Title of Invention	AN APPARATUS FOR CONDENSING A DRAFTED FIBRE STRAND
Abstract	An apparatus for condensing a drafted fibre strand in a condensing zone arranged downstream of a front roller pair of a drafting apparatus, comprising a stationary sliding surface, which comprises a suction slit extending essentially in transport direction of the fibre strand, also comprising an air-permeable transport belt located between the fibre strand and the sliding surface, which transport belt transports the fibre strand over the sliding surface, characterized in that a cleaning element (22;32) is pressed, using a light pressure, to the transport belt (17;31) at a distance from the suction slit (14;28).

Title of Invention

AN APPARATUS FOR CONDENSING A DRAFTED FIBRE STRAND

Abstract

An apparatus for condensing a drafted fibre strand in a condensing zone arranged downstream of a front roller pair of a drafting apparatus, comprising a stationary sliding surface, which comprises a suction slit extending essentially in transport direction of the fibre strand, also comprising an air-permeable transport belt located between the fibre strand and the sliding surface, which transport belt transports the fibre strand over the sliding surface, characterized in that a cleaning element (22;32) is pressed, using a light pressure, to the transport belt (17;31) at a distance from the suction slit (14;28).

Full Text	BACKGROUND AND SUMMARY OF THE INVENTION An apparatus for condensing a drafted fibre strand The present invention relates to an apparatus for condensing a drafted fibre strand in a condensing zone arranged downstream of a front roller pair of a drafting apparatus, comprising a stationary sliding surface, which comprises a suction slit extending essentially in transport direction of the fibre strand, also comprising an air-permeable transport belt located between the fibre strand and the sliding surface, which transport belt transports the fibre strand over the sliding surface. An apparatus of this type is prior art in, for example, US patent 5,600,872. During operation, there is a risk that individual fibres of the fibre strand for condensing, in particular the shorter fibres, many reach through the perforations of the transport belt with their front ends to the inside. If the fibres are not suctioned off by means of the suction slit, they are transported further with the transport belt and can, in time, clog the perforations, so that the desired condensing effect no longer occurs. Condensing of a drafted fibre strand, namely in an area to which the spinning twist is not retroactive, serves to bundle the fibre strand in its cross section and to make it generally less hairy. After the spinning twist has been imparted, a smoother yam with higher tear-resistance is the result. If, however, due to an impaired condensing effect, the desired condensing does not take place, a so called Moire effect can occur in the finished fabric, which may render the product a reject It must therefore be ensured that the condensing effect is not impaired by the clogging of perforations at individual spinning stations. It is an object of the present invention to ensure that the perforations of the transport belt do not become clogged and that the condensing effect is not impaired. This object has been achieved in accordance with the present invention in that at a distance from the suction slit, a cleaning element is pressed onto the transport belt using a light pressure. In the simplest embodiment of the present invention, the cleaning element can for example, be a stationary scraper-like component, which removes the remaining fibres adhering to the outside of the transport belt. However, an even more suitable cleaning element has proven to be a rotating roller, which can basically be applied anywhere outside of the condensing zone at the periphery of the transport belt. It is hereby important that the speeds of the rotating roller and the transport belt differ from one another, preferably in that the peripheral speeds of the transport belt and of the roller are set in opposite directions. This is the case, for example, when the driven bottom roller of the front roller pair of the drating apparatus is chosen as the cleaning element, as then the directions of motion are automatically set in opposite directions. The sliding surface advantageously comprises a recess in the area of the cleaning element This facilitates the cleaning of the transport belt, in particular when a suction device is arranged to the cleaning element and/or the recess. The cleaning effect can be increased when the rotating roller is provided with a profiling on its peripheral surface. BRIEF DESCRIPTION OF THE DRAWINGS These and further objects, features ana advantages of the present invention will become more readily apparent from the following detailed description thereof when taken in conjunction with the accompanying drawings wherein: Figure 1 is a part intersectiona! side view onto an apparatus of the present invention; Figure 2 is a view of the direction of the arrow II of Figure 1 onto the condensing zone, whereby the other components have been omitted; Figure 3 is a view similar to Figure 1 of another embodiment of the present invention. DETAILED DESCRIPTION OF THE DRAWINGS In the apparatus according to the Figures 1 and 2, only the front roller pair 2 of a drafting apparatus 1 and the apron roller pair 3 arranged upstream thereof are shown, whereby a bottom apron 4 and an upper apron 5 can be seen. The front roller pair 2 comprises a driven bottom roller 6 as well as an upper roller 7 flexibly pressed thereto. The drafting apparatus 1 serves in a known way to draft a sliver or roving, denoted by the reference number 8, which is transported in transport direction A through the drafting apparatus 1. At the front nipping line 9 of the front roller pair 2, a drafted fibre strand 10 is present, which in this area is still twist-free. A condensing zone 11 is arranged downstream of the front roller pair 2, in which the drafted fibre strand 10 is bundled in a way described above. The condensing zone 11 