DE1815775A1 - Process for guiding fibers during their ringless continuous spinning in a vacuum spinning turbine and apparatus for carrying out this process - Google Patents

Description

Patent attorney

Dipl. Phys. Dr. Waither 3unius ι ο ι c 7 7 c

3 Hanover, Abfaesir, 20 .. I ö I 0 / / D

17th December 1968

Dr.J / Ha.

My act 1581

Yfzkwmf ü & tav bavlnarsk # ·, IJsti nad Orlici,

T. ÜToväkove 225 ul

Method of guiding pasers during their ringless continuous spinning in a high pressure spinning turbine and apparatus for performing this

Procedure

The present invention relates to a method for Leading fibers during their ringless continuous spinning in an underpressure turbine conical Eutschwand, which merges into the so-called Samrnelfläche, as well as with an immobile Lid, in which an ifransportkanal to Transporting the separated fibers from the combing mechanism is arranged in the spinning turbine, which in sighting on the Eutschwand in the spinning turbine opens, as well as a device for performing this method.

Leading the fibers from the combing mechanism into the Spinning turbine occurs in the majority of known

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th embodiments by a Sransportkanal occupying a imGfrunde tangential position relative to the Känimzylinder of Kämmechanismus and is guided into the space of äpinnturbine such that the are therethrough transported lase shortest "lay directed against the slide wall, which passes into the so-called Saiumeloberflache.

nierbei v / ground the separated by the ridges mechanism fibers by the l'ransportkanal in the body of Kämmechanismus in a üragluftmedium in the Haum the spinning turbine transported _s where they first arrive to the conical sliding wall on which they slide on the Samnieloberfläche that at the point of the largest inner circumference of the spinning turbine, and on which they are deposited in a band-shaped structure, which is continuously twisted into yarn, which is drawn off from the spinning turbine.

It is known from the literature that the aforementioned Transρortkanal in a spinning device an annular groove can open, which is arranged in a fixed rope of the spinning turbine and is surrounded by the spinning turbine, which has a cylindrical shape. The mentioned groove leads the pasers to a part of the needled and perforated cylindrical inner wall of the spinning turbine.

Here, the combing mechanism sepa-

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Fibers passed through a canal into that of the Spinning turbine enclosed annular distribution groove placed in the locking in the Spinning turbine engaging shell part is arranged. The fibers are then straight out of this hat to the cylindrical inner surface of the spinning turbine, which is provided with baths and lift openings is provided. The pasers deposited on this mentioned cylindrical surface are twisted and withdrawn in the form of yarn - against the action of the needles mentioned - by the coaxial take-off duct out of the spinning turbine and wound onto a spool.

In both known solutions, the separated fibers are in flight from the channel through the interior the spinning turbine on the spinning turbine wall or oriented towards the collecting surface of the spinning turbine, namely by a fixed \ Yand below of the funnel-shaped trigger body on which they slide along and then into mechanical contact come, be braked and changed in their direction of movement, which is especially due to the Reduction of the direction of the transport channel conditional is. The fibers are slowed down, their straight parallel orientation is changed, which looks unfavorable in a deteriorated parallel position of the fibers in the sliver on the spinning turbine surface and thus also revealed in the yarn. The result is an unfavorable influence on the Quality of the yarn.

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Another disadvantage of the "known devices "is that the fibers" preferentially on the The lowest part of the aforementioned ring-shaped lut are caught and fiber clusters are formed in the process which cause yarn breakages if suddenly loosened.

The present invention avoids these disadvantages. It is based on the task of making the Pasern contactless from the canal to the spinning turbine wall and in places where there is a risk of that the pasers are in contact with parts of the canal or a solid wall come to provide means to support the fiber flight and such a device which enables the production of high quality yarn.

The invention consists in that when passing through the exit part of the transport channel, which is on the Collecting surface. Is aligned, the pastes on a cushion of air that is formed immediately below the? / and that the transported Pasern from the swirl and take-off zone of the spinning turbine divisions.

The essence of the device of the invention is that at least part of the wall of the outlet part of the tranaportal canals that transported the Fibers from the twist and take-off zone of the spinning

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separates _s turbine with this zone by at least one air hole for entry of a (ax of swirling air in this zone in the mentioned outlet portion connected isto

Duroh the invention becomes an advantageous lead of the fibers achieved ^ whereby the exit part of the transport channel is on the collecting surface is directed, located in a plane perpendicular to the axis of rotation of the spinning chamber.

