FR2746957A1 - CONTROL MECHANISM OF A CIRCUIT BREAKER WITH WIDE OPENING ANGLE - Google Patents

Abstract

An operating mechanism for a miniature circuit breaker comprises a rotary drive plate (16) for the mobile contact arm (12), a tripping lever (18) for automatic interruption in the event of a fault, and a handle (20) with manual actuation. To improve the insulation distance and the dielectric strength, the plate (16) is equipped with a drive stop (70) separated respectively from the axis (42) of the contact arm (12) by a first radius ( R1), and of the pivot (14) by a second spoke (R2), the difference in length of the spokes (R1, R2) allowing an amplified opening angle beta of the contact arm (12), which is greater than the travel angular alpha of the plate (16).

Description

WIDE ANGLE BREAKER CONTROL MECHANISM

OPENING

  The invention relates to a control mechanism for an electric circuit breaker, with an insulating housing containing a pair of fixed and movable contacts, said movable contact being carried by a contact arm actuated between the closed position and the open position. by the mechanism, which comprises: - a lever fitted with a first means of transmitting position and / or control information, - a plate for driving a lever for supporting the contact arm, said plate being rotatably mounted on a pivot to define a first angular travel a, - a breakable mechanical link arranged between the plate and a link coupled to the lever, said link being controlled by a trigger lever controlled by a trigger member to cause in case of fault, the rupture of the mechanical link causing the automatic triggering of the mechanism, - and a second transmission means arranged on the trigger lever for

  transmit energy and / or control information.

  A mechanism of a circuit breaker D of the prior art is illustrated in Figures I to 3.

  The mechanism 10 comprises a support lever 11 of the movable contact arm 12 which is articulated on the pivot 14 of the rotary drive plate 16. The trigger lever

  18 is also articulated on the plate 16, but on an axis offset with respect to the pivot 14.

  The connecting rod between the lever 20 and the hook for hooking the plate 16 is not shown for reasons of clarity. The lever 20 and the trigger lever 18 respectively comprise a first transmission means 22 and a second transmission means 24 capable of transmitting information to the auxiliary modules A

position and energy.

  The auxiliary modules A can be tripping or signaling modules, which are adaptable to a large lateral face of the case 26 of the circuit breaker D. In FIG. 2, the first transmission means 22 of the handle 20 of the circuit breaker D is mechanically connected to the lever 28 of the auxiliary module A by a first control link 30. The second transmission moven 24 is mechanically connected to the auxiliary A by a second control link 32. The first control link 30 is used to transmit a signal d 'closed or open state from circuit breaker D to auxiliary A when the latter consists of an OF signaling module. The second bidirectional control link 32 serves in one direction to transmit a signal indicating that the circuit-breaker D has tripped towards the auxiliary A when the latter is constituted by a fault signaling module SD, or to transmit in the opposite direction a signal from trip command from auxiliary module A, for example a differential protection block, to circuit breaker D.

  The operation of such a mechanism is described in detail in document EP-A-295,158.

  When the contacts 34, 36 are separated, a stop 38 of the rotary plate 16 causes the

  support lever 11 anti-clockwise around pivot 14.

  In the open position (Figure 3), the opening angle a of the movable contact arm 12 corresponds substantially to the angular travel of the plate 16 after taking up the play between

  S5 the stop 38 and the support lever 11.

  To preserve the use of the same auxiliary modules A, it is imperative when extending a range of circuit breakers, to respect the positioning and the angular movement of the transmission means 22, 24 in the different operating states, in particular closed , open, triggered. If the articulation of the support lever 11 on the pivot 14 of the plate 16 is maintained, the opening angle at of the movable contact 12 will remain constant. The dielectric strength of such a circuit breaker being directly proportional to the separation distance of the contacts 34, 36 in the open state, would therefore be found

  insufficient for a large gauge device.

  The object of the invention is to provide a circuit breaker mechanism having improved dielectric strength without modifying the kinematics of the transmission means for adapting the auxiliary modules, and independently of the operating mode.

manual or automatic.

