CS268481B1 - Singling-out device of rotor spinning frame - Google Patents

Abstract

In the silver opening section of an open-end spinner, to break it down into separate fibres, the gap between the dirt separation edge of the dirt outlet opening and the clamping point between the feed roller and the pressure shoe is 15-30 mm greater than the average staple length of the fibres being used, such as A = 45-62 mm in the case of cotton. The width of the dirt outlet channel is about 8-15 mm at the opening.

Description

The present invention relates to an opening device of a rotor spinning unit, comprising in the opening body a recessed feed roller with a press table and an opening roller, which is connected to the united fiber transport channel and to an exclusion slot interconnected by the elimination channel with the discharge channel. which is connected to the attaosphere on the outside of the opener body and the outlet to the central channel, longitudinally arranged on the spinning machine.

In the rotor spinning process, in the inlet part of the fiber opener body, the strand fibers are fed to the fiber opener roller, where they are unified to individual fibers, which are then conveyed by centrifugal force and vacuum to the spinning rotor where they are twisted in yarn. The vacuum in the spinning rotor is caused either by the rotation of the ventilation holes on the rotor or by the central source. Because praeen staple fibers contain various impurities that are not removed during the previous treatment, most modern spinning units are equipped with excretion. · Strands to the opener · υ roller and conveyor ducts · for their transport to the spinning rotor.

Different arrangements of the spinning unit with impurities are known. They all share the common feature that at least one suction channel for the air intake, apart from the inlet of the staple material into the spinning unit and the conveying duct, is routed through the rotor. into the spinning unit. Such an arrangement is known from no. No. 159,860 and A0 203,501. In these embodiments, it is always problematic to produce the optimum effects of the suction channel and the clearance slot so that the removal of impurities is sufficiently effective or that large amounts of fibers are not precipitated along with the impurities. Because of the complex air flow in the space of the suction channel and the void gap, the flow of the flow affecting the fiber movement before entering the conveying channel may deteriorate the fiber parallelism, and the yarn quality deteriorates. Furthermore, in the case of the suction channel, the inlet area of the feed roller and the press table are not sufficiently affected by the air flow to the rotor, short fibers and dust are deposited in the area of the feed roller and the stand and are released when these deposits are released. to the rotor, and to this, to break the yarn or to substantially deteriorate the yarn quality.

According to Pat. CH 593 355 discloses an embodiment of an ophthalmic body wherein the exclusion slot is interconnected by the excretory ducts with the drainage ducts which are connected to the atmosphere on the outside of the ophthalmic body and the outlet end to the central duct extending longitudinally to the the spinning units on the spinning machine · the arrangement of the elimination slot with respect to the press and from the presser table and the feed roller were made randomly regardless of the length of the material being processed. The exclusion slot was adhered wide and there was a relatively high fiber loss, while the air sucked from the exhaust duct through the exclusion slot to the rotor entrained the debris to be separated.

The object of this embodiment is to eliminate the disadvantages mentioned above and to solve the effective removal of dirt without losing fibers.

This object is achieved by the opening device according to the invention, characterized in that the separation slot (11) is provided with a separating edge from the pressing and the pressing table and the feeding roller at a distance greater than the median length of the staple of the material to be processed. 15 to 30 mm and for cotton ranging from 45 to 62 < - >, while the width of the elimination channel at the location of the elimination slot ranges from 8 to 15 "

Further features characterizing the essence of the invention are set forth in the sub-points of the definition.

CS 268481 02

According to the invention, the distance of the separating edge of the expulsion opening depends on the middle distance of the staple. in the elimination slot, the width of the elimination slot is relatively significant · There is a separation of impurities without loss of fibers, or with minimal foot loss · К foot · reflections · impurities and return * avoids divergence · walls of the elimination channel and especially t1n · The removal of dirt in the lower part of the separation slot is prevented by the separation edge of the separation slot being oblique with respect to the axis of the single cylinder.

1 is a cross-sectional view of the wolf-bearer; FIG. 2 is a view of the separating edge in relation to the axis of the single-cylinder according to section II-Uv;

