AT508203A2 - TREATMENT APPARATUS AND METHOD FOR A FIBERGLASS - Google Patents

Description

Treatment plant and method for a fibrous web

FIELD OF THE INVENTION

The invention relates to the treatment of a fibrous web. Particularly, but not exclusively, the invention relates to the cleaning of a moving fibrous web from loose particles in fibrous web machines, such as paper, board, tissue and pulp machines.

BACKGROUND OF THE INVENTION

In the fiber web machines and in the printing presses, the fiber web, especially on the fibrous web, temporarily causes hard particles in the nip which are foreign bodies in the fibrous web. For example, the nips can form between two rollers or a roller and a belt or a belt and a belt. The rolls may be, for example, so-called metal rolls or soft-surfaced coated rolls such as rolls having a fiber or polymer surface. The bands can be metal or polyurethane bands. The surfaces formed by the nip, such as roller and / or belt surfaces, do not necessarily tolerate the run of the hard and loose particles through the nip or the belt zone without damage. For example, in many types of calenders, the coatings used as roll and / or belt material do not support calendering of the hard, loose particles in the nip or in the belt zone. A damaged roller or belt will cause losses in production and weakening usability in addition to the immediate exchange costs.

In the publication WO 2005/003452 Al an arrangement for preventing the wear of thermo rolls has been shown in the calender. In the publication it is shown that the fiber web is cleaned after the drying of the fiber web by means of a dust removal system before moistening and inserting the fiber web into the calender nip.

SUMMARY

According to a first aspect of the invention, a plant for the treatment of a moving fibrous web is realized, which plant comprises a collecting device for receiving the loose particles that run along with the fibrous web. The plant includes a movable

A web deflection member intended to redirect the fibrous web from its running path and to turn the running direction of the deflected fibrous web from the first running direction, which is the main running direction of the loose particles, in the other running direction; and a catcher, which may be movable, is outside the deflectable by means of the web deflection element

Fiber web viewed from the direction of the Bahnumlenkungselements ago arranged on the route of the loose of the moving fiber web at the location of the web deflection element due to their inertia loose particles.

The catcher may be movable with respect to the deflected path. The catcher may be movable with respect to the web deflection element.

Preferably, the web deflection element is along the

Movement path movable, which an operating position in the

······· the web deflection element is located in a state to be deflected the path of the fiber web, and a rest position, in which the web deflection element is located on the undeflected path of the fiber web away.

Preferably, the collecting device comprises an elongated collecting box or a gutter, which a

Has collecting opening. The catcher may also be an open design, with which the loose particles are removed outside the reach of the treatment process of the fibrous web, for example a plate. The catcher may have a plate construction.

The collecting device preferably comprises a shape which absorbs the kinetic energy of the loose particles.

The collecting device preferably comprises the kinetic energy of the loose particle-absorbing material, such as rubber or polymer.

Preferably, the collecting device is movable, preferably the collecting device is arranged to be movable alone or together with the web deflection element.

Preferably, the degree of deflection of the web deflection element during operation of the cleaning system is adjustable.

Preferably, the web deflection element is vibratable.

Preferably, the web deflection element is in contact with, as the deflection roller of the web or the fiber web W spanning

Beam, or contactless as the air blower running.

According to a second aspect of the invention, there is provided a fiber web machine comprising a plant according to one aspect or an embodiment of the invention.

According to a third aspect of the invention, there is provided a printing machine comprising a plant according to one aspect or an embodiment of the invention.

According to a fourth aspect of the invention, a method for the treatment of a moving fiber web is realized by means of a system which comprises a catching device for receiving the loose particles that run along with the fiber web. In the method, with the aid of the movable web deflection element associated with the system, the fiber web is deflected from its running path and the running direction of the deflected fiber web is turned from the first running direction, which is the main running direction of the loose particles, into the second running direction; and the loose particles are caught by means of a catching device, which is arranged on the path of the loose particles dissolving from the moving fiber web at the location of the web deflection element due to their inertia, which catcher is viewed outside of the fiber web to be deflected by means of the web deflection element Direction of the web deflection element is arranged forth and the catcher may be movable.

Damage to the rollers and belts can be reduced with the aid of the invention since it is possible to prevent the loose particles, which run along with the fiber web, from being forced into the nip.

