FR2758916A1 - FIREPLACE HOOD - Google Patents

Abstract

The cover for the end of a conductor (3) which is at medium or high tension voltage has a rigid hollow body (1) forming a cap which is intended to form a casing around the end of the conductor to be protected. This cap has an annular edge surrounding the outside of the conductor at a distance. The space between this annular edge and the outside surface of the conductor is closed by a membrane (4) which is elastically deformable. The membrane has a curvature when seen in the longitudinal axial plane of the conductor. The deformation of the membrane is limited by an element (5) fixed on the internal annular edge of the cap. The element is arranged to ensure that the radius of curvature of the membrane is always greater than a certain fixed value.

Description

FIREPLACE HOOD

  The invention relates to a corona hood for apparatus and

  high and medium voltage equipment.

  Such a corona hood is used in particular in high and medium voltage shielded substations. In the case of shielded substations protected by medium voltage fuses, the tendency is to use fuses housed in wells. Frequently the well is metallized insulator or insulator included in a grounded metal enclosure. Due to the presence of large electrical gradients at the ends of the fuse (at the level of the metal cap rim of the fuse in particular) and it is known to protect the ends of the

  fuse by corona shields.

  There are various types of fuses which generally have diametrical dimensions at the ends which are different as a function of the nominal current to be cut. Furthermore, the dimensions of the fuses vary from one supplier to another. Until now, these corona hoods are conventionally produced in a metal part machined or produced by foundry. The dimensions and the geometry of each corona hood being fixed, it is necessary to provide as many types of hood per corona as there are types of fuses, the geometry of each hood corona having to be adapted to the

  diameter of the fuse to be protected, which is not practical.

  The object of the invention is to provide a corona hood to protect a live conductor in a grounded enclosure, such as a fuse or a shielded connection bar of an armored post, which has the characteristic of s '' automatically adapt to the diameter of this conductor thus avoiding changing the scent cover when changing

driver type.

  To this end, the invention relates to a corona hood to protect a live conductor, comprising a hollow rigid body forming a sort of cap intended to come over one end of the conductor to be protected, this hollow body having an annular edge surrounding remotely the outer surface of the conductor and the space between this annular edge and the outer surface of the conductor being closed by a connection means having a certain curvature in a longitudinal axial plane of the conductor, characterized in that this connection means is constituted by an elastically deformable membrane which is fixed on the annular edge of the hollow body, and in that the deformation of this membrane is limited by a counter part fixed on the annular edge of the rigid rigid body, this counter part being shaped to guarantee that the radius of curvature of the membrane between the annular edge of the hollow rigid body and the outer surface of the cond unit in said longitudinal axial plane of the

  driver is always above a certain value.

  Other characteristics and advantages of the invention will also appear

  better reading the following description of an exemplary embodiment of the cover

  corona screen according to the invention intended to protect a fuse.

  Figure 1 shows schematically and in part, a fuse well equipped with a first embodiment of a corona hood according to

  the invention, this cover protecting the end of a large diameter fuse.

  Figure 2 shows schematically the scent hood of Figure 1

  protecting a smaller diameter fuse.

  FIG. 3 schematically shows an example of embodiment of a

  membrane for a corona hood according to the invention.

  Figure 4 shows schematically and in part, a fuse well equipped with a second embodiment of a corona hood according to

  the invention protecting a large diameter fuse.

  Figure 5 shows schematically the scent hood of Figure 4

  protecting a smaller diameter fuse.

  FIG. 6 schematically shows the first embodiment of the

  corona hood according to the invention protecting an armored connecting bar.

  FIG. 7 schematically shows the second embodiment of the

  corona hood according to the invention protecting an armored connecting bar.

  Figures 1, 2, 4 and 5, the corona hood according to the invention comprises a rigid metallic hollow body 1 intended to cover one end of a live conductor, for example a fuse, a shielded connecting bar of a armored substation HTB or HTA, or any other type of conductor placed under

  voltage in a grounded enclosure.

  The remainder of the description relates to the case of a corona hood according to

  the invention for a fuse 3 placed in the bottom of a fuse well 2.

  This rigid hollow body forms a sort of cap (here, a cap in the shape of a half sphere) in which the end of the fuse 3 is housed. The annular edge of the body 1 surrounds at a distance the cylindrical external surface of the end of the fuse. There therefore remains a certain space left free between the annular edge of the body 1 and the cylindrical outer surface of the fuse 3. This free space is closed by an elastically deformable membrane 4 so that the corona hood according to the invention adapts automatically to the diameter of

fuse it must protect.

  Figures 1 and 4 show in axial section the corona hood protecting a fuse of a certain diameter and Figures 2 and 5 show in axial section the corona hood protecting a fuse of smaller diameter. This membrane 4 is fixed to the annular edge of the hollow body 1 and has a certain curvature in any longitudinal passing plane

  by the longitudinal axis 3A of the fuse.

  The deformation of the membrane 4 is limited by a counter-piece 5 fixed on the annular edge of the hollow rigid body 1 and on which the membrane rests when it bends towards the bottom of the hollow body 1. This counter-piece 5 is shaped to guarantee that the radius of curvature of the membrane 4 between the annular edge of the hollow rigid body 1 and the external surface of the end of the fuse in a longitudinal axial plane of the fuse 3 is always greater than a minimum value r. Counter piece 5 therefore has a radius of curvature of

  value r-e or e is the thickness of the deformable membrane.

  As can be seen in the figures, the membrane 4 is deformed in such a way that the radius of connection from the edge of the cover 1 to the fuse 3 is large when the diameter of the fuse is small, and it is smaller but always greater than this value r (specified by calculation or test and such that the value of the electric field exerted on the fuse remains lower than the value of the disruptive electric field of the insulating gas when the diameter of the fuse is larger. This membrane 5 can be a metal sheet fine and preformed with star cutouts allowing its radial deformation as illustrated on the

Figure 3 and Figures 1 and 2.

  The membrane can also be a kind of toroid made of conductive, semiconductor or insulating elastomer with high electrical permittivity allowing

  to control an electric field, as illustrated in Figures 4 and 5.

  Figure 6, the corona hood with its sheet metal membrane is mounted to protect a set of busbars 6 placed in a grounded metal casing 7. In FIG. 7, the scent hood

  to protect the busbar 6 has an elastomer membrane.

Claims (4)

  1 / A corona hood to protect a live conductor (3), comprising a hollow rigid body (1) forming a sort of cap intended to come over one end of the conductor to be protected, this hollow body having an annular edge surrounding at a distance the outer surface of the conductor and the space between this annular edge and the outer surface of the conductor being closed by a connection means having a certain curvature in a longitudinal axial plane of the conductor, characterized in that this connection means consists of a elastically deformable membrane (4) which is fixed to the annular edge of the hollow body, and in that the deformation of this membrane is limited by a counter part (5) fixed to the annular edge of the hollow rigid body, this counter part being shaped to ensure that the radius of curvature of the membrane between the annular edge of the hollow rigid body and the outer surface of the conductor in said longitudinal axial plane of the   conductor is always greater than a certain value (r).   2 / The cover according to claim 1, in which the membrane (4) is   a thin, preformed metal sheet with star cutouts.   3 / The cover according to claim 1, in which the membrane (4) is a kind of toroid made of conductive, semi-conductive or high elastomer dielectric permittivity.   4 / The cover according to one of claims 1 to 3, wherein the conductor is a fuse.   / The cover according to one of claims 1 to 4, in which the   conductor is an armored connecting bar.