RU96121598A - HIGH VOLTAGE MARINE EARTH EARTH - Google Patents

Claims (15)

1. Marine ground electrode (15) for high voltage direct current transmissions, comprising an electrode body having electrical conductivity (1) for connecting to the transmission and at least one ballast (4) located above the electrode, characterized in that it contains a layer (5 ) of an electrically non-conductive material located above the electrode body along it, as a result of which the maximum electric field strength does not exceed the required level at point (P) on the edge of the non-conductive layer and, therefore, also in seawater beyond the elements of zone (35), located vertically below the non-conductive layer and bounded by the edge of the non-conductive layer.  2. Marine earthing according to claim 1, characterized in that the layer of non-conductive material is a separate layer located between the body of the electrode and the ballast.  3. Marine earthing according to claim 1, characterized in that the layer of non-conductive material is a separate layer, laid in ballast.  4. Marine earthing according to claim 1, characterized in that the layer of non-conductive material is a separate layer placed above the ballast.  5. Marine earthing switch according to claim 1, characterized in that the ballast contains at least one array, and the layer (5) of non-conductive material is a coating on the surface of said array from the side of the electrode body.  6. Marine earthing switch according to claim 1, characterized in that the ballast contains at least one container, at least part of which is a layer of non-conductive material.  7. Marine earthing switch according to any one of claims 1 to 6, in which the electrode body contains at least one elongated sub-electrode element (161, 162, 163) having electrical contact with a conductive medium (32), such as sea water and / or bottom soil impregnated with sea water, characterized in that it also contains at least two electrically non-conductive screens (8, 8a, 8b, 8c), which are located at a certain distance from each other along the sub-electrode element and between which the active part (S) is formed the surface of the sub-electrode element located Xia in electrical contact with the conductive medium; wherein said screens significantly extend beyond the active part of the surface of the element outward into the medium to equalize the current distribution on said active part of the surface of at least one element of the sub-electrode.  8. Marine earthing switch according to claim 7, characterized in that the non-conductive screens (8) extend beyond the surface of the sub-electrode element on the boundary lines (BL ', BL ") of said active part of the element surface or close to these lines in directions that are at this location perpendicular to said active part of the surface of the sub-electrode element.  9. Marine earthing switch according to claim 8 with a cylinder-shaped subelectrode element, characterized in that at least one of the screens has a plate shape protruding beyond the generatrix surface of the subelectrode element in a direction perpendicular to the longitudinal axis of at least one subelectrode element.  10. Marine earthing switch according to claim 8 with a sub-electrode element in the form of an elongated curved body with a given bending radius and a corresponding center of bending, characterized in that at least one of the screens has the form of a plate protruding radially beyond the active surface from the center of bending element of the subelectrode.  11. Marine earthing switch according to claim 8 with a flat-shaped subelectrode element, characterized in that at least one of the screens has the form of a plate protruding beyond this element.  12. Marine earthing switch according to any one of claims 7 to 11, characterized in that at least two non-conductive screens serve simultaneously as a support for the sub-electrode element.  13. Marine earthing switch according to any one of claims 1 to 12 with an electrode body containing at least one sub-electrode element, characterized in that the ballast has a recess (4a) in which at least one of the said sub-electrode element is placed.  14. Marine earthing switch according to any one of claims 1 to 13, characterized in that the ballast has lateral faces (18) that at least partially surround the electrode body, and a non-conductive layer is located near said lateral faces.  15. Marine earthing switch according to any one of claims 1 to 14, characterized in that the electrode body has the shape of at least one closed ring contour (151).