DE102014103956A1 - Star pocket adjustment - Google Patents

Abstract

The invention relates to a web element for transporting containers with a web element comprising at least a first and a second starwheel with at least one container receptacle. In order to provide a web element with a particularly easily adjustable container receptacle, it is provided that a first adjustment device is designed and arranged such that the first starwheel and the second starwheel are circumferentially adjustable relative to one another by means of a rotary lever mounted on a first shaft about an axis of rotation.

Description

The invention relates to a web element for transporting containers with a web element plane consisting of at least one first and one second star wheel with at least one container receptacle and an adjusting device.

Such web elements are used in container treatment plants to carry containers, in particular, for example, bottles or cans with a container transport device through the container treatment plant. In the field of rotary railway elements, d. H. For example, in star conveyors in particular there is the problem that they must be replaced with different container diameters, since the container receptacles in the web elements are usually aligned only on a container diameter or similar container diameter.

From the DE 694 05 650 T2 star-shaped web elements are known with adjustable in size container receptacles. In this case, two superposed star wheels are shifted by means of a gear device against each other.

From the EP 1 663 824 B1 is a star conveyor with gripping arms known in which the gripping arms can be spread apart by means of a complex gear mechanism different far.

From the EP 2 447 194 A1 are star conveyor with adjustable container receptacles known in which by means of a screw, a third star wheel can be rotated in the direction of rotation relative to the Bahnelementbenen.

The known track elements have a particularly complex mechanism and are, for example, particularly difficult to access for manual adjustment. Also, the known star conveyor can be cleaned only with great expenditure of time. In addition, no star conveyor is known from the prior art, in which the container receptacles of more than one orbit element level are adjustable.

The invention is thus based on the object to provide a web element which solves the known problems.

The invention solves the problem by a web element for transporting containers with the features of claim 1. Advantageous developments of the invention are specified in the dependent claims.

The web element according to the invention comprises a web element plane consisting of at least one first and one second star wheel with at least one container receptacle and a first adjustment device which is designed and arranged such that the first star wheel and the second gear are mounted by means of a rotary lever mounted on a first shaft about an axis of rotation Star wheel in the circumferential direction are mutually adjustable, wherein a slotted guide for determining the movement of the first and / or second star wheel is arranged.

The controllable via the rotary lever and the slotted guide movement of the star wheels and the associated power transmission and determination of the direction of movement allow a mechanical particularly simple structural design of an adjustable web element. Due to the rotary lever also the ease of use and accessibility for the user is given.

Under a track element, a format part, i. H. a component which is designed to guide containers by a container transport system is understood. This can be in particular rotary web elements, for example star conveyors.

The track element plane is designed as guide planes for the containers, so that the containers, during transport through the track element, contact and are in contact with the track element plane, in particular with an outer edge of the track element plane. For this purpose, the web elements container receptacles, which, for example. Arcuate, d. H. are arranged as at least partially oval or round recesses in the orbital plane.

The Bahnelementbenen may consist of several components, in particular star wheels. For example, two star wheels can be arranged one above the other and form a track element plane. The star wheels can at their outer edge of the o. G. Have recesses.

In the embodiment of a single web element level by means of two star wheels, the superimposed recesses of the star wheels each form a container receptacle. By a mutual displacement (rotation) of the recesses, the distance between the recesses edges changed so that a recess edge of a first star wheel and a recess edge of a second star wheel each form the container receptacle. Consequently, the size of the container receptacle can be changed via a twisting movement of at least one starwheel.

Under a slotted guide is in particular a rotatable about a rotation axis A supported link element understood in which a backdrop is arranged, for example. As a slot-shaped Recess is formed with an arcuate and / or straight shape. In this case, the link element cooperate with a projecting into / through the gate link bolts such that a rotational movement of the link element is transmitted to the link pin. Depending on the embodiment and the number of connecting link bolts to be used, for example, a plurality of link elements and / or may be arranged in a link element of several scenes.

