DE3030125A1 - BENDABLE PIPE FOR AN ELECTRICAL CABLE - Google Patents

Description

FLEXIBLE TUBE FOR AN ELECTRICAL CABLE

The invention relates to a flexible cladding tube according to the preamble of claim 1. Such a tube Cladding tube is known from FR-GM 21 26 616. In the known arrangement, the reinforcement wire consists of a lead core and a plastic cover. Such ducts withstand only low tensile forces and are particularly useful when laying the cables endangered on the seabed or on the laying vessels, where they are stored rolled up to relatively small diameters.

The object of the invention is to propose a flexible duct of the type mentioned for an electrical cable, that can withstand large pressures and high tensile forces, is relatively thin and light and sufficiently flexible to to be able to be stored in the rolled up state.

This object is achieved by the cladding tube characterized in claim 1. More preferred in terms of features Embodiments of the invention are based on the subclaims grasslands. The invention is explained in more detail below on the basis of several exemplary embodiments with the aid of the drawings.

Fig. 1 shows partially sectioned a first cladding tube according to the invention.

FIGS. 2 and 3 show variants of FIG. 1.

FIG. 4 shows a cladding tube according to FIGS. 1 and 2 surrounded by reinforcing wires

FIG. 5 shows a cladding tube according to FIG. 1 surrounded by two reinforcement layers.

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The cladding tube shown in FIG. 1 consists of a spirally corrugated tube 1, the inner surface 2 just like the outer surface is corrugated in a spiral shape. In the individual wave troughs between the wave crests 3 lie the turns of a reinforcing wire 4 of circular cross-section. The diameter of the wire is slightly smaller than that Distance between the side surfaces of the wave trough at the level of the central fiber of the wire.

It has been found that the limit stress before the cladding tube ruptures for a device equipped according to the invention as above Cladding tube with a wall thickness of 0.5 mm and a shaft cross-section radius of 2 mm is twice as large as for a Cladding tube without reinforcement wire.

Even better values are achieved with a cladding tube according to FIG. 2, in which the reinforcing wires 14 essentially have semicircular cross-section can be used, the base diameter 14a in alignment with the envelope 16 over the outermost Points 15 of the wave crests 13 runs.

It is also possible, as shown in FIG. 3, to use a cladding tube 21 in which reinforcing wires 24 have a rectangular shape Cross-section are used and accordingly the wave troughs 27 have a flat bottom, while the wave crests 23 a have semicircular cross-sectional shape. The width of the flat areas 27 of the wave troughs correspond approximately to half the slope the spiral.

FIG. 4 shows a cladding tube according to FIG is surrounded with a steep slope. This increases it even more

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the tensile strength of the entire duct. A layer of jute or an elastic material can be inserted between the duct and the reinforcement. It is known that a steel wire armouring which is helically wound around a cable of diameter D with a pitch angle O (exerts a total pressure on this cable according to the following relationship ρ ₌ 2 T tg ² <x

where T is the applied tensile stress. One with reinforcement wire provided cladding tube withstands such pressures much better than an unreinforced cladding tube.

As a reinforcement made of helical steel wires running in one direction, the cable rotates around its axis confers and tends to fade, if there is tensile stress, it is advantageous to the reinforcement, as shown in Fig. 5, with to surround a second reinforcement 40 made of steel wires 41 which spiral in opposite directions. One can do this Also counter danger by putting only one or more turns of solid or split wires in the opposite sense around the first reinforcement loops. This cancels the twisting effect around the cable's own axis.

You can also put a layer of plastic between the two reinforcements, and you can put the reinforcements in place also surrounded on the outside with tapes or foils made of metal or plastic. The wires of the reinforcements can be solid or wired be naked or isolated individually.

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In the context of the invention, reinforcement wires with other cross-sections, e.g. elliptical or trapezoidal Find cross-section use.

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L e r s e i t

Claims (1)

Fo 11 742 D. Aug 8, 1980 LES CABLES DE LYON S.A. 3030125 170, avenue Jean Jaur ^ s
69353 LYON CEDEX 2, France FLEXIBLE TUBE FOR ONE
ELECTRIC CABLE PATENT CLAIMS Flexible duct for an electrical cable, consisting of a spiral-shaped corrugated tube and a Reinforcement wire, which lies in the outer wave troughs of the pipe and which has a transverse dimension in the order of magnitude of the Has a trough width at the level of the central fiber of the wire, characterized in that the reinforcing wire (4, 14, 24) consists of a metal of high tensile strength and has a thickness which corresponds to about eight times the wall thickness of the tube (5, 15, 25). 2 - cladding tube according to claim 1, characterized in that the reinforcing wire (4) has a Has a circular cross-section and a diameter which corresponds to twice the radius of curvature of the shaft cross-section. 3 - cladding tube according to claim 1, characterized in that the reinforcing wire (14) in the Cross-section is semicircular, with the flat surface facing outwards and running in the extension of the envelope of the tube. 4 - cladding tube according to claim 1, characterized in that between the outer wave elevations Shallow wave troughs (27) are provided, 130009/0898 whose expansion in the axial direction corresponds approximately to half the spiral pitch and that the reinforcement wire is rectangular
Has cross section. 5 - cladding tube according to one of claims 1 to 4,
characterized in that it is surrounded on the outside with a reinforcement (30) made of wires (31) of high tensile strength which are attached to the cladding tube in a spiral shape with a steep pitch. 6 - cladding tube according to claim 5, characterized
characterized in that a protective layer lies between the corrugated pipe and the reinforcement. 7 - cladding tube according to one of claims 5 and 6,
characterized in that the reinforcement is surrounded by a layer (40) of wires (41) which run helically in the opposite direction to the reinforcement. 130009/0898