EP0414031A1 - Method of and device for filling containers - Google Patents

Abstract

A method of and a device for filling containers with liquid, in particular with a liquid under high pressure, is described. The device has at least one liquid reservoir (1), container carriers moving successive containers (2) along a preset container path (A-D), and filling heads (6) guided along a movement path corresponding at least in certain sections to the preset container path. The filling heads are mountable, in each case by means of centering members, sealingly onto successive containers (2) to be filled and have means for introducing the liquid contained in the liquid reservoir into the containers. Additional container-processing devices, such as for example labelling devices (9, 11) or printing devices, are arranged along the container path (A-B-C-D). <IMAGE>

Description

The invention relates to a method for filling containers with a liquid, in particular with a liquid under increased pressure, from a liquid supply, the containers being moved successively along a predetermined container path and being filled along a movement path corresponding at least in sections with the predetermined container path.

The invention also relates to a device for filling containers with a liquid, in particular with a liquid under increased pressure, with at least one liquid supply, successive containers moving along a predetermined container path, container carriers, along a filling element guided at least in sections with the predetermined container path, each of which can be placed sealingly on successive containers to be filled by means of centering bodies, and means for filling the liquid contained in the liquid supply into the containers through the attached filling members.

Filling devices of this type, the characteristics of which are determined, for example, by the arrangement or stringing together of the individual filling elements and, in particular, by their movement path, can be designed, for example, as clocked linear fillers (row fillers) or as clocked or continuously operating rotary fillers, in which the containers to be filled are arranged one behind the other Circular path is guided through the machine and filled by moving filling elements that are connected to a liquid supply. The container filling machine can work as an open filler, vacuum or counter pressure or overpressure filler. The one with the most different Liquids, in particular containers or vessels to be filled with CO₂-containing beverages, can have a wide variety of shapes and sizes and moreover consist of a wide variety of materials, such as, for example, a relatively stable design made of glass or metal.
In the future, vessels in the form of relatively large-volume, thin-walled or flexible bottles made of plastic, such as the so-called PET bottles, will become increasingly important, which can cause problems when applying labels or with regard to the quality of the labeling.
After the filling process, the filled containers are fed to a closing device, where they are closed with a lid or a sealing cap. The closing device usually adjoins the filling device, a more or less long conveying path for the filled, still open containers lying between the filling device and the closing device. The filled and closed containers are then labeled in a labeling machine or printed in a printing device. The containers in turn reach the labeling or printing machine from the closing device over a more or less long conveying path. Such an arrangement is very space-consuming and also requires the conveyance of open, filled containers.

The invention has for its object to provide a device of the type described above with additional features and further properties.

This object is achieved according to the invention in that the containers are pretensioned before filling, that the pretension is maintained and further processing steps are carried out along the container path under pretension. The device for carrying out the method consists in that further container processing devices are arranged along the container web, each filling element having means for prestressing the respective container to be filled in order to apply an increased pressure before filling, and that the further processing devices are assigned to a container web section through which the containers pass after the prestressing.

Further developments as well as expedient and advantageous refinements of the invention are contained in the subclaims.

The advantage of the invention is that the filling device enables several processing operations on the containers simultaneously during the filling process. Thus, labels can be attached to the containers during the filling process, and several different labels can be attached to each container with several labeling devices. The labeling devices can also be operated optionally, with each labeling device holding a different label. When filling changing containers, the correct labels can always be applied to the containers simply by activating the appropriate labeling device. Instead of labeling devices, other processing devices can also be provided, such as printing devices with which the containers are printed during the filling process.
Preloading the container to be filled or maintaining the pressure after filling makes it possible to label or print even less stable bottles, such as PET bottles, during the filling process or afterwards in the pretensioned state. In this way it is achieved that the container, in particular the PET bottle, is under the highest possible pressure during and after the labeling, which offers the guarantee that the label up to cannot shrink to open the bottle. Since the pressure in the bottle can at most become lower but not higher after labeling, the label is prevented from tearing. As a further processing step or as a further processing device, according to claim 4 or according to claims 11 to 16, the containers can also be closed under pretension or a container closing device can also be provided, which advantageously in the filling device, and there specifically in the filling heads is integrated. The filling device according to the invention thus allows the execution of various processing operations on the containers in a very simple manner in connection with the filling operation and therefore forms a very compact and space-saving machine. It is structurally relatively simple and safe to operate. It allows the filled containers to be sealed in the filling head, so that the liquid is filled aseptically. Overflowing of pressurized liquids during further transport is also excluded with the device according to the invention.

