DE102010031440A1 - Method for manufacturing fibrous material web, particularly paper, cardboard or tissue web, involves providing upper side in press gap, where upper side is smoothed than lower side - Google Patents

Abstract

The method involves providing an upper side (FO) in a press gap, where the upper side is smoothed than a lower side (FU). An operating range (12) is limited within a dry section (10) in running direction of fibrous material. The upper side smoothed than the lower side in partial range. An independent claim is also included for a machine for manufacturing a fibrous material web, particularly paper, cardboard or tissue web.

Description

The invention relates to a method for producing a fibrous web, in particular paper, board or tissue web, having a top layer forming a first layer and a second layer forming a bottom in which the fibrous web is passed through a press arrangement with at least one press nip and after passing through the press arrangement is transferred to a drying section in the direction of passage for the fibrous web forming drying device and is guided by this.

The invention further relates to a machine for producing a fibrous web, in particular paper, board or tissue web, having a first layer forming a top side and a second layer forming a bottom side, comprising a press arrangement having at least one press nip and at least one of the press arrangement in the direction of passage the fibrous web downstream, at least one drying section descriptive drying device.

Such methods and machines are known. The document WO 2010/020707 A1 describes a part of a board machine for the production of White Top Liner Board with a compact press arrangement in which the underside of the fibrous web comes into contact with a smooth, centrally arranged press roll.

In the document WO 01/18309 A1 discloses a method of making liners consisting of two layers. The fibrous web is made in the forming of two layers and then further dewatered in a press section and dried in a drying section. The press section is designed so that the upper side of the fibrous web comes into contact with the smooth side of a transfer belt in the last press nip.

Increasing demands on the quality, such as the printability and strength of the fibrous web, in particular at higher production speeds, as well as increasing cost pressure in production, require improved manufacturing processes, especially for white top test liners.

The invention is therefore based on the object of developing a method and a machine for producing a fibrous web such that the quality of the fibrous web, also in terms of economy, is improved. The solution according to the invention is characterized by the features of claims 1 and 9. Advantageous embodiments are described in each case in the subclaims.

An inventive method for producing a fibrous web, in particular paper, cardboard or tissue web, with a first layer forming a top and a second layer forming a bottom in which the fibrous web is passed through a press arrangement with at least one press nip and after passing through the press assembly is passed to a drying section in the direction of passage for the fibrous web forming drying device and is guided by this is characterized in that in the at least one press nip, the top is smoothed more than the bottom and that within the drying section in the direction of travel of the fibrous web locally over at least one, a Treatment area is characterized by a sub-region, compared to the pressure on the fibrous web in the remaining area of the drying section, increased pressure is applied and wherein in this sub-area, the upper side is more smooth than the bottom. In an expedient embodiment, the at least one press nip is formed by the last press nip of the press arrangement.

In a further possible embodiment, a further press nip is arranged in front of the at least one press nip in which the upper side of the fibrous web is more smoothly smoothed than the underside.

According to an advantageous further development of the further press nip is formed by a penultimate press nip and the last and penultimate press nip so assigned to the counter element, that the counter element in each case comes into contact with the upper side of the fibrous web. Advantageously, the last press nip is extended, for example, as a shoe press nip executed.

In a practical embodiment press arrangement is designed as a compact press. The compact press is characterized in that a centrally arranged press roll serves as a counter element for at least two press nips. The central press roll has a smooth surface and comes into contact with the fibrous web, thereby smoothing it.

In a further embodiment, the central press roller of the compact press is looped around by a transfer belt and passes through all of the press nips formed with the central press roller as a counter element. The fibrous web touches the surface of the transfer belt, so that sets a smoothing effect. The fibrous web is transported lying on the transfer belt to the next machine section and transferred to a subsequent stringing.

It is also advantageous if the first press nip of the centrally located press roll of the Compact press is formed by a Saugpresswalze.

In a further embodiment of the compact press, the suction press roll together with a further press roll forms a further press nip. This press nip forms the first press nip of the compact press.

Good results with regard to the dewatering performance and quality of the fibrous web can be achieved if the compact press is preceded by at least one additional press nip. Appropriately, this press nip is extended, for example, as a shoe press nip executed.

For high dewatering performance, it is also advantageous if the press arrangement is arranged a pre-press nip in the forming area. At least one forming fabric is guided through the pre-press nip.

The invention is particularly advantageously applicable to the manufacture of the White Top Testliner (abbreviated to WTTL) type of liner which comprises a first ply, the blanket ply (blanket), and at least one second ply, the backsheet (back). Optionally, this variety may consist of further layers, which are arranged between the first and the second layer. Such additional layers are referred to as a protective layer and insert. The first and the second layer of these fibrous webs thus form the outer layers.

For White Top Testliner the quality characteristics SCT CD index are after the measurement method DIN 54518 , the burst index after the measurement method DIN EN ISO 2759 , the RCT CD index after the measurement method DIN 53134, 1990-02 and Roughness to Bendtsen after the measurement method ISO 5627 really important.

White Top Testliner is used as wrapping paper whose basis weight is in the range of 100 to 300 g / m ² . This grade also requires high strengths and good surface properties. Testliner is usually made, as already mentioned, from the two layers of blanket and back. The blanket may consist of 100% high quality bleached short and long fiber pulps, for example of 60% long fiber and 40% short fiber pulps or, as required, of waste paper such as 80% of Class 3.18 and 20% of Class 3.16 or 40% class 2.05 and 40% of class 2.06 and 20% of class 3.10. The back is 100% recycled paper fibers. Possible exemplary waste paper grade compositions are 25% of Class 1.02 and 25% of Class 1.04 and 50% of Class 4.03, or 100% of Class 4.04, or 20% of Class 1.02 and 80% of Class 4.03, or 50% of Classes 1.02 and 50% of class 1.04. The protective layer or liner may, if the WTTL is made from more than two layers, for example 100% waste paper fibers of Class 1.11 and optionally with admixtures of the waste paper grade 2.05. The specified waste paper classes correspond to the European standard EN 643 ,

• – SCT CD index (short span compression test, Querrichtung) nach Messmethode DIN 54518 : bis zu 28 Nm/g, insbesondere bis zu 23 Nm/g
• – Burst index nach Messmethode DIN EN ISO 2759 : bis zu 2,6 kPam²/g, insbesondere bis zu 2,2 kPam²/g
• – RCT CD index (ring crush test, Querrichtung) nach Messmethode DIN 53134, 1990-02 ): bis zu 10 Nm/g, insbesondere bis zu 6 Nm/g
• – Rauhigkeit (nach Bendtsen, Messmethode DIN 53108 ): bis zu 300 ml/min, insbesondere bis zu 800 ml/min
• – Weißgrad (ohne UV Anteil, Messmethode ISO 2470, 1999 (E) : bis zu 82% ISO, insbesondere bis 76% ISO.

