EP3642403A1

EP3642403A1 - Compression device for a spinning machine

Info

Publication number: EP3642403A1
Application number: EP18734963.4A
Authority: EP
Inventors: Hanspeter KAPPELER; Robert Nägeli
Original assignee: Maschinenfabrik Rieter AG
Current assignee: Maschinenfabrik Rieter AG
Priority date: 2017-06-23
Filing date: 2018-06-06
Publication date: 2020-04-29
Also published as: WO2018234912A1; US20200216985A1; CH713916A1; JP2020524756A; CN110741112A

Abstract

The invention relates to a compression device, comprising two suction drums (17), wherein one suction drum (17) can be assigned to a output roll pair (7, 8) of a drafting unit (2) of a spinning machine, wherein the output roll pair (7, 8) consists of an output lower roll (7) and an output upper roll (8), wherein the suction drums (17) are mounted for rotation, by means of a bearing, on a shaft fastened to a support element, wherein a suction duct (31) runs inside the support element and wherein the suction drums (31) each have a drive element (40) which forms a drive connection with the output lower roll (7) in the operating position. The invention is characterized in that a protective guard (42) is arranged on the axle for the nip rolls (18) to prevent the formation of winding. The invention further relates to a protective guard (42) and a corresponding textile machine.

Description

Compaction device for a spinning machine Technical field

The invention relates to a compacting device for two juxtaposed drafting units of a spinning machine according to the preamble of the independent claim and to a equipped with a compacting machine textile machine.

State of the art

From practice, a large number of designs is already known, wherein for compacting (compacting) the fiber material discharged from a drafting unit (fiber strand) a compacting device is arranged downstream. Subsequent to such a compacting device, the compacted fiber material, after passing through a nip, a swirl-generating device is supplied. Such a swirling device consists e.g. in a ring spinning machine from a rotor, which rotates on a ring, wherein the yarn produced is wound on a rotating sleeve. As compression means are substantially evacuated circumferential, perforated suction drums or circumferential, provided with perforations straps used. In this case, a special suction region is defined on the compression element using corresponding inserts within the suction drum, or within the circumferential straps. Such inserts may e.g. be provided with correspondingly shaped suction slots, to which a negative pressure is applied, whereby a corresponding air flow is generated at the periphery of the respective compression element. As a result of this air flow, which is oriented essentially transversely to the transport direction of the fiber material, in particular projecting fibers are incorporated into the yarn.

In the known solutions, the fiber material discharged by the drafting unit is guided above or else below the compacting devices used. In particular when used on a ring spinning machine, it is necessary to provide an additional clamping point following the suction zone in order to obtain a swirl barrier. Such devices are for example in the publications

And have been shown and described EP 947614B1, DE102005010903A1, DE19846268C2, EP1612309B1, DE10018480A1 or CN1712588A. The publications mentioned above are essentially compression devices which are permanently installed following the respective drafting system. The drive of these compression devices takes place partly via special, arranged over the length of the spinning machine drive shafts, which are either with a suction roll or a rotating belt in drive connection or permanently installed drive connection to correspondingly arranged pressure rollers of Verdichtungseinrich- device.

In practice, there is a requirement to retrofit existing spinning machines with a conventional drafting unit with such a compacting device in order to secure the possibility of producing high-quality yarns even with these machines. Therefore devices have been proposed with which conventional drafting systems can be retrofitted with such a compacting device. Such can be taken, for example, from DE10227463C1, wherein the punch of the drafting unit is lengthened to support an additional drive roller. The drive roller, which extends over the entire length of the spinning machine, is provided for driving the retrofitted compacting device. The installation and installation of such retrofitting is very time consuming and inflexible, i. In a desired dismantling to a normal drafting without compression device again a very high amount of time is necessary.

In the published DE10050089A1 an embodiment is shown with a compacting device, which is intended for retrofitting to a conventional stretching factory equipment.

