FR2980909A1 - DEVICE FOR RELEASING THE MOTORIZATION OF THE RESET DEVICE OF THE DEVICE FOR CLOSING CONTACTS IN AN ELECTRICAL PROTECTION DEVICE AND APPARATUS COMPRISING THE SAME - Google Patents

Abstract

The present invention relates to a device for disengaging the motorization device M from the resetting device R of the device for closing the contacts in an electrical protection device, said apparatus comprising at least one fixed contact and at least one movable contact carried by a control shaft. control (2) of the poles, said shaft (2) being able to assume a first position in which the contacts are closed and a second position in which the contacts are open, and a reset device comprising an energy storage device (1) intended to participate in closing the contacts, said disengaging device comprising disengaging means capable of disengaging the motorization device M and the resetting device R at the end of the arming maneuver, this device being characterized in that it comprises means for maintaining the aforementioned declutching during substantially the entire maneuver of closing the shaft control (2).

Description

DEVICE FOR RELEASING THE MOTORIZATION OF THE RESET DEVICE OF THE CLOSURE DEVICE OF CONTACTS IN AN ELECTRICAL PROTECTION DEVICE AND APPARATUS COMPRISING IT.

The present invention relates to a device for disengaging the device for activating the device for resetting the device for closing contacts in an electrical protection device, said apparatus comprising at least one fixed contact and at least one movable contact carried by a control shaft of the poles, said shaft being able to assume a first position in which the contacts are closed and a second position in which the contacts are open, and a resetting device comprising an energy storage device for participating in closing the contacts, said device disengagement device comprising disengaging means able to uncouple the motorization device and the reset device at the end of the arming maneuver.

In a type of device such as that described in EP 1 139 368, it is necessary to disengage the motorization system at the end of arming to not destroy it. Indeed, in this position, the closing half-moon being loaded, the drive system must not transmit force on the assembly comprising the latch and the half-moon, the closing springs being compressed. The present invention aims to further protect the gear train of the drive system.

For this purpose, the present invention relates to a disengagement device of the kind mentioned above, this device being characterized in that it comprises means for maintaining the aforementioned release during substantially the entire closing operation of the control shaft.