comprises a suction device 12, which is essentially formed by a hollow profiting 13 extending over a plurality of spinning stations. On the side facing the condensing zone 11, the hollow profiling 13 comprises per spinning station one suction slit 14, which extends essentially in transport direction and which is significantly wider than the drafted fibre strand 10. The hollow profiling 13 is provided per machine section of a plurality of spinning stations with a vacuum connection 15. On its side facing the condensing zone 11, the outer contour of the hollow profiling 13 is a stationary sliding surface 16 for a rotating air-permeable transport belt 17. This is driven by a nipping roller 18, which in turn receives its drive from the upper roller 7 of the drafting apparatus 1 by means of a transfer roller 21. The nipping roller 18 forms, together with the stationary sliding surface 16, a delivery nipping line 19. downstream of which the spinning twist is introduced into the thread 20. The thread 20 is hereby fed in delivery direction B to a ring spindle (not shown). Beginning at the suction slit 14 in the condensing zone 11, there is a risk that individual fibre ends may get through the perforations of the transport belt 17 and remain caught in the transport belt 17. These remaining fibres must be removed from the transport belt 17 so that the transport belt 17 does not, in time, become air-impermeable. A cleaning element 22 is provided for the continuous cleaning of the rotating transport belt 17, which in this embodiment of the present invention is the driven bottom roller 6, which is disposed with a light pressure on the transport belt 17. At the point of contact, the directions of motion of the transport belt 17 and the bottom roller 6 are set in opposite directions, so that the cleaning effect is particularly intensive. Any remaining fibres caught in the perforations are reliably removed. Here a profiling 23 co-acts with the cleaning element, which profiling 23 is applied to the periphery of the driven bottom roller 6 and which can be in the form of, for example, longitudinal grooves, diagonal knurling or a grooving. The cleaning effect can be further improved when the sliding surface 16 comprises a recess 35 in the area of the cleaning element 22, so that the transport belt 17 can yield a little at this point. Fibre fly. or the like, removed by the cleaning element 22 is then removed by an additional suction device 36. In another embodiment of the apparatus of the present invention as shown in Figure 3, the reference numbers are retained insofar as they correspond to those in Figures 1 and 2. A repeat description is therefore omitted. In the embodiment of the present invention according to Figure 3, a standard driven bottom roller 25 for drafting apparatus 1 is provided, which does not need to be provided with a profiling. The front roller pair 24 is formed by the bottom roller 25 and the top roller 7 arranged thereto. A condensing zone 26 is arranged downstream of the front nipping line 9, which condensing zone 26 is designed differently from the variation described above. The condensing zone 26 as shown in Figure 3 comprises a suction device 27, which is directed with a suction slit 28 against a rotating transport belt 31. The suction device 27 is connected to a vacuum source (not shown) by means of a vacuum connection 29. The suction device 27 comprises again a stationary sliding surface 30, over which the air-permeable transport belt 31 slides. In this embodiment of the present invention, the transport belt 31 is looped around a separate driven delivery roller 34, which in turn drives the transport belt 31 and forms, together with a nipping roller 18, the delivery nipping line 19. A cleaning element 32, in the form of a roller rotating in direction C, is arranged to the transport belt 31 on the side facing away from the suction slit 28. This roller is provided with a profiling 33 and is disposed, using a light pressure, on the transport belt 31, so that the transport belt 31 is reliably freed from adhering fibres. -6- WE CLAIM 1. An apparatus for condensing a drafted fibre strand In a condensing zone arranged downstream of a front roller pair of a drafting apparatus, comprising a stationary sliding surface, which comprises a suction slit extending essentially in transport direction of the fibre strand, also comprising an air-permeable transport belt located between the fibre strand and the sliding surface, which transport belt transports the fibre strand over the sliding surface, characterized In that a cleaning element (22;32) is pressed, using a tight pressure, to the transport belt (17;31) at a distance from the suction slit (14;28). 2. An apparatus as claimed in claim 1, wherein the cleaning element (22;32) takes the form of a rotating rotter. 3. An apparatus as claimed In claim 2, wherein the peripheral speeds of the transport belt (17;31) and the roller are set in opposite directions to one another. 4. An apparatus as claimed In claim 2 or 3, wherein the roller is provided on Its peripheral surface with a profiting (23;33). 5. An apparatus as claimed in claim 3 or 4, wherein the roller Is a driven bottom roller (6) of the front roller pair (2). 6. An apparatus as claimed in any one of the proceeding claims 1 to 5, wherein the sliding surface (16) comprises a recess (35) in the area of the cleaning element (22). 7. An apparatus as claimed in claim 6, wherein a suction device (36) is arranged to the recess (35). An apparatus for condensing a drafted fibre strand in a condensing zone arranged downstream of a front roller pair of a drafting apparatus, comprising a stationary sliding surface, which comprises a suction slit extending essentially in transport direction of the fibre strand, also comprising an air-permeable transport belt located between the fibre strand and the sliding surface, which transport belt transports the fibre strand over the sliding surface, characterized in that a cleaning element (22;32) is pressed, using a light pressure, to the transport belt (17;31) at a distance from the suction slit (14;28).

