Yarn deflection unit

Abstract

A yarn deflection unit for a textile machine, having a housing comprising a curved wall section for forming a radially outer wall section of a curved yarn deflection channel. The solution proposed by the invention is distinguished in that the curved wall section has a yarn guiding groove extending along the curvature for receiving and guiding a yarn.

Claims

1. A yarn deflection unit for a textile machine, having a housing comprising a curved wall section for forming a radially outer wall section of a curved yarn deflection channel, characterised in that the curved wall section has a yarn guiding groove extending along the curvature for receiving and guiding a yarn and that the yarn guiding groove is delimited in the curvature direction by ends forming respective yarn passages, the groove depths of which ends, proceeding from the common groove base, are different from each other.

2. The yarn deflection unit according to claim 1, characterised in that the yarn guiding groove forms a V- or U-shaped cross-sectional shape along the curvature.

3. The yarn deflection unit according to claim 1 characterised in that the curved wall section having the yarn guiding groove has a circular-arc-like cross-section along the curvature.

4. The yarn deflection unit according to claim 1, characterised in that the housing has a contact section for the contacting of an end section of a yarn guiding element, which end section is open toward the yarn guiding groove and via which end section a yarn can be guided into the yarn guiding groove or out of the yarn guiding groove.

5. The yarn deflection unit according to claim 1, characterised in that the yarn deflection unit has a flow guiding element, which guides an air flow directed into the yarn deflection channel toward the yarn guiding groove.

6. The yarn deflection unit according to claim 5, characterised in that the flow guiding element and a retainer are coupled to each other or are formed from one piece.

7. The yarn deflection unit according to claim 6, characterised in that the flow guiding element and/or the retainer can be detachably fastened to the housing, wherein in the fastened state the flow guiding element or the retainer forms a wall section of the yarn deflection channel which lies opposite the open yarn guiding groove.

8. A yarn deflection unit for a textile machine, having a housing comprising a curved wall section for forming a radially outer wall section of a curved yarn deflection channel, characterised in that the curved wall section has a yarn guiding groove extending along the curvature for receiving and guiding a yarn and the housing has a contact section for the contacting of an end section of a yarn guiding element, which end section is open toward the yarn guiding groove and via which end section a yarn can be guided into the yarn guiding groove or out of the yarn guiding groove and the yarn deflection unit has a retainer for retaining the open end section in at least one direction different from the guiding direction of the yarn.

9. A yarn deflection unit for a textile machine, having a housing comprising a curved wall section for forming a radially outer wall section of a curved yarn deflection channel, characterised in that the curved wall section has a yarn guiding groove extending along the curvature for receiving and guiding a yarn The yarn deflection unit according to claim 1, characterised in that and the housing has a housing side wall, which is connected to the curved wall section and extends transversely thereto and forms a holder for a yarn deflection roller, which, when held, forms a wall section of the yarn deflection channel which lies opposite yarn guiding groove.

10. The yarn deflection unit according to claim 9, characterised in that the housing has, on the side opposite the housing side wall, an air flow passage that communicates with the yarn deflection channel.

11. The yarn deflection unit according to claim 10, characterised in that the air flow passage is formed by a protrusion, which is connected to the curved wall section and extends transversely thereto, an intermediate space for the intermediate positioning of the yarn deflection roller thus being formed, wherein such a width of the intermediate space is chosen that the yarn deflection roller can be positioned on the holder such that an air gap is formed between the yarn deflection roller and the protrusion, the protrusion being shorter, proceeding from the curved wall section in an extension direction parallel to the opposite housing side wall, than the opposite housing side wall.

12. The yarn deflection unit according to claim 11, characterised in that the protrusion is formed by a circular arc segment.

13. The yarn deflection unit according to claim 12, wherein width of the circular arc segment has a width along the extension direction between 0.3 mm and 5 mm.

14. A method for operating a workstation of a textile machine, having a winding device for winding a take-up package, a yarn feeding device for feeding a yarn and a yarn draw- off device, which is interposed between the winding device and the yarn feeding device in the yarn path, for drawing off a yarn from the take-up package; characterised in that a yarn deflection unit for a textile machine, having a housing comprising a curved wall section for forming a radially outer wall section of a curved yarn deflection channel, the curved wall section having a yarn guiding groove extending along the curvature for receiving and guiding a yarn, and wherein the yarn defection unit is arranged interposed between the winding device and the yarn draw-off device in the yarn path, take-up-package-side yarn end is transported from a take-up package, which is rotatably retained in the winding device, via the yarn deflection unit to the yarn draw-off device with air flow accompaniment after a yarn interruption, and the yarn end is inserted into the yarn draw-off device, wherein an air flow used to accompany the yarn is reduced or switched off when or after the yarn is inserted into the yarn draw-off device.

