FR2580115A1 - Electrical circuit breaker with wear compensation device - Google Patents

Abstract

An electrical circuit breaker of high intensity is equipped with a wear compensation device for the arc contacts 34. This compensation device makes it possible to keep the dead stroke "l" idle travel allowed for in the actuation mechanism of the arc contacts 34 constant in order to ensure delayed opening of these arc contacts with respect to the main contacts. During an idle travel "l" less than a predetermined value, a torsion spring 94 causes the rotation of a screw 54, 56 restoring the required distance.

Description

 ELECTRIC CIRCUIT BREAKER WITH WEAR RETRACTING DEVICE.

The invention relates to a low-voltage electrical circuit breaker with quick disconnection, in particular for the effect of limiting a short-circuit current comprising: - a main circuit for the passage of permanent current provided with separable main contacts, - a circuit for arc connected in parallel with the main circuit and provided with arcing contacts, - an actuating device with a propulsion element actuating the movable main contact and the movable arcing contact and having a dead stroke for successive opening of the main contacts and arcing contacts.

A high-current low-voltage electric circuit breaker generally comprises arcing contacts allowing a separation of the functions of conduction of the permanent current> ensured by the main contacts and the breaking function ensured by the arcing contacts. This separation avoids any wear of the main contacts due to the action of the arc. It is essential that the opening of the arcing contacts occurs after that of the main contacts to allow switching of the current on the arc circuit. This delay in opening is generally achieved by a dead stroke of the mechanism. actuation of the arcing contacts and it has been noted that the wear of the arcing contacts modifies the value of this dead travel, possibly even canceling it by causing the simultaneous opening of the arcing contacts and of the main contacts. This malfunction causes rapid wear of the main contacts and destruction of the device. In high-current circuit breakers, a replacement of the arcing contacts occurs after a limited number of outages and monitoring of the wear of the arcing contacts is essential.

The present invention aims to allow the realization of a circuit breaker whose revisions and in particular the replacement of arcing contacts are less frequent.

The circuit breaker according to the invention is characterized in that the actuating device comprises an automatic wear adjustment device to maintain said dead travel at a constant value independently of the wear of the arcing contacts.

The automatic take-up device makes it possible to preserve the value of the dead travel and to cause the opening of the arcing contacts after the separation of the main contacts1 whatever the wear or the state of the arcing contacts. This ensures an opening without arc of the main contacts avoiding any degradation of the latter. The invention is particularly suitable for high intensity circuit breakers with rapid opening by an actuating device with electrodynamic effect, in particular with Thomson effect, of the type described in French patents 2 333 337, 2 333 339 and 2 357 048.

The wear take-up device comprises an adjusting screw, the nut of which is rotated by a torsion spring, this rotation being normally pocketed by a notched lock. In the event of wear of the arcing contacts, the prolonged stroke of closing of the arcing contacts causes disengagement of the locking notches, allowing a rotation of the nut of the screw connection by an amount sufficient to be restored. the value of the dead stroke. This adjustment takes place at each closing operation of the circuit breaker and it ensures the presence of a dead travel sufficient for the successive opening operation of the circuit breaker.

Other advantages and characteristics will emerge more clearly from the description which follows of an embodiment of the invention given by way of nonlimiting example and represented in the appended drawings in which - FIG. 1 is a schematic view of a circuit breaker according to the invention; - Figure 2 is a partial axial sectional view of an embodiment of the circuit breaker according to Figure 1; - Figure 3 is an exploded view of the take-up device illustrated in Figure 2; - Figures 4,5,6 and 7 are sectional views of the wear take-up device shown respectively in the closed position, in the open position, in the intermediate wear take-up position and in the final position. prote of an electric switch with rapid cut-off comprises a main circuit 10 for the passage of the permanent current provided with a main movable contact 12, in the form of a contact bridge, cooperating with fixed contacts 14, 16. The circuit breaker may comprise a series of main contacts connected in parallel according to the size of the circuit breaker, all of the movable contacts 12 being controlled by an electrodynamic propulsion element with Thomson effect 18 which includes a disc 20, has a coil 22 capable of being fueled by the discharge of a capacitor 24. The disc 20 is deemed by electrodynamic propulsion against a return spring 26 in the direction of opening of the main contacts 12, 14, 16.