• • • Μ • • S • · · ♦ ·· Μ long. The direct replacement costs caused by the damage as well as production losses and reduction of the usability can be avoided. The costs arising from the production of the fiber web are reduced.

Various embodiments of the present invention are or are described only in connection with one aspect or some aspects of the invention. One skilled in the art will understand that any embodiment of an aspect of the invention may be practiced by itself or in combination with other embodiments in the same and other aspects of the invention.

BRIEF DESCRIPTION OF THE FIGURES

The invention will now be described by way of example with reference to the accompanying drawings. The figures show:

Fig. 1 shows a cleaning system according to a first embodiment arranged between the drying section and the calender of the fiber web machine;

Fig. 2 shows a cleaning system according to a second embodiment.

DETAILED DESCRIPTION

In the following description, similar parts will be denoted by similar reference numerals. It should be noted that the figures are not entirely to scale, and that they are initially illustrative only of the various embodiments of the invention. • · • · ♦ ♦ ··

Fig. 1 shows a cleaning system 1 according to a first embodiment, which is arranged between the drying section 2 and the calender 3 of the fiber web machine.

From the dryer section 2 her second last drying cylinder 21 and last drying cylinder 22 has been shown, through which the fiber web W has been guided on the guide roller 23 of the web and on to the calender 3. The calender 3 comprises according to the example four rolls, namely a first calender roll 31, a second calender roll 32, a third calender roll 33 and a fourth calender roll 34. The calender rolls 31-34 are arranged as a roll system so that two adjacent calender rolls between can form a Kalandrierungsnip calendering the fiber web W calendering. The calender 3 is an example of the multi-roll calender whose roll system is vertical and whose first nip NI is formed between the first calender roll 31 and the second calender roll 32.

The cleaning equipment 1 is provided to catch the harmful loose particles 4 from the fiber web W in front of the nip to be protected, which may typically be the first nip of the fiber web machine or the printing machine into which the fiber web W is guided, for example the first nip NI of FIG Calender 3.

The loose particles 4 running along with the fibrous web W, for example, can cause damage to the roll and strip coatings associated with the respective nip in the treatment elements of the fibrous web even in a plurality of nips of the calender 3. With the help of the cleaning system 1, the loose particles 4 can be caught by the web in front of the nip on ge and so

can prevent the damage causing loose particles 4 get into the nip with the web. Damage to the rollers, the surfaces and the belts as well as additional work and costs caused by the damage can be avoided.

The size of the loose particles 4 to be cleaned, which, as has been observed in practice, cause damage to the treatment elements of the nips, is of the same size class as the thickness of the web W or greater than the thickness of the web. As a unit of measurement, this means the size class over 50 microns. Typically, the web-borne damage-causing loose particles 4 are non-compressed articles such as stones, screws or small metal objects having a size class of millimeters. Typically, the loose particles 4 enter the vicinity of the treatment process of the fibrous web in connection with construction and maintenance work and the loose particles 4 reach the web W, for example due to vibrations. Loose particles may get onto the web W, for example in connection with web breaks or cleaning work, when using compressed air blower.

The cleaning system 1 comprises a web deflection element arranged on the path of the fiber web W, which in the case of FIG. 1 is a web deflection roller 10. The cleaning system 1 additionally comprises a collecting device 11 arranged in connection with the web deflecting element 10, which is trough-shaped in the case of FIG. 1.

The web deflection element can, for example, also be a beam clamping the web w (a so-called wiping strip) or a device for carrying out the air blower against the web or another deflection element which executes the deflection in the running direction of the web, thus changing the running direction of the web with or can be realized without contact. Preferably, the diameter of the web deflection roller 10 is smaller than the diameter of the web guide roller 23 (in Fig. 2, the web guide rollers 24, 25).

The web deflecting member 10 may be vibrating to enhance the releasing effect of the loose particles 4.

The function of the cleaning system 1 is based inter alia on the centrifugal force whose occurrence for the catch of the loose particles 4 controlled by the web W can be used.

With the aid of the cleaning system 1, a suitable release effect of the loose particles is achieved even at a speed of the fiber web w of 200 m / min. In this case, with the help of the cleaning system 1, the removal of loose particles from the web can also be realized in the direction obliquely above.

