RU2177197C1 - Plastic covered high-voltage cable terminator - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: cable terminators designed for connecting high-voltage cable lines to overheat power transmission lines by means of standard clamp and also for cable entries in transformers and miscellaneous high-voltage apparatuses has porcelain insulator filled with insulating fluid, cable termination covered with reinforcing insulation in the form of elastomer member put on with negative allowance, hold-down shell, upper and lower shields. Outer diameter of lower part of elastomer member abutting against hold-down shell equals inner diameter of end part of hold-down shell provided outer diameter of shell does not exceed diameter of elastomer member section not held by the shell. Lower end part of elastomer member is chamfered to form conical inner surface with cone angle of 20-30 deg. and height equal to thickness of elastomer member cylindrical part free from hold-down sleeve. EFFECT: improved electrical characteristics and facilitated mounting of terminator. 2 cl, 1 dwg

Description

 The invention relates to cable technology, and in particular to terminations designed to connect high voltage cable lines to overhead power lines using a standard hardware clamp. The invention can also be used in the construction of cable entries in transformers and other high-voltage apparatuses.

 Known end termination of the cable high voltage [Garnituren Fur VPE-isolierte Hoch-und Hochst-spannungskabel, Felten Gulleume, Germany, 1984], containing a porcelain insulator filled with insulating fluid, the end groove with an elastomeric element, the upper and lower screens. The design provides for the pressing of the lower part of the elastomeric element to the end cutting with a bandage. Under cyclic temperature effects, the tape band may be damaged, which will lead to disruption of the electrical contact of the elastomeric element and the screen. In addition, the presence of a tape brace makes it difficult to heat away from the cable core to the rest of the structural parts of the coupling, which leads to a decrease in its electrical strength.

 Known end sleeve of a high voltage cable with plastic insulation [RF Patent N 2064725. The end sleeve of a power cable with plastic insulation. Vaga N.A. et al.], Comprising a porcelain insulator filled with insulating liquid, cable end strips with reinforcing insulation in the form of an elastomeric element, a pressure cup on the lower end of the elastomeric element, a polymer filler of the space between the cable insulation and the lower screen in the form of a cylindrical porous elastomeric tube or in the form of a layer of polymer paste. This design is the closest technical solution to the claimed.

 It has the following disadvantages. The clamping cup, pushed on the lower end part of the elastomeric element, increases the outer diameter of the cable cut, which leads to an increase in the radial dimensions of the structure. In addition, during the mounting of the pressure cup, it becomes necessary to push it all the way into the elastomeric element. Due to the elasticity of the material of the element, the pressure cup can be pushed more than provided for by the mounting instructions, which leads to spontaneous sliding of the pressure cup from the surface of the elastomeric element. The installation process is complicated.

 In addition, cables with copper wire shields are now widely used, which necessitates the use of porous elastomeric tubes or pastes that improve the heat sink from the cable insulation to the lower screen (or to the support pipe).

 The objective of the invention is to create the design of the coupling with high electrical characteristics while simplifying the process of its installation.

The technical result is achieved in that in the end sleeve of a high-voltage cable with plastic insulation containing a porcelain insulator filled with an insulating liquid, the cable end cut with a reinforcing insulation installed on it with an interference fit in the form of an elastomeric element made in the form of a ring having the taper of the upper part of the outer surface the pressure cup covering the lower end part of the elastomeric element, the upper and lower screens, the lower part of the outer surface of the elastomeric element, when adjacent to the pressure cup, has a diameter equal to the inner diameter of the end part of the pressure cup, provided that the outer diameter of the glass does not exceed the diameter of the part of the elastomeric element free from the pressure cup, and the lower end part of the elastomeric element has a facet in the form of a taper of the inner surface with an angle taper of 20 - 30 ^o and a height equal to the thickness of the cylindrical part of the elastomeric element, free from the pressure cup.

