Claims
- 1. An apparatus for dispensing a liquid under counterpressure into a container, which may break due to temperature shock, in an aseptic or sterile manner, whereby said container that is to be filled is acted upon, at least during a portion of a sterilization phase that precedes a filling phase where said container is filled with said liquid, by a hot, gaseous or vaporous sterilization medium that is under pressure, said apparatus comprising:
- a container entry mechanism at a container entry position for supplying containers that are to be filled;
- a container outlet mechanism at a container discharge position for the discharge of filled and capped containers;
- a rotor that rotates about a vertical axis of rotation;
- a plurality of filling elements that are disposed about the periphery of said rotor, with each of said filling elements including a liquid flow valve for controllably dispensing said liquid via a liquid channel and a filling tube that is connected thereto and has an exit on its lower end:
- a plurality of container supports, with each container support being associated with one of said filling elements and being movable toward and away from said filling element in a vertical direction with said containers that are to be led being delivered to said rotor at said container entry position and being withdrawn from said rotor at said container discharge position;
- a plurality of bell-shaped portions provided on said rotor, each of said bell-shaped portions defining a chamber and being disposed below one of said filling elements and having a closed upper end adjacent to the filling element and an open bottom end that is remote from said filling element;
- on each side of said filling element, delivery means for delivering said hot sterilization medium under pressure, said delivery means including at least one control valve arrangement and serving for supplying said sterilization medium to said container and to said bell-shaped portion during said sterilization phase;
- a mechanism for closing or capping said containers after the same have been filled with the liquid:
- each chamber formed by the interior of one of the bell-shaped portions having a height that is at least somewhat greater than the height of a container that is to be filled;
- means for closing off said open bottom end of each bell-shaped portion to the atmosphere by said container support at said sterilization phase as well as at said filling phase for accommodating said container that is to be filled completely in said closed chamber in such a way that the interior of said container communicates via a mouth of said container with the interior of said bell-shaped portion;
- said control valve arrangement having a first portion, and said liquid channel having a portion that in the direction of flow of said liquid is disposed after said liquid flow valve and that is adapted to communicate via said first portion of said control valve arrangement with said sterilization medium delivery means for introducing said sterilization medium via said filling tube and said exit thereof into said interior of said container;
- the length of each filling tube, which extends through said mouth of said container into the interior thereof during the sterilization phase and the filling phase, being such that said exit of said filling tube is positioned directly at the bottom of a container that is to be filled at the sterilization phase and at the filling phase when the open bottom end of the respective bell-shaped portion is closed off;
- said first portion of said control valve arrangement is formed by a first valve with which is preferably connected in parallel a series arrangement of a second valve and a first throttle mechanism; and
- on an inner surface of said bell-shaped portion facing said open end thereof at least one additional discharge channel is provided that is adapted to be connected to said sterilization medium delivery means via a second portion of said control valve arrangement that is formed by a third valve, with a second throttle mechanism preferably being disposed in series with said third valve.
- 2. An apparatus according to claim 1, which includes a plurality of said additional discharge channels that are connected to a common channel, with said additional discharge channels preferably each opening at a different angle into the interior of said bell-shaped portion; and in which said common channel communicates with said second portion of said control valve arrangement.
- 3. An apparatus according to claim 1, in which said at least one additional discharge channel, as well as said portion of said liquid channel that in the direction of flow of said liquid is disposed after said liquid flow valve, are adapted to be connected via a third portion of said control valve arrangement that is formed by at least one fourth valve.
- 4. An apparatus according to claim 3, in which the interior of said bell-shaped portion is adapted to be connected via at least one fifth valve with a supply mechanism for supplying a pressurizing gas, for example inert gas or sterile air, that is under pressure.
- 5. An apparatus according to claim 4, in which the interior of each bell-shaped portion is connected to a return gas line that is provided with at least one throttle mechanism.
- 6. An apparatus according to claim 5, in which, parallel to said at least one throttle mechanism, a conduit section is provided that includes at least one sixth valve, preferably a sixth valve in series with a throttle mechanism.
- 7. An apparatus according to claim 6, in which connected to each bell-shaped portion is a conduit that is provided with a seventh valve and that communicates with a source for a partial vacuum.
- 8. An apparatus according to claim 7, in which said conduits of all of said bell-shaped portions, which conduits are provided with said seventh valve, are connected to a common collecting channel that is in turn connected with said source for partial pressure.
