Method of Controlling a Compensator of the Difference between the Drawing-Off and Winding Speeds of Yarn when Winding Yarn on a Bobbin at a Workstation of a Spinning Machine and a Device for Performing the Method

Abstract

A method of controlling a yarn compensating arm at a workstation of a spinning machine, wherein the yarn is initially withdrawn from an intermediate vacuum storage device. Before emptying the yarn from the storage device, the compensating arm is deflected past its working and into an out-of-the-working-range position, wherein the yarn is captured by the compensating arm and also deflected to the out-of-the-working-range position to form a non-working yarn reserve. The compensating arm is retained by a force at the out-of-the-working-range position while the yarn is emptied from the storage device. Upon being emptied from the intermediate vacuum storage device, the yarn exerts a tensile force on the compensating arm that overcomes the retaining force causing the compensating arm to return to its working range position.

Claims

1-7. (canceled)

8. A method of controlling a compensator of a difference between drawing-off and winding speeds of yarn when winding yarn on a bobbin at a workstation of a spinning machine, the compensator comprising a compensating arm movable between different positions at different stages of operation at the workstation, as well as during service operations at the workstation following filling and emptying of the yarn from an intermediate vacuum storage device at the workstation, the method comprising: before emptying the yarn from the intermediate vacuum storage device, deflecting the compensating arm over a working range thereof across a path of the yarn and into an out-of-the-working-range position of the compensating arm, wherein the yarn is captured by the compensating arm and is also deflected with the compensating arm to the out-of-the-working-range position thereby forming a non-working reserve of yarn; maintaining the compensating arm at the out-of-the-working-range position with a retaining force while emptying the yarn from the intermediate vacuum storage device; and wherein upon emptying the intermediate vacuum storage device, the yarn exerts tensile force on the compensating arm that overcomes the retaining force such that the compensating arm returns from the out-of-the-working-range position to the working range and resumes operation.

9. The method according to claim 8, further comprising changing a size of the retaining force before complete emptying of the yarn from the intermediate vacuum storage device.

10. A device for compensating a yarn loop during winding of a yarn on a cross-wound bobbin on a spinning machine at a constant yarn speed, comprising: a compensating arm movable in a path that intersects the yarn between a yarn draw-off mechanism and a winding device of the yarn on the cross-wound bobbin; the compensating arm controllably displaceable between a fully deflected first position through a production working range and into an out-of-the-working-range position; and a source of a retaining force applied to the compensating arm to hold the compensating arm at the out-of-the-working-range position counter to a tensile force exerted by the yarn.

11. The device according to claim 10, further comprising an intermediate vacuum storage device for the yarn operationally disposed between the yarn draw-off mechanism and the winding device, and wherein the retaining force applied to the compensating arm changes before emptying of the yarn from the intermediate vacuum storage device.

12. The device according to claim 11, wherein the source is configured internal to the compensating arm.

13. The device according to claim 11, wherein the source is configured on the spinning machine external to the compensating arm.

14. The device according to claim 11, wherein the source is configured partially internal to the compensating arm and partially on the spinning machine external to the compensating arm.

Description

DESCRIPTION OF THE DRAWINGS

[0014] The invention is schematically represented in the drawing, where:

[0015] FIG. 1a shows an arrangement of a workstation with a compensator arm in front of the working range;

[0016] FIG. 1b shows an arrangement of a workstation with the compensator arm in the working range; and

[0017] FIG. 2 shows an arrangement of a workstation according to the invention with the arm of the yarn loop compensator in the out-of-the-working-range position.

DETAILED DESCRIPTION

[0018] The invention will be described with reference to an exemplary embodiment of a yarn manufacturing spinning machine and with reference to the description of functions connected to this invention.

[0019] A yarn manufacturing spinning machine comprises at least one row of identical workstations arranged next to each other.

[0020] The workstation as such is well-known, and therefore will be described hereinafter only in a simplified manner without a drawing. Only those parts, elements and nodes of the workstation which are relevant for this invention will be described in greater detail.

