CS217355B1 - A device for generating a yarn supply on a textile machine unwinder - Google Patents

Abstract

The invention relates to both textile machines and is applicable especially in the preparation of the weft for unorthodox weaving and for transporting the thread to the knitting machine. The invention solves the issue of reduction and equalization of tensile forces in threads during their arresting or knitting, and when unwinding threads from cross coils or other coil bodies during the entire process of unwinding the coil. The essence of the invention is the winding of threads on the cover of the unwinder, which has an "uneven density" so that the density of the threads is lower on the input side and higher on the output side; this enables a very advantageous laying of the thread on the input side, so that it does not reach their mutual crossing, and furthermore, a sufficiently large supply of thread on the output side is enabled, which ensures good regulation of the entire winding system.

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for generating a yarn supply for unwinding of textile machines.

Weaves are widely introduced into the weaving and knitting shops, which take the weft mostly from the cross-thread and prepare a stock from which the weft can be removed with a small constant force.

The older yarn dispenser is a disordered yarn supply and the individual windings are touching, possibly 1 overlapping. Probing can therefore occur here, because the crossed winding puts an increased resistance on removal.

On the newer unwinder, the storage spiral is arranged such that the individual windings do not contact each other so that entanglement or crossing of the individual windings is avoided. These unwinders are formed by an accumulation drum to which the yarn is fed in the tangential direction and from which it is withdrawn in the axial direction. The accumulation drum may be cylindrical or may taper in the yarn withdrawal direction. The cylindrical storage drum may have a smooth or helical surface and may be more cylindrical. The force pulling the yarn from the yarn to the accumulation drum is transmitted to the yarn by a rotating three-way drive surface which is tied at least once by the yarn. The accumulation drum traverses at the opposite end to the rotating third surface, mostly in a tapered cone. In the case of a conical accumulation drum, the yarn on the accumulation drum is guided from the rotating three rotary planes by a diverting member, in the case of a cylindrical accumulation drum, it is mostly by a forward cone. The disadvantage of these devices is their considerable complexity and thus also their resilience to failures.

These drawbacks are overcome by a yarn supply device for unwinding textile machines with a higher density of the winding on the outlet side than the density on the unwinding side of the unwinder comprising a screw roller.

The essence of the invention is that the screw roller converts into a smooth roller on the outlet side and / or the screw roller spiral has a variable pitch.

An advantage of the device according to the invention is that it creates a plurality of coiled yarn stores at the exit point. Another advantage of the device according to the invention is its simplicity and reliability.

The apparatus for generating the yarn supply for the unwinding machines of the textile machines according to the invention is illustrated in more detail by way of example with reference to the accompanying drawing, in which FIG.

The unwinder according to FIG. 1 is formed by a frame 1 fixedly connected to a housing in which a rotary shaft 2 is provided on bearings 2, provided with a drive belt 4 on one shaft. . Further bearings 2, 8 are supported on the shaft 2 for a longer time, which bear the unwinding body 2. The body unwinder 2 and ^e is rotatably mounted six šroubovýoh Valo 10th and on each of which is rigidly mounted řemenioe eleventh pulley 11 via a belt 12 are walked rotujíoího from the sleeve 2 in the direction of rotation of the wing. An inner disk 12 surrounded by a brush 24 is fixedly connected to the unwinder body 2. The thread roller 15 is controlled by a photocell 16.

The V-belt (not shown) rotates the drive pulley 4 and, together with it, the sleeve 2 and the wing tube 6. However, the unwinder body 9 remains at rest, since it is provided either by magnets (not shown) or by a one-sided load, all of which are generally known by means of similar systems. However, in accordance with the rotation of the wing, the screw rollers 10 on which the yarn winding 15 is laid rotate. The winding is placed in the grooves of the screw roll 10 and is moved by the screw rollers 10 in the direction of arrow I. over the smooth surface 10b of the screw cylinders 10 'Other functions can be provided by known means. For example, the winding control can be provided by a photocell 16 which gives an impulse to slow down or stop an electric motor (not shown) when the winding has moved close to the brush 14.

