EP0403801A1 - Open-end rotor spinning device - Google Patents
Open-end rotor spinning device Download PDFInfo
- Publication number
- EP0403801A1 EP0403801A1 EP90109363A EP90109363A EP0403801A1 EP 0403801 A1 EP0403801 A1 EP 0403801A1 EP 90109363 A EP90109363 A EP 90109363A EP 90109363 A EP90109363 A EP 90109363A EP 0403801 A1 EP0403801 A1 EP 0403801A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- guide body
- spinning rotor
- rotor
- spinning
- fibres
- 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.)
- Granted
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- 238000007383 open-end spinning Methods 0.000 title claims abstract description 12
- 238000009987 spinning Methods 0.000 claims abstract description 94
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- BQCADISMDOOEFD-UHFFFAOYSA-N Silver Chemical compound [Ag] BQCADISMDOOEFD-UHFFFAOYSA-N 0.000 description 4
- 229910052709 silver Inorganic materials 0.000 description 4
- 239000004332 silver Substances 0.000 description 4
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- 238000009960 carding Methods 0.000 description 2
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- 238000012545 processing Methods 0.000 description 1
- 239000000047 product Substances 0.000 description 1
- 239000002994 raw material Substances 0.000 description 1
- 238000007378 ring spinning Methods 0.000 description 1
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- 230000008093 supporting effect Effects 0.000 description 1
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Images
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
Definitions
- the invention relates to an open-end rotor spinning device comprising a one-sidedly opening spinning rotor, a positively driven guide body in the form of a ring, tube, or the like, which enters by its rear end coaxially the spinning rotor and whose inner wall serves for depositing supplied fibres, for supportingly guiding and finally delivering them to the spinning rotor, further an immovable covering body which is associated with the front end of the guide body and through which a guide tube or duct extends for supplying fibres to the inner wall of said guide body, and a take-off duct or tube which extends through the axis of the spinning rotor or that of the covering body and which serves for withdrawing yarn out of the spinning rotor, there being provided between the spinning rotor and the guide body an annular spacing through which the communicating spaces of the spinning rotor and the guide body are connected to a first sucking unit.
- the fibres get on to the wall of the spinning rotor and are entrained into its interior where they are deposited, taken on the end of yarn being built, and withdrawn therefrom in yarn form.
- the fibres are temporarily supported by the inner wall of the guide body so that they are straightened whereby the quality of final yarn product is positively influenced.
- a disadvantage of the above device resides in that it does not allow a wide assortment of yarns from cotton fibres and synthetic cotton-type fibres to be manufactured; actually, there are concerned only the so called carded yarn sorts /14.5 to 100, or 166 tex count/for the manufacture of which relatively short and coarse fibres are used. Admittedly, if using finer fibres it is possible to approach even the count range of the so called combed yarn sorts but the final product does not reach the desired quality. It is why such combed yarns /of from 5 to 14.5 tex/ are manufactured exclusively in ring spinning frames from relatively long and fine fibres.
- an air discharge hole through which the communicating spaces of the spinning rotor and the guide body are connected either to a second sucking unit, there being arranged at least in front of the first sucking unit an air regulating member or at least the first sucking unit having a selectable sucking output, or also to said first sucking unit but in parallel to the annular spacing between the spinning rotor and the guide body, the air regulating members being associated with said annular spacing and the air discharge hole.
- the process of withdrawing short fibres of exactly predetermined length and of leaving longer fibres of desired length in the spinning process can be effected by adjusting the revolution rates of the spinning rotor and the guide body in a ratio. It is to be noted that the ejected short fibres do not practically mean any production loss, since they can be used for further processing as, for instance, to yarns of another sort.
- the fact that almost all air volume leaves the communicating spaces of the spinning rotor and the guide body at the side of front end of the guide body is also advantageous in that the air flows from the guide duct to the air discharge hole on a short path so that it cannot influence in any way the advance of fibres toward the spinning rotor and the process of fibre depositing in its interior.
- the air discharge hole can be made as a through hole which is provided in the covering body and whose inlet portion at the inner side of said covering body has the form of at least a part of annular cavity and extends in peripheral direction along the inner marginal portion of said guide body, or as an annular gap between the guide body and the covering body.
- a labyrinth packing should preferably be provided between the front end of the guide body and the covering body, the packing serving for perfectly separating the inlet portion of said through hole from the ambient atmosphere so that no air losses occur.
