The present invention relates to machines and devices for making and handling rolls, particularly tissue paper rolls, such as toilet rolls or tissue paper in general.
In the production field of tissue paper rolls it is common to transform one or more reels of cellulose webs into rolls of smaller diametral size, comprising a web material composed of one or more tissue paper webs joined together, for example by gluing. The transformation process includes the work of one or more machines operating in series. For example, the rolls are wound by means of a so-called rewinding machine at the exit of which the rolls are unloaded, usually with the free edge of the material with open configuration tape. The free edge must be glued to the cylindrical surface of the roll to close the roll and prevent it from unwinding, even partially, thus creating a hindrance to subsequent packaging operations.
For this purpose, there are known machines for closing the free edge, sometimes called with the Anglo-Saxon term “tail sealer”. In order to harmonize the production process between one machine and the other it is necessary for the rolls to be singularly fed within the closing free edge machine, that is, one at a time, with a frequency consistent with its production rate, while upstream the possibility of accumulating the rolls must be guaranteed, thus respecting the production rate of the rewinding machine.
For this purpose, at the inlet of the free edge closing machine there is a rotating distributor, sometimes also called “butterfly”, which has a plurality of rolls' receiving seats, which are commonly of the same shape and said rotating distributor rotates around an axis of rotation parallel to rolls axis and orthogonal to roll advancement path through the machine. Each seat hosts a single roll and the distributor rotation allows a roll at a time to be transferred towards the gluing station. The seats consist of rotating arms with an approximately radial development.
Devices of this type have the disadvantage of being unable to work with whatever diameter of rolls. In fact, the radial dimension of the rotating arms is correlated to the size of rolls. The larger is the roll diameter, the greater must be the radial arm size. Radial arms having sufficient length for handling large-diameter rolls cannot handle single small-diameter rolls since, at each rotation, the arms would press against the roll following the one in the seat of the distributor device, probably accumulated upstream.
Therefore, within production lines, when an extreme product flexibility is required and therefore there is a need to handle rolls of both small and large diameters, as in the so-called industrial rolls, it is necessary to use differently shaped distributors, such that it is not possible to have a plurality of identical elements and therefore are usually provided with an alternating motion. The latter have low productivity due to alternating rather than continuous motion. Low productivity is not a limit only when large-diameter rolls are handled, whose winding takes a long time, and therefore these rolls arrive at the distributor device at a low rate. Higher productivity of the device would be useless. However, when machines equipped with alternating motion devices have to work small diameter rolls, their reduced productivity penalizes the overall productivity of the line. In fact, rolls of small diameter could be produced with a rate higher than that which the device is able to provide. Consequently, the productivity of the rewinding machine is reduced with respect to its actual production capacity, due to the bottleneck constituted by the downstream machine, which contains the alternating motion device.
Similar problems can also arise in other types of machines, whenever it is necessary to distribute, ie load rolls singularly into or toward a station, group or processing unit, or more generally along an advancement path.
It would therefore be useful to have a roll loading device suitable to handle both small diameter rolls and large diameter rolls but without penalizing the productivity of the line.
To solve or alleviate the problems of the prior art, a device is proposed for loading rolls in a machine, said device comprising a rotating member around an axis of rotation, having a plurality of radial elements angularly spaced with respect to one another, which define locations for receiving the rolls. In some embodiments, at least one of said elements is able to assume at least two distinct angular positions with respect to the axis of rotation, to modify the geometry of the receiving seats for the rolls as a function of the diameter of the rolls.
In other embodiments, at least one of the radial elements can be easily replaced with an alternative radial element, of different shape, such that the receiving seat for the rolls formed by the replaceable radial element is different from the one formed by the alternative radial element. One of the seats is therefore optimized to handle variable rolls within a large diameter range (rolls of small and large diameter), while the other is optimized to work rolls within a limited range of diameter (substantially definable with small diameter).
In general, the device can be controlled by an electric motor or other actuator capable of selectively imparting continuous rotary motion or alternating rotary motion. The first will be used to handle rolls with the device configured with identical receiving seats (for rolls of small diameter), while the second one for handling rolls up to a large diameter with the new device configuration.
In this way the device motion is optimized according to the diameter of the rolls to be handled.
