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EP1559674B1 - Filler with circulation of the liquid - Google Patents

Filler with circulation of the liquid Download PDF

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Publication number
EP1559674B1
EP1559674B1 EP05000558A EP05000558A EP1559674B1 EP 1559674 B1 EP1559674 B1 EP 1559674B1 EP 05000558 A EP05000558 A EP 05000558A EP 05000558 A EP05000558 A EP 05000558A EP 1559674 B1 EP1559674 B1 EP 1559674B1
Authority
EP
European Patent Office
Prior art keywords
liquid product
filling
liquid
elements
filler
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
EP05000558A
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German (de)
French (fr)
Other versions
EP1559674A1 (en
Inventor
Volker Till
Ludwig Clüsserath
Dieter-Rudolf Krulitsch
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
KHS GmbH
Original Assignee
KHS GmbH
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Filing date
Publication date
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Publication of EP1559674A1 publication Critical patent/EP1559674A1/en
Application granted granted Critical
Publication of EP1559674B1 publication Critical patent/EP1559674B1/en
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B67OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
    • B67CCLEANING, FILLING WITH LIQUIDS OR SEMILIQUIDS, OR EMPTYING, OF BOTTLES, JARS, CANS, CASKS, BARRELS, OR SIMILAR CONTAINERS, NOT OTHERWISE PROVIDED FOR; FUNNELS
    • B67C3/00Bottling liquids or semiliquids; Filling jars or cans with liquids or semiliquids using bottling or like apparatus; Filling casks or barrels with liquids or semiliquids
    • B67C3/02Bottling liquids or semiliquids; Filling jars or cans with liquids or semiliquids using bottling or like apparatus
    • B67C3/04Bottling liquids or semiliquids; Filling jars or cans with liquids or semiliquids using bottling or like apparatus without applying pressure
    • B67C3/045Apparatus specially adapted for filling bottles with hot liquids
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B67OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
    • B67CCLEANING, FILLING WITH LIQUIDS OR SEMILIQUIDS, OR EMPTYING, OF BOTTLES, JARS, CANS, CASKS, BARRELS, OR SIMILAR CONTAINERS, NOT OTHERWISE PROVIDED FOR; FUNNELS
    • B67C3/00Bottling liquids or semiliquids; Filling jars or cans with liquids or semiliquids using bottling or like apparatus; Filling casks or barrels with liquids or semiliquids
    • B67C3/02Bottling liquids or semiliquids; Filling jars or cans with liquids or semiliquids using bottling or like apparatus
    • B67C3/22Details
    • B67C3/28Flow-control devices, e.g. using valves
    • B67C3/281Profiled valve bodies for smoothing the flow at the outlet of the filling nozzle

