FR2980910A1 - Tripping device for control mechanism of electric circuit breaker, has movable actuator including magnetic region with two magnetic attracting surfaces creating driving force of attraction to move actuator in direction of magnetic yoke - Google Patents

Abstract

The device (34) has a magnetic circuit equipped with a movable actuator (40) having a magnetic region for interacting with a magnetic yoke (50) in a closed position to cause movement of an actuating plunger (48) causing tripping of a control mechanism (18) when an electrical current exceeds a threshold. The magnetic region includes two magnetic attracting surfaces (41, 42) acting independently from one another for creating a driving force of attraction to move the movable actuator in a direction of the magnetic yoke. An independent claim is also included for a circuit breaker.

Description

The invention relates to a tripping device intended to be associated with a control mechanism of an electric circuit breaker. The device comprises a magnetic circuit equipped with movable actuating means comprising a magnetic zone intended to interact with a magnetic yoke in a closed position to cause the displacement of an actuating pusher causing a triggering of the control mechanism when a current electric exceeds a threshold. The invention also relates to an electric circuit breaker comprising at least one movable contact intended to collaborate with a fixed contact as well as a mechanism for driving the movable contact from an open position to a closed position.

STATE OF THE ART As described in the patent applications (FR 2772981), tripping devices for a circuit breaker comprise a magnetic actuator having a magnetic pallet able to move under the action of a magnetic flux created at the time of the passage of time. an electric current of short circuit.

The magnetic actuator further comprises yokes and an armature assembled in the form of H. On one side of the branches of the H, the end of the yokes is bent to grip the movable contact; on the other side is a moving palette. The basic principle is to create a magnetic flux through this circuit.

For short-circuit currents of low intensity, especially for currents whose intensity is less than 3500 A, the magnetic paddle driven in closing on the cylinder heads actuates the movable contact by means of a pusher.

To have an effective cut at all levels of short-circuit currents, the opening of the contacts must be quick and straightforward. The value chosen for the gap between the pallet and the cylinder head is a compromise between the need to have a sufficient companion race and that of having sufficient magnetic force. To try to answer to these specifications, a semi-enveloping pallet is used and has the peculiarity of developing a greater magnetic force to large gaps. Known actuators have the disadvantage of having a contact opening speed that is too slow for currents of relatively low intensity, in particular for currents between 15 and 22 In. This slow opening may involve a risk of contact welding. In addition, a greater race of accompaniment of the contact would be desirable for a good quality of cut. SUMMARY OF THE INVENTION The invention therefore aims to remedy the disadvantages of the state of the art, so as to provide a tripping device for circuit breaker having the trigger threshold adapted to a wide range of electrical fault current. The magnetic zone of the device according to the invention comprises a first plane magnetic attraction surface and a second concave magnetic attraction surface; said first and second attraction surfaces acting independently of each other respectively creating a driving force of attraction for moving the actuating means movable towards the magnetic yoke. Preferably, in the closed position of the movable actuating means, the first attraction surface collaborates with a planar surface of the magnetic yoke and the second attraction surface cooperates with a convex surface of said yoke. Advantageously, the second attraction surface comprises at least two magnetic planes.

According to a first embodiment, the mobile actuating means comprise a movable pallet on which are positioned the first and the second attraction surface. Advantageously, the movable pallet is pivotally mounted on an axis.

