EP0553501A2 - Papiermachergewebe mit flachen Längsfäden - Google Patents

Papiermachergewebe mit flachen Längsfäden Download PDF

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Publication number
EP0553501A2
EP0553501A2 EP92122165A EP92122165A EP0553501A2 EP 0553501 A2 EP0553501 A2 EP 0553501A2 EP 92122165 A EP92122165 A EP 92122165A EP 92122165 A EP92122165 A EP 92122165A EP 0553501 A2 EP0553501 A2 EP 0553501A2
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EP
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Prior art keywords
yarns
cmd
fabric
fabric according
yarn
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EP92122165A
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English (en)
French (fr)
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EP0553501A3 (en
EP0553501B1 (de
Inventor
Henry J. Lee
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Asten Inc
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Asten Inc
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Priority claimed from US07/534,164 external-priority patent/US5103874A/en
Priority claimed from US07/567,974 external-priority patent/US5092373A/en
Priority claimed from US07/654,008 external-priority patent/US5117865A/en
Application filed by Asten Inc filed Critical Asten Inc
Publication of EP0553501A2 publication Critical patent/EP0553501A2/de
Publication of EP0553501A3 publication Critical patent/EP0553501A3/en
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    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21FPAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
    • D21F7/00Other details of machines for making continuous webs of paper
    • D21F7/08Felts
    • D21F7/083Multi-layer felts
    • 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
    • D21F1/0027Screen-cloths
    • D21F1/0036Multi-layer screen-cloths
    • 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
    • D21F1/0027Screen-cloths
    • D21F1/0054Seams thereof

