EP1072720A2 - Method and device for manufacturing a fibrous web - Google Patents

Abstract

In the production of a fiber web, for paper or cardboard, while the web (12) is still wet it is stretched laterally to set the web characteristics and particularly the web structure and/or the fiber orientation. The web (12) is stretched laterally, while still wet and with a solid content of 5-65% and preferably 15-25%. The wet web (12) is transferred to a continuous and elastic belt (14). The belt (14) is stretched longitudinally before the transfer point (A), and the stretch is measured in different directions. The longitudinal stretch on the belt (14) results in a lateral contraction, to give a set lateral reassertion after the transfer point (A) which carries the web (12) with it and stretches the web (12) laterally. The stretch behavior of the elastic belt (14) is measured differently for width and thickness so that, on a longitudinal expansion and contraction, only a width contraction or expansion takes place without a change in the belt thickness. The elastic belt (14) is stretched longitudinally directly in front of the web transfer point (A) by at least one powered roller (16), and preferably at least two rollers (16,20,22). The web (12) is transferred to the elastic belt (14) at the zone of the final belt tensioning roller (16). The elastic belt (14) also acts as a press blanket for the web (12), or as a transfer belt. A belt (14) is used which has different stretch characteristics across its width, and with a closed or porous surface. The web (12) is transferred to the elastic belt (14) by a carrier (18) and especially a fourdrinier, or a transfer belt. The lateral stretch imposed on the web (12) increases the lateral orientation of the web fibers and sets the web structure. An Independent claim is included for a section of a papermaking or cardboard production machine (10), with an elastic belt (14) and a powered roller (16) to impose a lateral stretch on the web (12).

Description

The invention relates to a method for producing a fibrous web, in particular a paper or cardboard web in which the fibrous web to influence certain web properties such as in particular Path structure and / or the fiber orientation treated accordingly becomes. It also relates to a corresponding device according to the preamble of claim 17.

It is known that in the current methods for the production of Fibrous webs such as in particular paper webs more or less there is a clear alignment of the fibers in the machine direction. Each according to the driving style of the sheet formation unit, i.e. depending on whether there is an overflow or there is a backlog, and the cables in the machine can be the middle one Fiber orientation can be varied within certain limits, with the through the sheet formation unit defined mean fiber orientation only in the direction a higher longitudinal orientation can be changed for example by trains in the press section.

Furthermore, it is known that the edges of a fibrous web at a conventional drying method shrink more than the middle of the web. there there are different sheet properties across the web width.

In a method known from US-A-3 301 173, the elasticity a tape used to influence web properties, by upsetting the relatively dry web so that the web is microcreped with a corresponding change in thickness. The change in shape of the tape results in this method in primarily through a thickness / length variation. Such an upsetting or microcreping of the relatively dry web now leads next to the desired increase in elasticity and work always a strong loss of tensile strength in the longitudinal direction of the fibrous web, because the fibers are partially broken.

The aim of the invention is to provide a method and an apparatus at the beginning to create the type mentioned, in which the aforementioned disadvantages are eliminated. It should in particular be simple and reliable also the possibility to be created, on the one hand the degree of orientation to influence the fibers transversely to the machine direction, preferably to increase, and on the other hand specifically the structure of the fibrous web to influence.

With regard to the method, this object is achieved according to the invention solved that the fibrous web to influence the relevant web properties stretched in the transverse direction while still wet becomes.

Due to this training, it is now also possible in particular on the one hand the degree of orientation of the fibers across the machine direction to influence, preferably to increase, and on the other hand specifically to influence the structure of the fibrous web, if necessary targeted influencing across the web width is also possible is. With a targeted transverse expansion of the fibrous web, in particular also reduced the tear length ratio. It also behaves elastic band when tensioning similar to a web in a dryer section, i.e. the edges behave due to the different boundary conditions different compared to the center of the web. Accordingly, there is also contraction of the tape across the width, with the effect that the web edges are stretched more than the center of the web. This effect counteracts increased edge shrinkage of the web in the dryer section and partially or fully compensates for this. With the transverse stretch the fibrous web can reflect different properties of the web, for example a paper web, are influenced, if necessary also targeted across the web width. To the properties of the fibrous web, which can be influenced accordingly include, for example the porosity that increases as a result of loosening of the poultry can, the smoothness or the smoothness profile, the strengths in the transverse direction and the elongation properties in the longitudinal direction. With the open porosity achieved For example, the press performance and / or the Improve drying performance. In addition, for example, a better one or more even glue absorption can be achieved.

