DE3248212A1 - Fully-insulated earth cable connection for encapsulated, gas-insulated switching installations - Google Patents

Abstract

The invention relates to a fully-insulated earth cable connection for encapsulated, gas-insulated switching installations (switchgear). The object is regarded as being the strengthening of an existing earth cable end connection to such an extent that it can be connected to this switching installation. The solution provides that an insulating cap (6) is designed as an intermediate element between a bushing (3), which is inserted in the switching installation (1), and an earth cable end closure (14), in such a manner that the live parts, such as a contact element (17) of the end closure and a bolt (5) of the bushing, can be connected in a simple manner inside the cavity (8) of the insulating cap. Additional measures, such as a conductive layer (9) in the interior of the insulating cap, contribute significantly to achieving complete encapsulation. <IMAGE>

Description

Fully insulated earth cable connection for encapsulated, gas-insulated

Switchgear The invention relates to a cable connection for Switchgear according to the preamble of claim 1. In the medium voltage range comes there is an increased use of encapsulated, insulating gas-filled ones for economic reasons Switchgear. The great advantage of these systems is that they require less space the air-insulated switching cells, protecting against touching live parts, as well as protection against the ingress of moisture and dirt. The cable connection takes place largely through fully insulated, single-pole plugs.

This not only includes the parts in the system, but the external, live parts are also well protected. To accommodate the connector To be able to do so, there are appropriate bushings with sockets in the wall of the switchgear intended. However, this technique is only used for connecting plastic cables used (publication by Elastimold "plugs with screw connections", March 1982.).

The invention is now based on the object of an existing ground cable termination to the plug-in technology for encapsulated, insulating gas-filled medium-voltage switchgear adapt, This object is according to the invention by the characterizing part of the claim 1 specified constructive measures solved.

The advantages that can be achieved with the invention are seen in the fact that with the help of the insulating cap according to the invention now also a combination of encapsulated, insulating gas-filled switchgear with earth cables is possible, which is the area of application such systems is significantly expanded. It is also advantageous that the live parts of the termination and the bushing safe to touch are encapsulated, the contact safety of the insulating cap can be increased, if you cover the outer surfaces of the insulating cap with a conductive layer that is at ground potential lies, covers (claim 2). Unless you put this conductive layer in a control ring runs out, the conductive layer in the support area with the end closure insulating body take on a field control function, it also appears to be useful if you have the insulating cap on the opposite side of the bushing with a Provides opening that can be closed by a removable stopper (claim 3). This creates the possibility of accessing the live parts inside the insulating cap, a voltage test or a cable measurement perform.

As an advantageous embodiment for single-core or three-lead-sheathed cables is considered an insulating body made of plastic or glass (claim 4), while in a further embodiment of the insulating body for belt cables from a hose (Claim 5) exists. In both cases, the outer conductive layer of the insulating cap extended by a metal tube surrounding the respective insulating body at a distance be, including a seal on the foot or a corresponding device the respective insulating body is provided (claim 6). That is the entire arrangement Finished safe to touch.

If you put a window in the metal pipe at a suitable place, so there is the possibility of being able to check the ground level at any time (claim 7).

The moisture seal between the hose and the contact piece is advantageously carried out by a non-metallic clamping device (claim 8th).

Embodiments of the invention are shown in the drawings and are described in more detail below. 1 shows an insulating cap for the connection of a single-conductor cable termination, in side view Fig. 2 an insulating cap for the connection of a hose end cap, in side view.

According to Fig. 1, an encapsulated, gas-insulated switchgear 1 is provided, in the wall 2 of which a bushing 3 is inserted.

The implementation contains a cable ladder 4 which is outside the switchgear is completed with a bolt 5. An insulating cap 6 consists of a hollow cylinder, which is so open on one side. that he will be charged with the implementation -. ben / can, while the other opening can be closed with a plug 13. A cylindrical extension 7 is contained perpendicular to the axis of the hollow cylinder, which is used to accommodate an end closure 14. The entire cavity 8 of the insulating cap is lined with a live conductive layer 9.