The inventive method enables the production of high quality white top testliner varieties. The following property values can be achieved:

• - SCT CD index (short span compression test, transverse direction) by measuring method DIN 54518 : up to 28 Nm / g, in particular up to 23 Nm / g
• - Burst index by measurement method DIN EN ISO 2759 : up to 2.6 kPam ² / g, especially up to 2.2 kPam ² / g
• - RCT CD index (ring crush test, transverse direction) according to measuring method DIN 53134, 1990-02 ): up to 10 Nm / g, in particular up to 6 Nm / g
• - Roughness (according to Bendtsen, measuring method DIN 53108 ): up to 300 ml / min, in particular up to 800 ml / min
• - Whiteness (without UV component, measuring method ISO 2470, 1999 (E) : up to 82% ISO, in particular up to 76% ISO.

The pulp suspension from which the testliner is made, due to economic considerations, includes inexpensive raw materials. However, these impair the quality of the fibrous web produced. The solution according to the invention makes it possible to produce a fibrous web with good quality and cost-effective use of raw materials.

The process according to the invention makes it possible to produce fibrous webs of white top testliner with a high specific volume. This makes it possible to reduce the amount of high-quality pulps used and thus save costs.

According to the method and the device according to the invention, the specified quality parameters can be achieved individually and also the values of several parameters in combination, for example, by dewatering the fibrous web correspondingly between the press arrangement and the device defining a treatment area arranged within the drying section. is split. Accordingly, the positive influence on the roughness of the fibrous web, for example, by the inventive arrangement of lying within the drying section, a treatment area descriptive device and the upstream press arrangement, can be effected.

According to the invention, the production process of the fibrous web is modified such that after the press arrangement in the downstream drying device, a process step is added, which increases the strength and in particular the internal strength of the fibrous web. It has been found that by applying pressure over a portion of the entire drying section, that is, a longer distance in the direction of travel of the fibrous web considered on this, the strength of the fibrous web can be significantly increased. This process step is preferably arranged in the dry content range of the fibrous web between 50% and 85%, preferably between 55% and 85%. The introduction of the pressure can be done in a relatively simple manner and integrated into the already provided guidance of the fibrous web.

A treatment region is understood to be the region in which apart from the drying parameters usually provided in a drying device, further parameters influencing the properties of the fibrous web act on the fibrous web.

Thus, at least one side of the fibrous web in the treatment area can be smoothed.

According to the invention, it is provided that the arrangement of the treatment area is matched to the press arrangement. Preferably, in the press arrangement, the blanket layer of the WTTL is brought into contact with a smooth surface, such as a smooth press roll and / or a smooth transfer belt, and thus pre-smoothed. The treatment area is designed in such a way that in turn the ceiling layer comes into contact with a smooth side of a device and is once again smoothed. By this method, no further smoothing device, such as a calender, is necessary. The top of the fibrous web, that is the blanket layer is brought to the final smoothness. The production process is therefore preferably free of conventional calendering. Thus, risks associated with the occurrence of quality impairments, such as mottling and black sation, can be reduced or even prevented.

The inventive design of the production process allows the production of WTTL especially at high production rates and high demands on the dewatering performance at the same time improved quality properties of the fibrous web, such as smoothness and strength.

The effective pressure in the treatment area on the fibrous web is preferably set in a range of 0.04 MPa to 0.5 MPa, preferably 0.05 MPa to 0.5 MPa, particularly preferably 0.2 MPa to 0.3 MPa. These heights of the pressures allow a corresponding increase in the strength of the fibrous web in the Z direction, in particular at least in the range of 20% to 80%.

Since it is in the localized pressurization in the direction of passage of the fibrous web usually at least a two-dimensional loading, d. H. Over a surface area, which is characterized by an extension in the machine direction and cross machine direction is, depending on the machine speed, the exposure time can be influenced on the fibrous web. The gap geometry formed in the treatment area influences the surface topography of the fibrous web accordingly.

The treatment area can preferably be continuous or interrupted in the fibrous web passage direction. The first possibility offers the advantage of the formation of continuous pressure profiles over the extent of the treatment area in the direction of passage of the fibrous web, and thus a gradual increase in strength. In the second case, a plurality of individual partial treatment areas are provided, which are connected in series one after the other.

In a particularly advantageous embodiment, depending on the properties to be achieved on the fibrous web surface, the pressure in the treatment region in the direction of passage of the fibrous web and / or transversely to the passage direction can be set variably. This possibility offers the advantage of locally specifically adjustable, in particular adjustable, increases in strength and surface properties. Due to the adjustability of the pressure transversely to the machine direction a profiling to achieve a desired smoothness transverse profile is made possible.

In an advantageous sub-variant, the pressure or the pressure profile can be kept constant transversely to the passage direction of the fibrous web in the treatment area in the direction of passage of the fibrous web. Due to the extended formation of the treatment area in the direction of passage and the residence time determined by the passage speed, an irreversible and preferably uniform action on the surface of the fibrous web takes place, whereby a smoothing of this is achieved.

The variable adjustment of pressure profiles in the machine direction and / or cross-machine direction advantageously allows the targeted setting of property profiles or an adjustment of a constant property curve in the machine direction and / or cross-machine direction. there the print profile can be controlled or adjusted. The variable adjustability of the pressure in the machine direction and / or the cross-machine direction can also be used as a control function in a control / regulation of at least one property of the fibrous web.

In an advantageous embodiment, the treatment area is characterized by an inlet and an outlet area with regard to the pressure to be applied in the machine direction. The pressure is thereby increased from an initial value, preferably 0 MPa and lowered again in the direction of the outlet in the machine direction. The lowering is preferably continuous, d. H. free of increments. The increase or decrease in the pressure or the pressure changes in the direction of passage of the fibrous web viewed between inlet and outlet preferably take place continuously.

The setting of a constant pressure curve in the machine direction and / or cross machine direction offers the advantage of setting a property profile.

The action of the pressure on the fibrous web takes place either directly on the fibrous web surface or indirectly via further components which transfer the pressure, in particular a fabric supporting the fibrous web. The former case offers the advantage that here preferably the pressure is exerted directly against the fibrous web by means of at least one smooth surface and, at the same time, a smoothness effect is achieved depending on the configuration of the surface. According to the second embodiment, the pressure can be arbitrarily applied to a fibrous web leading and supporting clothing or movable contact surface, wherein the fibrous web is not affected in their leadership.

The pressure is applied in the simplest case via a contact surface against a counter surface. The pressure which can be applied via the contact surface can be adjusted as a function of the geometry of the contact surface, arrangement and actuating force. The contact surface and the mating surface are arranged opposite one another in such a way that they form a treatment region which is elongated in the direction of passage of the fibrous web. Contact surface and counter surface are preferably movable and can be moved synchronously or at a differential speed to each other.

In an advantageous embodiment, the pressure is exerted only by means of at least one movable contact surface against the fibrous web, preferably between the movable surface and the fibrous web and / or the fibrous web supporting fabric or surface of this leading component no speed difference exists. In this case, the pressure is set directly as a function of the machine speed over a predefined residence time.

Speeds with speed difference offer the advantage of increasing the smoothness effect.

