EP3665326A1 - Machine and method for producing a fibrous material web - Google Patents

Abstract

The invention relates to a machine for producing a fibrous material web, in particular paper or board web, comprising a headbox, a shaping unit, a press section, a pre-drying section, a smoothing MG-Yankee cylinder, a smoothing device, a coating device and a take-up winding. In addition, the pre-drying section comprises a drying assembly having vertically successive, in particular steam-heated drying cylinders for drying the side of the fibrous material web facing away from the smoothing MG-Yankee cylinder.

Description

 MACHINE AND METHOD FOR PRODUCING ONE

 The invention relates to a machine for producing a fibrous web, in particular paper or board web, with a headbox, a forming unit, a press section, a pre-drying section, a MG-smoothing Yankee cylinder, a coater, a smoothing device, and a reel. It further relates to a method for producing a fibrous web, in particular paper or board web, in particular using a machine of the type mentioned, in particular for the production of one-side coated special papers.

In the production of fibrous webs, for example papers that are smoother on one side, the paper web is guided after the press section over a large, steam-heated cylinder, a so-called smoothing or Yankee cylinder. Such a cylinder serves on the one hand to dry the paper web. On the other hand, the paper web is smoothed on its side facing the smoothing or Yankee cylinder by the long contact with the smooth and hot surface of the smoothing or Yankee cylinder. This is the decisive production step in the production of one-sided smooth papers, so-called MG (machine glazed) papers. One-side coated special papers (C1 S) are currently produced on such machine tools. These machines have only a Glättzylinder (GZ) to dry the fibrous web. The production capacity or speed of these machines is limited by the size or dry capacity of the Yankee. The maximum raw paper capacity is about 35 t / m, d for a Yankee cylinder with a diameter of 6 m and a gas-heated hood and a raw paper weight of 30-60 g / m ² . For higher raw paper production capacities, for which a value of 70 - 100 t / m, d is desired, a pre-drying section in front of the Yankee cylinder and a Yankee cylinder with the greatest possible chem diameter required. For reasons of runability, ie for reasons of running property, the Yankee cylinder is arranged overhead. With a film press (SpeedSizer), the precoat is usually applied to the smooth side and thickness facing the Yankee cylinder on the side facing away from the Yankee cylinder. The topcoat is applied with a BladeCoater, ie a coating unit with a Blade Coater, and the Curl Control with a so-called LAS (Liquid Application System), ie a special application unit with associated roller or a nozzle moistener for wetting the web on the back, ie on the side facing away from the line. Catering is also done online with two to four softnips with a line force up to

350 N / mm or more by means of thermo rolls with a surface temperature in the range of 150 ° to 200 ° on the side facing away from the Yankee cylinder. A currently used high-performance machine is designed for raw paper with a basis weight of 20 - 120 g / m ² for a speed of 1200 m / min. Such a machine includes a hydraulic headbox with dilution water technology, a wire with a hybrid former and a shaker, a DuoCentri NipcoFlex press with three press nipples, at least one of which is designed as a shoe press nip, or a tandem NipcoFlex press with two in Web running direction successively arranged shoe press nips, a single and / or double row pre-dryer section, a Glühler cylinder with a diameter of 6.4 m, a afterdrier with a variable number of drying cylinders in a double row arrangement, a film press, a BladeCoater and a soft calender with a five-roller Stack and four nips. A disadvantage of these hitherto customary high-performance MG machines is the one-sided drying of the web in the pre-drying section on the Yankee side, which results, above all, at higher basis weights in a moisture gradient of the web with higher dry content on the side of the web which is against the Yankee is pressed. For optimum gloss and smoothness results, however, the moisture on the Yankee side should be as high as possible. In addition, can itself the moisture gradient has a negative effect on the heat transfer between Yankee cylinder and paper web and reduce the drying capacity of the Yankee cylinder.

Another disadvantage of such a conventional MG machine is the application of the web to the Yankee cylinder with a conventional press roll. The MG smoothing Yankee cylinder is operated with different vapor pressure depending on basis weight and production. Also, the line force of the press nip against the MG cylinder may vary within a wide range depending on the quality requirements (for example, from 60 to 120 N / mm). The different deformation behavior of the smoothing cylinder jacket can not be adequately followed by a conventional pressure roll and even a steel roll deflection roll, especially at the web edges, resulting in a different line force progression across the width and uneven quality characteristics, particularly thickness, smoothness and gloss over the web width.