It is used to form an intense air flow advantageous according to the invention, the Y / ands of the air holes against the direction of the rotational movement of the Tilt spinning turbine.

From a manufacturing standpoint, it is in accordance with the invention advantageous that the wall of the outlet part of the Transport channel fixed, but removably arranged on the immovable cover of the spinning turbine is, optionally, that the air hole is formed by bending out a gate in the wall.

The same applies to the solution in which the exit part of the transport channel when viewed in the direction of the axis of rotation of the spinning turbine has a longitudinal shape and opens at two points in the cylindrical part of the immovable cover.

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A particularly advantageous orientation of the fibers on the tampering surface of the spinning turbine is achieved because the exit part of the transport channel, when viewed in the direction of the axis of rotation of the spinning turbine, has a teardrop shape corresponding to the path of the fibers in this part, which extends in the direction of the rotary movement of the spinning turbine narrowed \ inä opens on part of the circumference of the cylindrical part of the immovable lid.

A further version has similar advantages which is the exit part of the transport channel when viewed in the direction of the axis of rotation of the Sipinnturbir.e has the shape of an arcuate sector and on the part of the circumference of the cylindrical part of the immovable lid opens out ο

If a particularly intense air flow is required under the wall of the outlet part of the The transport ducts have the edges of the air holes, which lead into the swirl and take-off zone of the spinning turbine protrude in the shape of a cutting edge.

The essence of the present invention is based on the exemplary embodiments shown in the drawing explained in more detail. Show it:

Pig. 1 shows a vertical section through the spinning turbine and the combing mechanism j

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Pig. 2 a view of the upper cylindrical Part of Pig's combing mechanism. 1, the forms the cover of the spinning turbine and the exit part of the transport channel of the separated Including piping and the drainage channel of the spun yarn

Pig. 3 shows an enlarged view of the exit part of the transport channel according to Pig. 1, the Paserstrom and part of the spinning turbine in section

Pig. Figure 4 shows another embodiment of the present invention j

Pig. 5 the sight of the upper cylindrical part of Pig's combing mechanism. 4, the Forms cover of the spinning turbine;

Pig. β an oblique view of the other version of the exit part of the transport channel j

Pig. 7 shows an oblique view of another embodiment of the exit part of the transport channel;

Pig. 8 is a vertical section through the exit part of the transport channel, wherein the wall with the opening JDüf tung en demountably ₉ -

Pig. 9 shows an axial view of the Pig design. 8th,

Pig.10 a vertical section through the exit part of the transport channel with the removable wall with air holes and beveled cutting edges?

Pig. 11 an axial view of the version according to .10.

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On the frame 1 of the machine the body 2 of the separating mechanism is fixed, which is a feed roller 3 contains which is attached to the combing cylinder 4 with inclined combing needles 5. The feed roller

3 is mounted on the shaft 6, the combing cylinder

4 on the shaft 7. The drives of the shafts 6 and 7 are not shown by the drive means Machine derived.

The cavity 8 in the body 2, in which the combing cylinder 4 is attached, goes in the upper part of the body 2 in a transport channel 9, which is essentially tangential to the combing cylinder and for transporting the fibers into the spinning mechanism serves.

The transport channel 9 »which narrows in its course from the combing cylinder 4 to the outlet opening, goes - with a change of direction - in the exit part TO, which is in the upper cylindrical Part 11 of the body 2 is located, which is the immovable Forms cover of the spinning turbine 12, which tightly, but without contact, the mentioned body 2 is assigned.

The rotating spinning turbine 12 is through the Baeie 121 formed and has a recess 122 in which the Mftungsöffnungen 123 are arranged, the cause negative pressure during the rotation, and in the further one that narrows in the downward direction

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Slide wall 124 is formed. The Kutschwand t24 goes at the point of the largest inner circumference into the so-called collecting surface 125 over.

The spinning turbine 12 is fastened on the shaft 126 which is freely rotatably mounted in the bearings 13 and 14 and is terminated by the belt pulley 127. The bearings 13 and 14 are supported on another part of the body 1 of the machine. The pulley 127 is in engagement with the partially illustrated drive belt 15, which is driven by the central drive of the machine.

The spinning turbine 12 is surrounded by a jacket 16 which is attached to the body 2 of the separating mechanism is, as well as an opening 17 for the air outlet.