Depending on the design of the device used to apply the pressure of this can be applied on one side of a fibrous web page, so that only one of the fibrous web sides - top or bottom - is affected, while other designs are suitable simultaneously to act on both sides of the fibrous web. The first variant finds particular use for designs which require different pulp web properties on both sides, such as White Top Testliner. The second variant offers the advantage that the same properties can be achieved on both sides of the fibrous web. In order to achieve this effect with a one-sided acting device, in a particularly advantageous embodiment, another such device on the other fibrous web surface is effective. The devices are then connected in series in the direction of passage of the fibrous web. In this case, very high increases in strength are achieved, with higher moisture content of the fibrous web increased strength is observed than at lower humidity. In addition to an increase in strength, an additional increase in the evaporation rate is achieved. If 30 kg to 50 kg of water per m ² drying cylinder and hour are usually evaporated in single-row dry assemblies, the arrangement according to the invention makes it possible to evaporate from 100 kg to 200 kg water / m ² h.

The treatment area extends in the direction of passage, in particular in the machine direction over a range ≥ 1 m, preferably ≥ 3 m, more preferably ≥ 5 m, most preferably ≥ 10 m, more preferably ≥ 20 m. The upper limit can be described as a function of the arrangement of the inlet into the treatment area and the remaining length of the drying section thereof.

In a particularly advantageous embodiment, depending on the web guide and the execution of the contact surfaces at least by a flat or curved portion characterized treatment areas.

In one embodiment, belt presses are used, which are characterized in that the pressure on the fibrous web is applied over a belt. Such belt press assemblies are in combination with a heated cylinder in the Drying device can be integrated in a particularly advantageous embodiment, since they additionally contribute to increasing the drying effect.

In a further development, it is provided that the fibrous web is guided through at least one double press arrangement which forms an extended press nip which describes itself in the longitudinal and transverse treatment region, and a surface pressure is exerted on the fibrous web on both sides of the treatment area via smooth press belts. By adjusting the velocities of the individual strips and the pressures, the properties, in particular the surface properties of the fibrous web, can be selectively influenced on both sides.

The embodiments with such extended, extending in the direction of execution of the fibrous web treatment gap offer the advantage of a considerable time compared to conventional manufacturing process prolonged pressurization and thus compression on at least the exposed side of the fibrous web. Due to the gap geometry generated thereby, in particular its length in the direction of passage and height perpendicular thereto, the surface topography of the fibrous web is influenced such that it has a low roughness. Due to the long, by the length of the gap and the speed of passage through this particular residence time takes place an irreversible and uniform action on the surface. The smoothing of the surface can be achieved purely mechanically by pressure or in combination with the targeted adjustment of other physical factors, in particular temperature increases.

Depending on the design of the individual double-belt press arrangement as an isobaric or isochoric press arrangement, the resulting surface pressure of the flat pressures exerted on both sides of the fibrous web via the smooth press belts can be kept constant in the passage direction or else the volume guided through the press nip within the entire treatment area.

In the case of isobaric double belt press arrangements, the resulting surface pressure of the flat pressures exerted on both sides of the fibrous web within the treatment area is preferably set by controlling at least the surface pressure on one fibrous web side, while the other pressure applied to the opposite side is limited to a fixed value or also freely adjustable. In the first case, the control engineering effort can be significantly minimized and the adjustment can be made directly on the press belt. In the second case, the adjustment can be made considerably more sensitive.

In an embodiment with an isochronous double-belt press arrangement, the distance of the two press belts describing the height of the press nip is kept constant over the extent of the treatment zone. The surface pressures are adjusted depending on the surface conditions on the fibrous web to maintain the distance and are therefore variably adjustable. In particular, the pressure distribution in the longitudinal direction of the press nip and in the transverse direction is preferably freely adjustable.

By a defined temperature and pressure distribution within the treatment area, the desired surface properties, in particular smoothness, roughness can be adjusted specifically. By means of targeted matching, the effect of pressure can be increased by influencing the condition of the surface areas.

In terms of apparatus, at least one device describing a treatment area for applying a pressure to the fibrous web is arranged within the drying section for this purpose. In this case, the individual treatment area is formed by at least one contact surface and an opposing surface or by active pressing of the counter surface by forming this contact surface as two contact surfaces acting on the fibrous web. In the simplest case, the individual contact surfaces are formed by endlessly circulating belts, in particular press belts. These allow any adjustment to different mating surfaces and are thus integrated in a space-saving manner in the drying device.

In an advantageous embodiment, at least one individual contact surface and / or counter surface can be heated to increase the smoothness.

In a particularly advantageous further development, the individual device for at least indirect application of a pressure is formed by a drying device, comprising at least one drying cylinder, which is covered by a part of its outer periphery by at least one, a contact pressure relative to the drying cylinder performing pressure hood and the fibrous web together with at least one, a contact surface forming endless circulating belt in the form of a gas- and liquid-impermeable clothing and a dryer fabric belt between the drying cylinder and the pressure hood can be passed. Such devices are characterized by a high functional concentration.

In the production of the fibrous web, in particular of white top testliner, it is advantageous if the blanket layer comes into contact with the smooth side of the device describing a treatment area for applying a pressure to the fibrous web in the drying section. This can be, for example, a drying cylinder. As a result, a gentle pre-smoothing and compression of the later to be printed side of the fibrous web is achieved. In this one-sided treatment of the fibrous web, the device for applying a pressure can be arranged to save space below the drying device of the paper machine. This is particularly advantageous when retrofitting a treatment area.

In a further embodiment, the individual device for at least indirect application of a pressure comprises at least one double belt press arrangement with two press elements each having a press belt, which form an extended press nip which describes a treatment region in the direction of passage of the fiber web. The double belt press can be designed as an isobaric or isochronous double belt press.

Advantageously, a plurality of unilaterally acting on the fibrous web means for applying a pressure to the fibrous web are provided, which are connected in series in the direction of passage of the fibrous web along the drying section, wherein the individual devices are arranged and designed such that they are effective on different fibrous web pages to ensure the same properties on both sides.

The drying device may comprise at least one contact drying device for contact drying, in particular one or a plurality of heatable drying cylinders and / or an impingement drying device. The impingement drying device is preferably arranged directly after the press arrangement, wherein the fibrous web is transferred to the impingement drying device without free tension. This has the advantage that the still very moist and thus low strength fibrous web, despite the forces acting from the outside, can be transferred without tearing.

In a further embodiment, the drying device can be formed by a plurality of drying devices in the form of so-called belt presstrockeneinrichtungen comprising at least one drying cylinder which is covered over a part of its outer periphery by at least one, a contact pressure relative to the drying cylinder pressure hood and wherein the fibrous web together with at least one, a contact surface forming endless circulating belt in the form of a gas- and liquid-impermeable fabric and a dryer fabric belt between the drying cylinder and the pressure hood can be passed. The device for applying the increased pressure can be formed by at least one such drying device, wherein at this the pressure on the fibrous web is increased compared to the other drying devices and in which optionally the temperature of the drying cylinder can differ from those of the other drying cylinder. This design offers the advantage of installing increased drying rates on short lengths.

It is also conceivable execution of at least one such belt press with unheated cylinder.