This conductive layer goes in the cylindrical extension in the area of the opening into an annular reinforcement 10. Furthermore, the entire outer surface is inclusive the outer surface of the plug, with a conductive layer 11 at ground potential which opens into a control ring 12 in the cylindrical extension. Of the End closure is with its insulating body 15 in the opening of the cylindrical extension pushed in so far that the contact piece 17 of the end closure with the bolt 5 can be connected to the implementation. The cylindrical extension of the insulating cap has an outside diameter that is equal to the outside diameter of the pulse 16 of the end closure corresponds. This means that the prerequisites for a Met, ll.lkijrper 18 on and the cylindrical extension / on the i? Uss of the end closure to be pushed open so that the end seal is covered against contact. In the metal body a viewing window 19 is used, which offers the possibility of the Massestarld to check, According to Fig. 2 is for the connection to the bolt 5 in the implementation 3 an end closure 20 is provided, as it is intended for belt cables. This termination is surrounded by a hose 21, which in turn ends in the insulating cap 6. To the electrical seal against the hose is sucked over the insulating cap seamless tube, which is supported on the inside of the contact piece 17. For the moisture seal of the hose against the contact piece is below of the cylindrical extension a non-metallic Klenimvorrichtung 22 is used.

The sealing in the lower area is done with a round flange part 24, which on the one hand is introduced into the metal body 18 and on the other hand by means of a seal 23 is attached to a cover 25.

All other positions correspond to the positions in FIG. 1.

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Claims (8)

Sack claims:; 1. I (cable connection for switchgear, with a bushing used in a wall of the switchgear and containing a cable ladder, and with an insulating cap attached to the bushing, d a d u r c h g e k e n n z e i c h -n e t that the insulating cap (6) essentially consists of a hollow cylinder consists of a cylindrical extension (7) with a perpendicular to its axis Opening for the insulating body (15 or 21) of an earth cable termination (14 or 20) and that the entire cavity (8) of the insulating cap with a conductive layer (9) is provided, which in the support area of the insulating body in a field control element formed annular reinforcement (10) passes, and that the open contact piece (17) of the end cap and the bolt (5) emerging from the bushing (3) a cable liter (4) are connected in the cavity of the insulating cap. 2. Cable connection according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that the outer surfaces of the insulating cap (6) with a conductive layer (11) are covered in the support area of the insulating body (15 or 21) with a Control ring (12) is complete. 3. Cable connection according to one of claims 1 or 2, d ad u r c h- it is not noted that the insulating cap (6) on the opposite of the implementation (3) lying side has an opening with a removable plug (13) is provided. 4. Cable connection for single-core or three-lead sheathed cables after one of claims 1 to 3, d a d u r c h e k e n n -z e i c h n e t that the insulating body (5) of the end closure (14) consists of plastic or glass. 5. Cable connection for belt cable according to one of claims 1 to 3, d a d u r c h e k e n n n z e i c h n e t that the insulating body (21) as a den End closure (20) surrounding hose is formed from the opening of the cylindrical Extension (7) is tightly enclosed, the tube in the cavity (8) of the The insulating cap (6) is supported on the contact piece (17) of the end closure, 6. Cable connection according to one of claims 1 to 5, d u r c h g e n n n z e i c h n e t that the outer surfaces of the insulating cap (6) are coated with a conductive layer (11), which by one. the metal body (18) surrounding the insulating body (15, 21) at a distance is extended, which is on the foot (16) of the insulating body (15) or on a flange part (24) with a seal (23) on the cover (25) of a hose end closure is fixed sealingly on the insulating body (21). 7. Cable connection according to one of claims 1 to 6, d a d u r c h g It is not noted that the metal body (18) is tubular or hose-shaped and is optionally equipped with a viewing window (19). 8. Cable connection according to claim 7, d a d u r c h g e k e n n -z e i c h n e t that the interior of the hose-like insulating body (21) compared to the Contact piece (17) by means of a non-metallic one applied to the hose from the outside Clamping device (22) is sealed below the cylindrical extension (7).