DE19607790A1 - Mechanism to lay yarns at twister or spinner - Google Patents

Abstract

The mechanism to lay yarns in a twisting or spinning machine has a threaded spindle (5) in a frame, to move the ring rail (9) vertically up and down.

Description

The invention relates to a device for laying threads in a Twisting machine.

The prior art includes devices in which the ring holder with a ring and ring travelers are attached to so-called ring banks, which by a Up and down movement during the twisting or spinning process for a laying of the thread on the rotating cop.

There are different versions for driving these ring banks. A be known version is a ring bench drive, in which the ring bench is guided horizontally is suspended from belts and is moved vertically by them. A disadvantage this embodiment is that the bands be the ring bank in one direction only can accelerate. In the downward movement there is a maximum of gravitational acceleration to disposal. The speed profile is usually with cams given. As a result, changes in the scope and the speed control with a considerable expenditure of time and money are connected. Another disadvantage of this type of drive is that the finite Elasticity of the bands vibrations occur, which disrupt the construction of the cop.

Another known embodiment is the drive of the ring bench by means of toggle levers and a hydraulic system. Such a drive is with respect to the Maximalge speed and the speed profile more flexible, but it requires one very complex control. Because the moving masses of such a system are very are large, here too disturbing swine occur especially in the reversal points on. Furthermore, the contamination of the product by the at a Hydraulic system inevitable oil loss.

Among other things, In incremental encoder used. They are used to determine the length or angle of a trans measure rotational or rotational movement. This usually happens with means of an incremental encoder, e.g. B. a light barrier and a Zahnpro fils. In a further embodiment, there is the possibility of using two signals, e.g. B.  two light barriers, which are at a certain angle or distance from each other which are arranged, with the help of a sine-cosine detection, the direction of motion to recognize the ring bench. The direction of movement is determined by the Rei order of the two signals. Since such incremental encoders are only one Detecting relative movement is the detection of so-called reference points necessary. Range switches are used for this purpose. Around the area To reduce the size, it is common to use a light barrier and a Combine pulse on the incremental encoder. However, this solution hides the Ge Drive that false impulses lead to incorrect reference point recognition.

This object is achieved by two or more vertically arranged Threaded spindles released by an electric motor over one or more form conclusive gears are driven and one or more ring banks both raise or lower vertically and guide horizontally. This enables an easy construction design and minimizing the number of transmission elements what again reduces the risk of disturbing vibrations. Besides, he will required deceleration and acceleration forces when changing direction Ring bench kept small. The electric motor is a three-phase asynchronous motor low moment of inertia. Direction of rotation and speed of the Mo tors are specified by a frequency converter. To be as quick as possible Achieving a change of direction is done by decelerating in the old and accelerating in the new direction of rotation, measure the frequency change per unit of time so that the motor works with the overturning moment.

Furthermore, the required reference points are recognized in such a way that in egg nem by a division, z. B. a light barrier, defined area two or more pulses can only be recognized as a reference point if they have a be agreed to have a distance depending on the speed. All other signal sequences are recognized as interference signals and rejected. The true Probability that two pulses, of which at least one is a glitch, the the correct distance from each other is extremely small and can be further im pulse can be reduced even further. In one embodiment of the invention thanks, a light barrier is rotated and rotated with the motor shaft punched disc interrupted. The number of openings determines the number of openings  the detection of the reference point important impulses. Other versions of the The idea of the invention would be two or more light barriers for an opening the same diameter or two or more light barriers with the corresponding openings with different diameters.

Thanks to the positive drive and the resulting synchronous movement the threaded spindles and the drive motor is a simple control and loading calculation of the ring bench movement or position possible. Furthermore, there is only one Monitoring of several ring banks driven by an electric motor nope tig.

A preferred embodiment of the inventive concept is based on the drawing gene shown and explained in more detail.

Fig. 1 Scheme of an electric motor driven ring bench with incremental encoder, with sine-cosine detection, and reference point detection in the side view.

Fig. 2 Scheme of an incremental encoder, with sine-cosine detection, and egg nem encoder for the reference point detection in plan view.

In Fig. 1 the structure of a ring bench is shown schematically. The thread 1 is guided by the balloon thread guide 2 and then laid on the cop 4 , which also rotates, by means of the rotor rotating on the ring and ring holder 3 . The arranged between the two threaded spindles 5 electric motor 6 drives two toothed belt 7 to the two threaded spindles. 5 With further toothed belts 7 a further threaded spindles 5 a can be driven. The positive connection of the threaded spindles 5 , 5 a and the motor shaft 6 a ensures that all threaded spindles 5 , 5 a move synchronously. Instead of the toothed belt 7 , 7 a, a shaft with angular gears can also be used. In the event of failure of at least one toothed belt 7 , 7 a, the motor can be switched off to prevent damage to the ring rail 9 . The spindle movement is monitored e.g. B. via proximity switches 16 on the toothed belt 7 , 7 a of the two outer spin deltriebe.

On the threaded spindles 5 , 5 a there are nuts 8 on which the ring rail 9 is mounted. The toothed disc 10 also mounted on the motor shaft 6 a serves together with two light barriers 11 as an incremental encoder. The size of the increments can be influenced by the division of the toothed disk 10 . A further light barrier 12 and at least two bores 13 in the toothed disk 10 serve as the pulse generator for the reference point detection. Instead of the holes 13 , an elongated hole 13 a can be used on a radius of the disc 10 . All pulses whose distance deviate from this defined distance would be recognized as interference pulses and rejected. FIG. 2 shows a possible arrangement of three light barriers 11 and 12 and an embodiment of the toothed disk 10 with bores 13 . The area in which the ring bank 9 must be for the reference point detection is determined by a further light barrier 14 and a plate 15 mounted on one of the ring banks 9 . Instead of the light barriers 11 , 12 , 14 , other sensors, for. B. Proximity initiators who used the.

Claims (10)

1. Device for laying threads in a twisting or spinning machine, characterized by threaded spindles ( 5 ) mounted in a frame, which move the ring rail ( 9 ) vertically up and down. 2. Device according to claim 1, characterized in that the threaded spindles ( 5 ) take over the horizontal guidance. 3. Apparatus according to claim 1 or 2, characterized in that an electric motor ( 6 ) is used for driving the threaded spindles ( 5 ). 4. Device according to one of the preceding claims, characterized in that the motor ( 6 ) is driven by a frequency converter with adjustable frequency ben. 5. Device according to one of the preceding claims, characterized in that the frequency for driving the motor ( 6 ) is changed during the change of direction so that the motor ( 6 ) is operated close to the overturning moment. 6. Device according to one of the preceding claims, characterized in that, with a motor ( 6 ) a plurality of ring banks are driven by means of a positive gear. 7. Device according to one of the preceding claims, characterized in that all of a motor ( 6 ) driven spindles ( 5 ) with standstill monitors ( 16 ) are monitored, which switch off the motor ( 6 ) when a spindle ( 5 ) is at a standstill. 8. Device according to one of the preceding claims, characterized in that an incremental encoder consisting of two Signalge bern ( 11 ) is used to detect the direction of movement to control the drive. 9. Device according to one of the preceding claims, characterized in that the incremental encoder has two or more teeth or holes with a defined Ab has or angle for the detection of reference pulses. 10. Device according to one of the preceding claims, characterized net that an incremental encoder with a defi ned pulse length is used.