The still wet fibrous web is advantageously with a solids content from about 5 to about 65%, especially from about 5 to about 55 % and preferably stretched from about 15 to about 25% in the transverse direction.

In a preferred practical embodiment of the invention The process starts with the fibrous web still wet endless elastic band passed in front of the transfer point in the longitudinal direction was stretched and its stretching behavior in the different Directions are dimensioned such that with the previous Longitudinal stretching of the ligament is primarily a transverse ligament contraction and accordingly with the longitudinal contraction taking place behind the transfer point of the band primarily sets a band transverse elongation and thereby the fibrous web is stretched accordingly in the transverse direction. there it is advantageous if the stretching behavior of the elastic band is dimensioned so differently in the thickness and width direction that at least with a longitudinal stretching or contraction of the band essentially only a band cross contraction or band stretch without significant change in thickness. Compared to the previous one The usual thickness variation is the fibers in the fibrous web no longer compressed, but reoriented.

The preceding stretching of the elastic band takes place in the longitudinal direction expediently immediately in front of the transfer point.

The longitudinal expansion of the tape before the fibrous web is taken up can done differently. With a practical practical Embodiment is driven by at least one elastic band rotating roller and in particular by at least two in opposite directions driven rotating rollers tensioned and thereby in the longitudinal direction stretched. The fibrous web is preferably in the area of one or the last of these rollers to the elastic band.

The still wet fibrous web is expediently transferred to the elastic band with a solids content of the web of about 5 to about 65%, especially from about 5 to about 55%, and preferably from about 15 to about 25%.

In addition to the function of transverse expansion of the fibrous web, the elastic Band also perform one or more other functions. For example, an elastic band can also be used as a press felt serving tape can be used. Basically, it is also possible as elastic ribbon to use a ribbon that also serves as a transfer ribbon. Such combinations have the advantage that only a few new machine components are required.

In an expedient embodiment, an elastic band is used a different stretch behavior across the web width, which creates different effects such as the one before mentioned effect of reduced edge shrinkage of the web can be achieved can.

If necessary, an elastic band with a closed surface or a porous elastic band can be used.

In an expedient practical embodiment, the fibrous web through a conveyor belt such as in particular a wet screen, a transfer belt or the like passed to the elastic band.

In the subclaims are further advantageous refinements of the invention Procedure specified.

The device according to the invention is accordingly characterized in that that it includes means to influence the fibrous web certain web properties such as in particular the web structure and / or the fiber orientation while still wet in the transverse direction to stretch accordingly.

Preferred embodiments of the device according to the invention are specified in the subclaims.

Figur 1

eine schematische Teildarstellung einer der Herstellung einer Faserstoffbahn dienenden Vorrichtung,

Figur 2

eine vergrößerte schematische Darstellung des der Bahndehnung dienenden Bereichs der in Figur 1 gezeigten Vorrichtung mit einem durch wenigstens eine angetriebene Walze gespanntem elastischem Band und

Figur 3

eine schematische Darstellung des Spannungsverlaufs des um eine angetriebene Walze gespannten Bandabschnitts.

The invention is explained below using an exemplary embodiment with reference to the drawing; in this show:

Figure 1

2 shows a schematic partial illustration of a device used to produce a fibrous web,

Figure 2

an enlarged schematic representation of the stretching serving area of the device shown in Figure 1 with an elastic band tensioned by at least one driven roller and

Figure 3

a schematic representation of the tension curve of the belt section tensioned around a driven roller.

Figures 1 to 3 show a section of a device 10 for manufacturing a fibrous web 12, which may in particular be a paper or cardboard web.

The device 10 comprises means 14, 16 for the fibrous web 12 for Influencing certain web properties such as the web structure in particular and / or the fiber orientation while still wet Stretch the cross direction accordingly. In the present embodiment For such a transverse stretching of the web, the fibrous web is still wet 12 takeover, in front of the takeover point A in the longitudinal direction stretched elastic band 14 provided by at least one driven rotating roller 16 tensioned and thereby accordingly in Is stretched in the longitudinal direction. The fibrous web 12 is transported by a conveyor belt 18 such as in particular a wet sieve, a transfer belt or the like passed to the elastic band 14.