The uncoiler of FIG. 2 is formed by the uncoiler body 20 supporting the bearing 21. The bearing 21 houses a hub 22 with a pulley 23, which accommodates another bearing 24 in which the shaft 25 with the bore 26 rotates. a sleeve 27 carrying a bearing 28 is received in which the shaft 25 is received by the other end. On the opposite side of the pulley hub 22, the left portion of the clutch 29 is mounted on the thread. Sliding on the shaft 25 is the right portion of the clutch 30 with the gear 31, the bearing 32 and the toothing 33 that fits into the shaft 34. in the sleeve 35 which is screwed into the sleeve 36 and forms a detachable, adjustable assembly therewith. Angle levers 37 rotatable on the shaft 38 of the unwinder body 20 fit into the sleeve 3.6. A spring 40 is disposed between the sleeve 35 and the shim 39, the adjustment of which is secured by unmarked bolts in the sleeve 27. 35.

The idlers 41 are driven from the gearwheel and rotate with bearings 42 mounted on the pins 43. The idlers 41 drive the gears 44 mounted on the screw cylinders 10 that rotate in the bearings 45 located in the unwinder body 20. The screw cylinders 10 are provided with on the one hand, by the thread 10a and on the other hand by the smooth part of the surface 10b. Threads with a pitch approximately equal to the thickness of the thread are deposited on the smooth surface 10b and threads with a pitch equal to the thread pitch are deposited on the threaded portion 10a.

A shaft 46 with a thread guide opening 47 is fixedly mounted on the shaft 25. A dispenser disc 48 is supported on the body of the unwinder 20, which carries a brush 14 which brakes the unwinding thread 15 advancing to the loop 17. The cover 49 is provided to ensure safe operation of the unwinder.

The pulley 23 rotates from the unmarked engine at a constant constant speed. Thus, the left portion of the coupling 29 is pivoted permanently. If a sufficient number of yarn windings 15 are not positioned on the screw cylinders 10 and the angle levers 37, the spring 40 pushes the right portion of the coupling 30 through the sleeves 22, 22 and the bearing 32 into operative connection with the left portion of the coupling 29. As soon as a sufficient number of yarn windings 12 are placed on the screw rollers 10 and the angle levers 37, the yarn windings 12 will be applied by the components of the tensile forces in the winding in the direction of arrow II. thereby starting to rotate the angular levers 37, which then pull the right portion of the clutch 30 from the left portion of the clutch 29 through the groove in the sleeve 36 »and the bearing 32, thereby disengaging the active clutch connections and thereby controlling the speed of rotation of the leaf 46 The thread 15 is not removed from the unwinder surface for a longer period of time. By providing the screw cylinder 10 with a threaded portion 10a and in addition a smooth portion 10b. the diameter of which is approximately equal to the small diameter of the thread, a greater effect of the tensile force components in the direction of arrow II is achieved and thus more effective and faster disengagement of the active coupling connection. The yarn 15 is guided into the unwinder through the opening 26, in the axis of the shaft 25. then it passes into the opening 47 of the wing 46 and longer on the angular levers 37 and the screw roll 22 '.

From this, it is unwound under the brush 14 and over the surface of the wing 47 into the guide eye 17.

It is to be understood, however, that the arrangement shown in Figures 1 and 2 is only one of many possible alternatives that realize the proposed method. For example, it is equally possible to provide a variable pitch thread on the screw to provide an increased winding density on the outlet side and the like.

Claims (2)

OBJECT OF THE INVENTION Apparatus for generating a yarn supply on unwinding machines of textile machines with a greater winding output on the outlet side compared to the density on the unwinder side of the unwinder comprising a screw vane, characterized in that the screw roller (10) turns into a smooth roller and / or spiral (10) has variable pitch. 2 drawings