The present disclosure relates to a beverage dispensing system. In one arrangement, the beverage dispensing system comprises a self-contained, removable container unit, the container unit including at least one liquid container that is adapted to store a liquid therein, and a source of gas under pre
The present disclosure relates to a beverage dispensing system. In one arrangement, the beverage dispensing system comprises a self-contained, removable container unit, the container unit including at least one liquid container that is adapted to store a liquid therein, and a source of gas under pressure that provides a driving mechanism for delivering liquid from the at least one liquid container of the removable container unit. In addition, the present disclosure relates to liquid containers for beverage dispensing systems.
대표청구항▼
1. A beverage dispensing system, comprising:a self-contained, removable container unit, the container unit including at least one container that is adapted to store a liquid therein, the container unit further including a liquid filling line and a liquid supply line for each container of the contain
1. A beverage dispensing system, comprising:a self-contained, removable container unit, the container unit including at least one container that is adapted to store a liquid therein, the container unit further including a liquid filling line and a liquid supply line for each container of the container unit, each liquid filling line providing liquid to a container during filling and each liquid supply line delivering liquid from a container as required during beverage dispensing; anda source of gas under pressure that provides a driving mechanism for delivering liquid from the at least one liquid container of the removable container unit. 2. The system of claim 1, wherein the removable container unit further comprises a filling coupler and a supply coupler, the filling coupler adapted to facilitate substantially simultaneous filling of each container of the container unit and the supply coupler being adapted to connect the container unit to the remainder of the beverage dispensing system. 3. The system of claim 2, wherein the filling coupler and the supply coupler each have ports that are in fluid communication with the filling lines and the supply lines, respectively, of the removable container unit. 4. The system of claim 1, further comprising a gas supply valve associated with the removable container unit, the gas supply valve being configured such that a supply of gas to the at least one container is automatically shut off during filling of the at least one container and automatically resumed after filling of the at least one container is completed. 5. The system of claim 4, wherein the gas supply valve includes a lever that controls its actuation, the lever being configured such that it is depressed when a coupler of an external liquid source is connected to the removable container unit. 6. The system of claim 1, further comprising a source of water that is pressurized by the source of gas and a gas supply valve that is configured such that a supply of gas to the source of water is automatically shut off during filling of the source of water and automatically resumed after filling of the source of water is completed. 7. The system of claim 6, wherein the gas supply valve includes a lever that controls its actuation, the lever being configured such that it is depressed when a coupler of an external water source is connected to the removable container unit. 8. The system of claim 1, wherein the at least one liquid container is configured so as to separate liquid stored in the container from gas that is used to pressurize and drive the liquid. 9. The system of claim 8, wherein the at least one liquid container comprises an external vessel and a pliable bag that is adapted to be placed within the external vessel. 10. The system of claim 9, wherein the pliable bag is adapted to receive liquid and the external vessel is adapted to receive pressurized gas that pressurizes pliable bag from its exterior to thereby pressurize the liquid contained within the pliable bag. 11. The system of claim 9, the at least one container further comprises an adapter that connects the pliable bag to the external vessel, the adapter including a liquid passage through which liquid can enter and exit the pliable bag and a gas passage through which pressurized gas can enter and exit the external vessel. 12. The system of claim 11, the pliable bag includes a threaded neck with which it connects to the container adapter. 13. The system of claim 11, wherein the container adapter further comprises a vessel closure to which the pliable bag directly connects, the vessel closure being adapted to fit within and seal against the external vessel. 14. The system of claim 13, wherein the container adapter further comprises a liquid transfer tube that is disposed within the vessel closure and that is in fluid communication with the liquid passage via an outlet, and a fastener that fastens to the liquid transfer tube. 15. The system of claim 1, wherein the at least one liquid container comprises a bottle and a bottle coupler. 16. The system of claim 15, wherein the bottle coupler comprises a liquid passage through which liquid can travel into and out from the bottle and a gas passage through which pressurized air can pass into and out from the bottle. 17. The system of claim 16, wherein the bottle coupler further comprises a closure member that is disposed within the gas passage and that closes the gas passage when the bottle is substantially filled with liquid. 