In one embodiment, the generatrix of the inner surface of the pressure cup corresponds to the formula
P (x) = A + C (B-x) ²
where A = -1.8 • 10 ^-4 - 10 ^-2 ;
C = 55.2 - 70.0;
B is the wall thickness of the elastomeric element at the transition point from the pressed part of the elastomeric element to its free part;
x is the current coordinate of the generatrix of the inner surface of the pressure cup.

The proposed design provides for reducing the wall thickness of the lower end part of the elastomeric element to ensure alignment of the diameters of the outer generatrix of the elastomeric element and the pressure cup. The transition from the refined wall of the end part of the elastomeric element to the thickened (predetermined) part is made in the form of a control protrusion with an inclination angle of the generatrix of 45 - 65 ^o and a height equal to the wall thickness of the pressure cup in the area adjacent to the control protrusion. The control protrusion greatly facilitates the installation of the pressure cup, making it possible to avoid unnecessary deformation of the lower end part of the elastomeric element and, therefore, sliding of the pressure cup.

To prevent diffusion of the insulating liquid into the contact zone of the elastomeric element and the support pipe, a chamfer is provided in the form of a taper of the inner surface with a taper angle of 20-30 ^° and a height equal to the thickness of the cylindrical part of the elastomeric element, free from the pressure cup. The presence of a bevel significantly facilitates the installation of a support pipe. The profile of the inner generatrix of the pressure cup, having the form of a curve corresponding to the formula indicated above, provides tight pressing of the inner surface of the end part of the elastomeric element to the support pipe, which ensures reliable contact between the elastomeric element and the support pipe in operation.

 The invention is illustrated in the drawing, which shows a General view of the coupling. The coupling comprises an upper shield 1, a porcelain insulator 2, an insulating liquid 3, an insulation 4 of the cable, an elastomeric element 5, a pressure cup 6, a lower shield 7, a support pipe 8, a coupling body 9, a control protrusion 10.

 The following is information confirming the industrial applicability of the invention.

 The elastomeric element 5 prefabricated and tested at the enterprise as part of the installation kit is supplied to the operating organization. The process of mounting the end coupling is reduced to pushing the elastomeric element onto the cable using special dielectric greases. Then, the mounting of the support pipe 8, the pressure cup 6, the coupling body 9, the porcelain insulator 2, the lower screen 7, the insulating liquid 3, the upper screen 1 takes place.

 The complexity of installation of the proposed coupling is significantly reduced due to the absence of the need to manufacture reinforcing insulation at the installation site, where such a factor as the qualification of the installation personnel is necessarily present. The installation time of the proposed end sleeve in comparison with, for example, the installation time of the end sleeve having a plastic reinforcing insulation is reduced by 6 times and is about 8 hours.

Claims (2)

1. The end sleeve of a high-voltage cable with plastic insulation, containing a porcelain insulator filled with an insulating liquid, an end cable cut with a tightening reinforcing insulation in the form of an elastomeric element made in the form of a ring having the taper of the upper part of the outer surface, a pressure cup covering the lower end part of the elastomeric element, the upper and lower screens, characterized in that the lower part of the outer surface of the elastomeric element adjacent to the pressure glass, has a diameter equal to the inner diameter of the end part of the pressure cup, provided that the external diameter of the glass does not exceed the diameter of the part of the elastomeric element free from the pressure cup, and the lower end part of the elastomeric element has a facet in the form of a taper of the inner surface, with a taper angle of 20 -30 ^o and a height equal to the thickness of the cylindrical part of the elastomeric element, free from the pressure cup. 2. The cable end sleeve according to claim 1, characterized in that the generatrix of the inner surface of the pressure cup corresponds to the formula
P (x) = A + C (Bx) ² ,
where A = -1.8 • 10 ^-4 -10 ^-2 ;
C = 55.2-70.0;
B is the wall thickness of the elastomeric element at the transition point from the pressed part of the elastomeric element to its free part;
x is the current coordinate of the generatrix of the inner surface of the pressure cup.