EP2604572B1 - Tête de remplissage pour remplissage de récipients - Google Patents

Tête de remplissage pour remplissage de récipients Download PDF

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Publication number
EP2604572B1
EP2604572B1 EP12196561.0A EP12196561A EP2604572B1 EP 2604572 B1 EP2604572 B1 EP 2604572B1 EP 12196561 A EP12196561 A EP 12196561A EP 2604572 B1 EP2604572 B1 EP 2604572B1
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EP
European Patent Office
Prior art keywords
filling
level
probe
jet
full
Prior art date
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Active
Application number
EP12196561.0A
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German (de)
English (en)
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EP2604572A1 (fr
Inventor
Rupert Meinzinger
Stefan PÖSCHL
Sebastian Baumgartner
Stephan Früchtl
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Krones AG
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Krones AG
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Publication of EP2604572A1 publication Critical patent/EP2604572A1/fr
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    • 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
    • B67C3/282Flow-control devices, e.g. using valves related to filling level control
    • 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
    • B67C3/26Filling-heads; Means for engaging filling-heads with bottle necks
    • B67C2003/2685Details of probes

Definitions

  • the present invention relates to a filling member for filling containers, preferably for filling beverage containers with beverages.
  • a so-called Langrohrheller in which the bottled in a bottle beverage is introduced by means of a tube inserted deep into the bottle.
  • a lower-layer filling of the bottle is achieved, which results in an advantageous filling behavior, especially in the case of intumescent products and / or oxygen-sensitive products.
  • so-called filling tube-less filling systems are known in which the liquid flows from a product outlet arranged above the mouth of the container into the container to be filled and the displaced by the liquid from the container gas is discharged by means of a return gas pipe from the container.
  • the return gas pipe is typically located in the center of the filling jet, wherein the filling jet is usually derived from the return gas pipe by means of a Abweisnemes to the inner wall of the container to be filled in order to achieve a little frothing and gentle filling into the respective container.
  • so-called Vollstrahlheller which may be designed in particular as a free-jet filler known.
  • the liquid which is to be filled into the corresponding container, from a typically spaced above the mouth of the container arranged product outlet unobstructed by the mouth of the container.
  • the displaced by the liquid gas escapes through the gap between the jet and the respective bottle mouth.
  • volume controls are known in which a certain filling volume is to be filled in a specific container.
  • weighing fillers are known in which a certain product weight is to be achieved in the respective container.
  • filling level controlled filling systems are known in which the filling level reached in each container is used as a shutdown criterion for the filling.
  • a filling height-dependent control for example, from DE 10 2008 029 208 A1 known, in which a free-jet filling system is described, which has a filling level probe, which is arranged outside of the filling jet at the edge of the filling member to a centering device.
  • the arrangement of the filling level probe in the edge region of the filling element is prone to failure in the case of narrow container mouths, since the probe can collide with the container mouth when it enters the container.
  • fill level probes usually electrical sensors are used, in which an electrode is attached to the level sensor itself, which enters upon reaching the corresponding liquid level with a filling element arranged on the ground point in conductive contact.
  • the liquid to be filled has a certain electrical Conductivity has.
  • a typical requirement for the electrical conductivity of the product to be filled for the mentioned embodiment of the level probe is ⁇ 20 ⁇ S / cm, so that liquids with a lower electrical conductivity can not be filled according to this principle.
  • the filling member for filling containers with a liquid Vollstrahl Stahlllelement for filling the container in the full jet and a level probe for determining the level.
  • the filling level probe is arranged below the full-beam filling element such that it lies in the full jet during filling.
  • the filling level probe is arranged below the Vollstrahl Stahlllelements that it is when filling in full jet, it follows that the filling level probe is disposed in a region which is less vulnerable to collision when retracting the level probe in the container mouth and complications corresponding to the abutment of the level probe at the container mouth result, can be reduced.
  • the basic principle of filling in the full jet is not interrupted by said arrangement of the level probe, so that the displaced by the liquid filled gas from the interior of the respective container can still escape between the jet and the mouth. Accordingly, there is a filling member with increased reliability and robustness in the filling operation, which allows a filling level controlled filling of containers in full jet.
  • the filling level probe is preferably arranged so that it is enclosed by the full jet during filling, preferably completely in the full jet. If the fill level probe is enclosed by the full jet, the physical conditions of the bodies flow around it apply, so that different hydrodynamic effects can be exploited in a comprehensible and repeatable way.
  • a particularly aerodynamic design can be achieved if the filling level probe has a probe body, which adjoins a valve body of the full-beam filling element.
