DE2924966A1 - DEVICE FOR ELECTRICALLY INFLUENCING THE WIRE CABLE ON HIGH SPEED CABLE MACHINES - Google Patents

Description

Title of the invention

Device for electrical influencing of the wire tension on high-speed stranding machines

Field of application of the invention

The invention relates to a device for electrically influencing the wire tension on high-speed stranding machines, in particular those of a tubeless design, which are arranged within the rotating system on the bobbin frame of each bobbin is and works as a function of the speed of the Verseilrotors and as an electromagnetic actuator Spool brake systems, such as tie rod magnet systems with friction brakes, magnetic powder brakes or hysteresis brakes are used.

Characteristics of the known technical! Solutions

Modern high-speed stranding machines, especially the tubeless ones Design, are operated at speeds between 3000 and 8000 min "depending on the size (coil diameter). In the case of the tubeless high-speed stranding machines that work without miter brackets, there are reels in the area of the unwinding spools relatively large distances between the wire guides, d. H. the wire running to the stranding point forms around the following pay-off reels free cable curves, the radii of which on the one hand depend on the size of the pay-off reel and on the other hand are dependent on the acting centrifugal force and the wire tensile force counteracting this. So that will the wire tensile force to the determining variable factor for

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Formation of the required rope curves. The wire tension on the other hand, in turn, depends on the size of the braking force that is exerted on the wire running off. In the In the usual way, the pay-off spools are slowed down and the size of the wire pull-off force is determined in this way. According to DE-AS 2 I64 131, Int. Eq. D 07 B, 3/04 a reel brake on a tubeless stranding machine is known which consists of a mounting part attached to the coil frame, which extends in front of the coil and is bent so that its end is in the middle of the width of the coil. There is a one-armed control lever on the mounting part pivoted, the free end of which is split into two arms. On the one facing the pay-off spool The end of the control lever is a wire guide bushing and the other arm, which is behind it in the withdrawal direction arranged a guide roller. The control lever is acted upon by a torsion spring in the withdrawal direction and is printed elastically against the assembly part when the machine is in operation. On the assembly part is a little deeper Another wire guide roller is mounted on the control lever as the guide roller. With the pay-off spool is a Brake disc rotatably connected, over which a brake band is placed. One end of the brake band is on the control lever and the other end attached to the mounting part. This attachment of the brake band ends allows a coarse and fine adjustment the braking force. This wire tension control device should have a constant, the setting value guarantee appropriate braking force. This spool brake or wire tension control device does take into account the wire tension directly behind the pay-off reel, but has in the course of the wire guide through the entire length of the The rotor has little influence on the other disturbance variables. A special feature of the high-performance high-speed stranding machines In the tubeless design, especially those with a larger number of coils, is that in the start-up or braking phase a frictionless guidance of Verseilgutführung is not possible because of the larger number of reels frequent and strong deflection of the material to be stranded takes place. On the other hand, in the operating state, however, relatively

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high braking forces to maintain the intended cable curves, which should not exceed a certain flight circle are used, is the use of the previously described Wire tension control device not possible. This facility would either be the plug circle of the items to be stranded Let it grow beyond the permissible level or the tensile stress in the stranded material would be in the start-up and Braking phase too high that the parts to be stranded would tear. One has therefore already been proposed Use a braking system that consists of a combination or the usual reel brake dependent on the wire tension and a there is a centrifugal brake dependent on the speed of the material to be stranded. Here the material to be stranded after it has left the pay-off reel, passed over a roller braked by centrifugal force and there with a braking force braked, which increases or decreases proportionally with the centrifugal force. This braking system, which in its braking effect and so that it is very variable and adaptable with regard to the wire tensile force, has a disadvantage in that that the braking effect on the material to be stranded occurs as a frictional force and could therefore lead to damage of the same. In addition, the decelerating part wears out as a result of the part dragging over it Stranded goods, with wear and tear and surface contamination leading to fluctuations in the braking effect to lead.

Object of the invention

The aim of the invention is to avoid damage caused by the braking of the moving material to be stranded Changeover of the stranding program in the shortest possible time to set the fourth for the wire pulls corresponding to the new program and to increase the throughput of the stranding machines.

Explain the essence of the invention

The object of the invention is to provide a device for electrically influencing the wire tension on fast

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to create stranding machines that reduce the tensile force of the wire Controls the start-up and run-down process of the stranding machine via the rotor speed and during stationary operation regulates via a specified setpoint.

According to the invention, the object is achieved in that for power supply of the arranged on the lead-off coils electromagnetic Reel brake systems on the reel frame mounting of each pay-off reel a generator is arranged, the rotating part (armature) is non-rotatably connected to the respective shaft journal of the stranding machine rotor and the generated current via a directional linearity and an actuator affects the excitation of the electromagnetic coil brake.