- the spinning station or unit forming one consituent of the device according to the invention can be - except for some modifications due to the new system of sucking air off the communicating spaces of the spinning rotor and the guide body - of a usual construction.
- a conventional open-end rotor spinning machine from a plurality of such units and an air sucking system therefor, the system comprising either a first and a second air sucking system, or the first sucking system only.
- the spinning rotor 2 of the spinning unit 1 is fixed onto a driven shaft 3 which is mounted for rotation in a bearing bush 4 received for reciprocation in a bushing portion 5 of a rotor box 6 and secured therein by a fastening bolt 7.
- the spinning rotor 2 has the form of a shallow dish with a flat circular bottom 8, a rounded mouth 9 of a smaller diameter than said bottom 8, and an inner wall 10 outstanding from the bottom 8 and conically tapering toward the mouth 9.
- the bottom 8 and the wall 10 form together a fibre collecting channel.
- the rotor box 6 surrounding, at a radial distance, the spinning rotor 2 is provided at its front, also open side with a recess 1 coaxial to the spinning rotor 2, in which a rotary, positively driven guide body 13 is received and mounted by means of an antifriction radial bearing 12.
- the guide body 13 has the form of an annulus and is provided, at its rear end 14 facing the spinning rotor 2, with a frontal circular recess 15 by which said rear end 14 is radially divided into an inner and an outer portion 16 and 17, respectively; the inner portion 16 is disposed in the mouth 9 of the spinning rotor 2 while the outer portion 17 outside said mouth.
- This inner air space 19 is confined, at the side of the rotor box 6, by its rear wall 20, an annular projection 21 provided in a radial plane with said outer portion 17 of the rear end 14 of the guide body 13 as a sealing partition, and by an inner peripheral wall 22 between said rear wall 20 and said annular projection 21, and communicates via hole 23 with a first sucking pipeline 24.
- the inner wall 25 of the guide body 13 has the form of the lateral area of a cone, its minimum diameter being at the side of front end 26 of the guide body 13.
- the rotor box 6 is covered by a removable but otherwise immovable covering body 27 the inner wall 28 of which is spaced apart at a very small distance from the front end 26 of the guide body 13.
- the device is provided with an air discharge hole constituted by a through hole 29 leading in radial direction to an extended axis X of revolution of the guide body 13 through the body 27, and connected to a second sucking pipeline 30.
- the inlet portion 31 of said pipeline 30 has the form of an annular cavity and extends in peripheral direction along an inner marginal portion 32 of the guide body 13 as it is apparent from Figure 2.
- the through hole 29 can be provided in a tubular member inserted into the covering body 27. Such an embodiment is not shown in the drawings.
- FIG. 3 Another embodiment of the air discharge hole is shown in Figure 3. It consists of an annular gap 33 between the inner marginal portion 32 of the guide body 13 and a peripheral surface 34 of the conical projection 35 provided on the inner wall 28 of said covering body 27, the projection being disposed in the front end 26 of the guide body 13. Also in this embodiment there is provided in the covering body 27 the same through hole 29 as shown in Figure 1.
- the inlet portion 31 of said hole 29, however, has the form of a complete annular cavity and is an immediate proximity of said conical projection 35.
- a labyrinth packing 36 consisting, as shown in Figure 1, of an annular projection 37 provided on the inner wall 28 of the covering body 27 and of a corresponding recess 38 on the facing front surface of the front end 26 of the guide body 13. It, however, is to be understood that the packing elements can be arranged in a reversed, or any other alternative embodiment, provided they exhibit a desired, air penetration preventing effect.
- a guide tube 40 for supplying fibres 39 to the inner wall 25 of the guide body 13 extends through the covering body 27; alternatively, if the conical projection 35 is provided on the inner wall 28 of said body 27 - as hereinabove set forth - the guide tube 40 can be replaced by a guide duct 41 /Fig. 3/. In every case, however, also a take-off tube 42 extends through the covering body 27, through which yarn 43 is withdrawn out of the spinning rotor 2.
- the air sucking system as shown in Figure 1 is a central system for a plurality of spinning stations 1; it comprises a first main conduit 44 which is connected to a first sucking unit 45 with an upstream filtering element 46 and into which enters the first sucking pipeline 24 leading from the individual spinning stations 1.