  • a possible turbulence-poor inflow of liquid into the container can be achieved. This is particularly important in the beverage bottling and bottling other foods of importance, which should be filled very gently.
  • this design allows a compact design and the ability to accurately center the level probe with respect to a typically centered arranged to the valve body fluid outlet.
  • At least part of the filling level probe is arranged so centered relative to the liquid outlet of the full-jet filling element that the filling level probe lies symmetrically in the full jet.
  • the level probe is symmetrically surrounded by the full jet, the hydrodynamic effects are reliably achieved for each filling.
  • the level probe may be formed by a probe body extending in the flow direction, at the lower end of which different shut-off mechanisms may be arranged.
  • the filling level probe In order to enable a reliable introduction of the filling level probe into the container, at least part of the filling level probe is arranged below a liquid outlet of the full-jet filling element.
  • the filling level probe preferably has a probe body which extends through the liquid outlet of the full-jet filling element.
  • the filling level probe has a probe body, at the downstream end of which a flow-off edge is formed.
  • a region which is substantially liquid-free is located in the region downstream of it formed - even in the region of a front side of the probe body.
  • This substantially liquid-free region is detected via its electrical, optical or fluidic effects, such as, for example, via the change in an electrical resistance, a change in the refractive index, a change in the absorption behavior or a change in the flow force due to suction.
  • the change in the corresponding properties occurs in particular when the liquid level in the container rises above the flow-breaking edge and, accordingly, the liquid-free region collapses. This effect can be used in accordance with the determination of reaching the predetermined level, for example, if the stall edge is attached to the corresponding position on the level probe.
  • the fill level probe preferably has a probe body and a force measuring device in operative connection with the probe body for measuring the force exerted on the probe body by the full jet.
  • the force is developed, for example, via the suction effect of the full jet on the probe body. This suction effect occurs particularly strongly at a stall edge. The force changes as soon as the probe body or a flow-breaking edge sinks into the liquid level, so that this effect can be used to determine the given fill level.
  • the determination of the predetermined filling level can alternatively or not according to the invention also be made on the fact that the
  • Level probe has at least one of the full jet in motion displaceable movement body, wherein the moving body is preferably a rotatable body driven by the solid jet.
  • the moving body is preferably a rotatable body driven by the solid jet.
  • a propeller, a rotatable swirler or any other geometric shape, which sets the linear flow movement of the full jet in a rotational movement can be used.
  • Upon immersion of the moving body in the liquid level occurs a change in the movement of the liquid flow, which changes according to the rotational movement or even stops. This behavior can be used to determine the achieved preset level.
  • the filling level probe has at least one of
  • Full jet operable flow switch for determining the level, wherein the flow switch is preferably arranged at the lower end of a probe body of the level probe.
  • the flow switch takes on flow through the full jet another Switching position as when drying the flow. Accordingly, when the flow switch is immersed in the liquid level, the flow will be torn off so that the switching process achieved thereby can serve to determine the level reached.
  • the filling level probe has at least one electrode for determining the filling level, the electrode preferably being arranged at the lower end of a probe body of the filling level probe, and the electrode being particularly preferably arranged downstream of a flow breaking edge formed on a probe body.
  • the electrode lies in a substantially liquid-free region.
  • an electrical line can be produced here via the liquid. In this way, this can also be used to determine the achievement of the predetermined level.
  • the fill level can also be determined if the fill level probe has at least one optical sensor, wherein the optical sensor can preferably measure a change in the refractive index, a change in the absorption, the reflection or the transmission. In this way, the level can be determined very reliable and wear-free.
  • a float which also rises with increasing liquid level and thereby actuates a switch.
  • a float may also be spring-loaded, such that it is flushed by the flow of the full jet down, against the spring action, and then raised only with increasing liquid level.
  • the filling member is provided with a Vollstrahl sympathomimetic having a conical liquid outlet and a valve cone arranged therein, wherein by lifting the valve lever, an outlet of the product can be achieved from the Vollstrahl Stahlllelement.
  • a container to be filled for example, via a centering, attach.
  • FIG. 1 shows a filling member 1 for filling a container 2 in the form of a bottle with a liquid 30.
  • the filling member 1 comprises a Vollstrahl Stahlllelement 10 for filling the container 2 in the jet 3.
  • the liquid 30 emerges from a substantially centered over the mouth 20 of the container arranged liquid outlet 16 and flows as a full jet 3 through the mouth 20 and the neck 22 of the container 2 in the container volume 24.
  • the displaced by the rising liquid level 32 from the container 2 gas, so for example, the air in the container volume 24, can escape between the flowing in the full jet 3 in the container volume 24 liquid 30 and the mouth 20 of the container 2, as indicated by the arrows in FIG. 1 indicated schematically.
