CA3176769A1 - Device for joining, and discharging the leakage currents from, two shroud portions for containing a pressurised gas - Google Patents

Abstract

The invention relates to a device for joining, and discharging the leakage currents from, two shroud portions for containing a pressurised gas, comprising a substantially U-shaped electrical connector for forming a shunt between a first and a second clamp. According to the invention, the inner faces of the flanges of the electrical connector each have a groove configured to house a sealing element for bearing on the first clamp or on the second clamp and the device comprises a first and a second sealing cap comprising a housing suitable for receiving the end of a screw for joining the clamps which are designed to be mounted so as to form a seal bearing against the faces of the side flanges of the electrical connector.

Description

Device for assembly and evacuation of leakage currents of two portions of envelopes intended to contain a gas under pressure 1. Field of the invention The field of the invention is that of installations containing a gas pressurized subject to an electrical hazard.
More specifically, the invention relates to a device for assembling and evacuation of leakage currents from two portions of envelopes intended to contain gas under pressure.
The invention finds particular application for electrical substations metal-enclosed, also called shielded posts, and more generally for portions of piping intended to contain a gas under pressure equipped with an insulator cone, and for gas pipes natural.

2. State of the art Metal-enclosed electrical substations (also designated by the acronym GIS for Gas Insulated Switchgear in English), are consisting of an assembly of independent compartments containing a gas insulating material under pressure, most often SF6. Each compartment is connected to the next one by means of assembly flanges and thanks to devices mechanical joining known per se.
On these stations, it is known to install electrical connectors, also called shunts, between two assembly flanges, which act as organs safety by allowing leakage currents to be evacuated without these pass only through the flange bolts.
These shunts are generally formed from a plate of material conductor of electricity whose extremities are curved in order to come plate on the flat faces of the flanges.
With the aging of shielded substations, there is an appearance progressive leakage of insulating gas at the level of the assembly flanges of compartments.

These leaks result in a drop in the internal pressure in the compartments or of the circuit breaker, which if it reaches a minimum threshold of pressure causes the compartments to be made safe.
This securing of the compartments causes a cut-off of the network, which is very penalizing for the operation of a shielded station.
This is why currently maintenance operations are carried out regularly on the compartments of the shielded posts, in order to monitor and compensate for any pressure drops or reduce leaks, in order to avoid the risk of power failure. These operations of permanent maintenance represents at the end of the year an expense important for the operator of the shielded substation.
In an attempt to remedy the problem of sealing of the compartments of shielded posts, it was proposed to seal the leak initiation points with sealant or resins.
A disadvantage of this sealing technique is that the paste or the resin must be applied evenly and precisely around the flanges which is all the more complex, long and tedious as the outline of the flanges may be at least partly inaccessible.
Furthermore, known shunts mounted on a set of flanges limit more possibility of dealing with leaks and can be a source of leakage in some cases.
Another disadvantage of this known technique is that the application must be renewed regularly.
Finally, the sealing operation on a shielded substation compartment can present a risk to the personnel working on the shielded post due to induction phenomena.

3. Objects of the invention The object of the invention is therefore in particular to overcome the disadvantages of the state of the art cited above.
More specifically, the object of the invention is to provide a technique assembly and removal of leakage currents from two portions of envelope which makes it possible to confine leaks appearing at the level of the zone for assembling the two envelope portions.
An object of the invention is also to provide such a technique which is simple to implement and has a reduced cost price.
Another object of the invention is to provide such a technique which is reliable, and safe for operators working on or near the portions of envelopes.

4. Disclosure of Invention These objectives, as well as others that will appear later, have been achieved using a device for assembly and removal of leakage currents from two envelope portions intended to contain a pressurized gas, including:
- a first flange and a second flange each mounted at one end said envelope portions;
- at least one assembly screw of said first flange and of said second flange; and - a substantially U-shaped electrical connector, intended to form a shunt between said first flange and said second flange, having a first lateral wing intended to come into contact with the face of said first flange facing the envelope portion fixed to said first flange and a second lateral wing intended to come into contact with the face of said second flange facing the envelope portion fixed to said second flange, said electrical connector having a first lumen formed in said first wing and a second lumen formed in said second wing, opposite said first light, intended to allow the passage of said assembly screw, the wings of said electrical connector being secured to the first and second flanges by bolting with said assembly screw.
According to the invention, the internal face of the first wing and the internal face of the second wing of said electrical connector each have a groove configured to house a sealing element intended to come into WO 2021/22393

