This application is a national stage application of International App. No. PCT/FI2004/050055, filed May 4, 2004, the disclosure of which is incorporated by reference herein, and claims priority on Finnish Application No. 20035059, Filed May 5, 2003.
Not applicable.
This invention relates to a method for tensioning and guiding a fabric in a paper or board machine, which includes a fabric that is adapted to be mobile and arranged as an endless loop, and rolls arranged to support the fabric, and in which method the fabric is tensioned by changing the position of both ends of one roll of the said rolls in relation to the fabric without changing the roll alignment in relation to the fabric, and the fabric wrap angle on the roll concerned is set higher than 30°, and the fabric is guided by changing the alignment of one roll of the said rolls in relation to the fabric by changing the position of one roll end in relation to the fabric at one level without changing the position of the other roll end. The invention also relates to a corresponding arrangement and equipment for tensioning and guiding a fabric in a paper or board machine.
Tensioning and guiding a fabric in a paper or board machine is described for example in Finnish patents Nos. 100412 (corresponding U.S. Pat. No. 5,403,447) and 94781 (corresponding U.S. Pat. No. 5,500,090). These patents describe tensioning and guiding of both a press felt and a dryer fabric. The press felt is separately described, as it is used in a specific manner. During the use depressions are formed in the press felt, which depressions have a tendency to grow and will cause vibrations in the press, and thereby new depressions. To avoid the problem it is attempted to stretch the fabric to an oblique direction. For detecting the obliquity, the press felt is provided with a guide strip, by the alignment of which the prevailing alignment of the press felt can be determined. The seam of the press felt, i.e. the orientation stripe, can also serve as the guide strip. A specific guide strip is used to facilitate its detection, as it is attempted to make the seaming point as invisible as possible in order to standardize the pressing event. By squaring the felt, possible depressions will form in the press felt irregularly and in different positions, which helps avoid strong vibrations and the multiplication of depressions. At the same time the press felt life also normally increases. Thus, turning the guide strip corresponds to squaring the felt.
The guide strip is turned in a known manner by moving one end of one roll supporting the press felt. Normally a tensioning device is also attached to this roll for tensioning the press felt. By shifting one end of the roll only, i.e. by changing the roll alignment, the travel distances of the press felt edges are different, in which case the press felt slightly stretches and settles in an oblique position. At the same time the press felt tends to move away from above the rolls in the lateral direction. To avoid this the alignment of the other roll supporting the press felt is additionally changed. Normally the guiding equipment is adapted at one end of a so-called guide roll. By means of the guiding equipment a counter force annulling the lateral force generated by turning of the guide strip is provided in the press felt, and this counter force then keeps the press felt essentially in place in its lateral direction. The previously mentioned patents describe automatic systems, which are used to automatically turn the guide strip based on vibrations, for example. Normally the dryer fabric is also equipped with similar tensioning and guiding equipment, although the dryer fabric lacks the guide strip, and a guide strip turning at the dryer fabric is most often not needed.
The proposed systems are functional as such, but they include several separate components. In addition, it is necessary to guide the fabric via several rolls, which requires a lot of installation space and increases the total fabric length. In this case the positioning of the components is often a big problem. Separate components also require a mutual control in order to function properly. In addition, the control devices are located far away from each other, in which case great forces are required for the control. Also, the distance between the control devices is long. In this case the fabric travels in an oblique position between the rolls to be controlled. In spite of automated systems there is a delay in turning the guide strip and guiding the fabric, which appears as lateral swinging of the fabric. Swinging is increased also by the approximate operation and poor controllability of the control devices. In other words, control movements are often excessive, and consequently the system attempts to correct a performed control with an opposite control. Furthermore, according to a general practice the fabric wrap angle is kept intentionally small on the actual guide roll.
The object of this invention is to provide a novel method for tensioning and guiding a fabric in a paper or board machine, the method being simpler than heretofore and avoiding the drawbacks of the prior art technique. The object of the invention is also to provide a novel arrangement for tensioning and guiding a fabric in a paper or board machine, requiring less installation space than heretofore and including less components than before. A further object of the invention is to provide novel equipment for tensioning and guiding a fabric in a paper or board machine, the equipment being compact in structure and versatile for its characteristics. In the method according to the invention the fabric is tensioned and guided surprisingly with one roll only. This provides a simple and accurate method for tensioning and guiding the fabric. In addition, the fabric is guided in a completely new way compared to the known method, in which the required control effect is provided with smaller movements than conventionally. Correspondingly, the arrangement according to the invention is simple, and the equipment used in it is compact and easy to control. In addition, the forces required are smaller than known, which further reduces the equipment size. Using the arrangement and equipment the fabric run can be simplified, which at the same time creates new freedom for the design of a paper or board machine. In known paper and board machines there are several fabrics and guiding devices for them, which can be replaced with the equipment according to the invention. This allows making remarkable savings in the acquisition and operating costs.