According to a first embodiment, the mobile actuating means comprise a first movable pallet on which is positioned the first flat attraction surface and comprise a second movable pallet on which is positioned the second concave attraction surface. Preferably, the first and second movable vanes are respectively pivotally mounted on an axis. Advantageously, the first and second movable pallets are respectively pivotally mounted on the same axis. According to a particular embodiment, the magnetic circuit has: a magnetic yoke having two magnetic flanges connected by a magnetic core to form an H-shaped structure, - an inductor wound around the core having a first end intended to be connected to an electrical conductor connected to a connection pad and a second end to be connected to the fixed contact of a switchgear. The electric circuit breaker according to the invention comprises a tripping device as defined above, the movable actuating means of said device acting on the actuating mechanism of the circuit breaker by means of the actuating pusher. BRIEF DESCRIPTION OF THE FIGURES Other advantages and features will emerge more clearly from the following description of a particular embodiment of the invention, given by way of nonlimiting example, and represented in the appended drawings in which: Figure 1 shows a sectional view of a circuit breaker comprising a tripping device according to the invention; - Figure 2 shows a block diagram, actuating means in two operating positions, a tripping device according to a first embodiment; FIG. 3 represents a detail view, in an open position, of a triggering device according to FIG. 2; FIG. 4 represents a detail view in perspective, in an open position, of a triggering device according to FIG. 2; FIGS. 5A, 5B, 5C and 5D show detailed views of the actuating means of the trigger device according to FIG. 2 in different operating positions; - Figure 6 shows a block diagram, actuating means in two operating positions, a tripping device according to a second embodiment; FIG. 7 shows a detailed view, in an open position, of a triggering device according to the second embodiment of FIG. 6; FIG. 8 represents a detailed perspective view, in an open position, of FIG. a triggering device according to FIG. 6; FIGS. 9A, 9B, 9C, 9D and 9E show detailed views of the actuating means according to FIG. 6 in different operating positions; - Figure 10 shows the curves of the magnetic force of the actuating means according to the operating positions of a tripping device according to the first and second embodiments. DETAILED DESCRIPTION OF AN EMBODIMENT The invention relates to a triggering device 34 associated with a control mechanism 18 of an electric circuit breaker 10. As shown in FIG. 1, the circuit breaker 10 according to the invention is housed in a housing 30. in a housing 11 of molded insulating material. Said circuit breaker comprises a fixed contact 12, a movable contact 14 carried by a pivoting contact arm 16, a control mechanism 18 associated with a manual operating lever 20 and automatic fault triggering means, and a control chamber. extinguishing 22 to deionization plates 24 to extinguish the arc drawn between the contacts 12, 14 during their separation.

The control mechanism 18 is for example of the type described in EP-A295 158. Said mechanism as shown in Figures 4 and 8, and comprises a trigger lever 26 cooperating with a latching lever 28 connected to the controller 20 by a transmission rod 30. The contact arm 16 is carried by a plate 32 movable to rotate between a closed position and an open position of the contacts 12, 14. The trigger device 34 comprises an actuating pusher 48 for acting on a control mechanism 18 of the circuit breaker. The triggering device comprises a magnetic circuit equipped with movable actuating means 40. The mobile actuating means 40 comprise a magnetic zone 41, 42 intended to interact with a magnetic yoke 50 in a closed position to cause the movement of the pusher actuator 48 causing a triggering of the control mechanism 18 when the electric current exceeds a threshold. In an open position of the trigger device 34, the magnetic zone 41, 42 of the mobile actuating means 40 is separated from the magnetic yoke 50 by an air gap 45. According to one particular embodiment, the magnetic yoke 50 comprises two magnetic flanges 51 connected by a magnetic core 52 to form on an H-shaped structure. An inductor 53 is wound around the core 52. A first end of the inductor is connected to an electrical conductor 44 connected to a connection pad 43 and a second end is connected to the fixed contact 12. The operation of the tripping device according to the invention is as follows: In the absence of fault current in the main circuit of the circuit-breaker 10, for example during the passage of the nominal current , the driving forces of electromagnetic attraction in the air gap 45 are lower than the restoring forces of at least one threshold spring, which maintain the means movable actuating means 40 in the spaced apart position of the pole faces of the magnetic yoke 50. Said spring is associated with the movable actuating means 40 to define the magnetic threshold of the triggering device. The triggering device is in an inactive state. The passage of an electric current in a conductor 44 of the main circuit generates a magnetic field in the gap 45 of the magnetic circuit situated opposite the magnetic zone 41, 42 of the mobile actuating means 40. The appearance of a short-circuit current generates driving forces of attraction in the gap 45 which depend on the intensity of the short-circuit current. By way of example, the setting of the threshold spring is calculated so that the mobile actuating means 40 of the triggering device 34 remain inactive when the peak value of the current is lower than a triggering threshold. As an exemplary embodiment, the tripping threshold is less than 7.5 In. The passage in the inductor 53 of an electric current of sufficient intensity generates a driving force of attraction of the mobile actuating means. 40 which tend to move towards the magnetic yoke 50 and come into contact with the ends of the H-shaped structure. The trigger device 34 is then in a closed position. According to a particular embodiment, the mobile actuating means 40 are preferably preferably pivotally mounted on an axis 90. According to a preferred embodiment, the magnetic zone 41, 42 of the mobile actuating means 40 comprises a first embodiment. plane of attraction surface 41 and a second concave or enveloping magnetic attraction surface 42. Advantageously, in a closed position, said first attraction surface collaborates with a flat surface of the magnetic yoke and said second attraction surface collaborates with a convex surface of the magnetic yoke. In a particular embodiment, the second attraction surface 42 comprises at least two magnetic planes. In addition, the second attraction surface comprises at least two adjacent magnetic planes.