• Fig. 1 eine als Rotationsfüller ausgebildete, mit Füll- und Verschließorganen gemäß Erfindung ausgestattete Flaschenfüllmaschine in der Draufsicht,
• Fig. 2 ein einzelnes Flaschenfüllorgan mit integrierter Verschließeinrichtung zum Aufsetzen von Schraub­verschlüssen im Schnitt und
• Fig. 3 in ein Füllorgan integrierte, alternativ gestaltete Verschließmittel.

The invention is explained in more detail below with reference to exemplary embodiments shown in the drawing. Here show:

• 1 is a top view of a rotary filler, equipped with filling and closing elements according to the invention,
• Fig. 2 shows a single bottle filler with integrated closing device for placing screw caps on average and
• Fig. 3 integrated in a filling element, alternatively designed closing means.

1, containers, for example in the form of so-called PET bottles 2, are fed at regular intervals on a feed conveyor 3. The bottles 2 are taken over by a so-called inlet star 4 and placed below the filling elements 6, which run continuously in a circular path in the direction of the arrow 7 and are each equipped with closure means for placing screw caps on the bottles 2. Different conveying sections of the transport path of the rotary filler 1 are marked by different, successive or simultaneously running work processes carried out on the bottles 2. On a first conveyor section AB, the bottles 2 to be filled under increased pressure are prestressed with a gas in a manner described later. On a subsequent conveying section BC, the bottles are filled and simultaneously labeled or printed, for which purpose two conveying devices 9 and 11 are assigned to this conveying section BC on the circumference of the rotary filler 1. On the subsequent conveyor section CD of the transport path, the filled and labeled bottles 2 are sealed with a cap, in the present case, for example, with a screw cap, by the closure means 8 integrated in the conveyor elements 6. The bottles 2 filled, labeled or printed and closed in this way arrive at a so-called outlet star 12, which transfers them to a discharge conveyor 13 at regular intervals.

The structure and mode of operation of an individual conveyor element 6 with integrated closing means 8 are explained below with reference to FIG. 2.
The individual filling element 6 of the rotary filler 1, which is designed for volumetric filling quantity metering, is provided with an im Equipped with the double arrow 14 controllable valve body 16, consisting of a seal 17 provided with a liquid valve 18 and a central gas pipe 19. The liquid valve 18 serves to shut off a measuring chamber 21 from the atmosphere, the measuring chamber 21 in a known manner, not shown, for product delivery is connected to a central boiler.
A height-displaceable and rotatably mounted centering member in the form of a so-called centering bell 22 of the filling member 6 serves for the central and sealed positioning of a bottle 2 within the filling member 6 and is for this purpose provided with an annular seal 23 between the facing walls of the centering bell 22 and the filling member 6 and provided with an annular seal 24 placed on the bottle shoulder.
For the feeding and positioning of a bottle 2, each filling element 6 is assigned on the underside a container carrier 26 which holds a bottle 2 and which can be raised and lowered in the direction of the double arrow 28 by means of a lifting drive 27, for example, designed as a piston / cylinder unit, and whose lifting rod 29 also has one by one Rotary drive 31 rotatably driven turntable 32 carries.
The closing means 8 integrated in the filling element 6 have a turntable 36 which is pivotably mounted by means of a pin 33 in the housing of the filling element 6 by means of a rotary drive 34.The rotary plate 36 is sealed off from the filling element 6 by means of seals 37 and has a bore 38 for the inlet of the product to be filled into bottles 2. In addition, the turntable 36 is equipped with a cap holder 39 for feeding and positioning caps in the form of screw caps 41. For this purpose, the closure cap holder 39 is provided with a receiving bore 43, which has a means of securing against rotation 42, for receiving and securely positioning the screw closure 41, the Anti-rotation means 42 is designed as a toothing which engages in the corrugated peripheral surface of the screw closure 41 in the form of toothed sliding blocks 44 which are guided resiliently in the turntable 36.
In order to introduce the screw caps 41 into the cap holder 39, a cap feeder 46 is provided, consisting of a vertical supply shaft 47 with a lifting device 48 for the screw caps 41, a horizontal transfer path 49 with a slide 51 and a vertically working transfer stamp 52, which is part of a pressurized one Piston / cylinder unit 53 is. The transfer stroke of the transfer ram 52, which detects a screw cap 41, is carried out by pressurizing the piston / cylinder unit 53 via a pressure connection 54, while the return stroke of the transfer ram 52 can be effected in a manner not shown, for example by a control element acting on the piston rod 56. The transfer ram 52 is provided with an axially parallel bore 57 for receiving a spring-loaded stop pin 58, the stop end of which protrudes from the transfer ram 52 for exact positioning of the screw closure 41 supplied by the slide 51 centrally above the receiving bore 43. In addition, the transfer stamp 52 has on the end face an annular seal 59 which is placed on the housing of the filling element 6 which accommodates the turntable 36.