Definitions

  • the invention relates to a method according to the preamble of claim 1 and a filling machine according to the preamble of claim 10 as known from DE 201 057 164.
  • the hot filling of liquid product ie the filling at high temperatures, for example in the range between 75 ° C to about 100 ° C in bottles or similar containers is known.
  • the hot filling of beverages such as fruit juices
  • the liquid product is in this case supplied to the individual containers in the hot state via the filling elements.
  • the object of the invention is to remedy this disadvantage and to avoid cooling of the filling elements and the contents even with an interruption of the filling process.
  • a method according to the claim 1 and a filling machine according to the patent claim 9 is formed.
  • the filling elements and their liquid channels are closed and connected so that the filling elements are arranged with their liquid channels in a machine-internal liquid or Gregutweg between the source of the filling material and a filling receiving sink, so that, for example, circulating filling machine and the case taking place control of the filling elements and their liquid valves, the hot medium continues to flow through the filling elements and thus cooling of the filling elements, a retained in the filling elements are cooled filling material and the associated disadvantages in terms of nucleation, etc. avoided.
  • 1 is generally a hot-filling machine, i. for the sterile filling of a liquid filling material, for example a fruit juice beverage in containers or bottles 2, for example in plastic or PET bottles.
  • the filling machine 1 has in a known manner on the circumference of a rotatable about a vertical machine axis VA rotor 3 a plurality of filling elements 4, which are distributed at equal angular intervals around the axis VA and each form a liquid channel 5 in a Mountainelementgetude that with his upper end is connected via a line 6 with the interior of a provided on the rotor 3 boiler 7.
  • each liquid channel 5 forms on the underside of the respective filling element 4, a discharge opening 8 for the controlled discharge of the contents in the filling element provided on the bottle 2.
  • the liquid valve 9 is provided in a known manner further, which via an actuating element 10 of a Control device 11 is controlled in response to signals from a provided on the line 6 flow meter 12, for a volume-controlled filling of the bottles. 2
  • a container or bottle carrier 13 is provided on the rotor 3, which is formed in the illustrated embodiment by a VA surrounding the axis concentrically ring and a plurality of receptacles 14, in each case a bottle 2 at a bottle inlet of Filling machine 1 inserted radially or can be removed radially after filling at a bottle outlet.
  • the receptacles 14 are formed so that each disposed in a receptacle 14 bottle 2 there with a slightly below the bottle mouth 2.1 provided flange bottle section 2.2 is suspended on the container carrier 13, so that the axis of the discharge opening 8 is coaxially aligned with the axis of the bottle 2
  • the mouth 2.1 is spaced from the discharge opening 8 and so when filling under atmospheric pressure, the displaced by the contents of the bottle 2 air at the bottle mouth 2.1 can escape.
  • the boiler 7 contains the liquid contents at such a high temperature that a hot and thus substantially sterile filling of the filling material is achieved in the bottles 2 via the filling elements 4.
  • the filling material is supplied to the boiler 7 by a storage tank 15 outside the filling machine 1 via a heater 16, for example likewise provided outside the filling machine 1, in a level-controlled manner, in such a way that the level of contents in the boiler 7 is kept at a predetermined level N.
  • additional heating means are provided to keep the contents there at the required temperature.
  • the filling machine 1 makes it possible, when an interruption occurs, to switch over from the usual filling mode to a stand-by or interrupt mode, in which the filling elements 4 continue to be flowed through by the hot filling material, for example when the rotor 3 continues to revolve, and in which the product exiting at the discharge openings 8 filling material is returned to the storage tank 15.
  • closure elements 17 are provided on the annular container carrier, in each case such a closure element 17 between two receptacles 14 such that each closure element 17 in a predetermined circumferential direction of the container carrier 13 and related is provided offset on the axis VA offset by the same angular amount relative to the associated receptacle 14.
  • the closure elements 17 are each in the middle between two receptacles 14 and are designed as caps open at the top, with an annular seal 18, which forms, inter alia, the opening edge of the respective cap-like closure element 17.
  • each closure element is connected via a branch passage 20 with an annular channel 21 in connection, which as well as the channels 20 is formed in the annular container carrier 13 and the axis VA concentrically surrounds.
  • a line in the illustrated embodiment, the line 22, the annular channel 21 is connected to the storage tank 15.
  • each filling element 4 is arranged on its underside with an annular, the discharge opening 8 at a distance, but arranged coaxially with the discharge opening 8 Annular bead 24 is provided, against which during the interruption mode, the seal 18 of the associated closure element 17 is sealed with a sealing lip forming portion.
  • FIG. 4 very simply shows a filling element 4a of a filling machine 1a of an otherwise only schematically illustrated filling machine, wherein a plurality of rotors, not shown in FIG. 4, which are rotatable about a vertical machine axis and have the boiler 7 is provided by filling elements 4a. Furthermore, on the rotor relative to this about the vertical axis of the machine between a filling mode and the interruption mode corresponding position pivotable container carrier 13 is provided.
  • both liquid valves 25 and 26 are closed.
  • both liquid valves 25 and 26 are opened in a controlled manner.
  • a liquid valve namely the liquid valve 26 is closed, and that before the closing of the liquid valve 25 at the end of the filling phase.
  • each filling element 4a is closed at the bottom by a closing element 17
  • both filling elements 25 and 26 are opened, so that the entire liquid channel 5a formed in the filling element 4a includes the liquid valves 25 and 26 are still flowed through by the hot contents and thus also heated.
  • the liquid valves 25 and 26 are in turn actuated by the control unit 11, depending on the rotational position of the filling machine 1 a or its rotor and during the filling mode in each case depending on the measuring signal of the flow meter 12.
  • a CIP cleaning of the filling machine 1 or 1 a at least including the boiler 7, the lines 6, the filling elements 4 and 4a, the closure elements 17, the channels 20 and 21 and the heater 16 is possible.
  • the liquid cleaning medium used for the CIP cleaning for example, water, also supplied with such cleaning additives.
  • a CIP-cleaning of the above-mentioned components plus the storage tank 15 is possible.

Landscapes

  • Filling Of Jars Or Cans And Processes For Cleaning And Sealing Jars (AREA)
  • Basic Packing Technique (AREA)

Description

Die Erfindung bezieht sich auf ein Verfahren gemäß Oberbegriff Patentanspruch 1 sowie eine Füllmaschine gemäß Oberbegriff Patentanspruch 10 wie er durch die DE 201 057 164 bekannt ist.The invention relates to a method according to the preamble of claim 1 and a filling machine according to the preamble of claim 10 as known from DE 201 057 164.

Das Heißabfüllen von flüssigem Füllgut, d. h. das Abfüllen bei hohen Temperaturen, z.B. im Bereich zwischen 75°C bis etwa 100°C in Flaschen oder dergleichen Behälter ist bekannt.
Insbesondere ist bekannt das Heißabfüllen bei Getränken, z.B. Fruchtsäften, zur Erzielung eines sterilen abgefüllten Produktes mit hoher Qualität und ausreichend langer Lagerfähigkeit. Das flüssige Füllgut wird hierbei im heißen Zustand über die Füllelemente den einzelnen Behältern zugeführt.The hot filling of liquid product, ie the filling at high temperatures, for example in the range between 75 ° C to about 100 ° C in bottles or similar containers is known.
In particular, the hot filling of beverages, such as fruit juices, is known to achieve a sterile bottled product of high quality and sufficiently long shelf life. The liquid product is in this case supplied to the individual containers in the hot state via the filling elements.

Durch die hohe Temperatur des Füllgutes und die dadurch bedingte hohe Temperatur der durch das Füllgut aufgeheizten Füllelemente werden im normalen Ablauf des Füllprozesses nicht nur eventuell in den Behältern vorhandene, das Füllgut schädigende Keime abgetötet, sondern es werden auch Keime oder die Bildung von Keimen im Füllgut sowie in den Füllelementen vermieden.Due to the high temperature of the contents and the consequent high temperature of the heated by the filling material filling elements are killed in the normal course of the filling not only possibly existing in the containers, the contents harmful germs, but there are also germs or the formation of germs in the medium and avoided in the filling elements.