Unsatisfactory in such a conventional machine MG is also the calendering. To achieve the surface quality required for gravure and metallization, such as vapor deposition of aluminum, calenders with several nips, high loads and high temperatures are used. The high compressive stresses of the roll nips lead to a massive densification of the web, to undesirable decrease in rigidity and to undesirable smoothing of the MG-smoothing Yankee side facing away. The invention has for its object to provide a machine and a method of the type mentioned, in which the aforementioned disadvantages are eliminated and the most efficient production of high quality papers, especially one-side coated special papers allow. According to the invention this object is achieved by a machine having the features of claim 1 and a method having the features of claim 13. Preferred embodiments of the machine according to the invention and preferred embodiments of the method according to the invention will become apparent from the dependent claims, the present description and the drawings.

The inventive machine for producing the fibrous web, in particular paper or board web, comprises a headbox, a forming unit, a press section, a pre-drying section, a MG-smoothing Yankee cylinder, a coater, a smoothing device and a reel. In this case, the pre-drying section comprises a drying group with vertically successive, in particular steam-heated, drying cylinders for drying the web side of the fibrous web facing away from the MG smoothing Yankee cylinder. Due to the design according to the invention, the machine is particularly suitable for the online production of single-side coated specialty papers (C1 S), while ensuring efficient production of high-quality papers. With the drying group with vertically successive, in particular steam-heated drying cylinders result in the closed web guide within the pre-dryer section, a change of drying from the side facing the MG-smoothing Yankee cylinder side to the MG-smoothing Yankee side and a displacement, i. Increase of the moisture gradient on the MG-smoothing Yankee cylinder facing side of the fibrous web. Optimum gloss and smoothness values thus result on this side of the web, while smoothing of the back of the web is at least substantially avoided.

The drying group preferably comprises two to four drying cylinders with successive drying cylinders in the vertical direction. In particular, it is also advantageous if the pre-drying section additionally comprises at least one single-row and / or at least one double-row drying group arranged in the direction of web travel in front of the drying group with drying cylinders following one another in the vertical direction. In the pre-drying section, a completely closed web guide is thus maintained.

The diameter of the MG smoothing Yankee cylinder is advantageously greater than 6 m, in particular greater than 6.6 m and preferably greater than 7 m. The cylinder diameter can be 7.3 m, for example. In addition, the MG smoothing Yankee cylinder can be assigned at least one, in particular gas, preferably steam-heated hood, in particular high-performance hood. Such a MG-smoothing Yankee cylinder ensures a high drying capacity and high production. Preferably, the fibrous web, guided at least starting from the end of the press section to the MG smoothing Yankee cylinder, is guided through the machine, resulting in a correspondingly reduced risk of tearing off the fibrous web.

The headbox expediently comprises a hydraulic headbox with dilution water technology, with which first-class basis weight profiles can be achieved. In this case, the headbox can be provided transversely to the web running direction, for example, with a division of the dilution water modules of <50 mm.

The forming unit preferably comprises a wire with a hybrid former and preferably a screen shaker, whereby a good formation as well as a lower tenacity ratio l / q and thus a high dimensional stability or low wet transverse elongation are achieved.

According to a preferred practical embodiment of the machine according to the invention, the press section comprises at least one shoe press, preferably a single NipcoFlex press with just one shoe press nip, a Combi-NipcoFlex press. a DuoCentri press, a tandem NipcoFlex press with two roll nips and a shoe press nip or a tandem NipcoFlex press with two in the web running direction successively arranged shoe press nip, whereby a high dry content and a high initial wet strength are achieved and it is ensured that no or no At most there is a minimal open draw.

