DE112008003360B4 - Retractor and method for winding a fibrous web - Google Patents

Abstract

A reel (1) for continuously winding a fiber web around a reel spool (5) into a jumbo reel (6), characterized in that the reel drum (10) is shorter in its transverse direction (y) than the nominal bearing distance ( 51) of the reel spool (5), and that the reeling drum (10) is movable in the height direction (z) in the clearance (201) of the frames (20) viewed from the rotation axis (101).

Description

The invention relates to a retractor for continuously winding a fiber web around a reel spool in a jumbo roll.

The invention also relates to a method for continuously winding the fibrous web around the reel spool.

A reel or rewinder is a device that wraps a material made as a continuous fibrous web into the form of a roll, a jumbo roll. In the fiber web manufacturing process, curling is a first sub-process in which a continuous process is interrupted to continue in individual sequences. The jumbo roll is formed around the reel spool which acts as the core of the reeling, i. H. the fiber web on a jumbo roll has a beginning and an end. A continuing trend in this area is the continued increase in jumbo reels, which creates a continuing need for reel-to-reel development. In practice, the size of the reel spool defines the maximum size of the jumbo reel. However, because it is a dynamic environment and the fibrous web is a rollable material subject to various defects, the task performed by the reel to maintain the efficiency of a paper or board machine is very important. One reason for the continuous increase in the size of jumbo reels is the desire to reduce the number of starts and stops in the manufacture of fibrous webs which hinder or disrupt production and reduce efficiency.

Previously, this has been described in FI patent 91383 ( EP 0483092 B1 ), the size of jumbo rolls has been brought into a new range because it has been possible to construct the first part of the jumbo roll in a good manner with respect to the properties of the fibrous web which should be rolled up. The importance of the first part is enhanced as the length of the fibrous web to be rolled up is increased because the first part serves as the base of the roll structure. A feature that has improved the technology in this regard has been the progressive central momentum of the jumbo roll, which has been provided by primary and secondary drives, which has enabled the versatile use of roll-up parameters in the construction of the jumbo roll. The prior art prior to this solution involves a so-called pope roller in which the jumbo roll was built by pressing the jumbo roll against a driven winding drum, whereby the jumbo roll was formed by the friction between the winding drum and the jumbo roll.

In his day, that led to that U.S. Patent 5,370,327 described for the first time the idea in this field that the jumbo roll is built in a vertical plane so that the jumbo roll was on horizontal rails and was at the same vertical height throughout the reeling. FI 91383 also showed this approach, but before rolling was started, the reel spool was moved to its initial position in accordance with the Pope Roller. The moving reeling or winding drum in the U.S. Patent 5,370,327 makes it possible to keep the center of the reel spool at a constant height. An advantage of this approach is to change the setting of the nip force from the load on the side of the jumbo roll to a load on the side of a constant mass take-up drum.

In addition to the second-generation "pioneer" patents of reels in the range described above, there is a wide variety of different embodiments in which the principles described in these two patents have been developed. One of them is in the U.S. Patent 5,931,406 described.

In connection with the description of this invention, the following terms are used to support the description: the machine direction (MD) is referred to as the x-direction, the transverse direction (CD) is referred to as the y-direction, and the height is referred to as the z-direction designated. The direction in which the fibrous web arrives is referred to as the upstream direction, and the direction in which the fibrous web extends is referred to as a downstream direction. In this context, the core of reeling is referred to as a reel or a reel spool, but it could also be called a reeling axle.

The object of this invention is to develop a solution which allows the construction of even larger jumbo rolls than before. It is also an object of the invention to provide a solution which, however, is based on its rolling-up principle in the known manner of forming jumbo rolls by means of the reeling drum.

The aim of a particular preferred embodiment of the invention is to provide a particularly stiff or strong construction of the retractor which is capable of repeating the desired Aufrollparameterwerte with a very high repeatability, to create a first-class jumbo roll, even if at the Start the mass of the reel spool alone and in the end the Mass of the finished jumbo roll is large compared to a typical mass at the filing date of the present invention. In other words, the aim of the particular preferred embodiment is to provide a new generation of reel-up that shifts the maximum size of jumbo reels to a new order of magnitude.

The reel-up according to the invention is characterized in that the reeling drum is shorter with its axis in the y-direction than the nominal storage space of the reel spool, and that the reeling drum is viewed in the z-direction in the space between the frames from the axis of rotation or from the axis of rotation or as determined on the axis of rotation is movable.

The method according to the invention is again characterized in that the tightness of the roll formed by the reel-up according to claim 1 is produced by means of a press roll by joining the press roll into nip contact with the jumbo roll to be wound up.