15. A workstation of a textile machine, having a winding device for winding a take- up package, a yarn feeding device for feeding a yarn and a yarn draw-off device, which is interposed between the winding device and the yarn feeding device in the yarn path, for drawing off a yarn; characterised in that a yarn deflection unit for a textile machine, having a housing comprising a curved wall section for forming a radially outer wall section of a curved yarn deflection channel, the curved wall section having a yarn guiding groove extending along the curvature for receiving and guiding a yarn, and wherein the yarn defection unit is arranged interposed between the winding device and the yarn draw-off device in the yarn path, is arranged, a deflection angle (α) provided by the yarn deflection unit being less than 85°.

16. The workstation according to claim 15, wherein the deflection angle (α) provided by the yarn deflection unit being 70° or less.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention is explained in greater detail below on the basis of embodiment examples shown in the drawings.

(2) In the figures:

(3) FIG. 1 shows a schematic perspective side view of a yarn deflection unit according to an embodiment example,

(4) FIG. 2 shows a schematic side view of the yarn deflection unit shown in FIG. 1, without the yarn deflection roller and the retainer,

(5) FIG. 3 shows a schematic view from below of the yarn deflection unit shown in FIG. 2,

(6) FIG. 4 shows a perspective longitudinal sectional view of the yarn deflection unit shown in FIG. 3, along the section line and

(7) FIG. 5 shows a schematic sectional view of the yarn deflection unit shown in FIG. 1.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

(8) In the following description of embodiment examples, the same or similar reference signs are used for the elements shown in the various figures and having a similar effect, in which case the descriptions of these elements are not repeated.

(9) FIGS. 1 to 4 show a yarn deflection unit 1 according to a preferred embodiment example in different schematic views. FIG. 1 shows a schematic perspective side view, FIG. 2 a schematic side view, FIG. 3 a schematic view from below and FIG. 4 a perspective longitudinal sectional view along a section line W-W of the yarn deflection unit 1.

(10) The yarn deflection unit 1 comprises a housing 2, which in particular is formed of an antistatic material and/or plastic-containing material, for example by means of an injection molding process. The housing 2 can be formed as a single piece or can be composed of several parts. The particularly preferred single-piece, e.g. injection-moulded design is advantageous with respect to cost and production process. The additionally or alternatively preferred antistatic design of the housing of the yarn deflection unit promotes in particular an improved, lower-friction deflection in the absence of, for example, static adhesion.

(11) The housing 2 has a housing entry 4 and a housing exit 6, which are connected to each other by means of two straight wall sections 12, 14, between which a curved wall section 10 is interposed. The curved wall section 10 is cross-sectionally formed from a circular arc having a defined radius. In this preferred embodiment example, the curved wall section 10 is bordered at ends thereof by the two straight wall sections 12, 14. The straight wall sections 12, 14 and the curved wall section 10 are approximately U-, V- or W-shaped in a cross-section along a section line that extends transversely to an arrangement direction of the wall sections 10, 12, 14, with a housing roof 16 and two housing side walls 18, 22 lying opposite each other and extending out from the housing roof 16, an intermediate space 24 thus being formed, which should be understood as a housing channel. The ends of the mutually opposite housing side walls 18, 22 delimit an open housing side formed in the cross-sectional plane. The housing channel or intermediate space 24 formed between the housing side walls 18, 22 lying opposite each other is part of a yarn deflection channel 30 (FIG. 3).

(12) Of the two housing side walls 18, 22, one housing side wall 18 forms, in one section, a holder 19 for holding and rotatably supporting a yarn deflection roller 26. For this purpose, as shown in FIG. 2, the holder 19 as shoulder disc is provided with a fastening opening 20 for rotatably supporting the yarn deflection roller 26. The yarn deflection roller 26 is usually, in this embodiment example, formed with a V-shaped yarn guiding channel 28, which forms the yarn deflection channel 30 together with the housing channel 24 when the yarn deflection roller 26 is held on the holder 19.

(13) The other of the two housing side walls 18, 22 is formed as a protrusion 23 in one section, which protrusion 23 extends parallel to the holder 19 from the housing roof 16 but with a shorter extension length than the holder 19. The protrusion 23 has such an extension length that a circular-arc-segment-like edge region 27 of the yarn deflection roller 26 facing the protrusion 23 is at least partially covered by the protrusion 23 when the yarn deflection roller 26 is held. The edge region 27 delimits a fastening passage 29 in the yarn deflection roller 26, through which fastening passage 29 the yarn deflection roller 26 can be fastened to the holder 19 by means of a fastening screw 33 in this preferred embodiment example. The shorter design of the protrusion 23 therefore enables easy fastening of the yarn deflection roller 26 to the holder 19 through the fastening passage 29.

