WO2010099870A1 - Open-end rotor spinning device - Google Patents

Abstract

The invention relates to an open-end rotor spinning device comprising a spinning rotor which, during the spinning process, rotates at a high rotational speed inside a rotor housing, which can be subjected to negative pressure and which can be closed by a covering element. The covering element has a receptacle for positioning a channel plate adapter matched to the spinning rotor, an opening cylinder rotatably supported in an opening cylinder housing, and an at least two-part fiber guide channel having channel sections, the center longitudinal axes of which are arranged at an angle to one another, and of which the channel section on the input side is integrated into a fiber guide channel insert which can be fixed in a bearing hole in the opening cylinder housing, while the channel section on the output side is a constituent part of the respective channel plate adapter. According to the invention, a fiber guide channel insert (30) can be fixed in the bearing hole in the opening cylinder housing (17), of which insert at least one channel portion (28, 28B) runs at an angle of inclination (a, ß) with respect to a reference line (29) arranged parallel to the outer wall of the fiber guide channel insert (30), wherein the angle of inclination (a, ß) is in each case matched to an associated channel plate adapter (12).

Description

Description:

Open-end rotor spinning device

The invention relates to an open-end rotor spinning device according to the preamble of claim 1.

As known in the textile machinery industry and described in numerous patents, Offenbach

Rotor spinning devices via a spinning rotor, which rotates during the spinning process at high speed in a vacuum-pressurized rotor housing.

The forwardly open itself to the rotor housing is hermetically sealed during the spinning process by a cover element, in which a replaceable channel plate adapter is embedded. The lid member usually also has a Auflösewalzengehäuse and bearing brackets for an opening roller and a Faserbandzuführzylinder, and is connected via a pivot axis which is orthogonal to the axes of rotation of opening roller and Faserbandzuführzylinder limited movably connected to an associated spin box housing, for example, the storage and having the drive for the spinning rotor.

In such open-end rotor spinning devices, the individual fibers which are combed out of the opening roller from a master fiber sliver are conveyed via a so-called fiber guide channel to the revolving spinning rotor and are spun by this into a continuously removable thread.

The Faserleitkanäle these known open-end rotor spinning devices are usually formed in two parts. That is, usually in a bearing bore of the opening roller housing a Faserleitkanaleinsatz is arranged, which has the input-side channel portion of a Faserleitkanals, while the output-side channel portion of the Faserleitkanals is disposed within an interchangeable Kanalplattenadapters, as mentioned above, in a corresponding receptacle in the lid member can be fixed is. During operation, in the recording of the lid member positionally accurate fixed, replaceable if necessary channel plate adapter, which has in addition to the output side channel portion of the fiber guide also has a through hole for fixing a thread take-off, with a tower-like intent in the rotating spinning rotor.

Furthermore, in the context of open-end rotor spinning devices, it has long been known that in order to produce good quality open-end yarns, certain constraints, such as the disposition and dimensioning of the spinning elements, must be met. The design and arrangement of the Faserleitkanals, in particular the distance of the Faserleitkanalmündung to the fiber sliding surface in the spinning rotor and the formation and the course of the clear Faserleitkanalquerschnitts have a significant influence on the achievable yarn quality. In the interest of optimal spinning results, it is therefore advantageous to assign each spinning rotor, in particular according to its diameter, a suitable channel plate adapter. This means that, in practice, if, for example, a replacement of the spinning rotors is carried out in the course of a yarn lot change, a change of the channel plate adapter often takes place.

By DE 198 36 066 Al or DE 39 23 060 Al, for example, open-end spinning devices are known, which are each equipped with a two-part Faserleitkanal. An input-side channel section arranged in a fiber guide channel insert which is fixed in a bearing bore of the opening roller housing and an output-side channel section of a fiber guide channel arranged in the cover element or in a channel plate adapter are arranged such that the central longitudinal lines of the channel sections are inclined relative to one another at an advantageous angle. Such an inclined arrangement of the channel sections of a fiber guide channel has been found to be advantageous with respect to the pneumatic fiber transport, in particular if the angle between the central longitudinal lines of the channel sections is exactly matched to the present yarn and / or spinning parameters.

