EP0887293A2 - Roll cutting device for a material web - Google Patents

Abstract

The cutter unit (4) cuts the material (3) into part-webs which are wound in a winder unit into part-web rolls (5,5',6,6') each of which has its own winder unit (39,39',39"). At least two winder units are positioned in a shared reel positioning groups (7,8). All the part-web rolls share a common pressure roller (20,21). Each winder unit has a positioner drive mechanism (24) holding the part-web roll against the pressure roller. The positioner drive mechanism has a sensor (37,38) measuring the diameter of the part-web roll. The pressure roller is contained in a carriage (32,33) movable at right angles to the axis of the part-web rolls.

Description

The invention relates to a roll cutting device for a material web with a cutting station for Cutting the material web into partial webs and a winding station for winding the partial webs into partial web rolls, one winding unit for each partial web roll is provided and at least two winding units in arranged a common winding position group are.

Many material webs are produced in one width, which is larger than that of a later processor needed. For example, paper webs in Paper machines manufactured that are up to a width 10 m. Printers the paper webs later want to continue to use, but only need widths in the range of 0.4 to 3.8 m. For this reason in one of the last manufacturing steps, the material web divided into partial webs. Here, the Material web usually from a so-called jumbo roll handled. The individual sub-lanes must then wound up simultaneously and together into partial web rolls will.

You also want to do this when winding up partial web rolls Structure of such a web roll as good as possible can control, i.e. you want to be able to Winding tension and thus the winding hardness of the partial web rolls to influence. In many cases, you also want to achieve that all partial web rolls with the same Quality are wrapped, practically that have the same internal structure.

To control and influence the winding quality a number of measures are known. Such a measure is that a pressure roller when winding with a predetermined pressure on the circumference of the emerging Role is held. A corresponding winding device is registered by the applicant under the name "Sensomat" distributed. This allows good winding results achieve. However, it is expensive such a Sensomat device for each winding unit to provide. In addition, such an application prepares then difficulties when the roll cutter Generate partial webs with changing web widths should. One would then have a corresponding one for each width Keep the pressure roller in stock.

The invention has for its object the structure of several partial web rolls with the least possible effort to control.

This task is done with a roll cutter of the type mentioned solved in that in the Winding position group one for all partial web rolls Pressure roller is arranged and that each winding unit has a positioning drive which Part web roll holds in contact with the pressure roller.

This approach has several advantages. On the one hand a single pressure roller is now sufficient for all partial web rolls a winding position group. Accordingly A single control is also sufficient to control the investment power. It no longer matters which widths have the individual web rolls, since the pressure roller no longer defined limits in the axial direction Are defined. It doesn't really matter much more, at which position or in which sections the respective partial web roll lies against the pressure roller. So you can drive changing cutting programs, i.e. Partial web rolls with different and changing Generate widths. The winding quality of the partial web rolls, that are wound in a winding position group, is for all partial web rolls in this winding position group essentially the same. This is achieved that each winding unit with the help of the positioning drive is positioned so that it is on the pressure roller is present. So you can by using of the positioning drive practically the same results achieve, as you have only done with a single Could achieve winding roll per pinch roller.

It is particularly preferred that the positioning drive has a sensor that the diameter of the Partial web roll determined and the partial web roll dependent positioned so that the circumference of all partial web rolls in the contact zone with the pressure roller lies on a straight line. The positioning drive therefore no longer positions the partial web roll in Dependent on pressure, but only dependent on the geometry of the partial web roll, i.e. dependent on on the diameter of the partial web roll. Man can position the partial web rolls so that their circumference in the area where they are in contact with the pressure roller, always lies on a straight line. So that's it geometric arrangement set. The pressure roller can then with the desired pressure on the partial web rolls are held so that the winding hardness and Winding tension can be kept at the desired values. This decouples the positioning of the Partial web rolls from printing. The position is only from that Geometry dependent. Usually the partial web rolls with the same structure also the same Diameter if they have the same length of material web has been supplied. It happens in practice though again and again that the paper thickness over the web width is not constant. In such a case small differences from partial web roll to Partial web roll, which is balanced by the positioning drive can be.

The pressure roller is preferably in a carriage arranged perpendicular to the axis of the partial web rolls is movable. With increasing diameter of the partial web rolls the carriage can then be moved away so that the function of the pressure roller over the entire winding process can be preserved. Inside the sled the pressure roller can still be moved using a pressure control that sets the contact pressure.

It is particularly preferred that the carriage is linear is movable in the radial direction of the partial web rolls. This changes with increasing diameter of the partial web rolls the contact geometry of the pressure roller to the Partial web rolls do not, which further simplifies control.

