FR2607330A1 - Insulation device for HRC medium-voltage fuses - Google Patents

Abstract

The present invention relates to a dielectric insulation device for high rupture capacity medium-voltage fuses. It consists of a casing made from moulded insulating resin and provided with two interfaces for medium-voltage standardised current outlets placed perpendicular to the axis of the fuse, and into which casing is placed the HRC fuse whose elastic contacts make the connection between the fixed electrodes and the fuse. A flexible elastomeric stopper ensures the dielectric integrity and leaktightness of the unit. The present invention is more particularly intended for the protection of transformers equipping so-called "bottom-post" simplified public distribution substations.

Description

 The present invention relates to a device intended for the dielectric isolation of fuses w High Breaking Power (HPC) t medium Voltage.

Traditionally these fuses are used either in
Public distribution with air isolation for the protection of transformers
MT / ET, either in the Public Distribution substations in metal envelopes or they are integrated into the substation in insulating boxes.

Used in atmospheric air as a dielectric, these fuses require significant distances between the live parts and the external masses and they are subject to the degradations caused by atmospheric pollution which
do not take long to reduce the dielectric strength of the solid insulator of the fuse, which can go as far as bypassing and puncturing the latter when the overvoltage wave distribution occurs.

Used in Public Distribution substations in metal envelopes where they are an integral part of station insulation, they are for the most part
sheltered from the pollution mentioned above.

On the other hand, the constraints due to the environment and to the use of ambient air as a dielectric make it impossible, because of the internal dimensions of the room, the protection of the MV / LV transformers equipping the simplified posts called bottom of posts "which are not protected against the consequences of faults
interns in the transformer which, because of the relative slowness of the protections upstream of the transformer cause a fault to degenerate which, eliminated by a fuse would have lasted tO milliseconds at most, into a fault whose duration is between 1 and 2 seconds. the first case the external manifestations are nonexistent, on the other hand in the second case they become important being able
go from the explosion followed by fire in the case where the transformer dielectric is an petroleum derivative, to the explosion followed by the release of toxic decomposition by-products such as furans, dioxins etc ... if the transformer dielectric is a chlorinated derivative (PC 13).

The device according to the invention overcomes these drawbacks. he
indeed comprises an HPC fuse which is enclosed in an insulating envelope obtained by molding of epoxy resin - insulator whose exterior is made conductive by projection of molten metal particles and connected to the ground which makes it possible to obtain dielectric distances low, compatible with the space available in simplified distribution stations.

The connection with the energy source and the transformer is made using standardized sockets plugged into interfaces forming integral parts of the molding. To eliminate the action of pollution in service situations, an insulating plug made of flexible elastomer of silicone or polyurethane resins, kept in compression by a metal plate, makes the case waterproof against external pollution and also immersion in the case of fortuitous rise of water in the room.

 An electrode included in the molding in the vicinity of the upstream and downstream parts of the fuse, isolated from the metallized external surface, will allow the installation of voltage presence indicators intended for the permanent verification of the voltage state of the fuse and determine, if necessary, which fuse is cut.

 According to a preferred embodiment, the box will include two standard 200 A mole interfaces located perpendicular to the axis of the fuse in line with the contact electrodes.

 According to a variant of the invention, the pDurra female outlet interface for direct connection of the box to the 200 A mile interface of the transformer.

According to a second variant of the invention, two 200 A mile interfaces placed in diametrically opposite positions and coated in normal service with an insulating cap intended for reconstituting the insulator, the function of which would be to put the
upstream earth J downstream of the box during work on the substation or when replacing a blown fuse.

 Figure i shows in section the preferred version of the invention.

 Figure 2 shows in section a first variant of the invention.

 Figure 3 shows in section the second variant of the invention.