The mode of operation of the filling and closing element 6 is as follows:
For filling, the bottle 2 brought up on the turntable 32 of the container carrier 26 is raised by activating the lifting drive 27 and brought into sealing engagement with the ring seal 24 of the centering bell 22 in its shoulder area, the centering bell being slightly raised and thus a preliminary seal is produced between the bottle 2 and the filling element 6. The stroke of the stroke drive 27 is dimensioned such that the centering bell 22 lies freely on the sealing shoulder of the bottle 2 in order to maintain a defined holding force on the lifting device of the container carrier 26 during the entire filling and closing process. Before the start of the filling phase, the liquid valve 18 is closed and the bore 38 of the turntable 36 is located centrally above the bottle opening, a screw cap 41 being located in the receiving bore 43 of the turntable 36, the toothed sliding blocks 44 engaging in the corrugated or toothed peripheral surface thereof. The receiving bore 43 is sealed from the environment by the ring seal 59 of the transfer ram 52. For filling, the bottle 2 is prestressed on the conveying section of the transport path of the rotary filler 1 designated AB in FIG. 1 in a known, not shown manner from a boiler gas space via the gas pipe 19 with simultaneous pressurization of a gas space 61 of the centering bell 22. The gas space 61 is so dimensioned that with the pressure build-up, a growing sealing force is applied at the sealing point between the ring seal 24 and the bottle shoulder of the bottle 2 according to the principle of differential force sealing. With the use of thin-walled PET bottles described here, this prevents the container wall from denting, since this is only loaded when a stabilizing effect from the internal pressure occurs at the same time. After the pressure equalization between the boiler and the bottle, the entire space between the seals 24, 23, 37 and 59 is under the preload pressure. The bottles are then filled when the liquid valve 18 is opened, the measuring chamber 21 emptying its precisely metered amount of liquid into the bottle 2 and the bottle air escaping through the gas pipe 19.

