bottle sealing and dispensing device

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US2120297A (en) * 1935-08-15 1938-06-14 Food Devices Inc Device for producing aerated expanded food products
US2181838A (en) * 1938-08-20 1939-11-28 Cornell Res Foundation Inc Wine process
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US3638831A (en) * 1970-03-25 1972-02-01 Loctite Corp Dispensing of hardenable liquids
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US4401016A (en) * 1981-02-24 1983-08-30 Thorn Emi Domestic Electrical Appliances Limited Aerated drinks machine
US4473174A (en) * 1982-07-30 1984-09-25 Howard John Cream Wine preserver and dispenser
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Publication number Priority date Publication date Assignee Title
US578142A (en) * 1897-03-02 Jacob fierz
US2040661A (en) * 1934-02-19 1936-05-12 Alfred J Liebmann Method of improving and aging distilled alcoholic beverages
US2120297A (en) * 1935-08-15 1938-06-14 Food Devices Inc Device for producing aerated expanded food products
US2181838A (en) * 1938-08-20 1939-11-28 Cornell Res Foundation Inc Wine process
US2637652A (en) * 1950-02-10 1953-05-05 Edmund J Ryan Alcoholic beverages and method
US2756105A (en) * 1953-02-09 1956-07-24 American Can Co Protective shatterproof outer container for bottle
US3676010A (en) * 1970-03-06 1972-07-11 Paul W Kirch Applicatory-liquid feeding and applying apparatus
US3638831A (en) * 1970-03-25 1972-02-01 Loctite Corp Dispensing of hardenable liquids
US3883043A (en) * 1973-10-18 1975-05-13 Charles Robert Lane Dispensor for vintage wines
US4392578A (en) * 1980-09-25 1983-07-12 Fipp Beverly A Stopper apparatus for content contamination prevention
US4401016A (en) * 1981-02-24 1983-08-30 Thorn Emi Domestic Electrical Appliances Limited Aerated drinks machine
US4473174A (en) * 1982-07-30 1984-09-25 Howard John Cream Wine preserver and dispenser
US4475576A (en) * 1982-09-03 1984-10-09 Simon Philip E Wine preservation system

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2616767A1 (en) * 1987-06-22 1988-12-23 Cruover Sa Device permitting the dispensing of a bottled liquid beverage, particularly wine
FR2819687A1 (en) * 2001-01-23 2002-07-26 Jean Michel Ernewein PORTABLE WINE STORAGE AND STORAGE DEVICE
WO2002059036A1 (en) * 2001-01-23 2002-08-01 Jean-Michel Ernewein Portable device for racking and preserving wine
WO2003016198A1 (en) * 2001-08-15 2003-02-27 Big Bottle I.P. Pty Ltd Liquid dispensing system and apparatus
US7258252B2 (en) 2001-08-15 2007-08-21 Marshall Waters Liquid dispensing systems and apparatus
US8272538B2 (en) 2008-07-08 2012-09-25 Morgan William Weinberg Wine bottle sealing and dispensing device

Also Published As

Publication number Publication date
EP0241535A1 (en) 1987-10-21
AU6543886A (en) 1987-05-05

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