From CN 2851298Y a device is known, wherein a compaction roller with a rotation locking roller are received in a bearing element which is connected via a plate via screws with a pivotable loading arm of a drafting device. In mounted and locked position, the drive is driven by friction from a directly connected to a drive gear roller and its associated pressure roller transferred to the compaction roller and the rotation locking roller. The compacting device shown here is also intended for retrofitting to existing drafting equipment of spinning machines without compression. The attachment of the compression unit shown here to an existing drafting unit via a screw connection, as well as the threading at the axis of the pressure roller is relatively time consuming and requires an additional Einjustierung the distances. In addition, the connection to a vacuum source must be made separately.

In the embodiments described above, the suction elements, which are associated with a defined compression area for compressing the fiber material, are acted upon by additionally arranged lines, which are connected to a vacuum source, with a negative pressure.

In order to simplify such compacting devices, wherein a simple and quick installation to conventional drafting units is made possible without additional drive elements must be installed in WO2012068692A1 an embodiment is proposed, wherein the compression element in the form of a suction drum and the pinch roller are rotatably mounted on a support member. The support element is fastened detachably via fastening means on the spinning machine. In order to produce a drive connection between the drafting rollers and the dismountably mounted compacting device, the compacting device is pivoted about the support member about a pivot axis in the direction of the output roller pair of the drafting system, wherein in each case a coaxially mounted on the respective suction drum friction wheel with the lower roller of the output roller pair of the drafting a frictional connection ( over friction). By means of appropriately arranged spring elements (eg on the loading arm of the drafting system), the compacting device is held in this drive connection. To make the drive of the compacting device more flexible WO2012068692A1 further proposes to provide a second gear between the drive element of the compression element of the first gear stage and the compression element. A disadvantage of this embodiment, however, is that there is occasionally on the clamping axis of the pinch roller to a winding formation. Presentation of the invention

The invention is based on the object of simplifying and improving the compacting devices known from WO2012068692A1 for two drafting units arranged next to one another in order to prevent the formation of a lap on the axis of the pinch roller.

In particular, this object is achieved by a compacting device according to the preamble of the independent claim, which is characterized in that there is a protective shield on the axis of the pinch rollers to prevent winding formation.

Advantageously, the shield can consist of two protective elements, which are located on both sides of the storage between the respective pinch roller and the central storage. Both protective elements can be U-shaped and connected to each other via at least one web. They can be releasably connected to the pinch roller. The shield can be easily attached to the pinch roller in this way and removed, for example, for cleaning purposes. Both protective elements can be connected to one another via two webs, wherein the geometry of the webs provides for a rotation of the shield on the pinch roller, on the other hand that the shield can be releasably secured to the clamping roller in only one way. By this simple embodiment, a winding formation on the pinch roller is advantageously prevented.

The object is also achieved by a protective shield to prevent winding formation on the axis of the pinch rollers of a compacting device, wherein the protective shield is detachably fastened to the clamping axis. The shield may consist of two U-shaped protective elements which are releasably fastened to the axis of the pinch rollers and which are interconnected by a web. Advantageously, it may consist of plastic, wherein both protective elements are designed as a hollow profile. It can be made by injection molding. The above object is further achieved by a textile machine according to the preamble of the independent textile machine claim, which is characterized in that there is a protective shield on the axis of the pinch rollers to prevent winding formation. Further advantages of the invention will be apparent from an embodiment described below and shown.

Brief description of the figures

The invention will be explained in more detail with reference to the accompanying drawings, in which Figure 1 is a schematic side view of a drafting system with a support element according to the invention;

2 shows a plan view of a compression device according to the invention with a protective shield on the shaft of the clamping axis; and

Fig. 3 is a protective shield according to the present invention. represent. Only features important to the invention are shown. Like reference numerals designate like features in different figures.

