Classifications

• • D—TEXTILES; PAPER
  • D01—NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
  • D01H—SPINNING OR TWISTING
  • D01H4/00—Open-end spinning machines or arrangements for imparting twist to independently moving fibres separated from slivers; Piecing arrangements therefor; Covering endless core threads with fibres by open-end spinning techniques
  • D01H4/04—Open-end spinning machines or arrangements for imparting twist to independently moving fibres separated from slivers; Piecing arrangements therefor; Covering endless core threads with fibres by open-end spinning techniques imparting twist by contact of fibres with a running surface
  • D01H4/08—Rotor spinning, i.e. the running surface being provided by a rotor
  • D01H4/10—Rotors

Definitions

• the present invention concerns a spinning rotor made from steel for open end spinning machines for spinning staple fibers with a thinwalled rotor wall provided with a fiber collecting groove at a largest inside diameter of the spinning rotor.
• the unhardened steel processed into the shape of the rotor body does not show the properties re ⁇ quired for preventing wear of the fiber collecting groove. Due to the high centrifugal forces the steel is worn out in the fiber collecting groove by eg foreign matter present in the fiber aterial, such as eg quartz particles in natural fiber material, or abrasive substances in man-made fibers, such as egtitan oxides. Thus the rotor wall can be weakened pre aturely which can result in bursting of the rotor wall and thus can cause damage to the machine. Progressive wear caus mainly a change of the geometry of the fiber collecting gro predetermined for spinning desired yarn type, over the life of the rotor, and thus impairs the yarn quality.
• Spinning rotors made from unhardened steel thus have not been used in practical production of open end yarns thus far. Rather spinning rotors made from aluminum are in use, the useful life span of which is about 5,000 hours of operation, or spinning rotors provided with wear-reducing coat the life span of which, however is increased to erely abou 10 ' 000 hours of operation.
• Application of the known spinnin rotors thus necessitates exchange of the rotors on the bearings which are not yet worn out, as their life span exceeds the one of the spinning rotors.
• the object is achieved in that the rotor wall made from un-hardened steel is hardened in a locally limited zone maintaining the fiber collecting groove.
• a wear resistance of the fiber collecting groove is achieved, which excludes function-impairing wear of the groove over a period correspönding to about the rotor bearing life span, which in rotors as operated practically at eg 45,000 rpm presently can cover 40,000 operating hours.
• the predefined geometrical form required for spinning a desired yarn is aintained over this ti e span.
• the inventive spinning rotor which with respect to the specific weight of steel is designed with a thin rotor wall, thus not only presents the advantages of the strength of the steel as such, but also presents at its largest inside diameter, ie in the zone, which in the spinning process is subject to maximum wear, a wear resistance, which in other spinning rotors cannot be achieved eg by expensive and complicated coating of the wall; if such coats are worn off at one ' place, the whole rotor becomes unusable immediately due to pitting wear and is to be replaced prematurely with respect to the rotor bearing.
• the inventive spinning rotor provides a live span correspönding to the useful ife span of the rotor bearings as applied today, and which thus is about 5 to 10 times longer than in the spinning rotors used thus far.
• the bearing and the rotor rather can be ordered as a balanced unit from the manufacturer and can be mounted as replacement of anjunit with worn out bearings, without necessity of sending it back to the manufacturer for replacing a worn rotor and re-balancing the completed unit.
• Anunit with the inventive spinning rotor can be discarded by the spinner if the bearing is wor out, as the differe tial in the further life-span of the rot and the bearing is too small to justify an exchange of one of these elements economically.
• the spinning rotor thus can be manufactured from the unhardened steel to its desired shape for use on t open end spinning machine and, after possibly correcting it for roundness, i.e. balancing, in its final geometric shape then can be hardened in the rotor wall zone containing the fiber collecting surface at the largest inside diameter, in which process the finished shape is maintained ow / ing to th partial hardening.
• the hardened metal structure presenting the wear-resistance desired but not influencing the geometrical shape of the ro
• the hardened zone e.g. located in the rotor wall, manufactured from one piece, between unhardened zones and / or the rotor wall zones adjacent to it can be of uniform wall thickness in such manner that uniform heat transport during the hardening process and thus uniform har ing without rotor deformation can be achieved.
• the hardened zone or the spinning rotor can be coated inside and / or outside by rust-proofing medium, which does not i pair the fiber mater during the spinning process, e.g. can be zine-coated.
• Fig. 2 a part of the spinning rotor according to the portion A of Fig. 1 shown enlarged, and in
• FIG. 3 another spinning rotor made from steel for an open end spinning machine shown schematically in a section.
