EP2915774A1 - Filling unit for filling a filling product into a container - Google Patents

Abstract

The present invention relates to a filling element (1) for filling a filling product into a container, preferably in a beverage filling system, comprising a filling valve (2) which can be actuated by means of a control element (4) for dosing the filling product into the container to be filled and a throttle valve (3 ) for varying the filling product flow to be supplied to the filling valve (2), wherein the throttle valve (3) can be actuated by means of the control element (4) of the filling valve (2).

Description

Technical area

The present invention relates to a filling member for filling a filling product into a container, preferably for filling a beverage in a beverage filling plant.

State of the art

In beverage filling plants filling organs for filling a filling product are known in a container in which a filling valve is provided, by means of which a Füllproduktauslauf is opened and closed. The filling process for filling the container with the filling product is started and ended via the filling valve, so that the predetermined filling product volume, the predetermined filling weight and / or the predetermined filling level in the container to be filled is achieved. Various control and / or regulating mechanisms are known for this purpose, for example via the determination of a filling weight, via the determination of a filling level by means of a fill level probe and / or the determination of a filling volume, for example via a flow meter.

In order to be able to carry out the filling process product-effectively and as efficiently as possible, it is also known to control the flow of the filling product through the filling valve by means of a throttle valve. Accordingly, when the filling valve is open, the filling product flow which flows through the filling valve into the container to be filled can be controlled or regulated in order to provide a filling product stream adapted to the respective filling state of the container to be filled and appropriate to the respective filling product. Here, for example, it may be advantageous to provide a reduced filling product stream at the beginning of the filling process in order to reduce an initial foaming tendency of a filling product due to the then maximum drop height. In a main portion of the filling process, however, a maximum filling speed is achieved by a maximum product flow. At the end of the filling process is to achieve the highest possible accuracy of the respective filling target, for example, to achieve a predetermined filling product volume, a predetermined filling weight and / or a predetermined filling level, in turn filled with a reduced filling product stream. Such a variation of the filling product flow through the filling valve, despite the presence of phases with reduced Füllproduktstrom the filling process can be accelerated as a whole, so that up to 20% faster filling can be achieved in carbonated filling products with an increased Aufschäumneigung.

The filling valve and the throttle valve known filling members are usually controlled by two separate control drives. For a throttle valve diaphragm valves, for example, are common, whereas filling valves are often formed in the form of an axially out of a Füllventililsitz Füllventilkegels, which are actuated according to different control drives.

From the US 5,816,456 a filling member is known in which the filling valve and a throttle valve by two different drives are actuated separately from each other.

Also from the US 2009/0166386 A1 a filling valve is known in which by two different movements, which are applied via two different drives, a filling valve and a throttle valve are controlled.

Presentation of the invention

Starting from this known prior art, it is an object of the present invention to provide a filling member which provides a further simplified structure.

This object is achieved by a filling member having the features of claim 1. Advantageous developments emerge from the subclaims.

Accordingly, a filling member for filling a filling product into a container, preferably in a beverage filling plant, is proposed comprising an actuatable by means of a control filling valve for metering the filling product in the container to be filled into it and a throttle valve for varying the filler valve to be supplied to the filling product flow. According to the throttle valve by means of the control of the filling valve can be actuated. The fact that the throttle valve can be actuated by means of the control of the filling valve, can be dispensed with a separate control element for the throttle valve. As a result, the entire structure of the filling member can be simplified and reduce the form factor, since it dispenses with a separate control element for the throttle valve. By the common control of the filling valve and the throttle valve by means of a single control both valves can be driven by a common drive, whereby the complexity and the shape factor of the filling further reduced.

In addition to the reduction of the form factor can thus also achieve a savings in the necessary investments and the maintenance effort is also reduced by avoiding an additional control element and an additional drive. The necessary costs for the provision of the control of a second drive can be saved in this way.

In a preferred embodiment, the filling valve and the throttle valve are actuated separately from each other by means of the one control element and are preferably successively and / or independently operable. The possibility of separate operation, the entire functionality of the filling member is maintained even when using only one control. In this case, the knowledge is used that only the throttle valve for flow control must be actuated during the filling process with fully open filling valve, but can be dispensed with an actuation of the opening state of the filling valve in this phase. In other words, an actuation of the filling valve takes place only at the beginning and at the end of the filling process. During the filling process, however, the filling valve is not actuated, but remains in its open position. Accordingly, by the joint use of the control element, a separate control of the two valves within the scope of the filling process relevant area can be made possible.

