The invention relates to a filling machine according to the preamble of claim 1, to a method for filling containers according to the preamble of claim 11, and to a method for cleaning and/or sterilising the filling machine according to the preamble of claim 13.
A filling machine with the features of the preamble of claim 1 is known in principle (U.S. Pat. No. 2,638,259). The known filling machine is one of rotating design with a rotor driven in rotation about a vertical machine axis, with a plurality of filling points on the periphery of this rotor. A co-rotating filling material boiler is provided on the rotor, with which the filling elements arranged below the boiler are in connection at the filling points. To close the boiler interior, on the top of the boiler a cover is firmly connected to the boiler. To supply the liquid filling material to the filling material boiler, a product connection is provided which is arranged coaxially with the rotor axis but not co-rotating with the rotor, and which opens into the upper region of the boiler interior.
A filling machine of rotating design is also known (DE 25 53 989 A1) in which a further filling material boiler is provided on a rotor rotating about a vertical machine axis, in addition to a filling material boiler formed as a ring boiler common to all filling elements of the filling machine; this further boiler is connected to the ring boiler and arranged with its axis coaxial to the vertical machine axis of the filling machine. A product supply not co-rotating with the rotor opens into this further filling material boiler coaxially with the machine axis. The rotary connection normally provided in filling machines of rotating design, which serves to supply the liquid filling material from an external product line to the rotor or the filling material vessel there, is not required.
The object of the invention is to provide a filling machine which, with simplified constructional design and high operating reliability, in particular allows a simplified but nonetheless optimum cleaning and/or disinfection of all regions coming into contact with the filling material, and in particular also the filling material boiler. To achieve this object, a filling machine is formed according to claim 1. A method for filling containers is the subject of claim 10. A method for cleaning and/or sterilising the filling machine is the subject of claim 11.
In the invention, there is no need for the rotary connection for supplying liquid filling material to the rotor, as usually provided in the filling machine of rotating design. This substantially simplifies the construction, not only by the omission of the normal rotary passage but also by the reduction of the piping complexity and the necessary rotating seals.
In the filling machine according to the invention, only the filling material boiler is configured to co-rotate with the rotor, while the cover does not rotate with the rotor, i.e. it is firmly held on the machine frame. The transition between the cover and the filling material boiler is sealed by at least one seal against the ingress of substances, media and in particular bacteria from the outside into the interior of the filling material boiler, so that the filling machine is also suitable as an aseptic machine, i.e. a filling machine for aseptic filling of material into the container. By sealing the transition between the filling material boiler and the cover, it is furthermore possible to pressurise the gas chamber, formed above the filling material level in the partially filled boiler during filling operation, with an inert gas under pressure, for example with sterile air, nitrogen or CO2 gas under pressure, in order thus to securely prevent the ingress of germs or foreign bodies.
The filling machine according to the invention can be used for widely varying filling processes, for example also for pressureless filling of containers, wherein the gas chamber formed in the filling material boiler is then preferably only pressurised with a slight positive pressure, for example a positive pressure of around 40 mbar up to 60 mbar, preferably with a positive pressure of around 50 mbar, but also pressure-filling of the containers when the gas chamber in the filling material boiler is pressurised with a correspondingly higher pressure.
Due to the configuration according to the invention, simplified cleaning and/or disinfection of the filling machine, and in particular of the filling material boiler, is possible with high quality and certainty. In particular for aseptic machines, the configuration according to the invention constitutes a safety bonus since risky areas are minimised.
On cleaning and/or disinfection, e.g. CIP cleaning and/or disinfection, the corresponding medium (including for example hot water vapour) is supplied preferably via a connection which opens tangentially into the filling material boiler interior relative to the vertical machine axis and is provided on the cover, so that in the interior of the filling material boiler, a circulating flow of the cleaning and/or disinfection medium about the machine axis is formed which leads to intensive cleaning and/or disinfection. On cleaning and/or disinfection, suitably a rotary and/or swivel movement is performed relative to the connection or the cover or cover part facing the connection and the filling material boiler about the machine axis.
In one embodiment of the invention, the filling elements are connected to the filling material boiler via product lines. In a further preferred embodiment, the filling material boiler forms a buffer tank which then in turn is connected with a further product boiler, formed for example as a ring boiler, to which the filling elements are connected.
The expression “substantially” or “approximately” in the sense of the invention means deviations from the precise value by +/−10%, preferably by +/−5%, and/or deviations in the form of changes insignificant to function.
Refinements, advantages and possible applications of the invention arise from the description below of exemplary embodiments and from the figures. All features described and/or shown in the figures are in principle the subject of the invention, either alone or in any combination, irrespective of their summary in the claims or back reference. The content of the claims is also made a constituent part of the description.
The invention is explained in more detail below with reference to the figures showing exemplary embodiments. These show:
The filling machine designated generally as 1 in
On the periphery of the rotor 3, at even angular distances and at the same radial distance from the machine axis MA, filling points 6 are formed which each have a filling element 7 and a container carrier 8, at which during filling the respective bottle 2 is held suspended, namely with its bottle mouth at a discharge opening of the filling element 7 and with its bottle axis parallel to machine axis MA. A filling material boiler 9 common to all filling elements 7 of the filling machine 1 is provided on the rotor 3, which boiler is connected to the filling elements 7 via product lines 7.1 and which is partly filled with the liquid filling material during the filling operation, so that a lower liquid chamber 9.1 containing the filling material and above this a gas chamber 9.2 are formed in the boiler. To prevent the ingress of foreign bodies and/or bacteria into the filling material boiler 9, the filling machine 1 is in principle operated so that the gas chamber 9.2 filled with an inert gas, for example CO2 gas, sterile air or nitrogen, always has a certain positive pressure, for example a positive pressure of 40 mbar to 60 mbar.