Since channel plate adapters, depending on the size of the channel plate adapter, the course of the output side channel portion of the fiber guide channel is often dictated by the present geometric relationships, there is a risk that certain between Kanalplatteadaptergrößen arranged between the arranged in a Faserleitkanaleinsatz input side channel section and in the

Channel plate adapter integrated output side channel section adjusts an angle of inclination, which is disadvantageous spinning technology.

It has therefore already been proposed in DE 10 2004 017 700 Al to connect the fixed, output-side channel section arranged within the channel plate adapter to the input-side channel section via a joint ball connection, which runs in a fiber guide channel insert, which, as usual, in a bearing bore of an opening roller housing is arranged.

The opening cylinder housing is in turn limited movably mounted and can be adjusted to set a suitable angle of inclination between the channel sections defined.

Although such a construction can be largely avoided that occur between the channel sections of a fiber guide unfavorable inclination angle, the construction is quite complex and relatively expensive. Based on the aforementioned prior art, the present invention seeks to provide an open-end rotor spinning device of the type described above, with a Faserleitkanal, the formation of which allows a simple way to optimize the FaseraufSpeisung on the fiber sliding surface of a spinning rotor.

This object is achieved by an open-end spinning device having the features described in the characterizing part of claim 1.

Advantageous embodiments of the invention are the subject of the dependent claims.

An open-end rotor spinning device with a Faserleitkanaleinsatz which is fixed in a bearing bore of an opening roller housing and in which at least one channel portion part with respect to a to the outer wall of Faserleitkanaleinsatzes parallel reference line extends at an inclination angle, the angle of inclination is tuned to the particular channel plate adapter used, in particular Advantage that even after replacement of the spinning rotor and the channel plate adapter, for example due to a change of yarn, by using a suitable Faserleitkanaleinsatzes can be ensured in a simple and inexpensive manner that between the channel sections a suitable inclination angle is given and thus in the fiber guide optimal flow conditions are given, at the same time ensuring optimum fiber feed to the fiber slipper surface of the spinning rotor.

That is, after having become necessary by replacing the spinning rotor replacement of the channel plate adapter can be easily and inexpensively ensured by the installation of a corresponding Faserleitkanaleinsatzes that between the central longitudinal lines of the channel sections of Faserleitkanals is always set an optimal angle of inclination.

As described in claim 2, is in an advantageous

Embodiment provided that the Faserleitkanaleinsatz is integrally formed.

The one-piece construction of the Faserleitkanaleinsatzes has the particular advantage of a relatively simple production of suitable Faserleitkanaleinsätze.

In addition, the stock of designed

Faserleitkanaleinsätzen, with respect to the inclination of their

Channel section distinguish, that is, on different

Channel plate adapters are adjusted, relatively straightforward.

According to claim 3, the Faserleitkanaleinsatz has a concave curved sealing surface, which corresponds with an associated channel plate adapter. This sealing surface ensures that a pneumatically clean transition is provided between the outlet region of the inlet-side channel section and the inlet region of the outlet-side channel section.

As described in claim 4, the Faserleitkanaleinsatz may also be formed as a two-part component.

In this case, as usual, a first member fixable in a bearing bore of the opening cylinder housing has a first channel portion and an easily exchangeable second member securable to this first member is provided with another channel portion which is inclined with respect to the channel portion of the first member. The inclination of the channel section part of the second component is in each case matched exactly to a specific channel plate adapter.

This means that in a spin agent change with channel plate adapter replacement can by a corresponding Changing the second component of the Faserleitkanaleinsatzes be adapted to the new circumstances in a simple way the Faserleitkanal the open-end spinning device.

As described in claims 5 and 6, the second one is

Component via a connecting flange easily to the first

Component connectable.

