The present application claims the benefit of priority of German Application No. 102011088096.8, filed Dec. 9, 2011. The entire text of the priority application is incorporated herein by reference in its entirety.
The disclosure relates to a device for transferring labels in a labeling machine and to a corresponding method.
In the labeling of containers, in particular in cold glue labeling, there are many variants for the combination of label feeders, i.e. pallet units, bottle carousels with the containers to be labeled, and the transfer units used in-between, i.e. gripper cylinders. In particular, the pitch of the bottle carousel, i.e. how many bottles or containers per angular element are to be labeled on the carousel, the pitch of the feeder, i.e. how many transfer positions and thus pallets per angular element are provided, have an influence on the pitch of the transfer unit, i.e. the gripper cylinder, to be selected. Here, the label length of the labels to be transferred also plays a decisive role. In prior art, when the label length is changed, the gripper cylinders also must be changed, and often the complete gripper cylinder unit must be exchanged. One problem here is that the synchronization of the three units, that means the pallet rotor/feeder, the gripper cylinder unit and the bottle carousel, must be ensured, so that the containers can be labeled with the desired labels at a provided speed.
DE 29 05 376 shows a transport starwheel for bottles with a rotatingly driven support at which several conveyor holders are provided, wherein the conveyor holders can be swiveled relative to the support by means of a stationary control cam, so that one can allow for a predetermined pitch in the running-in area and another predetermined pitch in the discharge area. Independent of the control cam, the smallest pitch is determined only by the stops of the conveyor holders by elastic means, and several bottle diameters can be driven with one single cam shape.
In view of prior art and the above-discussed problems, it is one aspect of the present disclosure to decouple the dependency of the gripper cylinder pitch from the pallet control and pitch and to thus reduce the variants.
The disclosure includes a device for transferring labels in a labeling machine with at least two retaining elements for retaining labels, the retaining elements being mounted offset in the circumferential direction around a gripper cylinder axle of a gripper cylinder, wherein the device comprises mechanical control means which are configured to vary the relative speed between the retaining elements in the circumferential direction of the gripper cylinder.
The transfer of labels from pallets onto the gripper cylinder can be carried out thereby in a constant manner. The gripper settings of the retaining elements at the gripper cylinder only have to be matched, that means adjusted, once, for example with respect to a pallet setting. After the adjustment, these gripper cylinder settings can remain practically unchanged. The retaining elements of the gripper cylinder perform a reduction motion relative to each other. By this, for example, the retaining elements of the gripper will change their relative speed with respect to each other in the circumferential direction. The change of speed is accompanied by accelerations or delays occurring relatively to each other. These can be performed to take up the movement of the pallets. Here, the retaining elements are typically mounted at the outer periphery of the gripper cylinder and have essentially the same distance from the axle of the gripper cylinder. In other words, the relative motion of the retaining elements in the circumferential direction of the gripper cylinder changes with respect to the rotation of the gripper cylinder around the gripper cylinder axle which remains essentially unchanged. This results, in the form of a roll-off movement, in the advantage that the labels can be constantly pulled off from the pallet, even with different label lengths. This furthermore results in the advantage that in particular even very short labels can be still processed, which could hardly be done with a conventional gripper cylinder. The reduction of a reduction motion to the gripper cylinder furthermore permits to better process labels that are susceptible to tearing. Up to now, this problem was allowed for by an additional special rotation of the pallet at the transfer point, for which a considerable amount of calculation and control efforts was necessary and optionally control cams had to be exchanged.
In the device, the mechanical control means can comprise, for example, a control cam and a circular path.
By the use of specified control cams, the mechanical means can be adapted to the requirements of the device and the labeling machine in many ways and robustly.
In the device, the retaining elements can comprise at least two elements which are connected to each other in a lever type fashion, i.e. like levers, about an axle which is essentially in parallel to the gripper cylinder axle, the upper element being configured to grip labels and be guided on the circular path, and the lower element being guided on the control cam.
By the division into a lower element and an upper element, proportions of motion in the circumferential and radial directions can be decoupled.
In the device, the lower element can comprise a toggle lever which is, for example, angled, and a cam roller support with at least one cam roller which is configured to roll along the control cam.
Suited control cams which are adapted to the labeling machine can be installed. The lower element can follow the control cams with a toggle lever, which is for example angled at a fixed angle. For this, cam roller supports can hold one or several cam rollers which follow the control cams inside and/or outside.
The upper element of the device can comprise at least one lever element which is configured to be movable about an axis which is essentially parallel to the gripper cylinder axle.
The upper element can typically comprise a slide with at least one guide roller, such that the upper element is guided on the circular path.