Due to the pressure conditions stabilizing the bottle wall, the labeling described on the basis of FIG. 1 can be carried out on the conveying section BC while the bottle 2 is being filled.
After the bottle 2 has been filled, the conveying section labeled CD according to FIG. 1, the screw cap 41 held ready in the receiving bore 43 is to be placed on the bottle opening. For this purpose, the turntable 36 is rotated by means of the rotary drive 34 around the pins 33 with the liquid valve 18 raised until the receiving bore 43 with the screw cap 41 is above the bottle opening and the liquid valve 18 is then closed. During the closing stroke, the gas pipe 19 pushes the screw cap 41 out of the receiving bore 43 to such an extent that the thread of the screw cap 41 can engage in the thread of the bottle neck, the sliding blocks 44 with their toothing 42 still locking the screw cap 41 against rotation. By activating the rotary drive 31, the rotational movement of the turntable 32 carrying the bottle 2 and thus the closing process are triggered. As a result of the pressure in the gas space 61, the bottle 2 is firmly clamped between the centering bell 22 and the turntable 32. The rotary movement of the turntable 32 is transmitted to the bottle 2 and the centering tulip 22. The screw cap 41, which is prevented from rotating by the teeth 42 of the sliding blocks 44, is screwed onto the bottle opening and simultaneously pulled downwards. At the end of this closing process, the screw cap partially projects into the receiving bore 43.
In order to prepare a new filling, the system must be returned to the starting position, ie the bore 38 must again be above the bottle opening in the position shown in FIG. 2 and a new screw cap 41 must be positioned in the receiving bore 43 of the turntable 36. Around hole 38 To switch back to the filling position, the liquid valve 18 with the gas pipe 19 must be opened again in order to pull the gas pipe 19 out of the receiving bore 43 of the closing means 8 and to allow the rotary plate 36 to rotate. At the same time the bottle 2 is to be lowered so far that the screw cap 41 no longer projects into the receiving bore 43. Both still have to be done under pressure, ie without canceling the sealing effect between the ring seal 24 of the centering bell 22 and the bottle 2, since when the valve 18 is open, the boiler gas space is connected to the gas space 61 in the volumetric metering filling element 6. Over a short stroke, the bottle 2 is therefore first lowered so far that its screw cap 41 comes free from the turntable 36, the centering bell 22 following the stroke while maintaining the sealing effect between the ring seal 24 and the bottle 2. After positioning the bore 38 by activating the rotary drive 34 into the filling position with the gas pipe 19 raised, the valve 18 is then to be closed and the bottle 2 is completely removed from the filling element 6 by the lifting drive 27. When the sealing effect between the bottle 2 and the centering tulip 22 is canceled, the gas space 61 is relaxed to atmospheric pressure.
In the phase of the depressurized state of the gas space 61, the receiving bore 43 can now be charged with a new screw cap 41. For this purpose, the transfer ram 52 is raised, for example, via a cam control, not shown, and a screw closure 41 is pushed under its end face by means of the slide 51. The spring-loaded stop pin 58 remains in the position shown in FIG. 2 and positions the screw closure 41 above the receiving bore 43 in the turntable 36. By pressurizing the piston / cylinder unit 53 via the pressure connection 54, the transfer ram 52 is lowered, the end face of which In this case, screw closure 41 is inserted into the receiving bore 43, the toothed sliding blocks 44 engaging in the toothing grooves of the screw closure and the receiving bore 43 being closed by the ring seal 59 of the transfer stamp 52. The sealing force is generated by the permanent pressurization of the transfer ram 52 via the pressure connection 54. The system is thus once again prepared for a next filling process.

In the variant of the filling element shown in FIG. 3, elements which correspond to those of the exemplary embodiment described above are provided with reference numbers increased by 100 and are not explained again in particular.
In this embodiment, the closure cap feed 146 inside the filling member 106 consists of a slide 162 which positively engages the closure cap 141, the piston rod 163 of which is sealed by an annular seal 163a and is led out of the housing of the filling member 106 receiving the closure means 108. The centering tulip 122 is also rotatably and displaceably mounted in the filling member 106. In this case, the closure cap holder 139 of the closure means 108 is arranged stationary and centrally in the filling area of the filling element 106. In order to be able to transfer the screw closure 141 into the closure cap holder 139, the centering tulip 122 is provided with a through opening 164. In order to bring this through opening 164 into alignment with the path of the slide 162, the centering tulip 122 together with the filled bottle 102 must be lowered into the position on the left along the dividing lines 166 according to FIG. 3. in this position, the slide 162 can move the screw cap 141 through the passage opening 164 up to a stop 167 of the cap holder 139 over the bottle opening. By subsequently lifting the centering tulip 122 with the Bottle 102 in the position indicated on the right side of dividing line 166, screw cap 141 is pushed so far up that the toothing of anti-rotation means 142 engages in the toothing grooves of screw cap 141 and thus also prevents it from turning during the closing process described above.

As described above, the filling process takes place in the container web section B-C. As FIG. 1 shows, further processing devices are assigned to this container web section, which are designed as labeling devices 9 and 11 in the exemplary embodiment in FIG. When a first type of container 2 is filled, for example, the first labeling device 9 is activated in order to apply a desired label. If other containers are filled in a later filling process after a container change, the labeling device 9 can be stopped to apply a different label and the labeling device 11 can be activated instead. Of course, two different labels can be applied to the same container with the two labeling devices 9 and 11 at the same time.

