EP2199459A1 - Système de formation de feuille pour une machine destinée à la fabrication d'une bande de matière fibreuse multicouche - Google Patents

Système de formation de feuille pour une machine destinée à la fabrication d'une bande de matière fibreuse multicouche Download PDF

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Publication number
EP2199459A1
EP2199459A1 EP08171763A EP08171763A EP2199459A1 EP 2199459 A1 EP2199459 A1 EP 2199459A1 EP 08171763 A EP08171763 A EP 08171763A EP 08171763 A EP08171763 A EP 08171763A EP 2199459 A1 EP2199459 A1 EP 2199459A1
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EP
European Patent Office
Prior art keywords
separating wedge
wedge
separating
headbox
upstream
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP08171763A
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German (de)
English (en)
Inventor
Markus Häußler
Konstantin Fenkl
Wolfgang Ruf
Jürgen Prössl
Mathias Schwaner
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Voith Patent GmbH
Original Assignee
Voith Patent GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Voith Patent GmbH filed Critical Voith Patent GmbH
Priority to EP08171763A priority Critical patent/EP2199459A1/fr
Priority to CN2009801504949A priority patent/CN102245833A/zh
Priority to PCT/EP2009/063884 priority patent/WO2010069654A1/fr
Priority to EP09740129A priority patent/EP2379801B1/fr
Publication of EP2199459A1 publication Critical patent/EP2199459A1/fr
Priority to US13/161,086 priority patent/US8308909B2/en
Withdrawn legal-status Critical Current

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    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21FPAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
    • D21F1/00Wet end of machines for making continuous webs of paper
    • D21F1/02Head boxes of Fourdrinier machines
    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21FPAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
    • D21F1/00Wet end of machines for making continuous webs of paper
    • D21F1/02Head boxes of Fourdrinier machines
    • D21F1/028Details of the nozzle section
    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21FPAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
    • D21F9/00Complete machines for making continuous webs of paper
    • D21F9/003Complete machines for making continuous webs of paper of the twin-wire type
    • D21F9/006Complete machines for making continuous webs of paper of the twin-wire type paper or board consisting of two or more layers