- a second main conduit 47 is connected to a second sucking unit 48 into which the second sucking pipeline 30 opens; the latter leads also from the individual spinning stations 1.
- the two sucking units 45, 48 and the filtering element 46 can be of any structure which is usual for textile machines with air sucking regimes.
- air regulating members 49, 50 In front of the two sucking units 45, 48 there are arranged air regulating members 49, 50, respectively, e.g. in the form of a valve which, however, can be omitted if installing sucking units 45, 48 with selectable sucking output.
- Figure 4 shows also an alternative central air sucking system comprising the first main conduit 44 and the second main conduit 47 which are connected together at their homothetic ends to form a central duct 51 which is then connected to the first sucking unit 45 with upstream filtering element 46.
- the first sucking pipeline 24 enters the first main conduit 44, and the second sucking pipeline 30 the second main conduit 47.
- the air regulating members 49 and 50 are associated with the annular spacing 18 between the spinning rotor 2 and the guide body 13, and with the through hole 29 in the covering body 27, and are disposed at the ends of said first main conduit 44 and the second main conduit 47, respectively.
- the filtering element 46 can alternatively be installed in the first main conduit 44 in front of the respective air regulating member 50 as indicated in Fig.4 by dash contours.
- Fibres 39 are supplied, under assistance of air flow, from a fibre opening device /not shown/ in which they are separated from a fibrous silver, and particularly a carded, or drafted silver. After engaging the inner wall 25 of the guide body 13, the fibres 39 are caused, by the action of centrifugal forces, to advance on this inner wall 25 toward the spinning rotor. Before, however, reaching the wall 10 of the spinning rotor 2, they have first to overcome the annular spacing 18 between the spinning rotor 2 and the guide body 13.
- Such fibres 39 /hereinafter referred to as "short fibres 52"/ are then easily entrained by air escaping through the annular spacing 18 between the spinning rotor 2 and the guide body 13 and withdrawn outside the spinning rotor 2 whereas the remaining longer fibres 53 follow undisturbed their way to said spinning rotor 2. Accordingly, it is made possible, within every predetermined ratio between revolutions rates of the spinning rotor 2 and the guide body 13, to withdraw or eject short fibres 52 of a quite definite length and to leave the longer fibres 53 in the spinning process to be processed to yarn of a desired kind and quality.
- the exact length of fibres 52 to be ejected can also be controlled by adjusting the size of annular spacing 18 between the spinning rotor 2 and the guide body 13. After loosening the bolt 7 securing the bearing bush 4 for the shaft 3 of the spinning rotor 2, both the rotor and the bush can be axially displaced into desired positions wherein the bearing bush 4 can be fastened again by said bolt 7. It, however, has been found out that the size of said annular spacing 18 can be, in many cases, adjusted once for ever.
- Figure 5 shows successive positions of one and the same short fibre 52.
- a short fibre 52 takes on its trajectory S a first position P1 on the inner wall 25 of said guide body 13, then a second position P2 in the section U between the inner wall 25 of the guide body 13 and the wall 10 of the spinning rotor 2, a third position P3 in the annular spacing 18 between the spinning rotor 2 and the guide body 13, and a fourth position P4 in the inner air space 19 of the rotor box 6.
- the corresponding positions P1, P2 and P3 of the short fibre 52 are shown in Figure 6.
- the annular spacing 18 between the spinning rotor 2 and the guide body 13 can be adjusted to cause short fibres 52 of e.g. 20 mm length to be ejected while the remaining, longer fibres 53 are then processed to a fine combed yarn 43
- the ejected short fibres 52 accumulated in the filtering element can be then processed to another type of yarns, or fabrics. Since a very pure "waste" is concerned, the short fibres 52 can be returned to the carding machine, and after drafting them on a drawing frame, it is possible to process them to carded yarn sorts, and particularly in the conventional open-end rotor spinning machine, or in the device of the invention.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Textile Engineering (AREA)
- Spinning Or Twisting Of Yarns (AREA)
Abstract
Description
- The invention relates to an open-end rotor spinning device comprising a one-sidedly opening spinning rotor, a positively driven guide body in the form of a ring, tube, or the like, which enters by its rear end coaxially the spinning rotor and whose inner wall serves for depositing supplied fibres, for supportingly guiding and finally delivering them to the spinning rotor, further an immovable covering body which is associated with the front end of the guide body and through which a guide tube or duct extends for supplying fibres to the inner wall of said guide body, and a take-off duct or tube which extends through the axis of the spinning rotor or that of the covering body and which serves for withdrawing yarn out of the spinning rotor, there being provided between the spinning rotor and the guide body an annular spacing through which the communicating spaces of the spinning rotor and the guide body are connected to a first sucking unit.