The web element according to the invention allows, for example, the simultaneous adjustment of the size of the container recesses of several Bahnelementbenen. The size adjustment can be carried out uniformly at each orbit element level or differently between the web element levels.

According to a development of the invention, the second star wheel is immovable and the first star wheel mounted in the circumferential direction movable. In this case, the second starwheel, for example, on a main body of the web element, for example, to be fixedly arranged on bearing rods, while the first starwheel is movable relative to the second starwheel. The storage can be made such that the first star wheel both right and left around, d. h., Can be rotated both clockwise and counterclockwise. In particular, it is mounted so that it can be moved back and forth.

Alternatively, for example, it is also possible to mount both interacting starwheels movably, so that both starwheels are moved during a rotational movement of the rotary lever. This makes it possible in particular to align the movement of the star wheels to a respective center of the container receptacles, so that the center of the container receptacles during the rotational movement of the star wheels performs no relative movement, but only the container receiving flanks are moved toward or away from each other.

In order to enable a particularly secure fixing of the set position of the two star wheels to one another, according to a development of the invention, it is provided that a latching unit is arranged for positioning the rotary lever.

The latching unit has, in particular, a journal and a perforated grid corresponding to the journal. The pin can be arranged on the rotary lever and the hole grid, for example, on a base body of the web element. The formation of the locking unit as a pin and Lochrasterung allows for vibration occurring during operation of the web element safe positioning of the rotary lever and thus the set position of the star wheels to each other (the container receptacle size).

In particular, in the case of web elements which are used in higher containers, it is often necessary to arrange more than one web element plane at which the container is guided. It is therefore provided according to a development of the invention that a second orbital plane is arranged with a third star wheel, in particular with a fourth star wheel.

Thus, for example, the first and second starwheels may form a starwheel pair representing a first (upper) orbit element plane, and the third and fourth starwheels form another pair of starwheels, representing a second (lower) orbit plane.

It is possible to arrange and form the Sternradpaare with the adjustment in such a way that both the first pair of star wheels and the second pair of star wheels are simultaneously adjusted via the adjusting. This can either be done in such a way that each of the first and the second star wheel or the third and the fourth star wheel are mutually adjustable. Alternatively, in each case one star wheel of each pair of star wheels can be mounted immovably and the other star wheel of the respective pair of star wheels movably.

The arrangement of only three star wheels can, for example, take place such that the first star wheel forms the first orbital plane and the third star wheel forms the second orbital plane and the second star wheel is arranged between the first and second orbital plane, whereby the size of the container receptacles of the respective orbital plane both on first as well as the second star wheel is adjustable.

For a particularly simple design and adjustment of railway elements with several Bahnelementbenen, eg. With two Bahnelementbenen and four star wheels, particularly preferably a connecting the first and the third star wheel connecting bolt is arranged. In this case, this is arranged such that it projects through a gate in the link element. By means of the sliding bolt, it is thus possible to transmit the rotational movement of the link element simultaneously on both Bahnelementbenen.

In order to continue to be able to use railway element with two orbit element levels also particularly flexible, it is possible to adjust the size of the container receptacles on the second track element level adjustable separately from the size of the container receptacles on the first path element level.

For this purpose, according to a development of the invention, it is provided that a second adjusting device is arranged, which has a second rotary shaft arranged on a second shaft and rotatable about a rotation axis, wherein by means of a rotational movement of the second rotary lever, the third star wheel and the fourth star wheel in the circumferential direction to each other are adjustable. It is thus possible to adjust both the size of the container receptacles arranged on the first web element plane and the size of the container receptacles arranged on the second web element plane separately from one another.

The second adjusting device can be designed in accordance with the first adjusting device and have a second link element with one or more links and one or more link pins. The arrangement of the second adjusting device can be carried out separately from the first adjusting device, so that in particular the second shaft is formed separately from the first shaft. It is particularly preferred, however, for the first shaft and the second shaft to have a common axis of rotation.