Furthermore, the invention provides that the generator consists of an iron circuit arranged on the bearing housing with a coil system and a rotating permanent magnet ring with alternating There is polarity, the axis of which is non-rotatably connected to the shaft journal of the respective rotor section, with the coil system with the non-linearity and electrically connected to the exciter system of the coil brake via the actuator is.

Another feature of the invention is that for the supply of all electrical equipment except for the generator a speed-independent energy storage device as well as undervoltage monitoring and a measured value sensor for the controller solution are provided.

The invention also includes that the target value of the wire tensile force is controlled as a function of the rotor speed.

Embodiment

The invention is explained in more detail with reference to the illustrated embodiment. It mean

1 shows a part of the rotor section of a tubeless high-speed stranding machine in longitudinal section with the coil frame storage and the generator

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Prop. 2 is a schematic representation of the device to influence the wire tension

The device according to FIGS. 1 and 2 consists essentially of the generator 1 as the current source, the Uichtlinearität 2, the actuator 5 with controller 3 and one electromagnetically operated Spool brake 6. The generator 1 is attached to the one bearing housing 8 of the spool frame 7 and consists from an iron circle 9 with the coil system 10 and the alternating polarization exhibiting permanent magnet ring 11, which in turn is arranged on an axis 14 connected in a rotationally fixed manner to the shaft journal 12 of the stranding rotor 13. the ITonlinearity 2 can be a diode resistor network value or a nonlinear resistor fed by generator 1 will. The actuator 5 is either a transistor, thyristor with ignition device or a variable resistor or a switch.

The device also includes the excitation system 15 for the electromagnetic coil brake 6 and the power supply for controller 3 and measured value acquisition 16. Controller 3 consists in turn, essentially from an electrical, electromagnetic or mechanical comparison device for the setpoint and actual value of the wire tension and a rotor speed-dependent setpoint influencing of the wire tension. The power supply 17 generally consists of a stabilizer, an energy store, a capacitor or Can be accumulator, and from an undervoltage monitoring. The measured value acquisition 16 is either a force or distance measuring system, other designs for detecting the wire tensile force are also possible.

The operation of the device according to the invention is like follows:

As long as the stranding rotor 13 is not rotating, there is only a braking torque on the reel brake 6 which approaches zero from the bearing friction. When the stranding rotor starts to turn, a voltage is generated in generator 1, whose amplitude increases with increasing rotor speed. This voltage drives through the nonlinearity 2 and that Actuator 5 a current in the excitation winding of the excitation system 15 of the coil brake 6, which in turn has a braking effect.

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exerts on the pay-off reel 4. The one generated by generator 1 Excitation current for the electromagnetic coil brake 6 is activated by the actuator 5 up to a certain rotor speed not affected, since the undervoltage monitoring in the power supply 17 via the controller 3, the actuator 5 full has opened. When a certain rotor speed is reached, the controller 3 is fully functional and influenced the actuator via the target / actual value comparison of the wire tensile force 5 in such a way that the wire tensile force increases as a function of the rotor speed and when the Operating speed has reached its required end value. When the stranding machine is switched off, the process runs in the other way around.

If the technological parameters change, i. H. the wire to be stranded has a different cross-section, see above a change in the nominal electrical values occurs by means of manual input, thereby changing the specified value Setpoint. Since the power generation (generator 1) and the actuator 5 are within the rotating system, there is no need to transmit electrical energy by means of slip rings. It also arises on the withdrawn wire as well no friction loss on the braking device. The wire tension is constant regardless of the state of wear and the contamination of the friction elements. One when changing the stranding program necessary conversion of the values for the wire tension is simple and unproblematic.

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Claims (3)

Invention claim 1. Device for electrical influencing of the wire tension on high-speed stranding machines, especially those of a tubeless design that are used within the rotating System is arranged on the coil frame of each coil, works depending on the rotor speed and electromagnetic Used reel brake systems, characterized in that the power supply to the Pay-off coils (4) arranged electromagnetic coil braking systems on the coil frame mounting of each pay-off coil (4) a generator (1) is arranged, the rotating part (permanent magnet ring (11)) with the respective shaft journal (12) of the stranding rotor (13) is rotatably connected and the generated current via an ITichtlinearität (2) and an actuator (5) the Excitation of the electromagnetic coil brake (6) affected. 2. Device according to item 1, characterized in that the generator (1) consists of a arranged on the bearing housing (8), the ferromagnetic circuit (9) with the coil system (10) and a rotating permanent magnet ring (11) with alternating polarity, whose A _c HSE ( 14) is non-rotatably connected to the shaft journal (12) of the respective rotor section of the stranding rotor (13), the coil system (10) with the non-linearity (2) and via the actuator (5) with the excitation system (15) of the coil brake (6) is electrically connected. 3. Device according to item 1, characterized in that for the supply of said electrical system except that Generator (1) a speed-independent energy storage device and an undervoltage monitor for the controller (3) and a measured value acquisition (16) are provided. 0300H / 0578 4 · Device according to item 1, characterized in that the target value of the wire tensile force depends on the Rotor speed is controlled. 0300U / 0578