An arcing circuit 30 is connected in parallel with the main solen circuit comprising an arcing contact bridge 34 cooperating with a pair of fixed arcing contacts 36, 38. Pushers 32 transmit the opening movement of the main movable contact 12; a movable assembly 40 comprising the movable arcing contact 34. Between the end of the pushers 32 and the movable page 40, a dead stroke "L" is formed, delaying the opening of the arcing contacts relative to that of the main contacts 12, 14, 16. Return springs 42 urge the movable arcing contact 34 in the closed position.

Such a circuit breaker is described in detail in the aforementioned French patents and it suffices to briefly recall its operation. A command to open the circuit breaker is triggered by the closing of a contact which causes the discharge of the capacitor 24 in the coil 22. The disc 20 is repelled by the Thomson effect and it causes in its movement The movable main contact 12 causing the opening of the main circuit 10. In a first stage, the current switches to the arcing circuit 30 o The arcing contacts 34, 36, 38 being still closed.

The pushers 32 accompany the movable main contact 12 in its movement and after the travel of the dead stroke "l", these pushers 32 actuate the movable assembly 40 to open the arcing contacts 34, 36, 38. This opening occurs after that main contacts 12, 14, 16, the cutting arc being drawn on the arcing contacts 34, 36, 38. A locking device 44 can keep the movable contacts 12, 34 in the open position, a control of closing of the circuit breaker being effected by simply unlocking the device 44.

With particular reference to FIGS. 2 to 6, it can be seen that the movable arc contact bridge 34 is secured to a plate 46 carrying four spacer rods 48 which extend parallel to the direction of movement of the movable contacts 12, 34. The iquatre spacer rods 48 are subjected to the action of return springs 42 bearing respectively on the frame 50 of the circuit breaker and on plates 52 connecting the spacers 48 two by two. The movable arcing contact 34 further carries a screw 54, extending along the axis of movement and screwed into a threaded part forming a nut of a driving member 56. The driving member 56 carries a rod 58 having a flat 60 and a threaded end 62. On the side opposite to the rod 58, the drive member 56 carries a collar 64 for fixing an actuating part 66 using a nut 68. The nut 68 secures the actuating part 66 to the driving member 56 while allowing relative rotation. The actuating part 66 in the form of a plate parallel to the plate 46 has ends inserted between the spacers 48 which immobilize the actuating part 66 in rotation while allowing sliding up or down in the figures. The pushers 32 pass through orifices 70 formed in the plate 46 and cooperate with the actuating part 66. In the closed position of the circuit breaker, the pushers 32 are separated from
The actuating part 66 by a distance "l" corresponding to the dead stroke for actuating the arcing contacts. When an opening command is given, the pushers 32 are moved upwards and after crossing the distance "e" strike the actuating part 66 which pushes the drive member 56 upwards. The movable arcing contact 34, secured by the screw connection 54, accompanies the actuating part 66 in its movement by separating from the fixed arcing contacts 36, 38. During a closing circuit breaker operation, controlled by unlocking the device 44, the return springs 42v which have been compressed by the opening operation of the contacts, pushing, by means of the spacers 48, the plate 46 and the movable arcing contact 34 downwards in the closed position .This movement is transmitted by the screw 54 to the driving member 56 and to the actuating part 66 which is integral in translation by the nut connection 68.. IT is easy to see that a rotation of the driving member 56 causes a screwing or unscrewing of the screw 54 and a variation of the distance between the actuating part 66 and the movable arcing contact 34. In the closed position of the circuit breaker, the movable arcing contact 34 is in support fixed arcing contacts 36, 38 which define its position. By rotation of the driving member 56, the position of the actuating part 66 and more particularly the distance "I" separating it from the pushers 32 can be adjusted independently of the position of the movable arcing contact 34. This possibility of adjustment by rotation of the driving member 56 allows compensation for the wear of the arcing contacts 34, 36, 38 in
the occurrence of maintaining the dead travel "l" at a constant value regardless of the state of wear of the arcing contacts.