The transfer of the fibrous web to the MG smoothing Yankee cylinder takes place, in particular, in the region of a pressure roll resting against the MG smoothing Yankee cylinder. In this case, for pressing the fibrous web to the MG smoothing

Yankee cylinder in particular the following four different variants conceivable: a pressing by means of a conventional pressure roller (with all the disadvantages with respect to the lines kraftverlaufs), a pressing by means of a deflection roller, such as a Nipco roller (which is also limited due to the stiffness of the steel shell), a pressing by means of a deflection compensating roll with elast sheath made of a GFRP composite material such as preferably a Nipco-FullFlex roll with convex support sources, or pressing by means of a shoe press roll such as one of a NipcoFlex T roll as in tissue machines (shoe roll with concave press shoe with QualiFlex) Coat). For example, a so-called NipcoFullFlex roller, ie a deflection compensating roller with a FullFlex sheath, can be provided as a deflection compensating roller with an elastomer sheath which forms a composite sheath which is considerably more flexible than a steel or cast sheath and which corresponds to the contour of the machine body. Smooth Yankee cylinder can follow better. A NipcoFullFlex roll stands out from a shoe roll, among other things, in that no concave shoe is used as a support source, but several along the length of the roll (or width of the machine) closely spaced, adjacent convex support sources. The jacket is composed of a CFRP jacket with an outer coating of polyurethane. Such a jacket is bendable rather than a steel or cast shell so that it better conforms to a changing one Can adjust contour of the mating element such as the MG-smoothing Yankee cylinder. With such a MG-smoothing Yankee cylinder arranged pressure roller results in a good adaptation to a respective smoothing or Yankee cylinder deformation, a uniform line force profile in the transverse direction and uniform quality properties in terms of thickness, smoothness and gloss.

It is also particularly advantageous if the smoothing device comprises a pre-calender, in particular a soft-smoothing unit with a stack comprising two rollers, a hard nip or a belt calender. With a soft-smoothing unit in particular a uniform compaction and thickness calibration is achieved.

It is particularly advantageous if the machine comprises a film press for a surface treatment of the fibrous web. With such a film press, it is possible in particular to apply a precoat on the side of the fibrous web facing the MG smoothing Yankee cylinder and thickness on the side of the fibrous web facing away from the MG smoothing Yankee cylinder.

It is also advantageous if the machine includes a BladeCoater for applying a top coat to the fibrous web. In this case, in particular, a top coat with profiling is possible. With such a BladeCoater especially a uniform application and a good smoothness are guaranteed.

Conveniently, the machine also includes one or more cooling cylinders with associated steam box for curl control. Thus, an effective one-sided moistening of the fibrous web on the side facing away from the coating job may be possible without subsequent drying cylinders. Optionally, however, drying cylinders may be required.

It is also advantageous if a calender unit with preferably a multi-roll softnip calender with at least one elastic nip and / or a Shoe calender is provided with a smooth press cover for smoothing the fibrous web. In this case, the multi-roll softnip calender can comprise, for example, a soft smoothing work with a stack comprising three rolls and two nips. Smoothing and densification of the web is thus achieved by means of high compressive stresses in the roller nip, which correspondingly improves the micro-roughness or Bekk smoothness. With the finishing of the paper surface due to the long residence time in the Schuhnip at high temperatures, the macro roughness or PPS roughness is improved. Tests in the production of label paper have shown that a shoe calender following a multi-roll soft-nip calender can achieve a significantly improved, closed surface on the coated side of the fibrous web without significant volume losses.

According to an expedient practical embodiment of the machine according to the invention, the press section comprises a single, Combi, DuoCentri or tandem NipcoFlex press with two roll nips and a shoe press nip against a central roll or a NipcoFlex press with only one Schuhpressnip and especially upper felt and lower Transfer belt or double felting or a tandem NipcoFlex press with two consecutive shoe press nips.

According to a further advantageous embodiment of the machine according to the invention, the press section can also comprise a so-called NipcoFullFlex roller with a shoe press roller having a composite jacket.