The extraction duct runs through the cylindrical part 11 and the body 2 in the axis of rotation of the spinning turbine 12 1β through. The take-off rollers 19, 20 are attached below its exit from the body 2 and inevitably driven and below this the winding mechanism, which is operated by the Coil 21 is shown.

Unterhalb-, dag feeding cylinder 3 is mounted in the body 31 an inlet _f u ter which freely rotatable / the Torlagespule 22 is attached to the iteeerbandes 23rd

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The cylindrical IEIL ¹ 11 engages partially into the spinning turbine and the outlet portion 10 opens directly to the carriage wall 124th

The space of this spinning turbine can in principle, into the annular deposit zone 128 at the level of the slide wall 124 and the twist and withdrawal zone 129 in the middle part of the spinning turbine 12 - see the dashed zones in Pig. 4 - be split. The processes taking place in these zones will be described later.

The exit part 10 of the Iransportkanals 9 is designed so that the wall 101 of the exit part 1.0 separates the separated fibers 25 from the twist and withdrawal zone 129.

At least one part of the wall 101 of the outlet part 10 of the transport channel 9 is included this zone 129 is connected at least by an air hole 102 - in the illustrated embodiments several of these air holes are used.

It is advantageous if the exit part 10 of the transport channel 9 is in a direction to the axis of rotation the spinning chamber is perpendicular plane.

Like in Pig. 4, the walls 103 of the

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Air holes 102 inclined with respect to the direction of rotation of the spinning turbine 12.

When running after. 4 and 5, the exit part 10 of the transport channel 9 runs through the whole cylindrical rope 11 of the cover through it, so that when viewed axially this has a longitudinal shape and opens at two points in the aforementioned cylindrical part 11.

When executing according to I ¹ Xg. 6, the exit part 10 of the transport channel 9 has the shape of an arcuate sector and opens onto the part of the circumference of the cylindrical part 11 of the cover. The air holes 102 are only arranged in that part of the wall 101 under which the separated lasers 25 are transported.

In the embodiment according to FIG. 7, the outlet has part 10 of the transport channel 9 has a teardrop shape, the entry of the separated fibers into the Exit part 10 is basically at the point of greatest expansion - in the axial view - is, and the exit part 10 moves in the direction of the rotary movement the spinning turbine 12 is narrowed and on the circumference of the cylindrical part 11 of the cover flows out.

The teardrop shape of the emergence part does not

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The shape of the flow of separated fibers 25 when the vertical wall 104 does not include them Form limiting factor.

In the embodiment according to FIGS. 8 and 9, the wall 101 of the exit part 10 of the transport channel 9 formed by a segment, e.g. a sheet metal segment, which is fixed to the cylindrical part 11 by the screw 105. The air holes 102 are made by bending out 106 the in the mentioned V / and 101 performed cutting formed.

In the embodiment of FIGS. 10 and 11, the Wall 101 of the exit part 10 of the transport channel 9 by an approximately arcuate segment, e.g. a sheet metal segment is formed which is fastened to the cylindrical part 11 by means of the screw 105 is. The upper edges 108 of the air holes 102 here have the shape of a cutting edge.

The devices described work as follows:

The sliver 23 is from the supply reel 22 by means of of the feed cylinder 3 unwound, which this sliver to the combing needles 5 of the rapidly rotating Combing cylinder 4 feeds. The separated fibers 25 enter the transport channel 9 under the simultaneous action of negative pressure through the ventilation openings 123 of the spinning turbine

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12 is caused. As a result of the narrowing shape of the transport channel 9, the transport medium of the fibers 25 - the air - is accelerated, which has a favorable influence on the uniform alignment and the direction of the fibers .

At the exit of the transport channel, where the direction of the air flow a changes, the fibers 25 are inclined to change their position and to come into contact with the wall 101. This is effectively prevented by the air cushion 107 - shown in dashed lines in FIG. The air cushion 107 prevents the separated fibers from touching the * wall 101 and thereby also the reduction in their speed, their deformation and disruption of their Paralleis division during flight, during storage and in the yarn. The separated fibers slide on the air cushion ¹ 107 mentioned and, after leaving the outlet part 10 of the transport channel 9, pass through the deposition zone 128 onto the sliding wall 124 of the rotating spinning turbine 12 and are deposited on the collecting surface 125 by the action of centrifugal force, where they are in a formation similar to a band 26 - see Fig. 3 - can be deposited.

