EP1138620B1 - Winding machine with bearing rollers for winding paper or carton material webs - Google Patents

Abstract

The web of paper or carton is fed through a longitudinal cutter where it is sub-divided into two individual webs. The web passes over two supporting rollers (6,7). Before reaching the first roller (6) the web passes through a tension interruptor unit which has a powered roller (8). The output supporting roller (7) turns under power. The input roller (6) moves freely and is not powered.

Description

The invention relates to a support roller winding machine for winding paper or Cardboard webs for winding rolls with a slitter for dividing the Paper or cardboard web in individual webs and two support rollers on which the Winding rolls lie on during winding, the single webs over the winding rolls the feed roller on the inlet side and the feed roller on the outlet side are fed is connected to a rotary drive.

For the production of winding rolls from cut into single webs by slitting Paper or cardboard webs are known to support roller winding machines, the two Have support rollers on which the winding rollers lie during winding and the thus bear the entire winding roll weight (DE 43 34 029 - A). The one for the quality decisive winding hardness of the winding rolls (= surface pressure between the layers a winding roll) is largely determined by the tension that is wrapped. to The two carrier rollers are used to generate the wrapped tension Winding driven with a speed difference. In addition, the wrapped Tension when winding up the line load and the geometric conditions influenced in the nip between a winding roller and a support roller, because in each nip one additional stretching of the web takes place. As a line load it is based on the width of the winding roll standardized pressing force of the winding rolls on a carrier roller (measured in N / m) designated. As the stretch in the nip increases with increasing roll weight, you limit Value the maximum final diameter of a faultless with the desired winding hardness wound winding roll.

From WO 98/23 515 a generic carrier roll winding machine is known, in which the inlet-side support roller is driven and the outlet-side support roller as pure support roller is freely rotatable. This well-known carrier roller winding machine underlying concept is that not primarily for the Generation of the desired winding hardness necessary elements for holding the Wrapping rolls to support the roll weight, etc. so that their influence on the winding hardness is as low as possible.

DE 844 702 C shows a carrier roller winding machine for winding up from paper and cardboard webs to winding rolls with one Longitudinal cutting device for dividing the paper or cardboard webs in single tracks and two support rollers on which the winding rollers when lying on the reel.

US 4,598,877 A shows a device for winding a material web on a tubular core with two support rollers Web is fed under the infeed roller. The inlet-side support roller has a smaller diameter than the outlet-side support roller. The apex line of the inlet side Carrier roller runs above the apex line of the outlet side King roll. At least one of the two support rollers is driven. But both carrier rollers can also be driven to increase the tension in the web or lower.

EP 0 957 052 A shows a winding machine for winding a Web, in particular a paper web, to a winding roll. The Winding roll lies in a changing bed that is made exclusively by two support rollers is formed. The feed roller on the inlet side has an elastic and thus deformable covering. The both carrier rollers have the same diameter. The However, the apex line of the feed roller on the inlet side lies somewhat higher than the apex line of the outlet-side support roller.

DE 198 01 599 A1 shows a carrier roller winding device two driven support rollers on which a winding roller rests. The web wraps around the infeed roller and can there be sucked in with the help of vacuum to create a frictional connection to increase. This means that the feed roller on the inlet side is able to to exert those tensile forces on the material web that are necessary are to the material web up to the winding device pull. The changing bed is from below through a sealing box sealed. It can be pressurized, being a Pressure pad used to relieve the weight of the winding roll can be.

The invention has for its object a winding machine to create that allows with constructive little effort the winding hardness of the winding rolls more precisely set to predetermined values.

According to the invention, this object is achieved by that the feed roller on the inlet side is free is rotatably mounted and that in the direction of web travel Distance before the inlet-side support roller a train interruption device is arranged, the one with a differential speed to the outlet side Carrier roller driven roller contains.

Different from the known carrier roller winding machines the inlet-side support roller influences the winding hardness when winding only by stretching in Nip, not by creating tension. The Influence of the stretch in the nip between the inlet side Carrier roller and the winding rollers can be depending determine from the roll weight and when adjusting the desired winding hardness. The decisive for the winding hardness of the winding rolls Tension during winding is dependent on Elongation behavior of the web defined by the differential speed between the driven outlet side Carrier roller and the driven roller of the train interruption device set.

Another advantage is that the carrier roller winding machine only one roller with a rotary drive needed who is able to withstand the required tension to create. Furthermore, the tension between the train interruption device and the unwind regardless of the winding requirements can be set to the values desired in this path area.

The sub-claims contain preferred, since special advantageous embodiments of an inventive Carrier roll winding machine.

The drawing serves to explain the invention based on of a simplified embodiment.