According to a particular characteristic, it is the aforementioned control shaft which controls the aforementioned rearming device. According to another characteristic, the aforementioned control shaft is secured to a so-called first wheel, said wheel being driven, by means of an intermediate device, by a so-called first pinion belonging to the motorization device during the rearming of the closure device and no longer mechanically connected to the pinion at the end of the reset operation and during substantially all the closing operation of the contacts. According to another characteristic, the so-called first gear and the so-called first gear are mounted in rotation about two parallel axes with respect to each other. According to yet another characteristic, this intermediate device comprises a so-called second gearwheel secured in rotation with a pinion said second, the so-called second gearwheel 10 being in engagement with the so-called first pinion of the motorization device, while the said second pinion is in engagement with the so-called first gear fixed to the control shaft. According to yet another characteristic, these disengaging means comprise means for axially displacing said second wheel between a first position in which the motorization device is uncoupled from the reset device and a second position in which these two devices are coupled, as well as that return means adapted to recall said second wheel in the second position at the end of the closing maneuver. According to yet another characteristic, these means for axially displacing the so-called second wheel comprise a protuberance provided on the so-called first wheel co-operating with a protuberance provided on the so-called second wheel. According to yet another characteristic, the so-called second wheel and its associated pinion form only one and the same piece, this assembly sliding axially between two positions during the cooperation of the two protuberances so as to uncouple or to couple the so-called wheel. second of the pinion says first. According to another embodiment, the so-called second wheel is mechanically connected to its associated said second pinion by means of a clutch device allowing said wheel to be displaced relative to its associated pinion, which in moving, disengages from this one, thus interrupting the mechanical connection between the so-called first wheel and the so-called first gear of the motorization device. According to another characteristic, these means for maintaining the clutch during the closure of the contacts consist mainly in that the shape and the length of the protuberances are chosen so that the cooperation between the two protuberances causing the relative axial displacement between the two wheels lasts during substantially the entire duration of the closing operation of the apparatus. According to another characteristic, one of the protuberances comprises a disengaging cone while the other of the protuberances comprises an annular sector whose length substantially corresponds to the closing stroke of the control shaft. According to another characteristic, these biasing means comprise a compression spring axially mounted about the axis of the aforesaid second wheel and adapted to bias said wheel in the aforementioned second position. According to another characteristic, this device comprises a slider secured in translation with the so-called second wheel and able to actuate a micro-contact electrically connected to the power supply device of the motorization device. According to another characteristic, this device comprises a micro-contact, said micro-contact comprising a pallet adapted to cooperate with a protuberance provided on a wheel integral with the control shaft. The present invention also relates to an electrical protection apparatus comprising a disengaging device having the above-mentioned features taken alone or in combination. According to a particular characteristic, this apparatus is a switch or a medium voltage electrical circuit breaker. But other advantages and features of the invention will become more apparent in the detailed description which follows and refers to the accompanying drawings given by way of example only and in which: - Figure 1 is a perspective view of a part of the contact control device in a medium-voltage multipole cut-off switchgear 35 comprising a device for activating the device for resetting the device for closing the contacts, as well as a disengaging device according to a particular embodiment of the invention, FIG. 1a is a side view, illustrating the inner part of the engine, FIG. 2 is a perspective view of the said first wheel of the device according to the invention, FIG. 3 is a perspective view of the said second wheel. 4 is a side view of the device of FIG. 1, this control device being in an open armed position, the device of FIG. 8 is a top view of the preceding figure; FIG. 6 is a partial view of FIG. 4, more particularly illustrating two wheels of the preceding figure; FIG. 8 and 9 are views identical respectively to FIGS. 4,5 and 6, the control device being in the so-called closed position, in the disengaged holding position, FIGS. 10 and 11 are views identical to FIGS. and 5 and, 7 and 8, the control device being in a disarmed closed position, and at the moment of the deactivation of the disengaging device, FIGS. 12 and 13 show, in a side view, another embodiment of the disengaging device according to the invention, respectively in a disengaged position 30 of the device and in an engaged position, - Figure 14 is a partial side view, illustrating a part of the device according to the invention comprising a microphone -contact for supplying the electric motor of the reducer, 35 -Le 15 is a partial view of the previous figure, the control device being in open armed position, or closed armed, the electric motor is not powered FIG. 16 is a view identical to the preceding figure, the control device being in a disarmed closed position, and FIG. 17 is a view identical to the preceding figure, the device being in the process of being armed, the engine In Figure 1, there is shown a motorization device M of the resetting device R of the contact closure device belonging to a multi-pole medium-voltage electrical breaking device. This resetting device comprises an energy storage device comprising a closing spring 1. This switching device comprises a drive mechanism which can be of any known type having a pole shaft. It may be for example a mechanism of the type described in EP-A-0 222 645, provided with a subset of arming and closure comprising a closing spring, and a sub-assembly. opening assembly comprising an opening spring. In this embodiment 20 of the invention illustrated in Figure 1, the pole shaft 2 for driving the contacts to the open or closed position, is also used to perform the reset of the closing spring 1 of the contacts at the end of the closing maneuver of the contacts. In this particular embodiment, the end of the closing operation of the contacts 25 causes the resetting of an energy storage device, intended to allow maneuvers rapid opening-closing cycles specific to medium voltage protection circuit breakers. This pole shaft 2, at one of its ends, is intended to be driven by the control device of the apparatus, while its opposite end comprises a so-called first wheel 3 integral with said shaft and intended to cooperate with the motorization device M, this shaft being furthermore mechanically connected between these two ends, to the above-mentioned closing spring 1. This so-called first wheel 3 is intended to be rotated by a so-called first gear 4 belonging to the motorization device M by means of an intermediate device 5. This intermediate device 5 comprises a so-called secondary wheel 6 and a so-called secondary gear 7, this secondary wheel 6 being intended to be driven by the motorization device M, while the so-called secondary gear 7 cooperates with the so-called first wheel 3, so that in the engaged position, the motorization device M rotates the so-called first wheel 3 and therefore the control shaft 2 via the so-called second wheel 6 and said second pinion 7.