  • the liquid outlet 16 is arranged at a distance from the mouth 20 of the container 2 and there is no direct contact between the full-jet filling element 10 and the container 2.
  • This arrangement is also referred to as free-jet filling.
  • the solid jet 3 "falls" from the full-jet filling element 10 through the container mouth 20 into the interior of the container 2.
  • Such a construction is often used, for example in the field of beverage filling, to efficiently fill non-foaming and oxygen-insensitive liquids in containers. This is the case, for example, when bottling still bottled water.
  • the Vollstrahl garllelement 10 has to control the liquid flow on a cone-shaped valve seat 12, in which a valve cone 14 can engage for sealing.
  • a valve cone 14 In the in FIG. 1 shown state, the valve cone 14 is lifted out of the valve seat 12, so that the liquid 30 can flow accordingly in the full jet 3 from the liquid outlet 16 into the container 2.
  • the poppet 14 corresponding to the in FIG. 1 shown state is lowered into the cone-shaped valve seat 12, the Vollstrahl spallelement 10 is closed, however, so that no liquid 30 emerges.
  • the liquid 30, with which the Container 2 is to be filled it is typically above the Vollstrahlhell elements 10, for example, in an overlying liquid container such as a ring container of a rotary filling, so that by lifting the valve cone 14 from the valve seat 12 out the liquid flows 30 in the full jet 3 in the container 2 ,
  • the liquid level 32 in the container 2 increases with the volume of liquid supplied via the full jet 3.
  • a control of the level of the liquid 30 in the container 2 is achieved via a level probe 4, which determines the achievement of a predefined level.
  • Under fill level here the distance between the mouth 20 of the container 2 and then the upcoming liquid level 32 understood. In this way it is achieved that the containers are optically filled evenly - regardless of the slightly varying interior volume of certain types of containers.
  • the level probe 4 in FIG. 1 is arranged below the full-beam filling element 10 so that it lies in the full jet 3 during filling.
  • the filling level probe 4 has a probe body 40, which is enclosed by the full jet 3 during filling.
  • the probe body 40 includes in the in FIG. 1 shown embodiment of the valve cone 14 at. Accordingly, the filling level probe 4 also extends through the liquid outlet 16, so that here at least part of the filling level probe 4 lies below the liquid outlet 16.
  • the probe body 40 Due to the arrangement of the probe body 40 directly following the valve cone 14, the probe body 40 is centered on the product outlet 16, so that the filling level probe 4 is arranged symmetrically to the full jet 3. In the case of a circular cross section of the full jet 3, the probe body 40 lies correspondingly exactly on the longitudinal axis of the full jet 3. In other words, the filling probe 4 is accessible from neither side without having to pass through the full jet 3.
  • the probe body 40 is formed so that it takes the form of a cylindrical rod, wherein at its lower end a flow-breaking edge 42 is formed.
  • the flow separation edge 42 causes the formation of a liquid-free region 34 in the flow direction directly behind the flow separation edge 42. So here's an air bubble, which, however, is at a vacuum.
  • the formation of the liquid-free region 34 is due to the hydrodynamics around the body and requires no further measures.
  • the flow behavior of the full jet 3 at the level probe 4 exerts a force on this in the flow direction, which in FIG. 1 is schematically referred to as force F n .
  • This force F n can be determined by measurement with a schematically shown force measuring device 5, which is in operative connection with the probe body 40. By determining the force F n , it can be ascertained whether the probe body 40 of the filling level probe 4 is already immersed in the liquid level 32, or whether a flow of the full jet 3 continues along the probe body 40 or a region of the probe body 40.
  • the measurement of the force F n which is exerted by the incoming full jet 3 on the probe body 40, for example, via a load cell 5 take place. Since it is here - depending on the end face of the probe body 40 - are relatively small forces, a sensitive load cell 5 is needed. In order to determine whether the predetermined level is reached, a difference is made over time to the force F n initially exerted on the probe body 40. When the force F n has dropped to a certain predetermined value because the probe body starts to submerge in the liquid level 32, the poppet 14 is lowered and the filling is finished.
  • FIG. 2 shows in an alternative, non-inventive embodiment, a portion of the filling member 1 with the valve body 14.
  • a level probe 4 is provided with a probe body 40, wherein here in the lower region of the probe body 40, a rotary body 50 is provided, which in flow through the liquid shown schematically 30 of the full jet 3 is set in rotational motion.
  • the rotary body 50 rotates correspondingly until the liquid level 32 of the liquid has reached the rotary body 50 or completely covers it. Accordingly, a rotation of the rotary body 50 can be detected by means of suitable rotary sensors, for example by means of a reed contact or optically.
  • the rotation speed correspondingly reduced or the rotation comes to a complete halt.
  • the filling is stopped by the Vollstrahl Stahl Glallelement 10 and the valve cone 14 is lowered into the valve seat 12.
  • the probe body 40 in turn extends from the valve body 14.
  • a flow switch 52 is provided at the lower end of the probe body 40 of the level probe 4.
  • the flow switch 52 is designed such that it protrudes beyond the diameter of the probe body 40 and is correspondingly flowed through by the full jet 3. Due to the projecting configuration of the flow switch 52, it is flowed through by the full jet 3 or the liquid 30, so that the flow switch 52 is deflected accordingly.