Ways to carry out the invention

1 shows a schematic side view of a spinning station 1 of a spinning machine (ring spinning machine) with a drafting unit 2, which is provided with an input roller pair 3, 4, a middle roller pair 5, 6 and a pair of output rollers 7, 8. To the center rollers 5, 6 is in each case a strap 12, 13 out, which are each held around a cage, not shown in detail in its illustrated position. The upper rollers 4, 6, 8 of said pairs of rollers are designed as pressure rollers which are rotatably mounted on the axes 4a, 6a, 8a on a pivotally mounted pressure arm 10. A pressure arm 10 is assigned to two adjacent drafting unit units 2 (twin drafting system). The pressure arm 10 is pivotally mounted about an axis 15 and is, as shown schematically, via a spring element. 9 applied. This spring element may for example also be an air hose. About the spring load shown schematically, the rollers 4, 6, 8 pressed against the lower rollers 3, 5 and 7 of the roller pairs. The roller pairs 3, 5, 7 are driven by a drive, not shown. In this case, individual drives, as well as other forms of drive (gears, timing belts, etc.) can be used. About the driven lower rollers 3, 5, 7, the pressure rollers 4, 6, 8, and the belt 13 are driven via the belt 12 via friction. The peripheral speed of the driven roller 5 is slightly higher than the peripheral speed of the driven roller 3, so that the drafting unit 2 supplied fiber material 1 1 in the form of a fuse between the input roller pair 3, 4 and the middle roller pair 5, 6 is subjected to a pre-delay. The main delay of the fiber material 1 1 takes place between the middle roller pair 5, 6 and the pair of output rollers 7, 8, wherein the output roller 7 has a substantially higher peripheral speed than the center roller 5.

The drawn from the respective output roller pair 7, 8 stretched fiber material 1 1 is deflected downward and enters the region of a suction zone 16 of a subsequent suction drum 17, which is part of the inventive compression device. The respective suction drum 17 is provided with perforations or openings 39 extending on its circumference. Subsequent to the suction zone 16, a pinch roller 18 is provided for each of the suction drums 17, which rests on the respective suction drum 17 via a pressure load and forms a nip line therewith. In this case, the respective pinch roller 18 is rotatably mounted on an axis 19, which is held in a guide slot 20 of a U-shaped receptacle of a pressure arm 21. The axis 19 is slidably mounted transversely to its longitudinal axis within the guide slot 20. In the guide slot 20 protrudes through an opening of the pressure arm 21, a plunger which rests on the outer circumference of the axis 19 and is acted upon by a compression spring 22 shown schematically. The opening is approximately centrally located at the end of the guide slot 20 and opens into a, substantially closed cavity of the pressure arm 21, in which the compression spring 22 is arranged.

This is supported on the closed end of the cavity and lies with the opposite end on a head of the plunger. The pressure arm 21 is pivotally mounted about a, attached to its end axis in a bearing element. In this pivotal position, the axes are held transversely to its pivot axis at the end of a respective guide via a stop edge shown schematically in Figure 1. About the force of the compression spring 22 then rotatably mounted on the pressure arm 21 pinch rollers 18 are loaded against the respective suction drum 17, wherein the nip arises. The pressure arm 21 is pivoted over dead center until it rests on a stop. In this position, the axis 19 of the pinch rollers 18 is below the plane passing through the pivot axis and the center axis of the suction drums 17, that is, the pinch roller 33 is held in this position over dead center. Further details regarding the attachment and design of pinch rollers 18 can be found in CH705308.

Subsequently, the pressure lever 10 is pivoted about its pivot axis 15 of a dashed upper position in a lower position, in which via a fixed by means of screws 23 on the pressure lever 10 leaf spring 24 and the leaf spring fixed to the web 25 a compressive force on the compression device in the direction the roller 7 is exercised. Via a drive element 40 described below, the suction drum 17 connected thereto is driven by the roller 7 via friction.