[0021] Each workstation comprises a spinning unit (not shown) with a spinning rotor or a spinning nozzle. Yarn 1 is formed in the spinning unit. Above the spinning unit is arranged a yarn draw-off mechanism 2. The yarn draw-off mechanism 2 comprises a pair of draw-off rollers that are rotatably mounted in the machine frame, whereby one of the draw-off rollers is coupled to a drive (not shown) and constitutes a driven draw-off roller and the other draw-off roller is rotatably mounted on a swinging spring-loaded arm and constitutes a pressure roller. Both the draw-off rollers abut each other in the working position, and at the point of contact there is a nip line through which passes the yarn 1, which is withdrawn from the spinning unit during the rotation of the draw-off rollers. In the yarn path 1 downstream of the draw-off mechanism 2 is located an unillustrated winding device of yarn 1 on a cross-wound bobbin 6. The yarn winding device comprises a yarn traversing device 7, by means of which the yarn 1 is traversed across the width of the bobbin 6 during winding.

[0022] Between the draw-off mechanism 2 and the traversing device 7 of yarn, a compensator of the known yarn 1 loop is arranged at the workstation in the yarn 1 path, the compensating arm 4 of which intersects the yarn 1 path. The yarn loop compensator is mounted controllably and is reversible and swingable between its front position and rear position so as to compensate for the known yarn 1 loop which is caused by a change in the traversing speed at the edges of the wound bobbin 6 and by different diameters of a yarn 1 package when winding a conical bobbin 6. Further, in the yarn 1 working path in the region between the yarn draw-off mechanism 2 and the yarn traversing device 7 are arranged a (vacuum) intermediate yarn storage device 3 and a yarn 1 sensor 5, e.g. a sensor of yarn presence or a sensor of the quality and presence of yarn.

[0023] FIG. 1a is a schematic representation of a part of the workstation in the state before the start of the production operation at the workstation where the yarn 1 from the spinning unit passes between the draw-off rollers of the draw-off mechanism 2 of yarn 1 and is sucked by the vacuum into the intermediate storage device 3 of yarn 1, which a yarn 1 reserve 8 is formed after the start of the production of yarn 1 at this workstation. The yarn 1 further passes from the intermediate storage device 3 of yarn 1 towards a traversing device 7, passing by the arm 4 of the yarn 1 loop compensator. In this state of the workstation, the compensator arm 4 is deflected in front of its working position, i.e. in front of a set of positions within the operating range of the reversibly swinging compensating arm 4 during the yarn production, whereby the state of the workstation during the yarn 1 production and with the arm 4 of the compensator in its working position is shown in FIG. 1b.

[0024] The device according to the invention works in such a manner that when a yarn 1 break occurs during the yarn production at the workstation of the spinning machine, information is transmitted from one of the sensors of the yarn 1 break at the workstation to the control unit and the yarn 1 production is interrupted at the respective workstation, i.e. the process of winding yarn on the bobbin 6 is stopped, and the feed of fibrous material to the spinning unit, the spinning process in the spinning unit, and the operation of the draw-off mechanism 2, etc., are stopped as well. The compensating arm 4 of the compensator moves to the fully deflected first position D, in which it does not hamper handling the yarn at the workstation and in which its end does not act on the yarn.

[0025] In preparation for the production process, the end of the broken yarn 1 is found, the required yarn 1 length necessary for successful spinning-in is unwound and fed between the draw-off rollers of the draw-off mechanism 2 and to the spinning device to a position in which the spinning-in end of yarn 1 is ready for spinning-in. Subsequently, the yarn 1 reserve 8 is deposited in the intermediate vacuum storage device 3 of yarn 1.

[0026] Following the depositing of the yarn 1 reserve into the intermediate vacuum storage device 3 of yarn 1, the compensating arm 4 moves from its fully deflected first position over its working area defined by the angle to the out-of-the-working-range position B, whereby during its motion, it captures with its end the yarn 1 which was brought in the previous steps between the yarn traversing device 7, the intermediate vacuum storage device 3 of yarn 1 and the yarn draw-off mechanism 2, thereby creating already at that moment a known, substantially triangular, compensation reserve of yarn 1 at the workstation, which however, has a greater overall length than the known substantially triangular compensation reserve of yarn 1 during yarn production 1 at the workstation where the compensating arm 4 performs a reversibly swinging motion within its working area defined by the angle . After the deflection of the compensating arm 4 to the out-of-the-working-range position B, the compensating arm 4 is held in this position by a source of the retaining force F and the yarn 1 is stretched over the end portion of the compensating arm 4. The displacement of the compensating arm 4 between different positions is performed, for example, by a service robot (especially in the case of a spring compensator) or by a drive of the compensating arm 4, formed either by an electric motor or by an electromagnet, etc., and controlled by a control device. Maintaining the compensating arm 4 in the out-of-the-working-range position B with the yarn stretched over the working end of the compensating arm 4, i.e. exerting the retaining force F, as will be described in detail below, is performed either by a suitable stop or by appropriate control of the electric motor or by electrical impulse to the control electromagnet. The source of the force F is associated with the compensator and/or is located at the workstation of the spinning machine.