- In a known device of the above-described kind and properties disclosed in the German Published Application No. 2,126,841 /DE-OS/, separated fibres are supplied to the inner wall of the guide body by means of air flowing through the guide duct into the communicating spaces of the spinning rotor and the guide body and therefrom out through the annular spacing between the spinning rotor and the guide body. Since the guide body rotates, the fibres advance, due to the action centrifugal forces, on the inner wall of said body toward the spinning rotor which rotates in the same direction as the guide body but faster. Finally, the fibres get on to the wall of the spinning rotor and are entrained into its interior where they are deposited, taken on the end of yarn being built, and withdrawn therefrom in yarn form. As being entrained into the spinning rotor, the fibres are temporarily supported by the inner wall of the guide body so that they are straightened whereby the quality of final yarn product is positively influenced.
- A disadvantage of the above device resides in that it does not allow a wide assortment of yarns from cotton fibres and synthetic cotton-type fibres to be manufactured; actually, there are concerned only the so called carded yarn sorts /14.5 to 100, or 166 tex count/for the manufacture of which relatively short and coarse fibres are used. Admittedly, if using finer fibres it is possible to approach even the count range of the so called combed yarn sorts but the final product does not reach the desired quality. It is why such combed yarns /of from 5 to 14.5 tex/ are manufactured exclusively in ring spinning frames from relatively long and fine fibres. Such a process, however, has to be preceded by relatively complicated and expensive preparatory steps; the carding step is usually followed by quadruple draft on three drawing frames and by doubling on a silver doubler, or, alternative, a shortened method of double draft is availed of, and particularly on one drawing frame, followed by silver doubling. The thus arising lap is then supplied to a combing machine whereupon it is subjected to double to triple drafting step - Waste ejected from the combing machine - the so called noils - are ordinarily used for manufacturing vigogne yarns.
- It is an object of the present invention to take such measures with the device of the above-described type and properties that make it possible, on the one hand, to manufacture first-grade yarns of combed character from fibres suitable for spinning combed yarns without preceding combing step followed by drafting, or, on the other hand, yarns of combed character at least within the count range of combed yarns, including also coarser combed yarns, from fine fibres suitable for spinning carded yarns.
- To meet this object, there is provided at the side of front end of the guide body an air discharge hole through which the communicating spaces of the spinning rotor and the guide body are connected either to a second sucking unit, there being arranged at least in front of the first sucking unit an air regulating member or at least the first sucking unit having a selectable sucking output, or also to said first sucking unit but in parallel to the annular spacing between the spinning rotor and the guide body, the air regulating members being associated with said annular spacing and the air discharge hole. These measures, namely, enable the air flow values or rates in the device to be adjusted in such a way that almost all the air volume serving for supplying the fibres, leaves the inner spaces of the spinning rotor and the guide body through the air discharge hole at the side of front end of the guide body, while only a small air portion escapes through the annular spacing between the spinning rotor and the guide body. By means of air escaping from said communicating inner spaces of the spinning rotor and the guide body through the annular space between said two elements, short fibres of selectable length are then ejected outside the spinning rotor while the remaining, longer fibres are spun in the spinning rotor to yarn of the desired kind and quality, viz. yarn of combed character. The process of withdrawing short fibres of exactly predetermined length and of leaving longer fibres of desired length in the spinning process can be effected by adjusting the revolution rates of the spinning rotor and the guide body in a ratio. It is to be noted that the ejected short fibres do not practically mean any production loss, since they can be used for further processing as, for instance, to yarns of another sort.
- It, however, is also possible to adjust the afore-mentioned ratio between the revolution rates of the spinning rotor and the guide body as well as the air flow rate in the annular spacing between said two elements in such a manner that any portion of fibres supplied to the spinning rotor is not withdrawn or ejected. This means that the device can operate as the conventional open-end spinning machine and that it is capable of producing a wider yarn assortment. Apart from this, the fact that almost all air volume leaves the communicating spaces of the spinning rotor and the guide body at the side of front end of the guide body, is also advantageous in that the air flows from the guide duct to the air discharge hole on a short path so that it cannot influence in any way the advance of fibres toward the spinning rotor and the process of fibre depositing in its interior.