For this, the first shaft and the second shaft can be arranged one above the other in the longitudinal axis direction at least in sections. For this, the second wave, i. H. the at least partially disposed above the first shaft wave, be designed as a hollow shaft, which is attached to, for example, a pin of the first shaft. The second shaft may thus be rotatable relative to the first shaft.

In this case, the first shaft and the second shaft may be arranged to each other such that the first link guide and in particular the associated link element is arranged on the first shaft, while the second link guide and in particular the associated link element are connected to the second shaft.

This particularly easy to clean and assemble / disassemble configuration allows both the container receptacles on the lower track element level and the container receptacles on the upper track element level to be adjusted separately in size.

About the locking unit of the rotary lever which can be arranged for both the first rotary lever and the second rotary lever is also a fixed positioning and thus protection against inadvertent adjustment of the size of the container receptacles possible.

In particular, when using, for example, bottles with a largely uniform diameter over their height (longitudinal axis), a separate adjustment of the size of the container receptacles on the upper and lower path element level is not necessary. For this purpose, according to a development of the invention, the first rotary lever and the second rotary lever are formed lockable to each other. The locking can be done, for example, via a locking unit. Thus, for example, the first rotary lever may have a pin which is designed to engage in a correspondingly formed hole pattern in the second rotary lever.

For example, it is possible with locked rotary levers on the movement of the second rotary lever to take the first rotary lever, so that both the size of the upper container receptacles and the lower container receptacles is adjusted simultaneously.

According to a development of the invention, the axis of rotation A of the first and / or second adjusting device is arranged radially spaced from a rotational axis B of the web element. While the axis of rotation B of the web element is usually formed as a central axis of rotation of the web element, which allows spaced apart in the radial direction arrangement of the axis of rotation A for the adjustment allows a particularly simple structural design and operability of this. Thus, for example, the gate element can be arranged to be rotatable about the axis of rotation A, while the star wheels driven by it are rotatable about the axis of rotation B.

In order to achieve a corresponding compensation of the torque by means of the link guide, the link arranged in the link element is particularly preferably arranged offset (asymmetrical) with respect to the axis of rotation A. Also, for example, for turning two star wheels by means of a link element two scenes may be arranged in a gate element, which are each offset from the axis of rotation A.

Under offset formed is understood that the radial distance of the link to the rotation axis A is irregular. D. h., In the direction of the backdrop, the distance between the gate and the axis of rotation A changes permanently, the link (s) is in particular designed as a curved slot.

In the arrangement of two or more link elements, each with one or more scenes, in particular the arrangement of the scenes between the link elements of the first and second web element planes can be done differently. Thus, it is possible, for example, to arrange and form the scenes such that with a uniform angle of rotation of the first and second link element and the size of the Container recordings of the upper track element level and the lower track element level is adjusted evenly.

It is also possible, for example, the scenes in such a way that, for example, the size of the container receptacles in the lower track element level changes larger than the size of the container receptacles in the upper orbit element level with a uniform rotation angle of the first and second link element. Thus, it is possible to adjust the size of the container receptacles of the upper and lower Bahnelementbene individually and separately from each other.

The holes of the hole pattern and thus the adjustable positions have, in particular, a rotational angle distance of 3.5 ° from one another. Also, the holes of the hole grid, for example, be spaced so that with each snap possibility, a change in size of a container receptacles of 1 mm. Depending on the container size, however, other distances of the hole grid are possible.

Furthermore, the invention will be described in more detail with reference to exemplary embodiments. It shows:

1 shows schematically in a perspective view a first embodiment of a web element with two Bahnelementbenen having separately adjustable container receptacles;

2 shows schematically in a perspective cross-sectional view of the web element 1 ;

3 schematically shows in a perspective view of a track element level 1 - 3 ;

4 schematically shows in a plan view / cross-sectional view of the web element 1 to 3 ;

5 shows schematically in a perspective view a second embodiment of a web element with two Bahnelementbenen with adjustable container receptacles;

6 schematically shows in a plan view of the web element 5 ;

7 schematically shows a cross section of the web element 5 ;

8th schematically shows in a side view of the web element 5 ;

9 shows in a perspective view a third embodiment of a web element with two Bahnelementbenen with adjustable container receptacles;

1 schematically shows a perspective view of a first embodiment of a web element according to the invention 1 , The railway element 1 is designed as a star conveyor and for the transport of bottles (not shown here) provided. The railway element 1 has an upper track element plane 2 and a lower track element plane 3 on, which are arranged one above the other.

