Claims
- 1. A filling valve for counterpressure filling a container from an external reservoir with carbonated liquids of the type in which the filling valve is vertically moveable with respect to a container at a stationary vertical position, comprising:
- valve body means for conducting the carbonated liquid to the container from said external reservoir, the valve body means having an end from which the carbonated liquid is dispensed to the container;
- cam operated counterpressure valve means movably mounted in the valve body means for controlling the flow of counterpressure gas from the reservoir to the container;
- tube means coupled to said counterpressure valve means for receiving counterpressure gas;
- vent tube means in fluid communication with said tube means and slidably mounted in the valve body means through the dispensing end of the valve body means for dispensing the counterpressure gas to the container, the vent tube means being slidable with respect to the valve body means from a retracted position within the valve body and substantially outside said container to an extended position protruding beyond the valve body and inside the container in response to the counterpressure gas, whereby the counterpressure gas is dispensed from one or more ports on the vent tube while disposed within the container and beyond the valve body;
- pressure relief means interfaced through the valve body means for venting gas from the valve after the liquid has filled the container whereby movement of the vent tube means from the extended position to the retracted position is substantially impeded;
- housing means movably mounted with respect to the valve body means from an upward position to a downward filling position for securing the container to the valve during filling; and
- actuating means coupled to the housing means for moving the housing means relative to the valve body means to the downward filling position and onto the container.
- 2. The valve recited in claim 1 further comprising:
- a liquid passage extending through the valve body means from the counterpressure valve means to the dispensing end of the valve body means;
- a cylinder formed in the valve body means between the liquid passage and the dispensing end of the valve body means; and
- piston means fixedly mounted to the vent tube means and slidable in the cylinder for moving the vent tube means longitudinally through the valve body means into the container.
- 3. The valve recited in claim 2 further comprising:
- resilient means mounted between the piston means and the cylinder for urging the piston up through the cylinder away from the dispensing end of the valve body means.
- 4. The valve recited in claim 3 wherein pressure from the counterpressure gas forces the piston means to move the vent tube means into the container when the counterpressure gas flows through the counterpressure valve means to the container.
- 5. The valve recited in claim 4 further comprising:
- a snift valve for releasing counterpressure gas from the container and wherein the resilient means urges the piston and vent tube means out of the container after said snift valve releases counterpressure gas from the container.
- 6. The valve recited in claim 5 wherein the pressure relief means comprises a passage between the valve body means and atmosphere so that when the resilient means urges the piston and vent tube means out of the container, gas is vented to the atmosphere through the passage.
- 7. The valve recited in claim 1 wherein the actuating means comprises:
- a cam;
- at least one cam roller interfaced with the cam and connected to the housing means; and
- a second roller connected to the cam for actuating the cam to move the housing means onto the container.
- 8. The valve recited in claim 7 wherein the cam further comprises:
- at least one arcuate slot wherein the cam roller is housed within the arcuate slot.
- 9. The valve recited in claim 8 wherein the arcuate slot has at least one unstable equilibrium point such that when the cam roller falls on the unstable equilibrium point, the cam moves the housing onto the container.
- 10. In a counterpressure filling machine for filling containers with carbonated liquids from a reservoir, of the type in which the containers are at a stationary vertical position and a plurality of filling valves are vertically movably engaged with the containers so that the containers can be filled with the carbonated liquids, the improvement comprising:
- vent tube means disposed longitudinally through each filling valve for filling the containers with counterpressure gas, the vent tube means being slidable with respect to each filling valve from a retracted position within each filling valve and substantially outside the container to an extended position protruding beyond the valve and inside the container in response to the counterpressure gas, whereby the counterpressure gas is dispensed from one or more ports on the vent tube while disposed within the container and beyond the valve body;
- a passage disposed through the filling valve to venting gas out of the filling valve after the container has been filled with the carbonated liquid and as the vent tube moves longitudinally in the filling valve to the retracted position;
- housing means movably mounted to each filling valve from an upward position to a downward filling position for securing the container to the valve during filling; and
- actuating means mounted to the housing means for moving the housing means onto the container.
- 11. The counterpressure filling machine recited in claim 10 further comprising:
- piston means fixedly mounted to the vent tube means for moving the vent tube means to the extended position into the container in response to the counterpressure gas.
- 12. The counterpressure filling machine recited in claim 11 further comprising:
- resilient means mounted around the piston means for urging the piston means longitudinally back into the valve after the container has been filled with the carbonated liquids.
- 13. The counterpressure filling machine recited in claim 12 wherein remaining counterpressure gas is vented to atmosphere through the passage as the resilient means urges the piston means back into the valve.
- 14. The counterpressure filling machine recited in claim 10 wherein the actuator means comprises:
- a cam;
- at least one cam roller interfaced with the cam and connected to the housing means; and
- a second roller connected to the cam for actuating the cam to move the housing means onto the container.
- 15. The counterpressure filling machine recited in claim 14 wherein the cam further comprises:
- at least one arcuate slot wherein the cam roller is housed within the arcuate slot.
- 16. The counterpressure filling machine recited in claim 15 wherein the arcuate slot has at least one unstable equilibrium point such that when the cam roller falls on the unstable equilibrium point, the cam moves the housing onto the container.
Parent Case Info
This is a continuation of application Ser. No. 420,575, filed Oct. 12, 1988, now abandoned.
US Referenced Citations (20)
Non-Patent Literature Citations (3)
Entry |
Holstein und Kappert Aktiengesellschaft, "H & K Production Range", p. 18, Munich, 1976. |
Holstein & Kappert, "Can Filling" Undated. |
Figgie International Company, "Meyer Fillers for the Beverage Industry", 1986. |
Continuations (1)
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Number |
Date |
Country |
Parent |
420575 |
Oct 1988 |
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