18. The system of claim 17, wherein in the closure member is adapted to float upwardly under the force of rising liquid within the bottle to seal the gas passage. 19. The system of claim 15, wherein the bottle coupler comprises an exterior portion and an interior portion that is disposed within an internal passageway of the exterior portion. 20. The system of claim 19, wherein the internal passageway of the exterior portion is partially threaded so as to be configured to threadingly engage the bottle. 21. The system of claim 19, wherein the interior portion includes a supply/pick-up tube that is adapted to supply liquid to and draw liquid from the bottom of the bottle. 22. A beverage dispensing system, comprising:a self-contained container unit, the container unit including at least two containers that are adapted to store liquids and a filling coupler that is adapted to facilitate substantially simultaneous filling of the at least two containers, the filling coupler having separate ports that are in fluid communication with the at least two containers; anda source of gas under pressure that provides a driving mechanism for delivering liquid from the at least two containers of the removable container unit. 23. The system of claim 22, wherein the removable container unit further comprises a liquid filling line and a liquid supply line for each container of the container unit, each liquid filling line providing liquid to a container during filling and each liquid supply line delivering liquid from a container as required during beverage dispensing, wherein the ports of the filling coupler are in fluid communication with the filling lines. 24. The system of claim 23, wherein the removable container unit further comprises a supply coupler that is adapted to connect the container unit to the remainder of the beverage dispensing system. 25. The system of claim 24, wherein the supply coupler has ports that are in fluid communication with the supply lines of the removable container unit. 26. The system of claim 22, further comprising a gas supply valve associated with the removable container unit, the gas supply valve being configured such that a supply of gas to the at least one container is automatically shut off during filling of the at least one container and automatically resumed after filling of the at least one container is completed. 27. The system of claim 26, wherein the gas supply valve includes a lever that controls its actuation, the lever being configured such that it is depressed when a coupler of an external liquid source is connected to the removable container unit. 28. The system of claim 22, further comprising a source of water that is pressurized by the source of gas and a gas supply valve that is configured such that a supply of gas to the source of water is automatically shut off during filling of the source of water and automatically resumed after filling of the source of water is completed. 29. The system of claim 28, wherein the gas supply valve includes a lever that controls its actuation, the lever being configured such that it is depressed when a coupler of an external water source is connected to the removable container unit. 30. A self-contained, removable container unit for use in a beverage dispensing system, the container unit comprising:at least two containers that are adapted to store a liquid;a liquid filling line and a liquid supply line for each container, each liquid filling line being adapted to p rovide liquid to a container during filling and each liquid supply line being adapted to deliver liquid from a container as required during beverage dispensing;a filling coupler adapted to facilitate substantially simultaneous filling of the at least two containers; anda supply coupler adapted to connect the container unit to the beverage dispensing system. 31. The container unit of claim 30, wherein the filling coupler and the supply coupler each have ports that are in fluid communication with the filling lines and the supply lines, respectively. 32. The container unit of claim 30, further comprising a gas supply line that is adapted to provide pressurized gas to the at least two containers. 33. The container unit of claim 32, wherein the supply coupler further comprises a gas port that is adapted to deliver pressurized gas to the gas supply line to drive fluid out from the at least two containers on demand. 34. A self-contained, removable container unit for use in a beverage dispensing system, the container unit comprising:at least two containers that are adapted to store liquids;a filling coupler that is adapted to facilitate substantially simultaneous filling of the at least two containers, the filling coupler having separate ports that are in fluid communication with the at least two containers; anda supply coupler that is adapted to connect the container unit to the beverage dispensing system, the supply coupler having separate ports that are adapted to deliver pressurized gas to the at least two containers and liquids from the at least two containers.
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이 특허에 인용된 특허 (13)
Credle ; Jr. William S. (Stone Mountain GA) Kuffner John (Atlanta GA), Backpack beverage dispenser.
Scott James J. (HCR 33 ; Box 36 Rolla MO 65401), Cable attachable device to monitor roof loads or provide a yieldable support or a rigid roof support fixture.
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