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Publication numberUS3577614 A
Publication typeGrant
Publication dateMay 4, 1971
Filing dateNov 10, 1969
Priority dateNov 10, 1969
Also published asDE2055319A1, DE2055319B2, DE2055319C3
Publication numberUS 3577614 A, US 3577614A, US-A-3577614, US3577614 A, US3577614A
InventorsPrice Samuel T
Original AssigneeDu Pont
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Yarn-texturing jet device
US 3577614 A
Abstract  available in
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)

United States Patent 1111 3,577, 14

[72] Inventor Samuel T. Price [56] References Cited wllmmgmn UNITED STATES PATENTS gig- 233 5 2,852,906 9/1958 Breen 5713413 3,363,294 1/1968 Jeurissen et al.. 28/l.4 gli t: 33513 Nemours and Company 3,449,805 6/1969 Lubach 2s/1.4 gn wilhlington Del 3,479,707 11/1969 boveland 28/72.l2

Primary ExaminerMervin Stein Assistant Examiner-Leo Millstein [5 Y Attorney-Norris E. Ruckman 6 Claims, 3 Drawing Figs. [52] US. Cl 28/ 1.4, ABSTRACT: Improved fluid jet yam-texturing devices have a 28/72.l2 nozzle portion which is moved to a stringup position for [51 Int. Cl D02g 3/00 sucking a yarn end through the device and is then returned to [50] Field of Search 28/ 1 .4, a preset operating position for texturing the yarn when strin- 72.12; 57/34 (B), 157 (F) gup has been completed.

PATENTEUHAY 4mm 3577.614

F l G. 1

INVENTOR SAMUEL T. PRICE BY Mam ATTORNEY v l YARN-TEXTURING JET DEVICE BACKGROUND OF THE INVENTION Texturing yarn with jets of gas was initially disclosed in Breen US Pat. No. 2,783,609 dated Mar. 5, 1957. This was accomplished with jet devices having separate yarn and gas passages leading into a body member, and a common exit nozzle for the yarn and gas leaving the body member. The yarn entered through a guiding tube, a hollow needle, and was then carried out of the nozzle in a turbulent stream of gas. By properly positioning the tip of the yam-guiding tube within the entrance into the nozzle, a'suction can be created in the yarn passageway to thread the yarn through the jet device. The automatic threading provided by this adjustment greatly facilitates stringup. However, for most effective texturing, adjustment to a different operating position is generally desirable after the yarn has been threaded through the texturing device.

SUMMARY OF THE INVENTION ln accordance with the present invention, jet devices for texturing yarn are provided which can be quickly and simply adjusted as often as desired to a preset stringup position and back to a preset operating position. In preferred embodiments, means are also provided to facilitate accurate presetting to the optimum positions for different yarn treatments. Other advantages of the invention will become apparent from the disclosure.

The invention is an improvement in yarn-texturing devices of the type having a hollow body member forming a fluid chamber, means for introducing fluid under pressure into the chamber, an exit nozzle from the chamber for fluid and yarn, and a yam-guiding tube extending through the chamber for supplying yarn to the nozzle for texturing; wherein the im provement comprises means for quickly adjusting the nozzle to preset positions relative to the tip of the yam-guiding tube. In one embodiment the nozzle is threaded to the body member and stops are provided to limit the rotation, the nozzle being held in the chosen position by friction of the screw threads. In a second embodiment, the nozzle is mounted in the body member with a sliding fit so that the nozzle can be pushed closer to the yam-guiding tube and will be returned to a preset operating position by a spring. The nozzle can also be hcld'in operating position by fluid pressure alone, without the use of a spring. This second embodiment can provide mounting of the nozzle for rotation to adjust the relative axial positions of the nozzle and yarn-guiding tube.

BRIEF DESCRlPTlON OF THE DRAWINGS DESCRlPTlON OF PREFERRED EMBODIMENTS FIG. 1 illustrates one embodiment of the invention as applied to a conventional type of yarn-texturing device. There LII are three basic components: a hollow body member 1, a nozzle member 2 and a yarn-guiding tube 3.-The initial portion of the yarn tube is enlarged to fit snugly inside the body member, and is held in position by set screw 4. The subsequent portion of the yarn tube is spaced from theinside of the body member to form an annular chamber. and the terminal end of the yarn tube is within a funnel-shaped entrance of nozzle member 2. The annular chamber is supplied with fluid under pressure through passage ll. The fluid passes around the yarn tube into the nozzle member and exits through nozzle passage I4. The nozzle member is threaded onto the body member and may be rotated to adjust the position of the funnel-shaped entrance relative to the end of the yarn tube. Movement of the nozzle member is'limited by a projection 5 contacting stop screws 6 and 7 threaded into the outside of the body at the preset positions. The projection S-may be a pin affixed in the outer edge of the nozzle member. Holes may be provided at various positions around the body member so that screws 6 and 7 may be moved to adjust the range of ,rotation of the nozzle member. The pitch of the screw thread is selected to give the desired amount of axial movement within the limits of rotation permitted by the screws. Sufficient friction is provided between the nozzle member and the body to resist undesired rotational movement away from a given position.