If the container to be filled is pre-stressed before the filling process, as described above, which is always the case when a pressurized CO₂-containing liquid is filled, then less stable containers 2 during the filling process can also be used in the device according to the invention to be provided with labels. The pretensioning stabilizes the containers so that they are not compressed, deformed or damaged when labels are applied. In this way, containers made of relatively soft or thin plastic material, such as PET bottles, can be provided with labels in the filling device according to the invention during the filling process will. Of course, more than two processing devices can be arranged on the circumference of the rotary conveyor along the movement path of the container 2, wherein processing devices of different types can also be used.

Commercially available units which can be integrated into the filling device can be used as labeling devices 9 and 11.

Claims (16)

1. A method for filling containers with a liquid, in particular with a liquid under increased pressure, from a liquid supply, the containers being moved successively along a predetermined container path and being filled along a movement path corresponding at least in sections with the predetermined container path, characterized in that that the containers are pretensioned before filling, that the pretension is maintained and that further processing steps along the container path (ABCD) are carried out under pretension. 2. The method according to claim 1, characterized in that at least part of the further processing steps along the container web section (B-C) is carried out during the filling of the container. 3. The method according to claim 1 or 2, characterized in that the further processing steps include applying labels to the container. 4. The method according to any one of claims 1 to 3, characterized in that the containers are closed as part of further processing steps along the container web section (C-D) under tension. 5. Device for filling containers with a liquid, in particular with a liquid under increased pressure, with at least one liquid supply, successive containers moving along a predetermined container path, along a container carrier that at least partially corresponds to the predetermined container path Filling elements guided in the path of movement, each of which can be placed sealingly on successive containers to be filled by means of centering bodies, and means for filling the liquid contained in the liquid supply through the attached filling elements into the containers, characterized in that further container processing devices (9, 11 , 8, 108), each filling member (6) having means (19) for prestressing the respective container (2) to be filled by applying increased pressure before filling, and in that the further processing devices are assigned to a container web section (BCD), which the containers pass through after prestressing. 6. The device according to claim 5, characterized in that at least one labeling device (9, 11) for applying labels to the container (2) is provided as a further spreading device. 7. Apparatus according to claim 5 or 6, characterized in that at least one printing device for printing on the container (2) is provided as a further processing device. 8. Device according to one of claims 5 to 7, characterized in that along the container path (A-B-C-D) one behind the other at least two container processing devices (9, 11) are provided for performing different processing operations on the containers (2). 9. The device according to claim 8, characterized in that for performing a selected processing operation on the containers (2) at least one selected container processing device (9, 11) can be activated by several. 10. Device according to one of claims 5 to 9, characterized in that the further processing devices (9, 11) are assigned to the container web section (B-C) through which the containers (2) pass during the filling process. 11. Device according to one of claims 5 to 10, characterized in that a container closing device (8, 108) is provided as a further processing device. 12. The apparatus according to claim 11, characterized in that the container closing device (8, 108) is assigned to a container web section (C-D) in which the filled containers (2) are still under pressure. 13. The apparatus of claim 11 or 12, characterized in that the container closing device (8, 108) is integrated in the filling member (6) and rotates with it. 14. Device according to one of claims 11 to 13, characterized in that the closure device (8, 108) has a closure cap (41, 141) in a mounting position centrally to the container opening positioning closure cap holder (39, 139) and that the closure cap holder (39 ) is designed as part of a sealed turntable (36) which swivels out from a loading position for receiving a closure cap (41) outside the filling element (6) into the mounting position within the filling element. 15. The device according to one of claims 11 to 13, characterized in that the caps (141) by means of a slide (162) through a lateral opening (164) of the centering body (122) in a stationary cap holder (139) can be transferred over the container opening are. 16. Device according to one of claims 5 to 15, characterized in that in the region of the lateral loading position outside the filling member (6, 106) a closure cap feed (46, 146) is provided, consisting of a with a spring-loaded stop pin (58, 158) provided and sealing on the face of the housing of the filling member (6, 106) transfer stamp (52, 152).

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