Pour spout device and method of use for dispensing liquid from a container
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B65D-037/00
B67D-003/00
출원번호
US-0221775
(2014-03-21)
등록번호
US-9004320
(2015-04-14)
발명자
/ 주소
Keating, Michael J.
Lamond, Donald R.
Faust, Ronald F.
Giles, Thomas E.
Dorsey, Albert H.
출원인 / 주소
Berg Company, LLC
대리인 / 주소
Whyte Hirschboeck Dudek S.C.
인용정보
피인용 횟수 :
0인용 특허 :
8
초록▼
A pour spout for dispensing a beverage from a bottle including a bottle adapter for attaching to a bottle to receive a beverage from the bottle, a housing having a chamber into which a housing inlet and a housing outlet open, the housing inlet connected to the bottle adapter for receiving the bevera
A pour spout for dispensing a beverage from a bottle including a bottle adapter for attaching to a bottle to receive a beverage from the bottle, a housing having a chamber into which a housing inlet and a housing outlet open, the housing inlet connected to the bottle adapter for receiving the beverage, a valve carriage moveably received within the chamber and having a carriage passage, a resilient first tube providing a first passageway for beverage to flow from the housing inlet to the carriage passage, a resilient second tube providing a second passageway for beverage to flow from the carriage passage to the housing outlet, a valve operatively connected to the valve carriage to control flow of the beverage through the housing from the housing inlet to the housing outlet; and a valve actuator for moving the valve carriage within the chamber to operate the valve open or closed.
대표청구항▼
1. A pour spout for dispensing a beverage from a bottle, the pour spout comprising: a bottle adapter for attaching to a bottle to receive a beverage from the bottle;a housing having a chamber into which is housing inlet and a housing outlet open, the housing inlet connected to the bottle adapter for
1. A pour spout for dispensing a beverage from a bottle, the pour spout comprising: a bottle adapter for attaching to a bottle to receive a beverage from the bottle;a housing having a chamber into which is housing inlet and a housing outlet open, the housing inlet connected to the bottle adapter for receiving the beverage;a valve carriage moveably received within the chamber and having a carriage passage;a resilient first tube within the housing and secured to the housing inlet providing a first passageway for the beverage to flow from the housing inlet to the carriage passage;a resilient second tube within the housing and secured to the housing outlet providing a second passageway for the beverage to flow from the carriage passage to the housing outlet;a valve operatively connected to the valve carriage to control flow of the beverage through the housing from the housing inlet to the housing outlet; anda valve actuator for moving the valve carriage within the chamber to operate the valve between an open state and a closed state a compression spring outside of the resilient first tube that biases the valve carriage toward closing the valve. 2. The pour spout of claim 1, wherein at least one of the resilient first tube and the resilient second tube expand and contract longitudinally as the valve carriage moves within the chamber. 3. The pour spout of claim 2, wherein the resilient first lube and the resilient second tube each has at least one pleat. 4. The pour spout of claim 2, wherein at least one of the resilient first tube and the resilient second tube are contoured to allow for compression in length. 5. The pour spout of claim 1, wherein the valve comprises a valve seat formed in the resilient first tube and the resilient second tube; and a plunger attached to the valve carriage. 6. The pour spout of claim 1, wherein the valve actuator comprises a motor operatively connected to move the valve carriage. 7. The put spout of claim 1, wherein the valve actuator comprises a motor with a shaft, and a cam plate attached to the shall and engaged with an actuating portion of the valve carriage. 8. The pour spout of claim 1, further comprising a control circuit that has a receiver configured to receive a wireless signal requesting a valve actuation, and where the control circuit is further configured to operate the valve actuator in response to receiving the wireless signal. 9. The pour spout of claim 8, wherein the wireless signal is received from a control unit. 10. The pour spout of claim 1, further comprising a control circuit that includes a temperature sensor, wherein the control circuit operates the valve actuator to open the valve for a period of time that is determined, at least in part, in response to the temperature sensed by the temperature sensor. 11. The pour spout of claim 1, further comprising a control circuit that determines an angle to which the bottle has been tilted and operates the valve actuator to open the valve for a period of time that is determined, at least in part, in response to the determined angle. 12. The pour spout of claim 11, further comprising an accelerometer that produces a signal from which the control circuit determines the angle. 