  • the flow switch 52 is formed by an inflow element 520, which is articulated on the probe body 40 via a corresponding hinge 522 such that the inflow element 520 can pivot about the hinge 522.
  • the Anströmelement 520 is biased in the closed position of the corresponding flow switch 52.
  • the level sensor 4 signals according to the not yet reached predetermined level.
  • the liquid level 32 rises above the plane of the Anström stressess 520 of the flow switch 52, this is moved by the spring bias in the closed position and the level probe 4 signals accordingly that the desired level is reached.
  • FIG. 4 shows a further embodiment of the filling member 1 in a further schematic sectional view.
  • the conical valve seat 12, which is formed together with the valve cone 14 in Vollstrahl hypollelement 10, can be clearly seen.
  • the liquid outlet 16 is formed by means of a corresponding flow separation edge at the end of the valve seat 12.
  • shape of the Vollstrahl Stahlllenses 10 and a centering bell 18 is provided, which is intended to receive the mouth region of a container to be filled.
  • a level probe 4 is also provided in this embodiment, wherein the level probe 4 has a probe body 40, which is connected as an extension directly to the valve cone 14 of the Vollstrahl Stahlllenses 10.
  • the filling liquid 30 is at the top to the Vollstrahl Stahlllelement 10, so that by raising the valve cone 14 from the valve seat 12, in the mold, as in FIG. 4 is shown, an inflow of the liquid 30 in the form of a full jet 3 in one in the FIG. 4 not shown container takes place.
  • a stall edge 42 is formed such that the probe body 40 assumes a substantially cylindrical shape.
  • a pair of electrodes 54 are provided on the end face 44 of the probe body 40.
  • the electrodes 54 are formed as short-circuiting electrodes.
  • the two electrodes 54 are arranged in the center of the end face of the probe body 40 and correspondingly behind the flow separation edge 42. Accordingly, a liquid-free region 34 forms due to the flow-off edge 42 below the probe body 40 in the region of its end face 44 in the presence of a flow. Due to the liquid-free region 34, which forms behind the tear-off edge 42, however, the two electrodes 54 do not permanently come into electrical connection via the liquid. Only when the liquid level 32 has risen so far that the two electrodes 54 dive into the liquid 30, a corresponding electrical contact takes place, which then signals the achievement of the desired level.
  • FIG. 5 a further embodiment of the filling member 1 is shown, wherein the basic structure of the in FIG. 4 shown construction of the filling member 1 is similar.
  • the filling level probe 4 in turn comprises a probe body 40, which forms a flow-breaking edge 42 at its lower end.
  • the probe body 40 extends substantially in extension with the poppet 14.
  • a liquid-free region 34 below the probe body 40 is also formed here when a flow through the solid jet 3 occurs.
  • an optical sensor 56 is provided in which a light beam passing through a light guide 562 exits through a window 560.
  • the refractive properties or absorption properties of the light beam supplied via the optical waveguide 562 at the interface between the window 560 and the corresponding underlying medium are measured by the reflected beam, which is also transported back via the optical waveguide 562.
  • the reflected beam which is also transported back via the optical waveguide 562.
  • the filling level probe 4 can determine via the corresponding optical observation whether the corresponding liquid level 32 has reached the filling height predetermined by the window 560.
  • FIG. 6 shows a further variant for an optical measurement of the predetermined level, wherein an optical sensor 57 in a variant opposite to in FIG. 5 shown version is provided such that via a light waveguide 570 on one side of a light beam is coupled into the container to be filled. The light is received again via a second optical waveguide 572.
  • the liquid level 32 rises above the level defined by the exit window 574 and the entrance window 576, the achievement of the desired liquid level is detected by a change in the back-reflected beam in the optical waveguide 572.
  • the exit window 574 also assumes the function of the entrance window 576.
  • the two optical waveguides 570 and 572 advantageously end in a common entry and exit window (not shown), i. H. the optical waveguide for the emission of the light beam and the optical waveguide for the reception of the reflected light beam both end at the common entrance and exit windows.
  • the two optical waveguides can preferably also be arranged parallel to one another. It is also possible that only a single optical fiber for emitting and receiving the light beam is used.
  • the Vollstrahl spallelement 10 is provided with a level probe 4, which is provided in the form of a probe body 40 which is provided with a bore 58.
  • the bore 58 serves to determine the vacuum generated at the lower end of the probe body 40 by means of the stall edge 42.
  • the pressure measurement is by means of a schematic in FIG. 8 indicated pressure gauge 580 made which communicates via the bore 58 in the probe body 40 with the liquid-free region 34.
  • FIG. 8 is accordingly one opposite the representation of the FIG. 7 increased liquid level 32 shown, in which the probe body 40, and thus also the bore 58, is immersed in the liquid level 32. Accordingly, the pressure measured in the bore 58 changes, in particular because the liquid-free region 34 of FIG FIG. 7 collapsed by reaching the liquid level 32. Accordingly, the pressure in the bore 58 increases with respect to the in FIG. 7 shown variant. This increase in pressure is measured and is counted as reaching the liquid level to the predetermined level.