The reel-up according to the invention can be used to achieve the desired increase in the size of the jumbo reel.

• 1 den Schnitt des Aufrollers gemäß einer bevorzugten Ausführungsform in der y-Richtung zeigt;
• 2 den Schnitt des Aufrollers gemäß einer bevorzugten Ausführungsform in der x-Richtung zeigt;
• 3 den Schnitt der Aufrolltrommel und der Rahmenstruktur des Aufrollers gemäß einer bevorzugten Ausführungsform in der x-Richtung zeigt;
• 4 eine Endstruktur der Aufrolltrommel des Aufrollers gemäß der bevorzugten Ausführungsform zeigt;
• 4a, 4b und 4c Ausführungsformen der Anordnung von Antrieben zeigen;
• 5 einen Aufroller gemäß der bevorzugten Ausführungsform in der z-Richtung zeigt;
• 6a-6d und 7a-7d mögliche Aufrollsequenzen zeigen;
• 8 die Wirkung der Antriebe auf die Straffheit der Jumborolle zeigt.

The preferred embodiments of the invention will be described in detail by means of the accompanying drawings, in which:

• 1 shows the section of the retractor according to a preferred embodiment in the y-direction;
• 2 shows the section of the retractor according to a preferred embodiment in the x direction;
• 3 shows the section of the reeling drum and the frame structure of the reel according to a preferred embodiment in the x direction;
• 4 shows an end structure of the reeling drum of the reel-up according to the preferred embodiment;
• 4a . 4b and 4c Show embodiments of the arrangement of drives;
• 5 shows a reel according to the preferred embodiment in the z-direction;
• 6a-6d and 7a-7d show possible roll-up sequences;
• 8th the effect of the drives on the firmness of the jumbo roll shows.

1 shows a reel 1 , which as its main parts a winding or reeling drum 10 and a frame 20 having. A fiber web W is continuously in sequences around a winding shaft or reel spool 5 rolled up, which serves as the core of the reeling, ie when the desired amount of fibrous web W on a jumbo roll 6 has been rolled up, the fiber web is cut and guided to the next empty reel spool 5a to be rolled up. 1 shows the phase of the sequence immediately before the time of changing the jumbo roll, with the jumbo roll 6 , which has been completed, to the changing station and from the reeling drum 10 has been taken away. At the starting point of reeling, a new reel spool rotates 5a with one of the propagation or movement speed of the fibrous web W essentially corresponding speed. A nip force F acts between the reel drum 10 and the reel spool 5a , A cutting or tilting or turning device 40 is ready to get the fiber web W who are still on the jumbo roll 6 moved up to cut. A press roll 30 , which is the surface of the jumbo roll 6 presses, rolling up the surface layers of the jumbo roll, which is completed, and holding them together after pulling out, and that until the jumbo roll 6 to stop rotating.

2 shows the cross section of the retractor 1 according to a preferred embodiment in the x-direction. In 1 becomes the reel spool 5 through the frame 20 on their bearing housings 57 held or supported. The reel spool is about the centerline C symmetrical, ie at each end of the reel spool 5 There are similar structures, which with reference to 3 will be described in detail. 2 further shows the structure of the reeling drum 10 , The reel drum 10 has a coat 100 , End up 103 , Axes 105 , a web feed area 106 and bearings 108 on. In this way, the reel drum with bearings 108 provided to the axis of rotation 101 to be rotated. A translation or a gear 109 , which the rotational movement to the reeling drum 110 transfers, and a drive 110 which rotates the winding drum are described in detail below. 2 also shows the arrangement of the reeling drum 10 between the frames 20 ,

3 shows a closer detail of 2, d , H. the cut of the reel drum 10 and the frame structure of the retractor 1 according to a preferred embodiment as well as the end portion of the reel spool 5 in the x direction.

The reel spool 5 has a coat 50 , an end 53 , an axis 55 , a bearing housing 57 within which are bearings 58 located, and a clutch 59 on. The bush-like bearing housing 57 is by means of bearings 58 for rotation with respect to the rest of the structure of the reel spool 5 to the rotation articulated, ie the coat 50 , the ends 53 , the axes 55 and the couplings 59 rotate as an arrangement that is very firmly connected to each other. The through the mass of the reel spool 5 (and the jumbo roll 6 ) generated force is applied to the frame 20 the retractor 1 through a groove 570 , which are in the bearing housing 57 is transferred. The groove 570 Make sure the reel spool 5 in a desired arrangement on the frame 20 remains.

