The invention relates to a device for receiving and holding a surface element roll, in particular a deep-drawing film roll, so as to process it in a packaging machine by unrolling the surface element and introducing the surface element into the packaging machine, comprising an axle to be incorporated into the surface element roll on its rotational axis of symmetry. The invention further relates to a packaging machine for packing packaging goods in surface element packages.
Foodstuffs or also inorganic products are routinely offered to consumers in small packages. These small packages are often designed as surface elements, wherein a base film can be present, on which the foodstuffs or other packaging goods are placed. An additional surface element is subsequently placed on the base film, for example a film is sealed on, so as to in this respect generate a liquid- and gas-tight package. The surface elements used can be films or paper webs, for example.
The surface elements used for the packages are processed in packaging machines. To this end, the surface elements are supplied in the form of surface element rolls. Precisely a surface element roll, for example for a base film, can here have a larger thickness, and a correspondingly rolled-up surface element has a corresponding volume. Such surface element rolls are already referred to as jumbo rolls.
As a rule, a base film for packages produced with a packaging machine is a deep-drawing film. This film is deep-drawn in the packaging machine, so that individual depressions form for receiving foodstuffs or other objects. This film is thus to be introduced into the packaging machine at the start of processing. Packaging machines routinely have an elongated structural design, which actually can have an extension of 10 or more meters. In several packaging machines, supplying a deep-drawing film and supplying the packaging goods to be filled into the packages here takes place via one and the same inlet side of a packaging machine. This impedes the supply of the deep-drawing film, with the introduction of the new surface element roll being difficult in particular. This introduction of the new surface element roll is in part still handled manually in prior art, in that an empty surface element roll is removed from the packaging machine and a new surface element roll is provided. Incorporating the axle like this is difficult due to the high weight of the axle.
It is then often the case that a film is unrolled and the film is introduced into the packaging machine with the film horizontally aligned. The film is exposed to contaminants in the room air, and if the packaging good is then also supplied above the film, the surface element could potentially become soiled by the product. In addition, the film can become soiled due to cleaning processes and the cleaning agents used in the latter. This leads to contamination in packages to be produced, which can also hamper the sealing of another film onto the deep-drawing film, for example. Leaky packages can be the result.
Therefore, it has already been proposed that the surface element roll, in particular the deep-drawing roll, be removed from the alignment of the packaging machine and arranged next to the packaging machine. In these known devices, the surface element roll is horizontally aligned and arranged next to the packaging machine, after which the surface element is again introduced into the packaging machine in a horizontal extension with several deflections.
While the surface element, in particular the deep-drawing film, was here removed from the introduction area of the objects to be packaged, the horizontal arrangement of the surface element here again requires that the surface element be guided in a horizontal extension. Contamination by room air remains a disadvantage. Moreover, the horizontal extension of the surface element in its width causes it to be introduced into the packaging machine from outside, and the packaging machine must in this respect be lengthened by the width of the surface element. As a result, more space is thus required.
The object of the invention is to indicate a device of the type mentioned at the outset, with which a more compact structural design of the packaging machine is enabled, and with which a surface element can be introduced into the packaging machine with less contamination. In addition, a new packaging machine is also to be indicated.
With respect to the device for receiving and holding a surface element roll, this object is achieved according to the invention by virtue of the fact that the axle for the surface element roll is received in a swivel receiver, and held with the swivel receiver in roughly a vertical alignment for unrolling the surface element.
The device according to the invention also has an axle for receiving the surface element roll. It is incorporated into the rotational axis of symmetry of the surface element roll to be supplied, so that the surface element roll can be unrolled with the help of the axle. In the device according to the invention, the axle is incorporated while the axle is received in a swivel receiver. The axle can thus not be freely and manually manipulated; it is received in the swivel receiver, and the surface element roll must in this respect be moved up to the axle. Once the surface element roll has been placed on the axle, this axle can be held in a vertical alignment according to the invention with the surface element. The surface element is unrolled from the surface element roll in a vertical alignment, and this vertical alignment of the surface element yields a decreasing contamination, and causes only a small supporting surface to become soiled. The surface element can subsequently be deflected, for which purpose the device can have deflection units with rolls running at a 45° angle. The surface element is supplied in a compact manner, since it never has to be transferred to a horizontal alignment while being supplied.
The device according to the invention can be allocated to a packaging machine, and thus enables a compact supply of a surface element, in particular a deep-drawing film, into a packaging machine.