Definitions

  • the present invention relates to papermakers fabrics and in particular to fabrics comprised of flat monofilament yarns.
  • Papermaking machines generally are comprised of three sections: forming, pressing, and drying. Papermakers fabrics are employed to transport a continuous paper sheet through the papermaking equipment as the paper is being manufactured. The requirements and desirable characteristics of papermakers fabrics vary in accordance with the particular section of the machine where the respective fabrics are utilized.
  • U.S. Patent No. 4,290,209 discloses a fabric woven of flat monofilament warp yarns
  • U.S. Patent No. 4,755,420 discloses a non-woven construction where the papermakers fabric is comprised of spirals made from flat monofilament yarns.
  • U.S. Patent No. 4,438,788 discloses a dryer fabric having three layers of cross machine direction yarns interwoven with a system of flat monofilament machine direction yarns such that floats are created on both the top and bottom surfaces of the fabric. The floats tend to provide a smooth surface for the fabric.
  • Permeability is an important criteria in the design of papermakers fabrics. In particular, with respect to fabrics made for running at high speeds on modern drying equipment, it is desirable to provide dryer fabrics with relatively low permeability.
  • U.S. Patent No. 4,290,209 discloses the use of flat monofilament warp yarns woven contiguous with each other to provide a fabric with reduced permeability.
  • additional means such as stuffer yarns, are required to reduce the permeability of the fabric.
  • stuffer yarns it is desirable to avoid the use of fluffy, bulky stuffer yarns to reduce permeability which make the fabric susceptible to picking up foreign substances or retaining water.
  • U.S. Patent No. 4,290,209 and U.S. Patent No. 4,755,420 note practical limitations in the aspect ratio (cross-sectional width to height ratio) of machine direction warp yarns defining the structural weave of a fabric.
  • the highest practical aspect ratio disclosed in those patents is 3:1, and the aspect ratio is preferably, less than 2:1.
  • U.S. Patent No. 4,621,663, assigned to the assignee of the present invention discloses one attempt to utilize high aspect ratio yarns (on the order of 5:1 and above) to define the surface of a papermakers dryer fabric.
  • a woven base fabric is provided to support the high aspect ratio surface yarns.
  • the woven base fabric is comprised of conventional round yarns and provides structural support and stability to the fabric disclosed in that patent.
  • U.S. Patent No. 4,815,499 discloses the use of flat yarns in the context of a forming fabric. That patent discloses a composite fabric comprised of an upper fabric and a lower fabric tied together by binder yarns. The aspect ratio employed for the flat machine direction yarns in both the upper and lower fabrics are well under 3:1.
  • papermakers fabrics are configured as endless belts. Weaving techniques are available to initially weave fabrics endless. However, there are practical limitations on the overall size of endless woven fabrics as well as inherent installation difficulties. Moreover, not all papermaking equipment is designed to accept the installation of an endless fabric.
  • Flat woven fabrics are often supplied having opposing ends which are seamed together during installation of the fabric on papermaking equipment. Usually one end of the fabric is threaded through the serpentine path defined by the papermaking equipment and is then joined to its opposing end to form a continuous belt.
  • a variety of seaming techniques are well known in the art.
  • One conventional method of seaming is to form the machine direction yarns on each end of the fabric into a series of loops.
  • the loops of the respective fabric ends are then intermeshed during fabric installation to define a channel through which a pintle is inserted to lock the ends together.
  • U.S. Patent Nos. 4,026,331; 4,438,789; 4,469,142; 4,846,231; 4,824,525 and 4,883,096 disclose a variety of pin seams wherein the machine direction yarns are utilized to form the end loops.
  • the machine direction yarn projects from the end of the fabric and weaves back into the fabric adjacent to itself. Accordingly, the loops inherently have a twist or torque factor and are not entirely orthogonal to the plane of the fabric.
  • U.S. Patent 4,883,096 specifically addresses this problem.
  • the present invention provides a papermakers fabric having a system of flat monofilament machine direction yarns (hereinafter MD yarns) which are stacked to control the permeability of the fabric.
  • MD yarns flat monofilament machine direction yarns
  • the present weave also provides for usage of high aspect ratio yarns as structural weave components.
  • the system of MD yarns comprises upper and lower yarns which are vertically stacked.
  • the upper MD yarns define floats on the upper surface of the fabric and each upper MD yarn is paired in a vertically stacked orientation with a lower MD yarn.
  • the lower MD yarns may weave in an inverted image of the upper MD yarns to provide floats on the bottom fabric surface or may weave with a different repeat to provide a different surface on the bottom of the fabric.
  • At least the upper MD yarns are flat monofilament yarns woven contiguous with each other to reduce the permeability of the fabric and to lock in the machine direction alignment of the stacking pairs of MD yarns.
  • the same type and size yarns are used throughout the machine direction yarn system and both the top and the bottom MD yarns weave contiguously with adjacent top and bottom MD yarns, respectively.
  • the stacked, contiguous woven machine direction system provides stability and permits the MD yarns to have a relatively high aspect ratio, cross-sectional width to height, of greater than 3:1.; the aspect ratio preferably ranging from about 2:1 to 6:1.
  • machine direction yarns further define a series of orthogonal seaming loops on the opposing fabric ends.
  • End segments of the lower MD yarns are removed and the upper MD yarn ends are looped back upon themselves and rewoven into the fabric end in the space vacated by the trimmed lower MD yarn end segments.
  • the lower MD yarns may weave in an inverted image of the upper MD yarns such that the crimp of the upper MD yarns conforms with the lower MD yarn weave pattern space into which the upper MD yarn ends are backwoven. This improves the strength of the seam.
