EP0775769B1 - Device for clamping an underwinding yarn at a spindle of a spinning or twisting machine - Google Patents

Description

The invention relates to a device for clamping an underwinding thread on the spindle of a ring spinning or -twisting machine, the spindle being attached below a Kopses a fixed collar and one by means of an actuator axially displaceable to the spindle, with the collar in an effective clamping connection has bringable clamping sleeve and wherein the underwind thread wraps around the spindle with less than 360 ° the preamble of claim 1.

Such a device is used to prevent Avoid underwind threads on the spindles.

A device for this is already known as prior art (EP 0 292 856 A1), in which a clamping sleeve is used finds the multiple over its scope in the lower area Has slots. This slotted area works with one correspondingly designed area of another sleeve together in such a way that under the influence of centrifugal force the slotted area of the first ferrule of the adjacent area of the other sleeve releases and thus the clamping operative connection is canceled to the covenant.

This known construction requires the use of centrifugal force, also the interacting areas the sleeves have to be precisely coordinated, which is costly is and requires an exact assembly. Another The disadvantage is that the thread clamp is already closed significantly reduced spindle speed at which the Clamping force of the clamp may no longer be sufficient to achieve a sufficiently high clamping force.

A spinning device also belongs to the prior art, in particular ring spinning machine (EP 0 582 545 A1), in which an underwind crown sits on a spindle shaft, which in one Whorls is arranged. There is a sliding sleeve with an inner and outer flange application on which a projection of a Actuator strikes. The sliding sleeve is here against the force of an arranged between the inner flange and a ring edge Spring moved so that the underwind crown either out or gets into a receiving trough above the inner flange. In addition, a wear ring is used, which the External flange is assigned. Here was the problem to be solved with Help reduce wear and tear, as they can occur when spinning or piecing.

EP-A-587 526 relates to a generic arrangement for actuation a fixing sleeve for a ring spinning or twisting machine. A backdrop control is used, which it allows the locking sleeve to be unaffected by momentary Values of the parameters of a run spinning or piecing program in the various required positions move. This gate control requires precise manufacturing, which in turn is expensive.

Moving a clamping sleeve is also part of the prior art known with the help of a swivel lever, which this constantly Pressed clamping sleeve, which is a disadvantageously high There is wear (EP 0 142 486 B1).

In contrast, there is the object of the present invention in designing a device of the type mentioned in the introduction, that with a cost-saving construction, a considerable reduction in wear is achieved.

This object is achieved in that the actuator each as at least one collar of the clamping sleeve encompassing on both sides or one between two collars of the clamping sleeve protruding arm that can be loaded on both sides than at least a resilient tongue, as camshafts, as at least one rail or is designed as a threaded element. It there is the possibility of using pneumatic, mechanical or magnetic drives to move the individual Elements of the actuator.

A particularly simple and cost-saving, but very effective Construction arises when the pneumatic Drive the actuating device at least one inflatable, hose extending along the machine is used. This hose represents a known, commercially available Element that is longitudinal without great assembly or construction effort the machine can be arranged.

For self-locking of the clamping sleeve on the collar, this can be one cooperating with a clamping cone of the fixed collar of the sleeve Have clamping cones. Furthermore, in the area of fixed federal a cutting knife application, whereby it is guaranteed that the tearing off will not occur if the clamping is insufficient of the underwind thread is supported.

Fig. 1

einen Querschnitt durch eine Ringbank in Ausgangsstellung für das Unterwinden,

Fig. 2 und 3

Verfahrensschritte der erfindungsgemäßen Vorrichtung bei der Konstruktion nach Anspruch 1,

Fig. 4

eine andere Ausführungsform der Erfindung mit nur einem Schlauch bei gesenkter Klemmhülse,

Fig. 5 bis 11

verschiedene Ausführungsformen der Gestaltung der Betätigungsvorrichtung,

Fig. 12

eine vergrößerte Darstellung des Unterwinde- und Klemmbereichs mit Schneidring.

The invention is described below with reference to exemplary embodiments shown in the drawing. The drawing shows:

Fig. 1

a cross section through a ring bench in the starting position for the winch,

2 and 3

Process steps of the device according to the invention in the construction according to claim 1,

Fig. 4

another embodiment of the invention with only one hose with the clamping sleeve lowered,

5 to 11

different embodiments of the design of the actuating device,

Fig. 12

an enlarged view of the underwinding and clamping area with cutting ring.

Fig. 1 shows a cross section through a spindle bank 1 and a ring bench 3 at a work station of a ring spinning machine, which is defined by a spindle 2 on which a cop 4 stores. A thread 5 runs through a runner 6 to an area below a fixed collar 9 and forms in this zone part of an underwind thread 7.