The running direction of the fiber web W can be changed by deflecting the fiber web W with the aid of the web deflection element 10 so that the loose particles 4 traveling with the fiber web W continue their course and the fiber web W runs in the changed running direction without loose particles 4. The loose particles continue to travel in the first direction W1 which they and the web have before the direction of travel of the fibrous web W at the location determined by the web diverter is turned in the alternate other direction W2. When deflecting the fibrous web W by means of the web deflecting element 10, forces other than the compressive force are typically applied to the loose particles 4 in addition to the air-resisting inertia effect, so that in practice they travel almost directly in the first direction of travel W1 in the vicinity Continue the Bahnumlenkungselements 10, which is associated with a collecting device 11.

In some cases, a loose particle 4 traveling along with the fibrous web may be difficult to dislodge, or may be stuck to the fibrous web W, for example. The detachment of the loose particle 4 taking place in the web deflection element 10 can be made more effective by reducing the turning radius and / or increasing the pivoting angle, with the aid of which the deflection of the fiber web from the first direction W1 into the second direction W2 is realized. As a first example, mention may be made of a case where, in deflecting the fibrous web W at the same swinging angle by means of a small radius of the web deflection roller 10, more efficient release of the loose particles 4 from the fibrous web W is achieved than by means of a large radius of the web deflection roller 10 can be. Here, the swing angle is understood to mean an angle formed between the running directions W1 and W2 of the web before changing the traveling direction of the web and after changing the traveling direction of the web. As a second example, there is mentioned a case described in connection with Fig. 2, wherein the directions of travel of the web W before and after the web deflecting element 10 differ significantly, they may even be reversed.

The cleaning system comprises a collecting device 11 arranged in connection with the web deflection element 10, in which direction the loose particles 4 to be cleaned by the fiber web continue their course, after they have detached themselves from the fiber web W. The collecting device 11 comprises a collecting opening 12 which, in the case of FIG. 1, preferably extends from the web deflecting element 10 in such a direction ··· ♦ ·· ····

is arranged, which has the fiber web W before taking place in connection with the web deflection element change of the running direction of the web.

In Fig. 1, the removal direction of the loose particles 4 and the position of the collecting opening 12 with respect to the Bahnumlen-kungswalze 10 obliquely down to the right, preferably taking into account the effect of gravity on the track of the loose particles. 4

The collecting device 11 shown in Fig. 1 comprises an elongated collecting channel 11 extending to the width of the fiber web, which is arranged in connection with the web deflection roller 10. In a cleaning situation, the loose particles 4 traveling on the fiber web W are guided further into the collecting channel 11.

The collecting device 11 is preferably provided as a separator, from which the loose particles 4 do not come out independently during the operation of the cleaning system. The catcher 11 may include a suction assembly or a magnetic assembly or equivalent auxiliary device for retaining the loose particles 4 in the catcher 11 during operation.

The catcher 11 may take the form of a box. The catch opening 12 of the catcher may be a catch-up opening above the catcher or a catch-up opening on the side of the catcher.

The collecting device 11 can emptying auxiliary devices for emptying the loose particles cleaned by the fiber web. Have il kel 4 from the collecting device after operation or during operation.

The catcher 11 is preferably at a sufficient distance from the web deflection element 10 as arranged by the roller, so that the catcher on 11 is not in the way of web break in the way and Committee on catching. One way to ensure the unimpeded movement of the web even when the train and accordingly also in the web entry, it is to provide the catcher on 11 movable. The catcher 11 may be movable due to the Bahnabrisssignals. Moving the catcher 11 along the trajectory 11 " may be arranged in connection with the movement of the web deflection element 10 so that the deflection of the fiber web (for example the degree or the position of the web deflection element) during operation can be adjusted without disturbing the cleaning process. The with the help of the arrow 11 " shown displacement movement of the catcher 11 may be linear or curved or a combination of a linear and curved movement.

