A FILLING MACHINE WITH A STERILISATION STATION

Abstract

A filling machine configured to form, fill, and seal individual packages is provided. The filling machine comprises a sterilization station configured to provide a flow of gaseous sterilizing agent towards open ends of ready-to-fill packaging containers passing through said sterilization station. The filling machine comprises at least one clean air supply and at least one baffle plate arranged above the at least one clean air supply, wherein the air supply is configured to direct a stream of clean air towards the ready-to-fill packaging containers. The clean air supply in turn comprises at least one distribution pipe and wherein the distribution pipe extends in a horizontal direction, the horizontal direction being in the direction of the flow of packages through the filling machine.

Claims

1. A filling machine configured to form, fill, and seal individual packages, comprising a sterilization station configured to provide a flow of gaseous sterilizing agent towards open ends of ready-to-fill packaging containers passing through said sterilization station, the filling machine further comprising at least one clean air supply and at least one baffle plate arranged above the at least one clean air supply, wherein the air supply is configured to direct a stream of clean air towards the ready-to-fill packaging containers, wherein the clean air supply comprises at least one distribution pipe and wherein the distribution pipe extends in a horizontal direction, the horizontal direction being in the direction of the flow of packages through the filling machine.

2. The filling machine according to claim 1, wherein the distribution pipe is provided with a plurality of outlet holes distributed in the longitudinal direction of the distribution pipe.

3. The filling machine according to claim 2, wherein the outlet holes are directed upwards and inwards, towards the ready-to-fill packaging container.

4. The filling machine according to claim 1, comprising a first distribution pipe arranged on one side of the ready-to-fill package, and a second distribution pipe arranged on the opposite side of the ready-to-fill package.

5. The filling machine according to claim 1, wherein the clean air supply is configured to provide a planar jet of clean air towards the ready-to-fill package.

6. The filling machine according to claim 1, comprising a plurality of index positions for supplying a gaseous sterilizing agent to a plurality of ready-to-fill packages, wherein the clean air supply, in the form of one or more distribution pipes, extend across said index positions.

7. The filling machine according to claim 1, wherein the clean air supply is connected to an air supply system for a downstream ventilation means.

8. A method for sterilizing a ready.to-fill package, comprising supplying a gaseous sterilization agent towards the interior of the ready-to-fill package, and providing a flow of clean air towards the exterior surface of the ready-to-fill package, wherein providing the flow of clean air towards the exterior surface of the ready-to-fill package comprises directing a plurality of clean air jets towards a baffle plate in order to provide a planar jet of clean air.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0030] Embodiments of the invention will now be described, by way of example, with reference to the accompanying schematic drawings, in which

[0031] FIG. 1 is a schematic view of a filling machine according to an embodiment;

[0032] FIG. 2 is a schematic isometric view of a sterilization station forming part of a filling machine according to an embodiment;

[0033] FIG. 3 is a cross-sectional view of a sterilization station forming part of a filling machine according to an embodiment;

[0034] FIG. 4 is a schematic isometric view of a distribution pipe forming part of a filling machine according to an embodiment;

[0035] FIG. 5 is a schematic view of a method according to an embodiment; and

[0036] FIGS. 6a-c are simulation graphs of a sterilization station forming part of a filling machine according to an embodiment during operation.

DETAILED DESCRIPTION

[0037] With reference to FIG. 1 a filling machine 10 is shown schematically. Although the filling machine described in the following text is configured to produce carton-based packages by closing a bottom end of a tube of packaging material, and finally closing its upper end after sterilization and filling, the filling machine 10 could also be configured to produce other types of packages, e.g. the plastic top packages briefly described in the background section of this application.

[0038] The filling machine 10, being configured to form, fill, and seal packages 4, has an infeed station 12 in which blanks 2 of packaging material are received. The blanks 2 are typically produced as sleeves of carton-based packaging material, as is well known in the art and already described briefly in the background section. The infeed station 12 is arranged upstream a bottom sealing station 14, in which the blanks 2 are erected to a tube shape where in the bottom sealing station 14 the bottom end of each blank is sealed to form a semi-finished package having one closed and sealed bottom end being, while the upper end of the package is still open.

[0039] The semi-finished packages are transported to a sterilization station 100, in which the amount of living micro-organisms is reduced. As explained in the background section, the level of sterilization may vary depending on user objectives. Sterilization of the packaging material is accomplished by means of treatment with a gaseous sterilizing agent, preferably H2O2 (hydrogen peroxide).

[0040] The sterilization station 100 comprises an upstream supply station 110, providing a flow of the gaseous sterilizing agent. A venting station 120 is arranged downstream the supply station 110.