Within the scope of the present description and of the attached claims for “radial element” is meant an element which extends from the axis of rotation, but which can also be offset with respect to the said axis, that is, which can be fixed to a shaft rotating around the axis of rotation, in a offset manner with respect to the axis, so that the median axis of the radial element does not necessarily have to intersect the axis of rotation of the device. Moreover, as will become clear from the following description, the radial element can form an angle different from 90° with the axis of rotation, for example it can be inclined in the tangential direction. This can be useful, in particular, in the case of alternative radial elements, which are replaced when the device is to be configured for manipulating rolls of large diameter.
Further advantageous features and embodiments of the device according to the invention are indicated in the attached claims.
According to another aspect, the invention also relates to a machine comprising a feeding path for rolls from a path entry of the machine, characterized in that it comprises a device according to one or more of the preceding claims, positioned along the feeding path.
In some embodiments, the machine is a machine for closing the final edge of the rolls.
The drawings show exemplary embodiments of the invention. More in particular:
In the following, a gluing or closing machine of the end edge of the rolls is described, which can be used in a roll production line, with a loading device according to the present invention. However, it must be understood that the device can also be used in other types of machines, where it is necessary to distribute rolls singularly along an advancement path.
Upstream of the loading device 5, with respect to the feeding direction of the rolls R, there is a storage area or accumulation zone 12, in which rolls R can accumulate waiting to be picked up and distributed by the loading device 5 (
A gluing station 7 is arranged along the feeding path P, in addition to the loading device 5. An upper continuous flexible member 9 extends between the inlet 2 and the outlet 4, said flexible member 9 being spaced from an underlying lower continuous member 11. The feeding path P of the rolls R extends between the two continuous members 9, 11, with rolls R coming from the loading device 5 and which are forwarded towards the gluing station 7. The distance between the continuous members or organs 9, 11 is adjustable according to the diametrical dimension of the rolls R to be glued.
The structure of the machine 1 herein briefly described is known per se, see for example EP0541496.
The configuration of
Normally, as shown in
This accumulation zone makes possible, at least in part, to release the production speed of the upstream machines (for example a rewinder) from the production speed of the gluing machine 1.
When the diameter of the rolls R is such that they can no longer be manipulated by the device 5 in the layout of
In the embodiment of
In the layout of
For a better understanding of the operation of the loading device when configured to handle rolls of greater diameter,
It will be understood from what has been described that by simply modifying the angular arrangement of the radial elements 17A, 17B, 17C, 17D the device 5 can be adapted to the diameter of the rolls R, allowing the device 5 to pass from the handling of rolls of small diameter (
In some embodiments, the transition from one configuration to the other can be performed manually. In other embodiments, an automated configuration change system can be provided.
These figures show that in reality the device 5 can comprise more than one series or group of the radial elements 17A, 17B, 17C, 17D, distributed along the axial development of the shaft 15. In particular,
The radial elements of the various groups 16 are aligned with each other, so that corresponding radial elements of the various groups form together respective receiving seats 16 of the rolls R.
As can be seen in particular in
In the configuration of
In the assembly of
The embodiment of
In other embodiments, on the other hand, it may be expected that the change of configuration would be carried out by means of an actuator, which can be controlled by the control unit 8 by means of commands given for example through the user interface 10.
In still other embodiments it can be provided that at least one of the radial elements 17A-17D is rotatably mounted and lockable on the shaft 15 in at least two distinct angular positions, and that the movement from one to the other of these positions takes place manually. For example, it can be expected to release an angular clamping member of the mobile radial element, angularly moving the mobile radial element and locking it again at the modified angular position.
While in the embodiments described above the configuration modification of the device 5 is obtained by varying the angular position of one of the radial elements 17A-17D, in other embodiments it is possible to modify the configuration of the receiving seats 16 of the rolls R by replacing at least one of the radial elements.
The embodiment of
Number | Date | Country | Kind |
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102018000007089 | Jul 2018 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2019/068423 | 7/9/2019 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2020/011792 | 1/16/2020 | WO | A |
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10 2014 103956 | Sep 2015 | DE |
2 971 778 | Aug 2012 | FR |
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Number | Date | Country | |
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20210284474 A1 | Sep 2021 | US |