The collecting device 11 may contain (for example on its inside) the kinetic energy of the loose particles 4 absorbing material, with the intention that the loose particles can not pass outside the collecting device 11 via the collecting opening 12. The kinetic energy absorbing material may be an elastic or soft or sticky or liquid material. The structure of the on capture device 11 forming wall may be wholly or partly of a kinetic energy of the loose particles 4 absorbing material. The kinetic energy absorbing material may be polymeric material or rubber. The kinetic energy absorbing material may be made of elastic ··· · · · ···· ···

Be a material-formed wall or envelope. The kinetic energy absorbing material may be water at the bottom of the catcher 11. The kinetic energy absorbing material may be a sheath disposed within the catcher opening 12.

With the shaping of the collecting device 11 has been achieved that the loose particles 4 do not get back into the manufacturing process of the fiber web, for example by rebounding from the in place of the collecting opening 12 located inside wall of the collecting device 11. The collecting device 11 is preferably formed, the loose To receive particles 4 in a way absorbing their kinetic energy. The catcher 11 may comprise, viewed from its cross-sectional shape from the side, a curved wall, preferably at least at the junction of the loose particles 4 or with respect to the kinetic energy receiving inner wall. The collecting device 11 may comprise a holding element 14 (FIG. 2) arranged in the inside inner wall of the collecting opening for stopping the movement of the loose particles 4 or for changing the movement path of the loose particles 4, so that the loose particles 4 rebound within the collecting device 11. The collecting device 11 may have a spiral-like cross-sectional shape within the collecting opening 12, as shown in FIG. 2.

To facilitate the web insertion of the fiber web W, the cleaning system 1, a displacing device 13 shown in FIG. 1 for directing the Bahnumlenkelements 10 from the operating position in the position shown by a dashed line rest position 10 ', 13' and / or for moving the catcher 11 in the Direction of the arrow 11 " On white-

• ··· • · · · · ················ •

sen. The web deflection element 10 can thus insert the fiber web w during the web and, if necessary, avoid the web break.

The displacement device 13 may, for example, have a displacement lever 13 or displacement slide which acts at the end of the web deflection element and can be moved by means of a positioning device. The translational movement of the web deflecting element 10 illustrated with the aid of the arrow 10 "may be linear or curved or a combination of a linear and a curved movement. The displacement device 13 can be used for deflecting the Bahnumlenkelements 10 out of the way of emerging during web break Committee. By means of the displacement device 13, by adjusting the degree of the displacement movement 10 ", in some cases an influence on the cleaning performance of the cleaning system 1 can be exerted. The position of the collecting device 4 is provided variable.

FIG. 2 shows the cleaning system 1 according to a second embodiment, in which the running direction of the fiber web W before wi and after W2 after the web deflection element differ significantly from one another.

The fibrous web W has been guided from the first web guide roller 24 via the web deflection roller 10 to the second web deflection roller 25 and further into, for example, the nip participating in the treatment of the fibrous web which has been protected from the fibrous web W by removing the loose particles 4 temporarily traveling with it shall be. The web deflection roller 10 can be moved from the operating position 10 to the rest position 10 'as the displacement movement 10 " pointing arrow, be offset, as has been described in connection with FIG. 1. The running direction Wl of the fiber web W and the center line Wl thereof along with it ···· ···· ··············································································

running loose particles 4 is obliquely upwardly before detaching the loose particles 4 of the web at the web deflection roller 10. In Fig. 2, the running direction of the fiber web W in operation with the web deflection roller 10 is deflected so that the first direction W1 and W2 are opposite to each other so the Schenkwinkel the fiber web W is large. The loose particles 4 continue to run after being detached from the web W and, after passing through the collection port 12, remain within the catcher 11 or, if necessary, are directed across the capture device away from the reach of the treatment process of the fibrous web. The shaping of the inner wall and / or the material of the catcher on 11 allows the steering of the loose particles 4 in the direction of the bottom of the on capture device and with the help of trained in the form of the wall of the catching support member 14, the loose particles can be stopped or to continue within the Receiving device are directed.

The emptying of the collecting device 11 from the loose particles 4 can be realized manually or mechanized or by using the automation. The filling of the collecting device can be tracked with an indicator indicating the degree of filling, which can be an observation with eyes, a camera or a corresponding auxiliary device. The collecting device can be emptied, for example during the maintenance standstill.