According to an alternative approach, the increase in strength and in particular the internal strength of the fibrous web can be achieved by adding glue into the pulp suspension or the pulp suspension to be supplied to the headbox. According to a further alternative, at least one device for applying a pasty medium, in particular glue, may be provided downstream within the machine for producing a fibrous web of the press arrangement. Applicable commissioned works are, for example, size presses, which are operated in the upflow mode, film presses in which the glue or the starch is applied indirectly via rollers. Film presses are suitable for applying glue with a solids content of up to 18% at application rates of up to 8 g / m ² air-dry mass per side of the fibrous web.

In a further advantageous variant of the solution according to the invention, for the treatment of the raw materials for producing a fibrous web, in particular white top testliner, before the raw materials in the form of a pulp suspension are fed to the constant part and the paper machine. The grinding takes place in at least one milling stage at a higher consistency of at least one pulp suspension of the two layers, preferably the higher grade. Pulp suspension for the production of the ceiling layer. This contains bleached short fibers and long fibers. The consistency of this suspension is advantageously adjusted to a consistency range between 4.5% and 8% (mass of the solid based on the volume of the suspension), preferably between 4.8% and 8%. The advantage lies in a higher achievable strength of the produced fibrous web and in a lower fines content than in the grinding at a lower consistency. In addition, less grinding energy is needed compared to conventional grinding.

In an advantageous embodiment of the invention, the forming unit of the paper machine for the back and the top layer each have a wire, at least one headbox is equipped with Verdünnungswassertechnik. This has the advantage that the thickness profile in the cross machine direction can be better adjusted. This allows a better smoothing result in the smoother and avoids surface defects, such as mottling.

At least one roller of the former may be equipped with a screen shaker for formation improvement.

The forming unit for the ceiling and / or the supine position may comprise a hybrid former. The fibrous web is first dewatered on both sides and from an average dry content of 3 to 5% on both sides.

In a further embodiment of the invention, the former unit is selected so that the individual layers are still gummed together in a relatively moist state, ie at a dry content of less than 9%, preferably less than 8%. This arrangement has the advantage that less expensive sieve suction and thus less energy for the production of the fibrous web are needed. In addition, the layer strength is increased, which is an important quality feature, especially in liners.

In particular, in the production of the supine position of the fibrous web White Top Testliner the use of a Formierwalze having a twin-wire former is advantageous. The pulp suspension is guided via a headbox into a gap formed by two forming rolls which wrap around the forming roll and are dewatered there. The twin-wire former is characterized by the fact that the forming roller is wrapped by both forming fabrics through an angle of more than 90 °. As a result, a reliable and adequate dewatering performance, even with high enough for a good strength of the fibrous web high freeness of up to 50 ° SR, achieved. In addition, an optimal fines distribution in the thickness direction of the fibrous web is achieved by dewatering devices arranged on both sides of the dewatering sieves. The use of a stationary high-vacuum suction instead of a suction sieve in the inner sieve on the sieve separation, the energy required for the generation of the vacuum is reduced. In addition, the intake of false air compared to Siebsaugwalze can be minimized, thereby the gas content in the white water can also be reduced. As a result, the later effort to reduce the free air in the white water is much lower.

After the Doppelsiebbereich the inner Formierieb a wire is assigned to a further layer, such as the protective layer or insert, the fibrous web formed and this aufgautschte on the supine position formed in Doppelsiebformer. Subsequently, another wire is provided for the production of the ceiling layer. This is aufgautscht on the protective layer or insert. In the event that no protective layer or insert is provided, the ceiling layer is puffed directly onto the supine position. In a practical embodiment of the invention, the forming unit is fed from at least one multilayer headbox with a pulp suspension. The multilayer headbox carries at least two different pulp suspensions in the individual layers for the production of the various layers. The pulp suspensions are first brought together in the drainage area of the former and connected during the drainage. This solution is achieved by the simple structure of the forming unit cost-effective a good layer strength.

In a further refinement possibility, the production process comprises a smoothing area downstream of the treatment area with a smoothing device which comprises a counter surface which directly contacts the fibrous web on a first side and which is designed as a surface of a heated roll.

The solution according to the invention is explained below with reference to figures. It details the following:

1 illustrates in a schematic simplified representation of the basic arrangement and integration of a device for exerting a pressure on the fibrous web within a drying device;

2 illustrates a first advantageous embodiment with a trained as a drying device, one-sided effective on the fibrous web means for applying a pressure;

3 illustrates a particularly advantageous development according to an embodiment of 2 another second means for applying a pressure acting on the other fibrous web surface;

4 illustrates a particularly advantageous further third embodiment with execution of the device for applying a pressure as a double belt press arrangement.

5 shows a variant for the treatment of raw materials for producing a Fiber web before the raw materials are supplied in the form of a pulp suspension to the constant part and the paper machine.

6 shows the paper machine immediately upstream constant part

7 shows a first embodiment of a paper machine with an advantageous press arrangement

8th shows a second embodiment of a paper machine with a further advantageous press arrangement

The 1 illustrates in schematic simplified representation of the basic principle and the basic structure of an inventively executed machine 1 for the production of material webs, in particular fibrous webs F in the form of paper, board or tissue webs. An example of this is a section of the machine 1 reproduced in a schematic simplified representation, wherein a coordinate system is created to illustrate the individual directions. The X-direction illustrates the longitudinal direction of the machine and is therefore referred to as machine direction MD, which is the basic guiding direction of the fibrous web F through the machine 1 equivalent. The Y-direction corresponds to the width direction, that is, the direction transverse to the machine direction MD, which is therefore also referred to as the cross-machine direction CD, while the Z-direction represents the height direction.

In the machine 1 the formation of the fibrous web F takes place essentially in a forming unit not shown here in detail 2 from which the fibrous web F in a, this in the machine direction MD downstream press assembly 3 is transferred. The press arrangement 3 is designed as a so-called single-gap press arrangement. This includes within the entire press arrangement 3 only a single single press nip 4 , which of two press rolls 5 and 6 is formed. The press nip 4 is considered in the machine direction MD and thus in the direction of passage of the fibrous web F through this preferably designed as an extended press nip. The press arrangement 3 immediately downstream is a drying device 9 , which can be designed in various ways. The leadership of the fibrous web F takes place within the drying device 9 along a so-called dry stretch 10 , Within the drying section 10 is according to the invention in the direction of passage of the fibrous web F localized over at least one, a treatment area 12 characterizing portion of this one against the pressure on the fibrous web F in the remaining area of the drying section 10 applied increased pressure. This is a device 11 for at least indirectly applying a pressure to the fibrous web F, ie directly or indirectly over the fibrous web F leading clothing or facilities within the drying section 10 arranged. The arrangement of the device 11 takes place within the drying section 10 that is after the entry into this and before the outlet from this. The pressure which locally over at least a portion of the drying section 10 is applied, wherein the application of the pressure can be done on one or both sides, causes an increase in the internal strength of the fibrous web F. The device 11 for the at least indirect application of a pressure defines a surface area formed in the machine direction MD and cross-machine direction CD at least one continuous or from a plurality of surface areas, which the treatment area 12 describes. The at least indirect application of a pressure can take place on the upper and / or lower side FO, FU of the fibrous web F. The temporal effect of the pressure is a function of the size of the treatment area 12 , in particular the extent in the machine direction MD and the speed of movement of the fibrous web F by this writable. The treatment area 12 can be described by at least one flat or curved surface. This preferably extends over the entire fibrous web F in the cross machine direction CD while passing through the drying device 9 ,

The device 11 for the at least indirect application of a pressure comprises in the simplest case, a contact surface AF and a counter surface GF.

