RU2097891C1 - Cable junction box - Google Patents

Abstract

FIELD: power engineering. SUBSTANCE: junction box is tubular structure accommodating cable splices. Cable sheaths are connected through sealed joint to one end of fanned members whose other ends are connected through sealed joint to ground. Box has flanges with conical projections at ends mounting conical lead collars tightly fitted by means of bolts and funnel-shaped flanges. Clearance between flanges on box and funnel-shaped flanges is at least 1 mm. EFFECT: improved design. 3 dwg

Description

 The invention relates to electrical engineering, and in particular to couplings for multicore cables with voltage up to 10 kV.

A known design of the coupling, which is used to connect cables with paper insulation voltage of 6-10 kV [1]
The sleeve contains a housing, which is a lead pipe, the ends of which are chipped and soldered to the sheaths of the connected cables. The housing is enclosed in a protective cast iron casing. The internal cavity of the lead casing is filled with a bituminous composition through the holes cut through in the lead during installation.

 A clutch is also known, comprising a hollow cylindrical body, with a splice of cables placed in it, the sheaths of which are connected to one end of the funnel-shaped nozzles, the second ends of which, having a cylindrical shape, are connected by capillary soldering with two cylindrical bushings enclosing the body.

 The disadvantage of this invention is that in the field to produce capillary soldering with a sufficient degree of reliability is very difficult, since it is necessary to observe the gaps with high accuracy.

 In addition, installation is complicated due to a very difficult operation — the expansion of the aluminum shell with a calibrated tool, and the reliability and mechanical strength when gluing the aluminum shell with a funnel-shaped nozzle are reduced. Moreover, the whole positive effect of capillary soldering can be nullified due to gluing, since it is known that the coupling experiences significant tensile forces during operation.

 The problem to which the invention is directed, is to increase the mechanical strength and tightness of the coupling at the junction of the housing on the cable sheath.

 This task is achieved as a result of the fact that the connecting cable sleeve containing a tube in the form of a splice of cables, the sheaths of which are hermetically connected to one end of the funnel-shaped elements, the second ends of which are hermetically connected to the body, equipped with funnel-shaped flanges, the body is made with flanges having conical protrusions at the ends, while funnel-shaped elements are made in the form of lead cuffs, the second ends of which are hermetically clamped with bolts in the gap between the conical protrusions and the housing flange and the funnel-shaped flange secured to plastic deformation lead cuffs.

 This embodiment allows you to make the pipe body of a mechanically strong material, such as cast iron.

 Sealing the coupling with conical lead sleeves prefabricated at the factory allows simplifying and improving the quality of the complex operation of soldering the couplings, and due to the given taper of the lead sleeves, the electric field of the coupling is aligned at the cut of the metal sheaths of the spliced cables. In addition, there is a gap of at least 1 mm between the body flanges and the funnel-shaped flanges, which ensures tightness during plastic deformation of the conical lead cuff when tightening the bolts.

In FIG. 1 shows a coupling, a longitudinal section; in FIG. 2
same top view; in FIG. 3 mounting unit of the lead cuff to the clutch housing.

 The connection sleeve for a multicore cable (Fig. 1, 2, 3) consists of a metal pipe 1 with flanges having conical protrusions 2 at the ends, to which conical lead cuffs 5 are hermetically attached using metal funnel-shaped flanges 3 and bolts 4. The latter are hermetically connected with metal sheaths of cable 6 using solder 7. Lead cuffs are protected by semi-flanges 8, fastened with bolts 9. Half-flanges from the ends are sealed on the cable by winding from resin tape 10. In a metal pipe 1 but the injection port 11 for pouring an insulating composition in the clutch.

 Assembly of the coupling is as follows. First, a metal pipe 1 assembly with parts 3, 4, 5 is pushed on one end, and another lead cuff 5 and a funnel-shaped flange 3 are placed on the other end of the cable. Then, the cores of the spliced cables are connected and insulated. After that, the metal pipe 1 (housing) assembled with the parts 3, 4, 5 is pulled over to the junction. Then, the remaining lead sleeve 5 is attached to the opposite end of the pipe 1 with the help of part 3 and bolts 4. After that, the ends of the conical lead cuffs 5 are soldered to to the shells 6, then the insulation compound is poured into the sleeve through the hole 11, the hole is sealed with a stopper, the resin tape 10 is wound and half flanges are installed 8. The sleeve is shed with a bituminous compound and its body is wrapped with a protective film in several layers.

 Due to the plastic deformation of lead cuffs sandwiched between the housing and the funnel-shaped flanges in a tapered fit, sufficient tightness is ensured.

Claims (1)

 A cable connection sleeve containing a pipe body with a spliced cable assembly, the sheaths of which are hermetically connected to one end of the funnel-shaped elements, the second ends of which are hermetically connected to the body, characterized in that it is equipped with funnel-shaped flanges, the body is made with flanges having conical protrusions at the ends, while funnel-shaped elements are made in the form of lead cuffs, the second ends of which are hermetically clamped with bolts in the gap between the conical protrusions of the flanges of the housing and funnel-shaped flanges with plastic deformation of lead cuffs.

Images