- Actually, the air discharge hole can be made as a through hole which is provided in the covering body and whose inlet portion at the inner side of said covering body has the form of at least a part of annular cavity and extends in peripheral direction along the inner marginal portion of said guide body, or as an annular gap between the guide body and the covering body. If the air discharge hole is through hole as hereinabove set forth, a labyrinth packing should preferably be provided between the front end of the guide body and the covering body, the packing serving for perfectly separating the inlet portion of said through hole from the ambient atmosphere so that no air losses occur.
- For every case, however, it is advisable according to the invention, when a filtering element for retaining and collecting fibres is associated with the annular spacing between the spinning rotor and the guide body.
- Some preferred embodiments of the open-end rotor spinning device according to the present invention will hereinafter be described with reference to the accompanying schematic drawings in which
- Fig. 1 is a general sectional view of one spinning unit or station equipped with an air sucking system;
- Fig. 2 is a top view showing the inner side of the covering body shown in Figure 1;
- Fig. 3 is a detail view of the spinning station together with an alternative embodiment of the air discharge hole, all in section;
- Fig. 4 is an alternative embodiment of air sucking system;
- Fig. 5 is a detailed sectional view showing the region of annular spacing between the spinning rotor and the guide body as well as trajectories of short fibres;
- Fig. 6 is a view in the direction of arrow P in Figure 5 but turned through an angle of 90o; and
- Fig. 7 is a view corresponding to that shown in Figure 5 but indicating trajectories of long,i.e. spinnable fibres.
- The spinning station or unit forming one consituent of the device according to the invention can be - except for some modifications due to the new system of sucking air off the communicating spaces of the spinning rotor and the guide body - of a usual construction. In the same way it is possible to assemble a conventional open-end rotor spinning machine from a plurality of such units and an air sucking system therefor, the system comprising either a first and a second air sucking system, or the first sucking system only.
- As can be seen in the drawings, and particularly Figure 1 thereof, the
spinning rotor 2 of thespinning unit 1 is fixed onto a drivenshaft 3 which is mounted for rotation in abearing bush 4 received for reciprocation in abushing portion 5 of arotor box 6 and secured therein by a fasteningbolt 7. - The
spinning rotor 2 has the form of a shallow dish with a flatcircular bottom 8, arounded mouth 9 of a smaller diameter than saidbottom 8, and aninner wall 10 outstanding from thebottom 8 and conically tapering toward themouth 9. Thebottom 8 and thewall 10 form together a fibre collecting channel. - The
rotor box 6 surrounding, at a radial distance, thespinning rotor 2 is provided at its front, also open side with arecess 1 coaxial to thespinning rotor 2, in which a rotary, positively drivenguide body 13 is received and mounted by means of an antifriction radial bearing 12. Theguide body 13 has the form of an annulus and is provided, at itsrear end 14 facing thespinning rotor 2, with a frontalcircular recess 15 by which saidrear end 14 is radially divided into an inner and anouter portion inner portion 16 is disposed in themouth 9 of thespinning rotor 2 while theouter portion 17 outside said mouth. Since, however, thespinning rotor 2 is somewhat spaced apart from theguide body 13 in axial direction, there arises between themouth 9 of thespinning rotor 2 and saidportions rear end 14 of theguide body 13, including the transition between said portions, anannular spacing 18 which connects the communicating spaces of thespinning rotor 2 and theguide body 13 together with aninner air space 19 of therotor box 6. Thisinner air space 19 is confined, at the side of therotor box 6, by itsrear wall 20, anannular projection 21 provided in a radial plane with saidouter portion 17 of therear end 14 of theguide body 13 as a sealing partition, and by an innerperipheral wall 22 between saidrear wall 20 and saidannular projection 21, and communicates viahole 23 with afirst sucking pipeline 24. - The
inner wall 25 of theguide body 13 has the form of the lateral area of a cone, its minimum diameter being at the side offront end 26 of theguide body 13. - The