Nicht auszuschließen sind aber bei der Heißabfüllung Unterbrechungen des Füllprozesses, beispielsweise bedingt durch Störungen beim Zuführen der leeren Behälter und/oder beim Abführen der gefüllten Behälter. Bei derartigen Unterbrechungen besteht die Gefahr einer Abkühlung des dann in den gesperrten Füllelementen zurückgehaltenen bzw. anstehenden Füllgutes sowie auch der Füllelemente selbst, so dass das Füllgut schädigende Keime im Füllgut sowie in den Füllelementen nicht mehr zuverlässig abgetötet und/oder vermieden werden.But are not excluded in the hot filling interruptions of the filling process, for example due to disturbances in feeding the empty containers and / or the removal of the filled containers. In such interruptions there is a risk of cooling the then restrained in the locked filling elements or pending contents and the filling elements themselves, so that the filling harmful germs in the contents and in the filling elements are not reliably killed and / or avoided.

Aufgabe der Erfindung ist es, diesen Nachteil zu beheben und auch bei einer Unterbrechung des Füllprozesses eine Abkühlung der Füllelemente und des Füllgutes zu vermeiden. Zur Lösung dieser Aufgabe sind ein Verfahren entsprechend dem Patentanspruch 1 und eine Füllmaschine entsprechend dem Patentanspruch 9 ausgebildet.The object of the invention is to remedy this disadvantage and to avoid cooling of the filling elements and the contents even with an interruption of the filling process. To solve this problem, a method according to the claim 1 and a filling machine according to the patent claim 9 is formed.

Im Falle einer Unterbrechung der Heißabfüllung werden bei der Erfindung die Füllelemente bzw. deren Flüssigkeitskanäle verschlossen und so verbunden, dass die Füllelemente mit ihren Flüssigkeitskanälen in einem maschineninternen Flüssigkeits- oder Füllgutweg zwischen der Quelle für das Füllgut und einer das Füllgut aufnehmenden Senke angeordnet sind, so dass bei beispielsweise umlaufender Füllmaschine und der hierbei erfolgenden Steuerung der Füllelemente und deren Flüssigkeitsventile das heiße Füllgut weiterhin die Füllelemente durchströmt und somit ein Abkühlen der Füllelemente, ein in den Füllelementen zurückgehaltenes sich abkühlendes Füllgut und die damit verbundenen Nachteile hinsichtlich einer Keimbildung usw. vermieden sind.In the case of an interruption of hot filling in the invention, the filling elements and their liquid channels are closed and connected so that the filling elements are arranged with their liquid channels in a machine-internal liquid or Füllgutweg between the source of the filling material and a filling receiving sink, so that, for example, circulating filling machine and the case taking place control of the filling elements and their liquid valves, the hot medium continues to flow through the filling elements and thus cooling of the filling elements, a retained in the filling elements are cooled filling material and the associated disadvantages in terms of nucleation, etc. avoided.

Weiterbildungen sind Gegenstand der Unteransprüche. Die Erfindung wird im Folgenden anhand der Figuren an Ausführungsbeispielen näher erläutert. Es zeigen:

Fig. 1
in vereinfachter Darstellung ein Füllelement einer Füllmaschine umlaufender Bauart zum Heißabfüllen eines flüssigen Füllgutes, zusammen mit einem Behälter- oder Flaschenträger und mit einer an diesem Träger vorgesehenen Flasche, und zwar in einem Füllmodus der Füllmaschine;
Fig. 2
eine Darstellung wie Figur 1, jedoch in einem Stand-by- oder Unterbrechungsmodus der Füllmaschine;
Fig. 3
in schematischer Darstellung den um eine vertikale Maschinenachse umlaufenden Rotor der Füllmaschine, zusammen mit einem der an diesem Rotor vorgesehenen Füllelemente und mit dem zugehörigen, die vertikale Maschinenachse ringförmig umschließenden Behälter- oder Flaschenträger, in dem Stand-by- bzw. Unterbrechungsmodus der Füllmaschine;
Fig. 4
in einer schematischen Darstellung ein Füllelement, zusammen mit weiteren Funktionselementen einer Füllmaschine umlaufender Bauart zum Heißabfüllen eines flüssigen Füllgutes gemäß einer weiteren möglichen Ausführungsform der Erfindung, und zwar wiederum in dem Stand-by- bzw. Unterbrechungsmodus der Füllmaschine.
Further developments are the subject of the dependent claims. The invention will be explained in more detail below with reference to the figures of exemplary embodiments. Show it:
Fig. 1
in a simplified representation of a filling element of a filling machine of a rotating type for hot filling of a liquid filling material, together with a container or bottle carrier and with a provided on this carrier bottle, in a filling mode of the filling machine;
Fig. 2
a representation as Figure 1, but in a stand-by or interrupt mode of the filling machine;
Fig. 3
in a schematic representation of the rotating around a vertical axis of the machine rotor of the filling machine, together with one of the provided on this rotor filling elements and the associated, the vertical machine axis annularly enclosing container or bottle carrier, in the stand-by or interrupt mode of the filling machine;
Fig. 4
in a schematic representation of a filling element, together with other functional elements of a filling machine of rotating design for hot filling a liquid filling material according to another possible embodiment of the invention, again in the stand-by or interruption mode of the filling machine.