Said first and second attraction surfaces 41, 42 act independently of one another. The term "independently" means that the two attraction surfaces act and participate in the displacement of the movable actuating means 40. Indeed, a driving force of attraction is created at each attraction surface 41 42. As shown in FIG. 10, a first curve A represents the driving force of attraction generated at the level of the first flat attraction surface 41 as a function of the gap 45. In a conventional system, the driving force of the attraction available with movable actuating means 40 having only a flat attraction surface 41 is too weak and also too sensitive to the positional dispersion of said means for large air gaps. As shown in FIG. 10, a second curve B represents the driving force of magnetic attraction generated at the level of the second concave attraction surface 42 as a function of the gap 45. In a known conventional system, the driving force of attraction available with movable actuating means 40 having only a concave surface or enveloping shape is certainly sufficient to allow triggering at a fixed current level but does not allow a clear and rapid separation of contacts due to the weak growth of said force over time (avalanche effect not very noticeable).

The use of mobile actuating means 40 having a concave or wraparound surface also makes it possible to be less sensitive to a dispersion of position of said means. According to the embodiments of the invention, the mobile actuating means 40 have the particularity of a working gap shape association which makes it possible at the same time to have a driving force of attraction with a large air gap thanks to the concave or enveloping shape of the second attraction surface 42 and to preserve the avalanche effect during closure thanks to the flat shape of the first attraction surface 41. The first resulting curve AB_1 represents the driving force of attraction overall of all the actuating means 40 according to the invention. Thus, the overall force of attraction generated at the two attraction surfaces 41, 42 makes it possible in the first place to improve the opening of the contacts 12, 14 on a small short-circuit current by giving them an opening speed. higher thanks to a driving force of attraction more important to small gaps. Secondly, it also makes it possible to facilitate the adjustment of the magnetic curves (FIG. 10) by virtue of a greater attraction driving force to the large air gaps: the triggering device according to the invention then benefits from a wider adjustment range. In addition, the fact of using two attraction surfaces 41, 42 of different shapes favors the triggering at a fixed current, thanks to a driving force of significant attraction and not very sensitive to the dispersion of position of the actuating means. mobile 40, as well as a high closing speed at the end of movement of the contacts through a driving force of increasing attraction of the movable actuating means 40 throughout their stroke (large avalanche force). The law of variation of the overall attraction driving force can be adjusted at will between the law of variation of a single flat pallet and that of an enveloping pallet alone, by adjusting the surface ratio of the two parts. This law of variation can be further adjusted more finely by adjusting the wrapping angle and the thickness and / or the length of the enveloping part. According to a first preferred embodiment of the invention as represented in FIGS. 2 to 5, the mobile actuating means 40 comprise a movable pallet 400 on which the first and the second attraction surfaces 41, 42 are positioned. According to a particular embodiment, the pallet of the actuating means 400 is preferably pivotally mounted on an axis 90. The first preferred embodiment of the invention, described above, has limits. Indeed, the flow seen by the first attraction surface 41 is not completely independent of that seen by the second attraction surface 42 (and vice versa). Thus, a part of the flow seen by the second attraction surface 42 is consumed by the first attraction surface 41 (and vice versa). In addition, at the end of the stroke, the second enveloping attraction surface 42 is moved unnecessarily and generates additional inertia.

