DE3910833C2 - - Google Patents

Description

The invention relates to a transition end closure for agents voltage cable according to the preamble of claim 1.

Paper-insulated cables are used in the medium voltage after the knew prior art so completed that the individual Wires are spread out within an attached housing. The housing is usually covered with the lead sheath of the cable soldered or screwed on. The veins themselves are now led out of the housing with insulators. Here are Take measures to protect the sensitive cable Require tightness against operating pressure and access of moisture prevent action. So have flexible for the wire sheath Insulators made of insulating sleeves enforced. Such endver short circuits are filled with insulating oil inside the housing, which corresponds to the oil impregnation of the paper insulation of the cable speaks.

The terminations described above are special Connections of paper insulated cables used and for the An developed after air-insulated switchgear. Paper Insulated wires can only be bent to a limited extent because Insulation cracks in the machine-wound Layers of paper arise. Least leaks within the end closure lead to moisture transfer - also from what steam or condensate - into the insulating paper and min their insulation behavior. Become terminations under it difficult operating conditions with a damp outside environment  can also diffuse moisture in long-term operation, which is also absorbed by the paper insulation and to a reduction in insulation of the paper insulation. The assembly the end closures place high demands on the assembler sonally ahead.

If terminations are to be connected to the previously mentioned features of SF ₆ -insulated switchgear with reduced pole center distances, this is generally not possible due to the low flexibility of the paper-insulated wires. For example, the user will often have to use a transition sleeve to route plastic-insulated cables with additional cable connectors to the connection points of the switchgear. Such a solution is complex and only possible if there is sufficient space for the cable routing and the sleeve assembly.

Since the insulating sleeves do not fit positively on the surfaces of the wire insulation, the electrical breakdown strength is determined by the insulating behavior of the air, which determines the wire insulation in the longitudinal direction between the cable lug sleeve and the end cap. This results in minimum lengths which, due to electrical reasons, must not be undercut. For the connection of SF ₆ -insulated switchgear, the required connection lengths are not available due to the compact installation conditions.

Various devices are known with which one cable can connect to switchgear. In DE-GM 18 10 371 is a Termination described for electrical single and multi-conductor cables, the closure part with finger-like pipe lugs made of a transparent or translucent material is. DE-GM 18 34 586 addresses the same problem relates to a termination for high voltage cables. The aforementioned However, terminations came about at a time when the switchgear was spacious, so that these terminations undoubtedly under the conditions at that time also for the connection to switchgear could be used. In the further Development of switchgear, however, were getting smaller and smaller Systems designed that lead to new problems for the connection technology led.

A mast end closure is described in DE-GM 19 77 065. Here it's about connecting an underground cable to an overhead line, so that the framework for this connection technology in one generically different area.

Finally, a transition sleeve is known, that for connecting a sheathed cable with a plastic cable (DE 26 09 078 C3). Here is part of the stripped plastic cable inside a cup in the lead-in area of an insulating one Surround sleeve, which the cup electrically outward tightly closed. This transition sleeve is for spatial reasons hardly suitable for connection technology in small switchgear.

The invention is therefore based on the object to show a transition end closure of the type described above, by means of which a paper-insulated three-wire cable can be connected to an SF ₆ switchgear system with reduced pole center distances.

This object is achieved by the in the characteristics of Claim 1 specified combination of design features ge solves.

The advantages achieved by the invention are that  Establishing a transitional connection between a paper iso cable and a plastic-insulated line inside a conventional end closure housing for paper insulated Ka bel is done. This also makes the papieriso Maintain the cable with insulating oil. The high flexibility of the plastic-insulated cables led out, the preferred are made with EPR insulating material, can be installed in a confined space. Furthermore, the installation lengths of the out led plastic-insulated lines are reduced as on no air insulation between live parts can be.

Advantageous training and development of the subject according to An saying 1 can be found in the subclaims.

An embodiment of the invention is shown in the drawing represents and is explained in more detail below. It shows

Fig. 1 system the connection of a paper-insulated cable to a circuit,

Fig. 2, connected to a plastic-insulated cable pa pierisolierte cable in side elevation and in section,

Fig. 3 with a device connection part of a switchgear connected plastic-insulated line in side view and in section.

According to Fig. 1, a paper insulation three conductor cable 4 is inserted in a provided for this purpose Endverschlußgehäuse 1, which is closed by a cover 2. This lid 2 has three outlet openings, for the sake of simplicity, only one outlet opening is shown with a filling 13 . The stuffing goggles 13 and a sealing bead 12 of an insulating lobe not shown here ensure a tight seal at this point. A plastic-insulated line 8 is led out of the outlet opening and is surrounded by an insulating sleeve 14 in the immediate area behind the outlet opening. The end of the plastic-insulated line 8 is part 16 connected to a switchgear 17 via a device connection. The connection point is covered by an insulating adapter 18 .