A nominal bearing distance 51 the reel spool 5 (the direction is in 3 indicated by an arrow) can be determined as a measure which extends from the center of the groove 570 the first end of the reel spool up to the middle of the groove 570 extends its second end. In this context, it is not necessary to define the center more precisely because, to be exact, when the bearing distance is set, the characteristics of the slightly different and generally two bearings 58 should be considered, with the bearings inside the bearing housing 57 are arranged. The nominal bearing distance 51 However, this is also the basic measure of the distance between the frames 20 ie it is approximately the same as the distance between the centers of the frames 20 ie the distance 200 the frame (the direction is in 3 indicated by an arrow). If two times half the thickness of the frame from the distance 200 the frame 20 This leads to an approximate space between the frames, ie to the "wall-to-wall" dimension between the frames 20 , However, this measure is not necessarily exactly this, because the balancing of the machines and the like can be performed in this area, which increases the "wall-to-wall" dimension. In the context of this invention, the "wall-to-wall" dimension obtained in this way or the gap becomes a clearance 201 designated. 3 shows an example of the free space 201 ,

In 3 is shown that the reel drum 10 with its axis 105 shorter in the y-direction than the nominal bearing distance 51 the reel spool 5 is and that the reel drum 10 in the z-direction between the frames 20 from the axis of rotation 101 or from the axis of rotation 101 is movable. In this embodiment according to the figure, the optional mobility in the x-direction has also been introduced into the basic structure. To mobility is the reel drum 10 associated with horizontal and vertical guides, of which 3 a horizontal guide 120 shows. In this way is the reel drum 10 capable of, if desired, a nip force F between the jumbo roll 6 and the reel drum 10 in an optional direction on the xz plane, as in 1 shown. Naturally, this optional direction of the nip force requires that the direction, at least to a certain extent, in the direction of the jumbo roll 6 or the reel spool 5 is directed, so that the nip force F can be generated or exist at all.

3 also shows how a drive shaft 1101 from the drive 110 is arranged to the rotational force to the reeling drum 10 to transfer, with the drive shaft 1101 provided with the gearbox 109 in the z-direction with a distance 1091 from the axis of rotation 101 the reeling drum to be connected. In order to achieve a smooth and uniform rotational speed, it is advantageous as the drive shaft 1101 to use a constant velocity propeller shaft or the like, in which a current joint angle has no effect on the rotational speed or the angular velocity of the drive shaft 1101 Has. Consequently, the drive shaft is located 1101 in the z-direction around the distance 1091 from the axis of rotation 101 the reeling drum, whereby the inspection point comprises the end, which is on the side of the reeling drum 10 the drive shaft 1101 located. This type of "offset" is a factor which provides a sufficient strength of the structure of the frame 20 and the thickness of the frame in the z-direction 205 next to the rotation axis 101 the reel drum allows. The purpose of this is to roll up extremely heavy jumbo rolls in this way 6 to enable. The gear 109 the reel drum 10 is also located in the area of the open space 201 , In solutions known from the prior art, the elements which are the drive shaft 1101 correspond, generally directly with the axis of rotation 101 the reel drum 10 connected. However, this approach, which can be used as such, leads, among other things, to consequences concerning the selection of the diameter of the reeling drum and the reel spool and the thickness of the frame in the z-direction. If a reel drum and / or reel spool of relatively small diameter is used for this prior art solution, the thickness of the frame in the z direction which remains above the drive shaft is determined by the geometry chosen for that or other reasons. The solution according to the preferred embodiment according to the invention has a considerably freer geometry.

4 shows a structure of the end portion of the reeling drum 10 the reel-up according to the preferred embodiment. In 4 is the reel drum 10 so by means of bearings 108 (not shown), which are located within the bearing housing 107 are located around the axis of rotation 101 to rotate. The reel drum 10 is with horizontal (the x-direction) guides 120 and vertical (the z-direction) guides 121 connected to the movement of the reeling drum on the xz Level enable. 4 also shows an embodiment of the transfer device or power transmission of the reeling drum 10 , which a first transfer device or power transmission 130 for generating a movement and possibly a force in the x-direction and a second transfer device or force transmission 131 for generating a movement and a force in the z-direction. It may be, for example, hydraulic cylinders, servo cylinders, screw spindles or the like. The first transfer device or power transmission 130 and the second transfer device or power transmission 131 are preferably able to measure a force very accurately or in particular, in the direction of the nip force F , It should also be noted that the first transfer device or power transmission 130 and the second transfer device or power transmission 131 are not necessarily similar because, according to one embodiment, the nip force F mainly in the z-direction by means of the second transfer device or force transmission 131 is set. On the other hand, the oscillation of the jumbo roll becomes mainly by means of the first transfer means 130 performed, in the x-direction. In other words, the force or a force component need not necessarily be set in the x-direction, but the entire force adjustment may be performed in the z-direction as well. A device for the exact determination of the position is preferably also in the first transfer device or power transmission 130 and the second transfer device or power transmission 131 or the connected structure for determining the exact position of the reeling drum 10 been integrated. In this way, the geometry of the reel-up is known, if the same information regarding the jumbo roll is obtained. This position detection can be implemented, for example, by means of a suitable stepping motor, a laser position measurement, a linear motor, a magnetostrictive measurement or the like. According to one embodiment, the bearings 108 the reel drum and the actuators 120 . 130 in the x-direction in the open space 201 arranged. Furthermore, the actuators 121 . 131 in the z-direction in the open space 201 or be arranged outside of it, as in the in 4 illustrated embodiment.