Landscapes

  • Filling Of Jars Or Cans And Processes For Cleaning And Sealing Jars (AREA)
  • Basic Packing Technique (AREA)
  • Measurement Of Levels Of Liquids Or Fluent Solid Materials (AREA)

Claims (10)

  1. Organe de remplissage (1) pour le remplissage de récipients (2) avec un liquide (30), présentant un élément de remplissage à jet plein (10) pour le remplissage du récipient (2) avec un jet plein (3) et une sonde de niveau (4) pour déterminer le niveau de remplissage,
    la sonde de niveau (4) étant disposée sous l'élément de remplissage à jet plein (10) de telle sorte qu'elle soit située lors du remplissage dans le jet plein (3),
    caractérisé en ce que
    la sonde de niveau (4) présente un corps de sonde (40) au niveau de l'extrémité aval duquel est réalisé un bord de rupture d'écoulement (42) par lequel est réalisée, dans la région située en aval de celui-ci, une région essentiellement exempte de liquide, également dans la région d'un côté frontal du corps de sonde, cette région essentiellement exempte de liquide étant détectée par le biais de ses effets électriques, optiques ou techniques d'écoulement.
  2. Organe de remplissage (1) selon la revendication 1, caractérisé en ce que la sonde de niveau (4) est disposée de telle sorte qu'elle soit entourée par le jet plein (3) lors du remplissage, de préférence qu'elle soit située complètement dans le jet plein (3).
  3. Organe de remplissage (1) selon la revendication 1 ou 2, caractérisé en ce que le corps de sonde (40) se raccorde à un corps de soupape (14) de l'élément de remplissage à jet plein (10).
  4. Organe de remplissage (1) selon l'une quelconque des revendications précédentes, caractérisé en ce qu'au moins une partie de la sonde de niveau (4) est disposée en dessous d'une sortie de liquide (16) de l'élément de remplissage à jet plein (10).
  5. Organe de remplissage (1) selon la revendication 4, caractérisé en ce que le corps de sonde (40) s'étend à travers la sortie de liquide (16) de l'élément de remplissage à jet plein (10).
  6. Organe de remplissage (1) selon l'une quelconque des revendications précédentes, caractérisé en ce qu'au moins une partie de la sonde de niveau (4) est disposée de manière centrée par rapport à une sortie de liquide (16) de telle sorte que la sonde de niveau (4) soit située symétriquement dans le jet plein (3).
  7. Organe de remplissage (1) selon l'une quelconque des revendications précédentes, caractérisé en ce que la sonde de niveau (4) présente un dispositif de mesure de force (5) en liaison fonctionnelle avec le corps de sonde (40) pour la mesure de la force exercée sur le corps de sonde (40) par le jet plein (3).
  8. Organe de remplissage (1) selon l'une quelconque des revendications précédentes, caractérisé en ce que la sonde de niveau (4) présente au moins une électrode (54) pour déterminer le niveau, l'électrode (54) étant disposée de préférence à l'extrémité inférieure du corps de sonde (40) de la sonde de niveau (4), et l'électrode (54) étant disposée particulièrement préférablement en aval du bord de rupture d'écoulement (42) réalisé au niveau du corps de sonde (40).
  9. Organe de remplissage (1) selon l'une quelconque des revendications précédentes, caractérisé en ce que la sonde de niveau (4) présente au moins un capteur optique (56, 57) pour déterminer le niveau, le capteur optique pouvant de préférence mesurer une variation de l'indice de réfraction ou une variation de la transmission.
  10. Organe de remplissage (1) selon l'une quelconque des revendications précédentes, caractérisé en ce qu'au moins un capteur de pression (580) est prévu pour déterminer la différence de pression existant derrière un bord de rupture d'écoulement (42) d'un corps de sonde (40).
EP12196561.0A 2011-12-13 2012-12-11 Tête de remplissage pour remplissage de récipients Active EP2604572B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE201110056370 DE102011056370A1 (de) 2011-12-13 2011-12-13 Füllorgan zum Befüllen von Behältern