Definitions

  • the invention relates to a sheet forming system for a machine for producing a multilayer fibrous web, in particular a multilayer paper or board web, from at least two pulp suspensions, comprising a multilayer headbox with a headbox nozzle, the at least two extending across the width of the machine by at least one separating wedge from each other separate, during the operation of the multilayer headbox each have a pulp suspension as a pulp suspension flow leading and converging nozzle chambers having upstream each one feeder and downstream each having a width extending across the outlet gap with a gap width, the two outer nozzle chambers on the outside each have an outer wall and wherein the separating wedge contacts two during operation of the multi-layer headbox from the respectively adjacent pulp suspension stream e has Trennkeilobervid, and one of the multi-layer headbox immediately downstream Spaltformer with two rotating endless screens, of which the first sieve over a peripheral region of a forming roller and of which the second sieve over a peripheral region of a breast roll passes and then in the region of the
  • the pulp suspensions will usually be suspensions of different pulps, but they may also be suspensions of the same pulps but with different physical properties.
  • a physical property may be, for example, different pressures for setting different flow velocities in the respective pulp suspension stream.
  • Such a multilayer headbox for a machine for producing a multilayer fibrous web, in particular a multilayer paper or board web, from at least two fibrous stock suspensions is known, for example, from the German Offenlegungsschrift DE 195 38 149 A1 known.
  • the suspension layers are kept separate by rigid partitions. At the downstream end adjacent partitions are different deformable perpendicular to the jet plane, so that both a good beam guidance is possible and the optimal connection of the suspension layers after exiting the head box.
  • Such a multi-layer casserole for example, from the German patent DE 43 23 050 C1 known.
  • the disclosed multi-layer casserole has, as in the FIG. 3 of this German patent specification, for the separation of two adjacent pulp suspension streams in the headbox nozzle, a continuously tapered separating wedge, which is arranged in the headbox nozzle by means of an articulation unit arranged upstream.
  • such a gap former is for a machine for producing a multilayer fibrous web, in particular a multilayer paper web. or board web, from at least two pulp suspensions, for example, from the German patent application DE 100 2005 003 531 A1 known.
  • the show FIGS. 1A to 4B in each case a gap former whose first deflecting element for the first screen is a forming roller and whose second deflecting element for the second screen is a breast roller.
  • the majority of multi-layer drums are used today in the field of packaging machines for the production of testliner.
  • the increasing production speeds as well as the rising raw material and energy costs increasingly require the production of multilayer products with lower basis weights.
  • the multi-layer casseroles are for this purpose operated with ever smaller gap widths or pulp suspension jet thicknesses.
  • the demands on the stability and the turbulence quality of the respective fibrous suspension jet coming from the headbox of the multi-layer headbox increase for the purpose of reducing the mixing zones within the pulp suspension jet in its height direction.
  • the height direction is referred to in professional circles as "z-direction".
  • the production of a fibrous web having a basis weight in a range of 20 to 60 g / m 2 per pulp suspension layer at a production speed of over 900 m / min should be possible.
  • the at least one arranged in the headbox separating wedge a separating wedge supernatant in a range of 0.05 to 3.0, preferably from 0.1 to 2.0, in particular from 0.2 to 1.5, ⁇ the largest single gap width of the at least two nozzle chambers, that the separating wedge of two each having a separating wedge angle separating wedge areas, an upstream Trennkeil rotatings Scheme and a downstream splitter end region, the two splitter wedge angles of the two splitter wedges assume different angles, with the splitter start angle of the upstream splice start region taking a greater angle than the spline end angle of the downstream splice end region, and between at least one splitter surface of the splitter a non-planar transition region between the two spline regions of the separating wedge is provided, that the pulp suspension free jet formed from the at least two pulp suspension streams has a free jet length in the range from 100 to 500 mm, preferably from 125 to
  • the headbox of the multilayer headbox of the sheet forming system of the present invention thus constructed provides the advantage that the layer purity in the height direction can be markedly improved over known multi-layer headboxes. This is in principle due to the fact that the pressure loss and thus the fluid wall friction on the separating wedge can be reduced by shortening the separating wedge projection. Associated with this is a reduction of the turbulence forming in the pulp suspension streams with concomitant improvement of the layer purity in the height direction.
