HU219522B - Device for coiling and uncoiling of metal wires - Google Patents

Abstract

The subject of the invention is a device for winding up and unwinding metal wires, especially for a winding machine for the production of spiral wires for electric lamps or for a device for drawing metal wires. In the device, the tension of the wire and the running speed of the wire are controlled with the help of an oscillating system consisting of an oscillating roller (5), a directional roller (6), a rotating magnet (9) that creates a torque proportional to the power supply voltage, and an angle encoder (10). In the swing system, the axis of the proportional rotating magnet (9) is rigidly connected to the axis of the angle encoder (10). ŕ

Description

The present invention relates to an apparatus for winding and unwinding metal wires. In the device, the tension of the wire and the speed of the wire are controlled by means of a swinging system.

Such a device is disclosed, for example, in use pattern DE-U 81 06 539. Described herein is a device for drawing metal wires, in which the metal wires are pulled through pulling discs by means of pulling discs folded together in each of the pulling steps, which reduce the diameter or thickness of the wire. All tension disks have the same diameter but move at different circumferential speeds. A final pivoting disc having a separate drive and a pivoting system consisting of an angle encoder, a pivoting roller and a plurality of directional pulleys is disposed between the end pulling stone. This swinging system stretches the wire and allows the wire speed to automatically adjust to the longitudinal elongation of the metal wire caused by the drawing process. In general, such swinging systems consist essentially of an angle encoder and a swinging roller. The axis of the angle encoder is rigidly connected via a lever to the axis of the swivel roller, which rests on the wire to be pulled. The tension of the wire is determined by the torque exerted by the swing system, which is defined by the connecting arm between the angle encoder and the swivel roller, and by the weight of the swivel roller and, if applicable, the additional weights placed on the arm. It is also known to create a swing load on the connecting arm by means of torsion or tension springs acting between the angle encoder and the swivel roller. A disadvantage of this arrangement is that in addition to the swing weight, dynamic inertia forces are applied to the wire and can lead to indefinitely fluctuating wire tension. If torsional loads are applied by torsional or tensile springs, resonance oscillations and nonlinear force generation can also induce indefinitely oscillatory wire stresses.

It is an object of the present invention to provide an apparatus for winding and unwinding metal wires, which guarantees a constant wire tension as defined during the winding process.

According to the present invention, this object is solved by providing a proportional rotation magnet in the oscillation system, which is coupled to the angle encoder of the oscillation system and generates a torque that increases in proportion to its supply voltage.

The apparatus for winding metal wires according to the invention comprises a swinging system provided with a so-called proportional rotation magnet. The most important feature of this proportional rotary magnet is that it generates a linearly increasing torque with its power supply and that the torque angularity curve is horizontal. You can also name it thanks to these qualities. The axis of the proportional rotation magnet according to the invention is rigidly connected to the angle coding axis of the swinging system. In this way, the mechanical tension of the metal wire to be wound can be adjusted and controlled to the desired value through the power supply of the proportional rotating magnet. The swinging system of the present invention provides reproducible wire tension, i.e., guarantees that the metal wire is wound up or unwound with an adjustable constant downward force.

The invention is particularly applicable to devices for drawing fine metal wires, in particular tungsten or molybdenum wires having a wire diameter of less than 500 µm or wire thickness. The storage spindle of the wire drawing device is equipped with its own drive for unwinding of the metal wire, because of the low tensile strength of the wire, the storage spindle cannot be easily pulled off. The pivoting system of the present invention is particularly well suited for controlling wire tension and rotational speed of the storage spindle drive.

The present invention will be described in more detail with reference to a particularly preferred embodiment thereof, with reference to the following drawing. This embodiment is an apparatus for drawing metal wires. The figure illustrates the essential parts of this apparatus in order to understand the invention. A detailed description of an apparatus for drawing metal wires to which the invention is applicable is provided, for example, in German Application Specification DE-U 81 06 539, cited above.

The apparatus for drawing metal wires according to the embodiment comprises a storage spindle 2 with a tungsten metal wire 1 driven by an electric motor 3. The storage spindle 2 unwinds the wire set. The tungsten metal wire 1 is guided through a plurality of pulling steps 4 by means of tensioning discs 4 with a roller roller 5 and a reversing roller 6 until a desired end diameter is reached. For the sake of simplicity, the drawing illustrates a pulling step consisting of only one pulling disc 4 and a pulling stone 7 placed in front of the pulling disc 4. The axis of the pivoting roller 5 is rigidly connected to the axis of the proportional rotation magnet 9 by the connecting lever 8. The axis of the proportional rotation magnet 9 is rigidly connected to the axis of the angle encoder 10. The angle encoder 10, the proportional rotation magnet 9, the pivoting roller 5 and the reversing roller 6 constitute the pivoting system of the device according to the invention for drawing metal wires.

Both the proportional rotation magnet 9 and the angle encoder 10 are connected to the control unit 11 of the electric motor 3 driving the storage spindle. The control unit 11 controls the wire run speed through a connection to the electric motor 3 of the storage spindle 2. The angle encoder 10 measures the horizontal angle of the connecting lever 8 and transmits an input signal corresponding to this angle to the control unit all. By adjusting the power of the 9 proportional rotary magnet on the All control unit, the wire tension can be set to the desired value. The angular adjustment of the connecting lever 8 and thus the torque acting on the tungsten metal wire 1 is determined by the power current of the proportional rotary magnet 9. The 9 proportional rotary magnet has a linear relationship between the torque it generates and its own power supply, the torque-rotation angle characteristic is horizontal and the torque is constant over its working range.

All control units control the wire run speed depending on the preset nominal tension of the wire and the input signal received from the angle encoder 10.

HU 219 522 Β

The invention is not limited to the particular embodiment. For example, a pivoting system consisting of a pivoting roller 5, a reversing roller 6, a proportional rotation magnet 9 and an angle encoder 10 can be incorporated in other locations, e.g. The oscillating system of the present invention can also be used in a winding machine for producing spiral wires for electric lamps. The oscillating system according to the invention is suitable, for example, for controlling the tension of the wire as well as the speed of the wire during winding and unwinding of the core wire. The swinging system of the present invention can also be used to control the tension of the center wire of the fluorescent wire to be wound around the core wire and to be unwound from a storage spindle, and to control the wire speed. A spiral winding machine with a swinging system according to the invention is described, for example, in DE 43 43 933.

Claims (6)

PATENT CLAIMS Apparatus for winding and unwinding metal wires, in particular for winding wire or for pulling metal wires, in particular for producing helical wires for electric lamps, wherein the tension of the wire and the speed of the wire are controlled by means of a swinging system, characterized in that In an oscillating system consisting of a roller (6), a proportional rotation magnet (9) generating a torque increasing proportionally to its power supply, and an angle encoder (10), the axis of the proportional rotation magnet (9) is rigidly connected to the axis of the angle encoder (10). Apparatus according to claim 1, characterized in that the metal wire (1) is arranged on a storage spindle (2) driven by an electric motor (3) and provides a constant amount of pulling force for controlling the speed of the electric motor (3). is connected to the control unit (11). Apparatus according to claim 1 or 2, characterized in that the power control output of the control unit (11) is connected to a proportional rotation magnet (9). Apparatus according to claim 1 or 2, characterized in that the output providing a signal characteristic of the position of the angle encoder (10) is connected to the control unit (11). 5. Device according to any one of claims 1 to 3, characterized in that the metal wires (1) are tungsten or molybdenum wires. Apparatus according to any one of claims 5 to 5, characterized in that the metal wires (1) have a thickness or diameter of less than 500 µm after the drawing process.