The treatment area 12 is for example characterized by a length ≥ 1 m, preferably ≥ 3 m, more preferably ≥ 5 m, most preferably ≥ 10 m.

The 2 exemplifies with reference to a section of the machine 1 a first embodiment of an inventive arrangement and embodiment of a device 11 for at least indirectly applying a pressure within that of the drying device 9 formed dry section 10 , Under dry stretch 10 In this case, the web guide path of the fibrous web F is understood. Visible here is the end of the forming unit 2 , wherein the fibrous web F of a dewatering belt 13 , In particular a screen belt as donating fabric to the press assembly 3 in a transfer area 14 to a covering of the press arrangement 3 is handed over. This is within the forming unit 8th the fibrous web F is dewatered to a dry content TG of at least 16% for predominantly wood-containing substances and at least 18% for predominantly wood-free substances. To ensure this can, the fibrous web F is an example here together with the dewatering belt 13 , in particular sieve belt and a fluid-receptive press felt 15 by one, by a suctionable roller 16 and a press roll 17 formed so-called pre-press nip 18 guided. In this case, the fluid to be removed, in particular water, through the dewatering belt 13 over the suctionable roller 16 aspirated. On the opposite side of the emerging from the fibrous web F fluid from the press felt 15 taken and transported away with this. The transfer to the press arrangement 3 takes place free from a free draft from the dewatering belt 13 , in particular a wire belt to one, the fibrous web F within the press assembly 2 leading fabric. Inside the press arrangement 3 becomes the fibrous web F between an endless circulating and fluid absorbable drainage tape 8th and a stringing 7 through the press nip 4 guided. The covering 7 has a surface with less roughness than the surface of the dewatering belt 7 , This smoothes the top of the fibrous web (F). In the drainage tape 8th it is preferably a press felt. Here is the example of the stringing 7 designed as ab- or accepting clothing and arranged such that this supported on a suction device, in particular suction roll 19 in the guide area of the dewatering belt 13 dips and the fibrous web F due to the over the suction roll 19 applied negative pressure takes over. The fibrous web F is then supported on the fabric 7 continued and from the second dewatering belt 8th sandwiched with this by the press nip 4 the press arrangement 3 guided. The individual press rolls 5 and 6 the press arrangement 3 can be designed differently. These can be designed and dimensioned such that they form only a simple press nip or, preferably, a press nip extended in the machine direction MD 3 , This is the press roller 5 designed as a shoe press roll comprising a rotatable flexible roll shell 20 with an effective on the inner circumference, one acting opposite to the counter-roller press roll 6 concave contact surface 21 having pressing unit 22 in the form of a press shoe.

After passing through the press nip 4 the separation of the clothing takes place 7 from the dewatering band 8th and the return of these, wherein the fibrous web F with one of the two bands 7 or 8th , here exemplary 8th , in the form of the underfelt over a portion of its circulation path to the transfer area 23 to a downstream drying device 9 is continued. The decrease also takes place via a suctionable roller, here the suctionable roller 25 from the transferring covering in the form of the drainage tape 8th to acquiring clothing in the form of a transfer belt or Trockensiebbandes, here the band 26 , The fibrous web F is supported thereon along the surface of a first drying cylinder TZ1 and further therefrom free from support by the band 26 guided and then supported by a Trockensiebband 27 removed from the surface of the drying cylinder TZ1 and the deflection roller 24.1 and by the drying device 9 guided.

The drying device 9 can be performed in various ways. The drying device 9 comprises at least one contact drying device and / or an impingement drying device. In the case shown, the drying device 9 by way of example as a single-row drying cylinder arrangement, comprising at least one, preferably a plurality of drying cylinders TZ1 to TZn, along the surface of which the fibrous web F is guided in contact over a partial area on the outer circumference. The guide between two adjacent in the direction of passage drying cylinders TZn - 1 and TZn with n = 1 - ∞ takes place between them in the vertical and horizontal direction offset to these arranged pulleys 24.1 to 24.n , The pulleys 24.1 to 24.n can be formed as grooved and / or besaugbare rollers, especially inside or outside besaugbare rollers.

As already stated, the drying device 9 be formed differently, wherein the fibrous web F via one or more, the dry content of the fibrous web F influencing functional units is performed. The drying device 9 may include one or more viewed in the direction of passage of the fibrous web F one behind the other connected devices for direct or indirect drying. As already mentioned, these can be contact drying devices and / or impingement drying devices.

Inside the drying device 9 here is a facility 11 provided for at least indirectly applying a pressure to the fibrous web F. This is integrated into the guide path of the fibrous web F. For this purpose, the fibrous web F is exemplified in the 2 led out of the predetermined by the arrangement of the drying cylinder TZ1 to TZn meandering guide path and the device 11 fed. The device 11 can also be integrated in the machine direction MD within the drying cylinder arrangement, ie in the axial direction in the longitudinal direction, but this leads to an increase in the extension of the machine 1 leads in this direction. Therefore, according to a particularly advantageous embodiment, the arrangement of Facility 11 in the vertical direction offset to the drying cylinders TZ1 to TZn. The device 11 is in the case illustrated as a belt press 28 executed. The treatment area formed by this 12 is curved and writable by an envelope. The fibrous web F is on a curved, movable, in the illustrated case rotatable surface 29 as a counter surface GF supported on the dryer wire belt 27 guided and at the of the surface 29 weggerichtet side of the fibrous web F acts another curved surface 30 in the function as a contact surface AF. The overlap area of surface 29 and surface 30 forms the treatment area 12 , In the case shown, to apply the pressure within the dryer 9 in a particularly advantageous embodiment with functional concentration, a drying device 31 used, which in addition to drying the function of the device 11 takes over. This includes a heated drying cylinder 32 that is part of its outer circumference 33 by at least one, a contact pressure against the drying cylinder 32 performing pressure hood 36 is covered and in which the fibrous web F together with at least one endlessly circulating Trockensiebband, here the Trockensiebband 27 and an opaque covering acting as a press belt 35 which is impermeable to gas and liquids in particular, between the drying cylinder 32 and the pressure hood 36 can be passed. Here is the acting as a press belt covering 35 preferably designed as a metal band, in particular steel band. The surface acting as counter surface GF 29 gets off the surface of the drying cylinder 32 formed, which comes with the top FO of the fibrous web fin contact and this is smoothed. The contact surface 30 is from the itself on the pressure hood 36 supporting clothing 35 formed, which wraps around them. The drying wire belt 27 and the clothing 35 in each case form a loop, wherein the two endless loops are arranged one inside the other and each guided over at least guide rollers and guide rollers, wherein at least one of the bands 35 and 27 , preferably both, are drivable at least indirectly and preferably at the same speed. Also conceivable is a differential speed, which allows an additional smoothness effect. In the case shown, in addition, a further Trockensiebband 34 between drying wire belt 27 and the belt acting as a press belt 35 , Be provided in particular metal band. The dry sieve belts 27 and 34 and the clothing 35 are guided over a part of their circulation path contacting each other. This contact area forms a wrapping area on the drying cylinder 32 , in particular on the outer circumference 33 of the drying cylinder 32 and preferably also extends beyond a part beyond. The separation can be directly in the drying cylinder 32 or subordinate to this. On the inside of the fabric 35 is the pressure hood 36 effective. The drying wire belt 27 supports on its outside 27A , which corresponds to the fibrous web F contacting surface, the fibrous web F in the leadership in the drying cylinder 32 from. The drying cylinder 32 is preferably heated. The selected temperatures are for example 90 ° C to 200 ° C, preferably 140 ° C to 200 ° C.