Publications (2)

Publication Number Publication Date
EP2604572A1 EP2604572A1 (fr) 2013-06-19
EP2604572B1 true EP2604572B1 (fr) 2016-02-24

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CN (1) CN103159155B (fr)
DE (1) DE102011056370A1 (fr)

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DE102016104185A1 (de) 2016-03-08 2017-09-14 Khs Gmbh Füllelement
CN107555382A (zh) * 2017-10-17 2018-01-09 新乡市恒星科技有限责任公司 一种定量润滑脂装瓶装置
CN110979773B (zh) * 2019-12-24 2022-04-29 安徽沛愉包装科技有限公司 一种非接触式液体高效灌装装置
CN110979772B (zh) * 2019-12-24 2022-05-13 安徽沛愉包装科技有限公司 一种非接触式液体灌装控制液位方法
CN111003230B (zh) * 2019-12-24 2022-05-03 安徽沛愉包装科技有限公司 一种负压法非接触式液体灌装控制液位方法
CN110979771B (zh) * 2019-12-24 2022-04-29 安徽沛愉包装科技有限公司 一种非接触式液体灌装装置
CN111003229B (zh) * 2019-12-24 2022-05-13 安徽沛愉包装科技有限公司 一种正压法非接触式液体灌装控制液位方法

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FR2800723A1 (fr) * 1999-11-09 2001-05-11 Gangloff Scoma Ind Bec de remplissage pour produit liquide
PT1860057E (pt) * 2006-05-24 2009-08-11 Sidel Holdings & Technology Sa Unidade de válvula para máquinas de enchimento com sonda de leitura de nível numa conduta electricamente isolante
CN201240825Y (zh) * 2008-05-29 2009-05-20 周数理 一种电极式控制液位灌装装置
DE102008029208A1 (de) 2008-06-19 2009-12-24 Krones Ag Freistrahlfüllsystem
DE102008032370B4 (de) * 2008-07-10 2018-08-02 Khs Gmbh Füllelement sowie Füllmaschine zum Füllen von Flaschen oder dergleichen Behältern
MX2011011914A (es) * 2009-05-11 2012-03-06 Sidel Spa Con Socio Unico Metodo y valvula de llenado.
DE102009055292A1 (de) * 2009-12-23 2011-06-30 Krones Ag, 93073 Messsonde zum Bestimmen eines Füllstandes einer Flüssigkeit

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EP2604572A1 (fr) 2013-06-19
CN103159155A (zh) 2013-06-19
DE102011056370A1 (de) 2013-06-13
CN103159155B (zh) 2015-10-21

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