RU150154U1 - END CABLE CLUTCH - Google Patents

Abstract

1. An end cable box containing a hollow finned composite insulator filled with an electrical insulating mass and provided with upper and lower metal flanges, a connecting tip mounted on the upper metal flange, and a base plate on which the lower flange is mounted, characterized in that the upper metal flange is made domed with a rounded transition from the bottom of the dome to its top, and shielding rings are fixed on the upper and lower flanges, while the upper shielding ring does not come out and outside edges of the composite insulator, and the lower shielding ring protrudes beyond the plate osnovaniya.2. The coupling according to claim 1, characterized in that the lower flange is fixed to the base plate with bolts, under which threaded holes are made in the base plate. 3. The coupling according to claim 1, characterized in that the shielding rings are made tubular. 4. The clutch according to claim 1, characterized in that the shielding rings are open.

Description

Technical field

The utility model relates to the field of electric power and can be used in terminations designed to connect high-voltage cables with plastic insulation, for example, from cross-linked polyethylene to an overhead line (VL) or to a rigid busbar.

State of the art

Known selected as a prototype end cable sleeve, according to patent RU 132265 U1. The prototype contains a hollow finned composite insulator filled with an electrical insulating mass and provided with upper and lower metal flanges, a connecting tip mounted on the upper metal flange, and a base plate on which the lower flange is fixed.

The disadvantage of the prototype, which manifests itself during its operation, is the uneven distribution of electric field strength along the outer surface of the coupling, with the formation of areas of maximum tension at the junction of the upper flange with the cover, and at the junctions of the upper flange with the insulator and the lower flange with the base plate. The consequence of this unevenness is the possibility of partial discharges and insulation damage in areas of maximum field strength.

Utility Model Disclosure

The technical result of the proposed solution is the alignment of the electric field directed along the insulator in the upper and lower parts of the coupling and, as a result, increase its resistance to overvoltage.

The object of the utility model is an end cable sleeve containing a hollow finned composite insulator filled with an electrical insulating mass and provided with upper and lower metal flanges, a connecting tip mounted on the upper metal flange, and a base plate on which the lower flange is mounted, characterized in that the upper metal the flange is made dome-shaped with a rounded transition from the bottom of the dome to its crown, and shielding rings are fixed on the upper and lower flanges, while the upper e shielding ring does not extend beyond the edges of the composite insulator, and the lower shielding ring protrudes beyond the base plate.

This allows you to get the specified technical result.

The solution has developments consisting in the fact that the lower flange is fixed to the base plate with bolts, under which through or through threaded holes are made in the base plate, and that the shielding rings can be made tubular and / or open.

Implementation of a utility model, taking into account its developed

The implementation of the utility model, taking into account its developments, is illustrated in the drawing. The drawing shows a hollow finned composite insulator consisting of a composite pipe 1 and a ribbed shell 2, the cavity of which is filled with an electrical insulating mass 3. The insulator is equipped with upper and lower metal flanges 4 and 5, respectively. A connecting tip 6 is installed on the flange 4. The flange 5 is mounted on the base plate 7.

The upper metal flange 4 is made dome-shaped with a rounded transition from its bottom 8 to the neck 9. On the flanges 4 and 5, shielding rings 10 and 11 are fixed. Ring 10 does not extend beyond the ribs of the composite insulator, and ring 11 protrudes beyond the base plate 7.

The flange 5 is mounted on the base plate 7 with bolts 12, under which through or through holes are made through the plate 7. The shielding rings 10 and 11 may be tubular and / or open.

In addition, the drawing shows the cut end 13 of the cable and the elastomeric element 14 mounted on it, designed to align the electric field inside the coupling insulator.

The installation of the coupling is as follows.

Cutting off the end 13 of the cable. To do this, the outer protective sheath is removed from the cable and all layers are removed in steps to insulation. An element 14 is tightened onto the cut end 13 with an interference fit. The cut end 13 with element 14 is inserted into the cavity of a finned composite insulator consisting of a composite pipe 1 and a ribbed sheath 2. The insulator is installed with the lower flange 5 on the base plate 7 with sealing. The insulator cavity is filled with a liquid insulating mass 3. The cut end 13 of the cable is passed through the central hole in the bottom 8 of the domed flange 4, which is mounted on the upper end of the composite pipe 1. A connecting tip 6 is mounted on the exposed core of the cut end 13 of the cable, which is fixed on the outside of the bottom 8 flanges 4.

On the upper and lower flanges 4 and 5, shielding rings 10 and 11 are attached with holders, respectively. In this case, the lower flange 5 and the holders of the lower ring 11 are fixed to the base plate 7 using bolts 12, under which through or through threaded holes are made in the base plate 7.

When the coupling is put into operation, the connecting tip 6 is connected to the overhead line or bus bus. Between the flange 4, electrically connected with the tip 6, and the grounded base plate 7, an electric field occurs. The gradient of the electric field takes maximum values near the angles (kinks) of the metal elements of the coupling on the upper flange 4, as well as at the junctions of the upper and lower flanges 4 and 5 with a finned shell 2.

Modeling of the described design of the coupling showed that the implementation of the upper flange 4 of the finned composite insulator in the form of a dome with a rounded transition from the bottom 8 to the top 9 and fixing on the upper and lower flanges 4 and 5 of the shielding rings 10 and 11, provided that the upper shielding ring 10 does not extend beyond the ribbed shell 2 of the composite insulator, and the outer diameter of the lower shielding ring 11 extends beyond the base plate 7, provides equalization of the electric field strength outside the insulator and at the x couplings and, as a result, increasing its resistance to overvoltage.

Claims (4)

1. An end cable box containing a hollow finned composite insulator filled with an electrical insulating mass and provided with upper and lower metal flanges, a connecting tip mounted on the upper metal flange, and a base plate on which the lower flange is mounted, characterized in that the upper metal flange is made domed with a rounded transition from the bottom of the dome to its top, and shielding rings are fixed on the upper and lower flanges, while the upper shielding ring does not come out and outside edges of the composite insulator, and the lower shielding ring protrudes beyond the base plate. 2. The coupling according to claim 1, characterized in that the lower flange is fixed to the base plate with bolts, under which threaded holes are made in the base plate. 3. The coupling according to claim 1, characterized in that the shielding rings are made tubular. 4. The clutch according to claim 1, characterized in that the shielding rings are open.

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