(14) The holder 19 has such a distance from the protrusion 23 along the housing channel 24 formed in between that the yarn deflection roller 26 can be fastened to the holder 19 in an interposed position such that an air gap is formed between the protrusion 23 and the edge region 27. Via the air gap, a portion of an air flow introduced into the yarn deflection channel 30 can escape at the side of the housing 2 in a defined manner, for example in dependence on the selected size of the air gap. Thus, when there is an air flow in the yarn deflection channel 30, air flow turbulence and undesired back pressure, which have a disadvantageous effect in the course of yarn guidance deflected via the yarn deflection unit 1 particularly when a yarn end is guided through the yarn deflection channel 30, can be suppressed. The size of the air gap can additionally or alternatively be influenced in dependence on the dimension of the yarn deflection roller 26. Furthermore, the air gap promotes easier insertion of the yarn deflection roller into the housing channel 24 with play.

(15) FIGS. 1 to 4 also show a fastening section 32 arranged on the housing 2, having fastening passages 34 for fastening the housing 2 to or in the region of a workstation of a textile machine, which workstation is not shown. In this preferred embodiment example, the fastening section 32 forms the housing entry 4.

(16) As shown in detail in FIGS. 1 and 3 to 5, the housing 2 also has a fastening opening 20 for fastening a retainer 40, which is designed to cover an open section of the housing channel 24 and to retain an open end section 52 of a yarn guiding element 50, which open end section 52 is inserted into the housing entry 4. The open end section 50 comes in contact, at an end thereof, with a contact section 36 formed by the housing 2. For this purpose, the retainer 40 is fastened to the housing side walls 18, 22 of the housing 2 in the region of the straight wall section 12 by means of fastening screws 33, which engage in the respective associated fastening openings 20.

(17) The retainer 40 has a contour corresponding to the edge of the housing side walls 18, 22, whereby the retainer 40 can be laid or arranged on respective end edges of the housing side walls 18, 22. As shown in FIG. 5, the contour is designed in such a way that an air flow introduced into the yarn deflection channel 30 via the yarn guiding element 50 is deflected toward the housing roof 16. For this purpose, the retainer 40 has a flow guiding element 41, which is coupled to a retaining section of the retainer 40, which retaining section is provided for retaining the open end section 52. In an alternatively preferred way, the flow guiding element 41 can be provided as an individual component independent of the retainer 40. By means of the flow guiding element 41, an air flow introduced into the yarn deflection unit can be expediently deflected. The form of the flow guiding element 41 can be arranged and designed so as to meet the requirements for the expedient deflection of an air flow.

(18) In the region of the housing roof 16, a yarn guiding groove 42 open toward the yarn deflection channel 30 is formed for the guiding deflection of a yarn inserted into the yarn deflection unit 1. In this preferred embodiment example, the yarn guiding groove 42 extends from the entry-side straight wall section 12 via the curved wall section 10 to the following exit-side straight wall section 14. The yarn guiding groove 42 has, in this preferred embodiment example, a U-shaped cross-section in a sectional plane extending transversely to the direction of curvature. Alternatively, the yarn guiding groove 42 can have any other cross-sectional shape that is suitable for guiding a yarn through the yarn deflection unit 1 in a deflecting manner. For example, the cross-sectional shape can have a V, W or similar shape as described above as examples, such as two legs tapering or converging towards each other in the direction of an open end of the cross-sectional shape, the two legs being joined together on a side opposite the open end. Such a shape is also known as a bulging crucible shape, for example.

(19) In this preferred embodiment example, the yarn guiding groove 42 is formed as a recess in the housing roof 16 on a wall inner side facing the yarn deflection channel 30. Alternatively, the yarn guiding groove 42 can preferably be designed as a channel arranged on the inner side of the housing roof 16 and open toward the yarn deflection channel 30, said channel having two mutually opposite channel walls protruding from the inner side of the housing roof 16, in which case a section of the wall inner side of the housing roof 16 that is enclosed or interposed between the protruding channel walls forms the channel base of the channel thus formed.

(20) The arrangement of the yarn guiding groove 42 opposite the flow guiding element 41, which arrangement is shown in FIG. 5, promotes the guidance of a yarn, which has been inserted into the yarn deflection unit 1, into the yarn guiding groove 42 with air accompaniment. The yarn can therefore be reliably guided into the yarn guiding groove 42 and along the yarn guiding groove 42 out of the yarn deflection unit 1.