By means of a corresponding design of the control element, the filling valve and the throttle valve can be designed to be openable and closable by means of the control element with opening speeds that are different from one another. In this case, it is particularly preferred to carry out the opening and closing of the filling valve as quickly as possible in order to enable a clean and splash-free filling process. Varying the flow rate of the fill product via the throttle valve may then be done at a lower opening speed be carried out in order to perform the control or regulation of the Füllproduktstroms gently and gently.

The control preferably comprises a rotary sleeve, a cam and / or a cam drive in order to achieve in a mechanically reliable and simple manner the opening and closing of the filling valve and the varying of the flow through the throttle valve.

Particularly preferably, the control has a first lift curve, which is coupled to the fill valve, and has a second lift curve, which is coupled to the throttle valve, wherein the first lift curve and the second lift curve preferably have a mutually different course. Thus, a separate control of the throttle valve and the filling valve can be achieved by an actuation of the single control element.

The first lift curve and the second lift curve are preferably designed differently in order to allow independent opening and closing of the filling valve and the throttle valve. In a particularly preferred embodiment, the lifting curve for the filling valve is designed so that it allows a rapid complete opening of the filling valve at the beginning of the respective control movement of the control. After the filling valve has been completely opened, the lifting curve changes into a neutral region without a gradient, so that the position of the filling valve remains unchanged even with a further movement of the control element. The actuation of the throttle valve can be carried out either parallel to the opening operation of the filling valve, or only when the filling valve is fully open and has passed according to the lift curve of the filling valve in a neutral range. The lift curve of the throttle valve can then be designed so that a proportional variation of the flow of the filling product through the throttle valve to the filling valve out by a corresponding actuation of the control is possible without this having an influence on the position of the filling valve. Thus, first the filling valve can be opened and then the flow of the filling product through the filling valve by means of a corresponding variation of the throttle valve proportional to a corresponding control movement of the control can be achieved so that an optimized filling behavior over the entire filling is achieved away.

On the configuration of the lift curves can be achieved by means of a single control drive, a separate control of filling valve and throttle valve accordingly, and in particular by performing a single, continuous control movement, which is applied, for example, to a rotary sleeve. Accordingly, the control drive can also be designed in a simple form, for example in the form of a rotary drive, a stepper motor, a servomotor or a linear drive, in which only the respective rotational position or linear position of the control is traceable adjustable.

In a further development, the control preferably has a rotary sleeve, which is coupled to both the filling valve and the throttle valve, and which provides a first lift curve, which is an opening of the filling valve in an opening portion of the first lift curve and a lingering of the filling valve in the open State in a neutral portion of the first lift curve allows, and provides a second lift curve, which allows in a minimum opening portion of the second lift curve a moderate opening of the throttle valve and an adjustment of the flow through the throttle valve in a flow control section of the second lift curve. Particularly preferably, the flow control section of the second lift curve corresponds in the circumferential direction with the neutral region of the first lift curve. Preferably, the flow control portion of the second lift curve also allows for the rotation of the rotary sleeve proportional adjustment of the flow through the throttle valve.

In a further development, the control comprises a rotary sleeve, which is divided into two and which has a first lift curve in a first section and a second lift curve in a second section, wherein the first section and the second section with each other via a clutch, preferably a magnetic clutch, a slip clutch or a different type of coupling, as a unit rotatable connectable. By coupling a further decoupling of the two lift curves can be achieved from each other, whereby the rotary sleeve can be adapted to the respective phases of the filling process.

In order to be able to adapt an adaptation of the control element to the respective filling element or to the respective wear state, the first lift curve and the second lift curve are adjustable relative to each other to compensate for manufacturing tolerances and / or wear and particularly preferably in the circumferential direction and / or in the longitudinal direction adjustable.

Brief description of the figures

• Figur 1 eine schematische Schnittdarstellung durch ein Füllorgan in einem Ausführungsbeispiel.

