DE3506883A1 - Metal-free optical aerial cable which is laid in the vicinity of electrical high-voltage installations - Google Patents

Abstract

The invention relates to a metal-free optical aerial cable which is laid in the vicinity of electrical high-voltage installations and is held on supporting devices via earthed metallic supporting or bracing elements, the bracing elements surrounding the cable sheath which consists of insulating material. In order that no corona discharges to the bracing elements are produced despite the use of materials having little leakage-current resistance for the cable sheath, it is proposed that protective insulations surrounding the cable sheath be arranged at the circumferential points, which extend in the cable longitudinal direction on the end region of the bracing elements, and resting thereon, towards the cantilever section of the cable sheath so far that, in the cable axial direction, a high-voltage resistant leakage path is produced from the exposed cable sheath to the exposed region of the bracing element via the protective insulation, and that the protective insulation consists of an insulating material which has a higher leakage-current resistance than the insulating material of the cable sheath. <IMAGE>

Description

Metal-free, close to electric

Optical aerial cable laid for high voltage systems The invention relates to on a metal-free, in the vicinity of high-voltage electrical equipment Installed optical aerial cable, which is connected via earthed metallic wire or tensioning elements is held on support devices, the bracing elements made of insulating material include existing cable jacket.

Such optical aerial cables are covered by the cigré report 35-09 1984 session, August 29th to September 6th, 25 km Optical Aerial Cable link on 110 kV Overhaed Line "known.

It was found that on the high-resistance cable jacket, which serves to mechanically protect the enclosed optical conductors by the neighboring ones High-voltage systems are influenced by considerable electrical charges, so that the cable sheathing opposite the grounded metallic supporting or bracing elements very high voltages decreases. As a result, glow discharges arise from the cable sheathing to the anchoring elements, in particular to their tips located in the end area. This will damage the cable jacket.

The material used for the cable sheathing is a mechanically strong and inexpensive plastic, especially low density polyethylene (LDPE) used, which does not have high tracking resistance. The use of mechanical also solid other materials with adequate tracking resistance would mean a considerable increase in the price of the optical aerial cable.

The invention is therefore based on the object of an optical aerial cable of the type mentioned in such a way that, in spite of the use, it is less resistant to tracking current Substances for the cable sheathing do not result in a glow discharge towards the anchoring elements.

This problem is solved by the fact that at the enclosing points a protective insulation surrounding the cable sheathing is arranged, which is in Cable longitudinal direction on the end area of the bracing elements and adjacent to them to the free-hanging stretch of the cable sheathing extends so far that extends in the direction of the axis of the cable A high-voltage-resistant creepage path from the exposed one via the protective insulation Cable sheathing results in the exposed area of the guy element, and that the protective insulation consists of an insulating material, which has a higher creepage resistance than the insulating material of the cable jacket.

The protective insulation according to the invention can be a screen insulator and / or a wrapping of the affected section of the optical cable and / or a plastic one be applied mass, in which at least the end region of the bracing element is embedded.

The invention has the advantage that high quality and expensive tracking current resistant materials resp.

Elements only provided in the endangered areas of the optical cable must be, for the cable sheathing itself regardless of the creepage resistance a merely mechanically strong, inexpensive material can be used.

A screen insulator used for the invention is advantageous made of rubber-like material, which is radially slotted on one side so that it is of the side can be pushed radially over the optical cable and the anchoring element. After sliding open the slot is sealed watertight. To this end the walls of the slot can interlock positively and glued will. It is also advantageously possible to have the slot through one in the plastic state to be applied adhesive mass to seal. There is an advantageous possibility continue to cover the slot with an overlapping protective cap.

The invention and further advantageous embodiments are based on the description of the exemplary embodiments illustrated in the drawing.

Fig. 1 shows the partially sectioned longitudinal view of a first Mode for carrying out the invention.

Fig. 2 shows the partially sectioned longitudinal view of a second Embodiment of the invention.

Fig. 3 shows an axial plan view of the embodiment according to Fig. 2.

FIG. 4 shows a section along the line A-A according to FIG. 2.

In the figures, 1 is the cable sheathing made of HDPE in each case of a metal-free, self-supporting optical aerial cable. The in known way enclosed cable core, which consists essentially of optical There is ladders and reinforcement elements, is not shown. With 2 is each denotes a supporting or bracing element consisting of coiled individual elements.

In FIG. 1, the cable sheathing 1 is on one of the bracing element 2 adjacent section with a self-amalgamating silicone rubber tape wound wrapping 3 provided. The length of this section is depending on Height of the high voltage between about 0.5 m and 10 m. At 110 KV there is a length of 2 m proved to be sufficient. This wrap 3 extends approximately 5 cm in Cable longitudinal direction overlapping under the guy element 2, so that the possibly pointed end surfaces of the guy elements 2 a sufficiently large distance to exposed sections of the cable jacket 1. Such a wrap 2 is in certain cases, especially if the high voltage is not very high, sufficient to prevent glow discharges from occurring from the cable sheath 1 to the To prevent anchoring elements 2.