(21) The yarn guiding groove 42 is terminally delimited by ends 44, 46 forming respective yarn passages, the groove depths T1, T2 of which ends 44, 46, proceeding from the common groove base 43 of the yarn guiding groove 42, are different from each other. In other words, an open end 44 of the yarn guiding groove 42 has a smaller opening width than the other open end 46 of the yarn guiding groove 42. In this preferred embodiment example, the open end 44 having the smaller opening width forms an end entry for the yarn guiding groove 42, while the open end 46 having the larger opening width forms an end exit for the yarn guiding groove 42. The yarn to be guided in the yarn guiding groove 42 can thus be accompanied by means of an air flow in a manner optimised with respect to flow.

(22) By means of the yarn deflection unit 1 described above as an example, a yarn can be deflected by means of only one deflection means at a workstation of a textile machine at a deflection angle α of less than 90° or smaller deflection angles α of less than 85° or of 70°, as shown in FIG. 5, or less than 70°, without having to accept disadvantageous effects on the deflected yarn. In other words, according to a preferred embodiment example, a yarn path at a workstation of a textile machine, such as a winding machine or an open-end spinning machine, which comprises a winding device for winding a take-up package, a yarn feeding device for feeding a yarn and a yarn draw-off device, which is interposed between the winding device and the yarn feeding device in the yarn path, for drawing off a yarn, can be readily provided with a deflection angle α of less than 90° or a much smaller deflection angle α of 70° or less at the arrangement location of the yarn deflection unit, for example between the winding device and the yarn draw-off device. Thus, installation space can be spared at the workstation. Furthermore, numerous new possibilities with respect to the arrangement of yarn handling components at the workstation result.

(23) In addition, energy can be saved, for example, in the course of a method for operating the workstation according to a preferred embodiment example. The yarn deflection unit interposed between the winding device and the yarn draw-off device, according to one of the embodiment examples described above, enables the transporting of a take-up-side yarn end with air flow accompaniment from a take-up package rotatably retained in the winding device to the yarn draw-off device after a yarn interruption, such as a yarn cut or a yarn break, the transported yarn end being inserted into the yarn draw-off device and the air flow used to accompany the yarn being able to be reduced or switched off when or after the yarn is inserted into the yarn draw-off device, because the further transport of the yarn can be taken on by the yarn draw-off device.

(24) The described embodiment examples shown in the figures are only selected by way of example. Different embodiment examples can be combined with one another completely or with regard to individual features. Also, an embodiment example can be supplemented by features of a further embodiment example.

(25) If an embodiment example has an “and/or” link between a first feature and a second feature, this should be understood to mean that the embodiment example, according to one embodiment type, comprises both the first feature and the second feature and, according to a further embodiment type, comprises either only the first feature or only the second feature.

LIST OF REFERENCE SIGNS

(26) 1 Yarn deflection unit

(27) 2 Housing

(28) 4 Housing entry

(29) 6 Housing exit

(30) 10 Curved wall section

(31) 12, 14 Straight wall section

(32) 16 Housing roof

(33) 18, 22 Housing side wall

(34) 19 Holder

(35) 20 Fastening opening

(36) 23 Protrusion

(37) 24 Housing channel

(38) 26 Yarn deflection roller

(39) 27 Edge region

(40) 28 Yarn guiding channel

(41) 29 Fastening passage

(42) 30 Yarn deflection channel

(43) 32 Fastening section

(44) 34 Fastening passage

(45) 36 Contact section

(46) 40 Retainer

(47) 41 Flow guiding element

(48) 42 Yarn guiding groove

(49) 43 Groove base

(50) 44, 46 Open end of the yarn guiding groove

(51) 50 Yarn guiding element

(52) 52 Open end section

(53) T1, T2 Groove depth

(54) α Deflection angle

(55) It will therefore be readily understood by those persons skilled in the art that the present invention is susceptible of broad utility and application. Many embodiments and adaptations of the present invention other than those herein described, as well as many variations, modifications and equivalent arrangements, will be apparent from or reasonably suggested by the present invention and the foregoing description thereof, without departing from the substance or scope of the present invention. Accordingly, while the present invention has been described herein in detail in relation to its preferred embodiment, it is to be understood that this disclosure is only illustrative and exemplary of the present invention and is made merely for purposes of providing a full and enabling disclosure of the invention. The foregoing disclosure is not intended or to be construed to limit the present invention or otherwise to exclude any such other embodiments, adaptations, variations, modifications and equivalent arrangements.