In den Figuren 1 - 3 ist 1 allgemein eine Füllmaschine zum Heißabfüllen, d.h. zum sterilen Abfüllen eines flüssigen Füllgutes, beispielsweise eines Fruchtsaftgetränks in Behälter bzw. Flaschen 2, beispielsweise in Kunststoff- bzw. PET-Flaschen. Die Füllmaschine 1 besitzt in bekannter Weise am Umfang eines um eine vertikale Maschinenachse VA umlaufend antreibbaren Rotors 3 eine Vielzahl von Füllelementen 4, die dort in gleichmäßigen Winkelabständen um die Achse VA verteilt vorgesehen sind und jeweils in einem Füllelementgehäuse einen Flüssigkeitskanal 5 bilden, der mit seinem oberen Ende über eine Leitung 6 mit dem Innenraum eines am Rotor 3 vorgesehenen Kessels 7 verbunden ist. Das untere Ende jedes Flüssigkeitskanals 5 bildet an der Unterseite des jeweiligen Füllelementes 4 eine Abgabeöffnung 8 zum gesteuerten Abgeben des Füllgutes in die am Füllelement vorgesehene Flasche 2. Im Flüssigkeitskanal 5 ist in bekannter Weise weiterhin das Flüssigkeitsventil 9 vorgesehen, welches über ein Betätigungselement 10 von einer Steuereinrichtung 11 in Abhängigkeit von Signalen eines an der Leitung 6 vorgesehenen Durchflussmessers 12 gesteuert wird, und zwar für eine volumengesteuerte Füllung der Flaschen 2.In Figures 1-3, 1 is generally a hot-filling machine, i. for the sterile filling of a liquid filling material, for example a fruit juice beverage in containers or bottles 2, for example in plastic or PET bottles. The filling machine 1 has in a known manner on the circumference of a rotatable about a vertical machine axis VA rotor 3 a plurality of filling elements 4, which are distributed at equal angular intervals around the axis VA and each form a liquid channel 5 in a Füllelementgehäuse that with his upper end is connected via a line 6 with the interior of a provided on the rotor 3 boiler 7. The lower end of each liquid channel 5 forms on the underside of the respective filling element 4, a discharge opening 8 for the controlled discharge of the contents in the filling element provided on the bottle 2. In liquid channel 5, the liquid valve 9 is provided in a known manner further, which via an actuating element 10 of a Control device 11 is controlled in response to signals from a provided on the line 6 flow meter 12, for a volume-controlled filling of the bottles. 2

Unterhalb der Füllelemente 4 ist am Rotor 3 ein Behälter- bzw. Flaschenträger 13 vorgesehen, der bei der dargestellten Ausführungsform von einem die Achse VA konzentrisch umschließenden Ring gebildet ist und eine Vielzahl von Aufnahmen 14 aufweist, in die jeweils eine Flasche 2 an einem Flascheneinlauf der Füllmaschine 1 radial eingeschoben bzw. nach dem Füllen an einem Flaschenauslauf radial entnommen werden kann. Die Aufnahmen 14 sind so ausgebildet, dass jede in einer Aufnahme 14 angeordnete Flasche 2 dort mit einem etwas unterhalb der Flaschenmündung 2.1 vorgesehenen flanschartigen Flaschenabschnitt 2.2 hängend am Behälterträger 13 gehalten ist, so dass die Achse der Abgabeöffnung 8 achsgleich mit der Achse der Flasche 2 liegt, die Mündung 2.1 aber von der Abgabeöffnung 8 beabstandet ist und so beim Füllen unter Atmosphärendruck die durch das Füllgut aus der Flasche 2 verdrängte Luft an der Flaschenmündung 2.1 entweichen kann.Below the filling elements 4, a container or bottle carrier 13 is provided on the rotor 3, which is formed in the illustrated embodiment by a VA surrounding the axis concentrically ring and a plurality of receptacles 14, in each case a bottle 2 at a bottle inlet of Filling machine 1 inserted radially or can be removed radially after filling at a bottle outlet. The receptacles 14 are formed so that each disposed in a receptacle 14 bottle 2 there with a slightly below the bottle mouth 2.1 provided flange bottle section 2.2 is suspended on the container carrier 13, so that the axis of the discharge opening 8 is coaxially aligned with the axis of the bottle 2 However, the mouth 2.1 is spaced from the discharge opening 8 and so when filling under atmospheric pressure, the displaced by the contents of the bottle 2 air at the bottle mouth 2.1 can escape.

Der Kessel 7 enthält das flüssige Füllgut bei einer so hohen Temperatur, dass ein heißes und damit im Wesentlichem steriles Abfüllen des Füllgutes in die Flaschen 2 über die Füllelemente 4 erreicht ist. Das Füllgut wird dem Kessel 7 von einem Vorratstank 15 außerhalb der Füllmaschine 1 über einen beispielsweise ebenfalls au-βerhalb der Füllmaschine 1 vorgesehenen Erhitzer 16 niveaugesteuert zugeführt, und zwar derart, dass der Füllgutspiegel im Kessel 7 auf einem vorgegebenen Niveau N gehalten ist. Im Kessel 7 sind beispielsweise zusätzliche Heizmittel vorgesehen, um das Füllgut dort auf der erforderlichen Temperatur zu halten.The boiler 7 contains the liquid contents at such a high temperature that a hot and thus substantially sterile filling of the filling material is achieved in the bottles 2 via the filling elements 4. The filling material is supplied to the boiler 7 by a storage tank 15 outside the filling machine 1 via a heater 16, for example likewise provided outside the filling machine 1, in a level-controlled manner, in such a way that the level of contents in the boiler 7 is kept at a predetermined level N. In the boiler 7, for example, additional heating means are provided to keep the contents there at the required temperature.

Für das sterile Abfüllen ist es erforderlich, dass das Füllgut u.a. in den Zuleitungen 6 und in den Füllelementen 4, aber auch diese Zuleitungen 6 und die Füllelemente 4 selbst zumindest an ihren mit dem Füllgut beim Füllen in Berührung kommenden Flächen die für die Vermeidung von Keimbildung und für die Abtötung von Keimen erforderliche hohe Temperatur aufweisen. Dies ist im normalen Füllprozess gewährleistet.For sterile filling, it is necessary that the contents u.a. in the leads 6 and in the filling elements 4, but also these leads 6 and the filling elements 4 themselves at least on their coming into contact with the contents in filling surfaces have the required for the prevention of nucleation and for the destruction of germs high temperature. This is guaranteed in the normal filling process.