The railway element levels 2 . 3 are about three storage devices 28 with an upper and a lower body 21 . 29 connected (screwed here). Every situation device 28 has one of the upper and lower body 21 . 29 connecting bearing rod 30 (please refer 2 ) on. At every storage bar 30 is a first bearing bush 31 arranged at the lower orbital plane 3 is stored. Above the lower track element level is for storage of the upper track element level 2 a second bushing 32 arranged.

The upper track element level 2 consists of a first star wheel 4 and a second star wheel 5 (see also 3 ), each with a guide body 10 are connected. At every star wheel 4 . 5 are in the region of its outer edge partially oval recesses 6 educated. The under railway element level 3 is identically formed and consists of a third star wheel 11 and a fourth star wheel 12 , which also each with a guide body 10 are connected.

The star wheels 4 . 5 . 11 . 12 are above their respective leadership body 10 with the storage devices 28 connected. To the rotation of the star wheels 4 . 5 . 11 . 12 in the area of the storage device 28 ensure the guide body 10 arcuate guide slots 33 on, through which the bearing bars 30 protrude so that the guide body 10 are movably mounted on the bearing rods.

Each of the recesses 6 has (flat) recesses edges 7 . 8th on. The star wheels 4 . 5 are arranged one above the other, being in the region of their recesses 6 intersect in sections, ie partially overlap in the longitudinal axis direction (see 3 ), so that in each case a recess flank 7 of the first star wheel 4 with a recess flank 8th of the second star wheel 5 a container receptacle 9 form. About the adjustability of the first starwheel 4 opposite the second star wheel 5 are the respective recess edges 7 . 8th adjustable towards or away from each other so that the container receptacles 9 can be increased or decreased. The overlapping training of the star wheels 4 . 5 . 11 . 12 allows a particularly large contact surface of the recesses edges of the container.

Next is an adjustment 13 shown. The adjusting device 13 has a first rotary lever 14 on, in the longitudinal axis direction above a second rotary lever 15 is arranged. The first rotary lever 14 is for adjusting the third star wheel 11 and fourth star wheel 12 formed to each other. The second rotary lever 15 is accordingly for adjusting the first starwheel 4 and the second star wheel 5 formed to each other.

The first rotary lever 14 and the second rotary lever 15 are about a rotation axis A (see 2 ) rotatably mounted. Here is the first rotary lever 14 with a first wave 16 and the second rotary lever 15 with a second wave 17 connected. Consequently, also the first and the second wave 16 . 17 each rotatable about the axis of rotation A. This is the second wave 17 formed as a hollow shaft and at a pin-like end of the first shaft 16 arranged. Thus, the two waves 16 . 17 rotatable against each other.

Both at the first rotary lever 14 as well as the second rotary lever 15 is in each case at the end opposite to the respective shaft a latch unit 18 . 19 arranged. The catch unit 18 on the second rotary lever 15 is to engage a pin 20 in a perforated grid (not shown here) formed in the upper body 21 of the railway element 1 is arranged. The catch unit 19 at the first rotary lever 14 also has a pin (not shown), which is adapted to engage in one of the second rotary lever 15 arranged perforated grid 22 is trained.

The axis of rotation A is to a central axis of rotation B, around which the web element 1 rotates during operation, formed radially spaced.

