EP0521396A1 - Method and device for winding and crosscutting a web - Google Patents

Abstract

A web of material (2) is wound on a winding tube (11), in which process a contact roller (12) attached to an arm presses against the roll. When the desired roll diameter has been reached, the web of material is cut between the pressure and the deflection rollers, after which the entire winding roller is braked. To achieve a perfectly structured roll and to prevent axial displacement of the outer layers of the roll, the contact roller (12) is braked with a braking moment which acts against the unwinding of the roll due to the moment of inertia of the latter, and the frictional moment of the tube drive. <IMAGE>

Description

The invention relates to a device and a method for winding and cross-cutting a running material web, which is wound on a winding tube until a certain winding diameter is reached, wherein a contact roller presses the material web against the winding tube and before an unwinded winding tube into the Conversion position is transferred, a cutting member cuts the web of material between the wound and the still unwound winding tube perpendicular to the direction of travel.

Such, mostly fully automatic, devices are known from numerous publications, for example from US Pat. No. 3,918,654, EP 0 395 830 and German application file number P 41 07 127. The material web can be, for example, a paper web, a film web or one with a web magnetic coating provided plastic sheet. In the devices described, the task is to separate the material web wound on a winding tube with a separating knife after reaching a certain winding diameter and to wind the new material web beginning that has been formed onto an empty winding tube while the full package is being removed and replaced by an empty winding tube. For this purpose, the almost completely wound winding tube leaves its winding position. A new sleeve to be wound takes its place. The running web is cut between the new and wound winding tube and lies against the new tube, whereupon the process just mentioned begins again.

After the separation process, the finished wrap runs out in order to be removed. It has been shown that especially the outermost winding layer package often shifts or is axially displaceable relative to the rest of the winding, especially with smooth material webs and at high machine speeds in the range of 300 m / min. This telescoping of the winding, that is to say deviations from the winding with the same edge, can damage parts of the winding by deformation.

Investigations by the applicant have shown that it is of great importance, especially for sensitive material webs such as magnetic tapes, to keep the filled roll stable after the separation process, since the winding train is now missing due to the separate material web.

The invention had for its object to achieve a stabilization of the winding pattern when braking the full winding reel to a standstill, the run-out time of the reel should also be reduced in order to achieve a quick reel change in a turret winder.

According to the invention the object was achieved with a device and with a method according to the characterizing part of the claims. The invention will now be explained in more detail below, reference being made to the drawing. Of course, the concept of the invention is not limited to the turret winder and the winding material described specifically below, but can also be used to the same extent in other winding devices and material webs.

A material web (2) coming from a coating device (not shown) runs over deflection rollers (1, 3, 4) to the winding and cross-cutting device. A contact roller (5) places the material web (2) on the winding (6). A second contact roller (7), which is rotatably mounted on an arm (17), stabilizes the winding. An identical one Device, namely contact roller (12) and arm (16) is provided in an analogous manner for the winding core (11) to be rewound.

If the approximately full winding diameter has now been reached, the entire device (18) is turned so that the sketched state is reached. Then the material web between the empty winding tube (6) and the deflecting roller (8) is separated by a cross cutting device (15), and the newly formed beginning of the web is placed against the winding tube (6). The full roll wound on the winding tube (11) is then braked from the outside to a standstill by the braked contact roller. The contact roller remains pressed against the reel for a selected period of time until it is pivoted against an empty winding tube in order to change the filled reel. The winder remains in this position until the winding core (6) is almost filled and the described turning process begins again.

The essence of the invention is that each of the winding tubes is designed to be drivable and brakable and that the contact rollers (7, 12) present in addition to the usual contact roller, as in the German application 41 07 127 already mentioned, can be braked. When the separation process described is carried out, the contact roller (12) acting on the full winding is braked with a braking torque which is suitable for preventing the winding from telescoping. The size of the braking torque to be selected depends on the moment of inertia of the winding and the torque always acting on the winding tube, which results from the bearing friction of the tube bearing, the friction in the drive motor and the transmission gear.

With high internal frictional torque and winding of very smooth webs, it is necessary to reduce the internal torque by that the winding tube is separated from its drive by a coupling after cutting the web. It is expedient to introduce the braking torque via the contact roller (11) immediately before the cutting process or at the same time as the cutting process, because the strip tension previously on the reel has been ended by the cutting process. Increasing the contact roller pressure makes this process more effective. It is also expedient to let the contact roller press on the web winding for a certain time after the winding has stopped, so that the trapped air can escape.

In one example, an approximately 70 cm wide plastic web consisting of 15 μ thick polyethylene terephthalate, which was provided with a 3 μm thick magnetic coating, was used at a speed of 500 m / min. wound up. Using the device described above, the above-mentioned web, which had a length of 10,000 m, could be brought to a standstill within 5 seconds without the outermost winding layers being blurred. The winding behavior was excellent, the web also showed on the outer layers after the deduction. There are no scratches or damage to the glue point or the end and beginning of the web.

Claims (5)

Device for winding and cross cutting a running material web (2), which is wound onto a winding tube (6, 11) until a certain winding diameter is reached, wherein a contact roller (7, 12) presses the material web against the winding tube and before a still unwound subsequent winding sleeve (6, 11) wrapped over part of its circumference by the material web is transferred to the winding position, a cutting operation (15) the material web (2) between the wound (6, 11) and the still unwound winding tube ( 6, 11) cut perpendicular to the running direction, characterized in that the winding tube (6, 11) can be driven and braked and that the contact roller (7, 12) can be braked. Method for winding and cross-cutting a running material web according to claim 1, characterized in that when performing, but preferably shortly before initiating the separation process, the contact roller (12), which acts on the filled winding, is braked with a braking torque which is equal to or greater is the resulting moment from the moment of inertia of the winding and the moment from frictional forces of the winding drive. Method according to claim 2, characterized in that the pressure of the contact roller (12) against the material web (2) wound on the winding tube (11) is increased at the latest at the time of the separation process. Method according to claims 1 to 3, characterized in that the pressure of the contact roller (12) is maintained for a certain time beyond the standstill of the winding (11). Method according to claims 1 to 4, characterized in that the winding tube (6, 11) is separated from its drive by a coupling after the cutting process.

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