The connection flange has a groove for receiving a

Sealant on.

The connection flange prevents, in particular in conjunction with a corresponding sealing means, preferably an O-seal, that false air can enter the Faserleitkanal.

That is, through the connection flange can be ensured that within the channel section parts of the

Faserleitkanals a largely undisturbed Saugluftströmung is pending, which is essential for a uniform pneumatic transport of the combed out by the opening roller individual fibers.

As set forth in claim 7, also in a two-part Faserleitkanaleinsatz has the second component of the

Faserleitkanaleinsatzes in the exit region of the channel section a concave curved sealing surface.

As already explained in connection with a one-piece Faserleitkanaleinsatz, this sealing surface corresponds with an associated channel plate adapter and ensures that in the transition region between the channel sections a clean pneumatic transition is given.

Further details of the invention are shown in an embodiment shown below with reference to the drawings. It shows :

1 is a side view of an open-end rotor spinning device with a arranged in a bearing bore of an opening roller housing Faserleitkanaleinsatz,

2 an opening cylinder housing with Faserleitkanaleinsatz in front view, partly in section,

3 shows a first, two-part embodiment of a Faserleitkanaleinsatzes,

Fig. 4 shows another, one-piece embodiment of a Faserleitkanaleinsatzes.

The open-end rotor spinning device shown in FIG. 1 bears the reference number 1 overall.

Such open-end rotor spinning devices have, as is known, a rotor housing 2, in which the spinning cup of a spinning rotor 3, which is supported with its rotor shaft 4 in the bearing gusset of a support disk bearing 5, rotates at high speed.

The rotor shaft 4 of the spinning rotor 3 is acted upon by a machine-long tangential belt 6, which is made by a Andrückrolie 7.

The axial fixation of the rotor shaft 4 on the support disk bearing 5 preferably takes place via a permanent magnetic thrust bearing 18.

The rotor housing 2, which is open towards the front, is closed during the spinning operation by a pivotably mounted cover element 8 into which a seal 9 is embedded. The rotor housing 2 is also connected via a corresponding suction line 10 to a vacuum source 11, which generates the necessary spin pressure in the rotor housing 2.

In the lid member 8 is in a receptacle

Channel plate adapter 12 is arranged, which has the Fadenabzugsdüse 13, the output-side channel portion 26 of a Faserleitkanals 14 and the mouth portion 27 of the Faserleitkanals 14. At the thread take-off nozzle 13, a thread withdrawal tube 15 connects.

In addition, an opening roller housing 17 is fixed to the lid member 8, which is mounted rotatably limited about a pivot axis 16.

The cover element 8 furthermore has bearing brackets 19, 20 arranged at the rear for supporting an opening roller 21 or a sliver feed cylinder 22. The opening roller 21 is either driven single motor or is, as shown in the exemplary embodiment, driven in the region of their host blade 23 by a rotating machine-long tangential 24. Also, the drive of the sliver feed cylinder 22 can be done on a single motor or it is a worm gear assembly is provided, which is connected to a machine-length drive shaft 25.

The disintegrated in the opening roller 17 by the opening roller 21 from a (not shown) original fiber tape singled fibers are fed via the fiber guide 14 on the rotating at high speed spinning rotor 3, spun into a thread and then, as usual, wound into a cheese.

The fiber guide channel 14 has at least two channel sections 26, 28, wherein the outlet-side channel section 26 in the Channel plate adapter 12 is integrated.

The input-side channel section 28 is part of a Faserleitkanaleinsatzes 30 which can be fixed in a bearing bore of the opening roller housing 17.

According to a first advantageous embodiment, which in the

Figures 2 and 3 is the Faserleitkanaleinsatz

30 formed in two parts.

That is, the Faserleitkanaleinsatz 30 consists of a first

Component 31 with a channel portion portion 28 A and a fixable on the first component 31 second component 32 with a

Channel section 28B.