  • the separating wedge of the multilayer headbox of the sheet forming system according to the invention thus constructed also has the advantage that the layer purity in the vertical direction can again be markedly improved in comparison to known multilayer headboxes. This is primarily due to the fact that the angle of incidence of the two pulp suspension streams is significantly reduced when they are merged at the separating wedge end. Associated with this is once again a reduction of the turbulences forming in the pulp suspension streams with a concomitant improvement in the layer purity in the height direction.
  • the turbulence forming in the outer pulp suspension streams also substantially affects the coverage qualities of the outer pulp suspension layers. Now, if the turbulence is reduced, so also reduce the mixing zones within the pulp suspension jet in its height direction. And the reduced mixing zones, in turn, contribute significantly to improved coverage qualities of the outer pulp suspension layers.
  • both a high-grade layer purity in the height direction and a good optical cover quality of the outer fibrous stock suspension layers are achieved.
  • the multi-layer casserole be designed as a three- or even four-layer casserole, so the separating wedge projections can have the same, approximately the same or even different values depending on the application.
  • the individual separating wedge may consist of a high-grade steel or the like and have a minimum rigidity both in the machine direction and in the cross machine direction, which assumes at least a value of ⁇ 40 N / mm in some areas.
  • the separating wedge is preferably by means of an upstream attached separating wedge recording rigid, so not articulated and thus not freely movable arranged in the headbox.
  • the upstream separating wedge recording of the separating wedge by definition extends in its longitudinal direction, preferably centrally aligned straight line.
  • the said free jet length of the pulp suspension jet formed from the at least two pulp suspension streams still ensures a free-jet quality which is sufficient in terms of process technology.
  • the pulp suspension free jet undergoes no appreciable widening in the stated length range due to the air boundary layers forming on the two free-jet surfaces.
  • the layer purity of the pulp suspension streams in the height direction can be continued.
  • the open forming roll of the sheet forming system according to the invention with said diameter range provides the advantage of gentle dewatering of the at least two fibrous suspensions located between the two screens during their common guidance over a peripheral area of the open forming roll.
  • the gentle dewatering of the at least two pulp suspensions is primarily the result of the relatively large diameter of the forming roll in conjunction with a sufficient dewatering length on the open forming roll.
  • the open forming roller may be vacuumed or unabsucked, with the suction of the forming roller being well known in the art.
  • the four features of the sheet formation system according to the invention which are essential to the invention ensure the continuous and process-reliable achievement of both a high-quality layer purity in the height direction and a good optical cover quality of the outer pulp suspension layers in a fibrous web produced therewith. It is also the production of a multi-layer fibrous web with a basis weight in a range of 20 to 60 g / m 2 per pulp suspension layer at a production speed of about 900 m / min possible.
  • the at least one separating wedge arranged in the iris-free headbox nozzle has a separating wedge projection in a range from 0.05 to 1.0, preferably from 0.1 to 0.95, in particular from 0.2 to 0, 90, • has the largest single gap width of the at least two nozzle chambers.
  • a preferably adjustable diaphragm with an aperture immersion depth is arranged on at least one outer wall of the headbox nozzle and that the at least one separating wedge arranged in the headbox nozzle has a separating wedge projection in a range from 0.5 to ⁇ 3.0, preferably from 0.6 to ⁇ 2.0, in particular from 0.7 to 1.5, ⁇ has the largest single gap width of the at least two nozzle chambers.
  • a preferably adjustable iris with an iris depth can be arranged on both outer walls of the headbox nozzle.
  • the setting of the aperture can be done, for example, by means of a plurality of arranged over the width of the headbox adjusting units, in particular servomotors. This minimizes the pressure loss in the respective pulp suspension layer.
  • the aperture of the multilayer headbox of the sheet forming system of the present invention may have an iris depth into the adjacent pulp suspension stream in a range of 1 to 30 mm, preferably in a range of 5 to 15 mm. This embodiment allows the generation of a minimum turbulence in the corresponding pulp suspension, but without equal to achieve the above-described disadvantageous turbulence level.
  • the at least one separating wedge of the multilayer headbox of the sheet forming system according to the invention can have a separating wedge angle ⁇ 10 °, preferably in a range between 3 and 7 °.
  • these angular ranges avoid disadvantageous mixing of two adjacent pulp suspensions.
  • At least one separating wedge for separating two adjacent pulp suspension streams of the multilayer headbox of the sheet forming system according to the invention can be arranged rigidly or in the headbox nozzle by means of an articulation unit arranged upstream.
  • the pulp suspension streams emerging from the headbox nozzle of the multilayer headbox of the sheet forming system according to the invention as a common pulp suspension jet can have different jet velocities.