5 support on the first flange or on the second flange, said groove being formed around the slot intended for the passage of said assembly screw of each wing, and the device comprises a first sealing cap and a second sealing cap comprising a housing capable of receiving the end of said screw protruding from said first flange, respectively of said second flange, said first cap and said second cap being intended to be mounted in sealed manner bearing against the face external of said first lateral wing or respectively of the external face of said second side wing.
The invention thus proposes, in a novel way, to implement a assembly consisting of an electrical connector and waterproof caps for contain gas leaks appearing at the assembly screw by them preventing it from escaping to the outside.
In a preferred embodiment of the invention, said first sealing cap and said second sealing cap comprise each a groove configured to house a seal intended to come resting on the outer face of said first lateral wing or on the face outer part of said second lateral wing, said groove being formed around of the emerging section of the housing intended to receive one end of said assembly screws.
In an advantageous embodiment of the invention, said first sealing cap and said second sealing cap has a internal threaded surface making it possible to screw said first cap sealing cap and said second sealing cap on one end of said assembly screw.
It can for example be the tapped surface of a tapped hole one-eyed.
In an advantageous embodiment of the invention, said element sealing is an O-ring or a flat gasket.
According to a particular aspect of the invention, said sealing element is a polymeric elastic gasket, preferably a silane-modified polymer.

Advantageously, said electrical connector is at least partially made of copper, aluminum and/or a metal alloy conductor of electricity.
Preferably, a device as described above comprises 5 a first nut and a second nut screwed onto said screw assembly until being in contact with respectively the outer surface of said first wing and the outer surface of said second wing, so as to ensure said bolting of said wings to said first and second flanges and in that said housing in said first cap is able to receiving said first nut and said housing in said second cap is adapted to receive said second nut.
In a particular embodiment of the invention, said two enclosure portions are enclosure portions of an electrical substation in a metal casing.
In another particular embodiment of the invention, said two portions of envelopes are portions of envelopes of a network of gas delivery.
According to a particular aspect of the invention, said two portions envelopes have sections of different surfaces.
In a particular embodiment of the invention, said connector electric is a machined part or a casting or is formed from machined and/or foundry parts.
In a particular embodiment of the invention, said caps are machined or cast metal parts or parts obtained by plastic injection.
5. List of Figures Other characteristics and advantages of the invention will appear more clearly from reading the following description of an embodiment of the invention, given by way of simple illustrative and non-limiting example, and of the attached drawings including:

6 - Figure 1 is a perspective view of the assembly area of two compartments of an electrical substation in a metal enclosure, in which an exemplary embodiment is implemented a device for assembling and discharging leakage currents according to the invention;
- Figure 2 is a sectional view of the assembly device and evacuation of leakage currents presented with reference to Figure 1.
6. Detailed description of the invention Illustrated in Figure 1, an example embodiment of a device 10 for assembling and discharging leakage currents according to the invention, in a perspective view.
This device 10 ensures the assembly of two compartments 11 and 12 of same section of a metal-enclosed electrical substation and includes a first flange 13 and a second flange 14 welded respectively to the compartment 11 and compartment 12, enclosing an insulator 15.
These flanges 13 and 14 are fixed together by bolting using twenty-four assembly screws 16 evenly distributed on a circular contour and their nuts 17.
An electrical connector 18, or shunt, connecting the flanges 13 and 14, is mounted astride one of the assembly screws 16.
This connector 18 has a general U-shape and is formed a central copper plate 19 on which are fixed two wings lateral 110 and 111 in aluminium.
In a variant of this particular embodiment of the invention, it can be envisaged to implement an electrical connector of a single one-piece piece.
The first side wing 110 and the second side wing 111 of this connector are pressed against the outer faces of the flanges 13 and 14 by nuts 17.
As can be seen in Figure 2, in a sectional view of the device 10, a circular groove 21 has been machined on the internal face of the first wing