To determine the movement of the first star wheel with respect to the second star wheel is on the second shaft 17 one with the first orbital plane 2 related first slide guide 23 arranged. The first slide tour 23 has a link element 24 with two scenes 25 (please refer 4 ) and is stuck with the second wave 17 connected. In every scenery 25 protruding, is a backdrop bolt 26a . 26b educated. Here is a first link bolt 26a with the guide body 10 the first star wheel 4 connected while a second link bolt 26b with the guide body 10 of the second star wheel 5 connected is.

The scenes 25 are each formed as an arcuate slot. Here is the radial distance (the center line) between the backdrop 25 and the axis of rotation A along the link path uneven. D. h., With the course of the arcuate slot, the distance between the backdrop changed 25 and the rotation axis A constantly. This makes it possible, despite a distance between the axis of rotation A and the axis of rotation B, a rotational movement of the star wheels 4 . 5 to cause the axis of rotation B, while the link element 24 (the scenes 25 ) rotates about the axis of rotation A.

In the area of the lower track element level 3 is one for the first slide tour 23 identically formed second slide guide 27 arranged. The second slide tour 27 is with the first wave 16 connected and points according to the first link guide 23 a backdrop element 24 with two scenes 25 on.

In each case one of the guide body protrude 10 the third star wheel 11 and one on the guide body 10 the fourth star wheel 12 arranged gate bolts 26a . 26b each in one of the scenes 25 the second slide tour 27 purely. By means of a movement of the first rotary lever 14 , thus becomes the second slotted guide 27 moved about the axis of rotation A, whereby the third star wheel 11 opposite the fourth star wheel 12 is rotated about the rotation axis B.

Due to the rotatability of the first shaft 16 opposite the second wave 17 about the same axis of rotation A, the first rotary lever 14 and the second rotary lever 15 be moved independently. As a result, the container receptacles 9 the upper track element level 2 different from the container receptacles 9 the lower track element level 3 adjustable. This is particularly advantageous when receiving, for example, conical bottles. Thus, it is possible to have an axially lower bottle portion (eg, bottle belly, ground-level area) larger in diameter than an axial, upper bottle portion (eg, bottle shoulder, section via sidecut, etc.) in the area of the lower web element level 3 just as secure to fix as the rather slender bottleneck in the upper rail element level 2 ,

4 shows the web element 1 - 3 schematically shown in a plan view and a partial cross section. The guide slots 33 in the leadership bodies 10 the first orbital plane 2 are also shown in dashed lines as the first link guide 23 ,

The storage bar 30 protrude through the guide slots 33 through, so the star wheels 4 . 5 . 11 . 12 with the guide slots 33 on the storage poles 30 rotatable about the axis of rotation B (thus, a cross shown).

The backdrop element 24 has two designed as an arcuate slot scenes 25 on. The scenes 25 are arranged offset about the axis of rotation A, that is, they are arranged asymmetrically, so that at each backdrop the radial distance between the backdrop 25 and the rotation axis A along the respective backdrop 25 constantly changed.

In a backdrop 25 the first slide tour 23 protrudes at the second star wheel 4 arranged gate bolts 26b , In the second backdrop 25 the first slide tour 23 protrudes at the second star wheel 5 arranged gate bolts 26a ,

The backdrop element 24 is with the second wave 17 connected and by a rotational movement of the second rotary lever 15 rotatable about the axis of rotation A. During the rotary movement, the link bolts become 26a . 26b by means of the scenes 25 postponed. The radii of the scenes and the radial distance from the axis of rotation A are matched to one another such that the first starwheel 4 in the opposite direction to the second star wheel 5 adjusted about the rotation axis B. This can be the size of the container recordings 9 at the upper web element level, regardless of the size of the container receptacles 9 at the lower track element level 3 be enlarged or reduced.

The second slide tour 27 is according to the first link guide 23 trained and over the first rotary lever 14 rotatable. Likewise, the guide slots 33 in the lower orbital plane 3 according to the guide slots 33 in the upper track element level 2 educated.

