RU98121005A

RU98121005A - SELF-SUPPORTED CABLE AND METHOD FOR ITS MANUFACTURE

Info

Publication number: RU98121005A
Application number: RU98121005/09A
Authority: RU
Inventors: Ларс-Олоф Эфраимссон; Ульф Йохнсен
Original assignee: Телефонактиеболагет Лм Эрикссон (Пабл)
Priority date: 1996-04-23
Filing date: 1997-04-18
Publication date: 2000-09-20

Claims

1. A self-supporting cable that contains at least one insulated conductor (1, 2, 3), which includes a current-carrying core (4), which has at least one wire (11), and insulation of the current-carrying core (5), at least at least one longitudinally elongated shielding layer (6), and a shell (7), characterized in that each shielding layer (6) is provided with wave-like irregularities (22, 23), which are located mainly along the tangent, and is solid in the radial direction ; and the fact that the shell (7) has wave-like irregularities (21) that correspond to wave-like irregularities of the shielding layer (22), and the wave-like irregularities of the shell (21) and the wave-like irregularities of the shielding layer (22) capture each other in response to relatively low compressive forces that act in a radial direction at the cable attachment points, so that the tensile forces and gravitational forces acting on the cable between the attachment points can be transferred to live conductors (4), as well as the tensile force in the axial direction ns in the absence of slip between the different cable layers, wherewith the cable becomes self-supporting due to the inherent mechanical strength of the conductors (4).

2. A self-supporting cable according to claim 1, characterized in that the insulation (5) on at least one conductor consists of an inner semiconductor layer (12), an insulating layer (13) and an outer semiconductor layer (14), the inner and outer semiconductor the layers (12, 14) preferably consist of electrically conductive plastic; and the fact that the outer semiconductor layer (14) includes wave-like irregularities (24) that correspond to the wave-like irregularities of the shield layer (23), and the wave-like irregularities (24) on the outer semiconductor layer capture the wave-like irregularities of the shield layer (23) in response to pressure, acting on the cable in the radial direction.

3. A self-supporting cable according to claim 2, characterized in that the outermost semiconductor layer (14) includes an inner relatively hard layer and an outer layer that is softer than the inner layer.

4. Self-supporting cable according to any one of paragraphs. 2-3, characterized in that the shielding layer (6) has a low stiffness in the axial direction, to provide a flexible cable.

5. Self-supporting cable according to any one of paragraphs. 1-4, characterized in that at least one shielding layer (6) consists of a woven metal wire fabric, preferably woven fabric, which consists of tin coated copper wires.

6. Self-supporting cable according to any one of paragraphs. 1-4, characterized in that at least one shielding layer (6) includes undulating metal wires, preferably copper wires located between the plastic films.

7. Self-supporting cable according to any one of paragraphs. 1-4, characterized in that at least one shielding layer (6) includes a wavy metal foil.

8. Self-supporting cable according to any one of paragraphs. 1-7, characterized in that the undulating irregularities of the shell (21) capture the undulating irregularities of the shielding layer (22); and the fact that the elasticity of the sheath (7) is such as to allow the undulating irregularities of the sheath (21) to “jump” in the undulating irregularities of the shielding layer (22) when the cable is bent.

9. A method of manufacturing a self-supporting cable, which includes at least one insulated conductor (1, 2, 3), which includes a live conductor (4), which has at least one wire (11), and insulation of the conductive conductor (5), at least one longitudinally elongated shielding layer (6), which has wave-like irregularities (22, 23), which are located mainly tangentially, and the shell (7), which includes the steps of applying the shielding layer (6) or in whole or in part around at least one isolator vannogo conductor (1, 2, 3) and fastening layer in place; and extruding the shell (7) around the shielding layer (6) with such a degree of tension that is sufficient to reproduce the undulating irregularities of the shielding layer (21) on the inner surface of the shell (7).

10. A method of manufacturing a self-supporting cable according to claim 9, characterized in that the sheath (7) around the shielding layer (6) is extruded with such a degree of tension that is sufficient to reproduce the undulating irregularities of the shielding layer (24) on the outer insulation surface of the current-carrying core (5).

11. A method of manufacturing a self-supporting cable according to any one of paragraphs. 9-10, characterized in that the shielding layer (6) is fixed in place by a single wire.

12. A method of manufacturing a self-supporting cable according to any one of paragraphs. 9-10, characterized in that the shielding layer (6) is fixed in place by means of a metal tape.

13. A method of manufacturing a self-supporting cable according to any one of paragraphs. 9-10, characterized in that the shielding layer (6) is fixed in place with a tape of material that is similar to the sheath material, so that the tape can be melted into the shell when the shell is extruded onto the tape.

14. A method of manufacturing a self-supporting cable according to any one of paragraphs. 9-13, characterized in that the sheath (7) is extruded around the shielding layer (6) with a balanced degree of tension, in which the undulating irregularities of the sheath (21) can “jump” in the undulating unevenness of the shielding layer (22) when the cable is bent, and in which the springiness of the bent cable is minimized due to the mutual exciting engagement of the undulating unevenness of the sheath (21) and the undulating unevenness of the shielding layer (22).