4 also shows an embodiment in which the drive shaft 1101 which of the drive 110 with the gearbox 109 is connected, in the z-direction by the distance 1091 away from the axis of rotation 101 the reel drum is located. A conventional way of arranging the power transmission of the reeling drum is to arrange a gear having a gear with a reduction approximately in contact with the drive and to bring the drive shaft from this gear to the end of the reeling drum. In this embodiment according to the invention, the transmission is located 109 with its possible reduction gears and gear teeth at the end of the reeling drum in a parallel direction but with the distance 1091 , One possible implementation of this is, for example, a comb wheel or toothed wheel of the gearbox directly on the axle 105 the winding drum 10 to arrange and the other comb wheel or gear on the second axis, with which then the drive shaft 1101 connected is. The distance 1091 can be set as desired in such an embodiment, and a gear pair satisfying the requirements can be constructed for this purpose. Another possible embodiment involves the use of a toothed belt and a gear pair as the transmission 109 , Another possible embodiment is to use a bevel gear, so that the game of reeling drum is implemented by means of the intermediate shaft of the angular gear. In this case, each end of the drive shaft 1101 be provided with bearings in a static bearing housing when the intermediate shaft in the transmission 109 has been designed to change its length.

In practical applications, the distances 1091 in the z-direction are on the order of 300-900 mm, whereby the spacing would include a larger number of suitable transmission elements. A criterion for an applicable numerical value of "around the distance 1091" includes dimensions which correspond to the radius of the reeling drum 10 can be compared. At much higher values than the radius, the structure of the retractor 1 unnecessarily complex, whereas a "distance 1091" having a coefficient of less than 0.5 compared to the radius may make it difficult to achieve a sufficient power transmission capacity. As a rough generalization, it could be stated that a preferred embodiment is likely to be at a distance 1091 could be found which is 0.5-1.5 times the radius of the reeling drum.

4 also shows a preferred embodiment in which the components used in the reeling drum 10 are present and the reel drum 10 move, by means of a subframe 150 connected to each other. This allows a logical arrangement of the device with a distance from each other, which is suitable for the operation; if there is a suitable construction, this also stiffens the structure of the retractor 1 , A particular advantage of this embodiment is its easier maintainability, because almost every component or part of the retractor is quick and easy can be replaced without the structure must be dismantled on a large scale. Examples of systems attached to the subframe 150 can be attached, include the construction of a doctor blade 45 or that of a changing device 40 , as in 1 shown.

4A shows an alternative embodiment of the arrangement according to 4 , in which at least one drive 110 in the open space 201 is arranged. The purpose of this solution is to provide a way to implement different structural solutions. The basic idea can be carried out in different ways. Such an embodiment is based on the solution of a drum motor in which a rotor 110R , which is the outer jacket of the drive 110 has, is integrated with the coat 100 the reel drum 10 to rotate. In this case, the axis is used 105 the reel drum 10 as part of a stator 110S and is in a non-rotating manner with its round body, such as the subframe 150 , connected. This solution can further as a single drive, with only one drive 110 is located at one end of the reeling drum, or as a double drive, wherein similar drives are provided at each end of the reeling drum. The advantage of two drives 110 compared to the single drive version, the smaller size of the drives, which in turn provides greater freedom in the design of other structural solutions. Another advantage is the symmetry of the structure of the reeling drum 10 which promotes the exact controllability and adjustability of each end of the winding drum with respect to the nip load. On the other hand, adjusting the second drives to achieve optimally synchronized operation results in less additional challenge.