To go beyond these limits and remedy some of these drawbacks, a second embodiment is shown in FIGS. 6 to 9. According to this second preferred embodiment, the mobile actuating means 40 comprise a first mobile pallet 401 on which is positioned the first attraction surface 41 and comprise a second movable pallet 402 on which is positioned the second attraction surface 42. According to a particular embodiment, the first and second movable pallets are respectively pivotally mounted on an axis 90. Preferably, the first and second movable vanes are respectively pivotally mounted on the same axis 90. The two magnetic attraction surfaces 41, 42 of the first and second movable vanes 401, 402 are then able to move in a controlled manner. independent. A sequential displacement of magnetic attraction surfaces 41, 42 and not a simultaneous displacement is observed. The first pallet 401 on which the first flat attraction surface 41 is positioned is held in the waiting position with reduced air gap 45 by an unlocking device. As shown in FIGS. 7 and 8, the unlocking device comprises a first locking hook 88. The second pallet 402 on which the second concave or enveloping attraction surface 42 is positioned retains its operation at the beginning of the movement but is limited. in its race by a second limiter hook 89 of the unlocking device. The second pallet 402 unlocks the maintenance of the first flat pallet and allows its movement. In this way, at the beginning of the movement, the magnetic flux useful to the second wrap-around pallet 402 is no longer disturbed by the presence of the first flat pallet 401. In the same way, at the end of the stroke, the magnetic flux useful to the flat pallet 401 at the moment of opening of the contacts is no longer disturbed by the presence of the concave or enveloping pallet 402.

As represented in FIG. 10, this flux transfer thus makes it possible to adjust even more finely the global law of variation of the driving force of global attraction (second resultant curve AB_2) by allowing for example to simultaneously increase the driving force of attraction on the flat pallet and that on the enveloping pallet. The two-stage operation of the pallets makes it possible to reduce the on-board inertia to the necessary level, thus leading to higher opening speeds. The structural independence of these two pallets makes it possible to add a mechanical spring system (not shown) on the flat pallet to further increase the closing speed. This system also has the advantage of allowing a better adaptation (thresholding and opening of contacts) for different types of curves and gauges, making it possible to use several different sets of pallets. As shown in Figure 1, the invention also relates to a circuit breaker 10 having a trigger device 34 as defined above. The circuit breaker comprises at least one movable contact 14 intended to collaborate with a fixed contact 12. A drive mechanism 18 is able to move the movable contact 14 from an open position to a closed position.

Claims (3)

REVENDICATIONS1. Trigger device (34) intended to be associated with a control mechanism (18) of an electric circuit breaker (10), device comprising a magnetic circuit equipped with movable actuating means (40) comprising a magnetic zone (41, 42 ) for interacting with a magnetic yoke (50) in a closed position to cause movement of an actuating pusher (48) causing a triggering of the control mechanism (18) when an electric current exceeds a threshold; triggering device characterized in that the magnetic zone comprises a first plane magnetic attraction surface (41) and a second concave magnetic attraction surface (42); said first and second attraction surfaces acting independently of each other by respectively creating a driving force of attraction to move the movable actuating means (40) towards the magnetic yoke (50). 2. Trigger device according to claim 1, characterized in that in the closed position of the movable actuating means (40), the first attraction surface (41) collaborates with a flat surface of the magnetic yoke (50). and the second attraction surface (42) collaborates with a convex surface of said cylinder head. 3. Trigger device according to claims 1 or 2, characterized in that the second attraction surface (42) comprises at least two magnetic planes Trigger device according to one of claims 1 to 3, characterized in that the means movable actuators (40) comprise a movable pallet (400) on which are positioned the first and the second attraction surface (41, 42). 5. Trigger device according to claim 4, characterized in that the movable vane (400) is pivotally mounted on an axis (90) .6. Trigger device according to one of claims 1 to 3, characterized in that the movable actuating means (40) comprise a first movable pallet (401) on which is positioned the first flat attraction surface (41) and comprise a second movable pallet (402) on which is positioned the second concave attraction surface (42). 7. Trigger device according to claim 6, characterized in that the first and second movable vanes (401, 402) are respectively pivotally mounted on an axis. 8. Trigger device according to claim 7, characterized in that the first and second movable vanes (401, 402) are respectively pivotally mounted on the same axis (90). 9. Trigger device according to any one of the preceding claims, characterized in that the magnetic circuit has: - a magnetic yoke (50) having two magnetic flanges (51) connected by a magnetic core (52) to form a structure H-shaped, - an inductor (53) wound around the core (52) having a first end to be connected to an electrical conductor (44) connected to a connecting pad (43) and a second end to be connected to the fixed contact 12 of a cut-off device. 10. Circuit breaker (10) comprising - at least one movable contact (14) intended to collaborate with a fixed contact (12), 25 - a drive mechanism (18) for the movable contact (14) of an open position to a closed position, circuit breaker characterized in that it comprises a trigger device (34) according to the preceding claims, the movable actuating means (40) of said device acting on actuating mechanism (18) of the circuit breaker by via the actuating pusher (48).