EP1550749A2 - Device for regulating the thread tension in a twisting machine, in particular in a two-for-one twisting spindle - Google Patents

Abstract

The yarn twister, with a rotating flyer (2) which takes at least one yarn (5) from a supply bobbin (15), has a mechanism to regulate the tension of the yarn being taken off. It has a yarn store disk (24) to hold a yarn length using the rotating flyer to set the yarn tension, which is coupled to a control (1) to set the rotary resistance of the flyer in a fluid or magnetic brake action. The control can also be a motor, which drives or brakes the flyer.

Description

The invention relates to a twisting machine, in particular a double twisting spindle, after the preamble of claim 1.

From the prior art double twisting spindles are known in which the processing thread over head of a supply spool by means of a supply bobbin is deducted rotating twisting wing. Such a double-twisting spindle is For example, from DE 197 55 824 A1. The feed bobbin is here on a stationary bobbin arranged, which in turn on a rotatably mounted Hollow spindle is arranged. The withdrawn from the feed bobbin thread is in the Thread inlet of the spindle introduced and passed downwards through the hollow spindle. in the Thread inlet or within the hollow spindle is regularly a thread brake for Influenced by the tension of the withdrawn thread, through which the thread to be led. A portion of the thread then wraps around one of the hollow spindle worn and with this rotating thread storage disc. After leaving the Thread storage disc, the thread orbits the feed bobbin in one upward directed thread balloon. The length of the thread storage disc wrapping around section the thread as well as the shape and size of the thread balloon essentially determine the Thread tension, which in turn from the thread inlet or in the hollow spindle arranged yarn brake can be regulated. The adjustment of the thread brake Namely, determines substantially the length of the thread storage disc wraps around Threadlike piece.

To set the desired tension of the withdrawn thread to a preferred value of the type of yarn to be processed depends to be able to adjust is in the known Twisting machines arranged in the yarn inlet or within the hollow spindle Thread brakes required to remove them and reset or against a replace other thread brake with other braking force. This is very awkward and time-consuming. Furthermore, it is disadvantageous in these twisting machines that the braking force and so that the thread tension during the ongoing twisting process is not changed or on the desired value can be readjusted.

To avoid this disadvantage, the object of the invention is a Zwirmaschine, in particular a double twisting spindle so educate that the Tension of the withdrawn thread in a simple and time-saving manner to the processing grade can be adjusted and, if necessary, during the Twisting process is adjustable.

This object is achieved with a twisting machine having the features of claim 1. Advantageous embodiments of this twisting machine can be found in the dependent claims.

According to the invention, the object is in a twisting machine with a rotating Twisting wing for deduction of at least one thread to be processed from a supply spool and with a device for regulating the tension of the withdrawn yarn, which a thread store and a device which substantially the length of the im Thread store stored thread piece determined by solving that a single Device for determining the thread piece stored in the thread store and thus for Determining the thread tension is provided, this device of the Twisting vanes is formed, which is coupled to a control device to the Rotary resistance of the twisting blade and thus the tension of the withdrawn thread Taxes.

The control device is preferably as a braking device for braking by formed the withdrawal of the thread forced rotation of the twisting wing. For this can For example, be provided a liquid or a magnetic brake, the braking force is adjustable. Alternatively, the control device may also be a motor be formed, which drives or brakes the twisting wing.

In a preferred embodiment, the controller is provided with a Control device coupled to the rotational resistance of the twisting blade and thereby the Tension of the withdrawn thread to the desired value even while running To be able to regulate Zwinprozesses. This allows above all the maintenance of the desired thread tension during the twisting process.

Preferably, the control device has adjustment means with which the Rotational resistance of the twisting blade and thereby the tension of the withdrawn thread fine-tuned and reproducible adjustable or regulated. At a hysteresis are These adjustment means, for example, by means for changing the distance between the Magnets and the hysteresis body formed. In a motor as a control device The rotary resistance can be controlled via the motor current.

In a preferred embodiment, the twisting machine is as Double twisting spindle with a rotatably mounted hollow spindle and with a thereto arranged, the thread store forming thread storage disc formed.

In the inventive design of the twisting eliminates the within the Hollow spindle arranged thread brake. This eliminates the need and expense of Remove the thread brake and remove it to the desired tension Thread, depending on the type of yarn to be processed, set or this against a to replace other thread brake with other braking force.

The threading through the thread through the hollow spindle is usually carried out by means of a compressed air operated injector, with which such a negative pressure is generated, that the thread is pulled through the hollow spindle. The vacuum does not have to be that big anymore that through him the yarn brake is released and the thread passing the yarn brake is possible, but can be very low in the twisting machine according to the invention be set. For example, the air pressure with which the negative pressure is generated, instead of the usual 3 bar amount to only 1 bar. This leads to a reduction of the Compressed air consumption and thus the operating costs. In addition, by lowering the Air pressure reduced the noise when threading, resulting in a Improvement of working conditions contributes to the twisting machine.