4B shows a further alternative embodiment in which the drive 110 directly with the gearbox 109 without the actual drive shaft 1101 connected is. This solution can also by means of one or two drives 110 be executed as in 4A ,

4C shows a further alternative embodiment in which a toothed belt or sprocket with the axis 105 the reeling drum is connected and another toothed belt or sprocket with the axis of the drive 110 connected is. That way, the drive can 110 either statically arranged or together with the subframe 150 to be moved.

As a summary, it could be stated that a common circumstance of the embodiments according to the 4A . 4B and 4C This is that the drive or the drives 110 in the open space 201 located or located. Furthermore, all of these embodiments may have one or two drives 110 either at one or both ends of the reel drum 10 exhibit. The advantages of these embodiments include, among other things, that the scalability of the retractor is facilitated; especially in the embodiments with two drives. Scalability herein refers to a property that can be used to alter the size ratios of the structural solutions, if necessary, without significant redesign. Another advantage is the possibility of a reel drum 10 with a relatively small diameter and / or a reel spool 5 to use with a relatively small diameter, if desired.

5 shows a reel according to a preferred embodiment in the z-direction. The figure shows one way of arranging the central drive which, for example, generates the central moment of the jumbo roll. The figure shows a first drive 7 and a second drive 8th , These can be arranged in different ways. The first drive 7 can be fixed or movable, this also applies to the second drive 8th , The first drive 7 and the second drive 8th can take turns winding the jumbo roll 6 take over from start to finish. This can be done for example by a direct drive, in which the rotor of a synchronous motor is connected to the reel spool substantially without clearance. In this case, therefore, a directly usable synchronous motor can take over the entire rolling from the beginning to the completion of the role. Direct drive technology has developed in a very positive direction with respect to the roll-up applications of fibrous webs; for this reason, this technology can be used in most end-uses in the field of fiber web winding. Other applications may include the press rolls of reelers or reel slicers, winding drums, carrier rolls, and possible auxiliary rolls alone or in conjunction with the electric drives of conventional technology. This technology, ie the combination of a permanent magnet motor and a support software application makes it possible to achieve more torque through the drive motor than was previously possible by conventional short circuit motors of the same size. A particularly positive feature in many applications is the ability to omit the transmission.

Another alternative according to 5 is to perform the rolling sequentially, so that the first drive 7 The rolling up begins, rolling up for a while, after which the second drive 8th during the run by means of a clutch 59 with the up reel 5 is connected, a change is performed and the second drive 8th the rolling up completes and the finished jumbo roll 6 stops. Also in this embodiment, either one or both drives can be direct drives or drives which operate via a transmission. The press roll 30 (in 5 not shown) preferably also moves in a nip contact with the jumbo roll 6 just before the nip between the reeling drum 10 and the jumbo roll 6 is opened. In this way, the change can be made with the open nip, which is an option in the Jumbo roll change sequence, the surface layers of the jumbo roll still being of high quality.

The reel according to 1 can be used to set the rewind sequence according to the 6a-6d which may be referred to as a "closed nip change". Alternatively, the in the 7a-7d shown sequence can be performed. This sequence according to the 7a-7d may be referred to as an "OptiReel change" or an "open nip change".

6a shows a second sequence phase in which the reel-up 1 in its normal reeling mode, the fibrous web W in the jumbo roll 6 around the reel spool 5 being rolled up. The reel drum 10 Rolls against the jumbo roll 6 pressed. The nip force F acts between the jumbo roll 6 and the reel drum 10 , They are empty reel spools 5 available, which wait until it is their turn. The first of these, ie the reel spool 5a which is rolled up next is already in contact with the first drive 7 been arranged. The first drive 7 starts, the reel spool 5a rotate in time before changing, so that any by storing the reel 5a caused deformation can be eliminated before starting the actual reeling.

6b shows the sequence phase immediately before the change or at the time of the change. The jumbo roll 6 has reached its target value, ie generally the target length of the fibrous web W which is to be rolled up. The press roll 30 will be against the jumbo roll 6 which is completed, driven to prevent the roll of jumbo roll in the deceleration phase. The next reel spool 5a is in contact with the reel drum 10 upstream of the upper reversal point of the reeling drum, the reel spool 5a ready, the fiber web W to receive, starting from the time of the change. Subsequently, the fiber web W between the jumbo roll 6 and the reel spool 5a cut, leaving the fibrous web W moves to the reel spool 5a to be wrapped.

6c shows a situation in which the old jumbo roll 6b stopped or stopped and the press roll 30 still in contact with the surface of the jumbo roll 6b located. A new jumbo roll 6a Forms around the reel spool 5a , The reel drum 10 Gives slightly (moves slightly down in the z direction) to the new master drum 6a with its reel spool 5a to allow yourself from upstream of the reel drum 10 above the upper reversal point and down to move.