  • the at least one difference in the jet speeds may assume a value in the range of 10 to 60 m / min, preferably 15 to 25 m / min. This significantly reduces the spread of the mixing cone in the pulp suspension jet to the relevant pulp suspension layer. These requirements may also be dependent on the former concept in a known manner.
  • a non-planar transition region between the two separating wedge areas of the separating wedge is provided on both separating wedge surfaces of the separating wedge.
  • At least the upstream separating wedge initial region of the separating wedge can be aligned symmetrically with respect to a straight line running through the upstream separating wedge receptacle of the separating wedge.
  • the downstream spline end region of the splitter key is oriented asymmetrically to a straight line passing through the upstream spline retainer of the splitter spline, then the splitter tip of the splitter will not lie on the straight line passing through the upstream spline retainer of the splitter spline.
  • both the upstream breaker wedge start region of the breaker wedge and the downstream breaker wedge end region of the breaker wedge may be symmetrically aligned with a straight line through the upstream wedge retainer of the breaker wedge such that the breaker wedge tip of the breaker wedge lies on the straight line passing through the upstream wedge retainer of the breaker wedge.
  • the separating wedge in this case is then designed symmetrically to the straight line passing through the upstream separating wedge receptacle of the separating wedge.
  • a non-planar transition region between the two separating wedge areas of the separating wedge is provided on a separating wedge surface of the separating wedge, and on the other separating wedge surface of the separating wedge a planar transition region is provided between the two separating wedge areas of the separating wedge.
  • the separating wedge thus forms one side a flat surface, so that the noticeably reduced angle of incidence of the two pulp suspension streams must be borne on their merger at the splitter end of the other side of the separating wedge.
  • At least the upstream separating wedge initial region of the separating wedge can be aligned symmetrically with respect to a straight line running through the upstream separating wedge receptacle of the separating wedge.
  • the downstream spline end region of the splitter key is oriented asymmetrically to a straight line passing through the upstream spline retainer of the splitter spline, then the splitter tip of the splitter will not lie on the straight line passing through the upstream spline retainer of the splitter spline.
  • both the upstream breaker wedge start region of the breaker wedge and the downstream breaker wedge end region of the breaker wedge may be oriented asymmetrically with respect to a straight line passing through the upstream breaker wedge retainer of the breaker wedge.
  • the separating wedge tip of the separating wedge could then lie on the straight line passing through the upstream separating wedge holder of the separating wedge.
  • the separating wedge end angle of the downstream separating wedge end region preferably has an angle value in the range from 1.5 to 8 °, preferably from 2.5 to 4.5 °.
  • these angular ranges avoid adverse mixing of the two adjacent pulp suspensions.
  • the Trennkeil gardeningswinkel the upstream Trennkeil gardenings Schemes in this case preferably has an angular value in the range of 8 to 20 °, preferably from 10 to 15 °, so that a sufficient minimum stiffness of the separating wedge is given both in the longitudinal direction and in the transverse direction.
  • downstream separating wedge end region of the separating wedge has a downstream separating wedge end length in the range of 10 to 100 mm, preferably 15 to 75 mm, in particular 25 to 50 mm, and / or the downstream Trennkeilend Scheme the separating wedge protrudes beyond the outlet gap of the headbox nozzle, preferably in a range of 10 to 25 mm.
  • the respective non-planar transition area on the separating wedge surface between the two separating wedge areas of the separating wedge of the multilayer headbox of the sheet forming system according to the invention may be geometrically angular or round with a radius of curvature in the range from 20 to 1000 mm, preferably from 100 to 500 mm, in particular from 150 to 250 mm, be designed.
  • the open forming roll has an open area in the range of 60 to 99%, preferably 70 to 98%, especially 80 to 96%, of the total area of the forming roll, so that a mark free or nearly mark free, efficient and a gentle drainage of the at least two fibrous suspensions located between the two sieves during their joint guidance over a peripheral region of the open forming roller is possible.
  • the open forming roller as already mentioned, depending on the application, be vacuumed or unabsucked, the aspiration of the forming roller is well known in the art.
  • the open forming roll preferably has one of the two wires together with the at least two located between them pulp suspensions entangled area with a wrap angle in the range of 15 to 260 °, preferably from 30 to 230 °, in particular from 50 to 180 °. These areas contribute significantly to the efficient and gentle dewatering of the at least two fibrous suspensions located between the two sieves during their joint guidance over a peripheral area of the open forming roll.