Figur 1:

Perspektivische Darstellung Zwirnspindel einer Zwirnmaschine zur Herstellung eines Mehrfachzwirns aus mehreren, auf einer Vorlagespule gefachten Fäden;

Figur 2:

Schematische Darstellung des Verfahrens zur Herstellung eines Mehrfachzwirns mit einer Vorzwirn- (A) und einer Auszwirnstufe (B).

In the following the invention will be explained in more detail by means of an embodiment with reference to the accompanying drawings. The drawings show:

FIG. 1:

Perspective view of a twisting spindle of a twisting machine for producing a multiple twist of a plurality of threads folded on a supply spool;

FIG. 2 :

Schematic representation of the method for producing a multiple twist with a ply (A) and a twisting stage (B).

The twisting machine according to the invention will be described below with reference to an embodiment in which they are in the warp stage of a process for producing a Multiple twist is used. The use of the twisting machine according to the invention is but not limited to this scope. The inventive Twisting machine can rather be used for all applications in which a thread to be twisted from a feed bobbin with a preferred thread tension is deducted.

FIG. 2 schematically illustrates a two-stage process for producing a multiple yarn shown. In a first, referred to Vorzwirnen process step A, are first at several double-wire spindles 30, 40, 50 coming from feed bobbins 31, 41, 51 coming Threads 32, 42, 52 are rotated and the respective double twisted wires 33, 43, 53 are each fed via a trigger unit 34, 44, 54 in a take-up unit 60. The Winding unit 60 merges the double wires 33, 43, 53 and moves them next to each other on a Vorzwirnspule (compartment coil) 55. The Vorzwirnspule 55 is preferably wound as a cheese and the winding unit 60 has accordingly a traversing device 61 on.

In the second process stage B (Auszwirnstufe), the Vorzwirnspule 55 with the on it matched double wires 33, 43, 53 of a twisting machine, namely a double-wire spindle 70, submitted to the preparation of the pulp. The pigeons on the Vorzwirnspule 55 Individual threads are referred to below for simplicity with the common reference numeral 5 and the two-wire spool submitted Vorzwirnspule as supply spool 15th characterized.

The threads 5 are provided in the double-wire spindle 70 with such rotation that the Twist imparted rotation opposite to the direction of rotation of the Vorzwirnfäden (Double wires 33, 43, 53), whereby the monofilaments 5 in Zwzwirn no more rotation exhibit. The thus prepared Auszwirn 73 is finally on a trigger unit 74 and a take-up and laying unit 75 laid on a spool 76. The spool 76 is preferably wound as a cheese. The laying unit 75 has accordingly for the winding of a cross-wound suitable traversing element 77.

In the figure 1, the double-twisting spindle 70 for producing the Zwzwirns in her top area shown in perspective. The double-wire spindle 70 has a rotating driven spindle shaft on which the resting on a spool holder Vorzwirnspule 15 is attached. The folded on the Vorzwirnspule 15 threads 5 are withdrawn overhead and passed through an axial bore in the spindle shaft and on a Thread storage disc 24, which rotates with the spindle shaft, wound up. The strings 5 leave the thread storage disc 24 via a Fadenumlenkkörper, then go through a the Vorzwirnspule 15 orbiting thread balloon and are finally in the Trigger unit 74 introduced. To limit the thread balloon is a cylindrical Spool pot 21 provided. On the bobbin 21 a coil pot lid 3 is arranged.

In the interior of the bobbin pot 21 is a trigger device 2, 10, 13 for the withdrawal of the threads. 5 from the supply spool 15, a separating device 6 for the separation of the supply spool 15th pulled threads 5, a yarn brake 14 and a Mouliné yarn guide 8 arranged. The on the feed bobbin 15 plied threads 5 are first of the trigger device 2, 10, 13 withdrawn overhead from the supply spool 15 and a guide roller 11 of the Separator 6 supplied. In the embodiment shown in Figure 1 is the Separator 6 formed as a comb with a plurality of prongs, wherein the individual threads 5 of the original yarn each performed between two adjacent prongs and be separated from each other in this way. The separator 6 may alternatively having a number of guide tubes, each passing through a guide tube Template thread is guided.