The device represented in FIG. I comprises an HPC fuse (1) provided with these two contacts (-2) on which two elastic metallic bracelets (3 allow the current transition from the fixed electrodes (4) connected to the fixed interface contacts ( 5) from the standardized 200 A. input interface <(>) to the standardized 200 A. output interface (7). The fixed electrodes (4) embedded in the resin
insulator (8) are provided with forms (9) intended for the homogeneous distribution of the electric field in the insulator and on the internal surface of the case. A flexible frustoconical plug (10) made of synthetic elastomer preferably silicone or polyurethane provided with field deflecting electrodes (11) and (12 compressed by a metal plate (13) by means of a set of screws (14)
and nuts (15) embedded in the casting resin (8). Metal electrodes (16) of shapes and dimensions adapted on the one hand to the dielectric strength of the assembly and to the capacity to be obtained are embedded in the resin (8) and serve to form capacitors which will supply indicators of the presence of voltage 17) which will reflect the voltage state of the electrodes (4) and, by the same token, the conduction state of the fuse ((1). Connection to the incoming and outgoing targets is made by standard standardized sockets voltage 200 A. (18) coming to be fixed on the interfaces (o) by means of stirrups (19). A boss (20 provided with fixing holes allows the fixing of the case on a support frame (21 itself fixed on the room wall.

The fuse can be replaced after removing the compression plate (13) and the
plug (10).

FIG. 2 represents a first variant in which the output interface
22) is female and connects directly to the transformer interface via a stirrup (23> which compresses a flexible cone (24) made of elastomer
insulator whose role is to compensate for dimensional and shape differences
of both male and female interfaces.

FIG. 3 represents a second variant of the invention which can be adapted
to each of the variants 5i above, in which two male interfaces (25) are
placed opposite each electrode (4) connected by a conductor (26) to a contact (27
) capped in normal service with an insulating cap (28) intended to hold the tension
between the interface (25) and the external surface of the case made conductive by
projection of molten metal particles connected to the earth by a boss
29) and a flexible connecting braid. These interfaces are intended for protection
workers during the intervention on the box or on the station of the
earth (30> can be placed in the contacts (27) after removing the caps
protection (28).

The device according to the invention, and these variants, is more particularly
intended for the protection of transformers equipping distribution stations
electric simplified called "bottom of pole

Claims (10)

RE VE NDIC: ATIONS 1 - Device for dielectric isolation of fuses with high breaking capacity medium voltage, characterized in that it comprises a casing in insulating resin preferably of the epoxy type in which the HPC fuse is flat. 2 - Device according to claim i, characterized in that it comprises at each end of the fuse contact bracelets in elastic conductive materials intended to ensure the electrical connection between the fixed electrode of the housing and the fuse. 3 - Device according to claims 1 and 2, characterized in that the fixed electrodes are connected to the interfaces by a rigid conductor terminated by a movable contact intended to pass the current coming from the cable and going to the transformer. 4 - Device according to claims 1 - 2 - 3, characterized in that the input and output of the housing is carried out by standardized interfaces 200 A. intended for the connection of medium voltage power sockets. 5 - Device according to claim 3, characterized in that the fixed electrodes comprise electric field deflectors intended for a homogeneous distribution of the dielectric service stresses. 6 - Device according to claim i, characterized in that it comprises a flexible elastomer plug, preferably in silicone resins intended & hold the dielectric strength of the inlet of the housing and to ensure sealing. 7 - Device according to claim 6, characterized in that the insulating plug is maintained under mechanical pressure by a metal plate tightened by a system of screws and bolts. 8 - Device according to claim 1, characterized in that it comprises inserts  metal of suitable shapes and dimensions, forming a capacitor used to supply permanent voltage status indicators. 9 - Device according to each of the preceding claims, characterized in that the housing can be connected directly to the transformers via a female interface.  10 - Device according to claim 9, characterized in ink that the junction between the male and female interfaces is achieved by the interposition of a frustoconical ring in flexible insulating elastomer intended to restore the dimensional conditions and shapes of the interfaces.  i! - Device according to each of the preceding claims, characterized in that  each box can be fitted with one or two additional interfaces, intended for earthing the installation during interventions.  12 - Device according to claim íl, characterized in that the additional interfaces are coated. in normal service, insulating caps intended to restore the dielectric strength conditions of the assembly.