CS252573B1 - Device for compensation of yarn axial force's differences - Google Patents

Abstract

The invention relates to a device for compensating for differences in the yarn axial force, in particular for winding conical bobbins on machines with constant yarn feed, formed by a movable contact arranged in the area between the feed device and the yarn winding location near the switchgear, where the movable contact is arranged after the width of the yarn distribution band of the longitudinal member transverse to the yarn path fed by at least one leg to the resilient element, the leg of the longitudinal member being coupled to the torsion spring with adjustable preload by means of a pin.

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for compensating for differences in yarn axial force, in particular when winding cone spools on machines having a constant yarn feeding speed.

When winding cone spools on machines with a constant yarn feed speed, especially on an open-end spinning machine, maintaining a uniform yarn tension is a very serious problem due to the yarn disparity between the uniform yarn supply by the feed rollers withdrawing the yarn from the spinning chamber and the spool, whereby the effect of reversing the yarn by the conductor along the spool and the effect of the winding differences on the small and large spool faces will occur due to the spool rotating evenly over the rolling roll.

A variety of elastic compensating devices and methods for compensating yarn length during winding are known. Devices which use the effect of an air jet to pressurize or underpressure to tension the yarn have the disadvantage of low uniformity of the yarn tension, i.e. the yarn is very loose, forms a compensation loop and is tensioned only by the airflow, or the yarn is switched off yarn switching may occur. In addition, these devices also require an auxiliary air flow device.

In a device where the yarn tensioning effect is used to frictionally drive the yarn tensioner, a relatively uniform yarn tension is achieved, but there are problems with maintaining the yarn tensioner limit positions; they are mostly tied to control elements, which makes the whole equipment more expensive and there are also problems with yarn guidance during spinning.

Devices where the tensioner is actively controlled according to the selected program, either mechanically or electronically, for the yarn tensioning, are very expensive to be truly effective.

Devices which use the passive effects of a mechanical spring to tension a selected yarn length are also known.

All of them, however, are relatively robust, face the problem of positioning on the machine so as not to affect the spinning process, allow easy piecing, and especially at higher winding speeds due to the dynamics of the elastic elements they oscillate and impermissibly affect the yarn tension.

The above-mentioned disadvantages and problems are solved by the device according to the invention, which essentially consists in that the arm of the longitudinal member is connected by means of a pin to a torsion spring with adjustable bias.

The machine is mechanical and is very simple, it uses a torsion spring to tension the yarn, it is located at the yarn bend, in front of the yarn distributor, where it does not interfere with the spinning process or make the yarn spinning more difficult. Its kinematic ratios are chosen such that at the beginning of the yarn tensioning the tensioner resistance increases more rapidly than with a large tensioner swing, which has a damping effect on the compensating arm and the compensator gives an acceptable yarn tension pattern even at high winding speeds.

Further advantages and features of the present invention will become apparent from the following description and drawings, wherein FIG. 1 is a side view of a compensator winding device; FIG. 2 is a section compensation device.

JL yarn resulting from the spinning chamber, not shown, the feed rollers 2, 3. Presentation of the bobbin being wound £ along which cyclically distributed conductor 5 at the bend of the yarn path 1 £ ^ front edge, a movable feeler 7_ as ^a rocker extending over the width of the yarn distribution band 1 by means of the arms 14, with pins 9, 9 on the edge holder 6.

The longitudinal member of the movable contact T is in the form of an arc along the zone of the distributed yarn 1 and tensiones the yarn 1. by the force of the torsion spring 10, which pivots the pin 2 and 2, respectively. The other end of the torsion spring 10 is supported in a notch of the housing 12 which is secured by the nut 13 and by its rotation adjusts the effect of the force of the torsion spring 10 on the yarn 2.

If the movable feeler 2 ^{in a} release position indicated by 2 ^'and begins to strain in phantom portion 11 of the yarn 2 »rocker feeler from the 2 position, 2 ^position, while shortening the stretch yarn 2 ° and place of the 2' position of the movable feeler 7_ the feed rollers 2 »2 · However, since the 2 ° d portion of the 2 'position of the movable contact T' to the edge is slightly increased at the same time, this tiny change in the length of the yarn 2 ^from the 2 'position results in a considerable increase in the torsion spring 22

At high yarn tension 2 ^to position 2 ^'and in position 2' of the movable feeler Ί_ increase portion 2 'position' of the yarn 2 between the actuator T_ ^'one movable feeler T_ and edge two relatively much less than the shortening portion 2''of the yarn 2 towards the feed rollers 2,3 and the increase in spring force 10 is less pronounced. These disproportions in the increase in the force of the spring 10 are just reflected in the damping of the dynamic effect of the rocker 10 at higher winding speeds.

The device can also be used for winding a cylindrical bobbin, it can also be used as a supplement to compensate for the winding devices with a movable contact point of the bobbin 4 with the driving element synchronized with the movement of the yarn guide 2. equalization of the voltage differences between the small and large spools that occur in the cone spool due to the winding kinematics.

Claims (2)

A device for compensating for differences in yarn axial force, in particular when winding cone spools on machines with a constant yarn feeding speed, consisting of a movable contact arranged in the region between the feed device and the yarn winding point near the yarn distributor. distributing the yarn in the form of a longitudinal member transversely to the yarn feed path fixed by at least one arm to the elastic element, characterized in that the longitudinal arm (14) is connected to the adjustable torsion spring (10) by means of a pin (8, 9). Device according to claim 1, characterized in that at least one pin (8, 9) is provided with a notch in which one end of the torsion spring (10) is inserted, the other end of which is supported in a slot of the nut-fastened housing (12). (13) to the edge holder (6) for bending the yarn path (1) ·