Preferred further embodiments and aspects of the present invention will be explained in more detail by the following description of the figure. Showing:

• FIG. 1 a schematic sectional view through a filling member in an embodiment.

Detailed description of preferred embodiments

In the following, preferred embodiments will be described with reference to the figure.

FIG. 1 shows a schematic sectional view through a filling member 1 for filling a filling product in a below a Füllproduktauslaufes 10 to be arranged container in a beverage filling plant. The filling member 1 shown is an open-jet filling member by means of which a filling product in the free jet can be filled into a container to be filled.

The filling member 1 has a filling valve 2, which serves for metering the filling product into the container to be filled. The filling valve 2 has a valve plug 20, which is sealingly received in a valve seat 22, and which can be lifted out of the valve seat 22 via a lifting linkage 24 in order to allow the flow of the filling product into the container to be filled. The Füllproduktauslauf 10 is designed accordingly so that a leakage of the filling product is made possible in the free jet.

Thus, the filling valve 2 is in the open state in which the valve plug 20 is lifted out of the valve seat 22, according to the filling product outlet 10 so freely that over the filling valve 2 pending filling product, which is in particular taken up in the interior 12 of the filling member 1 via the Füllproduktauslauf 10 is dispensed in the container to be filled.

The filling member 1 further has a throttle valve 3, which in the illustrated embodiment has a valve cone 30 which is sealingly received in a valve seat 32. The valve cone 30 can be lifted out of the valve seat 32 by means of a lifting linkage 34 in order to produce a product feed 14 to the interior 12 of the filling element 1 with varying cross-section and thus with varying filling product flow of the filling product into the Interior 12 to open and close. The product feed 14 is connected in a suitable manner to a fill product reservoir (not shown here), for example in the case of a rotary filler with a ring bowl or a central bowl of the respective filler carousel.

The flow of filling product supplied via the filling product inlet 14 of the filling member 1 can be varied accordingly by varying the position of the valve cone 30 relative to the valve seat 32 of the throttle valve 3, so that the filling product stream flowing from the filling product inlet 14 into the interior 12 of the filling member 1 , can be adjusted via the throttle valve 3.

In order to enable a product-sparing and efficient filling process, the throttle valve 3 is initially slightly opened at the beginning of each filling of a container to be filled in order to allow a minimum product flow into the interior 12 of the filling member 1. Then, the filling valve 2 is opened as quickly as possible in order to direct the over the filling valve 2 in the interior 12 pending filling product in the container to be filled. A quick opening of the filling valve 2, on the one hand, ensures a rapid start of the filling process and, on the other hand, ensures that the filling product at the filling product outlet 10 exhibits a flow behavior which is as defined as possible.

At the in FIG. 1 filling member 1 shown is the Füllproduktauslauf 10 is designed as a free jet valve, wherein the filling jet preferably substantially parallel to the outer walls of the Füllproduktauslaufes 10 and after leaving the Füllproduktauslaufs 10 without further guidance and external influence in the container to be filled expires. If the filling valve 2 is opened too slowly, any asymmetries, fiber constituents or other sediments on the valve seat 22 and / or on the valve cone 20 can cause a lateral deflection of the filling product jet leaving the filling product outlet 10, which leads accordingly to spraying of the filling product and correspondingly Outside of a arranged underneath, can fill container to pollute. The rapid opening of the filling valve 2 is therefore conducive to providing a qualitative filling process.

After complete opening of the filling valve 2 can then be varied by varying the position of the valve plug 30 of the throttle valve 3 of the actually in the container to be filled filling product flow.

In order to achieve the fastest possible filling of a container to be filled, the filling product flow can be varied by means of the throttle valve 3 so that, for example, when filling carbonated drinks, the foaming of the product is reduced in the container to be filled. For this purpose, the throttle valve 3 can initially provide a minimum current or a lower current at the beginning of the filling process in order to reduce the foaming of the filling product to be filled in the then still empty container to be filled.