Kommt es aber zu einer Unterbrechung im Füllprozess, so ist es ohne zusätzliche Maßnahmen nicht möglich, die erforderliche Temperatur des Füllgutes u.a. in den Zuleitungen 6 und in den Füllelementen 4 sowie auch die erforderliche Temperatur u.a. dieser Zuleitungen 6 und Füllelemente 4 aufrecht zu erhalten. d.h. ein Abkühlen u.a. des Füllgutes, der Zuleitungen 6 und der Füllelemente 4 zu vermeiden. Um diesen Nachteil auszuräumen, ermöglicht die Füllmaschine 1 beim Auftreten einer Unterbrechung das Umschalten von dem üblichen Füllmodus in einen Stand-by- oder Unterbrechungsmodus, bei welchem die Füllelemente 4 weiterhin von dem heißen Füllgut durchströmt werden, und zwar beispielsweise bei weiter umlaufendem Rotor 3, und bei welchem das an den Abgabeöffnungen 8 austretende Füllgut an den Vorratstank 15 zurückgeleitet wird.But if there is an interruption in the filling process, it is not possible without additional measures, the required temperature of the filling u.a. in the leads 6 and in the filling elements 4 as well as the required temperature u.a. to maintain these leads 6 and 4 filling elements upright. i.e. a cooling u.a. of the contents, the leads 6 and the filling elements 4 to avoid. In order to eliminate this disadvantage, the filling machine 1 makes it possible, when an interruption occurs, to switch over from the usual filling mode to a stand-by or interrupt mode, in which the filling elements 4 continue to be flowed through by the hot filling material, for example when the rotor 3 continues to revolve, and in which the product exiting at the discharge openings 8 filling material is returned to the storage tank 15.

Für diesen Stand-by- bzw. Unterbrechungsmodus der Arbeitsweise der Füllmaschine 1 sind an dem ringförmigen Behälterträger 13 Verschlusselemente 17 vorgesehen, und zwar jeweils ein derartiges Verschlusselement 17 zwischen zwei Aufnahmen 14 derart, dass jedes Verschlusselement 17 in einer vorgegebenen Umfangsrichtung des Behälterträgers 13 und bezogen auf die Achse VA jeweils um den selben Winkelbetrag gegenüber der zugehörigen Aufnahme 14 versetzt vorgesehen ist. Bei der dargestellten Ausführungsform befinden sich die Verschlusselemente 17 jeweils in der Mitte zwischen zwei Aufnahmen 14 und sind als nach oben hin offenen Kappen ausgebildet, und zwar mit einer Ringdichtung 18, die u.a. den Öffnungsrand des jeweiligen kappenartigen Verschlusselementes 17 bildet. Der Innenraum 19 jedes Verschlusselementes steht über einen Stichkanal 20 mit einem Ringkanal 21 in Verbindung, der ebenso wie die Kanäle 20 in dem ringförmigen Behälterträger 13 ausgebildet ist und die Achse VA konzentrisch umschließt. Über z.B. eine Leitung, im dargestellten Ausführungsbeispiel die Leitung 22 ist der Ringkanal 21 mit dem Vorratstank 15 verbunden.For this stand-by or interrupt mode of operation of the filling machine 1 13 closure elements 17 are provided on the annular container carrier, in each case such a closure element 17 between two receptacles 14 such that each closure element 17 in a predetermined circumferential direction of the container carrier 13 and related is provided offset on the axis VA offset by the same angular amount relative to the associated receptacle 14. In the illustrated embodiment, the closure elements 17 are each in the middle between two receptacles 14 and are designed as caps open at the top, with an annular seal 18, which forms, inter alia, the opening edge of the respective cap-like closure element 17. The interior 19 of each closure element is connected via a branch passage 20 with an annular channel 21 in connection, which as well as the channels 20 is formed in the annular container carrier 13 and the axis VA concentrically surrounds. About example, a line, in the illustrated embodiment, the line 22, the annular channel 21 is connected to the storage tank 15.

Der Behälterträger 13, der sich in Richtung der Achse VA unterhalb des Rotors 3 befindet, ist an diesem Rotor 3 mit Hilfe von Lagerelementen 23 um die Achse VA um einen Winkelbetrag hin- und herschwenkbar, und zwar durch einen nicht dargestellten Antrieb in der Weise, dass in der einen Schwenkstellung, die dem Füllmodus der Füllmaschine entspricht, in der vorbeschriebenen Weise jeweils eine Aufnahme 14 unter jedem Füllelement 4 angeordnet ist und in der anderen Schwenkstellung, die dem Stand-by- bzw. Unterbrechungsmodus der Füllmaschine 1 entspricht, jedes Füllelement 4 an seinen unteren Ende dicht durch ein Verschlusselement 17 verschlossen ist, in dessen Innenraum 19 die Abgabeöffnung 8 des betreffenden Füllelementes 4 mündet. Hierdurch ist es dann möglich, dass während einer Unterbrechung des Füllvorgangs das Füllgut unter Durchströmen der Leitungen 6 und der Füllelemente 4 an den Abgabeöffnungen 8 gesteuert abgegeben wird, allerdings nicht mehr in die Flaschen 2, sondern jeweils in den Innenraum 19 des zugehörigen Verschlusselementes 17 und von dort über die Kanäle 20 und 21 und die Leitung 22 an den Vorratstank 15 zurückfließt, aus dem dann das Füllgut mit der Förderpumpe 15.1 über den Erhitzer 16 wiederum an den Kessel 7 zurückgeleitet wird. Hierdurch sind bei einer Unterbrechung des Füllvorganges ein Abkühlen des Füllgutes in den Zuleitungen 6, in den Füllelementen 4, aber auch ein Abkühlen der Zuleitungen 6 und der Füllelemente 4 selbst wirksam verhindert.The container carrier 13, which is located in the direction of the axis VA below the rotor 3, is on this rotor 3 by means of bearing elements 23 about the axis VA back and forth by an angular amount, namely by a drive, not shown, in the manner that in the one pivot position corresponding to the filling mode of the filling machine, in the manner described above, a receptacle 14 is disposed under each filling element 4 and in the other pivot position corresponding to the stand-by or interrupt mode of the filling machine 1, each filling element 4th is closed at its lower end tightly by a closure element 17, in whose interior 19 the discharge opening 8 of the relevant filling element 4 opens. As a result, it is then possible that, during an interruption of the filling process, the product is discharged under the passage of the lines 6 and the filling elements 4 controlled at the discharge openings 8, but not in the bottles 2, but each in the interior 19 of the associated closure element 17 and flows back from there via the channels 20 and 21 and the line 22 to the storage tank 15, from which then the contents with the feed pump 15.1 via the heater 16 in turn is returned to the boiler 7. As a result, when the filling process is interrupted, cooling of the filling material in the supply lines 6, in the filling elements 4, but also cooling of the supply lines 6 and the filling elements 4 themselves are effectively prevented.

