EP0294554A1 - Device for winding webs - Google Patents

Abstract

An apparatus for rolling or winding up a web of material with a driven supporting roll on which one or more winding rolls contact during the winding process and with a plurality of press rolls pressable on the circumference of one of the winding rolls which are mounted substantially parallel to the supporting roll axis on an end of at least one upwardly pivoting lever mounted laterally adjacent the supporting roll. The press roll pairs are each mounted on the end of a pivoting lever and their rotation axes are movable about one axis substantially parallel to the longitudinal direction of the pivoting lever. Advantageously the press roll pair is also supported movable about a third axis which is approximately perpendicular to the longitudinal shaft of the pivoting lever and extends perpendicular to the rotation axes. Also the pivoting lever can be variable in its length.

Description

The invention relates to a device for winding material webs with a driven support roller on which one or more winding rollers lie during winding, which has at least one pressure roller pair that can be pressed onto a winding roller, which is mounted parallel to the support roller axis at the end of a lever which is pivoted up laterally next to the support roller is.

Devices of this type are used in particular for winding up longitudinally divided paper webs. They have one or more winding stations on both sides of the apex line of the support roller, the individual webs produced by slitting being fed alternately to the angular stations on both sides. The winding stations each consist of two winding trestles, which can be adjusted transversely to the web and are attached to trusses, each of which has a downwardly extending bracket with a guide head for insertion into the winding tube. During winding, each winding roll is held between two guide heads.

For winding with a new sleeve and for influencing the winding hardness via the pressure weight of the winding rollers on the support roller, it is known to arrange swivel levers with two pressure rollers each, which can be pressed against the circumference of the winding rollers, next to the support roller.

Such a generic winding device is described in DE-PS 31 02 894. In this device, the pairs of pressure rollers are mounted on the ends of pivot levers which are attached to the longitudinal and lifting longitudinal beams on both sides of the support roller. The pairs of pressure rollers are pressed against the winding rollers at the start of the winding process. Before the winding rollers are removed after winding has been completed, the swung-up pressure rollers are moved into an upper position.

From DE-PS 20 60 758 pressure roller pairs are known, which are articulated at the free end of a pivot lever. As a result of this mounting, the pressure rollers can pivot about an axis parallel to their axis of rotation, in order to avoid a geometrical and therefore excessive determination of the force on the winding roller.
It has been shown as a disadvantage with the known winding devices that a uniform winding over the width of a winding roll is not guaranteed, so that oblique folds can occur within the winding rolls.

The object of the invention is to eliminate this disadvantage. This object is achieved by the features of patent claim 1.

It has been shown that different winding hardness and oblique folds occur as a result of an uneven line pressure of the pressure rollers. Due to the movable mounting of the pair of pressure rollers according to claim 1, a uniform line pressure is guaranteed, even with winding rollers that are not exactly cylindrically wound.

In the device according to claim 2, the pressure rollers can adapt in a second plane which is approximately tangential to the support roller surface.

While the feature of claim 3 enables the pressure position to be adapted to the growing diameter of the winding roll, in the embodiment according to claim 4 this adjustment is carried out automatically with the aid of a spring.

With the feature of claim 4, the position of the pressure rollers can be adjusted to the center of winding rollers of different widths. Claims 6 and 7 contain constructively advantageous embodiments of the invention. In the embodiment according to claim 7, the pivot levers can be raised with their storage to remove a full roll.

• Figur 1 zeigt einen Querschnitt in Bahnlaufrichtung durch eine erfindungsgemäße Aufwickelvorrichtung.
• Figur 2 zeigt im Querschnitt einen Schwenkhebel mit einem Druckrollenpaar und seiner Lagerung.
• Figur 3 zeigt eine Draufsicht entsprechend dem Pfeil A von Figur 2.

The drawings serve to explain the invention with reference to an embodiment shown in simplified form.

• Figure 1 shows a cross section in the web running direction through a winding device according to the invention.
• Figure 2 shows in cross section a pivot lever with a pair of pressure rollers and its storage.
• FIG. 3 shows a top view corresponding to arrow A in FIG. 2.

The winding device with the feed of the paper web 1 from below has a driven, horizontally mounted support roller 2, below which circular knives 3 are arranged for dividing the web lengthways. Above the support roller 2 are on both sides of the apex line on horizontal cross members 4, which extend over the entire working width. Winding stations 5 suspended. Each winding station 5 is built up from two winding stands which can be moved independently of one another and parallel to the support roller axis, to each of which a downwardly extending slide guide 6 is fastened. Each slide guide 6 carries a slide 7 with a guide head for insertion into the winding tube. On both sides next to the support roller 2, traverses B extending horizontally across the working width are fastened in a height-adjustable manner in the base frame of the device, on which pressure roller stations 9 are mounted so as to be movable transversely to the web direction. Each pressure roller station 9 essentially consists of a pressure roller carriage 10 which can be moved on the crossmember 8, a pivot lever 11 articulated thereon, a pivot drive 12 and a pair of pressure rollers 13 articulated to the free end of the pivot lever 11. For each winding station 5, a pressure roller station 9 is arranged on the corresponding side of the support roller 2.