However, it is advisable to keep the spaces between the anchoring elements 2 and the underlying parts of the wrapping 3 and optionally the spaces between the individual elements of a guy element 2 with a water-repellent Fill in the mass free of air. A silicone paste or a silicone rubber are particularly useful for this suitable.

It is particularly advantageous to use such a mass as a cuff 4 to expand, which both the end area of the wrap 3 and the end area of the guy element 2 engages over. Such a cuff 4 could of course also e.g. be wound from silicone rubber tape. Likewise, it would be possible to do the whole Wrapping 3 made of an applied in the plastic state, in particular cold crosslinking Manufacture silicone rubber mass.

Fig. 2 shows a modified embodiment of the invention in which the cuff 4 is replaced by a screen insulator 5, the screen rings 6 of which are known form a considerable extension of the creepage distances. If necessary, several Shield rings 6 axially one behind the other be arranged when the optical Cables run very close to an electrical line with a particularly high voltage is. Of course, several separate screen insulators 5 could also be used for this purpose each with a screen element 6 can be provided one behind the other. It is advisable, to avoid air inclusions and to seal against the ingress of Moisture in the gap 7 between the screen insulator 5 and 3 wrapping a sealing Bring in mass, in particular silicone paste or silicone rubber.

So that the shield insulator 5 from the side radially onto the optical Air cable can be pushed on is a one-sided radial separation slot 8 provided, which in the case of an elastic material, in particular silicone rubber existing shield insulator 5 expanded to introduce the wrapped optical cable can be.

So that the separating slot 8 does not form a bridge for leakage currents it must be closed afterwards.

This can be done by means of watertight gluing of the, in particular, form-fitting interlocking slot surfaces happen. In Fig. 2 there is also a protective cap 9 provided, which is glued to the contact surfaces on the shield insulator 5 and which covers the area of the slot 8 on both sides of the screen insulator 5.

To relieve the adhesive surfaces, cams 10 grip the protective cap 9 into associated recesses of the screen insulator 5 in a form-fitting manner.

In Fig. 2 are to achieve a particularly high level of security against Glow discharges both a wrapping 3 and a screen insulator 5 are provided. In not so critical cases, the sole use of one shown in FIG. 2 The screen insulator 5 shown is sufficient, the wrapping 3 being dispensed with can be.

Claims (11)

PATENT CLAIMS 1. Metal-free, adjacent to electric Optical aerial cable installed in high-voltage systems, which is connected via earthed metallic Support or bracing elements is held on support devices, the bracing elements comprise the cable sheathing made of insulating material, characterized in that that a protective insulation surrounding the cable sheath (1) at the enclosing points (3, 4, 5, 6) is arranged, which extends in the longitudinal direction of the cable on the end area the bracing elements (2) and adjacent to them to the freely hanging stretch of the cable sheathing (1) extends so far that the protective insulation (3, 4, 5, 6) a high-voltage-resistant creepage path from the exposed cable jacket (1) to the exposed area of the guy element (2) results, and that the protective insulation (3, 4, 5, 6) consists of an insulating material, which has a higher creepage resistance than the insulating material of the cable sheath (1). 2. Optical aerial cable according to claim 1, characterized in that the protective insulation consists of a wrapping (3), which in particular consists of self-amalgamating Silicone rubber strap is made. 3. Optical aerial cable according to claim 1, characterized in that the protective insulation made of a mass to be applied in the plastic state (sleeve 4), in which at least the end region of the anchoring element (2) is embedded is. 4. Optical aerial cable according to claim 1, characterized in that the protective insulation is a screen insulator (5, 6). 5. Optical cable according to claim 4, characterized in that the Screen insulator (5, 6) made of rubber-like material, in particular silicone rubber, and is radially slotted on one side (slot 8). 6. Optical aerial cable according to claim 5, characterized in that the slot (8) is sealed. 7. Optical aerial cable according to claim 6, characterized in that the area of the slot (8) by an adhesive introduced in the plastic state Ground is sealed. 8. Optical aerial cable according to claim 6, characterized in that the slot (8) through an overlapping, pushed-on and glued-on protective cap (9) is covered. 9. Optical aerial cable according to one of claims 5 to 8, characterized in that that the slot (8) by positively interlocking glued walls is locked. 10. Optical aerial cable according to one of claims 4 to 9, characterized characterized in that in the gap (7) in the seating area of the screen insulator (5) a in particular a compound that seals against the ingress of moisture, in particular silicone paste, is introduced. 11. Optical aerial cable according to claim 1, characterized by the joint application of the features of at least two of claims 2 and 5 to 11 as well as 3 and 4.