The cleaning system 1 can be used at a suitable location along the path of the fiber web W to protect the treatment nips of the fiber web. The cleaning system 1 can be used periodically, for example, after a maintenance shutdown, which is known to increase the likelihood that foreign bodies are on the web W arrive. ! ··· · · · · ·

• ψ • ••••• iS • · · • · ····

The cleaning system 1 can be used, for example, before the coater or the reel-up of the slitter or the printing press or the calender or the nip located in these systems.

The present description provides non-limiting examples of some embodiments of the invention. It will be understood by those skilled in the art that the invention is not limited to the details shown, but that the invention may be practiced by other equivalent means.

Some features of the illustrated embodiments may be used without the use of the other features. As such, the present description should be considered as a description describing the principles of the invention rather than as a description limiting the invention. Thus, the scope of the invention is limited only by the appended claims.

claims:

Claims (12)

9 ·································································································································································································································· ; POTH Patentanwälte OEG Dorotheergasse 7 - A-1010 Vienna - patent@aon.at Tel: +43 (1) 512 10 98 - Fax: +43 (1) 513 47 76 Claims 1. Plant for the treatment of a moving fiber web (W) which installation (1) comprises a collecting device (11) for receiving the loose particles (4) running along with the fibrous web, characterized in that the plant (1) comprises a movable web deflection element (10) which separates the fibrous web (W) from to redirect its course of travel and to orient the running direction of the deflected fiber web (W) in the second running direction (W2) from the first running direction (Wl), which is the main running direction of the loose particles (4); and that a catching device (11), which may be movable outside of the fiber web (W) to be deflected by means of a web deflection element (10), viewed from the direction of the web deflection element (10), on the path of travel of the moving fiber web (W ) is arranged at the location of the web deflection element (10) due to their inertia dissolving particles (4). Installation according to claim 1, characterized in that the web deflection element (10) is movable along the movement path (10 "), which is an operating position in which the web deflection element (10) is in a state to be deflected along the path of the fiber web (W) - ··································································································································································································································· Bahnumlen-kungseleraent (10) located away from the undeflected course of the fiber web has. 3. Plant according to claim 1 or 2, characterized in that the collecting device (11) has an elongate collecting box or gutter, which has a collecting opening (12). 4. Installation according to one of the claims 1-3, characterized in that the collecting device (11) has a shape which absorbs the kinetic energy of the loose particles (4). 5. Installation according to one of the claims 1-4, characterized in that the collecting device (11) has the kinetic energy of the loose particles (4) absorbing material such as rubber or polymer. 6. Plant according to one of the claims 1-5. characterized in that the collecting device (11) is movable, in particular that the collecting device (11) for moving with the web-deflecting element (10) is arranged. 7. Installation according to one of the claims 1-6, characterized in that the degree of deflection of the web deflection element (10) during operation of the cleaning system (1) is adjustable. ··························································. 8. Installation according to one of the claims 1-7, characterized in that the web deflecting element (10) is vibratable, 9. Installation according to one of the claims 1-8, characterized in that the web deflection element (10) with contact as the Bahnum deflection roller or the fiber web W clamping beams or contactless as the air blower is executed. 10. fiber web machine comprising a plant (1) according to one of the claims 1-9. 11. Printing machine comprising a plant (1) according to one of the claims 1-9. 12. A method for treating a moving fiber web (W) by means of a system (1), which comprises a collecting device (11) for receiving the running with the fiber web loose particles (4), characterized in that in the method using one of Appendix (1) associated with movable web deflection element (10) the fiber web (W) is deflected by its running distance and the direction of the deflected fiber web (W) from the first direction (Wl), which is the main running direction of the loose particles (4) the second direction (W2) is turned; and that the loose particles (4) are collected by means of a catching device (11), which on the running distance of the loose particles (4) which are released by the moving fiber web (W) at the location of the web deflection element (10) due to their inertia ), which collecting device (11) is arranged outside the path deflection element with the aid of the path deflection element (10) fiber web (W) to be deflected viewed from the direction of the web deflection element (10), wherein the catch device may be movable. The patent attorney: GIBLER & POTH P a titar't «. OEG Dorotheergasse 7 - Λ-1010 Vienna - patent@aon.at Tel: +43 (1) 512 10 98 - Fax: +43 (1) 513 47 76