The structure of a pressure roller station 9 is explained in more detail below with reference to FIGS. 2 and 3:

The pressure roller carriage 10 has on its lower side, which is fastened to the cross member 8, a round guide 14 and a roller 15 for transverse movement on the cross member 8.

On its upper part, on the side facing the support roller 2, the pivot lever 11 is pivotally pivoted about a bearing 16. The drive for the up and down swiveling consists of a piston-cylinder unit 12 which is fastened to both the swivel lever 11 and the swivel roller carriage 10.

The pivot lever 11 consists of two parts which are fastened so as to be displaceable relative to one another in the longitudinal direction: an arm 17 which is articulated on the slide 10 and on which two circular guides 18, 19 are fastened at a distance from one another, and a shaft 20 which is rotatable through the two circular guides 18, 19 is performed. The arm 17 has a longitudinal slot 21 in which an impeller 22 fastened on the shaft 20 runs with lateral play and thus limits both the longitudinal displacement of the shaft 20 against the arm 17 and its rotational movement. Between the circular guides 18 and 19 a spring 23 is arranged, the spring force of which is selected so that when the pivot lever 11 is in the lowered position, the shaft 20 with the pressure rollers 13 is pressed outwards, ie away from the carriage 10, and when the pivot lever 11 is pivoted up the shaft 20 moves in the opposite direction due to the increasing vertical weight component, ie the length of the pivot lever 11 is shortened.

At the free end of the shaft 20 is a frame 24 in which the two rubberized pressure rollers 13 are freely supported at a certain distance from one another with parallel axes of rotation, about an axis 25 which is approximately perpendicular to the shaft 20 and perpendicular to the axes of rotation of the pressure rollers 13 , articulated. Shock absorbers 26 are fastened on both sides of the shaft 20 to the upper side of the frame 24 and to the support arm 17 parallel to the shaft 20, which dampen the axial movement of the shaft 20 and the parts attached to it.

The rotational movement about the axis 25 is additionally limited by guides 27 with lateral stops on the top of the frame 24. The frame 24 with the pressure rollers 13 can tilt due to the suspension described above both about the central axis of the shaft 20 limited by the play of the impeller 22 in the slot 21, and pivot about the axis 25 limited by the stops of the guide 27. These two movement possibilities enable the pressure roller pair 13 to adapt to a certain extent the irregularities of the winding roller 28 and to compensate for inaccuracies in their storage caused by production.

The device according to the invention works as follows:

To start a new roll, an empty sleeve is pressed by the pressure rolls 13 onto the support roller 2 and held in this way. After a new start of the web has been glued, the rotation of the support roller 2 causes the winding rollers 28 which are offset on it to be rotated and wound up. Since in the initial phase of the winding process the weight of the rollers 28 is not sufficient for the desired line force, these are additionally pressed against the support roller 2 with the pressure rollers 13. Since the diameter of the winding rollers 28 increases during winding, the pressure rollers 13 swivel back 12 accordingly, the contact pressure of the drive being reduced. When swiveling up, the swivel lever 11 automatically shortens. When the winding rollers 28 have reached a diameter of approximately 400 mm, the pivot levers 11 are pivoted up with the pressure rollers 13. After the winding process has ended - with a winding roll diameter of approximately 1,500 mm - the crossbeams 8 are raised into an area which enables the full rolls 28 to be removed from the side.

Claims (7)

1.Device for winding a material web with a driven support roller on which one or more winding rollers lie during the winding, and with pressure rollers that can be pressed onto the circumference of a winding roller, each paired parallel to the support roller axis at the end of levers that are attached laterally next to the support roller are stored, characterized,
that the axes of rotation of a pair of pressure rollers (13) on the associated pivot lever (11) are movably mounted about an axis approximately parallel to the longitudinal direction of the pivot lever (11). 2. Device according to claim 1, characterized in that the axes of rotation of a pair of pressure rollers (13) are additionally movably mounted about an axis (25) which is approximately perpendicular to the longitudinal direction of the pivoting lever (11) and perpendicular to the axes of rotation. 3. Device according to claim 1 or 2, characterized by a variable in length swivel lever (11). 4. The device according to claim 3, characterized in that the pivot lever (11) consists of two mutually longitudinally displaceable parts (17, 20), and has a spring (20). which counteracts a shortening of the pivot lever length. 5. Device according to one of claims 1-4, characterized in that the pivot levers (11) are articulated on slides (10) which can be moved transversely to the web on a crossmember (8). 6. The device according to claim 5, characterized by a on the carriage (10) and pivot lever (11) attached piston-cylinder unit as a drive for the pivoting movement. 7. Apparatus according to claim 5 or 6, characterized in that the traverses (8) can be moved up to the winding stations (5).

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