EP1685284A1 - Banc d'etirage d'un metier a filer a fibres discontinues a guidage central des fibres - Google Patents

Banc d'etirage d'un metier a filer a fibres discontinues a guidage central des fibres

Info

Publication number
EP1685284A1
EP1685284A1 EP04761966A EP04761966A EP1685284A1 EP 1685284 A1 EP1685284 A1 EP 1685284A1 EP 04761966 A EP04761966 A EP 04761966A EP 04761966 A EP04761966 A EP 04761966A EP 1685284 A1 EP1685284 A1 EP 1685284A1
Authority
EP
European Patent Office
Prior art keywords
fiber
sliver
drafting
channel
drafting system
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Withdrawn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
EP04761966A
Other languages
German (de)
English (en)
Inventor
Hans Stahlecker
Friedbert Schmid
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.)
Holding fur Industriebeteiligungen AG
Original Assignee
Holding fur Industriebeteiligungen AG
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 Holding fur Industriebeteiligungen AG filed Critical Holding fur Industriebeteiligungen AG
Publication of EP1685284A1 publication Critical patent/EP1685284A1/fr
Withdrawn legal-status Critical Current

Links

Classifications

    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H5/00Drafting machines or arrangements ; Threading of roving into drafting machine
    • D01H5/18Drafting machines or arrangements without fallers or like pinned bars
    • D01H5/70Constructional features of drafting elements
    • D01H5/72Fibre-condensing guides