At the beginning of the filling process, the drop height of the filling product in the then still empty container to be filled is also a maximum, so that there is also a particularly high Aufschäumneigung particular of a carbonated filling product. After reaching a minimum filling in the container to be filled, which is determined, for example, either via a flow meter, over a timing and / or on the position of the container to be filled on the pitch circle, the Füllproduktstrom can be maximized by a corresponding complete opening of the throttle valve 3, In order to achieve in the main phase of filling a maximum Füllproduktstrom and thus the fastest possible filling. Towards the end of the filling process, when a predetermined filling product volume, a predetermined filling product level and / or a predetermined filling weight is to be achieved, the filling product flow can be reduced again by a corresponding partial closing of the throttle valve 3 in order to maintain a precise filling end and thus the time of Closing the filling valve 2 to simplify. If the time has come to end the filling process, then the filling valve 2 is closed again as quickly as possible. Again, the fastest possible closing of the filling valve 2 leads to an improved filling result, since during the closing the tendency to spatter can be reduced.

In order to apply in the illustrated embodiment, the corresponding opening and closing operations on the respective lifting linkage 24, 34 on the filling valve 2 and the throttle valve 3, a control in the form of a rotary sleeve 4 is provided, which for driving both the filling valve 2 and the throttle valve. 3 serves. The rotary sleeve 3 for this purpose comprises a first stroke curve 40, which in FIG. 1 is schematically indicated at a lower end of the rotary sleeve 3 and which is coupled to the lifting linkage 24 of the filling valve 2. For this purpose, a pin 26 is provided on the lifting linkage 24 of the filling valve 2, which engages in the lifting cam 40 and which in a rotation of the rotary sleeve 4 in accordance with a raising or lowering of the lifting linkage 24 and thus of the valve plug 20 provides.

The lift curve 40 points in the in FIG. 1 shown embodiment, at least one opening portion 400, which viewed in the direction of rotation of the rotary sleeve 4 has a steep slope. At this opening portion 400 is followed by a neutral portion 402, in which the lifting cam 40 is substantially parallel to the circumferential direction of the rotary sleeve 4, and correspondingly has no slope.

In this way, by a rotation of the rotary sleeve 4 about its axis in the opening portion 400 of the lifting cam 40, a fast opening of the filling valve 2 can be achieved. In the neutral section 402 of the lift curve 40 holding the open position of the filling valve 2 is achieved without a further variation of this position, even with a further rotation of the rotary sleeve 4. In other words, the lift curve 40 in the neutral section 402 against further rotation of the rotary sleeve 4th neutral, so that no movement of the valve plug 20 takes place.

Also, the throttle valve 3 and the lifting linkage 34 of the throttle valve 3 is coupled via a pin 36 with a arranged in the upper region of the rotary sleeve 4 Hubkurve 42. Accordingly, an opening of the throttle valve 3 can be achieved by a rotation of the rotary sleeve 4. For this purpose, the lifting cam 42 is divided in the embodiment shown in at least two different sections, namely in a minimum opening portion 420, which allows a moderate opening of the throttle valve 3 by a moderate slope of the lift curve 42, and in a flow control section 422, which a stronger opening of the throttle valve 3 allows for a continued rotation of the rotary sleeve 4. In the flow control section 422, the lift curve 42 has a greater pitch than in the minimum opening section 420.

The flow control portion 422 of the lift cam 42 is disposed in a portion of the rotary sleeve 4 in the circumferential direction, which correlates with the neutral portion 402 of the lift cam 40. Thus, the filling valve 2 is in the fully open position and the throttle valve 3 can be varied by rotation of the rotary sleeve 4 proportional to the rotation.

Accordingly, a rapid opening of the filling valve 2 can be achieved with simultaneous moderate opening of the throttle valve 3 by a rotation of the rotary sleeve 4, and upon reaching the neutral section 402 of the lifting curve 40 of the filling valve 2 can be controlled by the further rotation of the rotary sleeve 4 in accordance with the flow of the filling product through the throttle valve 3 at a complete opening of the filling valve. Thus, both the filling valve 2 and the throttle valve 3 by means of the actuation of a single control element, namely the rotation of the single rotary sleeve 4, driven and operated separately.

The lifting linkage 24 of the filling valve 2 and the lifting linkage 34 of the throttle valve 3 are biased by a spring 5 against each other. The spring 5 serves to achieve a defined position of the respective pin 26, 36 in the respective stroke curve 40, 42, so that a defined adjustment of the respective Füllproduktflüsse at the filling valve 2 and the throttle valve 3 can be achieved when the rotary sleeve 4 accordingly is rotated. By providing the biasing spring 5, therefore, a hysteresis in a change in the direction of rotation of the rotary sleeve 4 can be avoided, and so a precise variation of the valve position of the throttle valve 3 can be achieved.