The second component 32 in this case has a connecting flange 33 with a groove 34 in which a sealing means, preferably an O-ring.

Ring seal 35, is fixed.

As shown in FIG. 2, in the assembled state, the second component 32 with the connection flange 33 fits into a connection opening 37 of the first component 31 in such a way that the channel section parts 28A and 28B form a pneumatically continuous, inlet-side channel section 28. As shown in Fig. 3, the channel portion portion 28A extends in the first component 31 parallel to a parallel to the outer wall of the component 31 arranged reference line 29, while the channel portion portion 28B in the second component 32 with respect to the outer wall 29 of the component 32 parallel reference line 29 under a Angle α is arranged inclined. The inlet-side channel section 28 consisting of the channel section parts 28A and 28B begins, as shown particularly in FIG. 2, at a small distance from the periphery of the opening roller 21 and ends in the region of a sealing surface 36 which corresponds to an associated channel plate adapter 12. That is, the arranged in Faserleitkanaleinsatz 30 input side channel portion 28 of the fiber guide 14 goes forming an advantageous angle of inclination in the integrated in the channel plate adapter 12 output-side channel portion 26 of the fiber guide 14 via. A further advantageous embodiment of a Faserleitkanaleinsatzes 30 is shown in FIG. 4. The Faserleitkanaleinsatz 30 is formed in one piece in this embodiment, wherein the arranged inside the Faserleitkanaleinsatzes 30 input side channel section 28 with respect to the outer wall of the Faserleitkanaleinsatzes 30 parallel reference line 29 is inclined at an angle ß.

Also in this embodiment, the input-side channel portion 28 of the fiber guide 14 begins with a small distance to the periphery of the opening roller 21 and ends in the region of a sealing surface 36, which corresponds to an associated channel plate adapter 12.

Claims

Claims:

1. Open-end rotor spinning device with a spinning rotor, which rotates during the spinning process at high speed in a unterdruckbeaufschlagbaren, closable by a lid member rotor housing, wherein the lid member has a receptacle for positioning a tuned to the spinning rotor channel plate adapter, a rotatably mounted in a Auflösewalzengehäuse opening roller and an at least two-part Faserleitkanal with channel sections whose central longitudinal axes are arranged inclined to each other and the input-side channel portion is integrated into a Faserleitkanaleinsatz which can be fixed in a bearing bore of the opening roller housing, while the output-side channel section is part of the respective channel plate adapter,

characterized,

in that a fiber guide channel insert (30) can be fixed in the bearing bore of the opening roller housing (17), at least one channel section part (28, 28B) being inclined at an inclination angle (α, β) relative to a reference line (29) arranged parallel to the outer wall of the fiber guide channel insert (30). runs, with the inclination angle

(α, ß) each on an associated channel plate adapter

(12).

2. Open-end rotor spinning device according to claim 1, characterized in that the Faserleitkanaleinsatz (30) is integrally formed.

3. Open-end rotor spinning device according to claim 2, characterized in that the Faserleitkanaleinsatz (30) has a concave curved sealing surface (36) which corresponds to the associated channel plate adapter (12).

4. open-end rotor spinning device according to claim 1, characterized in that the Faserleitkanaleinsatz (30) is designed as a two-part component, with a in the bearing bore of the opening roller housing (17) fixable first component (31) having a first channel portion portion (28A), and a second component (32) which can be fixed detachably on the first component (31) and which has a second channel section part (28B) arranged inclined with respect to the channel section part (28A) of the first component (31).

5. Open-end rotor spinning device according to claim 4, characterized in that the second component (32) via a connecting flange (33) to the first component (31) can be connected.

6. open-end rotor spinning device according to claim 5, characterized in that the connecting flange (33) has a groove (34) for receiving a sealing means (35).

7. Open-end rotor spinning device according to claim 4, characterized in that the second component (32) in the output region of the channel section portion (28B) has a concave curved sealing surface (36) which corresponds to the associated channel plate adapter (12).