Definitions

  • the invention relates to a drafting system for a staple fiber spirun machine with a downstream compression zone according to the preamble of claim 1.
  • the conversion of natural and synthetic fibers into a yarn requires a number of sub-operations. The last stage of work is usually referred to as fine spinning.
  • the spun yarn receives its final fineness and strength. Fine spinning requires a significant portion of the effort of the entire yarn manufacturing process.
  • Ring spinning in staple fiber spinning machines which is known from the prior art, comes closest to classic hand spinning with spinning wheels.
  • the spun yarn is wound on a rotating spinning spindle. Three machines are essentially required for ring spinning.
  • the flyer creates a roving from a sliver, which is also known as a sliver.
  • the StapeHaser spinning machine produces the yarn with the required fineness from the roving and spins it onto a small bobbin, the cop.
  • the dishwasher then assembles the yarn from many cops and produces a ready-to-use yarn spool weighing a few kg.
  • the roving is drawn to the required fineness of the thread on the staple fiber spinning machine and the twisting of the fibers required for spinning the yarn is applied.
  • a drafting system is assigned to each spinning station. Often it is a so-called three-cylinder drafting system. This drafting system has a pre-default field and a main default field.
  • the roving that is fed in is drawn to the desired fineness in the drafting system and leaves the drafting system at the Klerrun line of a pair of output rollers as a relatively wide fiber sliver. This sliver is twisted with the help of the spinning twist and twisted into the finished yarn. This forms after the
  • the so-called spinning triangle in which the fibers supplied by the drafting system are brought together and into the yarn structure be integrated. Not all fibers are caught in the spinning triangle. Edge fibers can be lost or are only partially attached to the twisted yarn.
  • the fibers located at the edges of the spinning triangle are tensioned much more when the twist is given than the fibers located in the center of the spinning triangle.
  • the fibers lying on the periphery are therefore more pretensioned than the fibers in the yarn core. If the yarn is subjected to a correspondingly high load, the more pretensioned fibers break at the periphery.
  • the finished twisted yarn therefore does not have the strength that it should have as the sum of the individual strengths of the individual fibers.
  • the uncontrolled fibers stand out from the twisted yarn and lead to an increased and undesirable hairiness of the yarn. Increased yarn hairiness is equivalent to a loss of quality.
  • the drafting zone of modern staple fiber spinning machines is supplemented by a compression zone in which the wide fiber sliver emitted by the pair of output rollers is brought together as compactly as possible. Only the fiber sliver compacted or compacted in this way is twisted to the finished yarn after leaving the compression zone.
  • PCT / CH 03/00001 it is proposed to connect the compression zone downstream of the drafting system of a staple fiber spinning machine.
  • the compression zone extends between an exit pressure roller of the draft zone and a delivery pressure roller at the exit of the compression zone.
  • the two pressure rollers are supported on a lower cylinder.
  • a geometrically and mechanically acting compressor component is arranged between the two pressure rollers and has a compression channel. The compressor component is preferably pressed against the lower cylinder by means of magnetic force and / or spring force.
  • the drafting system with a downstream compression zone already delivers good quality yarn. Nevertheless, there is a desire to improve the yarn quality even further.
  • the object of the present invention is therefore to provide a drafting system of a staple fiber spinning machine with a downstream compression zone in this regard improve to achieve high quality yarn quality.
  • the modifications should not adversely affect the basic structure of the drafting system with a downstream compression zone. They should be simple and inexpensive to carry out and also allow retrofitting of existing drafting systems.
  • the invention proposes to modify a drafting system for a staple fiber spinning machine with a downstream compression zone in such a way that the axes of the compression channel and of the fiber sliver fed are oriented essentially parallel, preferably coaxially, at the entrance to the compression channel.
  • the axis of the compression channel and the axis of the sliver fed at the entrance to the compression channel run essentially parallel and are preferably aligned coaxially, the frictional forces occurring when the sliver is passed through the left and right boundary surfaces of the compression channel are essentially the same. Lateral forces that could lead to uneven compression of the sliver are largely avoided.
  • the transverse forces which act on the compressor component during the passage of the sliver and which could change the axial orientation of the compression channel are also kept as small as possible by the measure according to the invention.
  • the alignment of the axes of the compression channel and the sliver fed in requires only minor structural adjustments to the drafting system and the downstream compressor zone. The solution is simple and especially designed for inexpensive retrofitting of existing systems.
  • Means which feed the sliver warped in the drafting device largely centrally to the compression channel.
  • the means comprise at least one fiber guide, which is provided in the area of a cleavage line of the output pressure roller with the lower cylinder.
  • the fiber guide is preferably arranged in front of the outlet pressure roller in relation to the direction of transport of the fiber sliver.
  • the fiber guide has a passage channel for the fiber sliver, which is arranged essentially centrally with respect to the compression channel of the compressor component.
  • the fiber guide ensures an even alignment of the fiber ribbon warped in the drafting system.
  • the arrangement in front of the nip line of the output printing roller with the lower cylinder saves space. It ensures that the sliver that is warped in the drafting system never reaches the center of the output roller with the lower cylinder.
  • the entrance to the compression channel of the compressor component is just behind the Klenun line. This ensures that the delivered sliver maintains its transport direction with respect to the axis of the compression channel.
  • the means comprise a fiber centering element arranged within the drafting system with a passage channel for the fiber band, which is arranged essentially centrally with respect to the compression channel of the compressor component.
  • the fiber centering element is arranged in relation to the direction of transport of the fiber sliver in front of an apron roller of an apron drafting device.
  • the alternative arrangement of a fiber centering element in front of the apron roller of the apron drafting device also ensures that the fiber sliver which is warped in the drafting system already reaches the center of the output pressure roller with the lower cylinder.
  • Another alternative of the invention can provide that both a fiber guide and a fiber centering element are provided. The fiber centering element already ensures a relatively early pre-centering of the warped fiber sliver.
  • the drafting system is advantageously a so-called three-cylinder drafting system with a pre-drafting and a main drafting field.
  • the main default Field is formed by an apron warping device.
  • the fiber centering is advantageous in relation to the direction of transport of the sliver before a belt. Chenwal arranged the apron warping device. As a result, the sliver transported as a so-called sliver is centered in front of the main drafting zone.
  • the pre-centering facilitates the subsequent centering of the warped sliver in the fiber guide.
  • the compression channel has a width that is at least as large as the passage width of the fiber guide or the fiber centering element. This ensures that the entire width of the fiber sliver can enter the compression channel of the compressor component.
  • the compression channel narrows towards its exit so that the sliver is brought together and compressed to the desired extent. If a fiber guide and a fiber centering member are present at the same time, the passage width of the fiber guide is the same or greater than the passage width of the fiber centering member. This ensures that all fibers of the sliver warped in the main drafting area are caught by the fiber guide.
