Classifications

• • D—TEXTILES; PAPER
  • D03—WEAVING
  • D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
  • D03D3/00—Woven fabrics characterised by their shape
  • D03D3/04—Endless fabrics
• • D—TEXTILES; PAPER
  • D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
  • D21F—PAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
  • D21F1/00—Wet end of machines for making continuous webs of paper
  • D21F1/0027—Screen-cloths
  • D21F1/0054—Seams thereof

Definitions

• the invention relates to a woven band, particularly intended for the paper industry. having an asymmetrical weave constituted by weft threads and warp threads extending between two opposite ends of the strip, the warp threads being rewoven, after folding at each end of the strip, with the weft threads on a reweaving zone adjacent to said end to form loops.
• continuous paper making machines generally comprise three sections, respectively, for forming, for extracting water by pressing and for drying the sheet of paper.
• the sheet of paper is applied to a set of heated cylinders.
• woven bands commonly called drying fabrics, preferably having an asymmetrical weave, generally comprising weft threads having a round woven section with warp threads having a flattened section, these warp threads defining large floats on the right side of the strip which is in contact with the sheet of paper.
• This type of strip makes it possible to obtain a reduction in the marking of the sheet of paper by the warp threads, this in a machine configuration in which the strip is in constant contact with the sheet throughout the course of the latter in a serpentine fashion on two horizontal rows of cylinders.
• the neutral plane of the band (the plane of the band which undergoes neither compression nor extension when the band is curved) is arranged between the median plane and the right side of the strip in the direction of the thickness of the latter.
• each woven strip is configured endlessly when it is installed on a machine, using, for example, a rigid rod which is passed inside the loops formed at one end of the strip and loops formed at the other end of the strip, the loops of the two ends being meshed with each other before passing the rod as is well known.
• the subject of the invention is a woven strip, intended more particularly for the paper industry, having an asymmetrical weave constituted by weft threads and warp threads extending between two opposite ends of the strip, the warp yarns being woven back, after folding at each end of the strip, with the weft yarns on a weaving area close to said end to form loops, characterized in that each weaving area has a symmetrical weave.
• a construction means that the junction line of the opposite ends of the strip is no longer subjected to a displacement in the direction of the thickness of the strip when the latter, configured endlessly, is energized.
• the neutral plane of the strip is coincident with the median plane of the latter in which the line joining the ends of the strip extends. Furthermore, the gradient of the neutral plane of the strip is distributed over the two reweaving zones of the warp threads and no longer located on the joining line of the two ends of the strip.
• each reweaving zone with symmetrical weave close to one end of the strip can be formed by making the warp threads having reached the end, after folding, take the place of the adjacent chain that were interrupted before the reweaving area.
• the warp threads are folded orthogonal to the plane of the strip each time end of the latter and the weft threads of the reweaving zones have a smaller diameter than the weft threads of the rest of the strip.
• each warp thread after folding at one end of the strip is overwoven over itself with the weft threads in the reweaving area.
• the reduction in diameter of the weft threads in each reweaving zone makes it possible to compensate for the excess thicknesses of the warp threads in order to maintain a relatively constant thickness of the strip over its entire length. Creping the weft threads, during the high temperature heat setting operation of the weft threads and warp threads, will ultimately reduce any difference in thickness between the reweaving zones and the rest of the strip.
• the warp threads have a flattened section which makes it possible to reduce the marking of the sheet of paper and the permeability of the strip.
• Figure 1 shows very schematically, viewed in longitudinal section, one end of a strip woven into a single plane of weft threads according to the invention.
• FIG. 2 very schematically shows, seen in longitudinal section, one end of a woven strip with two planes of weft threads according to the invention.
• Figure 3 shows very schematically, in top view, the loops formed at the two ends of a woven strip according to the invention for joining together using two rods.
• Figure 4 shows very schematically, in top view, the loops formed at one end of a woven strip according to the invention for joining together using two spirals.
• Figures 5 and 6 show very schematically, in top view, the loops formed at one end of a woven strip according to the invention for joining together using a spiral.
• FIG. 1 shows very schematically in longitudinal section, the end of a woven strip 10 according to the invention which is particularly intended for a drying section of a paper making machine.
• This woven strip comprises a single plane of weft threads 11-15, 17-24 of round section and warp threads here having a flattened section and which extend between the two opposite ends of the strip.
• a single warp thread 16 is illustrated in FIG. 1.
• the warp thread 16 after each float on the right side 26 of the strip crosses the weft plane to be woven on the reverse side 26 of the strip, bypassing a single weft thread and crosses again the weft thread plane to define another float on the right side of the strip. It is understood that the adjacent warp threads in the direction of the weft threads cross the weft plane at different levels along the strip as is well known.
• each warp thread such as 16 is rewoven, after folding, with the weft threads 17-24 on a weaving area close to this end but in such a way that this weaving area has a symmetrical weave in which the neutral plane PN of the band is merged with the median plane PM of the band. More particularly as visible in FIG. 1, it can be seen that the warp thread 16, after its folding around the weft thread 17, is rewoven by defining floats on the reverse side 26 of the strip covering three consecutive weft threads such as 19-21. Consequently, each warp thread is rewoven after folding on the reverse side of the strip with a weave pattern to the weave pattern on the right side of the strip.
• the limit of the reweaving zone with symmetrical weave of the warp threads at one end of the strip is indicated by the arrow B while the arrow A indicates the limit of the rest of the body of the strip which has asymmetrical weave.
• the warp thread 16 of flattened section is rewoven with weft threads 17-24 in the weaving area B which have a diameter d smaller than the diameter D of the weft threads 11-15 of the remainder A of the strip and the warp thread 16 is rewoven in superposition on itself so that it is folded at the end of the strip orthogonal to the plane of the strip.