The spindle 2 is below the fixed collar 9 of one Surround sleeve 8, which in the lower area two at a distance has bundles 15 and 16 lying apart. Between these An actuating element 11, which is part of an actuating device, protrudes 10 is. The actuating device 10 stands with a pneumatic or hydraulic drive 30 in connection.

Furthermore, a device 12 is provided, through which the Clamping sleeve 8 regardless of the actuator 10 in a clamping position K (according to FIG. 2) is held. This can - preferred - can be achieved in that the closed position of the Clamping sleeve 8 is self-locking or that a locking element with Suit (e.g. ball pressure lock acting on a ramp) between the spindle and the clamping sleeve is arranged.

The actuating element 11 is designed in the form of an arm 20, its front area in the space between the bundles 15 and 16 protrudes. On either side of the rear portion of the arm 20 there is an inflatable that extends along the machine Hose 40 and 41, with both hoses inside a housing 42 in the form of a rail are.

The drive 30 consists of a motor 43, a pump 44, control devices 45 and 45 'and switching valves 46 and 47. Will for example with the help of the control device 45 'the switching valve 47 moves downward, medium reaches pump 44 and a conduit 60 into the hose 41, thereby expanding it so that the arm 20 is loaded from below and lifts it.

Conversely, it is possible to operate the control device 45 to move the switching valve 46 into the working position, whereby Medium flows via line 61 into hose 40 and this expands so that the arm 20 acts from above and pushes it down.

Fig. 1 shows the starting position for underwinding: The Clamping sleeve 8 is lowered, the hoses 40 and 41 are not acted upon, the actuator 11, i.e. the arm 20 lies not on frets 15 and 16, spindle 2 makes its last Turn according to the thread 5 thread balloon, it will a half turn, as shown in dash-dotted lines, attached.

In the position according to FIG. 2, the lower hose 41 is connected Acted upon by the control device 45 'and the switching valve 47, so that the arm 20 over the collar 15, the ferrule 8th lifts. As a result, the underwind thread 7 between the fixed Collar 9 and the upper region of the clamping sleeve 8 clamped; this results in the clamping position K. The clamping sleeve 8 interacts with the fixed collar 9 so that it regardless of the action of the actuator 10, i.e. the arm 20 is held in the clamping position K.

3, the lower hose 41 is through Action of the control device 45 'and the switching valve 47 again relieved. The arm 20 returns to its rest position, in which it does not abut any of the bundles 15 and 16. The cop 4 is pulled off the underwind thread 7 in region X is torn off.

In a subsequent working position, not shown in detail the upper hose 40 via the control device 45 and the switching valve 46 acts, whereby the arm 20 on the Collar 16 acts and the clamping sleeve 8 from its clamping position K separates from the collar 9. This is the clamping of the bobbin thread 7 canceled. The clamping sleeve 8 may only be lowered after the re-spinning take place when the thread again through the newly built winding is held and no longer clamped are needed.

Fig. 4 shows an embodiment in which only one hose 40 'applies. Here, the hose 40 'over a Line 61 'connected to a drive 31, which in turn Analogously to FIG. 1, it has a motor 43 and a pump 44. Moreover are a control device 45 '' and a switching valve 47 ' provided with the switch positions a, b, c. Furthermore located there is a pressure control or pressure reducing valve in line 61 ″ 37, which keeps the outlet pressure constant.

The clamping sleeve 8 is in the position shown in FIG. 4 lowered, the only collar 15 is in a position in which he hooked arm 21, which the Actuator 11 forms, not touched. This arm is 21 behind the hose 40 'on a machine element of the ring spinning machine so attached that in cooperation with the Hose 40 'gives a resilient movement.

If in the switching valve 47 'the switching position c in the effective Positioned, the hose 40 'is vented, whereby the actuator 11 under spring action into the lowered Position goes and lowers the ferrule 8.

About the throttle valve 37 and the lines 61 '' and 61 can the hose 40 'are half loaded, resulting in a rest position of the arm 21 results (switch position b).

The switching valve 47 'is due to the action of the control device 45 '' in switch position a, so a full Actuation of the hose 40 ', whereby the clamping sleeve 8 through the arm 21 and the collar 15 is raised and in the clamping position K analogous to FIG. 2, in which an operative connection between the upper region of the clamping sleeve 8 and the fixed one Bund 9 is available.

In the embodiment according to FIG. 5, the actuator 11 in the form of two resilient tongues 22 and 22 ', which are attached to a rotatable shaft 32. Include both tongues the single collar 15 of the clamping sleeve 8.