  • the position of the compressor component is fixed by magnetic force.
  • the contact surface of the compressor component which preferably has essentially the same radius as the circumferential surface of the lower cylinder, is pressed against the lower cylinder by magnetic force without play.
  • the compressor component has at least two magnets which are arranged symmetrically to the compression channel and to a casing sleeve of the output pressure roller.
  • the magnets arranged symmetrically to the compression channel tend to align the compressor component exactly axially parallel to the lower cylinder.
  • the casing sleeve usually consists of hardened steel and is therefore ferromagnetic.
  • the jacket sleeve is usually mounted on a cylindrical shaft. So that the effect of the magnetic forces is not distorted on one side by this wave, the cylindrical shaft consists of a non-magnetizable material.
  • a staple fiber spinning machine advantageously has a plurality of drafting systems with downstream compressor zones which are arranged next to one another.
  • the output pressure rollers and the apron rollers, each of two drafting systems arranged side by side, are mounted in pairs on a cylindrical frame.
  • the fiber guides and / or the fiber centering members in the adjacent drafting units are each combined to form units which can be assembled together. The pairs too
  • Units of combined fiber guides and / or fiber centering members can, for example, be fixed axially on the lower cylinders for the output pressure rollers or on the belt pressure rollers. This makes assembly easier.
  • FIG. 1 shows a schematic illustration of a drafting system equipped according to the invention with a downstream compression zone
  • FIG. 2 shows a schematic diagram of the drafting system with a compression zone according to FIG. 1;
  • Figure 3 is a partially sectioned top view of an output pressure roller with fiber guide and downstream compressor component.
  • Fig. 4 is an apron pressure roller with an upstream fiber centering element.
  • the terms “downstream” and “upstream” used in the following each relate to the direction of transport of a sliver through a drafting system of a staple fiber spinning machine.
  • 1 and 2 schematically show a drafting system equipped according to the invention, which bears the overall reference number 1.
  • the drafting device 1 is a so-called three-cylinder drafting device with a pre-drafting field 4 and a main drafting field 8 for a fiber sliver F.
  • the direction of transport of the fiber sliver F is indicated by arrows.
  • the pre-drafting field 4 extends from an input pressure roller 2 and an input sub-cylinder 3 to a central pair of rollers which is formed by an apron roller 5 and an associated central sub-cylinder 6. Double aprons 7 of the main drafting zone 8 are guided over the apron roller 5.
  • the main drafting zone 8 extends from the middle pair of rollers 5, 6 to an output pressure roller 9, which is supported on a lower cylinder 10.
  • the area of contact of the input pressure roller 2 with the input sub-cylinder 3 defines an entrance clamping line A.
  • the area of contact of the apron roller 5 with the associated central sub-cylinder 6 is designated as the clamping sub-cylinder B.
  • the area of contact of the outlet pressure roller 9 with the lower cylinder 10 finally defines an outlet line C.
  • the three-cylinder drafting system 1 is followed by a compressor zone 11, which extends between the output clamping line C and a supply clamping line D, which is formed by the area of contact of a supply pressure roller 12 with the lower cylinder 10.
  • the lower cylinder 10 usually has a slightly larger diameter than the usual lower cylinder at the outlet of the drafting system.
  • a compressor component 13 with a compression channel 14 is arranged in the compressor zone 11. Due to its design, the compressor component 13 acts geometrically and mechanically and compresses the expanded fiber sliver F which is passed through the sealing channel 14.
  • the compressor component 13 is supported with its bearing surface 15 on the lower cylinder 10, preferably without play.
  • the support surface 15 of the compressor assembly 13 opposite the lower cylinder 10 is designed such that its radius largely corresponds to that of the supporting lower cylinder 10.
  • the compressor component 13 is advantageously fixed in its position by magnetic force.
  • the compression channel 14 of the compressor component 13 has a relatively large width on the input side in order to be able to accommodate the entire width of the fiber sliver F that is transported in by the output pressure roller 9 and the lower cylinder 10.
  • the width of the compression channel 14 tapers along its longitudinal extent and has the smallest passage width at the exit.
  • the axes of the compression channel 14 and the supplied sliver F are aligned with one another and run essentially parallel to one another.
  • the axes are preferably aligned coaxially.
  • a fiber guide 16 is connected upstream of the output pressure roller 9.
  • the fiber guide 16 is mounted, for example, on the outlet pressure roller 9 and is supported on the lower cylinder 10. It has a passage channel 17, the passage width of which is equal to or smaller than the width of the compression channel 14 at the inlet of the compressor component 13.
  • a further fiber centering element 18 is provided, which is connected upstream of the apron pressure roller 5.
  • the fiber centering element 18 is mounted, for example, on the belt pressure roller 5 and is supported on the central lower cylinder 6. It has a pass-through 19, whose passage width is equal to or less than the passage width of the passage channel 17 of the fiber guide 16.
  • the fiber centering element 18 on the belt pressure roller 5 can also be provided instead of the fiber guide 16.
  • FIG. 3 schematically shows a development of the invention for improving the axial alignment of the compressor component 13 and the fiber sliver transported to it.
  • the output pressure roller 9 has a casing sleeve 91 which is mounted on a cylindrical shaft 90.
  • the cylindrical WeUe 90 carries two jacket sleeves 91 and 91 ', which belong to two adjacent drafting systems.
  • the casing sleeves are formed by the outer rings of the bearings in today's printing rollers. They are made of hardened steel and can therefore be magnetized.
  • Each jacket sleeve 91, 91 ' carries an elastic cover 92, 92' which is mounted exactly symmetrically to the axial extension of the jacket sleeve 91, 91 '.
  • the compressor component 13 with the compressor channel 14 is supported without play on the lower cylinder and is fixed with respect to its position by magnetic force.
  • magnets 130 are arranged on both sides of the compression channel, which interact with the material of the lower cylinder.
  • the compressor component 13 also aligns symmetrically to the casing sleeve 91 when the at least two magnets 130 are arranged exactly symmetrically to the compression channel 14.
  • the fiber guide 16 sits, for example, on the free ends of the jacket sleeve 91 and is positioned axially by the cover 92.
  • a groove can be provided in the lower cylinder, in which the fiber guide is axially guided and aligned.
  • the WeUe 90 advantageously consists of a non-magnetizable material.
  • the apron roller 5 has a casing sleeve 51 on which an elastic covering 52 is mounted.
  • the jacket sleeve 51 is on a cylindrical Shaft 50 mounted, at the second end of which a further casing sleeve of an apron roller of the adjacent drafting arrangement can be arranged.
  • the fiber centering element 18 with the through-channel 19 is mounted, for example, on a lateral extension of the casing sleeve 51 of the apron roller 5.
  • the fiber centering elements of adjacent drafting units can be combined to form a single unit, which are fixed axially by the bearing punches that support the middle sub-cylinders.
  • the invention has been explained using the example of a drafting system with a downstream compressor zone which, in order to achieve the best possible axial alignment of the fiber sliver and the compression channel of the compressor component, has a fiber guide, a fiber centering member and a connecting means connecting a neighboring output pressure roller and made of a non-magnetizable material. It goes without saying that the use of a fiber guide in or in connection with a non-magnetizable shaft or the use of a wire made of a non-magnetizable material are also encompassed by the general inventive idea.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Textile Engineering (AREA)
  • Spinning Or Twisting Of Yarns (AREA)