For piecing, a piece of yarn is introduced through the take-off duct 18 into the spinning turbine 12, its

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Comes to rest on the aforementioned tape 26, whereupon the introduced yarn end is withdrawn from the spinning turbine 12 and on a bobbin 21 by action the trigger cylinder 19 and 12 is wound up. Through this the tape is from the collecting surface 125 26 removed, which, however, is continuously formed by the fibers 25, which in the spinning turbine 12 enter from the separating mechanism. As a result of the rotary movement of the spinning turbine 12, the belt 26 is particularly in the zone between the Entrance of the flue 18 and the collecting surface 125 rotated, which zone in Pig. 4 shown and is designated as swirl and withdrawal zone 129.

By arranging the outlet part mouth 1G in the In the vicinity of the slide wall 124, there is an escape of the Prevents fibers in the twist and take-off zone 129 and thereby also their partial spinning into the yarn being formed, which increases the quality of the yarn degrades. The swirling of the air in the space of the spinning turbine 12 and the pneumatic conditions in the Transport channel 9 and in the outlet part 10 are chosen so that an air flow through the air holes 102 is brought about in the exit part 10 and an air cushion 107 is formed which allows the separated fibers to contact the wall 101 prevents it from passing through the air holes 102 into the swirl and take-off zone 129

The described guiding process in the step-out part 10 of the OJraneportfcanals 9 is available for all

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guides according to the present invention leaked, where the same functional elements have been given the same reference numbers.

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Claims (1)

Patent claims: Procedure for guiding pasers during the ringless, continuous spinning in a rotating vacuum spinning turbine with a conical Sliding wall that merges into the so-called collecting surface and is immovable Lid in which a transport channel for feeding the separated fibers from the comb mechanism in'die spinning turbine is provided, which opens at the Eutschwand, characterized, that when the exit part (10) of the transport channel (9) passes through, it hits the collecting surface (125) is directed, the Pasern (25) slip on an air cushion (107), which immediately is formed below the wall (101), which removes the transported fibers from the twist and take-off ζ one (129) in the spinning turbine (12) separates. 2. Device for performing the method according to claim 1, characterized, that at least part of the Vfand (101) of the outlet part (10) of the transport channel (9), which removes the transported fibers from the twist and separation zone (129) in the spinning turbine (12), with this zone (129) at least through, a single air hole (102) for the entry of part of the air swirling in this zone - 17 909839/1250 is connected in the mentioned outlet part (10). Device according to claim 1, characterized in that that the exit part (10) of the (Eransportkanals (9), which is directed at the collecting surface (125), is in a plane that is approximately perpendicular to the axis of rotation of the spinning turbine (12) ■ runs. 4. Apparatus according to claim 2, characterized in that that the walls (103) of the air holes (102) opposite the direction of rotation of the spinning turbine (12) are inclined. 5. Apparatus according to claim 4, characterized, that the air hole (102) by bending out (106) of the blank is formed in the wall (101). 6. Apparatus according to claim 2 or 5, characterized in that that the wall (1O1) of the outlet part (10) of the iüransportkanals (9) fixed, but removable the immovable cover (11) of the spinning turbine (12) is arranged * - 18 - Device according to claim 2,
characterized, that the exit part (10) of the transport channel (9) when viewed in lease of the axis of rotation Spinning turbine has a longitudinal shape and at two points in the cylindrical part (11) of the immovable Lid opens. 8. Apparatus according to claim 2,
characterized, that the exit part (10) of the transport channel (9) when viewed in the direction of the axis of rotation Spinning turbine (12) has a teardrop shape corresponding to the path of the pasers (25) in this part, which narrows in the direction of rotation of the spinning turbine (12) and on the part of the circumference of the cylindrical part (11) of the immovable lid opens. Device according to claim 2,
characterized, that the exit part (10) of the Tranaportkanal (9) when looking in the direction of the axis of rotation Spinning turbine (12) has the shape of an arcuate sector and on part of the circumference the cylindrical part (11) of the immovable lid opens. 10. Apparatus according to claim 4,
characterized, - 19 909839/1250 that the edges (108) of the air hole (102), the protrude into the swirl and take-off zone (129) of the spinning turbine (12), a cutting edge! "shape exhibit. 909839/1250