FIGS. 2 and 3 illustrate an embodiment of the invention wherein the nozzle member 2 has a sliding fit in the body member 1 so that it can be pushed into the body to a stringup position and then returned to a preset operating position. The nozzle member is also mounted for rotationwithin preset limits. The body member has a cylindrical inner surface. The nozzle member has a cylindrical outer portion which slides easily into the body but does not leak gas appreciably at the joint between the two. lnward motion of the nozzle member is limited by a collar 12 which overlaps the end of the body. Openings 15 are provided in the collar for stop screws 9 which are threaded into holes 16 in the body. A spring 10 holds the nozzle member outward against the screws during operation. By pushing the nozzle into the body a suction is created through the yarn tube 3 which facilitates stringup. When released, the nozzle is returned to the limit of outward movement determined by the setting of the stop screws 9.

The openings 15 can be in the form of slots, as shown in FIG. 3, so that the nozzle can be rotated. This is of particular advantage when the passage 14 is axially offset in the nozzle as illustrated. Additional screws 9 may be provided to limit the extent of rotation as desired. The length of the slots can also be varied. I

The spring 10 is not essential when the fluid introduced through passage 11 has sufficient pressure to hold the nozzle outward in the operating position. A variety of nozzles can be used instead of the one shown, which has a funnel-shaped converging section followed by a diverging section. Other yarn tubes can also be used. The yarn tube 3 shown in FIG. 2 has an enlarged initial portion, of greater length than the one shown in FIG. I, with a flat section 8 machined on one side for fluid to pass along that side only from the passage 11 to the annular chamber adjacent the tip of the yarn tube.

The jets of this invention may be adjusted, using measuring tools or setting fixtures, to assure that all jets used for a par ticular yarn type are fixed in the same dimensional positions to provide the same air flow conditions and that such settings can be repeated each time a particular type of yarn is to be run. As an example of one method for presetting a jet, nozzle member 2 is moved inward as far as possible toward the needle 3. Set

screw 4 is loosened and yarn tube 3 is positioned longitudinally with respect to the entrance of the nozzle to provide satisfactory aspiration so that yarn will be drawn through the tube 3 during stringup. The position of any asymmetric feature such as flat 8, if present, is also aligned radially with respect to air pipe 11. Set screw 4 is then tightened to hold the yarn tube in position. Nozzle member 2 is then moved to its farthest position away from the yarn tube and screws 7 or 9 are positioned to provide the optimum operating condition.

One type of yarn tube asymmetry has been shown as the flat 8 on the yarn entry tube 3. in other instances, the conical tip 17 of the yarn tube may be eccentric, or the yarn passage 13 may be eccentric within the nozzle entrance. The passage 14 in the nozzle may also be asymmetric or eccentric.

One advantage of all jets of this invention lies in the reduced number of hand motions and time required to string up the apparatus. Such savings, multiplied by many texturingpositions and hours of operation, can result in substantial increases in operator productivity. When a jet is mounted on a texturing machine, an operator moves nozzle member 2 into strin'gup position, introduces the yarn into the funnel-shaped entrance to yarn tube 3, and catches the emerging yarn in the same operator proceeds immediately to string up further elements of the machinery.

In contrast, movement of the yarn tube would require the operator to hold the yarn in one hand and the yarn tube in aspirating position with the other hand at the entry end of the jet, so that yarn-aspirated through the jet blows out the exit end an indefinite distance to become entangled in machine parts if any are near the jet exit, requiring extra time to remove the tangle. The operator would thenrelease the yarn tube and move the hand to the jet exit, gather up the waving end of yarn, and then proceed with the string up of further machine elements.

An additional advantage of all jets of this invention is the ease with which an inventory of various sizes and types of interchangcable yarn .tubes and nozzle members designed for optimum processing of yarns of various denicrs and materials may be set to predetermined positions by means of measuring devices or setting fixtures.

An advantage of jets of this invention having an asymmetric or eccentric yarn tube is the ease and-precision with which the tube may be positioned in precise rotational relationship to the fluid passage 11, or to the direction in which the yam bends as it leaves the fluid stream abruptly near the jet exit, or to the rotational position of any asymmetric or eccentric feature of the nozzle member. ln case both the yarn tube and the nozzle have asymmetric or eccentric features, such features may be set in precise relationship to each other.

lclaim: 1. An improvement in yarn-texturing jet devices comprised of a hollow body member forming a'fluid chamber, means for introducing fluid under pressure into the chamber, an exit nozzle from the chamber for fluid and yarn, and a yarn-guiding tube extending through the body chamber for supplying yarn to the nozzle for texturing; wherein the improvement comprises a movable nozzle member mounted on said body member for movement from an operating position to a stringup position closer to the end of the yarn-guiding tube and for movement back to the operating position, and means for stopping movement of the nozzle member at a preset operating position. A

2. A jet device as defined in claim '1' wherein the means for stopping movement of the nozzle member comprises adjustable stop members to preset operating positions for different yarns. I

3. A jet device as defined in claim 1 wherein the nozzle member is threaded onto the body member for rotation to stringup and operating positions, and the means for stopping movement comprises an adjustable stop member for engaging a projection on the nozzle member at a preset limit of rotation.