Abstract

Selon l'invention, un banc d'étirage d'un métier à filer à fibres discontinues, comportant une zone de compression disposée en aval, est modifié de telle manière que les axes du canal de compression (14) et de la bande à fibres acheminée (F) sont orientés de façon essentiellement parallèle, de préférence coaxiale, à l'entrée dans le canal de compression (14).
EP04761966A 2003-11-18 2004-10-15 Banc d'etirage d'un metier a filer a fibres discontinues a guidage central des fibres Withdrawn EP1685284A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CH19702003 2003-11-18
PCT/CH2004/000626 WO2005049901A1 (fr) 2003-11-18 2004-10-15 Banc d'etirage d'un metier a filer a fibres discontinues a guidage central des fibres

Publications (1)

Publication Number Publication Date
EP1685284A1 true EP1685284A1 (fr) 2006-08-02

Family

ID=34596917

Family Applications (1)

Application Number Title Priority Date Filing Date
EP04761966A Withdrawn EP1685284A1 (fr) 2003-11-18 2004-10-15 Banc d'etirage d'un metier a filer a fibres discontinues a guidage central des fibres

Country Status (3)

Country Link
EP (1) EP1685284A1 (fr)
CN (1) CN100445444C (fr)
WO (1) WO2005049901A1 (fr)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102006015825B4 (de) * 2006-04-03 2021-07-08 Holding für Industriebeteiligungen AG Compactor-Abstützung
CN101245514B (zh) * 2008-03-20 2010-10-06 朱爱萍 用于细纱机的紧密纺纱装置

Family Cites Families (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
NL28108C (fr) * 1929-04-25
DE877876C (de) * 1950-09-22 1953-05-28 Deutscher Spinnereimaschb Ingo Luntenverdichter fuer Streckwerke von Spinnmaschinen
GB722954A (en) * 1951-09-29 1955-02-02 Estirajes Balmes S A Improvements in and relating to textile spinning machines
US5577298A (en) * 1994-03-17 1996-11-26 Hollingsworth Saco Lowell, Inc. Condenser and method of thread-up
US6332244B1 (en) * 1999-11-26 2001-12-25 Marzoli S.P.A. Method and apparatus for drafting and condensing a roving, particularly an a ring spinning frame
EP1501967B1 (fr) * 2002-05-08 2009-04-22 Holding für Industriebeteiligungen AG Banc d'etirage pour metier continu a filer dote d'un element de compression pour un ruban de fibre

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See references of WO2005049901A1 *

Also Published As

Publication number Publication date
CN1882726A (zh) 2006-12-20
CN100445444C (zh) 2008-12-24
WO2005049901A1 (fr) 2005-06-02

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