This wear adjustment or take-up is carried out automatically by a take-up mechanism designated by the general reference 72 and described below: the rod 58 with a flat surface 60 passes through an orifice 74 of conjugate shape made in a driving disc 76.

Between a driving member 56 and the disc 76 is interposed a compression spring 78, the disc 76 extinguished retained by a nut 80 screwed with the interposition of a washer 82 on
The threaded end 62 of the rod 58. The nut 80 slides freely in a sleeve 84 carrying a fixing flange 86 to the frame 50 of the circuit breaker. The sleeve 84 has a bearing face 88 facing the drive disc 76, the two facing faces 76, 88 carrying notches 90, 92 of conjugate shape of which only three are shown in FIG. 3.

A torsion spring 94 cooperates on the one hand with the flange 86 and on the other hand with a collar 96 soLidary of the drive disc 76. The torsion spring 94 biases the drive disc 76 in rotation in the unscrewing direction of the driving member 56 on the screw 54.

The flange 86 is fixed to the frame 50 by fixing screws 98 and positioning screws 100.

The wear take-up device operates as follows - in the closed position of the circuit breaker, shown in FIG. 4, the return springs 42 ensure, through the support plate 46, the contact pressure of the arcing contacts 34, 36, 38. The main contacts 12, 14, 16 are held by springs not shown in the closed position. The actuating part 66 is placed at a distance "I" from the end of the pushers 32 to define a dead stroke of the latter. The drive disc 76 is in support of the fixed face 88 and the notches 90, 92 prevent the rotation of the drive disc 76 under the action of the torsion spring 94 bandaged. The pushers 32 strike the actuating part 66 by moving upwards The mobile assembly constituted by the plate 46, the movable arcing contact 34, the driving member 56 with its nut 80. This movement is authorized by compression of the spring 78 and the free sliding of the nut 80 inside the sleeve 84. During a closing circuit breaker maneuver, the pushers 32 move downwards, the return springs 42 bringing the movable element back into the original position shown at. Figure 4. In the case of wear of the arcing contacts 34, 36, 38, the movable arcing contact 34 continues its travel until the abutment of the fixed arcing contacts 36, 38.L the moving part accompanies the moving arcing contact 34 in its pursuit travel, in the position shown in FIG. 6. This continued movement generates, on the one hand, a reduction in the dead stroke "l" and, on the other hand, a displacement of the entrainment disc 76 by the washer 82, nut 80 assembly. The separation distance from the drive disc 76 of the bearing face 88 corresponds to the reduction of the distance "l". This position is an intermediate position, the separation of the drive disc 76 from the bearing face 88 causing disengagement of the notches 90, 92. The drive disc 76 thus released, is rotated by the torsion spring 94 and this rotational movement is transmitted by the rod 58 to the driving member 56 which unscrews from the screw 54. It is easy to see that this unscrewing is accompanied by an upward translational movement in the figures of the assembly constituted by the drive part 66, the drive member 56 and the drive disk 76. This movement continues until the bearing disk 76 comes to bear on the bearing face 88 and the engagement notches 90, 92. It is understood that this unscrewing displaces the driving part 66 upwards at a distance "t" from the end of the pushers 32, which restores your dead travel defining the delay at opening of the arcing contacts 34, 36, 38 relative to that of the main contacts pins 12, 14, 16. It should be noted that the wear take-up device 72 only intervenes in the event of wear of the arcing contacts 34, 36, 38, this intervention taking place during the maneuver. closing after wear of the contacts. The take-up is fully automatic and significant wear of the arcing contacts can be tolerated without significant modifications to the operation of the circuit breaker.

The invention is of course strictly limited to the mode of implementation more particularly described or to a circuit breaker with a Thomson effect actuator.

