CA2243612C - Hybrid line and ground switch - Google Patents

Abstract

The present invention relates to a line disconnector comprising an arm (1) pivoting in a plane, carrying at its free end a movable contact (2) and pivotally driven at its other end by a drive mechanism (3) carried by the at least a first insulating column (4) and a fixed contact (6) carried by a second insulating column (7) and receiving the movable contact (2) in the closed position (A) of the disconnector, the arm (1) being in substantially the position perpendicular to this closed position in the open position (B) of the disconnector. The first insulating column (4) carries an earthing contact (8) and the drive mechanism (3) allows the pivoting of the arm (1) in a substantially perpendicular reverse position (C), where the movable contact ( 2) engages this grounding contact (8).

Description

HYB ~ LINE AND EARTHING CIRCUIT BREAKER.

The present invention relates to a disconnector line and ground hybrid.
It relates more precisely to a line disconnector comprising an arm pivoting in a plane, bringing to its free end a movable contact driven in pivoting at its other end by a drive mechanism ~ ment carried by at least a first insulating column and a contact fixed carried by a second insulating column and receiving the movable contact in closed position of the disconnector, the arm being in a position substantially perpendicular to the position closed in the open position of the disconnector.
Such a disconnector is described in the French patent 15 n ~ l 486 192.
A disconnector of this type allows the disconnection a power line, for example high voltage. In what concerns earthing, such a disconnector is commonly associated with another disconnect switch called the earth, which may be of identical constitution.
Two disconnectors are therefore necessary for these two resulting in space and a cost of important material.
The invention solves this problem by proposing a Hybrid line and earthing switch.
According to the invention, the first column insulator carries an earthing contact and the mechanism drive allows pivoting of the arm in a substantially perpendicular reverse position where the contact 30 movable engages this grounding contact.
This disconnector has the advantage of eliminating all possibility of simultaneous closing maneuvers line and earthing switch, maneuvers which must be closely monitored in facilities 35 classics.

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According to a preferred embodiment, the first insulating column contains a rotary drive shaft and the drive mechanism consists of a worm carried by the end of this tree and meshing a wheel 5 tooth fixed to the arm.
Preferably, the drive mechanism includes a balancing system consisting of a cable wound on a pulley integral and coaxial with the toothed wheel and kept in tension by an extension spring.
The invention is described below in more detail at using figures representing only one embodiment preferred of the invention.
Figure 1 is a front view of a disconnector according to the invention.
Figure 2 is a detail view of the disconnector according to the invention.
The line disconnector with vertical opening, shown in Figure 1, conventionally includes a arm 1 pivoting in the vertical plane, bringing to its free end a movable contact 2 and driven in pivoting at its other end by a mechanism drive 3 carried by two insulating columns 4, 5 and a fixed contact 6 carried by an insulating column 7 and receiving the movable contact 2 in the closed position A of the disconnector where said arm 1 is horizontal.
When the disconnector opens, arm 1 is rotated 90 ~ upward to reach the position vertical high open position B of the disconnector.
According to the invention, the insulating column 4 carries a earthing contact 8 and the drive mechanism 3 allows the pivoting of the arm 1 from 90 ~ downwards in a low vertical position called grounding position C
where the movable contact 2 engages with this contact of earthing 8 ensuring the earthing of the line of the side of the drive mechanism 3.

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Advantageously, the earthing contact 8 is . arranged at the base of the insulating column 4 and the length of the arm 1 is close to the height of the insulating columns.
This drive mechanism 3 is shown more in 5 detail in FIG. 2.
It is housed in a bo ~ tier 9 shown torn for allow viewing of the mechanism 3.
The insulating column 4 contains a control shaft 10 rotary and the drive mechanism 3 consists of a 10 worm screw 11 carried by the upper end of this shaft 10 and meshing a toothed wheel 12 secured to the arm 1. More pr ~ precisely, given the size of the insulating column 4, an intermediate element lA is interposed between the tooth wheel ~ e 12 and the arm 1, eccentric 15 this with respect to the axis of the toothed wheel 12.
Rotation in one direction of the control shaft 10 therefore causes the passage from the closed position A to the sectioned position B. A rotation of the same amplitude but in the opposite direction of the shaft of co ~ n ~ e 10 entered ~ therefore the passage from the closed position A to the setting position earth C.
The drive mechanism 3 includes a system balancing consisting of a cable 13 wound on a pulley 14 integral and coaxial with the toothed wheel 12 and held in tension by an extension spring 15.

Claims (3)

1) Line disconnector comprising an arm (1) pivoting in a plane, carrying at its free end a movable contact (2) and pivoted to its other end by a drive mechanism (3) carried by at less a first insulating column (4) and a fixed contact (6) carried by a second insulating column (7) and receiving the movable contact (2) in the closed position (A) of the disconnector, the arm (1) being in position substantially perpendicular to this closed position in the open position (B) of the disconnector, characterized in that the first column insulator (4) carries a grounding contact (B) and the drive mechanism (3) allows the arm to pivot (1) in a substantially perpendicular reverse position (C), where the movable contact (2) engages this contact earthing (8). 2) Disconnector according to claim 1, characterized in that the first insulating column (4) contains a tree rotary control (10) and the drive mechanism (3) consists of an endless screw (11) carried by the end of this shaft (10) and meshing a toothed wheel (12) secured to the arm (1). 3) Disconnector according to claim 2, characterized in that the drive mechanism (3) has a balancing system consisting of a cable (13) wound on a pulley (14) integral and coaxial with the toothed wheel (14) and kept in tension by an extension spring (15).