The simultaneous rotation of the first and second starwheel 4 . 5 or the third and fourth starwheel 11 . 12 ensure that both the container receptacle 9 at the lower track element level 3 as well as the container receptacle 9 at the upper track element level 2 regardless of the size of the container holders 9 each with a center point vertically above each other.

In addition, the possibility of the size of the container receptacles 9 the upper track element level 2 separate from the size of the container holders 9 the lower track element level 3 to set a particularly accurate adaptation to the respective to be carried by the web element container with different diameters.

The 5 - 8th show a further alternative embodiment of the web element according to the invention 1 , This railway element 1 is designed as a star conveyor and also knows an upper track element level 2 with a star wheel pair of a first and second star wheel 4 . 5 and a lower track element plane 3 with a star wheel pair of a third and fourth star wheel 11 . 12 on. The star wheels are completely flat without interlocking (overlapping). This will be the container shots 9 each of two receiving portions on the first and second starwheel 4 . 5 or on the third and fourth star wheel 11 . 12 educated.

In contrast to the embodiment of 1 - 4 are the guide slots 33 in this embodiment directly in the starwheels 4 . 5 . 11 . 12 arranged. The storage bar 30 connects accordingly a lower and upper body 21 . 29 with each other and protrudes through the guide slots 33 therethrough. To the star wheels 4 . 5 . 11 . 12 the respective pair of star wheels to rotate against each other is an adjustment 13 with a rotary lever 14 , a first wave 16 and a backdrop tour 23 arranged.

The scenery tour 23 has a link element 24 with two arcuate scenes 25 on. The two scenes 25 are offset from each other in the link elements 24 and about the rotation axis A of the shaft 16 arranged, whereby by means of a rotational movement of the shaft 16 about the rotation axis A, a rotational movement of the star wheels 4 . 5 . 11 . 12 around the rotation axis B is made possible.

To one by means of the rotary lever 14 To initiate initiated rotary motion on both pairs of starwheels are two link bolts 26a . 26b arranged each through a backdrop 25 extend. It connects a first link bolt 26a the second star wheel 5 with the fourth star wheel 13 and a second link bolt 26b connects the first star wheel 4 with the third star wheel 11 so that the of the gate element 24 on the link bolts 26a . 26b transmitted rotational forces directly on all four star wheels 4 . 5 . 11 . 12 Act.

Further, a latching unit (not shown here) is arranged, which the locking units 18 . 19 out 2 correspond. This is due to the wave 16 opposite end of a pin 20 arranged to engage in one of the upper body 29 arranged perforated grid 22 is trained. This allows the rotary lever 14 be securely fixed in one position, causing unintentional adjustment of the star wheels 4 . 5 . 11 . 12 is prevented.

Also in this embodiment, the axis of rotation A and the axis of rotation B are radially spaced from each other, wherein the asymmetrical arrangement of the scenes 25 about the rotation axis A, a rotation of the star wheels about the rotation axis B is made possible.

Alternatively, it is also possible, for example, the adjustment 13 with only one connecting bolt 26a . 26b form and not over the connecting bolt 26 associated star wheels in the area of the bearing rods 30 to fix. As a result, by means of the adjusting device 13 then only one of the star wheels 4 . 5 . 11 . 12 each pair of star wheels are rotated about the axis of rotation B.

9 shows a further alternative embodiment of the web element according to the invention 1 , The railway element 1 has an upper track element plane 2 with a first star wheel 4 and a lower track element plane 3 with a third star wheel 11 on. Between the first star wheel 4 and the third star wheel 11 may be a second star wheel (not shown here) on a guide body 10 (shown here as a dashed line) are arranged.

For adjusting the second star wheel with guide body 10 opposite the first star wheel 4 and in this case also the third star wheel 11 is an adjusting device 13 arranged. The adjusting device 13 has a rotary lever 14 on, which is rotatably mounted about a rotation axis A. At a first end of the rotary lever 14 is a link bolt 26a arranged. The scenery bolt 26a protrudes through one in the guide body 10 of the first star wheel 4 arranged arcuate backdrop 25 through and into one in the guide body 10 the second star wheel arranged straight backdrop 25 purely.