  • Non-loop forming upper MD yarns are also preferably backwoven into the space vacated by trimming the respective lower MD yarns.
  • at least the upper MD yarns are woven contiguous with each other to lock in the machine direction alignment of the stacking pairs of MD yarns and the orthogonal orientation of the end loops.
  • the same type of material and the same geometric shape and size yarns are used throughout the machine direction yarn system and both the top and the bottom MD yarns weave contiguously with adjacent top and bottom MD yarns, respectively.
  • a papermakers dryer fabric 10 comprising upper, middle and lower layers of cross machine direction (hereinafter CMD) yarns 11, 12, 13, respectively, interwoven with a system of MD yarns 14-19 which sequentially weave in a selected repeat pattern.
  • the MD yarn system comprises upper MD yarns 14, 16, 18 which interweave with CMD yarns 11, 12 and lower MD yarns 15, 17, 19 which interweave with CMD yarns 12, 13.
  • the upper MD yarns 14, 16, 18 define floats on the top surface of the fabric 10 by weaving over two upper layer CMD yarns 11 dropping into the fabric to weave in an interior knuckle under one middle layer CMD yarn 12 and under one CMD yarn 11 and thereafter rising to the surface of the fabric to continue the repeat of the yarn.
  • the floats over upper layer CMD yarns 11 of upper MD yarns 14, 16, 18 are staggered so that all of the upper and middle layer CMD yarns 11, 12 are maintained in the weave.
  • the disclosed weave pattern with respect to Figures 1, 2, and 3a results in the top surface of the fabric having a twill pattern.
  • the two-float twill pattern represented in Figures 1, 2, and 3a is a preferred embodiment, it will be recognized by those of ordinary skill in the art that the length of the float, the number of MD yarns in the repeat, and the ordering of the MD yarns may be selected as desired so that other patterns, twill or non-twill, are produced.
  • lower MD yarns 15, 17, 19, weave directly beneath upper MD yarns 14, 16, 18, respectively, in a vertically stacked relationship.
  • the lower yarns weave in an inverted image of their respective upper yarns.
  • Each lower MD yarn 15, 17, 19 floats under two lower layer CMD yarns 13, rises into the fabric over one CMD yarn 13 and forms a knuckle around one middle layer CMD yarn 12 whereafter the yarn returns to the lower fabric surface to continue its repeat floating under the next two lower layer CMD yarns 13.
  • the interior knuckle, formed around the middle layer CMD yarns 12 by one MD yarn, is hidden by the float of the other MD yarn.
  • lower MD yarn 15 is depicted weaving a knuckle over CMD yarn 12 while MD yarn 14 is weaving its float over CMD yarns 11, thereby hiding the interior knuckle of lower MD yarn 15.
  • upper MD yarn 18 is depicted weaving a knuckle under yarn CMD yarn 12 while it is hidden by lower MD yarn 19 as it floats under CMD yarns 13.
  • the upper MD yarns 14, 16, 18, are woven contiguous with respect to each other. This maintains their respective parallel machine direction alignment and reduces permeability.
  • Such close weaving of machine direction yarns is known in the art as 100% warp fill as explained in U.S. Patent No. 4,290,209.
  • actual warp count in a woven fabric may vary between about 80%-125% in a single layer and still be considered 100% warp fill.
  • MD yarns 14, 16, and 18 also serves to force MD yarns 15, 17, 19, into their stacked position beneath respective MD yarns 14, 16, 18.
  • MD yarns 15, 17, and 19 are the same size as MD yarns 14, 16, and 18 so that they are likewise woven 100% warp fill. This results in the overall fabric of the preferred embodiment having 200% warp fill of MD yarns.
  • the lower MD yarns 15, 17, 19 are also preferably woven 100% warp fill, they likewise have the effect of maintaining the upper MD yarns 14, 16, 18 in stacked relationship with the respect to lower MD yarns 15, 17, 19. Accordingly, the respective MD yarn pairs 14 and 15, 16 and 17, 18 and 19 are doubly locked into position thereby enhancing the stability of the fabric.
  • the high aspect ratio of the MD yarns translates into reduced permeability.
  • High aspect ratio yarns are wider and thinner than conventional flat yarns which have aspect ratios less than 3:1 and the same cross-sectional area. Equal cross-sectional area means that comparable yarns have substantially the same linear strength.
  • the greater width of the high aspect ratio yarns translates into fewer interstices over the width of the fabric than with conventional yarns so that fewer openings exist in the fabric through which fluids may flow.
  • the relative thinness of the high aspect ratio yarns enables the flat MD yarns to more efficiently cradle, i.e. brace, the cross machine direction yarns to reduce the size of the interstices between machine direction and cross machine direction yarns.
  • a fabric woven with a single layer system of a flat machine direction warp having a cross-sectional width of 1.5 units and a cross-sectional height of 1 unit, i.e. an aspect ratio of 1.5:1, is shown.
  • Such fabric could be replaced by a fabric having the present dual stacked MD yarn system with MD yarns which are twice the width, i.e. 3 units, and half the height, i.e. 0.5 units.
  • Such MD yarns thusly having a fourfold greater aspect ratio of 6:1, as illustrated in Figure 3a.
  • the conventional single MD yarn system fabric has six conventional contiguous flat yarns over 9 units of the fabric width having a cross-sectional area of 9 square units, i.e. 6*(1u.*1.5u.) .
  • the thinner, wider high aspect ratio yarns, woven as contiguous stacked MD yarns define a fabric which has three stacked pairs of MD yarns over 9 units of fabric width.
  • Such fabric also has a cross-sectional area of 9 square units, i.e. (3*(0.5u.*3u.)) + (3*(0.5u.*3u.)) , over 9 units of fabric width.
  • a fabric was woven in accordance with Figures 1, 2 and 3, wherein the CMD yarns 11, 12, 13 were polyester monofilament yarns 0.6mm in diameter interwoven with MD yarns 14-19 which were flat polyester monofilament yarns having a width of 1.12mm and a height of 0.2mm. Accordingly, the aspect ratio of the flat MD yarns was 5.6:1.
  • the fabric was woven at 48 warp ends per inch with a loom tension of 40 PLI (pounds per linear inch) and 12.5 CMD pick yarns per inch per layer (three layers).
  • the fabric was heat set in a conventional heat setting apparatus under conditions of temperature, tension and time within known ranges for polyester monofilament yarns.
  • conventional polyester fabrics are heat set within parameters of 340°F-380°F temperature, 6-15 PLI (pounds per linear inch) tension, and 3-4 minutes time.