Um in der den Unterbrechungsmodus entsprechenden Stellung des Behälterträgers 13 einen dichten Abschluss für jedes Füllelement 4 durch das zugehörige Verschlusselement 17 zu erreichen, ist jedes Füllelement 4 an seiner Unterseite mit einem ringförmigen, die Abgabeöffnung 8 mit Abstand umschließenden, aber achsgleich mit der Abgabeöffnung 8 angeordneten Ringwulst 24 versehen, gegen den während des Unterbrechungsmodus die Dichtung 18 des zugehörigen Verschlusselementes 17 mit einem eine Dichtungslippe bildenden Abschnitt abgedichtet anliegt.In order to achieve a tight closure for each filling element 4 by the associated closure element 17 in the position corresponding to the interruption mode of the container carrier, each filling element 4 is arranged on its underside with an annular, the discharge opening 8 at a distance, but arranged coaxially with the discharge opening 8 Annular bead 24 is provided, against which during the interruption mode, the seal 18 of the associated closure element 17 is sealed with a sealing lip forming portion.

Die Figur 4 zeigt als weitere mögliche Ausführungsform sehr vereinfacht ein Füllelement 4a einer auch ansonsten nur schematisch dargestellten Füllmaschine 1a umlaufender Bauart, wobei am Umfang eines in der Figur 4 nicht dargestellten, um eine vertikale Maschinenachse umlaufend antreibbaren und den Kessel 7 aufweisenden Rotors wiederum eine Vielzahl von Füllelementen 4a vorgesehen ist. Weiterhin ist am Rotor der relativ zu diesem um die vertikale Maschinenachse zwischen einer dem Füllmodus und einer dem Unterbrechungsmodus entsprechenden Stellung schwenkbare Behälterträger 13 vorgesehen.As a further possible embodiment, FIG. 4 very simply shows a filling element 4a of a filling machine 1a of an otherwise only schematically illustrated filling machine, wherein a plurality of rotors, not shown in FIG. 4, which are rotatable about a vertical machine axis and have the boiler 7 is provided by filling elements 4a. Furthermore, on the rotor relative to this about the vertical axis of the machine between a filling mode and the interruption mode corresponding position pivotable container carrier 13 is provided.

Im wesentlichen ist nur das Füllelement 4a abweichend von dem Füllelement 4 ausgebildet, d.h. bei dem Füllelement 4a sind im Flüssigkeitskanal 5a für das Füllgut anstelle des Flüssigkeitsventils 9 mit dem in vertikaler Richtung bewegbaren Ventilkörper zwei membranenartige, individuell steuerbare Flüssigkeitsventile 25 und 26 vorgesehen, und zwar wirkungsmäßig parallel zueinander. Während des Füllmodus sind am Anfang der Füllphase, d.h. bis zum Positionieren der jeweiligen Flasche 2 unter dem Füllelement 4a beide Flüssigkeitsventile 25 und 26 geschlossen. Für ein anschließendes Schnellfüllen werden beide Flüssigkeitsventile 25 und 26 gesteuert geöffnet. Für ein Bremsfüllen am Ende der jeweiligen Füllphase wird ein Flüssigkeitsventil, nämlich das Flüssigkeitsventil 26 geschlossen, und zwar vor dem Schließen des Flüssigkeitsventils 25 am Ende der Füllphase.Essentially, only the filling element 4a is deviating from the filling element 4, i. in the filling element 4a, two membrane-like, individually controllable liquid valves 25 and 26 are provided in the liquid channel 5a for the contents instead of the liquid valve 9 with the valve body movable in the vertical direction, namely operatively parallel to each other. During fill mode, at the beginning of the fill phase, i. until the positioning of the respective bottle 2 under the filling element 4a, both liquid valves 25 and 26 are closed. For a subsequent fast filling, both liquid valves 25 and 26 are opened in a controlled manner. For a brake filling at the end of the respective filling phase, a liquid valve, namely the liquid valve 26 is closed, and that before the closing of the liquid valve 25 at the end of the filling phase.

