DD226543A1 - PROCESS FOR OVERHEADING OF THE STRANDOFFIC GOOD - Google Patents

Abstract

The invention relates to a device for Überzugabzug the strandfoermigen good of a arranged in a hopper stationary coil for extruder systems by means of a driven deflector and a pulley. The aim of the invention is to avoid damaging the surface of the wire and looping through the individual wire of the strand. The task, o. G. To develop apparatus has been achieved, daz the pulley is associated with a Laengenmesszeinrichtung, wherein the drive of the deflecting disc in the form of a motor and the Laengenmeszeinrichtung are electrically coupled via a control and regulating device {Überzuzugabziehen; stranded good; Funnel; resting coil; Deflector disc driven; Drafting wheel; Laengenmeszeinrichtung; Control unit}

Description

Field of application of the invention

The invention relates to a method for overhead removal of the strand-like material from a arranged in a funnel stationary coil for extruder systems.

Characteristic of the known technical solutions

When running thin and pliable wires less than 1 mm in diameter or with a large ratio of flange diameter to the core diameter of the coil, the trailing wire is drawn to the deflection plate of the coil, especially in the lower speed range or in the case of irregularities in the winding. The deflector is driven to prevent wire breaks. Since it is not possible to adjust the deflection disc speed to the loop speed, surface damage occurs.

For wires larger than mm diameter, the deflector is driven at a constant speed corresponding to the maximum wire speed and core speed. The occurring accelerations of the wire loops and the resulting irregularities in the wire run and the possible surface damage are absorbed by the thicker wires. However, it is difficult, the speed of the wire loop

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to detect, since this changes at a constant linear velocity ν of the wire in dependence on the winding diameter d _w and π . The error from the winding diameter can be up to 250%, based on the difference between core and flange diameter. It is now advisable to use the speed setpoint of the extruder system as the setpoint for the deflector disk drive. However, the error of 250% remains from the changing winding diameter. In order to counteract this error, it has been proposed in DD-PS 63685 to regulate the speed of the deflecting disc as a function of the weight loss of the emptying coil. Here, a spring is used as a counterforce to the weight of the coil, which leads to a change in position of the coil in a weight loss. The change in position serves as a reference variable for the control of the disk speed. The disadvantage is that this solution is not applicable to coils with horizontally arranged axes, which are used in a hopper or double hopper, since a change in position of the coils in the hopper is not allowed and the imbalance of the deflector leads to the falsification of the measured value. In DE-AS 1262192 a signal about the filling state of the coil is also given by utilizing the weight loss. Again, the already mentioned disadvantages occur.

Object of the invention

The aim of the invention is to avoid damage to the surface of the wires and a looping through the individual wires of the strand.

Explanation of the essence of the invention

The invention has for its object to provide a method which detects the changing winding diameter of the wires or strands.

The method involves the overhead removal of the strand-like material from a bobbin arranged in a funnel.

According to the invention is now that the speed of the deflector is adjusted depending on the running wire length. In this case, the hyperbolic relationship between winding length and winding diameter is approximated by incremental steps. The increments are in turn triggered by pulses from a meter counter.

Another feature of the invention is that, depending on the winding length of the wire, the preselected pulses trigger the starting and stopping of the deflecting disk.

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embodiment

The invention will be explained in more detail below using an exemplary embodiment. Show it:

1 shows an overhead drain with speed control Fig.2 is a diagram of the speed curve

The overhead drain consists of the lift truck 1 and the hopper 2 flying coil 3. The coil 3 is provided with a deflector 4, which is driven by a motor 5. To realize a speed of the deflecting disk 4, only slightly larger than the speed of the wire loop 6, the speed of the deflecting disk is controlled as a function of the linear speed of the wire and the level of the unwound spool 3 (Figure 1, 2). In the diagram with the coordinates speed η and length L is already at three stages a good approximation of the speed curve of the deflector 4 and the wire loop 6 can be seen. In principle, several gradings and thus an even better approximation are possible. The remaining speed error is thus brought to <20%. The value for the linear velocity of the wire, which is detected by the pulley 7 and converted by the tachometer 8 in a speed proportion as an electrical signal, the evaluation network 9 is supplied. From the actuator 10 receives via the transducer 11 of the length meter 12 pulses. The pulses are used to determine the length of the coil spun by the coil. The length meter 12 contains three prefixes, upon reaching which signals are output to the rating network 9. The presets of the length gauge 12 are e.g. to set 40.70 and 90% of the total wire length on the spool 3. From the evaluation network 9, the signal of the I.Order with 0.63, on reaching the 2nd preselection with 0.83 and on reaching the 3rd preselection with 1. Then the signal of I.Vorwahl is to be evaluated. The chosen values give a good approximation to the course of the winding hyperbola. The output of the evaluation network 9 is the speed setpoint for the power converter 13, which controls the speed of the motor 5 for the deflector 4 in conjunction with the tachogenerator 14 according to this speed setpoint To adjust the speed setpoint to different coil sizes can be carried out a re-evaluation of the speed setpoint. In one embodiment of the process as a double-head drain, the last pre-selection pulse for switching on the deflector 4 of the prepared full bobbin 3 in the other half of the double funnel can be used. The preselected on the length of the blade 12 depending on the winding length of the wire pulses trigger the start-up and stopping of the deflector. It is advantageous in the invention that the method is applicable not only for coils with a horizontal axis, but also for coils with a vertical axis. As a result of the speed reduction, the imbalance of the deflector is reduced, thus improving the quality of running and smoothness.

Claims (2)

-1- 673 Invention claims: 1. A method for overhead removal of the strand-like material from a arranged in a funnel quiescent coil, characterized in that the speed of the deflecting disc is adjusted depending on the running wire length, wherein the hyperbolic relationship between winding length and winding diameter is approximated by increments and the increments by Pulses are triggered by a meter counter. 2. Method according to item!, Characterized in that, depending on the winding length of the wire, the preselected pulses trigger the starting and stopping of the deflecting disk. For this 2 sheets of drawings