  • the fabrics of the present invention are more tolerant to variations in heat setting parameters.
  • the fabric exhibited a warp modulus of 6000 PSI (pounds per square inch) measured by the ASTM D-1682-64 standard of the American Society for Testing and Materials.
  • the fabric stretched less that 0.2% in length during heat setting. This result renders the manufacture of fabrics in accordance with the teachings of the present invention very reliable in achieving desired dimensional characteristic as compared to conventional fabrics.
  • the resultant heat set fabric had 12.5 CMD yarns per inch per layer with 106% MD warp fill with respect to both upper and lower MD yarns resulting in 212% actual warp fill for the fabric.
  • the finished fabric has a permeability of 83CFM as measured by the ASTM D-737-75 standard.
  • top MD yarns 14, 16, 18 or bottom MD yarns 15, 17, 19 are woven at 100% warp fill
  • the overall warp fill for the stacked fabric will be significantly greater than 100% which will contribute to the reduction of permeability of the fabric.
  • the instant fabric having stacked MD yarns will be recognized as having a significantly greater percentage of a warp fill than fabrics which have an actual warp fill of 125% of non-stacked MD yarns brought about by crowding and lateral undulation of the warp strands.
  • a fabric may be woven having 100% fill for either the upper or lower MD yarns with a lesser degree of fill for the other MD yarns by utilizing yarns which are not as wide as those MD yarns woven at 100% warp fill.
  • upper yarns 14, 16, 18 could be 1 unit wide with lower layer yarns 15, 17, 19 being .75 units wide which would result in a fabric having approximately 175% warp fill.
  • Such variations can be used to achieve a selected degree of permeability.
  • such variations could be employed to make a forming fabric.
  • the lower MD yarns would be woven 100% warp fill to define the machine side of the fabric and the upper MD yarns would be woven at a substantially lower percentage of fill to provide a more open paper forming surface.
  • the stacked pair MD weave permits the formation of orthogonal seaming loops within MD yarns.
  • CMD yarns are removed leaving the crimped MD yarns 14, 15 exposed ( Figure 4b).
  • One of the yarns, for example, MD lower yarn 15, of the stacked pair is trimmed back a selected distance leaving the other exposed MD yarn 14 of the MD yarn pair and vacated space between the CMD yarns, as illustrated in Figure 4c.
  • Upper MD yarn 14 is then backwoven into the space vacated in the weave pattern by lower MD yarn 15 such that a loop L is formed on the end of the fabric, as illustrated in Figure 4d.
  • upper layer yarn 14 is backwoven into the fabric to provide sufficient strength for the end loop and assure retention of the free end of MD yarn 14 within the weave of the fabric.
  • the inverted image weave permits the crimp of the upper MD yarn 14 to match the space vacated by the lower MD yarn 15 which further enhances the strength of the end loop.
  • adjacent yarn pair 16, 17 is processed in a similar manner.
  • upper yarn 16 is looped back and backwoven in the fabric, it is pulled against the CMD yarns.
  • the crowding of the yarns secure the orthogonal orientation of the seaming loops.
  • each upper MD yarn 14 forms a loop and the other upper MD yarns 16, 18 are backwoven against the endmost CMD yarn of the fabric.
  • every third upper MD yarn defines a loop such that an array of loops is created on each end of the fabric.
  • the seam is assembled by intermeshing the opposing arrays of loops and inserting a pintle yarn between the intermeshed loops.
  • loop forming yarns 14 would all be backwoven approximately the same distance within the fabric to provide sufficient strength to prevent the loops from being pulled apart during normal usage.
  • Non-loop forming yarns 16, 18, would preferably be backwoven a somewhat shorter distance since during usage no load is imparted to those yarns.
  • upper MD yarns 14 would be backwoven approximately 3 inches
  • MD yarns 16 would be backwoven approximately 2 inches
  • MD yarns 18 would be backwoven approximately 1 inch.
  • Respective lower layer yarns 15, 17, 19 would be trimmed to complement the backweaving of their respective MD yarn pair yarns 14, 16, 18.
  • Figures 5a and 5b respectively, illustrate a conventional seaming loop 50 in comparison with an orthogonal seaming loop L of the present invention.
  • the MD yarn 51 is backwoven into the fabric adjacent to itself thereby inherently imparting twist and/or torque to the loop structure 50.
  • the MD yarn is looped directly beneath itself and does not have any lateral offset which would impart such twist or torque to the seaming loop.
  • Papermakers fabric 20 is comprised of a single layer of CMD yarns 21a, 21b interwoven with a system of stacked MD yarns 22-25 which weave in a selected repeat pattern.
  • the MD yarn system comprises upper MD yarns 22, 24 which define floats on the top surface of the fabric 20 by weaving over three CMD yarns, under the next one CMD yarn 21a to form a knuckle, and thereafter returning to float over the next three CMD yarns in a continuation of the repeat.
  • Lower MD yarns 23, 25, weave directly beneath respective upper MD yarns 22, 24 in a vertically stacked relationship.
  • the lower MD yarns weave in an inverted image of their respective upper MD yarns.
  • Each lower MD yarn 23, 25 floats under three CMD yarns, weaves upwardly around the next one CMD yarn 21a forming a knuckle and thereafter continues in the repeat to float under the next three CMD yarns.
  • the knuckles formed by the lower MD yarns 23, 25 are hidden by the floats defined by the upper MD yarns 22, 24 respectively. Likewise the knuckles formed by the upper MD yarns 22, 24 are hidden by the floats of the lower MD yarns 23, 25 respectively.
  • the caliper of the fabric proximate the knuckle area shown in Figure 8 has a tendency to be somewhat greater than the caliper of the fabric at non-knuckle CMD yarns 21b, shown in Figure 7.
  • the CMD yarns 21a around which the knuckles are formed become crimped which reduces the caliper of the fabric in that area as illustrated in Figure 8.
  • slightly larger diameter CMD yarns are preferably used for CMD yarns 21b, shown in Figure 7, which are not woven around as knuckles by the MD yarns to eliminate any difference in fabric caliber.
  • the diameter of the larger CMD yarn 21b equals the diameter d of the smaller CMD yarns 21a plus the thickness t of the MD yarns.
