DE19818180A1 - Reel winding roller with elastic surface on core - Google Patents

Abstract

Each opening (12) in the surface of the roller is connected by a duct (13) to an air-container (10) which is sealed at least in the roller's peripheral direction. The air container is selected in relation to the operational speed of the roller so that the rise in pressure is less than 50 millibars. The air container in an axial and/or radial direction extends further than the duct.

Description

The invention relates to a roll winder roller with egg ner elastic surface layer on a core, in whose surface openings are arranged, each Opening via a duct with an air intake volume is connected, at least in the circumferential direction the roller is complete.

The invention is a further development of the roles winding roller according to the German patent (the German Patent application) 198 12 723.

The disclosure of the German patent application 198 12 723 is part of the present application.

With the subject of the main patent, the risk of Floating of the material web even at higher Ge speeds reduced by opening each via a duct with an air intake volume in ver is binding, at least in the circumferential direction of the  Roller is completed. This means on the one hand a sufficiently large air intake volume is available supply to the on the material web or the To be able to displace roller adhering air layer. By completing it in the circumferential direction, however, it is possible, with the help of compressed air, a weight release effect of the winding roll. The compressed air can also go into the air intake volume be pressed. An escape through connecting channels, the roughly in the circumferential direction or across the roller run, but is not possible.

The present invention is based on the object changing rollers with a simple construction of the roller wide range.

This task is the in a roll winder type mentioned in that each Air intake volume in an axial direction rear chamber arranged at the end is axially below by at least one partition shares.

This design of the roller leaves a relatively simple Manufacturing too. You can, for example, through the chamber form an axially extending bore that over the ge passes through the entire length of the roller. You can also get one axial pipe in the surface cover or in insert the cavity of the core or between the Surface layer and the surface of the core axially Provide running grooves. In all cases it is good stig when you see these components surrounding the chamber can let go in the axial direction because this is the Manufacturing simplified. If you now provide that to Additional partitions are available that this chamber  subdivide, then you can also with a compressed air ent load of the winding roll changing roll widths ver turn. In this case, you can build pressure by sealing elements on the front to the width of the Limit winding roll. An axial short circuit path does not form in this case because the verb between openings within the pressurized struck area of the changing bed and outside of it Area through the partition or the partition walls is broken.

The at least one partition is advantageous arranged stationary. This is enough if you are in front knows which roll widths are to be wound. If you arrange several partitions stationary, then you can correspondingly many different roll widths wrap.

It is advantageous in the axial direction between each two openings arranged a partition. Leave with it practically all roll widths wrap. As soon as one Opening in the pressurized area of the wrap bed is placed, it is pressurized. The Compressed air can not through the neighboring public tion, which is then outside of the pressurized loading Reich is arranged to escape because of the partition this prevents.

The partitions are preferably by means of a clamping stop fen formed. Clamping plugs, for example made of egg Material comparable to rubber can axially in the chamber be driven. There is a certain Effort is necessary, but without the manufacturing more can be made available. As soon as the Stoppers have reached their intended location,  clamp them tight. The clamping force is sufficient for the due to the air pressure in the changing bed to resist. Here, the clamp connection does not have to be absolutely tight. The tightness between the stop fen and the wall of the chamber only has to be sufficient to ensure that the weight relief of the The winding roll maintains the necessary pressure in the changing bed lasts.

In an alternative or additional embodiment can be provided that at least one partition in Is designed to be movable and fixable in the axial direction. In this case you can set the zone width that can be pressurized. The partition must only between those two openings those that are inside and outside an axial Limit the pressurized zone of the changing bed Find. In this case you can see the air intake volume relatively large ma within the pressurized zone chen, d. H. a pressure equalization between neighboring ones Air intake volumes are not obstructed by partitions different.

Preferably, two partitions are in pairs ge moveable. For example, if only two separators walls are present, they can be used for axial symmetry Always adjust the drive level symmetrically. This facilitates especially the adjustment of roll widths then if only ever a single winding roll or axially adjacent winding rolls are wound.

Advantageously, several open out in the circumferential direction mutually arranged openings in the same air volume. This configuration can also be done directly use on the subject of the main patent without it  it is necessary that the chamber is divided in the axial direction is. If multiple openings are available, then either the usable cross-section increases, through which the air can escape, or you can make the individual cross sections of the openings smaller make so that the risk of marking the wic celting material web becomes even smaller.

It is preferred that the air in the same Take volume opening openings in the circumferential direction NEN have a smaller distance from each other than to Publ in a circumferential direction Air intake volume flow out. This eliminates the risk that in the circumferential direction a "short circuit" arises, through which Escape pressure from the pressurized changing bed can, kept small.

The invention is based on preferred in the following Embodiments in connection with the drawing described in more detail. Show here:

Fig. 1 shows a roller with two different Ausbildun gene of air intake volumes and

Fig. 2 is a schematic sectional view II-II of FIG. 1.

Fig. 1 shows a roller 1 with a core 2 made of steel or cast iron, which is designed as a shell, ie has a hollow interior 3 .