  The mechanism according to the invention is characterized in that the pivot axis of the contact arm is integral with the housing and passes through an opening of the plate with a predetermined offset with respect to the pivot, and that the plate has a stop 70 of drive separated respectively from the axis of the contact arm by a first radius (R1), and from the pivot by a second radius (R2), the difference in length of the spokes (RI1, R2) allowing an opening angle f amplified contact arm, which is greater than the angular stroke cc

of the turntable.

  The differential displacement between the contact arm and the plate due to the offset of the axis o of pivoting of the arm allows to increase the isolation distance without modifying the stroke

  angle of the plate which remains suitable for the placement of standard auxiliaries.

  According to a characteristic of the invention, the opening for the axis to pass through the plate has an oblong shape, so as to exert a leverage effect on the contact arm

  i5 in the direction of contact separation.

  By tilting the opening of the plate in a predetermined direction, it is possible

  generate a sliding effect for self-cleaning of the contacts.

  Other advantages and characteristics will emerge more clearly from the description which follows.

  follow of an embodiment given by way of nonlimiting example, and shown in the accompanying drawings in which: - Figure 1 is a schematic elevation view of a circuit breaker mechanism of the prior art, the contacts being shown in the closed state, - Figure 2 shows, on a reduced scale, the association of the circuit breaker of Figure 1 with an auxiliary module, in particular tripping or signaling, - Figure 3 is an identical view of the figure 1, with the contacts shown in the open state, - Figure 4 is a vertical sectional view of the control mechanism according to the invention, - Figures 5 and 6 show respectively sectional views along lines 5-5 and 6-6 of Figure 4, the mechanism being shown in the closed state of the contacts, - Figure 7 is an identical view of Figure 6, the mechanism being shown in the open state of the contacts, - Figure 8 is a schematic view of the selo mechanism n FIG. 6, after an attempt to open manually following a survey of the contacts,

  - Figure 9 is an identical view or Figure 8 showing an alternative embodiment.

  With reference to FIGS. 4 to 7, the same reference numbers will be used to designate parts identical to those of the mechanism of FIGS. 1 to 3. The mechanism 40 is provided with a movable contact arm 12 with a wide opening angle 13 obtained thanks to a decentralization of

  the axis 42 of the contact arm 12 relative to the pivot 14 of the drive plate 16.

  The double plain 16 is constituted by a pair of elements 16a, 16b each having a pivot 14 engaged in a bearing 44a, 44b of the insulating housing 46. The trigger lever 18 is pivotally mounted on an axis 48 of the plate 16, and cooperates with a

  tripping member 50 controlled by a pallet 52 of the electromagnetic trip device 54.

  The second transmission means 24 is arranged on the trigger lever 18, which is intended, when a fault occurs, to interrupt the mechanical connection between the plate 16 and the link 56 coupled to the lever 20. This connection mechanical takes place

  by means of a hooking hook 58 articulated on an axis 60 of the plate 16.

  The pivot axis 42 of the movable contact arm 12 passes through an oblong opening 62 of

  the plate 16, and is supported in bearings formed in the opposite faces of the housing 46.

  The opening 62 of each element 16a. 16b of the plate 16 is offset relative to the pivot 14, and to the axis 48 of articulation, the pivot 14 being located between the pivot axis 42 of the

  contact arm 12, and the movable contact 36.

  A first spring 64 for actuating the plate 16 towards the open position, comprises a torsion spring surrounding the pivot 14. One of the end strands of the spring 64 bears on the plate 16, and the strand d the opposite end is in engagement with a fixed abutment of the housing 46. A second spring 66 for the contact pressure is arranged on a projection 68 of the support lever 11 surrounding the pivot axis 42. This spring 66 allows movement relative pivot between the plate 16 and the support lever 11, and biases the latter towards the closed position to ensure contact pressure

  predetermined with the fixed contact 34.

