Remote control circuit breaker having a retractable switch contact

A circuit breaker is provided with at least one switching arrangement having a mobile contact and a retractable contact, this latter being supported by a pivoting lever; a tripping mechanism for causing the rapid opening of the mobile contact, an electromagnetic actuator having an element movable in translation under the effect of a control signal applied to the actuator and a mechanical coupling for transmitting the movement of the mobile element to the retractable contact, wherein the mechanical coupling is rigid and moves in translation according to a translation plane parallel to the movement of the mobile element and it is coupled to said pivoting lever at a point offset with respect to the plane of translation.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The invention relates to a circuit breaker, in particular a multiphase 
circuit breaker, comprising a quick trip mechanism which may be set and 
tripped by means of a local manual control member, a multiplicity of power 
circuits each comprising a switching device whose mobile contact is 
connected to said mechanism so as to be closed or opened thereby, 
detectors which react to overcurrents of different kinds in these circuits 
by causing tripping of said mechanism and, consequently, automatic opening 
of the switch device and an electromagnet causing remote controlled 
opening of a retractable contact of this switch without causing tripping 
of this mechanism. 
2. Description of the Prior Art 
From patent No. 84 17505, filed on the Nov. 16 1984 in the name of the 
applicant for: "Circuit breaker apparatus with remote controlled opening 
and closure of its circuits", a circuit breaker of the above mentioned 
type is known in which the fixed contact of each switch means is carried 
by a pivoting conducting lever actuated by means of a single transmission 
means, through the armature of an electromagnet which has no connection 
with the quick trip mechanism. 
The embodiments proposed in this patent for the transmission means are 
relatively complex. 
SUMMARY OF THE INVENTION 
The invention provides an arrangement of the transmission means which 
provides both a remote control assembly of very compact and very simple 
construction, satisfactory amplification of the movement of the 
retractable contacts with respect to the stroke of the armature and allows 
the tripping mechanism, the detectors and the different members comprised 
by a traditional circuit breaker to be used without having to modify the 
structure thereof. 
These results are obtained in accordance with the invention because a rigid 
transmission means moves in translation parallel to the plane of movement 
of the armature, and because it is coupled to the pivoting levers in a 
plane offset with respect to said moving plane. 
In a preferred embodiment, the transmission means comprise a rake having 
two legs hitched to the armature and a cross piece having grooves 
cooperating with coupling pieces integral with the respective pivoting 
levers; said cross piece is guided at both respective ends in the plane of 
movement of the armature and in a parallel plane in which the coupling 
pieces are situated; these latter are parallel to the pivoting axis of the 
levers and perpendicular to the movement; the grooves are adapted so as to 
allow relative movement of the coupling pieces perpendicular to the guide 
planes and the cross piece bears on said parallel plane through balls.

DESCRIPTION OF THE PREFERRED EMBODIMENTS 
In FIGS. 1 and 2 a circuit breaker is shown comprising, housed in an 
insulating molded case 2, a force accumulating mechanism 3, current 
detector devices 7, switching devices 11, a single electromagnet 19 and, 
housed in a case 30 molded on case 2, electronic circuits (symbolized by a 
transistor 31) adapted for delivering to the coil 21 of electromagnet 19 
high attraction currents and a more reduced holding current, in response 
to a control signal applied to two terminals 32-33. 
The force accumulator mechanism 3, of a type known per se, comprises an 
actuating link 4, an accumulator spring 60, a latch 5 and a setting handle 
6 for setting this mechanism or tripping it. 
The current detector devices 7, equal in number to that of the phases 
(three in the example shown) each comprise, in a way known per se, a 
bimetallic strip 8 and a magnetic device 9 which are adapted to react to 
extended current overloads and, respectively, to high intensity currents 
such as those of short circuits, for moving a rocking assembly 10 on which 
latch 5 bears; this device 7 is connected to an output terminal 14. 
The switch devices 11, equal in number to that of the phases, each 
comprise, in a way known per se, a mobile pivoting contact 12 connected 
electrically by a braided connection 13 to the corresponding monitoring 
device 7 and mechanically to the link 4, as well as a retractable pivoting 
contact 15 which is connected by a braided connection 16 to an output 
terminal 27. 