• the thickness H ′ of the strip in the reweaving zones B is the same as the thickness H of the body A of the strip.
• the difference between the diameter of the weft threads of the body A of the strip and the diameter of the weft threads of the weaving areas B is equal to twice l thickness of a warp wire of flattened section such as 16.
• the end of these warp threads is brought out on the reverse side 26 of the strip at different locations along the latter, depending on the weave pattern defined by the warp thread considered, in order to have a bending gradient in the reweaving zones.
• Figure 2 shows a woven strip similar to that of Figure 1 but with two weft son planes. This figure shows the asymmetrical armor of the body A of the strip and the symmetrical armor of the reweaving zone B of the warp threads such as 16 and the arrangement of the neutral plane PN of the band with respect to the median plane PM of the band.
• each warp thread such as 16 with a flattened section is bent at each end of the strip orthogonal to the plane of the strip, forming either a joining loop such as 27, or no joining loop, c that is to say by clamping the last weft thread 17 of the end of the strip so as to create a free space between two adjacent joining loops formed at this end of the strip.
• the reduction in the density of the loops contributes to facilitating the joining of the two ends of the strip.
• FIG. 3 illustrates a first embodiment of joining loops at the two ends of a woven strip according to the invention.
• a sequence of four warp threads FC1-FC4 form at one end B (reweaving area B) of the strip respectively a large loop, no loop, a small loop and no loop and that these same warp threads FC1-FC4 form at the other end B 'of the strip (reweaving area B') respectively no loop, a large loop, a small loop and no loop.
• the large loops protrude from the small loops.
• the loops on one end of the strip are meshed with the loops on the other end. of. the band.
• Small curls from the end B of the strip define with the large loops of the end B 'of the strip a channel in which a first rod 28 has passed.
• the large loops of the end B of the strip define with the small loops of the end B ′ of the strip another channel in which a second rod 29 has passed.
• the resistance of the joining zone is in this case comparable to that of the rest of the strip.
• the free spaces left by the warp thread FC4 at each end B, B 'of the strip allow the loops formed by the warp threads FC1.FC2 and FC3 to be less tight.
• This embodiment of the loops at each end of the strip makes it possible to reduce the permeability of the zone of the loops, to avoid a marking of the sheet of paper and to obtain a junction having a maximum resistance and not creating over- thickness relative to the rest of the strip. Furthermore, the junction zone of the two ends of the strip can bend in the plane of the strip but without pivoting around one of the rods 28 or 29. Note that if the reweaving is such that the loops formed at the ends of the strip have an identical length, these loops could not mesh with each other because of their too high density and one could not obtain a high resistance of the junction.
• FIG. 4 illustrates a second embodiment of the joining loops at the two ends of a woven strip according to the invention for joining the two ends using two spirals.
• a sequence of four warp threads FC1-FC4 form at one end B (reweaving area B) of the strip respectively no loop, a small loop, no loop and a large loop.
• the turns of a first spiral 30 are meshed with the loops formed at this end of the strip and are held by a first rod 31 passed in a channel defined by the small loops and the turns of the spiral.
• a second rod 32 is passed through a channel defined by the large loops and the turns of the spiral 30. This construction is identical on the other end of the strip (not shown).
• the small and large loops of this end of the strip are meshed with the turns of a second spiral 33 held by a third rod passed through a third channel formed by the small loops and the turns and through a fourth rod passed through a fourth channel formed by the large loops and the turns.
• the two spirals 30, 33 thus mounted at each end of the strip are joined by a rod 34 now holding the coiled turns of the two spirals.
• the length of the loops formed at each end of the strip and the diameter of the rods 31 and 32 are calculated in such a way that after joining the two ends of the strip and putting it under running tension, the end of the small loops presses on the rod 32 passed through the large loops thus making them united in the effort and the tensile strength of small loops and large loops.
• the resistance of the junction is maximum and comparable to that of the embodiment described in FIG. 3.
• the large loops and the second rod 32 prevent the spiral 30 from pivoting around the first rod 31 and reduces the air permeability of the spiral zone which contributes to reducing the risks of wear of the first rod 31 and of marking of the sheet of paper.
• Each spiral has a thickness identical to that of the strip and the width of the monofilament of each turn of the spirals must not be greater than 80% of the width of a warp thread.
• FIG. 5 illustrates a third embodiment of joining loops formed only at one end B ′ of a woven strip according to the invention for joining the two ends of the strip using a spiral 35.
• the spiral 35 is permanently fixed at the end of the manufacture of the strip at the other end B thereof by folding the warp threads FC2 and FC4, during the reweaving, around the heel of the turns of the spiral and of a ring 36.
• Loops separated two by two by a free space are formed.
• Its sequence of four son of chain FC1-FC4 form at this end B 'of the band respectively no loop, a loop, no loop, a loop.
• the turns of the spiral 35 are meshed with the loops and a rod 37 is passed through the channel defined by the loops and the turns.
• the free space inside the spiral can be filled with stuffing rods such as
• FIG. 6 shows a construction of the joining zone similar to that of FIG. 5 except that the loops are grouped in pairs and the pairs of loops are separated by pairs of free spaces.
• the sequence of four consecutive warp threads FC1 -FC4 respectively form no loop, no loop, a loop and a loop at the end B 'of the strip.
• This construction makes it possible to reduce the number of turns of the spiral 35 and to increase the width of the monofilament constituting each turn.
• the turns of the spiral must have a width LS in the direction of the wires. weft less than 80% of the width LF of a warp thread ( Figure 5) or two warp threads ( Figure 6).
• the resistance of the junction is maximum and can be equal to that of the strip in zones B, B 'if the spiral has a resistance similar to that of the strip.
• the advantage of using a spiral according to the embodiments of FIGS. 5 and 6 is that it makes it possible to mesh the two ends of the strip by having a narrower junction width than that of the embodiment of FIG. 3 which contributes to reducing the risks of marking the sheet of paper.
• woven bands having two or more planes of weft yarns can advantageously also be used in machines for manufacturing non-woven sails, such as diapers for infants, paper towels, geotextiles, etc.