Further, a catch unit 18 arranged a pin 20 having, on the the guide bolt 26a opposite end of the rotary lever 14 arranged and corresponding to one in the guide body 10 of the first star wheel 4 arranged perforated grid 22 is trained.

During a rotary movement of the rotary lever 14 about the axis of rotation A, the second star wheel with respect to the first star wheel 4 and the third star wheel 11 twisted, so the size of the container shots 9 is changed.

The illustrated embodiments are not limiting. In particular, further embodiments are possible which have a combination of features of the embodiments shown above. For example, an embodiment according to 5 - 8th possible, the overlapping recess edges ( 1 - 4 ) having.

LIST OF REFERENCE NUMBERS

1

 track element

2

 upper track element level

3

 lower track element level

4

 first star wheel

5

 second star wheel

6

 Recess star wheel

7

 Recess flank first star wheel

8th

 Recess flank second starwheel

9

 container receptacle

10

 guide body

11

 third star wheel

12

 fourth star wheel

13

 adjustment

14

 first rotary lever

15

 second rotary lever

16

 first wave

17

 second wave

18

 catch unit

19

 catch unit

20

 spigot

21

 upper body web element

22

 hole pattern

23

 first slide tour

24

 link element

25

 scenery

26a

 setting bolt

26b

 setting bolt

27

 second slide tour

28

 storage devices

29

 lower body web element

30

 bearing rod

31

 first bearing bush

32

 second bearing bush

33

 guide slots

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 69405650 T2 [0003]
• EP 1663824 B1 [0004]
• EP 2447194 A1 [0005]

Claims (10)

Web element for transporting containers with - one of at least a first and a second star wheel ( 4 . 5 ) existing railway element ( 2 . 3 ) with at least one container receptacle ( 9 ), - a first adjusting device ( 13 ), which is designed and arranged such that by means of a first shaft ( 16 ) about a rotation axis (A) mounted rotary lever ( 14 ) the first star wheel ( 4 ) and the second star wheel ( 5 ) are adjustable in the circumferential direction to each other, and - a slotted guide ( 23 ) for determining the movement of the first and / or second starwheel ( 4 . 5 ). Lane element according to any one of the preceding claims, characterized in that in the circumferential direction of the first star wheel ( 4 ) immovable and the second star wheel ( 5 ) is movably mounted. Railway element according to one of the preceding claims, characterized in that a detent unit ( 18 . 19 ) for positioning the rotary lever ( 14 . 15 ) is arranged. Railway element according to one of the preceding claims, characterized in that a second orbital plane ( 3 ) with a third star wheel ( 11 ), in particular with a fourth star wheel ( 12 ) is arranged. Railway element according to one of the preceding claims, characterized in that one of the first and the third star wheel ( 4 . 11 ) connecting link bolts ( 26a . 26b ) is arranged. Railway element according to one of the preceding claims, characterized in that a second adjusting device ( 13 ) arranged one on a second shaft ( 17 ) and rotatable about an axis of rotation second rotary lever ( 15 ), wherein by means of a rotational movement of the second rotary lever ( 15 ), the third star wheel ( 11 ) and the fourth star wheel ( 12 ) are adjustable in the circumferential direction to each other. Railway element according to one of the preceding claims, characterized in that the first shaft ( 16 ) and the second wave ( 17 ) have a common axis of rotation (A). Railway element according to one of the preceding claims, characterized in that the first rotary lever ( 14 ) and the second rotary lever ( 15 ) are formed lockable to each other. Railway element according to one of the preceding claims, characterized in that the axis of rotation (A) of the first and or second adjusting device ( 13 ) radially spaced from a rotational axis (B) of the web element ( 1 ) is arranged. Railway element according to one of the preceding claims, characterized in that the radial distance of the link ( 25 ) is asymmetrical with respect to the axis of rotation (A).

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