The illustrated embodiment of a belt press 28 is exemplary. Also conceivable are other designs. With respect to the structure of such a device, for example WO 2005/100682 A1 directed. Not necessarily required is the version with heated contact surfaces or counter surfaces.

By the pressure in the treatment area 12 the strength of the fibrous web F can be increased. The 2 illustrates exemplified an embodiment with one-sided treatment of the fibrous web F by the compressive force is applied to the fibrous web underside FU, while the fibrous web top side FO on the surface of the drying cylinder 32 is guided. In order to achieve a uniform increase in strength at both fibrous web sides FO and FU according to a particularly advantageous embodiment, according to a second variant in the 3 at least a second device 11.2 provided, which is arranged and designed such that this pressure on the other with the first device 11 according to 2 not handling side, here exercises the fibrous web top FO. The basic structure of the device 11 and 11.2 corresponds to the facility 11 in 2 why the same reference numbers are used for the same elements. In the second facility 11.2 So comes the bottom FU of the fibrous web F with the surface 29 the drying cylinder in contact and is thereby smoothed. In a variant, not shown, the fibrous web F without the Trockensiebband 34 through the device 11 . 11.2 between the press belt 35 . 35.2 and the surface 29 . 29.2 guided. The press belt 35 . 35.2 is here as a plastic belt or metal belt with a surface roughness which is smaller than that of the dewatering belt 8th or the dryer fabric belt 26 . 27 , executed. By this arrangement, both surfaces FU, FO of the fibrous web F are simultaneously smoothed.

The 2 and 3 illustrate particularly advantageous embodiments, which are also characterized by a space-saving arrangement, especially when the facilities 11 . 11.2 in the vertical direction with offset to the already existing drying section 10 be arranged and the fibrous web F only from the usual Dry cylinder arrangement led out and introduced into this again. As a result, the extension in MD machine direction compared to conventional drying devices 10 are kept short or virtually unchanged and the space available in the vertical direction anyway be used effectively. The guide over a curved path allows the generation of the pressure partly already on the tension of the dryer fabric 27 even.

4 shows a third embodiment, which by the formation of a flat treatment zone 12 is characterized. In this example, the pressure on a double belt press 37 applied, which acts on both sides of the fibrous web F and generates a pressure on this. The basic structure of the press arrangement 3 corresponds to that in the 2 and 3 Therefore, the same reference numerals are used for the same elements and reference is made to the description thereof. The device 11 For at least indirect application of a pressure to the fibrous web F according to the invention comprises at least one press arrangement in the form of a so-called double belt press arrangement 37 , This works continuously and forms an extended in the direction of passage for the fibrous web F press nip 38 which is a treatment area 12 describes. Within the treatment area 12 , which extends in the direction of passage of the fibrous web F and transverse to this, the surface pressure and preferably additionally the temperature for acting on the fibrous web F is set. The treatment area 12 is in each case by a, a contact surface AF forming area effective range 39.1 and 39.2 the individual pressing elements 40.1 and 40.2 the double belt press arrangement 37 characterized. Every single pressing element 40.1 . 41.2 includes a so-called press belt 41.1 and 41.2 , which is formed as an endless circulating belt and is guided over at least two guide rollers, which are referred to as drums. In the direction of execution at the inlet into the press nip 38 arranged and the press belts 41.1 . 41.2 supporting or leading rollers are also referred to as inlet reel, while the other in the direction of passage through the double belt press arrangement 37 These downstream, arranged at the outlet rollers form the outlet drums, which are preferably designed to be driven. Within the of the two pressable effective ranges 39.1 . 39.2 the endless revolving press belts 41.1 . 41.2 between the inlet and the outlet formed extended press nip 38 , the fibrous web is subjected to at least one pressure over a predefined area, preferably the entire area. This over the press belts 41.1 . 41.2 on the fibrous web F respectively acting surface pressure p1 and p2 is a function of the formation of the double belt press arrangement 37 as an isobaric press system constant over the treatment area 12 or variably adjustable for execution as isochores press system.

The 2 to 4 illustrate example advantageous variants, the execution is not limited to this. It is crucial that the arrangement within the drying section 10 takes place, especially in a range of even high humidity and preferably the device 11 upon reaching the example of a dry content of 16% in predominantly wood-containing and at least 18% in predominantly wood-free materials on the fibrous web surface FU and / or FO acts. The individual facilities 11 In this case, they can be used in combination with each other, whereby guidance over curved or straight sections of dry material is possible here for the individual fibrous web surfaces FU, FO. Also conceivable is an arrangement of several such devices in the direction of passage of the fibrous web F successively. In all versions is doing while passing through the drying device 10 the fibrous web F at least on one side locally and temporally limited with an increased pressure compared to the otherwise on this within the drying section 10 acting pressure applied. This pressure is in the range of 0.04 MPa to 0.5 MPa, preferably 0.05 MPa to 0.5 MPa, more preferably 0.2 MPa to 0.3 MPa and can be applied in various ways. It is conceivable, preferably to let the pressure act evenly over the entire pressure surface to be formed or, according to a particularly advantageous embodiment, locally and temporally variable. This local and temporal variability is due to the setting of the pressure in the machine direction. MD and / or transversely to this achieved in the CD direction CD. Depending on the design, the pressure can vary from one another, in particular in the edge regions of the fibrous web F as well as in the middle region. The pressure setting can be done once fixed with a defined pressure or a predefined pressure profile or, according to a particularly advantageous embodiment in adaptation to desired to be achieved pulp web properties variably controlled, preferably adjusted.

The reordering of the drying device 9 takes place free from an interposition of other functional components, ie immediately. The drying device 9 itself can be designed in various ways. These may be so-called contact dryers as in the 2 to 4 be described in which the fibrous web in direct contact with the surface of a heated drying cylinder TZ1 - TZn arrives. However, it is also conceivable to use infrared drying devices or air flow drying devices, in particular impingement drying devices, so-called impingement drying devices, or so-called TAD drying devices, that is to say throughflow drying devices. Depending on the design of the drying device, the dry content may depend on the initial properties of the fibrous web in the transfer area of the press arrangement 3 to the drying device 9 be varied.