13. A pour spout for dispensing a beverage from a bottle, the pour spout comprising: a bottle adapter for insertion into a bottle to receive a beverage;a housing having a chamber into which a housing inlet and a housing outlet open, the housing inlet connected to the bottle adapter for receiving the beverage;a valve carriage moveably received within the chamber and having a carriage inlet and a carriage outlet, the carriage outlet in fluid communication with the carriage inlet;a resilient first tube within the housing attached to the valve carriage to provide a first passageway for the beverage to flow from the housing inlet to the carriage inlet;a resilient second tube within the housing attached to the valve carriage to provide a second passageway for the beverage to flow from the carriage outlet to the housing outlet;wherein the resilient second tube has a valve seat, and wherein the valve carriage has a plunger that selectively engages and disengages the valve seat as the valve carriage moves within the chamber; anda valve actuator for moving the valve carriage within the chamber in response to a control signal, thereby operating the valve between an open state and a closed state; a compression spring outside of the resilient first tube that biases the valve carriage toward closing the valve. 14. The pour spout of claim 13, wherein the resilient first tube and the resilient second tube expand and contract longitudinally as the valve carriage moves within the chamber. 15. The pour spout of claim 14, wherein the resilient first tube and the resilient second tube each has at least one pleat. 16. The pour spout of claim 13, wherein the valve actuator comprises a motor with a shaft, and a cam plate attached to the shaft and engaging an actuating portion of the valve card age. 17. The pour spout of claim 13, further comprising a control circuit having a receiver configured to receive a wireless signal requesting a valve actuation, and wherein the control circuit is further configured to operate the valve actuator in response to receiving the wireless signal. 18. The pour spout of claim 13, further comprising a control circuit that includes a temperature sensor, wherein the control circuit operates the valve actuator to open the valve for a period of time that is determined, at least in part, on the temperature sensed by the temperature sensor. 19. The pour spout of claim 13, further comprising a control circuit that determines an angle to which the bottle has been tilted, wherein the control circuit operates the valve actuator to open the valve for a period of time that is determined, at least in part, in response to the determined angle. 20. The pour spout of claim 19, further comprising an accelerometer that produces a signal from which the control circuit determines the angle. 21. The pour spout of claim 19, further comprising an accelerometer that produces a signal communicated to the control circuit to provide an indication of motion of the bottle. 22. The pour spout of claim 13, wherein at least one of the resilient first tube and the resilient second tube are contoured to allow for compression in length. 23. A pour spout for dispensing a beverage from a bottle, the pour spout comprising: a bottle adapter for attaching to a bottle to receive a beverage from the bottle;a housing having a chamber into which a housing inlet and a housing outlet open, the housing inlet connected to the bottle adapter for receiving the beverage;a valve carriage moveably received within the chamber and having a carriage passage;a resilient first within the housing and secured to the housing inlet tube providing a first passageway for the beverage to flow from the housing inlet to the carriage passage;a resilient second tube within the housing and secured to the housing outlet providing a second passageway for the beverage to flow from the carriage passage to the housing outlet;a valve operatively connected to the valve carriage to control flow of the beverage through the housing from the housing inlet to the housing outlet;a valve actuator for moving the valve carriage within the chamber to operate the valve between an open state and a closed state;a control circuit having a receiver adapted to receive a wireless signal requesting valve actuation, and wherein the control circuit is further adapted to operate the valve actuator to an open state in response to receiving the wireless signal; andan accelerometer that produces a signal from which the control circuit determines an angle to which the bottle has been ti Red and wherein the control circuit operates the valve actuator to actuate the valve to an open state for a period of time that is determined, at least in part, in response to the determined angle; a compression spring outside of the resilient first tube that biases the valve carriage toward closing the valve.
Martindale Richard A. (Vacaville CA) Martindale William A. (Vacaville CA) Straddeck Matthew (Davis CA) Osborne Gregory J. (Reno NV), Method and system for control and monitoring of beverage dispensing.
Baron Richard D. (Zephyrhills FL) Smith Malcolm C. (Dade City FL) Spoeth ; Jr. Carl R. (Bayonet Point FL) Quadros Valdemiro M. (Zephyrhills FL), One way valve with unitary valve element.
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