Full Text

BACKGROUND AND SUMMARY OF THE INVENTION
An apparatus for condensing a drafted fibre strand
The present invention relates to an apparatus for condensing a drafted fibre strand in a condensing zone arranged downstream of a front roller pair of a drafting apparatus, comprising a stationary sliding surface, which comprises a suction slit extending essentially in transport direction of the fibre strand, also comprising an air-permeable transport belt located between the fibre strand and the sliding surface, which transport belt transports the fibre strand over the sliding surface.
An apparatus of this type is prior art in, for example, US patent 5,600,872. During operation, there is a risk that individual fibres of the fibre strand for condensing, in particular the shorter fibres, many reach through the perforations of the transport belt with their front ends to the inside. If the fibres are not suctioned off by means of the suction slit, they are transported further with the transport belt and can, in time, clog the perforations, so that the desired condensing effect no longer occurs.
Condensing of a drafted fibre strand, namely in an area to which the spinning twist is not retroactive, serves to bundle the fibre strand in its cross section and to make it generally less hairy. After the spinning twist has been imparted, a smoother yam with higher tear-resistance is the result. If, however, due to an impaired condensing effect, the desired condensing does not take place, a so called Moire effect can occur in the finished fabric, which may render the product a reject It must therefore be ensured that the condensing effect is not impaired by the clogging of perforations at individual spinning stations.
It is an object of the present invention to ensure that the perforations of the transport belt do not become clogged and that the condensing effect is not impaired.
This object has been achieved in accordance with the present invention in that at a distance from the suction slit, a cleaning element is pressed onto the transport belt using a light pressure.
In the simplest embodiment of the present invention, the cleaning element can for example, be a stationary scraper-like component, which removes the remaining fibres adhering to the outside of