The essence of the invention is shown in FIG. 1, where a rotor spinning unit is shown with an exemplary embodiment of an elimination fabric. In the inlet part of the ophthalmic body 1 there is provided a roller 2 and a pressure table J, which is pressed against the bottom of the cylinder 2 by a spring i. In the ophthalmic body j there is an ophthalmic roller. The individual fibers which are then conveyed to the spinning rotor 13 mounted on the shaft 14 of the spindle 16 in the body 1.5 by means of decoupling force and air flow. The rotation of the rotor 13 The individual fibers are twisted in a yarn. Unit 1 in the wall 2 of the opener body 1 is provided with a slot 1 / for the removal of dirt *:, interconnected by the exclusion channel 11.1 with the outlet channel 12 ₃ Exclusion channel ¹ 1 «1 Defined by a reflecting wall 2 connected to the separating edge 10, preferably at least 15 nm from the fluorocyanate torsion angle 11 from 10 ° to 50 ° · For proper operation of the spinning units The distance from the insole is lower than the feed roller 2 and the pressure table to the separating pot S to eliminate the gaps 11 with respect to the fiber length. that this distance A Mid is longer than the mean length of the ester to be processed at 10 to 30 JS. Thus, if the mean length of the staple of the material to be processed is 32 nm, the distance D is 32 32 ♦ / 10 to 30 mm / 42 42 to 62 nn, in general, it is possible to drive. That is, for example, the distance ranges from 45 to 62 mm. Great influence on the deposition efficiency of impurities has dřka g excretory duct 11 · 1, which is located in exclusion of the slot 11 in the optimum range 8-15 mm · exclusionary channel 11 · 1 to the separating edges with the wall connections 2 ¹ opposite the baffle wall 10 feet be either parallel or they can form an angle <> («Grief 15 °, ie diverging towards the outlet of channel 12, the radius β of the separating edge £ should range from 0.2 to max · 1.5 nm · Sometimes As a result of the design of the roller A, to direct the fibers to the upper or lower part of the roller, there is no greater drift of fibers in the upper or lower part in the space of the exclusion slot 11. the axis 2? of the single-roller 6 is inclined so that the width V of the exclusion channel 11.1 is upwards, as can be seen from fig · 2 ·

The function of the spinning unit is as follows:

The sliver 17 enters the inlet portions of the spinning unit and the fiber ends in the sliver are attacked by the coating of the spinning roller 6 and the individual fibers are united, which are then conveyed through the conveying channel 18 to the spinning rotor 13 and twisted into a yarn. In the side wall from the recess, the removal dirt slot 10 for the removal of dirt removes the released dirt. This dirt slot 11 discharges the hard dirt contained in the strand 17 and is then discharged through the duct.

CS 268481 02

12, the inlet ends 12.1 on the outside of the opener body J are connected to the atherosphere and the outlet ends 12.2 to the central channel (not shown) longitudinally arranged on the spinning machine are discharged to the central dirt outlet. The air required for conveying the fibers to the rotor 13 is sucked in from the space of the inlet part of the pranen 17 and through the exclusion slot 11. The arrangement according to the invention has considerably reduced the structure of the waste waste compared to another known embodiment. Reduce the proportion of fibers in the waste · Hard impurities «and sufficient weight to eliminate them in the excretion space 11, the fibers are then intensively sucked into the spinning rotor 13 and only a small amount of waste escapes into the waste, and these are only fibers commanded short · It is necessary to keep · the optical distance If the distance 4 is attached, the fibers are separated by pressing more than the feeders · rollers · and the tables · and their front part overlaps the excretory iterbin 11. The speed of their movement is given because it is given the movement of the pickup roller 2 / only after they have been released does they accelerate the effect of the movement of the opener roller f. When the fibers receive sufficient acceleration as well as entrained impurities, they can be dislodged in the exclusion chamber 11. Also 4, even if large, the elimination iterine 11 has been influenced by the rotor set and the elimination of impurities is at least effective. Therefore, it is preferable to maintain the above distance 4. if adhered aaa, the effectiveness of excretion of impurities decreases, if adheres large, it is you The execution of the spinning unit according to the invention achieves the elimination of the waste with a very low fiber content, the yarn quality is fused and dust and short fibers are deposited in the inlet part.

Claims (3)

Ojcnokovad z.Mz.nt rotor addition of j.dnky, t.hrnujlcl in oj.dnokov.d. a recessed feed roller with a pressing table and an opening roller, which is connected to the united fiber transport channel and also to the discharge channel, with the discharge channel, which is the inlet end at the outside connected to the atherosphere and the outlet end to the central channel, longitudinally arranged on the spinning machine, characterized in that the elimination iterine (11) is provided with its separating edge (8) by a non-pressurized table · / 3 (a) by a feed roller (2) at a distance (А) which is greater than the mean length (L) of the staple of the processed eaterial by 15 to 30 · and for cotton is in the range of 45 to 62 · The channel (11 * 1) in the hearth of the excretory filter (11) ranges from 8 to 15. The opener device according to claim 1, characterized in that a reflective wall (9) connected to the separating edge (11.1) and the opposite abutment wall (10) to the separating edge (8) and to the opposite abutment wall (10) diverge below the angle · Á / from 2 ° to 15 ° · The separating device according to Claims 1 and 2, characterized in that the separating edge (8) and the radius (R) in the range from 0.2 to 1.5. 4. The unifying device according to claim 2, characterized in that the rectifying wall (10) in the elimination channel (11 * 1) is at least at a distance (С) of 15 from the elimination it (11) deflects an angle of from 10 [deg.] up to 50 °. CS 263481 61 5. The opener device according to claim 1, characterized _in that the separating edge (8) of the elimination iterator is apparent to the axis (19) of the opener roller (6).