  • a fabric was woven in accordance with Figures 6-9, wherein the CMD yarns 21a, 21b were polyester monofilament yarns 0.6mm and 0.8mm, respectively, in diameter interwoven with MD yarns 22-25 which were flat polyester monofilament yarns having a width of 1.12mm and a height of 0.2mm. Accordingly, the aspect ratio of the flat MD yarns was 5.6:1.
  • the fabric was woven at 48 total warp ends per inch with a loom tension of 40 PLI (pounds per linear inch) and 20 CMD total pick yarns per inch. The permeability averaged 90 CFM in the resultant fabric.
  • fabric was woven in accordance with Figures 6, 7 and 8, wherein the CMD yarns 21a, 21b were polyester monofilament yarns 0.7mm in diameter interwoven with MD yarns 22-25 which were flat polyester monofilament yarns having a width of 1.12mm and a height of 0.2mm. Accordingly, the aspect ratio of the flat MD yarns was 5.6:1.
  • the fabric was woven at 22 CMD pick yarns per inch.
  • the fabric was heat set using conventional methods.
  • the fabric exhibited a modulus of 6000 PSI.
  • the fabric stretched less than 0.2% in length during heat setting.
  • the resultant fabric had 22 CMD yarns per inch with 106% MD warp fill with respect to both upper and lower MD yarns resulting in 212% actual warp fill for the fabric.
  • the finished fabric had a caliper of .048 inches and an air permeability of 60CFM.
  • the high aspect ratio yarns 22-24 effectively brace the CMD yarns 21a in the weave construction.
  • This bracing effect can be quantified in terms of the degree of contact arc ⁇ and contact bracing area, CBA, as follows:
  • the degrees of arc over which MD yarns 22-25 are in contact with CMD yarns 21a is dependent upon the spacing of the CMD yarns within the weave.
  • the degree of contact arc can be maintained in a preferred range of between 60° to 180° by varying the pick count of the CMD yarns from 14 picks per inch to a maximum of 28.22 picks per inch.
  • the degree of contact arc ⁇ is approximately 101°. This results in a bracing contact area of approximately 0.79mm2 at each knuckle in the fabric.
  • Applicant's use of high ratio aspect yarns i.e. yarns having a width:thickness ratio of at least 3:1, provides for increased bracing contact of the flat MD yarns with the CMD yarns 21a. This is comparatively exemplified by modifying the equation for contact bracing area, CBA, to be defined in terms of the thickness of the MD yarns.
  • seaming loops are formed by upper MD yarns 22.
  • the respective lower MD yarns 23 are trimmed a selected distance from the fabric end and the upper MD yarns 22 are backwoven into the space vacated by the trimmed lower MD yarns 23.
  • Upper MD yarns 24 are similarly backwoven into the space vacated by trimming back lower MD yarns 25. However, as best seen in Figure 10, upper MD yarns 24 are backwoven against the madness CMD yarn 21b.
  • a series of seaming loops is formed on each of the opposing fabric ends 27, 28.
  • the respective end loops formed by MD yarns 22 are intermeshed and a pintle 30 is inserted therethrough to lock the intermeshed series of loops together.
  • the seaming loops L are formed by backweaving MD yarns 22 directly beneath themselves, no lateral twist or torque is imparted on the loop and the loops are orthogonal with the plane of the fabric. This facilitates the intermeshing of the loop series of the opposing fabric ends 27, 28.
  • the orthogonal loops are particularly advantageous where, as shown in Figure 10, the MD yarns 22, 24 are 100% warp fill and adjacent loops are separated by individual MD yarns of the same width as the loop MD yarns 22. Lateral torque or twist on the seaming loops make the seaming process more difficult particularly where the loop-receiving gaps between the loops of one fabric end are essentially the same width as the loops on the opposing fabric end and vice versa.
  • the loop forming MD yarns 22 are preferably backwoven approximately 2 inches while the non-loop forming MD yarns 24 are preferably backwoven 1 inch.
  • Fabric 30 comprises a single layer of CMD yarns 31 interwoven with stacked pairs of flat monofilament yarns in a selected repeat pattern. For clarity, only one pair of stacked MD yarns is shown comprising upper MD yarn 32 and lower MD yarn 33.
  • the upper MD yarns weave in a float over two CMD yarns 31, form a single knuckle under the next CMD yarn 31 and thereafter repeat.
  • the lower MD yarns weave in an inverted image of the upper MD yarns weaving under two CMD yarns 31, forming a knuckle over the next CMD yarn 31 and then returning to the bottom surface of the fabric in the repeat. Since the repeat of both the upper and lower MD yarns is with respect to three CMD yarns 31, a total of three different stacked pairs of yarns comprise the weave pattern of the MD yarn system.
  • a fabric was woven in accordance with Figure 12 wherein the CMD yarns 31 were polyester monofilament yarns 0.7mm in diameter interwoven with MD yarns which were flat polyester monofilament yarns having a width of 1.12mm and a height of 0.2mm. Accordingly, the aspect ratio of the flat MD yarns was 5.6:1.
  • the fabric was woven 48 warp ends per inch under a loom tension of 60 PLI and 18 CMD pick yarns per inch.
  • the fabric was heat set using conventional methods.
  • the fabric exhibited amodulus of 6000 PSI.
  • the fabric stretched less than 0.2% in length during heat setting.
  • the resultant fabric had 18 CMD yarns per inch with 106% MD warp fill with respect to both upper and lower MD yarns resulting in 212% actual warp fill for the fabric.
  • the finished fabric having a caliper of 0.046 inches and an air permeability of 66CFM.
  • Fabric 40 comprises upper, middle and lower layers of CMD yarns 41, 42, 43, respectively, interwoven with stacked pairs of flat monofilament yarns in a selected repeat pattern. For clarity, only one pair of stacked MD yarns is shown comprising upper MD yarn 44 and lower MD yarn 45.
  • the upper MD yarns weave in a float over two upper layer CMD yarns 41, under the next yarn 41 and a middle layer yarn 42 to form a single knuckle, under the next CMD yarn 41 and thereafter rise to the top surface to continue to repeat.
  • the lower MD yarns weave in an inverted image of the upper MD yarns weaving under two lower layer CMD yarns 43 over the next CMD yarn 43 and a middle CMD yarn 42 forming a knuckle, over the next CMD yarn 43 then returning to the bottom surface of the fabric to repeat. Since the repeat of both the upper and lower MD yarns is with respect to four upper and lower CMD yarns 41, 43, respectively, a total of four different stacked pairs of yarns comprise the weave pattern of the MD yarn system.