Landscapes

• Textile Engineering (AREA)
• Engineering & Computer Science (AREA)
• Woven Fabrics (AREA)
• Paper (AREA)
• Package Frames And Binding Bands (AREA)
• Knitting Of Fabric (AREA)
• Automotive Seat Belt Assembly (AREA)
• Reinforced Plastic Materials (AREA)
• Treatment Of Fiber Materials (AREA)
• Impression-Transfer Materials And Handling Thereof (AREA)
• Diaphragms For Electromechanical Transducers (AREA)
• Absorbent Articles And Supports Therefor (AREA)
• Looms (AREA)

Applications Claiming Priority (3)

Publications (2)

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• 1999
  • 1999-02-16 FR FR9901864A patent/FR2789702B1/fr not_active Expired - Fee Related
• 2000
  • 2000-02-14 EP EP00905129A patent/EP1155186B1/de not_active Expired - Lifetime
  • 2000-02-14 KR KR1020017010412A patent/KR100634493B1/ko active IP Right Grant
  • 2000-02-14 US US09/913,627 patent/US6450213B1/en not_active Expired - Lifetime
  • 2000-02-14 ID IDW00200101694A patent/ID30090A/id unknown
  • 2000-02-14 AT AT00905129T patent/ATE264941T1/de active
  • 2000-02-14 AU AU26767/00A patent/AU756877B2/en not_active Ceased
  • 2000-02-14 MX MXPA01008215A patent/MXPA01008215A/es active IP Right Grant
  • 2000-02-14 CA CA002360842A patent/CA2360842C/fr not_active Expired - Fee Related
  • 2000-02-14 WO PCT/FR2000/000359 patent/WO2000049223A1/fr active IP Right Grant
  • 2000-02-14 BR BRPI0008247-3A patent/BR0008247B1/pt not_active IP Right Cessation
  • 2000-02-14 CN CN00803880A patent/CN1114012C/zh not_active Expired - Lifetime
  • 2000-02-14 DE DE60010051T patent/DE60010051T2/de not_active Expired - Lifetime
  • 2000-02-14 ES ES00905129T patent/ES2218125T3/es not_active Expired - Lifetime
  • 2000-02-14 JP JP2000599940A patent/JP4564174B2/ja not_active Expired - Fee Related
  • 2000-02-16 TW TW089102635A patent/TW508382B/zh not_active IP Right Cessation
• 2001
  • 2001-07-17 ZA ZA200105871A patent/ZA200105871B/en unknown
  • 2001-08-01 NO NO20013783A patent/NO315861B1/no unknown

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