  The plate 16 is equipped with a drive stop 70 intended to come into engagement against a bearing surface 72 of the support lever 11 to move it towards the open position. The radius R1 formed between the axis 42 of the contact arm 12 and the drive stop 70 is less than the radius R2 between the pivot 14 of the plate 16 and the same

stop 70.

  The separation of the contacts 34, 36 takes place following a displacement of the plate 16 towards the open position, which can intervene manually by the intervention of the

  lever 20, or automatically, following tripping after detection of a fault.

  In both cases, the drive stop 70 approaches the support surface 72 of the support lever 11, and drives the latter counterclockwise until the

  open position of contacts 34, 36 (Figure 7).

  The difference in length of the radii R1 and R2 conditions an amplified opening angle m of the contact arm 12, while the plate 16 performs a standard pivoting movement whose stroke ct corresponds to that of FIG. 3. The effect of amplification of the opening movement of the contact arm 12 makes it possible to obtain a greater isolation distance, while the angle of rotation a of the plate 16 remains adapted to the kinematics of the transmission means 22. 24 at the level lever 26 and the lever

trigger 18.

  With reference to FIG. 8, during an attempt to open by the lever 20, the housing of the axis 42 in the oblong opening 62 of the plate 16 causes a lever effect exerted on the movable contact arm 12, likely to cause tearing of the contacts 34, 36 from a state of welding of the latter at point S. The pivot axis 42 is normally biased by the spring 66 towards the right end of the oblong opening 62 . From a state of welding of the contacts 34, 36, the movement of the lever 20 towards the open position causes a slight lifting movement of the contact arm 12, and the movement to the left of the axis 42 in opening 62, at

  from the initial position O to a first position 1.

  According to the variant of FIG. 9, the inclination of the opening 62 makes it possible to obtain, in addition to the leverage, an additional shearing effect at the level of the weld S, following the displacement of the axis 42 of the initial position 0 to a second position 2. This shearing effect also causes the movable contact 36 to slip with the contact

  fixed 34, allowing self-cleaning of the contacts.

Claims (4)

  1.- Control mechanism of an electrical circuit breaker, with insulating housing (46) containing a pair of fixed (34) and movable (36) contacts, said movable contact being carried by a contact arm (12) actuated between the position closing and the opening position by the mechanism (40), which comprises: - a lever (20) equipped with a first means of transmission (22) of position and / or control information, - a plate (16) for driving a support lever (11) of the contact arm (12), said plate (16) being rotatably mounted on a pivot (14) to define a first angular travel ca, - a mechanical connection breakable arranged between the plate (16) and a link (56) coupled to the handle (20), said connection being controlled by a trigger lever (18) controlled by a trigger member to cause in the event of a fault, the rupture of the mechanical connection causing the automatic triggering of the mechanism (40), - and one two th transmission means (24) arranged on the trigger lever (18) for transmitting energy and / or control information, characterized in that the pivot arm (42) of the contact arm (12) is integral of the housing (46) and passes through an opening (62) of the plate (16) with a predetermined offset relative to the pivot (14), and that the plate (16) is provided with a drive stop 70 separate from the axis (42) of the contact arm (12) by a first radius (R1), and of the pivot (14) by a second radius (R2), the difference in length of the spokes (R1, R2) allowing an angle d amplified opening 3 of the   contact (12), which is greater than the angular travel a of the plate (16).   2.-control mechanism according to claim 1, characterized in that the opening (62) for the passage of the axis (42) through the plate (16) has an oblong shape, so as to exert a leverage effect on the contact arm (12) in the direction of separation of contacts 34, 36.   3. Control mechanism according to claim 2, characterized in that the opening (62) in the plate (16) is inclined in a predetermined direction, allowing an effect of   additional shear suitable for self-cleaning of contacts.   4.- control mechanism according to one of claims 1 to 3, characterized in that the   pivot (14) of the plate (16) is located between the pivot axis (42) of the contact arm (12) and the movable contact (36), and that the axis 48 of articulation of the lever   trigger (18) is arranged on the plate (16).