4. Ajet device as defined in claim 1 wherein the nozzle member comprises a portion sliding into the body member and a collar portion overlapping the end of the body member for stopping movement at the stringup position, and the means for stopping movement at the operating position comprises stop members projecting through openings in said collar portion and secured in the body member.

5. A jet device as defined in claim 4 wherein said openings in the collar portion are slots for rotation of the nozzle member.

6. :A jet device as defined in claim 4 comprising spring means for returning the nozzle member to the operating position after the nozzle member has been pushed into the stringup position in the body member.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2852906 *Aug 20, 1953Sep 23, 1958Du PontMethod and apparatus for producing bulky continuous filament yarn
US3363294 *Dec 15, 1965Jan 16, 1968American Enka CorpSelf-closing tangling jet apparatus
US3449805 *Jan 3, 1967Jun 17, 1969Enterprise Machine & DevApparatus for treating yarn
US3479707 *Aug 2, 1967Nov 25, 1969Us Textile Mach CoJet fiber texturizer
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3745617 *Mar 6, 1972Jul 17, 1973Monsanto CoApparatus for bulking yarn
US3863309 *Jan 25, 1974Feb 4, 1975Enterprise Machine & DevYarn texturing air jet
US4041583 *May 20, 1976Aug 16, 1977E. I. Du Pont De Nemours And CompanyYarn texturing jet
US4095320 *Mar 9, 1977Jun 20, 1978Enterprise Machine And Development CorporationYarn texturing air jet
US4259768 *Jan 30, 1980Apr 7, 1981E. I. Du Pont De Nemours And CompanyYarn texturing jet
US4282637 *Sep 21, 1978Aug 11, 1981Snia Viscosa Societa' Nazionale Industria Applicazioni Viscosa S.P.A.Nozzle for the texturization of yarns
US4314391 *Dec 26, 1979Feb 9, 1982Akzona IncorporatedYarn bulking jet
US4346504 *Jul 11, 1980Aug 31, 1982Hoechst Fibers IndustriesYarn forwarding and drawing apparatus
US4356604 *Jan 30, 1981Nov 2, 1982Basf Farben & Fasern AgProcess for threading up a rapidly travelling thread in a texturizing nozzle
US4492009 *Sep 29, 1983Jan 8, 1985E. I. Du Pont De Nemours And CompanyYarn texturing jet
US4547938 *Nov 5, 1984Oct 22, 1985E. I. Du Pont De Nemours And CompanyYarn texturing jet
US5140729 *Aug 24, 1990Aug 25, 1992Heberlein Maschinenfabrik AgDevice for blow-texturing at least one multifilament yarn
US5231743 *Jul 31, 1992Aug 3, 1993E. I. Du Pont De Nemours And CompanyYarn texturing jet with automatic string-up
US5976453 *Jun 29, 1998Nov 2, 1999Owens-Corning Sweden AbDevice and process for expanding strand material
US6170302Sep 30, 1998Jan 9, 2001Ethicon, Inc.Method and apparatus for continuously cleaning yarn fibers
US6383229Dec 14, 2000May 7, 2002Ethicon, Inc.Method and apparatus for continuously cleaning yarn fibers
US8474115Aug 28, 2009Jul 2, 2013Ocv Intellectual Capital, LlcApparatus and method for making low tangle texturized roving
US8726474 *Jan 19, 2010May 20, 2014Oerlikon Heberlein Temco Wattwil AgTexturing device and method for texturing continuous yarns
US20110047768 *Aug 28, 2009Mar 3, 2011Huff Norman TApparatus And Method For Making Low Tangle Texturized Roving
US20110277285 *Jan 19, 2010Nov 17, 2011Oerlikon Heberlein Temco Wattwil AgTexturing Device and Method For Texturing Continuous Yarns
DE2817478A1 *Apr 21, 1978Oct 31, 1979Basf Farben & FasernVerfahren und vorrichtung zum einfaedeln von schnellaufenden faeden in eine texturierduese
DE2935366A1 *Sep 1, 1979Mar 26, 1981Barmag Barmer MaschfTexturising jet threading - has the jet moved to a suction unit for yarn to be drawn in
DE3435755A1 *Sep 28, 1984Apr 18, 1985Du PontGarntexturierduese
EP0033524A2 *Jan 30, 1981Aug 12, 1981E.I. Du Pont De Nemours And CompanyYarn texturing jet
EP0181685A2 *Aug 28, 1985May 21, 1986E.I. Du Pont De Nemours And CompanyYarn texturing jet
U.S. Classification28/272, 28/273
International ClassificationD02G1/16
Cooperative ClassificationD02G1/161
European ClassificationD02G1/16B