The invention is described below in detail by making reference to the enclosed drawings, which illustrate some of the embodiments of the invention, in which
a is a drawing of a roll and its first movement direction according to the invention shown in an axonometric view and additionally from above and from the side.
b is a drawing of a roll and its second movement direction according to the invention shown in an axonometric view and additionally from above and from the side.
c is a drawing of a roll and its third movement direction according to the invention shown in an axonometric view and additionally from above and from the side.
a is a side view of one piece of equipment according to the arrangement of the invention.
b is a drawing of movement directions and movement sizes of the roll to be guided.
a shows the application of
b shows the application of
According to the invention, the tensioning equipment and the guiding equipment are surprisingly adapted in connection with one and the same roll. Then the fabric is both tensioned and guided by changing the alignment and position of this roll in relation to the fabric. The roll movement directions are described in greater detail in connection with
In
In
In a forming and dryer section of a paper or board machine the fabric 10 is composed of a wire. Then, according to the invention, arranged in the guiding equipment 18 for guiding the wire there is only one movement direction, which is adapted essentially according to the movement direction of the tensioning equipment 17. This becomes evident specifically in
a-c show in detail the specific movements and movement directions of the roll 11′ to be guided. In practice, all three movements can be combined in the same roll.
b shows the movement direction S of the roll 11′ for turning the guide strip 16, conforming thus preferably to the movement direction T of the tensioning equipment. When the roll 11′ is straight, the guide strip in the fabric 10 is also straight. The guide strip in this line is illustrated with a dot-and-dash line. As shown in
c shows the second guiding movement (movement direction G) of the roll 11′ to be guided, which is preferably essentially perpendicular in relation to the previous guiding movement. In this way the second guiding movement remains pure without effect on the guide strip turning. The movement directions S and G can of course be arranged in another angle than in the right angle with respect to each other, but in that case both guiding movements will have components that are parallel with each other, which complicates the control of the equipment and makes the equipment more complicated than proposed. The second guiding movement provides a force contrary to the force caused by turning of the guide strip, making it possible to keep the fabric essentially in place in the lateral direction. In
According to the invention, the fabric wrap angle on the roll is arranged larger than 30°, which is completely new and surprising compared to the present conception. With a growing wrap angle the required roll movement reduces correspondingly, which makes the equipment particularly preferable. More precisely, according to the invention, the wrap angle is set to 80°-200°, more preferably to 170°-190°. As regards tensioning in particular, optimum is essentially a wrap angle of 180°, whereby a change in the roll position provides a maximum tensioning movement for the fabric. Deviating from the known technique, the guiding movements will function in this case, too, and the required movements are advantageously small.
b shows magnitudes of the guiding movements in principle. In the movement direction essentially conforming to the movement direction of the tensioning equipment the change in the roll alignment Δα achieved by the guiding equipment is 0.5-5°, more preferably 1-3°. That is, turning of the guide strip is provided with a very small change in the roll alignment. In the second movement direction, correspondingly, the change in the roll alignment Δβ achieved by the guiding equipment is 1-10°, more preferably 2-6°. Hence, in practice, a slightly bigger movement is needed for guiding, and the second guiding movement is also much smaller than conventionally.
a shows only the equipment according to the invention, which can be freely located in various fabric runs. According to the invention, the guiding equipment 18 is arranged at the tensioning equipment 17 or between the tensioning equipment 17 and the roll 11′. In
In the tests according to the arrangement of the invention great wrap angles, exceeding 80° were used. The tests proved the functionality of the arrangement as well as the conformity of the wrap angle and the required guiding movement. With a wrap angle of 130°, for example, and a roll shift of 0.1 mm the guide strip turned 2° with a roll diameter of 500 mm and a press felt width of 2000 mm. The fabric travel was calm in other respects, too, without lateral swinging also when running the fabric to both directions.
The method according to the invention can be implemented with many different fabrics. Correspondingly, the arrangement according to the invention is simple, and remarkable savings can be achieved with it. The equipment comprised in the arrangement is compact and easy to use. As regards a paper and a board machine, a significant aspect is a calm fabric travel and control accuracy of the fabric. At the same time, the fabric life increases.
Number | Date | Country | Kind |
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20035059 | May 2003 | FI | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FI2004/050055 | 5/4/2004 | WO | 00 | 11/3/2005 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2004/099493 | 11/18/2004 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5403447 | Järvinen et al. | Apr 1995 | A |
5500090 | Autio | Mar 1996 | A |
5554262 | Turner | Sep 1996 | A |
6325895 | Graf | Dec 2001 | B1 |
Number | Date | Country |
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0 519 398 | Jun 1992 | EP |
0 519 398 | Jun 1992 | EP |
84504 | Aug 1991 | FI |
84504 | Aug 1991 | FI |
113384 | Apr 2004 | FI |
113384 | Apr 2004 | FI |
WO 2004099493 | May 2004 | WO |
WO 2004099493 | May 2004 | WO |
Number | Date | Country | |
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20060249271 A1 | Nov 2006 | US |