The slide advantageously has a drive which controlled depending on the diameter of the partial web rolls is. So the sled gets more and more Always move the diameter of the partial web rolls so that the pressure rollers the diameter increase can follow. The control of the force respectively the pressure with which the pressure roller on the partial web rolls is from the linear movement of the Sled decoupled.

Each winding unit advantageously remains with the Winding essentially stationary. This will make the Movement control simplified. The positioning drive only has to ensure that all partial web roles with their scope in the area where they are on the pinch roller lie on a straight line. Layered Movements such as those caused by an increase in diameter of the partial web rolls would be required, the positioning drive disregard.

Each winding unit preferably has a pair of Swivel arms with bearing mandrels for roll cores, the swivel arms from a winding position are pivotable into a storage position. You use the swivel arms are then used for two tasks. For wrapping the swivel arms are brought into their winding position. The positioning drive can be active there be set if necessary. The swivel arms but are also used at the same time, the to move finished partial web rolls out of the winding position and put it in a storage position where it from the roll cutter, more precisely, from the winding station, can be removed.

The swivel arms are preferably in the winding position essentially vertical. In the winding position the weight of the partial web rolls increases with increasing Diameter too. If the swivel arms are vertical, they can take up the weight without holding elements must also burden.

It is particularly preferred that the swivel arms individually parallel to the axial direction of the partial web rolls are movable. This can be done by a simple Change the position of the swivel arms different Set the widths of the partial web rolls.

At least one bearing pin of each pair is advantageous formed and driven by swivel arms as a mandrel. The partial web rolls are then driven by a center drive driven. For this it is necessary that at least one of the bearing arbors has a drive power can be transferred to the roll core. this happens expediently by training as a mandrel.

The material web is advantageously fed into the winding position group from above. This makes feeding easier. The partial web rolls can then be held or Swivel arms can be added in the direction of gravity are supported at the bottom. The pressure roller can also in their sled on a foundation or machine frame be supported without her Movement in conflict with the material web being fed device.

Fig. 1

eine schematische Seitenansicht einer Rollenschneidvorrichtung und

Fig. 2

eine schematische Draufsicht auf eine Wickelpositionsgruppe.

The invention is described below with reference to a preferred embodiment in conjunction with the drawing. Show here:

Fig. 1

is a schematic side view of a roll cutting device and

Fig. 2

is a schematic plan view of a winding position group.

A roll cutting device 1 has a web feed section 2 for a material web 3, which with the help a slitter 4 cut into several partial webs shall be. The partial webs then become partial web rolls 5, 6 wound up in two winding position groups 7, 8 are arranged so that the partial web rolls 5, 6 of adjacent partial webs to each other are arranged.

The partial tracks are in a switch arrangement 9 alternately transported to the left and to the right (based on the representation in Fig. 1), for example with the help of blowpipes 10, 11, the individually controllable Have nozzles.

The partial webs 18, 19 are then over deflection rollers 12, 13, guide rollers 14, 15 and guide rollers 16, 17 to the Partial web rollers 5, 6 out. In each winding position group 7, 8 a pressure roller 20, 21 is provided, which forms a nip with the partial web rolls 5, 6, into which the partial webs 18, 19 are introduced.

The partial web rolls 5, 6 are on swivel arms 22, 23 stored. The swivel arms are schematic using a shown drive 24, for example as Piston-cylinder unit can be formed from one essentially vertical position, as in Fig. 1 is shown, pivotable about 90 °, so that a fully wound partial web roll 5, 6 on the Floor 25 can be stored. The partial web roll 5, 6 then travels a path as shown by the dashed line shown double arrow 26 is indicated.

Each partial web roll has a winding tube 27, in which engages a mandrel 28, 29 on each holding arm 22, 23. The mandrels 28, 29 can for example be pneumatically operated. They are through schematically shown drives 30, 31 driven so that the Partial web rolls 5, 6 over their winding tube 27, that is over the roller core. It's about in other words, a center drive.

For reasons of clarity, in Fig. 2 with solid lines indicate the position of the partial web rolls 5 shown in which it is placed on the floor 25 are. With dashed lines is the winding position the partial web rolls 5 shown.

The pressure rollers 20, 21 are each on slides 32, 33 arranged in the direction of the double arrows 34, 35 are radially displaceable to the partial web rolls 5, 6. For this purpose, they can be moved on a machine frame 36 supported. On the sled 32, 33 are also still the guide rollers 14, 15 and the deflection rollers 16, 17th arranged. The pressure rollers 20, 21 are therefore at Wind the partial web rolls 5, 6 from the dashed shown position in which they are practically at the Wrap sleeve 27 abut in the solid lines Move position shown. Here they will under the action of a positioning drive, not shown, which is arranged on the slide 32, 33 with a certain pressure on the circumference of the partial web rolls 5, 6 held.