• a spinning rotor 1 made from an unhardened steel la for an. open end spinning machine comprises a base body 2 and a rotor wall 3, which inside the spinning rot ⁇ r 1 is provided with a V-shaped fiber collecting groove 4 with an aperture angle ⁇ C of about 30 to 130 degrees, formed by two legs 5 and 5a intersecting at a largest inside diameter B of the spinning rotor 1 under the angle ⁇ .
• the leg 5a With the leg 5a the rotor wall 3 on one hand side for sa botto wall together with the base body 2 and on the other hand side with the free end of the leg 5 forms a ri 7 of the spinning rotor, which is open on one side.
• the spinning rotor 1 is coaxially mounted onto a shaft 8, by which it is set into rotation.
• the rotor wall 3 is designed for the rotational speeds of the spinning rotor, which as a rule exceed 40,000 rpm, thin walled and with a uniform and constant wall thickness a in both legs 5 and 5a, according to the strength required and to the steel type used eg in the
• ⁇ '"" YT r ength of 1 to 2 mm, preferentially 1.5 mm.
• the spinning rot can be manufactured by machining from a solid piece on a lathe, or by transforming, such as eg compressing, flow-pressing. stamping or similar processes.
• a rotor body, known as such formed from steel sheet metal, of constant w thickness of the rotor bottom wall and the rotor wall can ba applied, which is mounted onto / base body rigidly connected the shaft 8.
• t rotor wall 3 is hardened over the whole circumference arid o the whole cross-section a, in such manner that a hardened metal structure ring with a V-shaped rotation surface C containing the fiber collecting groove 4 is formed.
• the zone 11 bet ween the zones 12 and 12a consisting of unhardened steel extends over the groove bottom 4binto both legs 5 and 5a ov a length of the rotor wall 3 indicated by D, ie with a ri width, which is s aller than the total length of the rotor wall 3 from the rotor rim 7 to the base body 2, in such man that the fiber collecting groove 4 covered by the fiber rin is located within the hardened zone 11 (Fig. 2).
• the width the ring preferentially is chosen such, that it exceeds zon of wall surfaces 4a immediately adjacent to the groove botto and covered by the fiber material, ie that it exceeds at ness E of the fiber ring 9.
• the thicknes and the groove radius R are related. Between the zone 11, pr ferentially containing a hardened metal structure 11a, and zones 12 and 12a each containing an unhardened metal structure la, a confined metal structure transition zone 13 is present, depending on the temperature curve in the steel material during the hardening process.
• the zone ll'extending over the whole circumference as a harde be ned metal structure ring can / produced by inductive hardening; owing to the steep * temperature gradient in the zones outside a sharply limited electrical field well defined transition zones 13 are produced, which eg in a ground cross-section are clearly visible, as well known, by the naked eye.
• Inductive hardening can be effected using ajcompletely closed, but not overlapping, induction coil, which is placed around the portion of the rotor 1 to be hardened, eg around the outer circumference of the rotor 1, in such manner that the zone 11 is treated seamlessly, ie without interruptionbr overlapping.
• the partial hardening of the rotor wall 3 in the zone 11 can be effected eg depending on the type of steel, the wall thickness a, the desired width D of the zone 11, using corre ⁇ spöndingly adapted intensities eg of the high frequency (HF ) or medium frequency (MF) induction hardening within short ti e.
• HF high frequency
• MF medium frequency
• hardened zones can be produced in which the hardened metal structure extends in each leg 5 and 5a from the inside diameter B over a length F of up to 3 mm, whereas using a MF-hardening process eachleg 5 and 5a can be hardened over a length F in the rlinde of 3 to 10 mm from the inside diamond B.
• Hardening of the metal structure also can be effected by electron beam, laser bea, or flame hardening processes.
• the hardening over a desired length F, and thus a desired ring width D thus can be achieved from the outside or from the inside of the rotor, in which later case the hardening also can be effected over a part of the rotor wall thickness.
• steel type preferably a flame hardening steel is used.
• steel types are suitable which are specified by the ISO standard 683 / XII-1972, such as e.g. a Cf45 or a Cf53 steel, or a steel type as specified by the DIN standard No. 17,212, such as e.g. a Cf70 or a 49CrMo4-steel.
• a spinning rotor 14 from unharden steel 14a for an open end spinning machine with a base body 15 is carri on, and rotated by a shaft 16.
• Its rotor wall 17 is of constant v / all thickness, ie of constant cross-section b, whi in a horizontal bottom wall portion 18 is adjacent to the ba body 15, and which is provided with a short leg 19 angled of from there to the outside, and which meets leg 19a angled in the direction of the spinning rotor 14 towards the inside.
• a the meeting point of the legs 19 and 19a again a largest ins diameter G of the spinning rotor 14 is present, at which a fiber collecting groove 20 with an acute aperture angle $ is provided.
• the rotor wall is partially hardened in the zone where the legs 19 and 19a meet, in such 'manner that aga a locall limited, hardened zone 21 is provided, adjacent to which wall portions of the rotor wall 17 made from unhardene steel 14aare provided. If required, the hardened zone 21 can extend over the v / hole length of the short leg 19 and e.g. al