In dem in der Figur 4 dargestellten Stand-by- bzw. Unterbrechungsmodus, in welchem wiederum jedes Füllelement 4a an der Unterseite durch ein Verschlusselement 17 verschlossen ist, sind beide Füllelemente 25 und 26 geöffnet, so dass der gesamte im Füllelement 4a ausgebildete Flüssigkeitskanal 5a einschließlich der Flüssigkeitsventile 25 und 26 von dem heißen Füllgut weiterhin durchströmt und damit auch beheizt wird.4, in which in turn each filling element 4a is closed at the bottom by a closing element 17, both filling elements 25 and 26 are opened, so that the entire liquid channel 5a formed in the filling element 4a includes the liquid valves 25 and 26 are still flowed through by the hot contents and thus also heated.

Die Flüssigkeitsventile 25 und 26 werden wiederum von der Steuereinheit 11 betätigt, und zwar in Abhängigkeit von der Drehstellung der Füllmaschine 1a bzw. dessen Rotors sowie während des Füllmodus auch jeweils in Abhängigkeit von im Messsignal des Durchflussmessers 12.The liquid valves 25 and 26 are in turn actuated by the control unit 11, depending on the rotational position of the filling machine 1 a or its rotor and during the filling mode in each case depending on the measuring signal of the flow meter 12.

In der Figur 4 sind noch zwei, z.B. elektromotorisch oder elektromagnetisch betätigbare Sperrventile 27 und 28 dargestellt, und zwar das Ventil 27 in der Leitung 22 und das Ventil 28 in einer Leitung 29, die in die Leitung 22 zwischen dem Ringkanal 21 und dem Ventil 27 mündet. Durch diese Ventile ist eine CIP-Reinigung der Füllmaschine 1 bzw. 1 a, zumindest einschließlich des Kessels 7, der Leitungen 6, der Füllelemente 4 bzw. 4a, der Verschlusselemente 17, der Kanäle 20 und 21 und des Erhitzers 16 möglich. Hierfür wird dann bei gesperrten Ventil 27 und geöffneten Ventil 28 über die Leitung 29 das für die CIP-Reinigung verwendete flüssige Reinigungsmedium, beispielsweise Wasser, auch solches mit reinigenden Zusätzen zugeführt. Ebenfalls ist, bei einer anderen Steuerung der Ventile 27 und/oder 28, auch eine CIP-Reinigung der oben genannten Komponenten zuzüglich des Vorratstanks 15 möglich.In Figure 4, two, e.g. shown electromotive or electromagnetically actuated check valves 27 and 28, namely the valve 27 in the conduit 22 and the valve 28 in a conduit 29 which opens into the conduit 22 between the annular channel 21 and the valve 27. Through these valves, a CIP cleaning of the filling machine 1 or 1 a, at least including the boiler 7, the lines 6, the filling elements 4 and 4a, the closure elements 17, the channels 20 and 21 and the heater 16 is possible. For this purpose, then with locked valve 27 and open valve 28 via the line 29, the liquid cleaning medium used for the CIP cleaning, for example, water, also supplied with such cleaning additives. Also, in another control of the valves 27 and / or 28, also a CIP-cleaning of the above-mentioned components plus the storage tank 15 is possible.

Die Erfindung wurde voranstehend an Ausführungsbeispielen beschrieben. Es versteht sich, dass zahlreiche Änderungen sowie Abwandlungen möglich sind, ohne dass dadurch der der Erfindung zugrundeliegende Erfindungsgedanke verlassen wird.The invention has been described above by means of exemplary embodiments. It is understood that numerous changes and modifications are possible without thereby departing from the inventive concept underlying the invention.

BezugszeichenlisteLIST OF REFERENCE NUMBERS

1, 1a1, 1a
Füllmaschinefilling Machine
22
Flaschebottle
33
Rotorrotor
4, 4a4, 4a
Füllelementfiller
5, 5a5, 5a
Flüssigkeitskanalliquid channel
66
Leitungmanagement
77
Kesselboiler
88th
Abgabeöffnungdischarge opening
99
Flüssigkeitsventilliquid valve
1010
Betätigungselementactuator
1111
Steuereinrichtungcontrol device
1212
Messeinrichtungmeasuring device
1313
Behälterträgercontainer carrier
1414
Aufnahmeadmission
1515
Vorratstankstorage tank
15.115.1
FüllgutförderpumpeFüllgutförderpumpe
1616
Erhitzerheaters
1717
Verschlusselementclosure element
1818
Ringdichtungring seal
1919
Innenraum des VerschlusselementesInterior of the closure element
2020
Kanalchannel
2121
Ringkanalannular channel
2222
Leitungmanagement
2323
Lagerelementbearing element
2424
Ringwulsttorus
25, 2625, 26
Flüssigkeitsventilliquid valve
27, 2827, 28
Sperrventilcheck valve
2929
Leitung für ReinigungsflüssigkeitLine for cleaning fluid
VAVA
vertikale Maschinenachsevertical machine axis
NN
Niveaulevel

Claims (19)