The MG Smooth Yankee cylinder is in contact with either the bottom or top of the fibrous web. The MG smoothing Yankee cylinder is provided at the top or bottom. When in contact with the underside of the fibrous web When the MG smoothing Yankee cylinder is in succession, the vertically successive dry cylinders of the preceding preceding drying group preferably contact the upper side of the fibrous web facing away from the MG smoothing Yankee cylinder, while the MG smoothing Yankee cylinders contacting the upper side of the fibrous web are successive in the vertical direction Dry cylinder of the relevant preceding drying group preferably contact the side facing away from the MG-smoothing Yankee underside of the fibrous web. In both cases, however, at least one single-row dryer group arranged in the web running direction in front of the dryer group with drying cylinders following one another in the vertical direction can be provided.

The MG smoothing Yankee cylinder is preferably associated with at least one, in particular gas, preferably steam-heated hood. In the web running direction after the MG-smoothing Yankee cylinder can advantageously be provided with at least one single- and / or double-row dryer group.

In particular for a curl correction it is advantageous if the machine comprises a water film applicator and / or a nozzle moistener or steam blower box with subsequent drying group.

The inventive method for producing a fibrous web, in particular paper or board web, is provided in particular for the production of single-side coated special papers, wherein it can be carried out in particular using a machine according to the invention. In this process, a pulp suspension fed by means of a headbox is dewatered in a forming unit to form a fibrous web, the fibrous web is further dewatered in a press section, predried in a pre-drying section, smoothed in an MG smoothing Yankee cylinder, painted in a coater and smoothed. Smoothed device and wound up in a reel. According to the invention, the web side of the fibrous web facing away from the MG smoothing Yankee cylinder in the pre-drying section is dried by means of a drying group with vertically successive, in particular steam-heated, drying cylinders.

Preferably, the fibrous web is fed to the drying group with vertically successive drying cylinders having a solids content in the range of 45% to 55%. Of particular advantage is also when the fibrous web is led out with a dry content in the range of 50% to 60% from the dryer group with successive drying cylinders in the vertical direction.

The steam-heated drying cylinders of the drying group with the successive drying cylinders in the vertical direction are preferably each operated with a vapor pressure in the range from 2.0 bar to 6.0 bar.

The fibrous web or paper or board web is preferably produced with a raw paper weight in the range from 20 g / m ² to 120 g / m ² , in particular in the range from 25 g / m ² to 100 g / m ² .

Advantageously, a one-sided line in the range from 5 g / m ² to 50 g / m ^{2 is} applied to the side of the fibrous web facing the MG-smoothing Yankee cylinder.

The fibrous web or paper or board web is advantageously produced with a finished paper weight in the range of 20 g / m ² to 150 g / m ² , in particular 30 g / m ² to 150 g / m ² . It is particularly advantageous if the fibrous web or paper or board web is produced with a maximum paper machine speed in the range of 1500 m / min. According to a further advantageous embodiment of the method according to the invention, the fibrous web is produced with a breaking length ratio <2.0: 1, in particular <1, 6: 1 and preferably <1, 5: 1.

It is also advantageous if the fibrous web to be produced is passed through the production machine at least to a dry content in the range of 60% in a closed train.

Preferably, the fibrous web is generated with a roughness value <0.6 μιτι on the coated side.

The invention will be explained in more detail below with reference to an embodiment with reference to the drawing. 1 a) and 1 b) show a schematic representation of an exemplary embodiment of a machine 10 according to the invention for producing a fibrous web 12, in particular a paper or board web. In this case, the machine 10 can be provided in particular for producing single-side coated special papers (C1 S).

The machine 10 comprises a headbox 14, a forming unit 16, a press section 18, a pre-drying section 20, a MG-smoothing Yankee cylinder 22, a coating device 26, a smoothing device 24 and a winding 28. Here, the pre-drying section 20 comprises a drying group 30 with Vertical direction successive, in particular steam-heated drying cylinders 30 ', 30 "for drying the side facing away from the MG-Yankee cylinder 22 web side of the fibrous web 12th The drying group 30 with vertically successive drying cylinders may in particular comprise two to four drying cylinders, wherein in the present case it has, for example, two such drying cylinders 30 ', 30 "In addition, the pre-drying section 20 may have at least one in the web running direction L in front of the drying group 30 in the vertical direction Drying cylinder 30 ', 30 "arranged single row and / or at least one double-row dryer group 32 include. The number of drying cylinders of the pre-drying section can vary depending on the production and available steam pressure.