  • the jet impingement of the pulp suspension free jet formed from the at least two pulp suspension streams may be directed to the open forming roll in the range of 0 to 100%, preferably 20 to 60% and the at least two pulp suspensions may have a respective stock consistency in the multilayer headbox of the sheet forming system of the present invention. 2 to 1.8%, preferably 0.5 to 1.6%, in particular from 0.7 to 1, 4%.
  • the mode of operation of the multilayer headbox of the sheet forming system according to the invention can take place both in over- and underflow with the speed ranges 20 to 80 m / min or 20 to - 80 m / min.
  • a regulated feed stream in particular a dilution water stream, can be fed to at least one pulp suspension when a mixed stream is produced with a mixed concentration.
  • the ceiling layer of the multi-layer fibrous web is formed from the short fiber fraction. Furthermore, it can be provided that the rear side layer of the multilayer fibrous web is formed from the long fiber fraction.
  • At least one pressure sorter can be used in which, with the aid of a wet sieve, the pulp suspension is fractionated so that the long fiber fraction passes into the overflow and the short fiber fraction into the flow.
  • sieves with slots whose slot width is 0.3 to 1 mm can be used for the fractionation.
  • At least a three-ply packaging paper or at least three-ply cardboard is produced, wherein from the long fiber fraction, the middle layer of the multi-layer fibrous web is formed and wherein from the short fiber fraction, the top layer and the backsheet of the multi-layer fibrous web are formed.
  • an at least three-ply packaging paper or at least three-ply cardboard is produced, wherein the middle layer and the backsheet of the multi-layer fibrous web are formed from the long fiber fraction.
  • the sheet forming system according to the invention is particularly suitable for use in a machine for producing a multilayer fibrous web, in particular a multilayer paper or board web at least two pulp suspensions. In such a use, the advantages already mentioned arise.
  • FIG. 1 1 shows a schematic longitudinal sectional illustration of an embodiment of a sheet forming system 1 comprising a multilayer headbox 2 in the form of a two-layer headbox and a gap former 3.
  • the illustrated sheet forming system 1 is a component of a machine not shown in more detail for producing a multi-layer fibrous web 4, in particular a multilayer paper or board web. from two pulp suspensions 5.1, 5.2.
  • the pulp suspensions 5.1, 5.2 will usually be suspensions of different pulps, but they may also be suspensions of the same pulps, but with different physical properties.
  • the multi-layer headbox 2 designed as a two-layer headbox comprises a headbox nozzle 6, which has two pulp suspension 5.1, 5.2, which extend across the width B (arrow) and are separated on the inside by a separating wedge 7 during operation of the multi-layer headbox 2, 5.10 (arrow). 5.20 (arrow) leading and converging nozzle chambers 8.1, 8.2.
  • the two nozzle chambers 8.1, 8.2 have the same or approximately the same cross-sectional profiles.
  • the respective nozzle chamber 8.1, 8.2 each upstream of a feed device 9.1, 9.2, not shown in detail, each downstream over the width B (arrow) extending exit slit 10.1, 10.2 with a gap s.10.1, s.10.2 and on the outside each have an outer wall 11.1, 11.2.
  • the separating wedge 7 has two separating wedge surfaces 7.0, 7U touched during the operation of the multi-layer headbox 2 by the respectively adjacent fibrous stock suspension stream 5.10 (arrow), 5.20 (arrow).
  • the gap widths s.10.1, s.10.2 of the exit slits 10.1, 10.2 are the same size in the illustrated embodiment; however, they can be different in size.
  • the respective feed device 9.1, 9.2, which is not illustrated in detail, is in the illustrated embodiment one of the headbox nozzle 6 directly upstream of the turbulence generator; However, it may also be arranged upstream of the headbox nozzle 6 indirectly and / or it may comprise a preferably machine-wide intermediate chamber or a pipe grid. These units are known to the person skilled in the art.
  • the separating wedge 7 is made of a stainless steel or the like and has a minimum stiffness S both in the longitudinal direction and in the transverse direction, which assumes at least a value of ⁇ 40 N / mm in some areas. Moreover, the separating wedge 7 in the present embodiment by means of an upstream mounted wedge holder 12 is rigid, so not articulated and thus not freely movable in the headbox 6 is arranged. By the upstream Separating wedge holder 12 of the separating wedge 7 runs by definition a preferably in the longitudinal direction aligned centrally straight line G.
  • the multilayer headbox 2 is immediately followed by the gap former 3 with two continuous endless screens 13, 14.
  • the first wire 13 passes over a peripheral portion 16 of an open-ended forming roll 15, not shown to scale, and the second wire 14 passes over a peripheral portion 18 of a breast roll 17, which is merely indicated and not drawn to scale, before being placed in the area of the open forming roll 15 first sieve 13 to form a wedge-shaped material inlet gap 19, which immediately with a free jet length L.20 from the headbox 6 of the multilayer headbox 2 as a common pulp suspension free jet 20 exiting pulp suspension flows 5.10 (arrow), 5.20 (arrow) accumulates runs.