Landscapes

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

Applications Claiming Priority (2)

Publications (1)

Family

ID=4224154

Family Applications (1)

Country Status (19)

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• 1979
  • 1979-02-01 BR BR7906846A patent/BR7906846A/pt unknown
  • 1979-02-01 DE DE792936565A patent/DE2936565A1/de active Pending
  • 1979-02-01 GB GB7932157A patent/GB2036098A/en not_active Withdrawn
  • 1979-02-01 JP JP50041279A patent/JPS55500140A/ja active Pending
  • 1979-02-01 WO PCT/EP1979/000005 patent/WO1979000659A1/de unknown
  • 1979-02-11 IL IL56641A patent/IL56641A/xx unknown
  • 1979-02-12 AT AT0105479A patent/AT372119B/de not_active IP Right Cessation
  • 1979-02-14 NL NL7901186A patent/NL7901186A/nl not_active Application Discontinuation
  • 1979-02-15 AR AR275516A patent/AR220742A1/es active
  • 1979-02-19 IT IT20339/79A patent/IT1111526B/it active
  • 1979-02-19 ZA ZA79747A patent/ZA79747B/xx unknown
  • 1979-02-21 PT PT69263A patent/PT69263A/pt unknown
  • 1979-02-22 AU AU44521/79A patent/AU529171B2/en not_active Ceased
  • 1979-02-22 CS CS791220A patent/CS220323B2/cs unknown
  • 1979-02-23 FI FI790617A patent/FI64955C/fi not_active IP Right Cessation
  • 1979-02-23 CA CA322,142A patent/CA1106246A/en not_active Expired
  • 1979-06-23 BE BE0/193676A patent/BE874424A/xx unknown
  • 1979-09-11 EP EP79900191A patent/EP0009497A1/en not_active Withdrawn
• 1980
  • 1980-01-02 IN IN13/CAL/83A patent/IN151789B/en unknown

Non-Patent Citations (1)

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