EP0336052A1 - Assembly for winding filaments or threadlike material to a longish mandrel - Google Patents

Abstract

For winding filaments or threadlike material (2; 3) on an elongate article (1), the supply reels (4; 5), which are arranged with their axes parallel to the axis of the article (1) and are together mounted rotatably about the said axis, can additionally be driven in rotation about their own axis. <IMAGE>

Description

The present invention relates to a device for the helical application of tape or thread-like material to elongated material, in which this material is unwound from supply spools which are arranged with their axes parallel to the axis of the material and are rotatably mounted together about this axis.

Devices of the generic type are also referred to as tangential spinners, they serve, for example, to enclose elongated material, such as electrical cables or lines, pipes or tube bundles, with a holding spiral. This holding helix can be a plastic band which is applied in one or more layers, likewise a correspondingly tensile thread can be used, which takes over the function of a holding helix. In addition, holding helices in the form of metallic strips often take on the function of a contact or transverse helix in the manufacture of cables and lines, for example when a layer of metallic wires covers the cable core for shielding purposes. If particularly high demands are placed on the tensile strength, appropriate materials, for example based on polytetrafluoroethylene, polyamide and the like, will be used. The holding helices can also have profile shapes that differ from the band or thread shape, preferably with a small height, so braids or fabrics can be used, e.g. B. also a so-called. Lattice fabric, which is cut into tape form, is wrapped around the elongated material.

However, with increasing production speed and because of the large number of different materials that are placed helically around the elongated product, difficulties arise again and again when the strip or thread material runs off the supply spools. So it happens again and again during unwinding that when the winding diameter decreases on the core of the supply spools, the tape to be unwound is drawn in between the spool flange and the existing winding layers and thus jammed, so that a tape break occurs.

The invention is therefore based on the object, regardless of the strip or thread material and the external shape of this winding material, but also without prejudice to high production speeds, to find a way to make the helical application of strip or thread-like material without problems.

This object is achieved in a device according to the invention in that each supply spool can additionally be driven in rotation about its own axis. This makes it possible to continuously meter the amount of strip or thread-like material required for the winding process as a result of a slower or faster rotation of the winding device; strip or thread breaks are thus excluded.

In order to ensure this continuous metering of strip-like or thread-like material even under extreme operating conditions and at the same time to create a spatially compact and reliable winding device, it is provided in a further development of the invention that one for driving each supply spool speed-controlled motor is used, which is rotatably mounted about the axis of the goods together with the supply spool assigned to it. It is particularly advantageous if a control unit is assigned to each drive motor. It is thus possible to adapt the rotational speed of each supply reel to the particular circumstances, which are predetermined, for example, by the strip material, the strip shape or also by the length of lay of the strip running off the respective supply reel.

The device according to the invention is expediently designed so that a hollow shaft is used as a carrier for the supply spools and the drive motors through which the material is guided. This allows reliable, reliable production without the material having to be cut when changing the bobbin.

A particularly advantageous use of a device designed according to the invention results for the implementation of a known method (DE-PS 29 46 248), in which the continuous stranding, with alternating direction of twist, of electrical cables or lines made of solid wires or wires of larger cross section made up of individual wires, the veins are individually stripped from spatially stored supplies, merged into a bundle (bundle) at a first stranding point and then stranded in a stretched state within the specified stretch while traveling through a predetermined distance, which is delimited by a second stranding point. Within the stated route, the material is stored in a stretched state along a defined, shorter route and, after leaving the first stranding point, the bundle is non-positively embraced and held on a length that is only a fraction of the storage length. During the holding, the stretch of the bundle is stranded between the first stranding point and the holder and this stranded stretch during the passage of the storage length in this stranded state is kept free of rotation before the bundle is released from the holder to the second stranding point after the stranded wires have been released, and the strands merged into a bundle (bundle) in the first stranding point immediately after leaving the stranding point as a bundle are continuously wrapped together with one or more holding helixes running out of supplies. The helix (s) and the twist are placed simultaneously so that the helix is wound onto a twisted bundle of wires. The holding spiral thus fixes the strand bundle.

The invention will be explained in more detail with reference to the embodiment shown in the figure.

For the helical folding of the stranded wires of an electrical power cable 1, for example with the tapes 2 and 3, they are unwound from the supply spools 4 and 5 in that the supply spools, the axes of which run parallel to the longitudinal axis of the cable, run around the power cable 1. For this purpose, a drive motor (not shown) and the hollow shaft 6, which is connected to the supply coils 4 and 5 in a fixed manner and through which the energy cable 1 is continuously moved, is used.

To avoid tape breaks during the winding process or tears of thread-like material, if it is e.g. B. during the unwinding of the tape or thread jamming in the bobbin area, the speed-controlled drive motors 7 and 8 are provided according to the invention, which drive the supply spools 4 and 5 via the belt drives 9 and 10, respectively. The drive motors 7 and 8, like the supply spools, are fixed in space on the rotating hollow shaft 6, ie they rotate together with the supply spools 4 and 5. Across from In this moving system, the control units 11 and 12 assigned to each supply spool are fixed in space, and the current can be transmitted via slip rings.

At the start of manufacturing, i.e. H. when the supply coils 4 and 5 are full, the setpoint generator 13 (14) is set such that the distance a from the infrared transmitter 15 (16) is displayed and the corresponding signals are supplied to the respective control unit 11 (12). If the tension in band 2 (3) changes, for example due to an increase in the production speed or the decreasing winding radius of the strip material stored in the supply reel 4 (5), then the roller 17 (18) becomes counter to the force of the spring 19 (20 ) moved to the roll 21 (22). Accordingly, the element 23 (24) rigidly connected to the roller 17 (18) moves in the direction of the arrow, i. H. the distance a corresponding to the target value of the tension increases. This change in distance leads to a change in the output voltage of the infrared transmitter 15 (16), which is passed on to the control unit 11 (12). In the event of a deviation from the target value after a target / actual value comparison, a corresponding control signal is given to the speed controller for the drive motor 7 (8). After a speed comparison, the speed of the supply reel 4 (5) is then increased until the tension in the band 2 (3) is reduced so far that the roller 17 (18) has moved away from the roller 21 (22) in the direction of the arrow so far the distance a corresponding to the setpoint is reached again. To improve this control process, which allows sufficient winding material to be made available to the winding process at all times, so-called tachometer machines 25 and 26 can be provided.

Claims (4)

1. Device for the helical application of tape or thread-like material to elongated material, in which this material is unwound from supply spools, which are arranged with their axes parallel to the axis of the material and rotatably mounted together about this axis, characterized in that each supply spool is additionally drivable about its own axis. 2. Device according to claim 1, characterized in that a speed-controlled motor is used to drive each supply spool, which is rotatably mounted about the axis of the goods together with the supply spool assigned to it. 3. Device according to claim 1 or 2, characterized in that a control unit is assigned to each drive motor. 4. Device according to claim 1 or one of the following, characterized in that a hollow shaft is used as a carrier for the supply spools and the drive motors through which the material is guided.

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