Fig. 1 shows schematically the side view of the support roller winding machine

The carrier roll winding machine is used to produce winding rolls 1 from a Slitting paper or cardboard web divided into individual webs 2. The paper or Cardboard web 2 is drawn off from a supply roll 3, the width of which is 10 m and more can be and which is suspended in a rolling device. The unwinding device contains a braking device 4, preferably a brake generator, the restraining force is adjustable. From the unwinding device, the web 2 is guided over a guide roller 5 Carrier roll winding machine supplied, which is described in more detail below. The The web 2 and the supply roll 3 are drawn off either from above (with a continuous line Line drawn) or from below (drawn with a dashed line).

The support roller winding machine has two support rollers 6, 7, between which one Roll bed is formed in which the winding rolls 1 during winding on the Support rollers 6, 7 rest. The two support rollers 6, 7 have a diameter of 300 millimeters to 1500 millimeters. In the axial direction they extend over the total working width, i.e. the maximum width of the paper or cardboard web 1. your axial length can therefore be 10 m and more. The diameter of the two Carrier rollers 6, 7 can be different or the same, the apex lines in one Height or at different heights. In the exemplary embodiment, the inlet-side support roller 6 has a smaller diameter than the outlet-side Support roller 7, and the inlet-side support roller 6 is arranged so that its The apex line runs above the apex line of the support roller 7. With this arrangement carries the outlet-side support roller 7 with a larger diameter with the Winding roll diameter growing proportion of roll weights. In addition, Completely wound winding rolls 1 simplified over the outlet-side support rollers 7 remove the roller bed.

Both support rollers 6, 7 have a steel jacket, which is limited by one deformable running layer can be coated. The deformable overlay is either elastically deformable, for example from a full elastomer such as rubber built up, or it consists of a volume compressible material, for example made of a cellular elastomer like foamed polyurethane. Whether none, only one or both support rollers 6, 7 have a deformable running layer depends on the paper or cardboard web 2 to be wound and the desired winding quality.

It is essential for the invention that the inlet-side support roller 6, via which Lanes 2 are fed to the winding rolls 1, is freely rotatable, and the outlet-side support roller 7 is connected to a rotary drive. The driven outlet-side support roller 7 acts as a peripheral drive for the winding rolls 1. Your Rotation speed can be varied to suit the tension in the outer layers to be able to adjust the winding rolls 1.

In the web running direction at a distance in front of the inlet-side support roller 6 is one Train interruption device arranged. The train interruption device contains a driven roller 8, over which the web 2 is guided without slippage. The roller 8 is also connected to a rotary drive, the rotational speed of which varies can be set to a predetermined differential speed to the support roller 7 to be able to. The slip-free system of the web 2 on the outer surface of the roller 8 is guaranteed by a sufficiently large wrap angle. If great forces need to be transferred, the roller 8 can be designed as a vacuum roller in which the web 2 is additionally sucked in. Alternatively, you can secure a non-slip Plant of the web 2, a pinch roller can be used, which is freely supported and is movable against the roller 8 to form a nip through which the web 2 to be led. Another way to interrupt the train between the Unwinding and the winding stations consists of two driven rollers directly to be arranged one behind the other, over which the web 2 is guided in an S-shape.

For dividing the web 2 drawn off from the supply roll 3 into several individual webs serves a longitudinal cutting device 9, which is in front of the inlet-side support roller 6 is arranged so that the support roller 6 individual, juxtaposed webs 2nd are fed. The slitter 9 includes a number of Pair of circular knives, each of which makes a longitudinal cut. Is the Longitudinal cutting device 9 between the driven interruption roller 8 and the inlet-side support roller 6 in an ascending web section arranged, the lower knife 10 is arranged on the outside — on the right in FIG. 1. This allows the device for vacuuming the separated edge strips in free Arrange space above the lower knife 10. Alternatively, the Longitudinal cutting device 9 also in the web running direction in front of the interruption roller 8 to be ordered; especially if there is a tensile stress when slitting should be set, which is considerably larger than that desired when winding Tension.

An arrangement of the longitudinal cutting device 9 with a short distance in front of the support roller 6 on the other hand has the advantage that none for the cut single webs Spreading device is necessary, from which the individual webs are kept separate. The spreader 11, for example a roller with adjustable curvature, can then arrange themselves directly in front of the interruption roller 8, as in FIG. 1 is shown.

Above the roller bed, there is a pressure roller system on the frame of the winding machine arranged, which contains a free-running mounted or driven pressure roller 12. To Start of winding when the weight of the winding rolls 1 on the support rollers 6, 7 is not yet sufficient for the desired winding hardness, can be done from above pressing roller 12, the weight of the winding roller 1 on the support rollers 6, 7th increase. The pressure roller 12 is in a known manner at the beginning of the winding on a Roll bed located set of new winding tubes 13 lowered, as shown in Fig. 1 is. In this position, she supports the winding up of the web beginnings to the new ones Winding sleeves 13.

