Beverage dispensing system using highly concentrated beverage syrup
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IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B67D-007/74
B67D-007/78
B67D-007/80
출원번호
US-0733999
(2008-10-15)
등록번호
US-8567642
(2013-10-29)
국제출원번호
PCT/US2008/011745
(2008-10-15)
§371/§102 date
20100402
(20100402)
국제공개번호
WO2009/051709
(2009-04-23)
발명자
/ 주소
Hoover, George H.
출원인 / 주소
IMI Cornelius, Inc.
대리인 / 주소
Niro, Haller & Niro
인용정보
피인용 횟수 :
2인용 특허 :
11
초록▼
A fountain beverage dispenser for constituting a beverage by mixture of a beverage syrup and a diluent for the syrup is characterized by use of a highly concentrated beverage syrup supply and at least one diluent and syrup blending station for diluting the highly concentrated syrup with diluent befo
A fountain beverage dispenser for constituting a beverage by mixture of a beverage syrup and a diluent for the syrup is characterized by use of a highly concentrated beverage syrup supply and at least one diluent and syrup blending station for diluting the highly concentrated syrup with diluent before the diluted syrup is mixed with diluent in the final mixture of syrup and diluent delivered to a dispensing nozzle.
대표청구항▼
1. A fountain beverage dispensing system, comprising: a beverage dispense nozzle;a diluent flow path for being fluid coupled to a supply of a first diluent and to said nozzle;first metering means in said diluent flow path and controllable to deliver a metered flow of the first diluent through said d
1. A fountain beverage dispensing system, comprising: a beverage dispense nozzle;a diluent flow path for being fluid coupled to a supply of a first diluent and to said nozzle;first metering means in said diluent flow path and controllable to deliver a metered flow of the first diluent through said diluent flow path to said nozzle;a beverage syrup flow path for being fluid coupled to a supply of concentrate beverage syrup and to said nozzle, said concentrate beverage syrup having a Brix of greater than 65;a water and syrup blender fluid coupled to said beverage syrup flow path for diluting concentrate beverage syrup in said beverage syrup flow path with a second diluent and for mixing the beverage syrup and second diluent to no less than an acidity level sufficient to restrict organism growth for flow through said beverage syrup flow path toward said nozzle; andsecond metering means in said beverage syrup flow path downstream from said water and syrup blender and controllable to deliver a metered flow of diluted beverage syrup through said beverage syrup flow path to said nozzle, so that a desired ratio of the first diluent to the beverage syrup are delivered by said first and second metering means to said nozzle. 2. A system as in claim 1, wherein one of the first and second diluents is plain water and the other is carbonated water. 3. A system as in claim 1, wherein both of the first and second diluents are either plain water or carbonated water. 4. A system as in claim 1, wherein said water and syrup blender comprises at least two water and syrup blenders fluid coupled in series in said beverage syrup flow path for sequentially diluting and further diluting concentrate beverage syrup in said flow path with the second diluent in selected ratios of concentrate beverage syrup to second diluent for flow through said beverage syrup flow path toward said nozzle. 5. A system as in claim 1, including a chiller fluid coupled in said diluent flow path between the supply of the first diluent and said first metering means and in said beverage syrup flow path between the supply of concentrate beverage syrup and said second metering means for chilling the first diluent and the beverage syrup. 6. A system as in claim 5, wherein said water and syrup blender is fluid coupled to said beverage syrup flow path between the supply of concentrate beverage syrup and said chiller. 7. A system as in claim 5, wherein said means for a water and syrup blender is fluid coupled to said beverage syrup flow path between said chiller and said second metering means. 8. A system as in claim 5, wherein said water and syrup blender is fluid coupled to said beverage syrup flow path between the supply of concentrate beverage syrup and said chiller; and a pump in said beverage syrup flow path between the supply of beverage syrup and said water and syrup blender for delivering concentrate beverage syrup from the supply thereof to said water and syrup blender. 9. A system as in claim 6, wherein the supply of beverage syrup has a Brix between about 65 and 80. 10. A system as in claim 6, wherein the supply of beverage syrup has a Brix between about 75 and 80. 11. A system as in claim 8, including a second pump in said beverage syrup flow path between said water and syrup blender and said chiller for delivering diluted beverage syrup from said water and syrup blender to said chiller. 12. A method of dispensing a fountain beverage, comprising the steps of: providing a beverage dispense nozzle;coupling a diluent flow path between a supply of a first diluent and the nozzle;metering a flow of the first diluent through the diluent flow path to the nozzle;coupling a beverage syrup flow path between a supply of concentrated beverage syrup and the nozzle, said concentrated beverage syrup having a Brix greater than 65,diluting and mixing the concentrate beverage syrup with a second diluent at a first point in the beverage syrup flow path downstream from the supply of concentrate beverage syrup to no less than an acidity level sufficient to restrict organism growth, so that downstream from the first point the beverage syrup in the beverage syrup flow path is diluted with the second diluent; andmetering, at a second point in the beverage syrup flow path downstream from the first point, a flow of diluted beverage syrup through the beverage syrup flow path to the nozzle, so that a desired ratio of first diluent to diluted beverage syrup is flowed by said two metering steps to the nozzle. 