[0041] A hygienic chamber is provided downstream the sterilization station 100. The hygienic chamber comprises further stations of the filling machine. Immediately downstream the sterilization station 100 a filling station 30 is arranged. Here, the ready-to-fill packages are filled with the desired product content. After filling, the packages may be transported to a pre-folding station 32 in which the upper part of the open-ended package is formed to a desired shape. After pre-forming the packages are transported to a heating station 34 in which heat-sealable material of the packaging material is heated to an elevated temperature. The elevated temperature of the upper end of the packages facilitates sealing of the upper end when the packages enter the sealing station 36 arranged immediately after the heating station 34.

[0042] Once sealed, the packages 4 no longer require hygienic conditions when they exit the hygienic chamber. At the end of the filling machine 10, an outfeed station 16 is arranged which is configured to discharge the finished packages 4 from the filling machine 10 to downstream equipment, storage, and/or transport.

[0043] The sterilization station 100 is further shown in FIG. 2. As can be seen, the sterilization station 100 has the shape of a tunnel. Ready-to-fill packages (not shown) are fed into the sterilization station 100 from the left-hand side of the drawing. The ready-to-fill packages are transported by a conveyor comprising a plurality of consecutive cassettes; each cassette is carrying a ready-to-fill package. For illustrative purposes, the conveyor, as well as the cassettes and the packaging containers carried therein, are not shown (although these machine components can be seen in FIG. 3).

[0044] Conveyors of this type, including the cassettes, are well known in the art and will not be described further herein.

[0045] As can be seen in FIG. 2, the sterilization station 100 is provided with a plurality of baffle plates 132. Two vertical baffle plates 132 are provided at the inlet side of the sterilization unit 100, extending from the bottom portion of the tunnel to the upper portion of the tunnel. The baffle plates 132 are separated in the machine direction, and the space formed between these baffle plates 132 acts as an entry section 134 of the sterilization station 100.

[0046] Downstream the entry section 134, the supply section 110 is arranged. The purpose of the supply section 110 is to provide a flow of gaseous sterilizing agent, preferably H2O2, such that the interior, as well as the exterior, of the ready-to-fill packages is sterilized. As mentioned earlier in the background section, the dew point of the H2O2 gas secures condensation of H2O2 on the inside surface of the ready-to-fill package.

[0047] The sterilization station 100, and in particular the supply section 110, is preferably provided as a continuous tunnel where an atmosphere of high and relatively uniform concentration of gaseous sterilizing agent is created in the vertically upper gassing portion in order to establish a controlled and even gas distribution into the packages to obtain the required sterilization effect. As is explained in the following, this is achieved without causing massive condensation on the conveyor at the vertically lower portion.

[0048] Vertical baffle plates 136 are provided at the upper portion of the supply section 110. The baffle plates 136 of the supply section 110 extend upwards from horizontally arranged baffle plates 138. The horizontal baffle plates 138 are spaced apart such that cassettes and ready-to-fill packages can pass between the horizontal baffle plates 138.

[0049] The vertical baffle plates 136 of the supply section 110 divide the space inside the tunnel in four distinct index positions. In a preferred embodiment each index position is associated with a gas supply tube 140, preferably arranged at the longitudinal position of the vertical baffle plates 136. Hence, four ready-to-fill packages can be positioned at the index positions at the same time, whereby the gas supply tubes 140 are activated to supply the gaseous sterilizing agent towards the interior of the ready-to-fill packages. However, in some embodiments one or more of the gas supply tubes 140 can be replaced by e.g. a gas holding station, meaning no gas supply at these positions. In order to reduce the amount of sterilizing agent on the conveyor, distribution pipes 150 are provided. These distribution pipes 150 will be further described with reference to FIG. 3.

[0050] Again referring to FIG. 2, immediately downstream the index positions there is a holding section 112; here, the condensation is allowed to build up for a certain amount of time.

[0051] In another embodiment H2O2 is used as a sterilizing agent, in combination with a UV light source arranged at a downstream holding section 112. The initial gas concentration can thereby be lower in this variant, e.g. 3% H2O2 compared to 35% H2O2, but as the dew point of the gas is a lot higher, the amount of condensation will increase considerably compared to the 35% H2O2 case.

[0052] The venting station 120 is arranged downstream the holding section 112 with the purpose of evaporating all sterilizing agent from the ready-to-fill packages.

[0053] Now turning to FIG. 3, a cross-section of the supply section 110 is shown. The ready-to-fill package 4 is carried by the cassette 5, which extends almost along the entire vertical extension of the ready-to-fill package 4. The cassette 5 is in turn driven by a conveyor (not shown), which is connected to the bottom portion of the cassette 5.