In the embodiment shown, the filling material boiler 9 is designed cup-like, rotationally symmetrical to the machine axis MA, i.e. with a boiler base 10 and a circular cylindrical or substantially circular cylindrical boiler wall 11. The filling material boiler 9 is also arranged with its axis coaxial with the machine axis MA. On the top, the filling material boiler 9 is closed by a cover 12 which, in contrast to the filling material boiler, does not co-rotate about the machine axis MA with the rotor 3 but is connected to the machine frame 4 or a part or ring 4.1 of the machine frame 4, for example via a torque pick-up.
The figures furthermore show a bearing arrangement 13 to which the filling material boiler 9 is rotatably connected in the region of its top via the cover 12 and the ring 4.1 of the machine frame 4, wherein the actual mounting of the rotor 3 and hence the filling material boiler 9 takes place via the rotor bearing 5.
As
It is of particular importance that the transition between the filling material boiler 9 which co-rotates with the rotor 3, and the cover 12 which is fixedly connected to the machine frame 4, is tightly sealed so that the interior of the filling material boiler 9 is hermetically sealed towards the outside, preventing amongst others the ingress of bacteria into the filling material and also allowing a positive pressure in the filling material boiler 9. Furthermore, by sealing the transition between the filling material boiler 9 and the cover 12, optimally cleaning and/or disinfection, in particular CIP cleaning and/or disinfection, and cleaning and/or disinfection under pressure is possible, for example with a positive pressure of up to 3.5 bar.
As
Various connections are provided on the cover 12 which are sealed and passed through the cover 12, in particular a product connection 19 which in the embodiment shown is formed by a tubular piece 19.1 open at both ends and arranged coaxial with the machine axis MA, the lower end of which extends into the fluid chamber 9.1 so that the filling material boiler 9 is filled with the product from below the surface. This product connection 19, which also does not co-rotate with the rotor 3 and the filling material boiler 9, is connected to an external line for the supply of filling material.
Also provided on the cover 12 are a connection 20 for the supply and discharge of further media, for example for the supply of inert gas into the gas chamber 9.2, a connection 21 formed as a riser pipe, and above all also a tangential connection 22 which opens tangentially or substantially tangentially into the boiler interior relative to the machine axis MA, and which is used for supply of a liquid and/or gaseous and/or vapour cleaning medium on CIP cleaning and/or sterilisation of the filling material boiler 9 and filling machine 1.
On cleaning and/or sterilisation (e.g. CIP cleaning and/or sterilisation), the cleaning medium is introduced via the tangential connection 22, so that in particular the entire inner face of the filling material boiler can be optimally treated with this medium. Due to the tangential supply of the cleaning and/or disinfection media, at least some of the spray heads arranged inside the filling material boiler 9 may be omitted since the tangential inflow of the cleaning and/or disinfection medium leads to the creation of a circular flow in the filling material boiler 9, which intensifies the cleaning and/or sterilisation of the filling material boiler. This particular method of cleaning and/or sterilisation of the rotor-side filling material boiler is possible only because of the configuration of the filling machine 1 described, i.e. because the cleaning and/or sterilisation medium is introduced directly into the filling material boiler 9 via the tangential connection 22.
It is been assumed above that the filling material boiler 9 is the only filling material boiler common to all filler elements 7 of the filling machine 1.
The invention has been described above with reference to exemplary embodiments. Evidently numerous changes and derivations are possible without leaving the inventive concept on which the invention is based.
In particular, it is possible to create the seal between the filling material boiler 9 and cover 12 with only one ring seal surrounding the machine axis MA or with more than two ring seals. Furthermore, the bearing between the filling material boiler 9 and cover 12, or the part of the machine frame 4 carrying this cover, may also be implemented differently from the manner described, for example with just one ball bearing slewing guide 14.
It is also possible to configure the filling machine and/or the filling method such that the product to be filled has no contact with the seal provided for sealing a gap between a mobile part of the filling machine 1, 1a and an immobile part of the filling machine 1, 1a. This quite advantageous embodiment reliably prevents any abraded material from the corresponding seals from entering the filling material.
It is also possible to configure the filling machine 1, 1a so that the cover 12 is mounted rotationally centrally, fixedly above the rotating rotor, and the construction is configured such that the bearing of the filling machine consists solely of the rotor bearing, whereby no additional ball bearing slewing ring is necessary. This quite advantageous embodiment further reduces the mechanical and structural complexity, and finally the cost of a filling machine according to the invention.
1, 1a Filling machine
2 Bottle
3 Rotor
4 Machine frame
4.1 Part of machine frame 4
5 Rotor bearing
6 Filling point
7 Filling element
8 Container carrier
9 Filling material boiler
10 Boiler base
11 Boiler wall
11.1 Flange
12 Cover
12.1 Cover portion
13 Bearing arrangement
14 Ball bearing slewing ring
14.1, 14.2 Raceway
14.3 Ball
16 Ring seal
17 Chamber
18 Connection
19 Product connection
19.1 Pipe piece
20-22 Connection
23 Ring boiler
MA Machine axis
Number | Date | Country | Kind |
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10 2013 003 931.2 | Mar 2013 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2014/000208 | 1/28/2014 | WO | 00 |