The diameter of the MG smoothing Yankee cylinder 22 is, in particular, greater than 6 m, in particular greater than 6.6 m and preferably greater than 7 m.

The fibrous web 12 is guided by the machine 10, starting from the end of the press section 20 as far as the MG smoothing Yankee cylinder 22. The headbox 14 may in particular comprise a hydraulic headbox with dilution water technology. It can be provided transversely to the web running direction L with a pitch of in particular <50 mm. The forming unit 16 can, as shown, comprise a fourdrinier wire 34 with a hybrid former 36 and preferably a sieve shaker, wherein in the present case a shaking of a breast roll 38 is provided.

The press section 18 can comprise at least one shoe press 40, preferably a single, Combi, DuoCentri or tandem NipcoFlex press with two roll nips and a shoe press nip or a tandem NipcoFlex press with two shoe press nips arranged one behind the other in the web running direction L.

The transfer of the fibrous web 12 to the MG-smoothing Yankee cylinder 22 can take place in the region of a pressure roller 42 resting against the MG-smoothing Yankee cylinder 22, in particular a shoe press roll with an elast jacket or a through-put. balancing roll or Nipco-FullFlex press roll. The smoothing device 24 may comprise a pre-calender, such as in particular a soft-smoothing unit with a two-roll stack, a hard nip or a belt calender.

Subsequent to the smoothing device 24, a film press 44 may be provided for a surface treatment of the fibrous web 12.

For example, the coater 26 may include a BladeCoater for applying a topcoat to the fibrous web 12.

In the web running direction L after the coating device 26, one or more cooling cylinders 46 may be provided with associated steam blower box 48. In addition, the machine 10 has a calender unit 50, which may in particular comprise a multi-roll soft-nip calender 52 with at least one elastic nip and / or a shoe calender 45 with a smooth press cover for smoothing the fibrous web 12. In this case, the multi-roll soft-nip calender 52 can in particular comprise a soft-smoothing work with a stack comprising three rolls and two nips.

The press section 18 may, for example, also a single, Combi, DuoCentri or tandem NipcoFlex press with two roll nips and a shoe press nip against a central roll or a NipcoFlex press with only one Schuhpress- nip and especially upper felt and lower transfer belt or double Befilzung include.

It is also conceivable, for example, a press section 18 with a NipcoFullFlex roller with a shoe press roll having a composite jacket. The MG-smoothing Yankee cylinder 22 is in the present case, for example, with the underside of the fibrous web 12 in contact, wherein the MG-smoothing Yankee cylinder 22 is arranged overhead or the fibrous web 12 is guided upward to the MG-smoothing Yankee cylinder 22. In contrast, in the present case, the successive drying cylinders 30 ', 30 "of the drying group 30 in the vertical direction contact the upper side of the fibrous web 12 facing away from the MG smoothing Yankee cylinder.

The MG-smoothing Yankee cylinder 22 may be associated with at least one gas-heated, in particular steam-heated, hood 56.

In the web running direction L after the MG smoothing Yankee cylinder 22, a drying section 58 with at least one single and / or double row drying group can be provided.

For curl correction, a water film applicator and / or a nozzle moistener with a downstream drying group can be provided.

LIST OF REFERENCES

machine

 Fibrous web

 headbox

forming unit

 press section

pre-dryer

 MG smoothing Yankee cylinder

Smoothing device, precalender

coater

 rewind

drying group

'Drying cylinder

"Drying cylinder

 single tier dryer group

wire

 hybrid former

breast roll

 shoe press

pressure roller

 movie Press

 cooling cylinder

steam blow

 calendering

 Multi-roll soft nip calender

shoe calender

 Hood

 Afterdryers

Web direction

Claims

claims

1. Machine (10) for producing a fibrous web (12), in particular paper or board web, with a headbox (14), a forming unit (16), a press section (18), a pre-drying lot (20), a MG-Smooth Yankee cylinder (22), a smoothing device (24), a coating device (26) and a winding (28),

 characterized in that the pre-drying section (20) comprises a drying group (30) with vertically successive, in particular steam-heated drying cylinders (30 ', 30 ") for drying the MG-smoothing Yankee cylinder (22) remote from the web side of the fibrous web (12) ,

2. Machine according to claim 1,

 Thereby, the drying group (30) with two successive drying cylinders (30 ', 30 ") comprises two to four drying cylinders.