According to the invention, the so-called first wheel 3 comprises an annular sector 8 intended to cooperate with a disengagement cone 9 provided on the so-called second wheel 6. According to the embodiment illustrated in FIGS. 4 to 9, the so-called second wheel 6 is connected mechanically to its associated gear 7 said first by means of a clutch device 10 allowing said wheel to be moved relative to its associated pinion, which in moving, disengages from it, thereby interrupting the mechanical connection between the said first wheel 3 and the pinion said first 4. This clutch device 10 comprises in a manner known per se a drive tooth in a clutch clutch sleeve. According to another embodiment illustrated in FIGS. 12 and 13, the so-called second wheel 6 and the second said pinion 7 form a one-piece assembly and able to slide axially between a first position in which the so-called second wheel 6 of the intermediate device 5 is engaged with the pinion said first 4 of the motorization device M and a second position in which these two elements are disengaged relative to each other.

According to a particular embodiment of the invention, the length of the angular sector 8 corresponds to the closing stroke of the control device. The operation of the disengaging device according to the two embodiments illustrated will be described in the following with reference to FIGS. 4 to 13.

In Figures 4,5 and 6, the device is at the end of arming the closing spring. In this position, the annular sector 8 of the so-called first wheel 3 begins to come into engagement with the disengagement cone 9 provided on the so-called second wheel 6.

This causes the axial relative displacement between the two wheels 3.6, the so-called second wheel 6 moving relative to the axis of the clutch so that said first and second wheels move away from each other. This displacement of the so-called second wheel 6 causes the disengagement of this wheel of said first pinion 4 of the drive device, which interrupts the mechanical connection between the drive device M and the so-called first drive wheel 3 of the drive shaft. poles.

In Figures 7 to 9, the control device is being closed, the so-called first wheel 3 having moved in the direction of clockwise. During this movement, the disengaged position is maintained during the entire duration of the closure in that the annular sector 8 of the first wheel 3 cooperates with the disengaging cone 9 during this period, the length of the annular sector 8 corresponding substantially to the length of the closing stroke. In Figures 10 and 11, the control device is in the closed position disarmed. To arrive at this position, the so-called first wheel 3 has moved in rotation in the direction of clockwise. The annular sector 8 has left the release cone 9 bringing the two wheels 3.6 closer together relative to each other, via a spring 13 placed between the frame and the wheel called second and suitable to recall the so-called second wheel 6 towards the so-called first wheel 3. This displacement of the so-called second wheel 6 under the effect of the spring, causes the rotation of the so-called second wheel 6 with the so-called first gear 7, thereby restoring the mechanical connection between the motorization device M and the control shaft 2, so as to allow the reset of the closing spring 1 by driving the control shaft 2 by means of the motorization device M. FIG. the use according to a particular embodiment, a microswitch 11 for providing power to the electric motor M of the gearbox, depending on the position of the control device. This micro-contact 11 comprises a pallet 12 adapted to cooperate with a protuberance 14 forming a cam belonging to a wheel 2a integral with the control shaft 2. For this purpose, the wheel 2 has a little less than half of its circumference , a semicircular recess, the aforementioned protuberance 14 being formed by the portion of the circumference of the wheel 2a complementary to that comprising the recess. In Figure 15, the control device is armed open position, or closed armed. In this position, the pallet 12 of the microswitch 11 is in the high position, because the pallet 12 is in the recess, which implies that the microswitch 11 is not actuated and therefore, that the electric motor M is not powered. In FIG. 16, the control shaft 2 and its associated wheel 2a have rotated at an angle of about 180 ° counterclockwise, in order to bring the control device into position. closed position disarmed. During this rotation, the pallet 12 has moved along the recess until the protuberance 14 of the wheel 2a comes into contact with the pallet 12 of the microswitch 11, and the tilting of this pallet 2 under the effect of the cam formed by the protuberance 14. This tilting of the pallet 12 then led to the supply, and therefore the actuation of the electric motor M. In FIG. 17, the control device is being armed and the control shaft 2 and its associated wheel 2a have further rotated by an angle of substantially 180 °, relative to the position of the previous figure. During this rotational stroke, the cam protrusion 14 always acts on the pallet 12 so that the motor M of the gearbox is always powered.

We also note in Figures 14 to 17, the presence of non-return pawls cooperating with the wheel 2a. According to another embodiment not illustrated, a slider can be mechanically connected to the so-called second wheel and allow to actuate a micro-contact during the sliding of the second wheel 6 so as to synchronize the power supply of the electric motor M. So we have achieved thanks to the invention, a device for holding the clutch during the closing of the device to suppress the shocks collected by the release gears during closing of the device, for example slamming, stressing impacts of the tenons, inertia, etc ... as was the case for an engine with a gear train still engaged with the main shaft of the control device.