6d shows a sequence phase in which the old jumbo roll 6b has stopped, ie rotating the jumbo roll 6b has stopped. After stopping, the press roll 30 no longer needed to make sure the jumbo roll 6b stay together; for this reason, the press roll is moved to wait for the next pass. The 6a-6d show a possible arrangement or a load point of the press roller 30 ie slightly upstream of the lower reversal point of the jumbo roll, which is completed. The next application of the press roll 30 is preferably performed immediately after the previous jumbo roll has stopped; at the latest, however, before the next change. In 6d is the new jumbo roll 6a already some time around the reel spool 5a rolled up; That's why the diameter of the jumbo roll has changed 6a already increased by a certain amount. The jumbo roll 6a increases from here continuously until the situation according to 6a is reached again.

The 7a-7d show another alternative roll-up sequence. In the 6a-6d and 7a-7d the direction of arrival of the fibrous web to the reeling drum is vertical. However, this is not the only possible implementation, but the angle of incidence can be selected as desired, taking into account the effect of the tension of the fibrous web on the reeling drum.

7a shows a sequence phase in which the reeling drum is in its normal Aufrollzustand, in which the fiber web W in a jumbo roll 6 around the reel spool 5 being rolled up. The reel drum 10 Rolls against the jumbo roll 6 pressed. The nip force F acts between the jumbo roll 6 and the reel drum 10 , They are empty reel spools 5 available, which wait until it is their turn. The first of these, ie the reel spool 5a which will be rolled up next is already in contact with the first drive 7 been arranged. The first drive 7 starts, the reel spool 5a to rotate in time before the change, so that any by storing the reel spool 5a caused deformation can be eliminated before starting the actual reeling.

7b shows the sequence phase immediately before the change or at the time of the change. The jumbo roll 6 has reached its target value, ie generally the target length of the fibrous web W which is to be rolled up. The press roll 30 will be against the jumbo roll 6 which is completed, driven to prevent the roll of jumbo roll in the deceleration phase. The next reel spool 5a is in contact with the reel drum 10 upstream of the upper reversal point of the reeling drum, preferably not to downstream. In this case, the reel drum has 10 moved slightly down in the z-direction, creating a new reel spool 5a was able to move from upstream to the reel drum 10 to move above the upper reversal point and downstream. The reel drum 10 may have been able to get already while reeling the jumbo roll 6 to move down, leaving the next reel spool 5a the upper reversal point of the reeling drum 10 can happen at almost any time during reeling. Before changing the reel drum 10 lifted back to its upper position, creating a nip contact between the reel spool 5a and the reel drum 10 is formed. In this position is the reel spool 5a ready, the fiber web W to receive, starting from the time of the change. Subsequently, the fiber web W between the jumbo roll 6 and the reel spool 5a cut, leaving the fibrous web W moves to the reel spool 5a to be wrapped.

7c shows a case in which the old jumbo roll 6b stopped or stopped and the press roll 30 still the surface of the jumbo roll 6b touched. A new jumbo roll 6a Forms around the reel spool 5a ,

7d shows a sequence phase in which the old jumbo roll 6b has stopped, ie rotating the jumbo roll 6b has stopped, and the fiber web W on the jumbo roll 6a being rolled up. After stopping, the press roll 30 no longer needed to make sure the jumbo roll 6b stay together; for this reason, the press roll is moved to wait for the next pass. The 7a-7d show a possible arrangement or a load point of the press roller 30 ie slightly upstream of the lower reversal point of the jumbo roll, which is completed. Also in this sequence will be the next application of the press roll 30 preferably immediately after the previous jumbo roll has been stopped; at the latest, however, before the next change. In 7d is the new jumbo roll 6a been rolled up for some time already; That's why the diameter of the jumbo roll has changed 6a already increased by a certain amount. The jumbo roll 6a increases from here continuously until the situation according to 7a is reached again.

The press roll 30 may have the same properties or approximately the same properties as the reeling drum. A suitable criterion for the operation of the press roll 30 is their ability to produce sufficient nip force - up to the level of about 5 kN / m. For example, the coating may be slightly rough, flexible, or otherwise slip-resistant. In this case, a non-slip contact between the fiber web W and the press roll 30 are formed, whereby a Aufrollkraft by the press roller 30 can be generated by a torque to the voltage of the jumbo roll 6 to influence. This roll-up force can be used as an active roll-up parameter between a positive roll-up force (= pull) - a negative roll-up force (= delay). If a smooth surface of the press roll 30 is selected, the torque due to chutes can not be used; the jumbo roll 6 However, by means of the nip force of the press roller 30 be streamlined. When the reel drum 10 and the press roll 30 are selected to have similar constructions, then, in addition to being able to produce identical roll-up parameters, a considerable advantage is also achieved in terms of spare parts because only one type of replacement roll is needed. On the other hand, the press roll, which has a smaller diameter than the reeling drum, may have some advantages in terms of the geometry of the reel-up, such as a flat reeling structure.