  • the two screens 13, 14 with the two fibrous suspensions 5.1, 5.2 between them form at least in parts a double-wire zone 21.
  • the pulp suspension streams 5.10 (arrow), 5.20 (arrow) emerging from the headbox nozzle 6 as a common pulp suspension jet 20 can have different jet velocities v.5.10 (arrow), v.5.20 (arrow).
  • the difference in the jet velocities v.5.10 (arrow), v.5.20 (arrow) in particular assumes a value in the range from 10 to 60 m / min, preferably from 15 to 25 m / min.
  • the at least one separating wedge 7 arranged in the headbox nozzle 6 now has a separating wedge projection Ü.7 in a range from 0.05 to 3.0, preferably from 0.1 to 2.0, in particular from 0.2 to 1.5, the largest single gap width s.10.1 of the at least two nozzle chambers 8.1, 8.2.
  • multilayer headbox 2 is on both outer walls 11.1, 11.2 of the headbox 6 each one preferably adjustable aperture 22.1, 22.2 arranged with an aperture immersion depth t.22.1, t.22.2.
  • the respective orifice immersion depth t.22.1, t.22.2 in the adjacent pulp suspension flow 5.10 (arrow), 5.20 (arrow) assumes a value in a range of 1 to 30 mm, preferably in a range of 5 to 15 mm.
  • the respective orifice immersion depth t.22.1, t.22.2 is by definition the vertical immersion depth of the respective orifice 22.1, 22.2 in the associated pulp suspension flow 5.10 (arrow), 5.20 (arrow).
  • the adjustability of the corresponding aperture 22.1, 22.2 is indicated by a respective double arrow.
  • the separating wedge 7 now has a separating wedge projection Ü.7 in a range from 0.5 to ⁇ 3.0, preferably from 0.6 to ⁇ 2.0, in particular from 0.7 to 1.5, • the largest Single gap width s.10.1 of the two nozzle chambers 8.1, 8.2.
  • the separating wedge supernatant Ü.7 of the separating wedge 7 preferably assumes a value in a range of 10 to 25 mm.
  • the separating wedge 7 consists of two separating wedge regions each having a separating wedge angle .alpha., .Beta., An upstream separating wedge starting region 7.1 and a downstream separating wedge end region 7.2.
  • the two separating wedge angles ⁇ , ⁇ of the two separating wedge areas 7.1, 7.2 assume different angle values, the separating wedge starting angle ⁇ of the upstream separating wedge starting area 7.1 assuming a larger angle value than the separating wedge final angle ⁇ of the downstream separating wedge end area 7.2.
  • a non-planar transition region 23.0 between the two separating wedge areas 7.1, 7.2, of the separating wedge 7 is provided between at least one separating wedge surface 7.0 of the separating wedge 7.
  • both the upstream separating wedge initial region 7.1 of the separating wedge 7 and the downstream separating wedge end region 7.2 of the separating wedge 7 are aligned symmetrically with respect to a straight line G passing through the upstream separating wedge holder 12 of the separating wedge 7, so that the separating wedge tip 24 of the separating wedge 7 is supported by the separating wedges 12 upstream the separating wedge 7 extending straight line G is located.
  • the Trennkeil gardeningswinkel ⁇ of the upstream Trennkeil gardenings 7.1 an angle value in the range of 8 to 20 °, preferably from 10 to 15 °, on.
  • the Trennkeilendwinkel ⁇ of the downstream Trennkeilend Schemes 7.2 has an angle in the range of 1.5 to 8 °, preferably from 2.5 to 4.5 °, so that it is smaller than the Trennkeil gardeningswinkel ⁇ of the upstream Trennkeilsweepings 7.1.
  • the downstream Trennkeilend Scheme 7.2 of the separating wedge 7 has a downstream Trennkeilendlini L.7.2 in the range of 10 to 100 mm, preferably from 15 to 75 mm, in particular from 25 to 50 mm.
  • the respective non-planar transition region 23.0, 23.U on the corresponding separating wedge surface 7.0, 7.U between the two separating wedge regions 7.1, 7.2 of the separating wedge 7 is round with a radius of curvature R.7.0, R.7.U in the range of 20 to 1000 mm , preferably from 100 to 500 mm, in particular from 150 to 250 mm.
  • the individual non-planar transition region on the separating wedge surface between the two separating wedge regions of the separating wedge could also be geometrically angular (cf. FIGS. 5 and 6 ).
  • the pulp suspension free jet 20 formed from the two pulp suspension streams 5.10 (arrow), 5.20 (arrow) has a free jet length L.20 in the range from 100 to 500 mm, preferably from 125 to 400 mm, in particular from 150 to 300 mm.
  • the merely indicated and not to scale illustrated open forming roller 15 has a diameter D.15 in the range of 1200 to 2500 mm, preferably from 1300 to 2400 mm, in particular from 1500 to 2200 mm.
  • the open forming roll 15 has an open area A.15 in the range of 60 to 99%, preferably 70 to 98%, in particular 80 to 96%, of the total area AG of the forming roll 15. Moreover, the open forming roller 15 has one of the two screens 13, 14 with the ones located between them Pulp suspensions 5.1, 5.2 together wrapped region B.15 with a wrap angle ⁇ in the range of 15 to 260 °, preferably from 30 to 230 °, in particular from 50 to 180 °, on.
  • the definition and appearance of both the looped region B.15 of the forming roll 15 and the wrap angle ⁇ of the forming roll 15 are well known to those skilled in the art.
  • FIGS. 2 to 4 show schematic longitudinal sectional views of end portions of three different embodiments of a respective headbox 6 of a multi-layer casserole 2 of a sheet forming system 1 according to the invention.
  • the respective basic structure of this headbox nozzle 6 substantially corresponds to the basic structure in the FIG. 1 schematically illustrated headbox nozzle 6, so that reference is also made to this description of figures.