the transport belt. However, an even more suitable cleaning element has proven to be a rotating roller, which can basically be applied anywhere outside of the condensing zone at the periphery of the transport belt. It is hereby important that the speeds of the rotating roller and the transport belt differ from one another, preferably in that the peripheral speeds of the transport belt and of the roller are set in opposite directions. This is the case, for example, when the driven bottom roller of the front roller pair of the drating apparatus is chosen as the cleaning element, as then the directions of motion are automatically set in opposite directions.
The sliding surface advantageously comprises a recess in the area of the cleaning element This facilitates the cleaning of the transport belt, in particular when a suction device is arranged to the cleaning element and/or the recess.
The cleaning effect can be increased when the rotating roller is provided with a profiling on its peripheral surface.
BRIEF DESCRIPTION OF THE DRAWINGS
These and further objects, features ana advantages of the present invention will become more readily apparent from the following detailed description thereof when taken in conjunction with the accompanying drawings wherein:
Figure 1 is a part intersectiona! side view onto an apparatus of the present invention;
Figure 2 is a view of the direction of the arrow II of Figure 1 onto the condensing zone, whereby the other components have been omitted;
Figure 3 is a view similar to Figure 1 of another embodiment of the present invention.
DETAILED DESCRIPTION OF THE DRAWINGS
In the apparatus according to the Figures 1 and 2, only the front roller pair 2 of a drafting apparatus 1 and the apron roller pair 3 arranged upstream thereof are shown, whereby a bottom apron 4 and an upper apron 5 can be seen. The front roller pair 2 comprises a driven bottom roller 6 as well as an upper roller 7 flexibly pressed thereto.
The drafting apparatus 1 serves in a known way to draft a sliver or roving, denoted by the reference number 8, which is transported in transport direction A through the drafting apparatus 1. At the front nipping line 9 of the front roller pair 2, a drafted fibre strand 10 is present, which in this area is still twist-free.

A condensing zone 11 is arranged downstream of the front roller pair 2, in which the drafted fibre strand 10 is bundled in a way described above. The condensing zone 11 comprises a suction device 12, which is essentially formed by a hollow profiting 13 extending over a plurality of spinning stations. On the side facing the condensing zone 11, the hollow profiling 13 comprises per spinning station one suction slit 14, which extends essentially in transport direction and which is significantly wider than the drafted fibre strand 10. The hollow profiling 13 is provided per machine section of a plurality of spinning stations with a vacuum connection 15.
On its side facing the condensing zone 11, the outer contour of the hollow profiling 13 is a stationary sliding surface 16 for a rotating air-permeable transport belt 17. This is driven by a nipping roller 18, which in turn receives its drive from the upper roller 7 of the drafting apparatus 1 by means of a transfer roller 21. The nipping roller 18 forms, together with the stationary sliding surface 16, a delivery nipping line 19. downstream of which the spinning twist is introduced into the thread 20. The thread 20 is hereby fed in delivery direction B to a ring spindle (not shown).
Beginning at the suction slit 14 in the condensing zone 11, there is a risk that individual fibre ends may get through the perforations of the transport belt 17 and remain caught in the transport belt 17. These remaining fibres must be removed from the transport belt 17 so that the transport belt 17 does not, in time, become air-impermeable.
A cleaning element 22 is provided for the continuous cleaning of the rotating transport belt 17, which in this embodiment of the present invention is the driven bottom roller 6, which is disposed with a light pressure on the transport belt 17. At the point of contact, the directions of motion of the transport belt 17 and the bottom roller 6 are set in opposite directions, so that the cleaning effect is particularly intensive. Any remaining fibres caught in the perforations are reliably removed. Here a profiling 23 co-acts with the cleaning element, which profiling 23 is applied to the periphery of the driven bottom roller 6 and which can be in the form of, for example, longitudinal grooves, diagonal knurling or a grooving.
The cleaning effect can be further improved when the sliding surface 16 comprises a recess 35 in the area of the cleaning element 22, so that the transport belt 17 can yield a little at this point. Fibre fly. or the like, removed by the cleaning element 22 is then removed by an additional suction device 36.