8th represents the effect of using the press roller 30 on the tension or firmness of the jumbo roll 6 in this 8th the x-axis shows the diameter D the jumbo roll 6 from the initial diameter D ₀ to the final diameter D ₃ and the y-axis shows the achieved hardness of the winding tension H , The effect of the nip force F and the tension T the fibrous web on the tightness of the reeling remains approximately constant, regardless of the diameter of the jumbo reel, but the effect of the center moment M decreases substantially as the diameter increases. This decrease can be made by tightening WT _1,2 the jumbo roll can be compensated, thanks to the press roller 30 is performed. The tightening may be based on the nip force or the torque of the press roll 30 or a combination thereof. Now allows the construction of the retractor 1 including such an additional parameter in a very early stage of forming the roll. This introduction of the additional parameter WT ₁ is almost immediately after stopping the completed Jumbo roll 6 possible, as long as the press roller 30 has been moved to its loading position in which the press roller is pressed against the jumbo roll. In this case, the diameter of the jumbo roll is D ₁ , To be more specific, the launch can be done simultaneously with the pause, or even before the finished jumbo roll stops, if the fiber web W Has properties that allow the jumbo roll to remain in the last stage of deceleration without unwinding. Another alternative is not the same wrap-tightness WT ₂ used by the press roll to use up to the last stage of reeling when the diameter of the jumbo roll D ₂ is. In this case, the effect remains on the hardness H considerably smaller than in the previous alternative. The loading station can be arranged in different places, but around a free movability of the jumbo rolls 6 to provide, a preferred arrangement is slightly upstream of the lower reversal point of the jumbo roll. In this way, the diameter of the press roll 30 be relatively freely selected, without the completed jumbo roll on the press roller 30 must be lifted or a particularly "low" position for the press roller for this bypass operation must be arranged.

Furthermore, the preferred embodiments included in 1 a feature according to which the scraper blade 45 the reel drum 10 in the same functional unit as the reeling drum, e.g. B. in the subframe 150 , arranged, causing the scraper blade 45 arranged so that they are together with the reeling drum 10 emotional. In a particularly preferred embodiment, the cutting device 40 or more generally the changer 40 into the structure of the scraper blade 45 Integrates and thus cuts the fiber web by the command of the operator or the control system and guides them to the new reel spool 5 to be rolled up. The changer may be, for example, a water jet, a gooseneck, a cutter blade changer, or other similar changer.

The reel-up according to the invention makes some very attractive alternatives possible. If desired, the reel drum may be selected to have a relatively small diameter roller which allows for a nip which effectively prevents air from entering the roller. Another advantage of a particular embodiment of the invention is its applicability to so-called rebuilding, in which a reel is present in the paper mill or the like, which is to be modernized. The retractor described above can be easily applied in cases where the diameter of the reel spool is not a critical factor in the geometry of the retractor; certainly she still determines the largest possible Jumbo roll 6 which can be rolled up. Second, due to the low layout of the retractor 1 No problems are generated by the height of the machine hall.

LIST OF REFERENCE NUMBERS

1

retractor

10

reeling

100

coat

101

axis of rotation

103

The End

105

axis

106

Web feed area (suction area)

107

bearing housing

108

camp

109

transmission

1091

distance

110

drive

110R

rotor

110S

stator

1101

drive shaft

120

horizontal leadership

121

vertical guidance

130

first transfer device or power transmission

131

second transfer device or power transmission

150

subframe

20

frame

200

Distance of the frame

201

free space

205

Thickness of frame in z-direction

30

press roll

40

Cutting device, turning device (?)