In this way it is possible to actuate the filling member 1 both with respect to the filling valve 2 and with respect to the throttle valve 3 via a single drive, wherein the single drive then acts in the embodiment shown on the control in the form of the rotary sleeve 4.

The drive is particularly preferably such an actuator by means of which the respective rotational position is uniquely approachable. For this purpose, in order to exploit the full potential, preferably a positionable drive is used, such as a stepper motor, or a servomotor or, in other embodiments, a linear motor, by means of which a control signal of a central control are transferred to a unique position of the rotary sleeve 4 can.

The transmission of the torque applied by the respective drive to the rotary sleeve 4 can be achieved for example via a toothed belt, which is connected to the output of the drive and the rotary sleeve 4. In a further preferred embodiment, a transmission of the torque from the output of the drive, which comprises, for example, a pinion, be passed to a rack, and be transferred from the rack in turn to a present on the rotary sleeve 4 pinion. The rack of such an embodiment can also be driven directly via a linear motor.

In a further variant, the drive can rotate the rotary sleeve 4 via a worm gear. A drive via a bevel gear of the output of a rotating drive on a connected to the rotary sleeve 4 bevel gear can provide a reliable connection.

Another possibility, the rotary sleeve 4 or even a control in the in FIG. 1 to drive shown embodiment, can be achieved via a flexible connection and the transmission of tensile forces, for example via a wire, tape or cord.

In the embodiment shown, the biasing spring 5 is designed so that it biases the filling valve 2 and the throttle valve 3 respectively in the closed position. In a variant, the filling valve 2 and / or the throttle valve 3 can seal the other way to the variant shown, so that a corresponding biasing spring 5 would then apply their power to train to force filling valve and throttle valve in the sealed position.

A hygienic sealing of the filling valve 2 with respect to the drive is achieved here via a bellows 60, which achieves a corresponding seal between the movable components, in particular the lifting linkage 24 and the valve cone 20 with respect to the housing regions of the filling member 1. Another bellows 62 is provided in the region of the throttle valve 3, which also achieves a seal of the axially movable parts relative to the housing of the filling member 1.

The lifting linkage 24 of the filling valve 2 as well as the lifting linkage 34 of the filling valve 3 are indeed held axially displaceably on the filling member 1, but are not rotatable. This can be achieved, for example, via a profiling of the respective lifting linkage 24, 34, which is guided in a correspondingly corresponding profile on the housing of the filling element 1, so that the rotational movement of the rotary sleeve 4 can be converted directly into an axial movement of the lifting linkage 24, 34.

The rotary sleeve 4, however, is not held axially displaceable in the filling member 1, but is rotatable about its axis of rotation. A corresponding bearing ensures that the rotary sleeve 4 can not move in the axial direction, so that here too an efficient transmission or recording of the respective forces is possible.

The two lifting curves 40, 42 of the control must be matched to each other in order to carry out the respective opening and closing movements of the filling valve 2 and the throttle valve 3 coordinated. To achieve this, in a particularly preferred embodiment, the rotary sleeve 4 may be divided, for example, to allow for the compensation of tolerances, a separate adjustment of the respective lift curves 40, 42 relative to each other. Here, the lifting curves 40, 42 can be adjusted to each other both in the direction of rotation and in the axial direction, and then set for further operation. In this way, wear and tear can be compensated by re-adjustment of the rotary sleeve 4.

The two parts of the rotary sleeve 4 may be coupled to each other in a further preferred embodiment via a clutch, so that when reaching a certain rotational position of the lift curve 40 of the filling valve 2 opens a magnetic clutch or a slip clutch or a different kind of clutch and only the second lift curve 42 is further rotated to actuate the throttle valve 3. When reversing the direction of rotation is correspondingly the lower lift curve 40 taken on reaching the coupling position and a corresponding engagement again, so that then closing the filling valve 2 can be achieved. In such an embodiment can be dispensed with the neutral portion in the lifting curve 40 of the filling valve 2, since the lower part of the rotary sleeve 4 then remains in the fully open position of the filling valve 2.