In this "operating position", the fiber material 1 1 warped and discharged by the drafting unit 2 is fed to the following suction zone 16 of the respective suction drum 17 and compacted in a known manner under the influence of the generated suction air flow Above the suction zone 16, a deflecting screen arranged at a distance can still be mounted , as shown and described, for example, in DE 4426249. This publication also describes the course of the densification of the fiber material.

To generate the required negative pressure in the region of the suction zone 16, a vacuum source 26 is provided which communicates with a central suction channel 27. The suction channel 27 is connected via a line 28, a flexible coupling element 29 with the respective, in the direction of the suction channel 27 projecting end of Saugka- nals 31 of the compacting device, in conjunction. Due to the flexibility of the coupling element 29, the pivoting of the compression device about an axis 30 is made possible. The coupling element 29 shown schematically may be formed on its outer circumference, so that it is connected in a form-fitting manner when joining two half-shells and with a formed suction channel 31 outwardly. The construction and assembly of the half-shells in such a support element are known from WO2012068692A1. The spinning machine can be advantageously retrofitted with the compacting device. The nip line generated by the pinch roller 18 at the same time forms a so-called "rotation lock nip", from which the fiber material 11 is fed in the conveying direction in the form of a compressed yarn 32 with rotation of a schematically shown ring spinning device The yarn is wound on a sleeve 35 to form a bobbin 36. A yarn guide 37 is arranged between the nip line and the runner 34. The ring 33 is fastened to a ring frame 38, which during the process of FIG Spinning process performs an up and down movement.

Fig. 2 shows a plan view of a compression device according to the invention with a protective shield 42 on the shaft of the axis 19 of the pinch rollers 18 and Fig. 3 shows the shield 42 in a single view. The shield 42 consists of two protective elements 43, which are located on both sides of the storage / guide slot 20 between the respective pinch roller 18 and the central storage 20. Both protective elements 43 are U-shaped and connected via two webs 44 with each other. The geometry of the webs 44 provides for an anti-rotation of the shield 42 on the pinch roller 18, on the other hand that the shield 42 can be releasably secured to the pinch roller in only one way. Both protective elements 43 will be releasably connected to the axis 19 of the pinch roller 18. The shield 42 can be easily attached to the axis 19 in this way and removed, for example, for cleaning or replacement. Both protective elements 43 can be configured as a hollow profile, which allows a simple and cost-effective production. It can be made of plastic by injection molding. be presented. By this inventive embodiment, a winding form due to accumulation of fiber material through the protective shield 42 on the axis 19 of the pinch rollers 18 is prevented advantageous during loading ^¬ drive the compactor.

LIST OF REFERENCE NUMBERS

1 spinning station

2 drafting unit

3 input sub-roller

4 input top roller

4a axis

5 middle bottom roller

6 middle top roller

6a axis

7 output sub-roller

7a axis

8 output top roller

8a axis

9 spring element

10 pressure arm

1 1 roving

12 straps

13 straps

14 suction zone

15 axis

16 suction zone

17 suction drum

18 pinch roller

19 axis of the pinch rollers 19

20 guide slot / storage

21 pressure arm

22 compression spring

23 screws

24 leaf spring

25 footbridge

26 negative pressure source

27 suction channel

28 line

29 coupling element

30 axis

31 suction channel

32 yarn

33 ring

34 ring travelers

35 Kops Kitchen sink

thread guides

ring frame

openings

Friction wheel, drive wheel

supporting member

shield

Protective element of the protective shield 42

Bridge between the protective elements 43

Claims

claims

1 . Compaction device comprising

Two suction drums (17), wherein in each case a suction drum (17) can be assigned to a pair of output rollers (7, 8) of a drafting unit (2) of a spinning machine, wherein the pair of output rollers (7, 8) consists of an output lower roller (7) and an output upper roller (8) exists;

• wherein the suction drums (17) are rotatably mounted on a, attached to a support member (41) shaft with a bearing;

Wherein a suction channel (31) runs within the support element (41),

• wherein the suction drums (17) each have a drive element (40) which forms a drive connection in the operating position with the output lower roller (7), and

Wherein on the support element (41) two pinch rollers (18) are rotatably mounted on a common axis (19) centrally in a bearing (20), wherein each of the pinch rollers (18) for forming a nip respectively on the outer circumference of one of the two suction drums ( 17) rest under the action of a spring load,

characterized in that

on the axis (19) of the pinch rollers (18) is a protective shield (42) to prevent winding formation.