- 9. An apparatus according to claim 7, in which said fifth, sixth, and/or seventh valve, similarly forms a portion of said control valve arrangement.
- 10. An apparatus according to claim 9, in which said valves that form said portions of said control valve arrangement are individual valves.
- 11. An apparatus according to claim 9, in which said valves that form said portions of said control valve arrangement are at least in part formed by a common valve member, for example a slide plate of a control valve that is provided with numerous working or operating positions.
- 12. An apparatus according to claim 9, in which said control valve arrangement has at least six operating positions, namely a first operating position where all of said valves are closed, as well as five further operating positions in which, with the exception of those valves specifically mentioned, the remainder of the valves are closed, namely a second operating position in which said first and third valves are opened, a third operating position in which said second valve is opened, a fourth operating position in which said third and fourth valves are open, a fifth operating position in which said third valve is opened, and a sixth operating position in which said sixth valve is opened.
- 13. An apparatus according to claim 12, in which said control valve arrangement is additionally provided with a seventh and eighth operating position is which, with the exception of the specifically mentioned valves, the rest of the valves are closed, namely a seventh operating position in which said fifth valve is open, and an eighth operating position in which said seventh valve is opened.
- 14. An apparatus according to claim 5, in which said return gas lines of all of said bell-shaped portions are connected to a common collecting channel, preferably via respective check valves.
- 15. An apparatus according to claim 1, which includes a preheater that is disposed between said container entry mechanism and said entry position of said rotor and via which preheated containers are delivered to said entry position.
- 16. An apparatus according to claim 1, in which said container supports are movable relative to the respective filling element in a vertical direction between at least three positions in such a way that in a first position, the mouth of a respective container that is disposed on a container support is disposed below the lower end of said filling tube as well as of said bell-shaped portion, in a second position, with said container being disposed in the interior of said bell-shaped portion, an annular gap is formed between said lower end of said bell-shaped portion and said container support, and in the third position, said container support rests sealingly against said bottom end of said bell-shaped portion.
- 17. An apparatus according to claim 16, in which each container support closes-off the pertaining bell-shaped portion at least during a portion of said sterilization phase as well as during said filling phase.
- 18. An apparatus according to claim 16, in which at the beginning of said sterilization phase or during a preheating phase that precedes said sterilization phase, each container support is spaced from said open bottom end of the pertaining bell-shaped portion.
- 19. An apparatus according to claim 1, in which said sterilization medium delivery means is connected with a source of steam, preferably saturated steam.
- 20. An apparatus for dispensing a liquid under counterpressure into a container, which may break due to temperature shock, in an aseptic or sterile manner, whereby said container that is to be filled is acted upon, at least during a portion of a sterilization phase that precedes a filling phase where said container is filled with said liquid, by a hot, gaseous or vaporous sterilization medium that is under pressure, said apparatus comprising:
- a container entry mechanism at a container entry position for supplying containers that are to be filled;
- a container outlet mechanism at a container discharge position for the discharge of filled and capped containers;
- a rotor that rotates about a vertical axis of rotation;
- a plurality of filling elements that are disposed about the periphery of said rotor, with each of said filling elements including a liquid flow valve for controllably dispensing said liquid via a liquid channel and a filling tube that is connected thereto and has an exit on its lower end;
- a plurality of container supports, with each container support being associated with one of said filling elements and being movable toward and away from said filling element in a vertical direction, with said containers that are to be filled being delivered to said rotor at said container entry position and being withdrawn from said rotor at said container discharge position;
- a plurality of bell-shaped portions provided on said rotor, each of said bell-shaped portions defining a chamber and being disposed below one of said filling elements and having a closed upper end adjacent to the filling element and an open bottom end that is remote from said filling element;
- on each side of said filling elements, delivery means for delivery said hot sterilization medium under pressure, said delivery means including at least one control valve arrangement and serving for supplying said sterilization medium to said container and to said bell-shaped portion during said sterilization phase;
- a mechanism for closing or capping said containers after the same have been filled with the liquid;
- each chamber formed by the interior of one of the bell-shaped portions having a height that is at least somewhat greater than the height of a container that is to be filled;
- means for closing off said open bottom end of each bell-shaped portion to the atmosphere by said container support at said sterilization phase as well as at said filling phase for accommodating said container that is to be filled completely in said closed chamber in such away that the interior of said container communicates via a mouth of said container with the interior of said bell-shaped portion;
- said control valve arrangement having a first portion, and said liquid channel having a portion that in the direction of flow of said liquid is disposed after said liquid flow valve and that is adapted to communicate via said first portion of said control valve arrangement with said sterilization medium delivery means for introducing said sterilization medium via said filling tube and said exit thereof into said interior of said container;
- the length of each filling tube, which extends through said mouth of said container into the interior thereof during the sterilization phase and the filling phase, being such that said exit of said filling tube is positioned directly at the bottom of a container that is to be filled at the sterilization phase and at the filling phase when the open bottom end of the respective bell-shaped portion is closed off; and
- said mechanism for closing or capping said containers is provided beyond said rotor and, in the direction in which said containers are conveyed, ahead of said container outlet mechanism; and in which a mechanism for additionally supplying heat to the filled containers is provided between said container release position of said rotor and said mechanism for closing or capping said containers.