[0054] The gas supply tube 140 is directed downwards, thereby allowing sterilizing agent to enter the ready-to-fill package 4 such that the interior is sterilized. Some amount of sterilizing agent will also condense on the outer surface of the package 4, as well as on the cassette. The distribution pipes 150, which are arranged on each side of the cassette 5 and extend in the horizontal direction, i.e. in the direction of the flow of packages through the filling machine, assist in reducing the amount of sterilizing agent on the cassette 5 and on the conveyor. The distribution pipes 150 form a clean air supply, which is extending horizontally at a vertical position below the open ends of the ready-to-fill packaging containers and configured to direct a stream of clean air, preferably filtered and/or sterile air, towards the packaging containers.

[0055] The idea is to introduce two distribution pipes 150 for the clean air supply, one on each side of the conveyor/cassette 5 extending in the horizontal direction and placed slightly below the horizontal baffle plates 138 in the vertical direction, i.e. in the direction orthogonal to the flow of packages through the filling machine. These distribution pipes 150 are designed with a row of outlet holes 152 (see FIG. 4). The distance between a distribution pipe 150 and the associated baffle plate 138 arranged vertically above the distribution pipe 150 is in the range of 2-100 mm.

[0056] The distribution pipes 150 extend along the index positions, such that four cassettes 5 can be exposed to clean air at the same time.

[0057] Further details of the distribution pipe 150 is shown in FIG. 4. Typical dimensions of the outlet holes 152 may comprise a diameter of 4 mm and a center-to-center distance of 12 mm, although other dimensions could be considered as well.

[0058] The outlet holes 152 are placed at an angle towards the horizontal baffle plate 138 (see FIG. 3), which will create a planar jet along the package movement direction, towards the conveyor and package outside surfaces, as indicated by the arrows in FIG. 3. This planar jet of clean air will reduce the concentration of sterilizing agent, such as H202, near the conveyor and the exterior surfaces of the ready-to-fill packaging container without affecting the uniform and high concentration of gas above the horizontal baffle plates 138.

[0059] The introduced airflow can be quite small, as the inlet air jets will entrain air from the lower part of the tunnel of the supply section 110 thereby enhancing the gas dilution effect further. This also means that the velocities of the created planar air jet will be quite small, so that the high and controlled concentration can be maintained in the upper portion of the supply section 110.

[0060] The supply of the clean air for the distribution pipes 150 could preferably be integrated with the air supply system for the ventilation means 122. If the branching is made after a heater connected to the air supply system, two benefits are obtained. First of all, as the clean air is relatively warm it will also contribute to heating of the horizontal baffle plates 138 and further enhancing the evaporation of the condense film on the cassette 5 as well as on the exterior surface of the packaging container 4. This will assist in improving the robustness of the system and also to maintain the hygienic conditions inside the piping system.

[0061] Now turning to FIG. 5 a method 200 for sterilizing a ready-to-fill package 4 is schematically illustrated. The method 200 comprises a first step 202 of supplying a gaseous sterilization agent towards the interior of the ready-to-fill package, and a second step 204 of providing a flow of clean air towards the exterior surface of the ready-to-fill package 4. Preferably, the step 204 of providing the flow of clean air towards the exterior surface of the ready-to-fill package 4 comprises directing a plurality of clean air jets towards a baffle plate 138 in order to provide a planar jet of clean air.

[0062] Now turning to FIGS. 6a-c the filling machine 10 is illustrated during a simulation in which a gaseous sterilizing agent, in this case H2O2, is supplied towards the open ends of a series of ready-to-fill packages 4. Each ready-to-fill package 4 is carried by a cassette 5 as described above. As can be seen in FIG. 6a, sterilization occurs at four index positions.

[0063] FIG. 6a illustrates that the sterilizing agent is concentrated inside the ready-to-fill packages 4, as compared to the simulation of FIG. 6c where the sterilizing agent leaks and is distributed all around the ready-to-fill packages 4. The difference between the filling machine 10 of FIG. 6a and the machine of FIG. 6c is that in FIG. 6a, there is a clean air supply in the form of two distribution pipes 150 providing jets of clean air towards the ready-to-fill packages 4.

[0064] In FIG. 6b the filling machine 10 of FIG. 6a is shown in cross-section, further illustrating the effect of the distribution pipes 150.

[0065] From the description above follows that, although various embodiments of the invention have been described and shown, the invention is not restricted thereto, but may also be embodied in other ways within the scope of the subject-matter defined in the following claims.