  1. Method for the bottling of a liquid product in bottles, kegs or similar containers (2) using a filling machine (1, 1 a) with a plurality of filler elements (4, 4a), which each include a liquid duct (5, 5a), which terminates at a discharge opening (8) and includes at least one liquid valve (9, 25, 26) for the controlled discharge of the hot liquid product to a container (2) that is disposed on the filler element (4, 4a),
    characterised in that to avoid a cooling at least of the liquid product in the filler elements (4, 4a) and/or to avoid a cooling at least of the filler elements (4, 4a) if the filling process is interrupted, the liquid product is conveyed in the hot state in at least one flow path, which encloses these filler elements (4, 4a) or respectively their liquid ducts, from a liquid product source (7) for the hot liquid product to a liquid product well (15) that accommodates the liquid product, such that the filler elements continue to be traversed in an uninterrupted manner.
  2. Method according to claim 1, characterised in that to avoid a cooling at least of the liquid product in the filler elements (4, 4a) and/or to avoid a cooling at least of the filler elements (4, 4a) if the filling process is interrupted, the liquid product is conveyed in the hot state in a circuit that encloses the flow path inside the machine.
  3. Method according to claim 1 or 2, characterised in that a liquid product boiler (7) of the filling machine (1, 1 a), which communicates with the filler elements via connection lines (6), is used as liquid product source.
  4. Method according to one of the preceding claims, characterised in that a tank (15), which is provided in addition to the liquid product boiler, is used as liquid product well.
  5. Method according to one of the preceding claims, characterised in that the liquid product is supplied to the liquid product source (7) from the liquid product well (15) via at least one heater (16).
  6. Method according to one of the preceding claims, characterised in that, to form the at least one flow path, the filler elements (4, 4a) are connected, preferably in the region of the discharge opening (8), with their liquid duct (5a) to a duct (20, 21) which communicates with the liquid product well (15).
  7. Method according to one of the preceding claims, characterised in that, to form the at least one flow path, the filler elements (4, 4a) are each closed at their discharge openings (8) by means of a closure element (17).
  8. Method according to claim 7, characterised in that the filler elements (4, 4a) are connected via the closure elements (17) to the liquid product well or to the duct (21) that is connected to this well.
  9. Method according to one of the preceding claims, characterised in that the at least one flow path is a flow path inside the machine.
  10. Rotary-type filling machine for the hot bottling of a liquid product in bottles, kegs or similar containers, said filling machine having a plurality of filler elements (4, 4a) provided on a rotor (3) that is driveable in rotation about a vertical machine axis (VA), each of which filler elements has at least one liquid duct (5, 5a), which communicates with a liquid product source (7) for the hot liquid product and terminates in a discharge opening (8), with at least one liquid valve (9, 25, 26) in the liquid ducts (5, 5a) for the controlled discharge of the liquid product to the respective container to be filled, characterised in that to avoid the cooling at least of the filler elements (4, 4a) and/or at least of the liquid product, means (17) are provided for closing the filler elements (4, 4a) and for forming a flow path inside the machine that encloses these filler elements or respectively their liquid ducts (5, 5a) for the hot liquid product between the liquid product source (7) and a liquid product well (15) that accommodates the liquid product, and wherein these means (17) include a duct (20), which enables a continuously uninterrupted traversing of the filler elements.
  11. Filling machine according to claim 10, characterised in that the liquid product well is an additional tank, for example a storage tank (15).
  12. Filling machine according to claim 10 or 11, characterised in that the liquid product source is a boiler (7), preferably provided on the rotor (3).
  13. Filling machine according to one of the preceding claims, characterised in that the liquid product well (15) communicates with the source for the liquid product via at least one heater (16).
  14. Filling machine according to one of the preceding claims, characterised in that the means for closing the filer elements (4, 4a) are formed by a closure element (17), wherein each closure element (17) is associated with at least one filler element (4, 4a) such that all filler elements (4, 4a) can be closed at the same time.
  15. Filing machine according to claim 14, characterised in that the respective closure element (17) is cap-shaped and communicates via at least one duct (20, 21) with the liquid product well (15) for the liquid product.
  16. Filling machine according to one of the preceding claims, characterised in that the closure elements (17) are provided on the rotor (3) so as to be displaceable between a position closing the filler element (4, 4a) and a position not closing the filler element.
  17. Filling machine according to one of the preceding claims, characterised in that the closure elements (17) are formed and/or are provided on a common annular carrier (13), which is pivotable about the axis of the rotor (3) relative to said rotor.
  18. Filling machine according to claim 17, characterised in that a common duct (21), which communicates with the closure elements (17), is provided in the carrier (13).
  19. Filling machine according to one of the preceding claims, characterised in that holders or receiving means (14) are provided on the carrier (13) for the containers (2) and each receiving means (14) is offset from a closure element (17) by an angular amount.
EP05000558A 2004-01-29 2005-01-13 Filler with circulation of the liquid Ceased EP1559674B1 (en)

Applications Claiming Priority (2)

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DE102004004331A DE102004004331B3 (en) 2004-01-29 2004-01-29 Process for hot filling of a liquid filling material into bottles or the like container and filling machine for carrying out the method
DE102004004331 2004-01-29

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EP1559674A1 EP1559674A1 (en) 2005-08-03
EP1559674B1 true EP1559674B1 (en) 2006-06-21

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US (1) US7243483B2 (en)
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JP (1) JP4873866B2 (en)
DE (2) DE102004004331B3 (en)
RU (1) RU2357918C2 (en)

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ITPR20020080A1 (en) * 2002-12-23 2004-06-24 Procomac Spa FILLING VALVE, IN PARTICULAR FOR HOT LIQUIDS.
JP2005198001A (en) 2004-01-07 2005-07-21 Canon Inc Solid state image pickup device

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2366657A2 (en) 2010-03-19 2011-09-21 Krones AG Method and device for filling hot drinks
DE102010012211A1 (en) 2010-03-19 2011-09-22 Krones Ag Apparatus and method for hot filling of beverages

Also Published As

Publication number Publication date
DE502005000024D1 (en) 2006-08-03
RU2005102123A (en) 2006-07-10
DE102004004331B3 (en) 2005-09-15
US7243483B2 (en) 2007-07-17
JP4873866B2 (en) 2012-02-08
EP1559674A1 (en) 2005-08-03
US20050188654A1 (en) 2005-09-01
RU2357918C2 (en) 2009-06-10
JP2005212903A (en) 2005-08-11

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