  • the separating wedge 7 arranged in this iris-free headbox 6 in this case has a separating wedge supernatant Ü.7 in a range from 0.05 to 1.0, preferably from 0.1 to 0.95, in particular from 0.2 to 0.90 largest single gap width s.1 0.1 of the two nozzle chambers 8.1, 8.2.
  • a preferably adjustable diaphragm 22.1 with a diaphragm immersion depth t.22.1 is arranged on each outer wall 11.1 of the headbox nozzle 6.
  • the respective aperture immersion depth t.22.1 is by definition the vertical immersion depth of the respective aperture 22.1 in the associated pulp suspension stream 5.10 (arrow).
  • the adjustability of the corresponding aperture 22.1 is indicated by means of a respective double arrow.
  • the respective aperture immersion depth t.22.1 into the adjacent fibrous stock suspension 5.10 (arrow) assumes a value in a range of 1 to 30 mm, preferably in a range of 5 to 15 mm.
  • the two embodiments of the Figures 3 and 4 differ in that in the embodiment of the FIG. 3 the lower lip board L.11.2 of the lower outer wall 11.2 is greater than the Trennkeilstand Ü.7 of the separating wedge 7.
  • the lower lip wall L.11.2 of the lower outer wall 11.2 is smaller than the Trennkeilstand Ü.7 of the separating wedge 7.
  • the respective separating wedge 7 again a Trennkeilstand Ü.7 in a range of 0.5 to ⁇ 3, 0, preferably from 0.6 to ⁇ 2.0, in particular from 0.7 to 1.5, • the largest single gap width s.10.1 of at least two nozzle chambers 8.1, 8.2 on.
  • the pulp suspension streams 5.10 (arrow), 5.20 (arrow) emerging from the headbox nozzle 6 as a common pulp suspension free jet 20 can have different jet speeds v.5.10 (arrow), v.5.20 (arrow).
  • the difference in the jet velocities v.5.10 (arrow), v.5.20 (arrow) in particular assumes a value in the range from 10 to 60 m / min, preferably from 15 to 25 m / min.
  • FIGS. 5 and 6 2 show schematic side views of two further embodiments of separating wedges 7 of a multilayer headbox 2 of a sheet forming system 1 according to the invention.
  • a non-planar transition region 23.0 between the two separating wedge areas 7.1, 7.2 of the separating wedge 7 is provided only on a separating wedge surface 7.0 of the separating wedge 7.
  • a planar transition region 23.U that is to say no change in geometry between the two separating wedge regions 7.1, 7.2 of the separating wedge 7, is provided.
  • the upstream Trennkeil gardenings Scheme 7.1 of the separating wedge 7 is symmetrical to one through the upstream separating wedge recording 12 of the separating wedge 7 extending straight line G, wherein the straight line G was as already defined above.
  • the downstream Trennkeilend Scheme 7.2 of the separating wedge 7 is oriented asymmetrically to the running through the upstream separating wedge holder 12 of the separating wedge 7 straight line G, the separating wedge tip 24 of the separating wedge 7 is not on the running through the upstream separating wedge holder 12 of the separating wedge 7 straight G.
  • both the upstream separating wedge starting region 7.1 of the separating wedge 7 and the downstream separating wedge end region 7.2 of the separating wedge 7 are aligned asymmetrically with respect to a straight line G passing through the upstream separating wedge holder 12 of the separating wedge 7, wherein the straight line G has been defined above.
  • the separating wedge tip 24 of the separating wedge 7 lies on the straight line G passing through the upstream separating wedge holder 12 of the separating wedge 7. But it could also be wrong.
  • the respective Trennkeil gardeningswinkel ⁇ of the upstream Trennkeil gardenings Symposium 7.1 turn an angle value in the range of 8 to 20 °, preferably from 10 to 15 °, on.
  • the respective Trennkeilendwinkel ⁇ of the downstream Trennkeilend Schemes 7.2 again has an angular value in the range of 1.5 to 8 °, preferably from 2.5 to 4.5 °, so that it is smaller than the Trennkeilsweepingswinkel ⁇ of the upstream Trennkeilsweepings 7.1.
  • the downstream Trennkeilend Scheme 7.2 of the respective separating wedge 7 has a downstream Trennkeilendide L.7.2 in the range of 10 to 100 mm, preferably from 15 to 75 mm, in particular from 25 to 50 mm.
  • the transition extends in the transverse direction of the separating wedge 7 along a line L.
  • the respective non-planar transition region could also be designed around with a corresponding radius of curvature.
  • multilayer headbox 2 is particularly suitable for use in a machine for producing a multi-layer fibrous web 4, in particular a multilayer paper or board web, from at least two pulp suspensions 5.1, 5.2.
  • At least one pulp suspension, a controlled feed stream, in particular a dilution water stream when generating a mixed stream with a mixed concentration be fed. This makes it possible to control both the fiber orientation transverse profile and the basis weight transverse profile of the multilayer fibrous web.
  • the invention provides a sheet forming system of the type mentioned in the introduction, which makes it possible to achieve both high-quality layer purity in the height direction and good optical cover quality of the outer pulp suspension layers in a fibrous web produced therewith. This is also made possible, in particular, in the production of a fibrous web having a weight per unit area in the range from 20 to 60 g / m 2 per pulp suspension layer at a production speed of over 900 m / min.