In the web running direction L before the driven roller 16 is the elastic Band 14 passed over a guide roller 20. You can also choose one Tension roller 22 can be provided, correspondingly adjustable via the web tension is. In the present embodiment, such is one Tensioning roller 22 is provided directly in front of the deflection roller 20. It is special also possible that the roller 20 and / or the roller 22 in opposite directions driven to the roller 16 to the elastic band 14 too tighten.

The conveyor belt 18 is in front of the handover or takeover point, for example guided over a suction roller 24. In Figure 1 are also Deflecting pulleys 26, 28, over which the conveyor belt 18 behind the takeover point A is led. The takeover point A, at which the the driven roller 16 tensioned elastic band 14 the fibrous web 12 takes over from the conveyor belt 18, lies between the suction roller 24 and the deflection roller 26.

If a porous belt 14 is used, the driven belt can also be used Roller 16 be vacuumed. In Figure 2, the driven roller 16 with a corresponding suction zone 30 provided.

As can be seen from FIG. 2, the conveyor belt 18 is extended the fibrous web 12 has been taken over by the elastic band 14 separated from the fibrous web 12 in the region of the driven roller 16, which then of the elastic stretched around the roller 16 Volume 14 is taken.

The elongation behavior of the elastic band 14 in the different Directions are dimensioned so that with the previous longitudinal expansion of the band 14 primarily a band transverse contraction and accordingly with the longitudinal contraction behind the takeover point A. of the band 14 primarily sets a band transverse elongation and thereby stretching the fibrous web 12 accordingly in the transverse direction becomes. The expansion behavior of the elastic band 14 is in thickness and Width direction dimensioned so differently that with a longitudinal expansion or contraction of the band 14 at least in essentially only a band transverse contraction or band stretch without sets a substantial change in thickness.

FIG. 3 shows the tension curve of the belt section 14 'stretched around the driven roller 16. Thereafter, the belt tension S ₁ in the web running direction L in front of the takeover point A is greater than the web tension S ₂ behind this takeover point, it becoming increasingly smaller along the circumference of the roll. After receiving the fibrous web 12, the elastic band 14 thus at least essentially returns to its original shape, whereby the fibrous web 12 is stretched transversely to the web running direction L.

The elastic band 14 can also serve as a press felt. Basically it is also conceivable, for example, to use an elastic band 14, which also serves as a transfer belt.

In addition, the elastic band 14 can be different across the web width Have stretching behavior.

While in the embodiment shown in Figure 2, a porous elastic band 14 is provided which is driven around a vacuumed Roll 16 is tensioned, is basically the use of a elastic band 14 with a closed surface possible. In this In this case, the driven roller 16 would not be vacuumed.

With the transverse stretching of the still wet fibrous web, various Railway properties, for example the railway structure and the Count fiber orientation, be influenced accordingly.

Reference list

10th

contraption

12th

Fibrous web

14

elastic band

14 '

Band section

16

driven rotating roller

18th

Conveyor belt

20th

Pulley

22

Idler pulley

24th

Suction roll

26

Pulley

28

Pulley

30th

Suction zone

A

Transfer or takeover point

L

Web direction

S ₁

Web tension in front of the takeover point A

S ₂

Web tension behind the takeover point A

Claims (27)