According to FIG. 2, the paper-insulated three-wire cable 4 is inserted into the end closure housing 1 with more fold separation. The end closure housing 1 is attached to the lead jacket of the paper-insulated three-wire cable 4 by soldering 5 . The end closure housing 1 closed by the cover 2 is filled with insulating oil 3 . The three wires 6 of the paper-insulated three-wire cable 4 are spread apart within the end closure housing 1 . Below the cover 2 , the individual paper-insulated wires 6 are each set down to the conductor 7 . The lid 2 each has an opening with a pair of goggles 13 through which a plastic-insulated line 8 is inserted, which at the end is offset down to the conductor 9 . Each conductor 7 of the three-conductor cable and each conductor 9 of the plastic-insulated line 8 are connected to one another by means of a connecting sleeve 10 . The connecting sleeve 10 is sealed on the inside, so that a possible flow of insulating oil from the paper-insulated three-wire cable 4 cannot penetrate into the conductor 9 of the plastic-insulated line 8 . The connec tion sleeve 10 , the ends of the paper-insulated wire 6 and the plastic-insulated line 8 are surrounded by an insulating lobe 11 . A special feature of this insulating lobe 11 is a sealing bead 12 which surrounds the insulating lobe 11 in a ring. This bead 12 forms, together with the stuffing glasses 13, an effective seal in the area of the cover 2 . The out of the insulating lobe 11 plastic-insulated line 8 can be spanned from the point of entry of the insulating lobe 11 with an insulating sleeve 14 in slide-on or shrinking technology, if difficult external stresses such as moisture and pollution require additional measures to improve tracking resistance.

According to FIG. 3, the plastic insulated wire is deposed 8 at its free end up to the conductor 9. On the stepped conductor 9 , a screw connector 15 is placed, the connec tion with the device connector 16 of the switchgear 17 . The entire connection point on the switchgear 17 is covered by an insulating adapter 18 .

Claims (8)

1. transition end closure for a paper-insulated three-wire cable for connection to a switchgear assembly, with one cable end, with an end closure housing filled with insulating oil with a dec angle, through which three are led out inside the end closure housing onto spread conductors, characterized in that the individual wires ( 6 ) of the paper-insulated cable ( 4 ) within the end closure housing ( 1 ) are placed on the conductors ( 7 ) and with the conductors ( 9 ) plastic-insulated lines ( 8 ) are each connected by means of a compressible connecting sleeve ( 10 ), and that the Connection sleeves ( 10 ), the ends of the pa-insulated wires ( 6 ) and the ends of the plastic-insulated lines ( 8 ) are each spanned by an insulating lug ( 11 ), and that the ends of the plastic-insulated lines ( 8 ) are each connected to the device connection part ( 16 ) a switchgear ( 17 ) are detachably connected. 2. transition end closure according to claim 1, characterized in that each insulating lobe ( 11 ) from the exit point of the plastic-insulated lines ( 8 ) is surrounded by an insulating sleeve ( 14 ) in push-on or shrink technique. 3. transition end closure according to claim 1 or 2, characterized in that the insulating lobes ( 11 ) are formed as push-on parts and consist of an elastomeric material. 4. transition end closure according to claim 1 or 2, characterized in that the insulating lobes ( 11 ) are designed as shrinkable parts and are made of a shrinkable material. 5. transition end closure according to one of claims 1 to 4, characterized in that an insulating lobe ( 11 ) each has a connecting sleeve ( 10 ) insulating against the earth potential of the end closure cover ( 2 ) and the outside has a molded sealing bead ( 12 ) Seals every exit point of the plastic-insulated lines ( 8 ) with screwable plug glasses ( 13 ) in the cover ( 2 ). 6. transition end closure according to one of claims 1 to 5, characterized in that the connecting sleeves ( 10 ) inside between the ends of the conductors ( 7 ) of the three-conductor cable ( 4 ) and the conductor ( 9 ) of the plastic-insulated lines ( 8 ) are partitioned . 7. transition end closure according to any one of claims 1 to 6, characterized in that the free conductors of the plastics isolating lines ( 8 ) by means of screw connection connectors ( 15 ) with the respective device connection part ( 16 ) of the switchgear ( 17 ) are connected. 8. transition end closure according to one of claims 1 to 7, characterized in that the connection areas of the plastic-isolating lines ( 8 ) on the device connection parts ( 16 ) are each covered by an insulating adapter ( 18 ).