  • a fabric was woven in accordance with Figure 13, wherein the upper and lower layer CMD yarns 41, 43 were nylon-sheathed, multifilament polyester yarns 0.62mm in diameter and the middle layer CMD yarns 42 were polyester monofilament yarns 0.5mm in diameter interwoven with MD yarns 22-25 which were flat polyester monofilament yarns having a width of 0.60mm and a height of 0.38mm. Accordingly, the aspect ratio of the flat MD yarns was 1.58:1.
  • the fabric was woven with 96 warp ends per inch under a loom tension of 40 PLI and 15 CMD pick yarns per inch per layer. The fabric was heat set using conventional methods.
  • the resultant fabric had 15 CMD yarns per inch per layer with 113% MD warp fill with respect to both upper and lower MD yarns resulting in 226% actual warp fill for the fabric.
  • the finished fabric had a caliper of .075 inches and an air permeability of 60CFM.
  • Figures 14, 15 and 16 illustrate the fifth, sixth and seventh embodiments of the present invention.
  • Figure 14 illustrates the weave of a relatively long float on both sides of the fabric;
  • Figure 15 illustrates how a stacked pair MD yarn weave can define floats of different lengths on opposite sides of the fabric; and
  • Figure 16 illustrates how a stacked pair MD yarn weave can be used to construct fabrics having MD knuckles on one side of the fabric.
  • Relatively long floats predominating the surfaces of a dryer fabric are beneficial for both the paper-carrying side as well as the machine side of the fabric.
  • long floats provide greater contact area with the paper sheet for increased heat transfer.
  • machine side long floats provide increased wear surface and contact area to reduce bounce and flutter.
  • the stacked pair MD yarn weave is versatile in allowing different surfaces to be defined on the top and bottom sides of the fabric. Accordingly, fabrics made in accordance with the teachings of the present invention may be used for other industrial purposes such as in the drying of sludge.
  • a fabric 50 comprising three layers of yarns 51, 52, and 53 respectively.
  • the MD yarn pairs such as the pair formed by upper layer yarn 54 and lower layer yarn 55, define relatively long floats on both the top and bottom surfaces of the fabric.
  • Upper yarn 54 weaves over five upper layer CMD yarns 51, drops into the fabric to form a knuckle under one middle layer CMD yarn 52, weaves under the next upper layer yarn 51 and thereafter repeats.
  • Lower MD yarn 55 weaves in an inverted image under five lower layer CMD yarns 53, rising into the fabric over the next CMD 53 to weave a knuckle over one middle layer CMD yarn 52 thereafter dropping to the bottom surface of the fabric to continue its repeat.
  • six pairs of stacked MD yarns are utilized in the repeat of the fabric and are sequentially woven in a selected sequence to produce a desired pattern on the surfaces of the fabric which will be predominated by the MD yarn floats.
  • FIG. 15 depicts a fabric 60 in which the MD yarns weave with a five-float repeat on the top fabric surface and a two-float repeat on the bottom fabric surface.
  • upper MD yarn 64 interweaves with upper and middle CMD yarns 61, 62 in the same manner that upper MD yarn 54 weaves with respective CMD yarns 51, 52 with respect to fabric 50 in Figure 14.
  • lower MD yarn 65 which forms a stacked pair with upper MD yarn 64, weaves in a two-float bottom repeat with respect lower and middle CMD yarns 63, 62.
  • lower MD yarn 65 floats under two lower layer CMD yarns 63, rises above the next CMD yarn 63 to form a knuckle over one middle layer CMD yarn 62 and thereafter drops to the bottom surface of the fabric 60 to continue to repeat.
  • the interior knuckles formed by the lower MD yarns are hidden by the upper MD yarn of the respective stacked pair and vice-versa.
  • the embodiment shown in Figure 16 discloses another example of a fabric 70 having five-float MD yarns predominating the upper surface of the fabric, but with MD knuckles on the lower surface of the fabric.
  • This type of construction may be advantageously used to construct a forming fabric where the upper fabric surface, having relatively long floats, would be used as the machine side of the fabric and the knuckled lower surface of the fabric would be used as the paper forming side.
  • Fabric 70 includes three layers of CMD yarns 71, 72, 73 respectively which interweave with stacked pairs of MD yarns to define this construction. Only one pair of stacked pair of MD yarns 74, 75 is depicted for clarity.
  • Upper MD yarn 74 weaves in a five-float pattern with respect to upper and middle layer CMD yarns 71, 72 in the same manner as upper MD yarn 54 with respect to fabric 50 shown in Figure 14.
  • Lower MD yarn 75 weaves three interior knuckles and three lower surface knuckles with respect to middle and lower layer CMD yarns 72, 73 under each upper surface float of its respective MD yarn pair yarn 74.
  • the repeat of the upper MD yarns is defined with respect to six upper layer CMD yarns 71 and the repeat of the lower MD yarns is defined with respect to only two lower layer CMD yarns 73. Accordingly, there are six different pairs of stacked MD yarns which constitute the MD yarn system which, as noted above, can be arranged such that a desired pattern is formed on the upper surface of the fabric.
  • the repeat of the upper MD yarns will be equally divisible by, or an equal multiple of, the repeat of the lower MD yarns in defining the stacking pair relationship.
  • the repeat of the upper MD yarns is six upper layer CMD yarns which is equally divisible by the repeat of the lower MD yarns which is three lower layer CMD yarns.
  • a fabric 80 is illustrated having a single layer of CMD yarns 81 and a representative stacked pair of MD yarns 82, 83.
  • Upper MD yarn 82 weaves with two floats over CMD yarns 81 with a repeat occurring with respect to three CMD yarns 81.
  • Lower MD yarn 83 weaves with five floats under CMD yarns 81 with a repeat of six CMD yarns 81.
  • the repeat of the upper MD yarns which is three, is an equal multiple of the repeat of lower MD yarns, which is six.
  • a variety of other weave patterns employing the paired stacked weave construction of the instant invention may be constructed within the scope of the present invention. For example, in some applications it may be desirable to have MD yarn surface floats over six or more CMD yarns. Such fabrics are readily constructed in accordance with the teachings of the present invention.