2. Compaction device according to claim 1, characterized in that the

Protective shield (42) releasably attached to the axle (19) is attached.

3. Compaction device according to claim 1 or 2, characterized in that the protective shield (42) consists of two protective elements (43) which are located on both sides of the bearing (20) between the respective pinch roller (18) and the central bearing (20).

4. Compaction device according to one of claims 1 to 3, characterized in that the protective shield (42) consists of two U-shaped protective elements (43) located on both sides of the central bearing (20) about the axis (19) between the respective pinch roller (19) and the central bearing (20), both U-shaped protective elements (43) via at least one web (44) connected to each other.

5. Compaction device according to one of claims 1 to 4, characterized in that the protective shield (42) consists of two U-shaped protective elements (43) on both sides of the central bearing (20) about the axis (19) around between the respective pinch roller (19) and the central bearing (20) are arranged, wherein both U-shaped protective elements (43) via at least one web (44) are interconnected, wherein the U-shaped protective elements (43) are provided as a hollow profile.

6. Compression device according to one of claims 1 to 5, characterized marked, that the protective shield (42) is secured against rotation on the pinch rollers (18).

7. Compaction device according to one of claims 1 to 6, characterized in that the protective shield (42) consists of plastic and is manufactured by injection molding.

8. Compression device according to one of claims 1 to 7, characterized in that within each suction drum (17) a suction insert is arranged, wherein the suction drums (17) have openings (39) and each suction insert a suction slot.

9. Protective shield (42) for preventing winding on the axis of the pinch rollers (18) of a compacting device according to one of claims 1 to 8, wherein the protective shield (42) releasably on the axis (19) of the pinch rollers (18) is fastened bar ,

10. Protective shield (42) according to claim 9, characterized in that it consists of two U-shaped protective elements (43) on the axis (19) of the pinch rollers (18) are detachably fastened and by at least one web (42) are interconnected.

1 1. Textile machine, in particular a ring spinning machine, with two adjoining drafting unit units (2) each having a pair of output rollers (7, 8), characterized in that it comprises a compacting device according to one of claims 1 to 8,

Wherein in each case a suction drum (17) is associated with the output roller pair (7, 8) of a drafting unit (2),

Wherein two clamping rollers (18) are rotatably mounted centrally on a support element (42) on a common axis (19),

Each of the pinch rollers (18) resting on the outer circumference of one of the two suction drums (17) under the action of a spring load to form a nip line,

characterized in that

on the axis of the pinch rollers (18) is a protective shield (42) to prevent winding formation.

12. Textile machine according to claim 1 1, characterized in that the shield is on both sides of the bearing (20) between the respective pinch roller (19) and the central bearing (20).

13. Textile machine according to one of claims 1 1 to 12, characterized in that the protective shield (42) consists of two protective elements (43) on both sides of the storage (20) between the respective pinch roller (19) and the central storage (20), wherein both protective elements (43) via a web (44) are interconnected.

14. Textile machine according to claim 13, characterized in that the protective shield (42) consists of two protective elements (43) which are located on both sides of the bearing (20) between the respective pinch roller (19) and the central bearing (20), both Protective elements (43) are U-shaped and connected by a web (44) and are releasably secured to the pinch roller (19).

15. Textile machine according to one of claims 13 to 14, characterized in that the spinning machine can be retrofitted with the compression device.