The extraction device 2, 10, 13 comprises a rotating twisting wing 2 (Campanello) as well a trigger guide 10 and a guide 13, along which the trigger guide 10th sliding or mounted on rollers slidably mounted (Figure 1). The twisting wing 2 is set by the string of deducting threads 5 in rotation. For this is the Twisting wings 2 attached to the inside of the coil pot lid 3 and rotatable about a to Original coil axis C concentric axis stored. The storage of the twisting wing 2 is on a braking device 1, for example a hysteresis brake or a fluid brake, coupled to produce an adjustable rotational resistance. About the braking device 1 can the rotational resistance of the twisting blade 2 and thereby ultimately the voltage of the withdrawn threads 5 are set or controlled. Preferred is this one Hystere brake used in which the braking force by changing the magnetic Coupling between a magnet and a hysteresis is adjustable. alternative can be used to control the rotational resistance and a motor, the Twisting wing 2 drives or brakes to a constant, predetermined rotational resistance guarantee. The strength of the rotational resistance essentially determines the length of the Thread piece, which in the thread storage disk 24 formed here as thread storage is stored.

On the twisting wing 2, a guide rail 13 is attached. The guide rail 13 extends parallel to the axis C of the supply spool 15 and at a distance therefrom. When fully wound Feed bobbin 15 extends the guide rail 13 approximately centrally between the outer periphery the supply spool 15 and the inside of the bobbin pot 21 (Figure 1).

Along the guide rail 13 of the trigger guide 10 is slidably disposed. For this purpose, the trigger yarn guide 10 - as shown in the figure 1 - on the guide rail 13 supported by a sliding bearing 23. The withdrawal thread guide 10 has an eyelet 4, through which the threads to be deducted 5 are performed. By train to be deducted threads. 5 the twisting wing 2 is set in rotation. The parameters of the thread guide 10, in particular its mass and / or its electromagnetic properties preferably to the parameters of the threads to be deducted, in particular their masses per Length unit and the selected thread tension, as well as the parameters of the supply spool 15, in particular their type of winding, winding density, diameter and height such adjusted so that automatically sets a balance of power, in which the position of the Abführfadenführers 10 at the selected trigger voltage at any time approximately on Height H of the currently withdrawn from the supply spool 15 thread layer. Alternative to Matching the parameters of the thread guide 10 on the parameters of the threads and the Supply coil can also be provided a drive, which actively the position of the Pull thread guide 10 to the height H of the currently withdrawn from the supply spool Thread position adjusts.

After deduction of the threads 5 of the supply spool they are about a guide roller 11 in the separating device 6 out, in which the threads 5 are separated from each other (Fig. 1). Around The voltages of the separated threads 5 to match each other, these are passed after passing through the separator 6 via a yarn brake 14. The in Figure 1 shown thread brake 14 has a rotatably mounted roller whose rotational resistance is adjustable by suitable means. The separated threads 5a, 5b, 5c wrap around part of the circumference of the roll. After the yarn brake 14 thus have the individual threads 5 approximately equal to thread tensions. It is here on it to point out that the thread brake 14 is essentially only the voltages of the individual 5 threads to each other, but here the amount of thread tensions only Insignificantly influenced, so in particular only a negligible influence the length of the wound around the thread storage disc 24 thread piece exerts. The only Device, which determines the length of the wound around the thread storage disc 24 thread piece is significantly affected by the braked with the desired rotational resistance or driven twisting wings (2).

After passing through the thread brake 14, the separated yarns over a Fadenumlenkrolle 7 introduced into the Mouliné yarn guide 8 and from there finally in the Thread inlet of the double-wire spindle 70 out to each other in Kordierpunkt 9 to defrost (FIG. 1). The Mouliné yarn guide 8 comprises a plate 17, which via a Connection 22 is rotatably attached to the brake device 1. The plate 17 has a number of openings 18, which corresponds to the number of threads 5. Through each Opening 18, a thread 5 is guided. The centers of the openings 18 are located preferably on a circle.

With the twisting machine according to the invention, it is possible to achieve the desired tension of set the supply bobbin withdrawn yarn in a simple and time-saving way and if necessary also during the ongoing twisting process. This will be after the invention achieved in that the thread via a rotating twisting wings of the Supply bobbin is withdrawn, the twisting wing to a control device is coupled, with which the rotational resistance of the twisting blade is adjustable. In the Control device may be, for example, a motor or a Braking device act whose braking force in a simple manner changeable or adjustable is. This can at a yarn change to achieve a desired, on the Yarn grade matched thread tension required rotational resistance of the twisting blade on be easily changed without, for example, one in a hollow spindle arranged yarn brake would have to be replaced. Furthermore, thereby the Thread tension also during the current twisting process by changing the Twisting resistance of the twisting blade are influenced, thereby allowing the Adjust the thread tension to the desired value during the twisting process. About that In addition, a reproducible and compared to the conventional thread brakes, For example, cartridge brakes, finer adjustment of the thread tension possible. About that In addition, so-called "stick-slip" effects are avoided in the twisting machine according to the invention, which in the known twisting machines with conventional thread brakes when starting of the twisting process occur. Furthermore, the risk of yarn breakage is reduced because the tension of the thread not as in conventional thread brakes by clamping or Friction is changed.