3. Machine according to claim 1 or 2,

 Thereby, the pre-drying section (20) moreover comprises at least one single-row and / or two-row drying group (32) arranged in the web running direction (L) in front of the dryer group (30) with drying cylinders (30 ', 30 ") following each other in the vertical direction.

4. Machine according to at least one of the preceding claims, characterized in that the diameter of the MG-smoothing Yankee cylinder (22) is greater than 6 m, in particular greater than 6.6 m and preferably greater than 7 m.

5. Machine according to at least one of the preceding claims,

 characterized in that the fibrous web (12), guided at least starting from the end of the press section (20) to the MG smoothing Yankee cylinder, is guided by the machine (10).

6. Machine according to at least one of the preceding claims,

 characterized in that the transfer of the fibrous web (12) to the MG-smoothing Yankee cylinder (22) in the region of a MG-smoothing Yankee cylinder (22) adjacent pressure roller (42), in particular a Nipco-FullFlex press roll with an Elastmantel, he follows.

7. Machine according to at least one of the preceding claims,

 In this way, the smoothing device (24) comprises a pre-calender, in particular a soft-smoothing unit with a stack comprising two rolls, a hard nip, or a belt calender.

8. Machine according to at least one of the preceding claims,

 in that it comprises a film press (44) for a surface treatment of the fibrous web (12).

9. Machine according to at least one of the preceding claims,

 in that it comprises a cooling cylinder (46) with associated steam blower box (48).

10. Machine according to at least one of the preceding claims, characterized in that it comprises a calender unit (50) with preferably a multi-roll soft nip calender (52) with at least one elastic nip and / or a shoe calender (54) with a smooth press cover for smoothing the fiber web (12).

11. Machine according to at least one of the preceding claims,

 Thereby, the press section (18) comprises a NipcoFullFlex roller with a press roll having a composite shell.

12. Machine according to at least one of the preceding claims,

 characterized in that the MG-smoothing Yankee cylinder (22) is in contact with the lower or the upper side of the fibrous web (12), and / or that the MG-smoothing Yankee cylinder (22) has at least one in particular gas-heated, preferably steam-heated Hood (56) is assigned, and / or in the web running direction (L) after the MG-smoothing Yankee cylinder (22) is provided a night dryer section (58) with at least one two-row dryer group, and / or that they a water film applicator and / or a nozzle moistener with subordinate drying group includes.

13. A method for producing a fibrous web (12), in particular paper or board web, in particular for producing one-side coated special papers, in particular using a machine (10) according to at least one of the preceding claims, wherein a by means of a headbox (14) supplied pulp suspension dewatered in a forming unit (16) to form a fibrous web (12), the fibrous web (12) further dewatered in a press section (18), pre-dried in a pre-dryer section (20), an MG smoothing Yankee cylinder (22) and a smoothing section - Smoothed (24), painted in a coater (26) and wound in a reel (28),

 characterized in that the MG-smoothing Yankee cylinder (22) facing away from the web of fibrous web (12) in the pre-drying (20) by means of a drying group (30) in the vertical direction successive, in particular steam-heated drying cylinders (30 ', 30 ") dried becomes.

14. The method according to claim 13,

 in that the fibrous web (12) is fed to the dryer group (30) with vertically successive drying cylinders (30 ', 30 ") having a dry content in the range of 45% to 55%.

15. The method according to claim 13 or 14,

 characterized in that the fibrous web (12) with a dry content in the range of 50% to 60% from the dryer group (30) with vertically successive drying cylinders (30 ', 30 ") is led out, and / or that the steam-heated drying cylinders of the dryer group (30) are operated with the vertically successive drying cylinders (30 ', 30 ") each having a vapor pressure in the range of 2.0 bar to 6.0 bar, and / or that the fibrous web (12) or paper or board web is produced at a maximum paper machine speed in the range of 1500 m / min, and / or that the fibrous web (12) to be produced is passed through the production machine (10) at least to a dry content in the range of 60% in a closed loop.