- 21. An apparatus for dispensing a liquid under counterpressure into a container, which may break due to temperature shock, in an aseptic or sterile manner, whereby sid container that is to be filled as acted upon, at least during a portion of a sterilization phase that precedes a filling phase where said container is filled with said liquid, by a hot, gaseous or various sterilization medium that is under pressure, said apparatus comprising:
- a container entry mechanism at a container entry position of for supplying containers that are to be filled;
- a container outlet mechanism at a container discharge position for the discharge of filled and capped containers;
- a rotor that rotates about a vertical axis of rotation;
- a plurality of filling elements that are disposed about the periphery of said rotor, with each of said filling elements including a liquid flow valve for controllably dispensing said liquid via a liquid channel and a filling tube that is connected thereto and has an exit on its lower end;
- a plurality of container supports, with each container support being associated with one of said filling elements and being movable toward and away from said filling element in a vertical direction, with said containers that are to be filled being delivered to said rotor at said container entry position and being withdrawn from said rotor at said container discharge position;
- a plurality of bell-shaped portions provided on said rotor, each of said ball-shaped portions defining a chamber and being disposed below one of said filling elements and having a closed upper end adjacent to the filling element and an open bottom end that is remote from said filling element;
- on each side of said filling elements, delivery means for delivering said hot sterilization medium under pressure, said delivery means including at least one control valve arrangement and serving for supplying said sterilization medium to said container and to said bell-shaped portion during said sterilization phase;
- a mechanism for closing or capping said containers after the same have been filled with the liquid;
- each chamber formed by the interior of one of the bell-shaped portions having a height that is at least somewhat greater than the height of a container that is to be filled;
- means for closing off said open bottom end of each bell-shaped portion to the atmosphere by said container support at said sterilization phase as well as at said filling phase for accommodating said container that is to be filled completely in said closed chamber in such a way that the interior of said container communicates via a mouth of said container with the interior of said bell-shaped portion;
- said control valve arrangement having a first portion, and said liquid channel having a portion that in the direction of flow of said liquid is disposed after said liquid flow valve and that is adapted to communicate via said first portion of said control valve arrangement with said sterilization medium delivery means for introducing said sterilization medium via said filling tube and said exit thereof into said interior of said container;
- the length of each filling tube, which extends through said mouth of said container into the interior thereof during the sterilization phase and the filling phase, being such that said exit of said filling tube is positioned directly at the bottom of a container that is to be filled at the sterilization phase and at the filling phase when the open bottom end of the respective bell-shaped portion is closed off; and
- a stationary element, which is a flat plate, is disposed between said container discharge position and said container entry position in such a way that each of said bell-shaped portions is closed between said container discharge position and said container entry position with the exception of a narrow annular gap that is formed between said element and said open bottom end of said bell-shaped portion.
Priority Claims (1)
Number |
Date |
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Kind |
3809852 |
Mar 1988 |
DEX |
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Parent Case Info
This is a divisional of Ser. No. 552,326, filed Jul. 12, 1990, allowed on May 6, 1991 now U.S. Pat. No. 5,031,673, which is a continuation of Ser. No. 328,477 filed Mar. 24, 1989, now abandoned.
US Referenced Citations (18)
Foreign Referenced Citations (2)
Number |
Date |
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0572988 |
Nov 1958 |
BEX |
1054910 |
Apr 1959 |
DEX |
Divisions (1)
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Number |
Date |
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Parent |
552326 |
Jul 1990 |
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Continuations (1)
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Number |
Date |
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Parent |
328477 |
Mar 1989 |
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