The 5 shows a further advantageous variant as part of the inventive solution for the treatment of raw materials for producing a fibrous web, in particular white top testliner before the raw materials in the form of a pulp suspension of the constant part and the paper machine 70.1 . 70.2 . 70.3 be supplied. This example shows a simplified stock preparation for the two-ply production of White Top Testliner. The first layer consists at least of a fabric made of bleached short fibers and long fibers and represents the high-quality, decisive for the strength of the situation, the so-called ceiling layer. These raw materials are initially in a Stoffbütte 51.1 stacked and then in a first refining stage in a refiner 52.1 ground. The consistency is for example 6%. After the subsequent Mischbütte 51.2 in which the fractions are mixed, the second milling stage also follows in a refiner 52.2 , After that, the fabric is in the machine chest 51.3 stacked. The supine position in this example consists of two types of material - a high-grade variety of unbleached short fibers and long fibers, and a second grade, consisting of waste paper, such as cardboard from a recycling process. The high-quality fabric is after the Stoffbütte for the supine position 53.1 a first refiner 54 fed and ground there and then a mixing device 55 supplied and mixed with a desired waste paper content. However, the supine position can also be made from 100% unbleached short fibers and long fibers. In this case, the waste paper strand is eliminated. In addition, in the mixing device 55 Papermaking committee, additives such as retention aids and white water for dilution may be added. The waste paper content comes directly from the Altpapierstoffbütte for the supine position 53.2 , After the mixing device 55 the mixture is in a further refining step in a refiner 56 ground and then also a machine chest 53.4 fed. The fabrics for the two layers are from the respective machine chest 51.3 . 53.4 in the further course of the material flow the constant part 60 fed.

In the 6 is the constant part 60 represented, which is immediately upstream of the paper machine. The pulp suspension for the production of the ceiling layer is from the machine chest 51.3 via a pump to another mixing device 62.1 led, in which another mixture with white water 1 and dilution is performed. Subsequently, the fiber suspension is preferably over several cleaner stages 70 guided and cleaned and in a degassing device 61 the air content is reduced. In the mixing device 62.2 the dilution is done on headbox consistency. In a sieve device 65 They break down coarse flakes and remove impurities. The impurities are again through a sieve 67 . 68 guided and the accept into the degasser 61 . 64 directed. Subsequently, the pulp suspension for the blanket layer is fed to the headbox. The pulp suspension for the supine position is treated accordingly.

The 7 shows an advantageous embodiment of a paper machine with an advantageous press arrangement for the production of white top testliner. The fiber suspensions for the top layer and the supine position are the corresponding headboxes 80.2 and 80.1 fed and through the wire strainers 2.2 and 2.1 drained and then zusammengegautscht the fiber webs formed into a fibrous web. The wire mesh for the blanket and / or the back can be associated with a double-wire unit, not shown, for two-sided drainage. The fibrous web F is then in the press arrangement 3 transferred and further dewatered and dried in the course of the paper machine. Following the drying section 10 become the surfaces FU, FO of the fibrous web F in the applicator 95 with glue, preferably starch, and then in a drying device 9 dried and then through the reel 90 rolled up, which is equipped with a center drive. At least one of the headboxes 2.1 . 2.2 is designed as dilution hydrogen casserole. In the drying section 10 are provided in the drying cylinder TZn web stabilizers to stabilize the run of the fibrous web F. The device 11 . 28 . 31 and their design variants correspond to the descriptions and representations in the 1 . 2 . 3 . 4 , It is regarding the 7 thus referred to these statements. The main difference to the 1 . 2 . 3 . 4 lies in the configuration of the press arrangement 3 , It comprises a so-called compact press and is formed by three press nips. The fibrous web F is through the stringing 7.1 , which is designed as a felt belt, from the dewatering belt 13 the forming unit 2 removed and between the drainage tapes 8.1 and 13 passed through the first press nip. This is done by a suction press roll 5.3 and a press roll 5.4 educated. Subsequently, the separation of the Fibrous web from the dewatering belt 7.1 and the guide through two more press nips, passing through the suction press roll 5.3 , Shoe roll 5.2 and a common counter roll, the central press roll 5.1 be formed. The central press roll 5.1 is from a transfer band 7.2 entwined, which the fibrous web F to the next string 8.3 brings. This covering alone has the task of connecting the transfer belt 7.2 and the subsequent drying wire belt 26 manufacture. The web guide is closed, ie without free trains. The Bahnabrissgefahr is thereby greatly reduced. The transfer band 7.2 has a surface roughness lower than that of the dewatering belts 7.1 . 8.1 . 8.2 and the dry sieve belts 8.3 . 26 , As a result, the upper side FO of the fibrous web F is smoothed when passing through the last two press nips. In the area of the dry stretch 10 are drying devices 9 provided, which are designed as a single-row dryer groups. These comprise drying cylinders TZn arranged in a horizontal row with deflection rollers arranged therebetween, in an underlying row 24.1 . 24.2 . 24.n , The pulleys 24.1 . 24.2 . 24.n are sucked and are from the Trockensiebband 26 . 27 the respective dryer group and the fibrous web F entwined. Between the drying cylinders TZn devices for stabilizing the web run are arranged. A part of the pulleys 24.1 . 24.2 . 24.n are impingement drying devices 42 to intensify and adjust the dry content before setting up 11 . 11.2 . 28 . 31 assigned. The 8th shows an advantageous embodiment of a paper machine with a further advantageous press arrangement. This embodiment differs from the paper machine in 7 in that the compact press only two press nips on the central press roll 5.1 having. The first press nip is through a stand-alone press through the shoe roll 5.6 and the press roll 5.5 educated. Through this first press nip of the press arrangement 3 becomes the fibrous web F between the clothing 7.1 and the drainage tape 8.1 lying passed. These are designed as felts. The benefits of in 7 and 8th illustrated embodiments are in an improved drainage performance. As a result, it is possible to avoid displacements of the fibrous web F, in particular at high production speeds and areal weights of greater than 170 g / m ² .