The filling member 1, as it is in FIG. 1 is shown and it is described above in different variants, it makes it possible to drive both the filling valve 2 and the throttle valve 3 separately and substantially independently of each other via a single control and thus also by means of a single drive. In particular, it is possible to open the filling valve 2 and after a complete opening of the filling valve 2, the throttle valve with the same control and the same drive still proportional and independent of the filling valve 2 to control.

Where applicable, all individual features illustrated in the individual embodiments may be combined and / or interchanged without departing from the scope of the invention.

LIST OF REFERENCE NUMBERS

1

Filling head

10

Füllproduktauslauf

12

inner space

14

Füllproduktzulauf

2

filling valve

20

shuttle

22

valve seat

24

lifting linkage

26

pen

3

throttle valve

30

shuttle

32

valve seat

34

lifting linkage

36

pen

4

rotating sleeve

40

stroke curve

42

stroke curve

400

opening section

402

neutral section

420

Minimum opening section

422

Flow control section

5

biasing spring

60

bellow

62

bellow

Claims (13)

Filling device (1) for filling a filling product into a container, preferably in a beverage filling system, comprising a by means of a control (4) operable filling valve (2) for metering the filling product into the container to be filled in and a throttle valve (3) for varying the Filling valve (2) to be supplied Füllproduktstroms,
characterized in that
the throttle valve (3) by means of the control element (4) of the filling valve (2) is actuated. Filling element (1) according to claim 1, characterized in that the filling valve (2) and the throttle valve (3) are actuated separately from each other by means of the one control element (4) and preferably successively and / or independently operable. Filling device (1) according to claim 1 or 2, characterized in that the filling valve (2) and the throttle valve (3) by means of the control element (4) with mutually different opening speeds can be opened and closed. Filling element (1) according to one of the preceding claims, characterized in that the control element has a rotary sleeve (4), a cam disc and / or a cam drive. Filling device (1) according to claim 4, characterized in that the control element has a first lift curve (40), which is coupled to the filling valve (2), and a second lifting cam (42), which is coupled to the throttle valve (3) , wherein the first lift curve (40) and the second lift curve (42) preferably have a mutually different course. Filling device (1) according to claim 4 or 5, characterized in that at least one lifting cam (40) has a neutral portion (402) in which no opening or closing movement of the filling valve (2) or the throttle valve (3) takes place. Filling element (1) according to one of the preceding claims, characterized in that the control element has a rotary sleeve (4) which is coupled both to the filling valve (2) and to the throttle valve (3) and which has a first lifting cam (40). provides, which allows an opening of the filling valve (2) in an opening portion (400) of the first lift curve (40) and a retention of the filling valve (2) in the open state in a neutral portion (402) of the first lift curve (40), and a second lift curve (42) is provided, which in a minimum opening section (420) of the second lift curve (42) moderately opening the throttle valve (3) and adjusting the flow through the throttle valve (3) in a flow control section (422) of the second lift curve (422) 42). Filler (1) according to claim 7, characterized in that the flow control section (422) of the second lift curve (42) in the circumferential direction with the neutral region (402) of the first lift curve (40) corresponds. Filling device (1) according to claim 7 or 8, characterized in that the flow control section (422) of the second lifting cam (42) allows a rotation of the rotary sleeve (4) proportional adjustment of the flow through the throttle valve (3). Filling element (1) according to one of the preceding claims, characterized in that the control element comprises a rotary sleeve (4) which is divided into two and which has a first stroke curve (40) in a first section and a second stroke curve (42) in a second section in which the first section and the second section can be connected to one another in a rotatable manner as a unit via a coupling, preferably a magnetic coupling, a slip clutch or a different type of coupling. Filling device (1) according to one of the preceding claims, characterized in that the first lifting cam (40) and the second lifting cam (42) are adjustable relative to each other to compensate for manufacturing tolerances and / or wear, preferably in the circumferential direction and / or in the longitudinal direction are adjustable , Filling member (1) according to one of the preceding claims, characterized in that the control drive is a positionable drive, preferably a stepper motor, a linear drive and / or a servomotor. Filling element (1) according to one of the preceding claims, characterized in that a free-jet filling valve designed as a filling product outlet (10) is provided.

Images