DE937599C - Electric cable with counter helix - Google Patents

Description

Electric cable with counter-helix For electric cables with Wires are armored and over the. Wires no further covering, e.g. B. made of jute, own, the wire armouring comes apart slightly when the cable bends and no longer fulfills its purpose of protecting the cable against external damage. To avoid this, one maintains a metal band in a spiral shape with an opposite one Direction of rotation than to lay the wire reinforcement around it (see Fig. R, in which z the reinforcement and 2 represents the metal strip, referred to below as the counter-helix). This counter-helix must have a gradient in order not to impair the flexibility of the cable, which is at least greater than the bandwidth. For economic reasons it is even desired to choose the slope as great as it is with regard to the purpose the counter-helix is justifiable. This means that there is a possibility that when it is being wound up of the cable on the drums, nest the opposing coils of adjacent rings. Now, as usual, the counter-helix consists of a flat, rectangular iron band Cross-section, so when the cable is unwound from the drum, the conical The turns of the opposite helix get caught on the sharp side edges of the iron band, which can lead to bending and possibly tearing of the windings concerned. Even if the cable is pulled across the floor during the rest of the installation, it takes place the opposite helix on sharp-edged bumps: the floor surface too much resistance and bends or even tears.

It has been suggested to remedy this disadvantage by using a band iron, whose. Cross-section has the shape of an arc of a circle. One with one such band iron armored cable is shown in Fig. 2, where again i denotes the reinforcement and 3 denotes the counter-helix. Becomes the radius of curvature of the circular arc is chosen to be sufficiently small, then the angle that the band edges with of the cylindrical cable sheath, correspondingly small, form the protruding edge is therefore much lower than with the flat band iron. Furthermore, through the Curvature the band edges of the coils of neighboring rings no longer abut one another, even if the coils are intertwined, because the edges are now in different positions Planes, and the abutting curved surfaces slide as you unwind the Cables slightly over each other.

3 and 4 show a detail of two rings lying next to one another with a counter-helix according to FIG. i and FIG. 2. They indicate that in a Relative movement of the rings in the axial direction, an embodiment according to FIG. 3, the band edges the counter-helix can not easily slide apart, while this in the Execution according to Fig. 4 is the case.

A cable according to Fig. 2 thanks to the curvature, slide over without getting stuck. -The use of a However, such a shaped counter-helix is associated with significant disadvantages. A band that is curved in this way leans when it is applied to the cable in a spiral shape wants to buckle very strongly. A perfect application is therefore only under Use of expensive devices possible. On the other hand, it just rubs rests linearly on two edges, over time the galvanizing resp. other protective coatings of the overlying wires through, and finally becoming the wires themselves or the strip edges are also attacked, causing the counter-helix loses its firm seat on the reinforcement.

It is known that individual conductors of power cables are insulated with paper to be provided with a metal helix over the insulation, the band cross-section of which is for Half consists of a straight and half of an arched part. At the When the helix is applied, the arcuate part then lies on top of the straight part of the previous spiral path. This with an overlap: wound helix is used but not the holding together of an underlying reinforcement, and the purpose the band shape does not consist of bending open. or to prevent tearing of the helix. Furthermore, devices for applying such a helix are also expensive necessary: According to the invention, it is proposed for the counter-helix. to use a ribbon which is concave on both sides towards the reinforcement and its central part is formed flat or slightly wavy, the undersides of the surface parts or / and the lower edges of the wave troughs serve as additional support surfaces. One Embodiment with a flat middle part is shown in Figure 5 on the cable, wherein the reinforcement with i and - the counter-helix is denoted by 4. Other embodiments, the appropriate mechanical demands to be made on the counter-helix are selected, Fig. 6 shows; the given possibilities are however with it not exhausted. In all of these forms, as in Fig. 2, the curvature of the Edges the sharp edge protruding in the radial direction according to FIG. I with the already described disadvantages of easy bending and tearing avoided and the possibility of sliding over sharp-edged obstacles. The partial representation of two rings lying side by side in Fig. 7 and ä make this clear. The progress compared to the aforementioned execution according to Fig. z, however, is that the associated with the application of this form Disadvantages are avoided, as is explained in more detail below.

A counter-helix with a cross-section that is only an arc of a circle Has curvature according to Figure 2, must be expected for a given width of the band depending on the Load have a certain radius of curvature for a certain wall thickness, whereby the latter becomes smaller, the greater the Bellasfiungsbarkeit should be. A tape according to the invention can, however, with the same width and wall thickness, because it does not have such a wide arch, is much flatter will. In practice, you can keep up with about half the height of the tape Kreigbogen-shaped cross-section. With the loads that normally occur this results in a height of about 1.5 mm compared to an absolutely flat band of 0.5 mm and a circular arched band of at least 3 mm. One band after the invention can therefore still be used as a flat belt without additional facilities around the reinforcement. A circular arc-shaped band 3 mm high, on the other hand, kinks, if additional guiding devices are not used, one so that it is in the form of a polygon around the cable and does not fit securely. This fact of experience is likely to be due to the fact that with decreasing cross-section 'height -der through a bend caused a difference in the change in length of the individual cross-sectional planes becomes smaller compared to the plane lying in the neutral axis, the band after the invention has the advantage over the circular band that with the same external load as the specific pressure on the surfaces in contact with the Reinforcement is less. In the case of a circular belt, the load is carried through transfer the sharp edges of the margins, however, in the case of the tape according to the invention the edge parts can be rolled into semicircles, so that the load on the entire Edge width is distributed, with the additionally provided support surfaces also still have a relieving effect. The load is thus distributed over a larger area, and the risk of the galvanizing or other protective coating chafing through is avoided. The material of the counter helix is preferably iron, but can also be any other metal.

The cavities can be used to protect the reinforcement underneath the counter-helix optionally with a material made of an elastic padding fill out.

Claims (2)

PATENT CLAIMS: i. Wire-armored electrical cable with a counter-helix, which consists of a tape laid around the reinforcement in a spiral shape, characterized in that that the tape is curved concavely on both sides towards the reinforcement and its central part is flat or slightly wavy, and the undersides of the surface parts and / or .The lower edges of the wave troughs serve as additional support surfaces. 2. Reinforced wire Electrical cable according to claim i, characterized in that the between reinforcement and opposing helix existing cavities are filled with elastic material. Cited references: U.S. Patent No. z 597: 222.