Landscapes

  • Paper (AREA)
  • Woven Fabrics (AREA)
  • Yarns And Mechanical Finishing Of Yarns Or Ropes (AREA)
  • Stringed Musical Instruments (AREA)
  • Decoration Of Textiles (AREA)
  • Laminated Bodies (AREA)
  • Multicomponent Fibers (AREA)
  • Knitting Of Fabric (AREA)
  • Crystals, And After-Treatments Of Crystals (AREA)
EP92122165A 1990-06-06 1991-03-15 Papiermachergewebe mit flachen Längsfäden Expired - Lifetime EP0553501B1 (de)

Applications Claiming Priority (7)

Application Number Priority Date Filing Date Title
US534164 1990-06-06
US07/534,164 US5103874A (en) 1990-06-06 1990-06-06 Papermakers fabric with stacked machine direction yarns
US567974 1990-08-15
US07/567,974 US5092373A (en) 1990-06-06 1990-08-15 Papermakers fabric with orthogonal machine direction yarn seaming loops
US07/654,008 US5117865A (en) 1990-06-06 1991-02-14 Papermakers fabric with flat high aspect ratio yarns
US654008 1991-02-14
EP91907325A EP0532510B1 (de) 1990-06-06 1991-03-15 Papiermachergewebe mit flachen Maschinenrichtungsfaden

Related Parent Applications (2)

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EP91907325.4 Division 1991-03-15
EP91907325A Division EP0532510B1 (de) 1990-06-06 1991-03-15 Papiermachergewebe mit flachen Maschinenrichtungsfaden

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EP0553501A2 true EP0553501A2 (de) 1993-08-04
EP0553501A3 EP0553501A3 (en) 1993-12-22
EP0553501B1 EP0553501B1 (de) 1998-10-28

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EP94103975A Expired - Lifetime EP0612882B1 (de) 1990-06-06 1991-03-15 Papiermachergewebe mit flachen Längsfäden
EP94103974A Expired - Lifetime EP0612881B1 (de) 1990-06-06 1991-03-15 Papiermachergewebe mit flachen Längsfäden
EP91907325A Expired - Lifetime EP0532510B1 (de) 1990-06-06 1991-03-15 Papiermachergewebe mit flachen Maschinenrichtungsfaden

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EP94103974A Expired - Lifetime EP0612881B1 (de) 1990-06-06 1991-03-15 Papiermachergewebe mit flachen Längsfäden
EP91907325A Expired - Lifetime EP0532510B1 (de) 1990-06-06 1991-03-15 Papiermachergewebe mit flachen Maschinenrichtungsfaden

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EP (4) EP0553501B1 (de)
JP (4) JP3655301B2 (de)
AT (4) ATE172764T1 (de)
AU (1) AU673615B2 (de)
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DE (6) DE69130398T2 (de)
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WO1995006161A2 (en) * 1993-08-23 1995-03-02 Asten Group, Inc. Papermakers fabric with orthogonal machine direction yarn seaming loops
USRE35966E (en) * 1990-06-06 1998-11-24 Asten, Inc. Papermakers fabric with orthogonal machine direction yarn seaming loops
WO2003095740A1 (en) * 2002-05-09 2003-11-20 Albany International Corp. Formingfabric comprising flat shaped conductive monofilament used in the production of non-woven fabrics
RU2461673C2 (ru) * 2006-07-25 2012-09-20 Олбани Интернешнл Корп. Сушильная ткань

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CA2065127C (en) * 1991-10-11 1996-04-23 C. Barry Johnson Woven papermakers fabric having a unibody seam and a method for making the same
ATE131555T1 (de) * 1991-10-11 1995-12-15 Asten Inc Papiermachergewebe mit verbindungsnaht aus eigenen faden und verfahren zu seiner herstellung
DE4302031C1 (de) * 1993-01-26 1993-12-16 Heimbach Gmbh Thomas Josef Trockensieb sowie Verfahren zu dessen Herstellung
WO1994021847A1 (en) * 1993-03-19 1994-09-29 Jwi Ltd. High loop density pin seam
GB9417720D0 (en) * 1994-09-03 1994-10-19 Scapa Group Plc Papermakers fabric
US5503196A (en) 1994-12-07 1996-04-02 Albany International Corp. Papermakers fabric having a system of machine-direction yarns residing interior of the fabric surfaces
US5865219A (en) * 1997-07-31 1999-02-02 Asten, Inc. Double layer papermaking fabric having a high stability weave
US6079454A (en) * 1997-11-24 2000-06-27 Astenjohnson, Inc. Loop/tie-back woven loop seam press base
FR2789702B1 (fr) * 1999-02-16 2001-03-30 Cofpa Jonction a armure symetrique pour bande tissee a armure asymetrique
DE19923088C1 (de) 1999-05-20 2000-10-12 Heimbach Gmbh Thomas Josef Papiermaschinenbespannung, insbesondere als Trockensieb
JP2002013088A (ja) * 2000-06-27 2002-01-18 Ichikawa Woolen Textile Co Ltd 抄紙用フエルト
ATE372404T1 (de) * 2001-07-05 2007-09-15 Astenjohnson Inc Technisches gewebe mit garnverbänden
US6902652B2 (en) * 2003-05-09 2005-06-07 Albany International Corp. Multi-layer papermaker's fabrics with packing yarns
DE102005056618A1 (de) * 2005-11-25 2007-05-31 Voith Patent Gmbh Gewebegefüge
JP4263201B2 (ja) * 2006-06-30 2009-05-13 シキボウ株式会社 抄紙用ドライヤーカンバス
US8025969B2 (en) 2008-10-21 2011-09-27 Voith Paper Holding Gmbh & Co. Kg PET yarns with improved loop tensile properties
CN104631189A (zh) * 2015-01-28 2015-05-20 安徽华宇网业有限公司 三经线扁丝干网
DE102015101449A1 (de) * 2015-02-02 2016-08-04 AstenJohnson PGmbH Industrielles Gewebe, Verfahren zur Herstellung eines Vliesstoffs sowie Verwendung eines industriellen Gewebes
CN104818642B (zh) 2015-05-22 2016-08-17 安平县鑫鹏网带有限公司 一种工业织物
US10145064B2 (en) 2015-09-30 2018-12-04 Astenjohnson, Inc. High stability warp dryer fabric