Claims (18)

Twisting machine, in particular double twisting spindle, with a rotating twisting wing (2) for deduction of at least one to be processed, in particular verzwimenden thread (5) from a supply spool (15), and with a device for regulating the tension of the withdrawn thread (5), which Thread store (24) and a single device which essentially determines the length of the thread piece stored in the thread store (24), characterized in that the only means for determining the piece of thread stored in the thread store (24) of the twisting wing (2) is formed wherein the twisting blade (2) is coupled to a control device (1) in order to control the rotational resistance of the twisting blade (2). Twisting machine according to claim 1, characterized in that the control device (1) is a braking device for braking the forced by the withdrawal of the thread (5) rotation of the twisting blade (2). Twisting machine according to claim 1 or 2, characterized in that the control device (1) is a liquid brake. Twisting machine according to claim 1 or 2, characterized in that the control device (1) is a magnetic brake. Twisting machine according to claim 4, characterized in that the magnetic brake is a hysteresis brake, which is designed such that a magnetic coupling between the magnet and the hysteresis is adjustable and that the braking force which forms the rotational resistance of the twisting blade (2), at least substantially is determined by the magnetic coupling between the magnet and the hysteresis body. Twisting machine according to claim 5, characterized in that the hysteresis body is also a magnet. Twisting machine according to claim 1 or 2, characterized in that the control device (1) is a motor which drives or brakes the twisting wing (2). Twisting machine according to one of the preceding claims, characterized in that the control device (1) is coupled to a control device in order to regulate the rotational resistance of the twisting blade (2) and thereby the tension of the withdrawn thread (5). Twisting machine according to one of the preceding claims, characterized in that the control device (1) comprises adjusting means with which the rotational resistance of the twisting blade (2) and thereby the tension of the withdrawn yarn (5) is finely adjustable and adjustable reproducible or adjustable. Twisting machine according to one of the preceding claims, characterized in that the twisting machine has a rotatably mounted hollow spindle with a thread storage disc (24) forming thereon and forming the thread store. Twisting machine according to one of the preceding claims, characterized in that for the withdrawal of the thread (5) from the supply spool (15) a deduction yarn guide (10) is provided, which along an axis (A), which runs parallel and at a distance from the original spool axis, displaceable is. Twisting machine according to claim 11, characterized in that a guide (13) is provided, on which the withdrawal thread guide (10) is displaceably arranged. Twisting machine according to claim 11 or 12, characterized in that the parameters of the trigger thread guide (10), in particular its mass and / or electromagnetic properties, to the parameters of the thread (5), in particular its mass per unit length and its thread tension, and the parameters Original bobbin (15), in particular their Bewicklungsart, winding density, diameter and height, adapted so that the position of the trigger yarn guide (10) along the axis (A) automatically approximately at the height (H) of the currently withdrawn from the supply bobbin thread layers , Twisting machine according to one of claims 11 or 12, characterized in that a drive is provided to hold the trigger thread guide (10) at the height (H) of the currently withdrawn from the supply spool (15) thread layer. Twisting machine according to claim 12, characterized in that the guide (13) by a guide rail (13) is formed, along which the trigger thread guide (10) sliding or roller bearing is displaceable. Twisting machine according to one of claims 12 to 15, characterized in that the guide (13) on the twisting wing (2) is fixed. Twisting machine according to one of the preceding claims, characterized in that it is equipped with a plurality of yarns (5) folded on a feed bobbin (15) for producing a multiple twist a twine wire spindle having a thread entry, in which the threads (5) withdrawn from the supply bobbin (15) are twisted together, a separating device (6) for separating the threads (5) withdrawn from the supply bobbin, a yarn brake (14), over which the separated yarns (5a, 5b, 5c) are guided in order to make the yarn tensions of the yarns (5a, 5b, 5c) uniform, and a Mouliné yarn guide (8) through which the threads (5a, 5b, 5c) are fed into the yarn inlet of the double-wire spindle to be twisted together in Kordierpunkt (9). Twisting machine according to one of the preceding claims, characterized in that the twisting machine has a hollow spindle and an injector, that the thread is threaded through the hollow spindle by means of the injector and that the air pressure with which the injector is operated to at most 2 bar, preferably to a maximum of 1 bar.

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