rotor box 6 is covered by a removable but otherwise immovable coveringbody 27 theinner wall 28 of which is spaced apart at a very small distance from thefront end 26 of theguide body 13. - As it is shown in Figure 1, the device is provided with an air discharge hole constituted by a
through hole 29 leading in radial direction to an extended axis X of revolution of theguide body 13 through thebody 27, and connected to asecond sucking pipeline 30. Theinlet portion 31 of saidpipeline 30 has the form of an annular cavity and extends in peripheral direction along an innermarginal portion 32 of theguide body 13 as it is apparent from Figure 2. In some cases, however, thethrough hole 29 can be provided in a tubular member inserted into the coveringbody 27. Such an embodiment is not shown in the drawings. - Another embodiment of the air discharge hole is shown in Figure 3. It consists of an
annular gap 33 between the innermarginal portion 32 of theguide body 13 and aperipheral surface 34 of theconical projection 35 provided on theinner wall 28 of said coveringbody 27, the projection being disposed in thefront end 26 of theguide body 13. Also in this embodiment there is provided in the coveringbody 27 the same throughhole 29 as shown in Figure 1. Theinlet portion 31 of saidhole 29, however, has the form of a complete annular cavity and is an immediate proximity of saidconical projection 35. - Owing to the provision of through
holes 29 in both of the afore-described embodiments there is installed between thefront end 26 of theguide body 13 and the covering body 27 alabyrinth packing 36 consisting, as shown in Figure 1, of anannular projection 37 provided on theinner wall 28 of the coveringbody 27 and of a corresponding recess 38 on the facing front surface of thefront end 26 of theguide body 13. It, however, is to be understood that the packing elements can be arranged in a reversed, or any other alternative embodiment, provided they exhibit a desired, air penetration preventing effect. - As can be seen in Figure 1, a
guide tube 40 for supplyingfibres 39 to theinner wall 25 of theguide body 13 extends through the coveringbody 27; alternatively, if theconical projection 35 is provided on theinner wall 28 of said body 27 - as hereinabove set forth - theguide tube 40 can be replaced by aguide duct 41 /Fig. 3/. In every case, however, also a take-off tube 42 extends through the coveringbody 27, through whichyarn 43 is withdrawn out of thespinning rotor 2. - The air sucking system as shown in Figure 1 is a central system for a plurality of
spinning stations 1; it comprises a firstmain conduit 44 which is connected to afirst sucking unit 45 with anupstream filtering element 46 and into which enters thefirst sucking pipeline 24 leading from theindividual spinning stations 1. A secondmain conduit 47 is connected to a second suckingunit 48 into which thesecond sucking pipeline 30 opens; the latter leads also from theindividual spinning stations 1. The two suckingunits filtering element 46 can be of any structure which is usual for textile machines with air sucking regimes. In front of the two suckingunits air regulating members sucking units - Figure 4 shows also an alternative central air sucking system comprising the first
main conduit 44 and the secondmain conduit 47 which are connected together at their homothetic ends to form acentral duct 51 which is then connected to thefirst sucking unit 45 withupstream filtering element 46. Also thefirst sucking pipeline 24 enters the firstmain conduit 44, and thesecond sucking pipeline 30 the secondmain conduit 47. Theair regulating members annular spacing 18 between thespinning rotor 2 and theguide body 13, and with the throughhole 29 in the coveringbody 27, and are disposed at the ends of said firstmain conduit 44 and the secondmain conduit 47, respectively. In this case, thefiltering element 46 can alternatively be installed in the firstmain conduit 44 in front of the respectiveair regulating member 50 as indicated in Fig.4 by dash contours. - Irrespective of the embodiment of the air discharge hole as shown in Figures 1, or 2, and of the air sucking system according to Figures 1, or 4, the process of manufacturing yarns of combed character in the device of the invention takes place as follows:
- Depending on the adjustment of operation parameters, including the size of
