FR2979760A1 - Device for ensuring stability of long range cable subjected to actions of e.g. wind for gaseous medium, has wing system provided on ball bearing, and set of magnets surrounding around cable and reels on level of interface fin - Google Patents

Abstract

The device has a wing system provided on a ball bearing. A set of magnets (15) surrounds around a cable (4) and reels on a level of an interface fin. The ball bearing is subjected to the action of wind or aquatic current under the rotation of the interface fin around the cable for generating electric current. A valve system is provided with an opening to allow or retract the gases or liquids in a chamber of the interface fin. An electric heating element is arranged for heating the fluid contained in the chamber of the interface fin.

Description

Technical Field: The present invention relates to a cable device (2) and (14) provided with fins (1), (8) and (9) with built-in fluid pockets (11) and with a fluid (16) of the external medium (7) which can be heated by resistors (10). Under the action of the wind (6) for a gaseous medium or of the aquatic current for an aquatic medium, the fins of the device stabilize the cable and generate an electric current via a coil system (15) and magnets (4). ; this electric current can supply energy to the resistors. State of the Prior Art: There are finned systems for holding a cable in a longitudinal position in a fluid. There are wind turbines or underwater generators generating an electric current provided with blades or propellers. There are cables with stabilizing weights. It is different solutions do not allow good operation when the flow of fluid is too important, the altitude is too high, when the cable length becomes too large. DESCRIPTION OF THE INVENTION The device according to the invention overcomes these disadvantages. It has a central part cable whose nature and specific functions depend on projects in particular. Around this cable, a coil is wound: around the latter a ball bearing system (3) allows the magnet-fin assembly to revolutions around and thus generate an electric current. This electric current can be used to heat a gas contained in a chamber inside the fin. A valve system (12) for opening this chamber, ensures the regulation of pressure and temperature of the gas contained in the chamber; an exchange (13) of fluid between the external medium and the chamber and 5 possible. This chamber can also house a balloon consisting of a flexible membrane containing a fluid of lower density than that contained in the chamber. This balloon can be supplied with fluid by a network of tubes connected to pressurized tanks and to purge valves (FIG. 3). The vanes are provided with blades which under the action of wind and / or the aquatic current allow rotation or revolution around the magnet-fin system around the coil-cable system by means of a ball bearing system. This rotation of the fins ensures the stabilization of the cable. The number of blades and their dimensions, the number of blades and their dimensions will be specifically defined according to the projects. A resistance system heats the fluid contained in the chamber in the case of a gas. These resistors can be powered by an electrical induction system; whose electric current is produced in part by the fins and the electric coils. Title of Figure 1: Side view of a finned cable with built-in helium pockets as well as air that can be heated by resistors. 30 Legend of Figure 1: (1) Wing (2) Cable - 3 - Title of Figure 2: Sectional view of a cable with fin with embedded helium pockets and with air that can be heated by resistors.

Key to Figure 2: (3) Ball bearing in oil bath (4) Magnet (5) Helium embedded in a flexible membrane (11) (6) Schematic of the action of wind or water current on the water fin (7) Fin area in contact with external medium fluid (8) Branch receiving action of wind or water current (6) 15 (9) Outer fin shell (10) Resistance (11) Diaphragm of the fluid bag forming a balloon (12) Valve with automatic opening and closing in equilibrium of pressure between the fluid contained in the chamber of the fin and the pressure of the fluid contained in the external medium (13) Orifice allowing the fluid of the external medium to enter and exit freely from the chamber containing the fluid (16) with the area of the fin in contact with the medium of the external medium (7) (14) Cable (15) Electric coil (16) Fluid chamber where the fluid can be heated by a resistor (10) The title of Figure 3: Gas supply system and tubular networks for pockets consisting of membranes forming a balloon Legend of Figure 3 (17) Gas tank (18) Membrane of the gas pocket forming a balloon (19) Electromechanical valve provided with valve and purge. (20) Tube embodiment: Helium or air can be used as the fluid present in the flask. A liquid may be the fluid contained in the chamber for the aquatic environment, this liquid being of the same nature as that of the aquatic environment. A gas may be the fluid contained in the chamber for gaseous media, this gas being of the same nature as that of the gaseous medium.

Industrial application: The device according to the innovation is particularly intended for the stabilization of cables of consistent length subjected to energetic actions of the liquid or gaseous medium in which it is located.

Claims (6)

CLAIMS1) Device for ensuring the stability of cable on large spans subjected to the actions of the wind for a gaseous medium or the aquatic current for an aquatic environment characterized in that it comprises a system of fins on ball bearings. 2) Device according to claim 1 characterized in that it has a coil wound around the cable and magnets at the level of the wing-ball bearing interface and which, under the rotation of the fin, subjected to the action wind or water current, around the cable generate an electric current. 3) Device according to any one of the preceding claims characterized in that it is provided with a valve system and orifice to let in or out the gases or liquids in the chambers of the fins and prevent their entry or exit. 4) Device according to any one of the preceding claims characterized in that it is provided with electrical resistors for heating the fluid contained in the fin chamber. 5) Device according to any one of the preceding claims characterized in that it is provided with balloons the membranes are extensible and containing helium. 6) Device according to claim 5 characterized in that it can be provided with tubes connecting the various balloons to helium tanks under pressure and purge valves.