The illustration shows the normal position. By swiveling the Tongue 22 'engages shaft 32 counterclockwise the collar 15 and lifts the clamping sleeve into the clamping position. Accordingly, by pivoting the shaft 32 clockwise by applying the tongue 22 to the collar 15, the clamping sleeve 8 the clamped position.

Alternatively, there is also the option of two bundles 15 and 16 to provide between which only a tongue, for example 22, can intervene.

6 only provides a resilient tongue 23, which when actuated by rotating the drive shaft 32 over the snapped over only fret 15. This resilient tongue 23 is thus able to over the collar 15, the ferrule 8 in the Moving area of the fixed federal 9, after which a snap follows into a rest position. When turning back towards the driving direction of the shaft 32 acts on the resilient Tongue 23 the collar 15 from above and thus removes it from the Clamping position K, after which the resilient tongue 23 again over the Collar 15 snaps and the position shown in the drawing occupies.

7 is the actuating element 11 in the form of two alternately rotatable camshafts 24 and 24 ' formed by means of which the clamping sleeve 8 with respect to the federal government 9 can be raised or lowered: First, the lower one Camshaft 24 'rotated and applied to the collar 15, whereby the clamping sleeve 8 is lifted into the area of the fixed collar 9 becomes. The federal government 15 thus occupies the dashed position. If the clamping K is to be released, the camshaft is acted upon 24 the collar 15 from above and leads the clamping sleeve 8 from the Clamp position K back to the rest position.

The camshafts 24, 24 'are moved back and forth by 180 ° or rotated by 360 ° so that they always come back into the drawn Return to the rest position in which they are not in contact with the collar 15.

The cams arranged on the camshafts can be any To have shape. For example, the camshafts could also cylindrical, but rotatable about an eccentric axis.

The embodiment according to FIG. 8 sees one between two bundles 15 and 16 storable rail 25, which with a drive 33 is connected in the form of a piston-cylinder unit 51. Means this piston-cylinder unit 51 can the rail 25 via a pin connected to the piston of the piston-cylinder unit 51 be raised or lowered. The piston of the piston-cylinder unit is acted upon on both sides by a spring 71 and 72, by means of which the piston and thus the rail 25 in the middle Rest position are held, as shown in Fig. 8.

The piston sides are acted on by one of two Channels 73 and 74, causing rail 25 to either be raised or is lowered.

Alternatively, there is also the possibility that only one federal government 15 is provided, the rail 25 being fork-like for actuation is formed and includes the federal government 15.

9 is the actuating element 11 in the form of a longitudinally displaceable rail 26, which when moving longitudinally on ramps 75 and 76, which drive 34 form, is performed. The ramp 75 is machine-safe, ramp 76 is connected to rail 26. The rail 26 has two webs 26 'and 26' 'which comprise the collar 15.

The rail 26 is connected to a piston-cylinder unit 51 ', whereby it can be moved longitudinally and in interaction the ramps 75 and 76 and the webs 26 'and 26' ' Clamping sleeve 8 moved vertically.

10 and 11 show another embodiment with a Rail 53, which is part of a drive. This rail 53 runs over the entire length of the machine and is finished at the end an actuator, not shown, for example 9, displaceable. This rail has webs 54, which each over strips are provided with an elastic covering 56. The webs 54 with the strips and the elastic coverings 56 are in the rest position 11 between the spindles.

After the spindles have stopped, the rail 53 is displaced in such a way that that the elastic pads 56 cover the outer circumference of the clamping sleeve 8 ' act, which in turn each provide a pen are. This pin 27 engages in a thread 28 of the concerned spindle 2. By cooperation of the pin 27 and of the thread 28 rotates during the longitudinal displacement of the Rail 53 under the action of the elastic covering 56, the clamping sleeve 8 'upwards and reaches with its upper area Effective range of the fixed sleeve 9. The clamping sleeve 8 is thus turned upwards by the thread pitch 28. It must the rail 53 are moved so far that the bar and the elastic covering 56 in the next gap between the spindles stand so that the rotation of the spindles when restarting is not disabled.

To release the clamping sleeve 8 from the clamping position K, the elastic covering 56 and the webs 54 (with running spindles contrary to the direction of rotation) in the starting position according to Fig. 10 withdrawn. The webs 54 with the elastic coverings 56 may therefore not be longer than for the passage of the Thread 28 required.

Alternatively, it is also possible to use the rail 53 as a shaft and pivotable, so that the webs 54 of the spindles 2nd can be pivoted away if they are not with the clamping sleeves 8 'should come into active connection or if they are in their starting position are to be moved back. This is to be moved to Work element another swiveling element required.