annular spacing 18 between thespinning rotor 2 and theguide body 13, the two latter elements rotate in the same direction; however, theguide body 13 rotates slower than the spinning rotor but, on the other hand, faster than is the velocity ofair supplying fibres 39 to theinner wall 25 ofsaid body 13. Simultaneously, almost all of the volume of fibre carrying air which enters the communicating inner spaces of the spinningrotor 2 and theguide body 13 leaves said spaces at the side offront end 26 of saidbody 13 whereas only a small, remaining air portion escapes through theannular spacing 18 between the spinning rotor and the guide body. -
Fibres 39 are supplied, under assistance of air flow, from a fibre opening device /not shown/ in which they are separated from a fibrous silver, and particularly a carded, or drafted silver. After engaging theinner wall 25 of theguide body 13, thefibres 39 are caused, by the action of centrifugal forces, to advance on thisinner wall 25 toward the spinning rotor. Before, however, reaching thewall 10 of the spinningrotor 2, they have first to overcome theannular spacing 18 between the spinningrotor 2 and theguide body 13. So thefibres 39 are exposed to the action of air flow escaping through saidannular spacing 18 whereby thefibres 39 leaving theinner wall 25 of theguide body 13, change abruptly their course to a peripheral one as indicated, for better understanding, in Figures 5 and 7 by angles A and B. Thus their trajectory S between theinner wall 25 if theguide body 13 and thewall 10 of the spinningrotor 2 has a section U /Fig. 6/ in which fibres the length of which is smaller than that of said section, may get airborne, which means that no one of their portions comes into contact either with theinner wall 25 of theguide body 13, or with thewall 10 of the spinningrotor 2. -
Such fibres 39 /hereinafter referred to as "short fibres 52"/ are then easily entrained by air escaping through theannular spacing 18 between the spinningrotor 2 and theguide body 13 and withdrawn outside the spinningrotor 2 whereas the remaininglonger fibres 53 follow undisturbed their way to said spinningrotor 2. Accordingly, it is made possible, within every predetermined ratio between revolutions rates of the spinningrotor 2 and theguide body 13, to withdraw or ejectshort fibres 52 of a quite definite length and to leave thelonger fibres 53 in the spinning process to be processed to yarn of a desired kind and quality. It is to be noted that the process of entraining and withdrawingshort fibres 52 does not lay extreme claims on power; it, however, has been ascertained that it is sufficient when the speed of air flow escaping through theannular spacing 18 between the spinningrotor 2 and theguide body 13 does not exceed 30 metres per second. On the contrary, higher speed lead not only to power losses but also, especially, to the ejection ofshort fibres 52 having a greater length than it is desired. Actual values of these air velocities are usually adjusted empirically by means of air sucking regulation. - Apart from the above described manner, the exact length of
fibres 52 to be ejected can also be controlled by adjusting the size ofannular spacing 18 between the spinningrotor 2 and theguide body 13. After loosening thebolt 7 securing the bearingbush 4 for theshaft 3 of the spinningrotor 2, both the rotor and the bush can be axially displaced into desired positions wherein the bearingbush 4 can be fastened again by saidbolt 7. It, however, has been found out that the size of saidannular spacing 18 can be, in many cases, adjusted once for ever. - In order that the process of withdrawing
short fibres 52 be better understood, Figure 5 shows successive positions of one and the sameshort fibre 52. As can be seen, ashort fibre 52 takes on its trajectory S a first position P1 on theinner wall 25 of saidguide body 13, then a second position P2 in the section U between theinner wall 25 of theguide body 13 and thewall 10 of the spinningrotor 2, a third position P3 in theannular spacing 18 between the spinningrotor 2 and theguide body 13, and a fourth position P4 in theinner air space 19 of therotor box 6. The corresponding positions P1, P2 and P3 of theshort fibre 52 are shown in Figure 6. -
Longer fibres 53 /Fig. 7/ are not withdrawn, since, as ascertained, they are always on their trajectory S in contact with theinner wall 25 of theguide body 13, or with both saidinner wall 25 and thewall 10 of the spinningrotor 2, or with said positions of one and the samelonger fibres 53 are indicated in Figure 7 by symbols P11, P12 and P13. - Thus from