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EP08171763A 2008-12-16 2008-12-16 Système de formation de feuille pour une machine destinée à la fabrication d'une bande de matière fibreuse multicouche Withdrawn EP2199459A1 (fr)

Priority Applications (5)

Application Number Priority Date Filing Date Title
EP08171763A EP2199459A1 (fr) 2008-12-16 2008-12-16 Système de formation de feuille pour une machine destinée à la fabrication d'une bande de matière fibreuse multicouche
CN2009801504949A CN102245833A (zh) 2008-12-16 2009-10-22 用于制造多层纤维材料幅材的机器的纸页成形系统
PCT/EP2009/063884 WO2010069654A1 (fr) 2008-12-16 2009-10-22 Système de mise en bande destiné à une machine de production d'une bande de matière fibreuse multicouche
EP09740129A EP2379801B1 (fr) 2008-12-16 2009-10-22 Système de mise en bande destiné à une machine de production d'une bande de matière fibreuse multicouche
US13/161,086 US8308909B2 (en) 2008-12-16 2011-06-15 Sheet forming system for a machine for producing a multilayer fibrous web

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP08171763A EP2199459A1 (fr) 2008-12-16 2008-12-16 Système de formation de feuille pour une machine destinée à la fabrication d'une bande de matière fibreuse multicouche

Publications (1)

Publication Number Publication Date
EP2199459A1 true EP2199459A1 (fr) 2010-06-23

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EP08171763A Withdrawn EP2199459A1 (fr) 2008-12-16 2008-12-16 Système de formation de feuille pour une machine destinée à la fabrication d'une bande de matière fibreuse multicouche
EP09740129A Not-in-force EP2379801B1 (fr) 2008-12-16 2009-10-22 Système de mise en bande destiné à une machine de production d'une bande de matière fibreuse multicouche

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Application Number Title Priority Date Filing Date
EP09740129A Not-in-force EP2379801B1 (fr) 2008-12-16 2009-10-22 Système de mise en bande destiné à une machine de production d'une bande de matière fibreuse multicouche

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Country Link
US (1) US8308909B2 (fr)
EP (2) EP2199459A1 (fr)
CN (1) CN102245833A (fr)
WO (1) WO2010069654A1 (fr)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2012000690A3 (fr) * 2010-06-30 2012-03-01 Voith Patent Gmbh Système de formation de feuille pour une machine servant à produire au moins une bande de matière fibreuse monocouche
US8221590B2 (en) 2008-12-18 2012-07-17 Voith Patent Gmbh Headbox for a machine for producing a fibrous web
US8236137B2 (en) 2008-12-18 2012-08-07 Voith Patent Gmbh Headbox for a machine for producing a fibrous web
US8236138B2 (en) 2008-12-18 2012-08-07 Voith Patent Gmbh Headbox for a machine for producing a fibrous web

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US8871059B2 (en) * 2012-02-16 2014-10-28 International Paper Company Methods and apparatus for forming fluff pulp sheets
CN105780577B (zh) * 2016-03-18 2018-08-07 杭州湿法无纺布设备有限公司 湿法成型装置及方法
WO2019043608A1 (fr) * 2017-09-01 2019-03-07 Stora Enso Oyj Procédé de production de carton, carton, et carton ondulé
EP3502348B1 (fr) * 2017-12-21 2020-06-24 BillerudKorsnäs AB Fractionnement de fibres
WO2019136254A1 (fr) 2018-01-05 2019-07-11 International Paper Company Produits papetiers ayant une résistance à la flexion et une résistance dans le sens travers accrues et leurs procédés de fabrication
CN108457116B (zh) * 2018-04-17 2023-10-20 南京玻璃纤维研究设计院有限公司 一种敞开式单网双流浆斜网成型器
CN109402862A (zh) * 2018-10-23 2019-03-01 湖北工业大学 纤维材料多层编织成型器

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US8236137B2 (en) 2008-12-18 2012-08-07 Voith Patent Gmbh Headbox for a machine for producing a fibrous web
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WO2012000690A3 (fr) * 2010-06-30 2012-03-01 Voith Patent Gmbh Système de formation de feuille pour une machine servant à produire au moins une bande de matière fibreuse monocouche

Also Published As

Publication number Publication date
WO2010069654A1 (fr) 2010-06-24
EP2379801B1 (fr) 2012-09-12
CN102245833A (zh) 2011-11-16
EP2379801A1 (fr) 2011-10-26
US8308909B2 (en) 2012-11-13
US20110303382A1 (en) 2011-12-15

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