The movement of the slides 32, 33 is controlled with the help of diameter sensors 37, 38, which are continuous determine the diameter of the partial web rolls. Here are such sensors for each winding unit provided, i.e. it will actually be the diameter of all web rolls 5, 6 determined. The diameter sensors can be used, for example, as a rangefinder be trained the distance from their position determine the extent of the partial web rolls 5, 6.

The diameter sensors 37, 38 provide information for two tasks. Firstly, the control of the movement the carriage 32, 33 and thus also the movement 20, 21 made with the aid of the diameter information. The more the diameter increases, the further the carriage 32, 33 must be moved. For that be the diameter values of all partial web rolls 5, 5 ', 5' ' for example averaged. But it is also possible that Diameter of the largest or the smallest or also to use one of the middle web rolls.

The diameter of each individual web roll 5, 5 ', 5''(Fig. 2) is also required for another task. Each winding unit 39, 39 ', 39''is namely provided with a positioning drive which holds the circumference of the corresponding partial web roll 5, 5', 5 '' on the pressure roller 20. More precisely, each partial web roll 5, 5 ', 5''is positioned so that all partial web rolls lie on a straight line in the region of contact of the partial web rolls with the pressure roller 20. If the pressure roller 20 is now subjected to the corresponding pressure force, then it is in contact with all partial web rollers 5, 5 ^' , 5''with the same force, since all partial web rollers have assumed the same position here.

The positioning drive can, for example, by the Drive 24 may be formed when the diameter the partial web roll 5, 5 ', 5' 'is larger or smaller than that of another part web roll 5, 5 ', 5' ' Swivel arm 22 closer to or closer to the pressure roller 20 swings away.

Otherwise, the swivel arms 22, 23 remain with Wrap stationary.

Different diameters of the partial web rolls 5, 5 ', 5 '' can result, for example, if the paper web does not have a constant thickness over its width and therefore partial webs with different thickness result, the partial web rolls with different Generate diameters.

As indicated schematically in Fig. 2, the individual swivel arms in the direction of the double arrows 40 can be moved individually. This allows different Partial web widths and different Set distances so that different cutting patterns can be driven.

Claims (11)

Roll cutting device for a material web with a cutting station for cutting the material web in partial webs and a winding station for winding of the partial webs to partial web rolls, whereby for a winding unit is provided for each partial web roll and at least two winding units in one common winding position group are arranged, characterized in that in the winding position group (7, 8) one for all partial web rolls (5, 5 ', 5 '', 6) common pressure roller (20, 21) arranged and that each winding unit (39, 39 ', 39' ') has one Positioning drive (24) which has the partial web roll (5, 5 ', 5' ', 6) in contact with the pressure roller (20, 21) holds. Device according to claim 1, characterized in that the positioning drive (24) has a sensor (37, 38) has the diameter of the partial web roll (5, 5 ', 5' ', 6) determined and the partial web roll (5, 5 ', 5' ', 6) depending on the diameter positioned so that the circumference of all web rolls (5, 5 ', 5' ', 6) in the contact zone with the pressure roller (20, 21) lies on a straight line. Device according to claim 1 or 2, characterized the pressure roller (20, 21) in a carriage (32, 33) is arranged perpendicular to the axis the partial web rollers (5, 5 ', 5' ', 6) can be moved. Device according to claim 3, characterized in that the carriage (32, 33) linear in the radial direction the partial web rollers (5, 5 ', 5' ', 6) are movable is. Device according to claim 1 or 4, characterized in that that the carriage (32, 33) has a drive has, depending on the diameter of the Partial web rollers (5, 5 ', 5' ', 6) is controlled. Device according to one of claims 1 to 5, characterized characterized in that each winding unit (39, 39 ', 39' ') when winding essentially stationary remains. Device according to one of claims 1 to 6, characterized characterized in that each winding unit (39, 39 ', 39' ') has a pair of pivot arms (22, 23), the bearing mandrels (28, 29) for roll cores (27) have, wherein the swivel arms (22, 23) from a Swiveling position swiveling into a storage position are. Device according to claim 7, characterized in that the swivel arms (22, 23) in the winding position are essentially vertical. Device according to claim 7 or 8, characterized in that that the swivel arms (22, 23) individually parallel to the axial direction of the partial web rolls (5, 6) are movable. Device according to one of claims 7 to 9, characterized characterized in that at least one bearing mandrel (28, 29) of each pair of swivel arms (22, 23) as Mandrel is formed and driven. Device according to one of claims 1 to 10, characterized characterized in that the material web feed in the winding position group (7, 8) takes place from above.

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