In another embodiment of the apparatus of the present invention as shown in Figure 3, the reference numbers are retained insofar as they correspond to those in Figures 1 and 2. A repeat description is therefore omitted.
In the embodiment of the present invention according to Figure 3, a standard driven bottom roller
25 for drafting apparatus 1 is provided, which does not need to be provided with a profiling. The
front roller pair 24 is formed by the bottom roller 25 and the top roller 7 arranged thereto. A
condensing zone 26 is arranged downstream of the front nipping line 9, which condensing zone
26 is designed differently from the variation described above.
The condensing zone 26 as shown in Figure 3 comprises a suction device 27, which is directed with a suction slit 28 against a rotating transport belt 31. The suction device 27 is connected to a vacuum source (not shown) by means of a vacuum connection 29. The suction device 27 comprises again a stationary sliding surface 30, over which the air-permeable transport belt 31 slides. In this embodiment of the present invention, the transport belt 31 is looped around a separate driven delivery roller 34, which in turn drives the transport belt 31 and forms, together with a nipping roller 18, the delivery nipping line 19.
A cleaning element 32, in the form of a roller rotating in direction C, is arranged to the transport belt 31 on the side facing away from the suction slit 28. This roller is provided with a profiling 33 and is disposed, using a light pressure, on the transport belt 31, so that the transport belt 31 is reliably freed from adhering fibres.

-6-
WE CLAIM
1. An apparatus for condensing a drafted fibre strand In a condensing zone
arranged downstream of a front roller pair of a drafting apparatus,
comprising a stationary sliding surface, which comprises a suction slit
extending essentially in transport direction of the fibre strand, also
comprising an air-permeable transport belt located between the fibre
strand and the sliding surface, which transport belt transports the fibre
strand over the sliding surface, characterized In that a cleaning element
(22;32) is pressed, using a tight pressure, to the transport belt (17;31) at a
distance from the suction slit (14;28).
2. An apparatus as claimed in claim 1, wherein the cleaning element (22;32)
takes the form of a rotating rotter.
3. An apparatus as claimed In claim 2, wherein the peripheral speeds of the
transport belt (17;31) and the roller are set in opposite directions to one
another.
4. An apparatus as claimed In claim 2 or 3, wherein the roller is provided on
Its peripheral surface with a profiting (23;33).
5. An apparatus as claimed in claim 3 or 4, wherein the roller Is a driven
bottom roller (6) of the front roller pair (2).
6. An apparatus as claimed in any one of the proceeding claims 1 to 5,
wherein the sliding surface (16) comprises a recess (35) in the area of the
cleaning element (22).
7. An apparatus as claimed in claim 6, wherein a suction device (36) is
arranged to the recess (35).
An apparatus for condensing a drafted fibre strand in a condensing zone arranged downstream of a front roller pair of a drafting apparatus, comprising a stationary sliding surface, which comprises a suction slit extending essentially in transport direction of the fibre strand, also comprising an air-permeable transport belt located between the fibre strand and the sliding surface, which transport belt transports the fibre strand over the sliding surface, characterized in that a cleaning element (22;32) is pressed, using a light pressure, to the transport belt (17;31) at a distance from the suction slit (14;28).

Documents:

00066-cal-2000 abstract.pdf

00066-cal-2000 claims.pdf

00066-cal-2000 correspondence.pdf

00066-cal-2000 description(complete).pdf

00066-cal-2000 drawings.pdf

00066-cal-2000 form-1.pdf

00066-cal-2000 form-13.pdf

00066-cal-2000 form-18.pdf

00066-cal-2000 form-2.pdf

00066-cal-2000 form-26.pdf

00066-cal-2000 form-3.pdf

00066-cal-2000 form-5.pdf

00066-cal-2000 letters patent.pdf

66-CAL-2000-(09-02-2012)-CORRESPONDENCE.pdf

66-CAL-2000-(09-02-2012)-PA-CERTIFIED COPIES.pdf

66-CAL-2000-CORRESPONDENCE 1.1.pdf

66-CAL-2000-FORM-27.pdf

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Patent Number

203795

Indian Patent Application Number

66/CAL/2000

PG Journal Number

10/2007

Publication Date

09-Mar-2007

Grant Date

09-Mar-2007

Date of Filing

21-Feb-2000

Name of Patentee

SPLINDELFABRIK SUESSEN GMBH

Applicant Address

DAMMSTRASSE 1, 73079 SUSSEN, GERMANY

Inventors:

#	Inventor's Name	Inventor's Address
1	BARAUKE NORBERT	HEBELSTRASSE 7, 73073 DONZDORF, GERMANY

PCT International Classification Number

D 01 H 5/28

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	19921966.4	1999-05-12	Germany