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FR2407291A1 (fr) * 1977-10-28 1979-05-25 Jwi Ltd Tissu pour le sechage de la nappe de papier dans une machine a fabriquer le papier
US4438789A (en) * 1981-06-04 1984-03-27 Jwi Ltd. Woven pin seam in fabric and method
EP0144592A2 (de) * 1983-11-30 1985-06-19 Nippon Filcon Co., Ltd. Formiersieb für eine Papiermaschine
EP0211426A2 (de) * 1985-08-05 1987-02-25 Hermann Wangner GmbH & Co. KG Gewobene, mehrlagige Papiermaschinenbespannung erhöhter Stabilität und Durchlässigkeit
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* Cited by examiner, † Cited by third party
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USRE35966E (en) * 1990-06-06 1998-11-24 Asten, Inc. Papermakers fabric with orthogonal machine direction yarn seaming loops
WO1995006161A2 (en) * 1993-08-23 1995-03-02 Asten Group, Inc. Papermakers fabric with orthogonal machine direction yarn seaming loops
WO1995006161A3 (en) * 1993-08-23 1995-03-23 Asten Group Papermakers fabric with orthogonal machine direction yarn seaming loops
WO2003095740A1 (en) * 2002-05-09 2003-11-20 Albany International Corp. Formingfabric comprising flat shaped conductive monofilament used in the production of non-woven fabrics
CN100406631C (zh) * 2002-05-09 2008-07-30 阿尔巴尼国际公司 由具有扁平形状的传导性单丝组成的、用于制造无纺布的成形织物
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RU2461673C2 (ru) * 2006-07-25 2012-09-20 Олбани Интернешнл Корп. Сушильная ткань

Also Published As

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JPH05509134A (ja) 1993-12-16
FI925483A0 (fi) 1992-12-02
NO974419D0 (no) 1997-09-24
DE553501T1 (de) 1998-03-12
DE69105130T2 (de) 1995-03-23
NZ237553A (en) 1995-03-28
JP3179752B2 (ja) 2001-06-25
EP0553501A3 (en) 1993-12-22
JPH11124784A (ja) 1999-05-11
AU2703092A (en) 1993-01-07
AU7039494A (en) 1994-11-03
DE69105130D1 (de) 1994-12-15
ES2107977T3 (es) 1998-12-16
DE69130398T2 (de) 1999-03-11
ATE114006T1 (de) 1994-11-15
DK0532510T3 (da) 1995-04-24
EP0612881A1 (de) 1994-08-31
DE69130423T2 (de) 1999-04-22
FI119065B (fi) 2008-07-15
ES2107977T1 (es) 1997-12-16
ATE172764T1 (de) 1998-11-15
FI20031544A (fi) 2003-10-22
EP0612881B1 (de) 1997-06-11
EP0553501B1 (de) 1998-10-28
ATE154403T1 (de) 1997-06-15
DE69105130C5 (de) 2008-02-14
FI925483A (fi) 1992-12-02
NO305216B1 (no) 1999-04-19
ES2102711T3 (es) 1997-08-01
DE69130423D1 (de) 1998-12-03
ES2107978T1 (es) 1997-12-16
JP3346736B2 (ja) 2002-11-18
JPH111885A (ja) 1999-01-06
EP0532510A1 (de) 1993-03-24
EP0612882A1 (de) 1994-08-31
ES2107978T3 (es) 1998-12-16
EP0612882B1 (de) 1998-10-21
DK0553501T3 (da) 1999-07-05
AU642004B2 (en) 1993-10-07
AU673615B2 (en) 1996-11-14
NO974419L (no) 1993-02-05
NO940200D0 (no) 1994-01-20
NO305215B1 (no) 1999-04-19
DE69130398D1 (de) 1998-11-26
DE69126545T2 (de) 1997-12-18
JPH111886A (ja) 1999-01-06
DK0612882T3 (da) 1999-06-28
NO309435B1 (no) 2001-01-29
NO924688L (no) 1993-02-05
DK0612881T3 (da) 1997-07-14
JP3655301B2 (ja) 2005-06-02
NO924688D0 (no) 1992-12-04
EP0532510B1 (de) 1994-11-09
FI96881B (fi) 1996-05-31
NO940200L (no) 1993-02-05
CA2084054A1 (en) 1991-12-07
ATE172506T1 (de) 1998-11-15
ES2063504T3 (es) 1995-01-01
AU7553891A (en) 1991-12-31
CA2084054C (en) 1996-06-04
DE612882T1 (de) 1998-03-12
DE69126545D1 (de) 1997-07-17
JP3179753B2 (ja) 2001-06-25
WO1991019044A1 (en) 1991-12-12
AU649570B2 (en) 1994-05-26

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