As can be seen from FIG. 12, the clamping sleeve 8 can be above the Collar area one with a clamping cone 39 'of the fixed Have collar 9 of the spindle 2 interacting clamping cone 39. Here, the clamping cones 39 and 39 'of the clamping sleeve 8 and of the fixed collar 9 formed with a lower small diameter. There is a cone angle α, which is to the spindle axis is approximately 3 ° to 8 °. This advantageously results the above-described self-locking clamping active connection between the collar 9 and the clamping sleeve 8 or 8 'in the clamping position K (Fig. 2).

With conical formation of the federal government 9 and the clamping surface of the Clamping sleeve 8 is the self-retention regardless of the presence given a thread 7. In some cases it is sufficient if the Self-retention is given when a thread has to be clamped. It follows that the clamping surfaces can also be cylindrical can, if their fit is so tight or the thread is so thick that through the two areas of the underwind thread in between Self-retention is achieved.

12 also shows that in the area of the fixed Federal 9 a cutting knife 55 available in the underwind area can be. As such, the underwind thread 7 should be between the clamping area and the cop 4 tear (according to illustration X according to Fig. 3), so that no cutting knife is required. At insufficient clamping, for example in the case of very tear-resistant Threads, however, could be the underwind thread 7 from the clamping area be pulled and not torn off. In this case it can Cutting knife 55 support the tearing of the underwind thread 7.

The clamping sleeve 8 or 8 'and the fixed collar 9 can different materials, e.g. Steel and plastic exist, to the self-locking clamping active connection between the Improve the collar and the clamping sleeve.

Overall, a simply constructed device for Clamping a bobbin thread on the spindle of a ring spider or twisting machine with long service life and simple construction, since the actuating device is only in operative connection with the clamping sleeve occurs when this function is required.

Claims (13)

1. Apparatus for clamping a cop-building thread (7) on the spindle (2) of a ring spinning or ring twisting machine, the spindle (2) having, below a slipped-on cop (4), a fixed collar (9) and a clamping sleeve (8; 8') displaceable axially relative to the spindle (2) by means of an actuating device (10) and capable of being brought into operative clamping connection with the collar (9), and the cop-building thread (7) looping round the spindle (2) by less than 360°, the actuating apparatus (10) provided with at least one actuating element (11) being arranged fixedly on the ring spinning or ring twisting machine, the actuating element (11) being capable of being brought into contact with the clamping sleeve (8, 8') solely for actuating purposes, and a device (12) being provided, by means of which the clamping sleeve (8, 8') is held in the clamping position (K) independently of the action of the actuating apparatus (10), characterized in that the actuating element (11) is designed as at least one arm (20; 21) engaging over a collar (15) of the clamping sleeve (8) on both sides or an arm projecting between two collars (15, 16) of the clamping sleeve (8) and capable of being loaded on both sides, as at least one resilient tongue (22, 22'; 23), as camshafts (24, 24'), as at least one rail (25; 26) or as at least one threaded element (27).
2. Apparatus according to Claim 1, characterized by pneumatic, mechanical or magnetic drives (30; 31; 32; 33; 34) for moving the arms (20; 21) of the actuating apparatus (10).
3. Apparatus according to Claim 2, characterized in that at least one inflatable hose (40, 41; 40') extending along the machine can be used for the pneumatic drive (30) of the actuating apparatus (10).
4. Apparatus according to Claim 3, characterized in that a hose (40, 41) is arranged on each of the two sides of the arm (20) of the actuating apparatus (10).
5. Apparatus according to Claim 1, characterized in that the resilient tongue (22, 22'; 23) is arranged on a rotatable part (32).
6. Apparatus according to Claim 1, characterized in that the rails (25; 26) are designed to be raisable and lowerable or displaceable.
7. Apparatus according to Claim 1, characterized in that the threaded element is designed as a pin (27) capable of engaging into a thread flight (28).
8. Apparatus according to Claim 1, characterized in that the actuating element (11) is provided with at least one spring-loaded catch element in the collar region of the axially moveable clamping sleeves (8).
9. Apparatus according to Claim 1, characterized in that the clamping sleeve (8) has, above the collar region, a clamping cone (39) co-operating with a clamping cone (39') of the fixed collar (9) of the spindle (2) .
10. Apparatus according to Claim 9, characterized in that the clamping cones (39, 39') of the clamping sleeve (8) and of the fixed collar (9) each have a small diameter in the lower region.
11. Apparatus according to Claim 10, characterized in that the cone angle (α) of the cone frustum is about 3° to 8°.
12. Apparatus according to Claim 1, characterized in that a cutting knife (55) is arranged in the region of the fixed collar (9).
13. Apparatus according to one of the preceding claims, characterized in that the fixed collar (9) and the clamping sleeve (8, 8') consist of different materials, in particular steel and plastic.

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