45

scraper blade

5

up reel

5a

up reel

50

coat

51

nominal bearing clearance

53

The End

55

axis

57

bearing housing

570

groove

58

camp

59

clutch

6

Jumbo roll

7

first drive

8th

second drive

C

center line

F

Nip force

W

fiber web

Claims (26)

A reel (1) for continuously winding a fiber web around a reel spool (5) into a jumbo reel (6), characterized in that the reel drum (10) is shorter in its transverse direction (y) than the nominal bearing distance ( 51) of the reel spool (5), and that the reeling drum (10) is movable in the height direction (z) in the clearance (201) of the frames (20) viewed from the rotation axis (101). Reel (1) to Claim 1 , characterized in that the reeling drum (10) is movable in the machine direction (x). Reel (1) to Claim 1 characterized in that a drive shaft (1101) is arranged to transmit a rotational force from a drive (110) to the reel drum (10), the drive shaft (1101) being arranged to engage with a gear (109). in the height direction (z) at a distance (1091) from the rotation axis (101) of the reeling drum. Reel (1) to Claim 1 characterized in that a drive shaft (1101) is arranged to transmit a rotational force from a drive (110) to the reel drum (10), the drive shaft (1101) being arranged to engage with a gear (109). in the height direction (z) at a distance (1091) from the rotation axis (101) of the reeling drum, the distance being 0.5-1.5 times the radius of the reeling drum (10). Reel (1) to Claim 2 characterized in that the reeling drum (10) is provided in an arbitrary direction on the xz plane, if desired, for producing a nip force (F) between the jumbo reel (6) and the reeling drum (10). Reel (1) to Claim 1 characterized in that the reeling drum (10) is arranged to generate a nip force (F) between the jumbo reel (6) and the reeling drum (10) in the height direction (z). Reel (1) to Claim 1 , characterized in that it comprises a second transfer device (131) for generating movements and force in the height direction (z). Reel (1) to Claim 1 , characterized in that the gear (109) of the reeling drum (10) is in the region of the free space (201). Reel (1) to Claim 1 , characterized in that the bearings of the reeling drum (108) are arranged in the free space (201). Reel (1) to Claim 1 , characterized in that the reeling drum (10) is connected to vertical guides (121). Reel (1) to Claim 1 , characterized in that in the height direction (z) a transfer device (121, 131) is provided, which in the free space (201), outside the clearance (201) or adjacent to the nominal bearing distance (51) is arranged. Reel (1) to Claim 2 characterized in that it comprises a first transfer device (130) for generating movements in the machine direction (x). Reel (1) to Claim 2 , characterized in that the reeling drum (10) is connected to horizontal guides (120). Reel (1) to Claim 2 , characterized in that the transfer means (120, 130) of the reeling drum is arranged in the machine direction (x) in the clearance (201). Reel (1) to Claim 1 characterized in that a scraper blade (45) of the reeling drum (10) is disposed in the same functional unit as, for example, a subframe (150) such as the reeling drum (10), the scraper blade (45) being arranged to moves along with the reel drum (10). Reel (1) to Claim 15 , characterized in that in the structure of the scraper blade (45) an exchange device (40) is integrated. Reel (1) to Claim 1 , characterized in that at least one drive (110) in the free space (201) is provided. Reel (1) to Claim 1 , characterized in that all drives (110) are arranged in the free space (201). Reel (1) to Claim 1 characterized in that a rotor (110R) having the outer shell of the drive (110) is integrated so as to rotate together with the shell (100) of the reeling drum (10). Reel (1) to Claim 1 , characterized in that the drive (110) is directly connected to the transmission (109). Reel (1) to Claim 1 , characterized in that a toothed belt wheel or sprocket with the axis (105) of the reeling drum (10) and a second toothed belt wheel or sprocket with the axis of the drive (110) is connected. Reel (1) to Claim 1 , characterized in that one or two drives (110) are provided, either only at one end or at both ends of the reeling drum (10). Method for continuously winding a fibrous web around a reel spool (5) into a jumbo reel (6), characterized in that the tightness of the reel passing through the reel (1) follows Claim 1 is formed by means of a press roller (30) by connecting the press roller (30) in a nip contact with the wound Jumbo roll (6) is generated. Method according to Claim 23 characterized in that the press roll (30) can be brought into nip contact with the jumbo roll (6) to be wound, before the jumbo roll (6) is stopped, simultaneously with the stopping of the jumbo roll (6), after stopping the jumbo reel (6) or at the latest before the jumbo reel (6) is released from the nip contact with the reel drum (10). Method according to Claim 23 characterized in that a firm contact can be formed between the fibrous web (W) and the press roll (30), whereby the tightening (WT ₁ , WT ₂ ) of the jumbo roll (6) produced by the press roll (30) can be performed on the nip force or the torque of the press roller (30) or a combination thereof based. Method according to Claim 23 characterized in that the action of the press roll (30) tautening the jumbo roll (6) is used to compensate for the effect of the increasing radius of the jumbo roll (6) on the roll tension created by the central moment (M).

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