7 lateral 110 and on the internal face of the second lateral wing 111 around a slot 22 formed in these side wings 110 and 111 to allow the passage of the assembly screw 16, the groove 21 and the light being concentric. These grooves 21 each house an O-ring 23, which is kept compressed against the outer face of the flange 13 or 14, and prevents any leakage at the interface between wings 110 and 111 of the electrical connector and flanges 13 and 14.
Furthermore, the ends of the assembly screw 16 protruding outside flanges 13 and 14 are respectively capped with a first cap seal 24 and a second sealing cap 25, which have an internal housing 26 for receiving one end of the screw assembly and the nut 17 screwed onto it.
Housing 26 of caps 24 and 25 has a hole at its bottom threaded end 27 which allows the caps 24 and 25 to be screwed onto the ends of the assembly screw 16.
A circular groove 28 accommodating an O-ring 29 is formed on the base of the caps 24 and 25 around the opening section of the housing 26.
When caps 24 and 25 are screwed onto the ends of the screw assembly 16, via a quarter turn, the O-rings 29 are compressed against the outer face of the side wings 110 and 111. Thus gas leaking at the through the screw thread 16, cannot escape at the interface between them caps 24 and 25 and the wings 110 and 111 and remains contained in the volume of the housing 26. It will be noted that in this particular embodiment of the invention, the outer face of the side wings 110 and 111 has a clearance 210 to be able to insert at least part of the caps 24 and 25 inside the wings, which makes the device more compact.
In a variant of the embodiment of the invention described above, it can also be provided to implement a device according to the invention suitable for joining and discharging current leaks from two portions envelopes of different sections, without departing from the scope of the invention.

8 In yet another variant, it may be envisaged to implement a device for assembling and discharging leakage currents according to the invention for assembling two portions of pipe casings of a natural gas distribution network.
Finally, it should be noted that in particular embodiments of the invention, the device for assembling and discharging the currents of leak may include several electrical connectors and their two caps partners mounted on different flange assembly screws.

Claims (10)

9 1. Device for assembly and disposal of leakage currents of two portions of envelopes intended to contain a gas under pressure, including:
- a first flange and a second flange each mounted on a end of said envelope portions ;
- at least one assembly screw of said first flange and of said second flange; and - a substantially U-shaped electrical connector, intended to forming a shunt between said first flange and said second flange, having a first lateral wing intended to come into contact with the face of said first flange facing the envelope portion attached to said first flange and a second lateral wing intended to come into contact with the face of said second flange facing the envelope portion attached to said second flange, said connector electric having a first lumen formed in said first wing and a second lumen formed in said second wing, facing said first light, intended to allow the passage of said assembly screw, the wings of said connector electric being fixed to the first and to the second flanges by bolting using said screw assembly, characterized in that the internal face of the first wing and the face internal of the second wing of said electrical connector have each a groove configured to accommodate a sealing element intended to bear on the first flange or on the second flange, said groove being formed around the lumen for the passage of said assembly screw of each wing, and in that the device comprises a first sealing cap and a second sealing cap comprising a housing adapted to receive the end of said screw protruding from said first flange, respectively of said second flange, said first cap and said second cap being intended to be mounted sealed manner resting against the outer face of said first lateral wing or respectively of the outer face of said second side wing. 2. Device for assembly and evacuation of leakage currents according to claim 1, characterized in that said first cap seal and said second seal cap comprise each a groove configured to accommodate a gasket intended to bear against the outer face of said first wing lateral or on the outer face of said second lateral wing, said groove being formed around the through section of the housing intended to receive one end of said assembly screw. 3. Device for assembly and evacuation of leakage currents according to either of claims 1 and 2, characterized in that said first sealing cap and said second cap seal has a threaded internal surface allowing screwing said first sealing cap and said second sealing cap on one end of said cap screw. 4. Device for assembly and evacuation of leakage currents according to any one of claims 1 to 3, characterized in that said sealing element is an O-ring or a gasket. 5. Device for assembly and evacuation of leakage currents according to any one of claims 1 to 3, characterized in that said sealing element is a polymeric elastic seal, of preferably silane-modified polymer. 6. Device for assembly and evacuation of leakage currents according to any one of claims 1 to 5, characterized in that said electrical connector is at least partially made of copper, aluminum and/or an electrically conductive metal alloy. 7. Device for assembly and evacuation of leakage currents according to any one of claims 1 to 6, characterized in that it comprises a first nut and a second nut screwed onto said assembly screw until it comes into contact with the outer surface of said first wing and the outer surface of said second wing, so as to ensure said fixing by bolting of said wings to said first and second flanges and in that said housing in said first cap is adapted to receive said first nut and said housing in said second cap is adapted to receive said second nut. 8. Device for assembly and evacuation of leakage currents according to any one of claims 1 to 7, characterized in that said two envelope portions are envelope portions of a metal-enclosed substation. 9. Device for assembly and evacuation of leakage currents according to any one of claims 1 to 7, characterized in that said two envelope portions are envelope portions of a gas distribution network. 10. Device for assembly and evacuation of leakage currents according to any one of claims 1 to 9, characterized in that said two envelope portions have sections of different surfaces.