A further development of the invention provides that the axle with the swivel device can be transferred to a roughly horizontal alignment of the axle. The swivel receiver thus allows the axle for the surface element roll to swivel from the vertical alignment of the axle into a horizontal alignment of the axle and vice versa. A suitable swivel drive is allocated to the swivel receiver for this purpose. In the horizontal alignment of the axle, in particular the surface element rolls can be changed out more easily. The surface element roll can be received by the axle in a horizontal direction, and a new surface element roll can be placed upon the axle with the latter in a horizontal alignment.
A further development of the invention provides that the swivel receiver holds a slip-on mandrel, which comprises the axle to be incorporated into the surface element roll. In this further development, the axle for the surface element roll is comprised of a slip-on mandrel, onto which the surface element roll can be slipped. If the slip-on mandrel is then swiveled with the swivel receiver in a vertical alignment of the slip-on mandrel, the surface element roll with a vertical axis rests upon the swivel receiver, loading the slip-on mandrel and swivel receiver with its mass. This yields a secure arrangement of the surface element roll.
The slip-on mandrel preferably has allocated to it a rotary drive, which supports the unrolling of the surface element from the surface element roll.
A next further development of the invention provides that the swivel receiver be height adjustably received in a carrying structure. The swivel receiver can thus be adjusted in terms of its height, for example so that it can be brought into a lowered state for receiving a new surface element roll. In this state, a new surface element roll is moved toward the swivel receiver, for example with a forklift or with a lift truck, and slipped onto the then horizontally aligned slip-on mandrel. The swivel receiver can subsequently be swiveled, and the received surface element roll is also swiveled. The height adjustability of the swivel receiver then makes it possible to optimally adjust the height of the surface element roll, so that the surface element to be unrolled is correctly positioned when supplied. Changes in height can ensure that the surface element is correctly positioned when introduced, even over the entire film being supplied. If the surface element discernibly runs out of the designated path, a correction can be made by lowering or lifting the arrangement of the surface element roll in the swivel receiver.
It is constructively provided that the swivel receiver have a floor plate, into which the slip-on mandrel is recessed, and which is hinged into rotatable joints by straps arranged on their mutually opposing ends. For example, the rotatable joints can be used to introduce the required swivel forces into the swivel receiver.
The swivel receiver can here also have allocated to it fixing points for defined swivel positions of the swivel receiver, for example for vertically positioning the slip-on mandrel for unrolling the surface element or horizontally aligning the slip-on mandrel for changing out the surface element roll to be processed.
The device according to the invention can be retrofitted for existing packaging machines. On the other hand, a packaging machine can be equipped with this type of device right away. With respect to such a packaging machine of the type mentioned at the outset, for which an independent protection is being claimed, it can thus be provided that it be equipped with at least one device for receiving and holding a surface element roll of the kind described above. This equipping process advantageously enables an integration of the device for receiving and holding the surface element roll in the packaging machine. This yields additional space savings. The swivel receiver of the surface element roll can use suitable driving means of the packaging machine, in particular electric, hydraulic or pneumatic driving means.
Such a packaging machine then preferably provides that the device described above for receiving and holding the surface element roll be laterally arranged in relation to the longitudinal extension of the packaging machine. Finally, it can also be provided that the packaging machine be a deep-drawing packaging machine, and that a deep-drawable surface element be provided with the device described above.
Exemplary embodiments of the packaging machine according to the invention as well as the device according to the invention for receiving and holding a surface element roll are shown in the drawings. Shown on:
The packaging machine 1 shown on
The surface element 5 is removed from a surface element roll 7, wherein the surface element 5 is here unrolled from the surface element roll 7, as denoted by the arrow 8. Deflection units 21 are then used to supply the surface element 5 into the packaging machine 1 along the arrows 8′ and 8″. The device 9 for receiving and holding the surface element roll 7 is depicted in the following figures.
The surface element roll 7 is also arranged on a pallet 19. It is moved in the direction of the device 9 along arrow 8″′, and slipped onto the slip-on mandrel with its cavity 17.
This slipped on state is shown on
The position of the surface element roll 7 has changed on
Finally,
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EP19 199 034 | Sep 2019 | EP | regional |
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European Search Report in application No. EP 1919304 dated Mar. 3, 2020; pp. 1-3. |
Number | Date | Country | |
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20210087008 A1 | Mar 2021 | US |