fibres 39 supplied to the spinningrotor 2 there are separated and ejectedshort fibres 52 of length corresponding to the predetermined revolution rates of the spinningrotor 2 andth guide body 13 as well as to the flow welocity of air escaping through theannular spacing 18 between the spinningrotor 2 and theguide body 13 whereas thelonger fibres 53 are subsequently straightened and conveyed, as being exposed to centrifugal forces and to the supporting action of thewall 10 of the spinningrotor 2, to the collecting channel formed by thebottom 8 and thewall 10 of the spinningrotor 2, wherein they are deposited and wherefrom they are continuously taken on to the open end ofyarn 43 and withdrawn. - If a sliver is to be processed, having a staple fibre diagram insuitable for the orthodox combing step, which means, most frequently, that it contains a relatively great portion of
short fibres 52, such raw material can be very effectively classified in theannular space 18 by separatingshort fibres 52 from it while the remaining,longer fibres 53 are processed tofine yarn 43. Such a material, however, does not contain such a portion of sufficientlyfine fibres 39 enabling a veryfine yarn 43 to be spun from the remaininglonger fibres 53. In spite of this fact, it is possible to manufacture therefrom some yarn types still within the count range of fine combed yarns, i.e. up to 10 tex. - If, on the contrary, a sliver of fibres suitable for the ortho dox combing process is used, the
annular spacing 18 between the spinningrotor 2 and theguide body 13 can be adjusted to causeshort fibres 52 of e.g. 20 mm length to be ejected while the remaining,longer fibres 53 are then processed to a fine combedyarn 43 - Both of the above described variants are very economical, since they substantially shorten the spinning process and enable also some low-grade fibrous materials to be used for the manufacture of
fine yarns 43. - The ejected
short fibres 52 accumulated in the filtering element can be then processed to another type of yarns, or fabrics. Since a very pure "waste" is concerned, theshort fibres 52 can be returned to the carding machine, and after drafting them on a drawing frame, it is possible to process them to carded yarn sorts, and particularly in the conventional open-end rotor spinning machine, or in the device of the invention.
Claims (5)
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CS374289A CS274638B2 (en) | 1989-06-21 | 1989-06-21 | Rotor spinning device |
CS3742/89 | 1989-06-21 |
Publications (2)
Publication Number | Publication Date |
---|---|
EP0403801A1 true EP0403801A1 (en) | 1990-12-27 |
EP0403801B1 EP0403801B1 (en) | 1994-04-13 |
Family
ID=5378401
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP19900109363 Expired - Lifetime EP0403801B1 (en) | 1989-06-21 | 1990-05-17 | Open-end rotor spinning device |
Country Status (4)
Country | Link |
---|---|
EP (1) | EP0403801B1 (en) |
JP (1) | JPH03113022A (en) |
CS (1) | CS274638B2 (en) |
DE (1) | DE69008046T2 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE4306272A1 (en) * | 1993-03-01 | 1994-09-08 | Rieter Ingolstadt Spinnerei | Process and apparatus for producing a thread by means of an open-end spinning apparatus |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB1154840A (en) * | 1966-03-05 | 1969-06-11 | Vyzk Ustav Bavlnarsky | Improvements relating to the Continuous Ringless Spinning of Textile Fibres |
DE2130738A1 (en) * | 1971-06-21 | 1972-12-28 | Skf Kugellagerfabriken Gmbh | Device for open-end spinning |
FR2173230A1 (en) * | 1972-02-23 | 1973-10-05 | Platt International Ltd |
-
1989
- 1989-06-21 CS CS374289A patent/CS274638B2/en unknown
-
1990
- 1990-05-17 DE DE1990608046 patent/DE69008046T2/en not_active Expired - Fee Related
- 1990-05-17 EP EP19900109363 patent/EP0403801B1/en not_active Expired - Lifetime
- 1990-06-12 JP JP15380690A patent/JPH03113022A/en active Pending
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB1154840A (en) * | 1966-03-05 | 1969-06-11 | Vyzk Ustav Bavlnarsky | Improvements relating to the Continuous Ringless Spinning of Textile Fibres |
DE2130738A1 (en) * | 1971-06-21 | 1972-12-28 | Skf Kugellagerfabriken Gmbh | Device for open-end spinning |
FR2173230A1 (en) * | 1972-02-23 | 1973-10-05 | Platt International Ltd |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE4306272A1 (en) * | 1993-03-01 | 1994-09-08 | Rieter Ingolstadt Spinnerei | Process and apparatus for producing a thread by means of an open-end spinning apparatus |
Also Published As
Publication number | Publication date |
---|---|
JPH03113022A (en) | 1991-05-14 |
DE69008046D1 (en) | 1994-05-19 |
CS8903742A1 (en) | 1990-11-14 |
CS274638B2 (en) | 1991-09-15 |
DE69008046T2 (en) | 1994-07-28 |
EP0403801B1 (en) | 1994-04-13 |
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