LIST OF REFERENCE NUMBERS

1

Machine for producing a material web

2

forming unit

2.1, 2.2

forming fabric

3

Press arrangement

4

press nip

5

roller

5.1

Central press roller

5.2

shoe roll

5.3

suction press

5.4

press roll

5.5

press roll

5.6

shoe roll

6

roller

7, 7.1

covering

7.2

transfer tape

8, 8.1, 8.2, 8.3

dewatering belt

9

dryer

10

drying section

11, 11.1, 11.2

Device for at least indirect application of a print

12, 12.1, 12.2

treatment area

13

dewatering belt

14

Transfer area

15

press felt

16

suctionable roller

17

press roll

18

Vorentwässerungsspalt

19

suction roll

20

flexible roll jacket

21

pressing surface

22

pressing unit

23

Transfer area

24.1, 24.n - 1, 24.n

guide rollers

25

suction roll

26

Trockensiebband

27

Trockensiebband

28, 28.1-28.5

belt press

29, 29.2

curved surface

30, 20.2

surface

31, 31.2

drying device

32, 32.1-32.5

drying cylinders

33, 33.2

outer periphery

34, 34.2

Trockensiebband

35, 35.2

Covering, in particular press belt

36, 36.2

Lens

37

Belt press, in particular double belt press

38, 38.2

press nip

39.1, 39.2

effective range

40.1, 40.2

press member

41.1, 41.2

press belt

42

Impingementtrocknungseinrichtung

50

Stock preparation

51.1

Fabric chest for the ceiling layer

51.2

Mischbütte ceiling layer

51.3

Machine chest ceiling position

52.1

Ceiling layer refiner, grinding first stage

52.2

Ceiling layer refiner, grinding second stage

53.1

Fabric chest for supine position

53.2

Old paper fabric chest for supine

53.3

Mixing chest for supine position

53.4

Machine chest supine position

54

Supine Refiner, grind first stage

55

mixing device

56

Supine Refiner, grind second stage

60

constant part

61, 64

degassing

62.1, 62.2, 63.1, 63.2

mixing device

65, 66

screening

67, 68

Screening device for reject

69

screening

70, 71

Cleaner

80.1, 80.2, 80.3

headbox

90

Reeling

95

Application device, size press

200

Paper machine with back and Deckenlangsieb

AF, AF.2

pressing surface

GF, GF.2

counter surface

F

Fibrous web

FO

top

FU

bottom

MD

machine direction

CD

Machine transverse direction

TZ1 to TZn

drying cylinders

X, Y, Z

coordinates

X _E

Property of the fibrous web

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 2010/020707 A1 [0003]
• WO 01/18309 A1 [0004]
• WO 2005/100682 A1 [0086]

Cited non-patent literature

• DIN 54518 [0017]
• DIN EN ISO 2759 [0017]
• DIN 53134, 1990-02 [0017]
• ISO 5627 [0017]
• EN 643 [0018]
• DIN 54518 [0019]
• DIN EN ISO 2759 [0019]
• DIN 53134, 1990-02 [0019]
• DIN 53108 [0019]
• ISO 2470, 1999 (E) [0019]

Claims (17)

Method for producing a fibrous web (F), in particular a paper, board or tissue web, having a first layer forming a top side (FO) and a second layer forming a bottom side (FU), in which the fibrous web (F) is formed by a press arrangement ( 3 ) is guided with at least one press nip and after passing through the press arrangement ( 3 ) to a drying line ( 10 ) in the direction of passage for the fibrous web (F) forming drying device ( 9 ) and is guided by it; characterized in that in the at least one press nip the upper side (FO) is more smoothly smoothed than the lower side (FU) and that within the drying section ( 10 ) in the direction of passage of the fibrous web (F) localized over at least one, a treatment area ( 12 . 12.1 . 12.2 ) characterizing portion, compared to the pressure on the fibrous web (F) in the remaining area of the drying section ( 10 ), increased pressure is applied and wherein in this part of the upper surface (FO) is more smooth than the underside. Method according to one of claims 1, characterized in that the pressure directly by the action of a contact surface (AF) on the fibrous web (F) or indirectly by the action of a contact surface (AF) against a fibrous web (F) leading surface, in particular stringing is exercised , Method according to claim 1 or 2, characterized in that within the drying section ( 10 ) a plurality of treatment areas ( 12 . 12.1 . 12.2 ) are provided and in this the pressure in each case on one side of the on a respective mating surface (GF, GF.2) supporting fibrous web (F) on different fibrous web sides (FU, FO) is exercised. Method according to one of claims 1 to 3, characterized in that the fibrous web (F) on a rotatable curved counter surface (GF, GF.2) is guided and the pressure by means of a in the direction of rotation of the counter surface (GF, GF.2) movable and is applied against the compressible contact surface (AF, AF.2) on the fibrous web. Method according to one of claims 1 to 4, characterized in that within the treatment area ( 12 . 12.1 . 12.2 ) at least one contact surface (AF, AF.2) and / or counter surface (GF, GF.2) is heated. Method according to one of claims 1 to 5, characterized in that the at least one press nip is formed by the last press nip of the press arrangement. A method according to claim 6, characterized in that before the at least one press nip, a further press nip is arranged in which the upper side (FO) is more smooth than the underside (FU). Method according to claim 6, characterized in that the press arrangement ( 3 ) has a counter element and the further press nip is formed by a penultimate press nip and the last and penultimate press nip are assigned to the counter element, that the counter element in each case with the top (FO) of the fibrous web (F) comes into contact. Machine ( 1 ) for producing a fibrous web (F), in particular paper, board or tissue web, with a first layer forming an upper side (FO) and a second layer forming a lower side (FU) comprising at least one press nip ( 4 ) having press arrangement ( 3 ) and at least one of the press arrangement ( 3 ) in the direction of passage of the fibrous web (F) downstream, at least one drying section ( 10 ) descriptive drying device ( 9 ); characterized in that in the at least one press nip the upper side (FO) is more smoothly smoothed than the lower side (FU) and that within the drying section ( 10 ) at least one, a treatment area ( 12 . 12.1 . 12.2 ) descriptive device ( 11 . 11.1 . 11.2 ) is arranged for applying a pressure to the fibrous web (F) and wherein the device ( 11 . 11.1 . 11.2 ) is arranged so that the top (FO) is more smooth than the bottom (FU). Machine ( 1 ) according to claim 9, characterized in that the individual treatment area ( 12 . 12.1 . 12.2 ) can be described by at least one curved area. Machine ( 1 ) according to one of claims 9 to 10, characterized in that the individual treatment area ( 12 . 12.1 . 12.2 ) is formed by at least one contact surface (AF, AF.2) and a counter surface (GF, GF.2). Machine ( 1 ) according to claim 11, characterized in that at least one of the individual contact surfaces (AF, AF.2) of an endlessly circulating belt, in particular press belt ( 35 . 41.1 . 41.2 ) is formed. Machine ( 1 ) according to one of claims 9 to 12, characterized in that at least one individual contact surface (AF, AF.2) and / or counter-surface (GF, GF.2) is heatable. Machine ( 1 ) according to one of claims 9 to 13, characterized in that the device ( 11 . 11.1 . 11.2 ) to the at least indirect Applying a pressure from a drying device ( 31 . 31.2 ), comprising at least one drying cylinder ( 32 . 32.2 ), which covers part of its outer circumference ( 33 . 33.2 ) by at least one, a contact pressure against the drying cylinder ( 32 . 32.2 ) performing pressure hood ( 36 . 36.2 ) is covered and in which the fibrous web (F) together with at least one, a contact surface (AF, AF.2) forming endless circulating belt in the form of a gas and liquid-impermeable clothing ( 35 ) and a drying wire belt ( 37 ) between the drying cylinder ( 32 . 32.2 ) and the pressure hood ( 36 . 36.2 ) can be passed. Machine according to one of claims 9 to 14, characterized in that the at least one press nip is the last press nip of the press arrangement. Machine according to claim 15, characterized in that before the at least one press nip, a further press nip is arranged in which the upper side (FO) is more smoothly smoothed than the underside (FU). Machine according to claim 16, characterized in that the press arrangement ( 3 ) has a counter element and the further press nip is formed by a penultimate press nip and the last and penultimate press nip are assigned to the counter element, wherein the counter element with the top (FO) of the fibrous web (F) comes into contact.

Images