A lowering device 14 is located behind the outlet-side support roller 7 - on the left in FIG. 1 arranged, from which the wound winding rolls 1 are taken over and into one Unloading position can be lowered. A movable grille 15 secures during the area behind the winding machine. On the opposite A fixed protective device 16 is arranged on the side, which covers the area of the Longitudinal cutting device 9 leaves free, so that this over a platform 17 above the Interruption roller 8 is accessible for maintenance work.

In the present exemplary embodiment, the individual webs 2 are fed to the Winding rolls 1 from the outside via the inlet-side support roller 6. Likewise, the supply of Paths 2 through the gap between the two support rollers 6, 7 possible, the inlet-side support roller 6 is partially wrapped in the webs 2. The direction of rotation the winding roll 1 then changes.

It is essential for the invention that the feed roller 6 on the inlet side is freely supported and therefore does not apply a torque that tensions the web tension during winding affected. The tension in the web during winding is determined exclusively by the Torques of the outlet-side support roller 7 and the driven roller 8 of the Determined web train separator, the rotary drives with a corresponding Control are connected. This has the advantage that the tensile stress when Winding can adjust very precisely.

The tensile stress wrapped in the winding rolls 1 is used to achieve the desired one Winding hardness curve preferably set with the following drive concept:

The drive of the roller 7 serves as a master drive, the rotational speed of which is predetermined becomes. The rotation of the interruption roller 8 is controlled depending on it that there is a certain speed ratio to the roller 7 to the wrapped Adjust tension. The brake generator 4 is controlled so that when unwinding the supply roll 3 has the desired web tension. This drive concept is particularly advantageous if the web 2 is fed from above via the support roller 6, as shown in Fig. 1. With this web guide, those are for the wrapped Tension required speed ratios of the rollers 7, 8 regardless of the Web thickness 2.

Alternatively, it is also possible for the brake generator 4 to be unrolled as a master drive use and depending on it first the drive of the rollers 8, then the drive to control the support roller 7. This control is more difficult because it requires that Circumferential speed of the supply roll 3 as a function of the changing To regulate the diameter of the supply roll 3 exactly.

If winding rolls 1 with a very large diameter of, for example, more than one meter, the support weight of the winding rolls 1 can the support rollers 6, 7 in a known manner by building up an excess pressure below the Winding rolls 1 can be reduced. As for example in EP 0 496 836-B is then described by the winding rollers 1 and the two support rollers 6, 7th limited space and sealed to a compressed air supply, for example via a Compressed air box, connected to an overpressure below the winding rolls 1 produce.

Claims (7)

1. Carrier-roll winder for winding paper or board webs (2), to form wound reels (1), having a longitudinal cutting device (9) for dividing the paper or board webs (2) into individual webs and two carrier rolls (6, 7), on which the wound reels (1) rest as they are wound, the individual webs being supplied to the wound reels (1) over the carrier roll (6) on the inlet side and the carrier roll (7) on the outlet side being connected to a rotational drive, characterized in that the carrier roll (6) on the inlet side is freely rotatably mounted and in that, in the web running direction, a draw breaking device is arranged at a distance upstream of the carrier roll (6) on the inlet side and contains a roll (8) driven at a differential speed with respect to the carrier roll on the outlet side.
2. Carrier-roll winder according to Claim 1, characterized in that one or both carrier rolls (6, 7) have a deformable cover.
3. Carrier-roll winder according to Claim 1 or 2, characterized in that the longitudinal cutting device (9) is arranged in a web section between the draw breaking device and the carrier roll (6) on the inlet side.
4. Carrier-roll winder according to one of Claims 1 to 3, characterized in that the individual webs are supplied to the wound reels (1) from the outside over the carrier roll (6) on the inlet side.
5. Carrier-roll winder according to one of Claims 1 to 4, characterized in that the two carrier rolls (6, 7) have a different diameter, in particular the diameter of the carrier roll (6) on the inlet side is smaller than the carrier roll (7) on the outlet side.
6. Carrier-roll winder according to one of Claims 1 to 5, characterized in that the zenithal line of the carrier roll (6) on the inlet side runs above the zenithal line of the carrier roll (7) on the outlet side.
7. Carrier-roll winder according to one of Claims 1 to 6, characterized in that the space delimited by the wound reels (1) and the two carrier rolls (6, 7) is sealed off and is connected to a compressed air supply in order to produce a positive pressure underneath the wound reels (1).

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