DE2052035B2 - HV multiphase isolators with hinged phase barriers - are fitted with insulation plates which may be inserted into gap between fixed contacts - Google Patents

Abstract

The isolator, typically arranged for three phases, has a slot in the housing approximately opposite the moving switch blades. Between the phases insulation barriers are provided in both the top and bottom halves of the switch. The top half barriers comprise insulation plates which are hinged at a point above the top fixed isolator contacts. With the isolators open an insulation barrier plate can be inserted through the slot. It pushes up the upper phase barriers and ensures mechanical separation of the upper and lower fixed contacts. On removal of the plate the barriers fall naturally back to their normal position ensuring phase separation.

Description

The invention relates to a high-voltage switch cell with a built-in one that is visible in the switch-off position Disconnection point having, designed as a front switch, disconnector or switch-disconnector and with an in the isolating distance through a slot in the front of the switchgear cubicle insertable insulating plate, the Disconnector or switch-disconnector is provided with phase dividers, each of which consists of two parts, of which the lower part is arranged in the area of the switch current path adjacent to the connection contact on the cable side and the upper part is in the region of the terminal contact adjacent to the busbar-side Switch current path is provided and is stored on the switch frame near the front of the switchgear cubicle.

Such a switching cell is known (brochures from Sachsenwerk, ANF-04/69). The insulating plates are thereby pushed in off switching device in the isolating distance in order to stress loose material (*> len the cubicle work safely to. In addition, unintentional switching is eliminated with inserted insulating material.

In the known switching cell This interruption between an upper and a respective lower phase ^(L? Partition wall a distance in the vertical direction is in each case provided, which makes it possible to insert the insulating plate in the opened isolating distance. In the course of the phase partition, however, effected in comparison to a continuous phase dividing wall reduces the electrical strength between two adjacent phases.

Furthermore, it is known in a high-voltage switchgear cell with retractable circuit breaker that the fixed phase partition walls and the phase partition walls attached to the circuit breaker in the Cover the retraction position somewhat (BBC-Nachrichten, June 1961, pp. 326 to 328).

Pivotable insulating plates are also known in another high-voltage switchgear (CH-PS 4 67 537). However, these panels pivot about vertical axes and obscure when extended Position of the circuit breaker gives access to the stationary mating contacts, so that an insulating plate could not be inserted between the upper and the lower set of mating contacts.

The application is based on the object of providing a high-voltage switchgear cell according to the preamble of the patent claim 1 to be designed in such a way that it can be pushed into the isolating distance in a simple manner while maintaining a one-piece insulating plate, the electrical strength between adjacent phases of the Switch is increased.

This object is achieved according to the invention by what is specified in the characterizing part of claim 1 Features solved.

The invention enables the phase partition walls, which - seen in the direction of the switchgear longitudinal axis - are to be used without gaps in connection with slide-in panels. Which is in the on position Covering parts of the phase partition walls allow a reduction in the throw distance. especially if the lower parts of the phase partition walls of three known per se (prospectus ANF-04/69) Isolierstoffabdeckungen according to claim 2 are formed.

A construction of the upper part of a partition which is advantageous in terms of production is defined in the claim 3 specified. Phase partition walls, consisting of two insulating panels connected by brackets are known per se (AEG-Mitteilungen 1967, H. 6, S. 342, 343).

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

F i g. 1 a switchgear cubicle with built-in push-swivel switch-disconnector of the page,

F i g. 2 the in F i g. 1 shown switch cell from behind,

F 1 g. 3 the pivoting upper part of the phase partition walls, shown schematically.

In the figures, 1 is the switchgear cell, 2 is a front switch-disconnector and 3 is the cable. The upper connection contacts 4 of the switch disconnector are connected to the busbars, while the cables 3 are brought up to the lower connection contacts 5. Phase dividing walls consisting of two parts T and 7 "are arranged between the current paths (6 ', 6", 6'") . The parts T and 7" overlap somewhat here. The lower parts 7 "of the phase partition walls are formed by U-shaped insulating material covers surrounding the connection contacts 5 and partly the current paths 6 ', 6", 6'". The upper parts T of the phase partition walls are connected to one another by a U-shaped bracket 11 (F i g. 2 and 3) and attached to the switch frame 13 by means of

f:

Continuous axis 8 (FIG. 3) pivotably mounted. The axis 8 is fastened to the switch frame 13 by means of a further bracket 12 (FIG. 3). The fulcrum formed by the axis 8 is located near the switch cell front Γ and above the insertion slot 9. This ensures that when inserting the insulating plate 10 extending over the width of the switch cell front Γ, the upper parts T of the phase partition walls to the rear - in the direction of the arrow A - let it swivel up and that it swings back into the starting position due to its weight when the insulating plate is pulled out. When the insulating material plate 10 is inserted, the upper parts T of the phase partition walls assume the position shown in dashed lines in the figures. Since the insulating material plate 10 can only be inserted into the switching device when the current paths are swiveled out and thus de-energized, the phase separation wall can be swiveled up without danger. A test has shown that the test voltage is fully maintained between the phases in this position, both below and above. In this position there are namely no live parts in said interrupted partition wall area. When the insulating plate 10 is pulled out, the upper parts 7 'of the phase partition walls move back into the starting position, as mentioned above. As a result of the front wall 14 standing on the switch frame 13, the starting position is determined.

For this purpose 2 sheets of drawings

Claims (3)

Patent claims: 1. High voltage safety switch with built-in disconnection or switch-disconnector designed as a front switch, which has a visible disconnection point in the switch-off position, as well as with an insulating plate that can be inserted into the separating distance through a slot in the front of the switchgear cell, the disconnection or switch-disconnector being provided with phase separation walls that each consist of There are two parts, of which the lower part is arranged in the area of the switch current path adjacent to the cable-side connection contact and the upper part! is provided in the area of the switch current path adjacent to the busbar-side connection contact and is mounted on the hinge frame near the switch cell front, characterized in that the upper parts (T) of the phase partition walls are pivotably mounted in a pivot point (8) located above the slot (9), and that the direction of insertion of the insulating plate (10) is determined so that it swings up the upper parts (7 ') when it is pushed into the separating distance. 2. High-voltage switching cell according to claim 1, characterized in that the lower parts (7 ") the phase partition walls consist of three U-shaped insulating material covers. 3. High-voltage switching cell according to claim 1 .v <or 2, characterized in that the upper Parts (7 ') of the phase partition walls from two each between an outer phase and the middle Phase arranged insulating panels exist, which are connected to one another by means of an am Switch frame (13) attached axis (8) pivotable mounted U-shaped bracket (11) are connected.