Claims (9)

1. Low-voltage electric circuit breaker with quick disconnection, in particular with the effect of limiting a short-circuit current comprising: - a main circuit (10) for the passage of the permanent current provided with separable main contacts (12, 14, 16), - an arcing circuit (30) connected in parallel with the main circuit (10) and provided with arcing contacts (34, 36, 38), - an actuating device (18) with propelling element (20) actuating The movable main contact (12) and the movable arcing contact (34) and having a dead travel ("I") for successive opening of the main contacts (12, 14, 16) and the arcing contacts (34, 36, 38) characterized in that the actuating device (18) comprises a device (72) for automatic wear compensation to maintain said dead travel ("i") at a constant value, independently of the wear of the contacts arc (34, 36, 38). 2. Circuit breaker according to claim 1, characterized in that the propulsion element is an actuator (20, 22) with electrodynamic effect, which rapidly displaces a pusher for an opening control of the circuit breaker, said pusher acting directly on the contacts main (12, 14, 16) and via a kinematic chain with dead travel (tu $) predetermined on the arcing contacts (32, 34, 36). 3. Circuit breaker according to claim 1 or 2, characterized in that the take-up device (72) comprises a connection between a support (46) of the movable arcing contact (34) and an actuating part (66), said link being provided with an adjusting screw (54, 56) for adjusting the relative position of the actuating part (66) and of said support (46) and keeping said dead travel ("I") constant. 4. Circuit breaker according to claim 3, characterized in that the part (56) of the adjustment screw (54, 56) associated with the actuating part (66) is integral in rotation with a drive disc (76 ) biased in rotation by a spring (94), said drive disc (76) cooperating with a means (90, 92) for locking in rotation, as long as said dead travel ("l") remains constant. 5. Circuit breaker according to claim 4, characterized in that said part of the adjusting screw (54,56) is solid with a rod (58) extending in the direction of movement of the actuating part (66) , said rod (58) cooperating with the centering disc (76) to allow sliding, unidirectionally limited by a stop <80) and to secure in rotation the rod (58) and the drive disc (76) and that Said stop (80) moves the drive disc (76) to release it from the locking means (90,92) When said dead travel ("I") is less than said constant value, the drive disc (76) released rotating under the action of the spring (94) by adjusting the adjusting screw (54, 56) to restore said constant value of the dead travel ("I"). 6. Circuit breaker according to claim 5, characterized in that said locking means comprises notches (90; 92) carried respectively by the drive disc (76) and by a fixed part (88) against which the disc is resiliently biased drive (76) and that said rod (58) slides in a direction of disengagement of said notches to release the drive disc (76) by the action of said stop (80) during a closing operation . 7. A circuit breaker according to claim 4, 5 or 6, characterized in that it ccmporte a spring (94) of torsion, interposed between the drive disc (76) and the part. fixed (88) to rotate the drive disc (76) as soon as the notches (90, 92) carried by the fixed part (88) and the drive disc (76) are disengaged. 8. Circuit breaker according to claim 7, characterized in that the support (46) of the movable arcing contact (34) carries a screw (54) extending in the opening direction of the arcing contacts (34, 36 , 38) and on which is screwed the driving member (56) forming a nut which carries a rod (58) coaxial with said visque the drive disc (76) in the form of a cup is threaded and secured in rotation with the rod (58) by a flat (60), that the face of La coupeLle, opposite the nut (56) is biased by a spring (78), interposed between the nut (56) and the cup g76), against a face (88) of fixed support with a notched interface 590, 92) and that the end (12) of the rod (58) carries a stop arranged in nut (80) of adjustment, which cooperates with said opposite face of the cup (76) to separate the latter from your face (80) of fixed support for a wear take-up operation. 9. Circuit breaker according to any one of the preceding claims, characterized in that the automatic take-up takes place at each closing operation of the circuit breaker by action of an adjustment screw (54, 56) which compensates for the variation of the stroke due to L 'wear of the arcing contacts (34, 36, 38).