The roller shown can be used, for example, as a supporting roller ze be used in a roll winder, where two carrier rollers together form a changing bed, that are pressurized with compressed air  can to relieve the weight of a winding roll cause.

At the two end faces, the interior 3 of Dec angles 4 , 5 is closed, to which the roll neck 6 , 7 are attached.

An elastic layer 8 is arranged on the outside of the core 2 . This elastic layer is composed in the embodiment according to Fig. 2 of two layers, namely an elastic covering 8 a radially outward and egg ner hard rubber layer 8 b between the elastic covering 8 a and the core 2.

The core 2 is drilled peripherally, that is to say it has a multiplicity of bores 10 running parallel to the axial direction 9 , which are closed off at the end faces with plugs 11 , 11 '. The bores 10 can, for example, have a diameter of approximately 10 mm.

Openings 12 are provided in layer 8 . Each opening 12 is connected to the bore 10 via a channel 13 . Accordingly, air from the upper surface 14 of the layer 8 through the channel 13 into the bore 10 and get back.

The bore 10 thus forms a chamber. This chamber is divided axially by a plurality of partitions 30 , 31 , so that a plurality of air intake voids are formed within the bore 10 .

Fig. 1 shows two different ways to subdivide the bore 10 in the axial direction in several Luftaufnahmevo lumina.

In the upper half an embodiment is Darge provides, in which the partitions 30 are formed by clamping stoppers. A partition 30 is arranged between each two adjacent channels 13 . Air that passes through a channel 13 into an Luftaufnahmevolu 36 can only escape again through the channel 13 , but not through adjacent channels. Since with a short circuit is avoided, which would have negative effects, for example, if a winding roll or a lying stack of adjacent Wic kelollen would be wound, the axial length of which is smaller than the axial length of the roller. 1 In this case, namely, when compressed air is applied to the winding bed, the compressed air can enter through a centrally arranged channel 13 and pass axially further out through the bore 10 , where it could exit through a channel that lies outside a sealed area in which the compressed air is applied the winding roll takes place.

The fact that a large number of partitions 30 uses ver, that is, each channel 13 has its own lumen 36 Luftaufnahmevo, you are extremely flexible in the choice of the roll width to wrap.

Another possibility is shown in the lower half of FIG. 1. Here, only two partition walls 31 are provided, which are axially movable in the bore 10 . The partitions 31 are arranged on a threaded spindle 32 , which has a right-hand thread 34 on the right and a left-hand thread 35 on the left. If one turns on an actuation element 33 , the partitions 31 move in the opposite direction in the axial direction symmetrically to a symmetry plane in the axial center of the roller 1 . This education has particular advantages if you always place the winding roll in the middle of the roller 1 . By adjusting the position of the partition walls 31 using the threaded spindle 32 , the width of the pressurized zone can then be adapted to the width of the winding roll.

Of course, only one of the two solutions shown in FIG. 1 will be used for a roller.

From Fig. 2 it can be seen that you can also several in the circumferential direction one behind the other channels 13 , in the present case two channels 13 , 10 can open into the same Boh tion. Accordingly, the openings 12 a and 12 b in the surface 14 with the same bore 10 in connection. Adjacent openings 12 c and 12 d are connected to other holes. Here, the distance between two openings 12 a, 12 b, which are connected to the same bore 10 , in the circumferential direction is smaller than the distance between two bores 12 a, 12 c and 12 b, 12 d, which in un different Holes 10 open. By this configuration, you can either enlarge the flow cross-section so that the air has reached the bore 10 with even less resistance, or you can keep the cross-section of each individual opening 12 a, 12 b small in order to further reduce the marking sensitivity.

Claims (8)

1. Roll winder roller with an elastic surface layer on a core, in the surface of which openings are arranged, each opening being connected via a channel to an air intake volume in United, which is completed at least in the circumferential direction of the roller, characterized in that each air intake volume ( 36 ) is arranged in a continuous axial direction, the front closed chamber ( 10 ) which is axially divided by at least one partition ( 30 , 31 ). 2. Roller according to claim 1, characterized in that the at least one partition ( 30 ) is arranged stationary. 3. Roller according to claim 1 or 2, characterized in that in the axial direction ( 9 ) between two openings Publ ( 12 ) a partition ( 30 ) is arranged. 4. Roller according to one of claims 1 to 3, characterized in that the partitions ( 30 ) are formed by clamping plugs. 5. Roller according to one of claims 1 to 4, characterized in that at least one partition ( 31 ) is designed to be movable and fixable in the axial direction. 6. Roller according to claim 5, characterized in that two partitions ( 31 ) are movable in pairs in opposite directions. 7. Roller according to one of claims 1 to 6, characterized in that a plurality of openings arranged one behind the other in the circumferential direction ( 12 a, 12 b) open into the same air intake volume ( 19 ). 8. Roller according to claim 7, characterized in that in the same air intake volume ( 10 ) open the openings ( 12 a, 12 b) in the circumferential direction have a smaller distance from each other than to openings ( 12 c, 12 d) in an adjacent air intake volume opens in the circumferential direction.