13. A method as in claim 12, wherein one of the first and second diluents is plain water and the other is carbonated water. 14. A method as in claim 12, wherein each of the first and second diluents is either plain water or carbonated water. 15. A method as in claim 12, wherein said diluting and mixing step comprises diluting and mixing and further diluting and mixing the concentrate beverage syrup with a second diluent at two or more points in the beverage syrup flow path downstream from the supply of concentrate beverage syrup in selected ratios of the second diluent to the beverage syrup. 16. A method as in claim 12, wherein the first point in the beverage syrup flow path where said step of diluting and mixing is performed is close to the supply of concentrate beverage syrup, and including the step of pumping concentrate beverage syrup from the supply thereof through the beverage syrup flow path and to the first point. 17. A method as in claim 16, including the further step of pumping diluted beverage syrup through the beverage syrup flow path from the first point to the second point. 18. A method as in claim 12, including the steps of chilling the first diluent in the diluent flow path upstream from the point of performance of said step of metering the flow of the first diluent, and chilling the beverage syrup in the beverage syrup flow path at a third point upstream from the second point. 19. A method as in claim 18, wherein said step of diluting the concentrate beverage syrup at the second point in the beverage syrup flow path is performed downstream from chilling the beverage syrup at the third point in the beverage syrup flow path and upstream from metering the beverage syrup at the second point in the beverage syrup flow path. 20. A method as in claim 18, wherein said step of diluting and mixing the beverage syrup with the second diluent at the first point in the beverage syrup flow path is performed upstream from said step of chilling the beverage syrup at the third point in the beverage syrup flow path. 21. A method as in claim 20, wherein the supply of beverage syrup has a Brix between about 65 and 80. 22. A method as in claim 20, wherein the supply of beverage syrup has a Brix between about 75 and 80. 23. A method as in claim 19, wherein the supply of beverage syrup is a sugar-free beverage syrup. 24. A beverage dispensing system using a sweetener, comprising: a beverage dispensing nozzle;a beverage syrup source with the beverage syrup at more than about 65 brix;a first diluent source with a first diluent;a mixing chamber in communication with the beverage syrup source and the first diluent source as to dilute the sweetener to less than about 65 brix but no less than an acidity level sufficient to restrict organism growth; anda second diluent source with a second diluent so as to dilute further the beverage syrup at the dispensing nozzle. 25. The beverage dispensing system of claim 24, wherein the beverage syrup comprises high fructose corn syrup, sucrose, and an acid component. 26. The beverage dispensing system of claim 24, further comprising one or more pumps being a metered pump or a positive displacement pump downstream of said mixing chamber. 27. The beverage dispensing system of claim 24, further comprising a chiller. 28. The beverage dispensing system of claim 27, wherein the chiller is positioned downstream of the mixing chamber. 29. A beverage dispensing system using a sweetener, comprising: a dispensing nozzle;a beverage syrup source with the sweetener at more than about 65 brix;a first diluent source with a diluent;one or more first pumps in communication with the beverage syrup source positioned between said beverage syrup source and said first diluent source;one or more further pumps of the one or more first pumps;a syrup blender in communication with the beverage syrup source and the first diluent source to as to dilute the sweetener to less than about 65 brix but no less than an acidity level sufficient to restrict organism growth; anda second diluent source with a diluent so as to dilute further the sweetener upstream of the dispensing nozzle. 30. A beverage dispensing system using a sweetener, comprising: a dispensing nozzle;a beverage syrup source with the beverage syrup at more than about 65 brix;a first diluent source with a diluent;a syrup blender in communication with the sweetener source and the first diluent source so as to dilute the sweetener to less than about 65 brix but no less than an acidity level sufficient to restrict organism growth;a second diluent source with a diluent so as to dilute further the sweetener upstream of the dispensing nozzle; anda chiller. 31. A beverage dispensing system using a sweetener, comprising: a dispensing nozzle;a beverage syrup with the beverage syrup at more than about 65 brix;a first diluent source with a diluent;a mixing chamber in communication with the beverage syrup source and the first diluent source so as to dilute the sweetener to less than about 65 Brix but no less than an acidity level sufficient to restrict organism growth; anda second diluent source with a diluent so as to dilute further the sweetener upstream of the dispensing nozzle. 32. A beverage dispensing system using a sweetener, comprising; a dispensing nozzle;a sweetener source with the sweetener at more than about 65 Brix;a first diluent source with a first diluent;a mixing chamber in communication with the sweetener source and the first diluentsource so as to dilute the sweetener to less than about 65 Brix but no less than an acidity level sufficient to restrict organism growth; anda second diluent source with a second diluent so as to dilute further the sweetener at the dispensing nozzle. 33. The beverage dispensing system of claim 32, wherein the sweetener comprises high fructose corn syrup, sucrose and an acid component. 34. The beverage dispensing system of claim 32, wherein the sweetener comprises a sugar-free syrup. 35. The beverage dispensing system of claim 32, wherein the sweetener comprises diet syrup.
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