The slide can thereby follow the circular path with one or several guide rollers. The upper element can comprise at least two parts which are connected with a quick-lock element, so that the slide is exchangeable as a front part and the rear part remains at the retaining element.
This results in the advantage that in case of a change, only one part of the upper element of the retaining element must be changed, while the part of the upper element located radially further inside can remain at the device, thereby saving time and facilitating maintenance works.
In the device, each retaining element can preferably have a separate drive, for example a servomotor, so that the position of the retaining element can be adjusted by means of the servomotor.
By means of a drive, for example a servomotor, the position of the retaining element can be adjusted. In particular after a change of labels, the gripper cylinder can be rotated relative to the pallet control in a suited manner, so that the new label can be gripped again at a desired transfer point. The servomotor permits a simple and precise and controllable adjustment of a thus defined new basic position of the retaining element of the gripper cylinder.
In the device, the upper element of the retaining elements can comprise at least one anvil element, one pressing pad, and along the anvil element, at least one gripper finger which can be adjusted between a grip and a release position with respect to the anvil element. The positions of the gripper finger can be controlled by further mechanical or electric control means. For example, a further mechanical control cam can be used for controlling the gripper fingers.
The mentioned elements are typically mounted in the front part of the upper element/slide of the retaining element which is located radially further outside. Here, the reduction function of the gripper cylinder permits that only an essentially straight anvil rail is required. Equally, only one finger variant is required as only one straight anvil must be employed. Furthermore, the gripper fingers and the anvil rails do no longer have to be adjustable, whereby simplifications in view of the construction can result. This gives rise to possibilities of simplification which can lead to savings of time and costs.
In the device, the circular path guidance of the upper element can comprise a support board, which is configured to rotate practically with constant rotation.
The support board can perform an essentially constant rotation, while the reduction function can be performed by the retaining elements relative to each other.
The retaining elements of the device can be interconnected such that they can be exchanged coherently.
As an alternative, the retaining elements of the device can be designed such that they can be exchanged individually.
If in view of the bottle carousel, a change of the gripper elements must be effected, these can consequently be exchanged or replaced either as a complete unit, or individual retaining elements can be exchanged in a suited manner. Here, the control cams can remain as they are.
The disclosure furthermore includes a method of transferring labels in a labeling machine with a device as described above; with a pallet rotor with several pallets which are provided in a first pitch at the pallet rotor; wherein the pallet rotor is rotatable about an axis which is essentially parallel to the gripper cylinder axle; with a container carousel with several rotary tables with containers which are provided in a second pitch; wherein after the acceptance of a label from the pallet by the retaining elements, the retaining elements are adjusted to the second pitch of the container carousel by changing the relative speed between the retaining elements in the circumferential direction of the gripper cylinder.
By changing the relative speed between the retaining elements in the circumferential direction of the gripper cylinder, the distance between the retaining elements on the periphery of the first pitch corresponding to the pallet rotor is thus adapted to the second pitch corresponding to the container carousel by the method.
In the method, the basic position of the retaining element can be adjustable relative to a pallet, so that labels of different lengths are gripped essentially at the same point.
So, the transfer point in the transfer of labels from pallets of the pallet rotor to the retaining elements of the gripper cylinder can remain essentially unchanged. Only the switch point in the label discharge to the containers must be optionally adjusted again, in case of a changed label length, if the label is to be transferred centrically onto a container.
The subject matter of the disclosure will be illustrated by way of example with reference to the following drawings.
In the drawings:
In
Between the pallet rotor 7 and the bottle carousel 9, a device 11 corresponding to the present disclosure is provided.
Each retaining element 15 comprises an anvil element 29 which can comprise a suited anvil rail and a pressing pad with an optionally suitably worked surface, and at least one gripper finger 27. The gripper fingers 27 can grip a label E by gripping, for example, an edge of the label in a suited manner and pressing it against the anvil element 29. The anvil elements 29 with pressing pad and gripper fingers 27 are essentially located at the outer periphery of the device 11. The gripper fingers 27 show two different positions of their functions. One position with reference numeral 27a, see
In
The changes of speed on the periphery of the gripper cylinder 11 in
It will be understood that, while in
It will be understood that the features mentioned in the above described embodiments are not restricted to special combinations but can also be possible in any other combinations.
Number | Date | Country | Kind |
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10 2011 088 096 | Dec 2011 | DE | national |
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Entry |
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German Search Report for 102011088096.8, dated Apr. 24, 2012. |
European search report for EP12 19 1103, dated Mar. 13, 2013. |
Number | Date | Country | |
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20130146203 A1 | Jun 2013 | US |