[0027] When the production process of yarn 1 is restarted at the workstation, the winding of the yarn 1 on the bobbin 6 begins, when the yarn 1 is traversed by the traversing device 7 across the width of the bobbin 6 and the yarn 1 is withdrawn from the intermediate vacuum storage device 3 of yarn 1. As a result, the yarn 1 reserve stored in the intermediate vacuum storage device 3 of yarn 1 is consumed. At the same time, the yarn 1 moves across the working end of the compensating arm 4, which is still held in its out-of-the-working-range position B. During this, the tension in the yarn 1 induced by in the intermediate (vacuum) storage device 3 of yarn 1 is smaller than the retaining force F of the compensating arm 4 in its out-of-the-working-range position B (tension in the yarn 1 induced by the vacuum in the (vacuum) intermediate storage device 3 of yarn 1 does not overcome the retaining force F) and therefore the yarn 1 reserve of the intermediate vacuum storage device 3 of yarn 1 is consumed by winding yarn on the bobbin while the compensating arm 4 remains in the above-mentioned out-of-the-working-range position B in which it does not perform the compensation of the yarn 1 and the yarn 1 wound on the bobbin 6 only passes through it, as indicated by the dashed lines in FIG. 2. Due to the action of the vacuum in the yarn 1 storage device 3, the tension maintained in the yarn 1 is sufficient to suppress possible slackening of the yarn 1 (yarn surplus) during winding it on the bobbin 6 in this early stage of the start of the yarn manufacturing process.

[0028] As soon as the yarn 1 reserve 8 in the intermediate (vacuum) storage device 3 of yarn 1 is consumed, the vacuum from the storage device 3 stops acting on the yarn 1 and the tension in the yarn 1 is increased. Consequently, the yarn 1 deflects the compensating arm 4 of the compensator from the out-of-the-working-range position B to the working area indicated by the angle when compensating for the yarn 1 loop during yarn 1 production, as shown in FIG. 2, whereupon the yarn 1 overcomes the retaining force F of the compensating arm 4 in the out-of-the-working-range position B and the compensating arm 4 is moved due to the action of the yarn 1 from its out-of-the-working-range position B to its working area indicated by the angle and at the same time the compensation activity of the compensating arm 4 of the compensator is completely resumed during the yarn production 1. The end positions of the path of the yarn 1 stretching across the working end of the compensating arm 4 during compensation in the working area defined by the angle , are indicated by the full and dotted lines in FIG. 2.

[0029] This means that due to the specific arrangement of the individual elements and the balance between them, the compensating arm 4 of the compensator of yarn 1 takes over smoothly and automatically the compensation of the yarn 1 loop from the (vacuum) intermediate storage device 3 of yarn 1, without the need for timing or detecting this moment with the aid of other technical means, such as sensors of yarn tension and presence, etc.

[0030] During controlled stopping of the production process at the workstation when there is not a yarn 1 break, the compensating arm 4 of the compensator moves to the out-of-the-working-range position B and the yarn 1 is stretched across its end (working) portion. After resuming the production process as a result of increased tension in the yarn 1, the compensating arm 4 of the compensator moves from the out-of-the-working-range position B to the working area indicated by the angle , where it performs the compensation of the yarn 1 during winding the bobbin 6.

[0031] In one embodiment, after the entire length of the yarn 1 reserve 8 has been withdrawn from the intermediate (vacuum) storage device 3 of yarn 1, the travel path of the yarn 1 between the draw-off mechanism 2 and the arm 4 of the compensator changes, and, as a result, the yarn 1 enters the detection zone of the sensor 5 of the presence of yarn 1 which transmits this information to the control unit controlling respective operations of the downstream nodes of the workstation. In another example of embodiment, the sensor of the transition of the compensating arm 4 to its working area indicated by the angle is assigned directly to the compensator or to the compensating arm 4, or it is formed by an inner sensor of the drive of the compensating arm 4, etc.

INDUSTRIAL APPLICABILITY

[0032] The invention can be used during the operation of workstations of yarn manufacturing textile machines.

[0033] Modifications and variations can be made to the embodiments illustrated or described herein without departing from the scope and spirit of the invention as set forth in the appended claims.