Contact 15 is fixed during tripping of the circuit breaker and is only 
moved when it is desired to cause remote controlled opening of the 
circuit, as was explained above. 
The arc chambers 17, equal in number to that of the phases are each 
provided, in a way known per se, with fins 18 for splitting up the arcs 
appearing when the switch device opens. 
A multiple rake 23 connects the armature 22 of the electromagnet 19 to 
respective connecting members integral with the respective contacts such 
as 15. 
These connecting members are formed by pins such as 24 integral with the 
respective levers 15. Each pin is engaged at its ends in two coupling 
grooves 38-39, perpendicular to the plane II--II. 
Rake 23 comprises a cross piece 40 and two legs 34-35 (FIG. 1). 
The cross piece 40 is guided in translational movement between two surfaces 
41 and 42 parallel to the plane II--II. The surface 41 belongs to case 2, 
whereas the surface 42 belongs to the case 30. 
The cross piece 40 bears against the surface 41 through balls such as 61 
placed in housings 62 in the cross piece 40 (FIG. 4). The grooves 38-39 
are formed in fork joints with which the cross piece is provided and are 
situated at the level of surface 41, so that pin 24 is substantially 
offset with respect to the plane II--II. 
The mobile armature 22 comprises (FIG. 1) a cross piece 45, two legs 46-47 
and a cylindrical core 48 coated with a layer of antifriction material. 
Core 48 slides in a cylindrical mating socket 50 fixed in a cross piece of 
the fixed yoke 20 which itself comprises two arms 52-53 cooperating 
magnetically with legs 46-47. 
It can be seen in FIG. 1 that the legs 34-35 of the rake surround the 
mobile armature 22 and are hitched thereto by means of pivot screws 36-37. 
It will be noted that case 30 is held in position by the bottom lid 43 of 
case 2. This lid 43 also serves for holding the yoke 20 in grooves in case 
2. 
The bottom 54 of socket 50 (FIG. 3) is pierced with one or more holes 55 
for allowing the air trapped between this bottom and core 48 to escape 
while playing the role of pneumatic damper; a resilient washer 56 placed 
coaxially with the core in a housing 57 formed at the end 58 thereof, 
completes the damping of the movement of the armature and thus avoids 
shocks which might otherwise cause the latch 5 and the rocking assembly 10 
represented on FIG. 2 to separate, which are extremely sensitive. 
Dividing walls such as 63 isolate the retractable contact levers from the 
electromagnet. 
Tripping of the circuit breaker under the effect of a current overload or a 
short circuit is provided conventionally by the action of the current 
monitoring devices and consists in opening the mobile contact 12. 
The retractable contact 11 pivots about a fixed pin 120 integral with case 
2 and parallel to pin 24, when it is actuated by a movement of the 
armature 20 in response to the control signal applied to the terminals 
32-33. This movement communicates to legs 34--35 a rectilinear movement 
contained in the plane II--II. 
Since the cross piece 40 is guided between two surfaces parallel to the 
plane II--II, the movement of the grooves is itself a translational 
movement parallel to said plane, so that pin 24, which describes an arc of 
a circle, must move with respect to the bottom of the grooves 
perpendicularly to said plane. 
A slight movement of legs 34-35 about their fixing pin to the armature 
compensates for a possible strict non parallelism between the plane of 
movement of the armature and the guide plane 42 guiding the face of the 
cross piece distant from the grooves. On the other hand, since the 
reaction of contact 15 when it pivots in an anticlockwise direction on 
opening is exerted in a direction tending to cause cross piece 40 to rock 
in a clockwise direction, it is at the level of the guide plane 41 of the 
other face of the cross piece that there is a risk of binding. The balls 
61 overcome this risk. 
It will be noted that the arrangement of the rake with respect to the 
electromagnet allows a particularly compact construction of the remote 
control assembly. 
It goes without saying that different modifications may be made by a man 
skilled in the art to the embodiments described without departing from the 
scope and spirit of the invention.