Method for producing a fibrous web (12), in particular a paper or cardboard web, in which the fibrous web (12) is treated accordingly to influence certain web properties, such as in particular the web structure and / or the fiber orientation,
characterized by that the fibrous web (12) is stretched in the transverse direction to influence the relevant web properties while still wet. Method according to claim 1,
characterized by that the still wet fibrous web (12) with a solids content of about 5 to about 65%, in particular from about 5 to about 55% and preferably from about 15 to about 25% is stretched in the transverse direction. The method of claim 1 or 2,
characterized by that the fibrous web (12), while still wet, is transferred to an endless elastic belt (14) which has been stretched in the longitudinal direction in front of the transfer point (A) and whose stretching behavior is dimensioned in the different directions in such a way that with the preceding longitudinal stretch of the belt (14) there is primarily a belt transverse contraction and accordingly with the longitudinal contraction of the belt (14) taking place behind the transfer point (A) there is primarily a belt transverse expansion and thereby the fibrous web (12) is stretched accordingly in the transverse direction becomes. Method according to claim 3,
characterized by that the stretching behavior of the elastic band (14) in the thickness and width direction is dimensioned so differently that with a longitudinal stretching or contraction of the band (14) at least essentially only a band transverse contraction or band transverse stretching occurs without a substantial change in thickness. Method according to claim 3 or 4,
characterized by that the elastic band (14) is stretched in the longitudinal direction immediately before the transfer point (A). Method according to one of the preceding claims,
characterized by that the elastic band (14) is tensioned by at least one driven rotating roller (16) and in particular by at least two counter-rotating rollers (16; 20, 22) and thereby stretched in the longitudinal direction. Method according to claim 6,
characterized by that the fibrous web (12) is transferred to the elastic band (14) in the region of the one or last roller (16) serving for tensioning. Method according to one of the preceding claims,
characterized by that the still wet fibrous web (12) with a solids content of about 5 to about 65%, in particular from about 5 to about 55% and preferably from about 15 to about 25% is transferred to the elastic band (14). Method according to one of the preceding claims,
characterized by that a belt serving as a press felt is used as the elastic band (14). Method according to one of the preceding claims,
characterized by that a belt serving as a transfer belt is used as the elastic belt (14). Method according to one of the preceding claims,
characterized by that an elastic band (14) with a different stretching behavior over the web width is used. Method according to one of the preceding claims,
characterized by that an elastic band (14) with a closed surface is used. Method according to one of the preceding claims,
characterized by that a porous elastic band (14) is used. Method according to one of the preceding claims,
characterized by that the fibrous web (12) is transferred to the elastic belt (14) by a conveyor belt (18), such as in particular a wet sieve, a transfer belt or the like. Method according to one of the preceding claims,
characterized by that the degree of orientation of the fibers in the transverse direction is influenced accordingly, preferably increased, by the stretching of the fibrous web (12) in the transverse direction. Method according to one of the preceding claims,
characterized by that the structure of the fibrous web (12) is influenced accordingly by the stretching of the fibrous web (12) in the transverse direction. Device (10) for producing a fibrous web (12), in particular a paper or cardboard web, in particular for carrying out the method according to one of the preceding claims,
characterized by that it comprises means (14, 16) in order to stretch the fibrous web (12) in the transverse direction accordingly in order to influence certain web properties such as in particular the web structure and / or the fiber orientation while still wet. Device according to claim 17,
characterized by that the means used to stretch the web in the transverse direction comprise an elastic band (14) which takes over the still wet fibrous web (12) and is stretched in the longitudinal direction in front of the take-over point (A), the stretching behavior of which is dimensioned in the different directions in such a way that the previous longitudinal stretching of the belt (14) primarily a belt transverse contraction and, correspondingly with the longitudinal contraction of the belt behind the takeover point (A), primarily a belt transverse elongation is set and thereby the fibrous web (12) is stretched accordingly in the transverse direction. Device according to claim 18,
characterized by that the stretching behavior of the elastic band (14) in the thickness and width direction is dimensioned so differently that with a longitudinal stretching or contraction of the band (14) at least essentially only a band transverse contraction or band transverse stretching occurs without a substantial change in thickness. Device according to one of the preceding claims,
characterized by that the elastic band (14) is stretched around a driven rotating roller (16) and is thereby stretched in the longitudinal direction. Device according to claim 20,
characterized by that the fibrous web (12) is transferred to the elastic band (14) in the region of the roller (16). Device according to one of the preceding claims,
characterized by that a band serving as a press felt is provided as the elastic band (14). Device according to one of the preceding claims,
characterized by that a band serving as a transfer band is provided as the elastic band (14). Device according to one of the preceding claims,
characterized by that the elastic band (14) has a different stretching behavior over the web width. Device according to one of the preceding claims,
characterized by that the elastic band (14) has a closed surface. Device according to one of the preceding claims,
characterized by that the elastic band (14) is porous. Device according to one of the preceding claims,
characterized by that the fibrous web (12) is transferred to the elastic belt (14) by a conveyor belt (18), such as in particular a wet sieve, a transfer belt or the like.

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