The present invention thus makes it possible to improve the mechanical endurance of the disengagement device of the motorization. This device makes it possible to disengage the motorization at the end of arming of the control so as not to damage it prematurely and also to disengage the motorization during the closure of the circuit breaker, so as not to drive the gear train of the engine and damage it and not to disturb the closing of the order. This device uses the property that the gears with a profile of straight teeth in involute circles do not transmit axial force. This device does not use the inertia and kinetic energy of the gears of the motorization produced by the speed of rotation of the shaft and the reduction ratio.

Of course, the invention is not limited to the embodiments described and illustrated which have been given by way of example. On the contrary, the invention comprises all the technical equivalents of the means described and their combinations if they are carried out according to its spirit. 10 15 20 25 30 35

Claims (16)

REVENDICATIONS1. Device for disengaging the device for activating the device for resetting the device for closing the contacts in an electrical protection device, said apparatus comprising at least one fixed contact and at least one movable contact carried by a pole control shaft, said shaft being able to take a first position in which the contacts are closed and a second position in which the contacts are open, and a resetting device comprising an energy storage device intended to participate in closing the contacts, said disengaging device comprising means disengagement device capable of disengaging the motorization device and the reset device at the end of the arming maneuver, characterized in that it comprises means for maintaining the aforementioned disengagement during substantially the entire maneuver of closing the shaft. command (2). 2. Disengagement device according to claim 1, characterized in that it is the aforementioned control shaft (2) which controls the aforementioned reset device R. 3. Disengaging device according to claim 1 or 2, characterized in that said control shaft (2) is secured to a said first wheel (3), said wheel being driven, by means of an intermediate device (5). ), by a pinion said first (4) belonging to the motorization device M during the reset of the closing device and no longer mechanically connected to the pinion (4) at the end of the reset operation and during substantially the entire maneuver closing contacts. 4. Release device according to claim 3, characterized in that said first gear and said first gear (4) are rotatably mounted about two parallel axes relative to each other. 5. Disengaging device according to claim 3 or 4, characterized in that said intermediate device (5) comprises a so-called second gearwheel (6) secured in rotation with a second said pinion (7), said second gearwheel (6). being in engagement with the pinion said first (4) of the motorization device M, while the pinion said second (7) is in engagement with the gear wheel (3) said first secured to the control shaft (2). 6. Disengagement device according to claim 5, characterized in that said disengaging means comprise means for axially moving said second wheel (6) between a first position in which the motorization device M 10 is uncoupled from the reset device R and a second position in which these two devices are coupled, and return means adapted to return said second wheel (6) in the second position at the end of the closing maneuver. 15 7. Release device according to claim 6, characterized in that these means for moving axially said second wheel (6) comprises a protuberance (8) provided on the said first wheel (3) cooperating with a protrusion (9) provided on the so-called second wheel (6). 20 8. release device according to any one of claims 5 to 7, characterized in that the said second wheel (6) and its associated said pinion second (7) form a single piece, this assembly axially sliding between two positions during the cooperation of the two protuberances so as to uncouple or to couple the so-called second wheel (6) of the pinion said first (4). 25 9. release device according to any one of claims 5 to 7, characterized in that said second wheel (6) is mechanically connected to its associated pinion (7) said second by means of a clutch device (10) allowing said wheel (6) to be displaced with respect to its associated pinion (7), which by moving, disengages itself from it, thereby interrupting the mechanical connection between the so-called first wheel (3) and the pinion said first (4) of the motorization device M. 10. Disengaging device according to any one of claims 7 to 9, characterized in that said means for holding the clutch during the closure of the contacts consist mainly in that the shape and length of the protuberances (8, 9) are chosen so that the cooperation between the twoprotuberances causing the relative axial displacement between the two wheels (3,6) lasts for substantially the entire duration of the closing operation of the apparatus. 11. Disengagement device according to any one of claims 7 to 10, characterized in that one (9) of the protuberances comprises a disengagement cone while the other (8) of the protuberances comprises an annular sector whose length corresponds substantially to the closing stroke of the control shaft (2). 10 12. Disengagement device according to claim 6, characterized in that said biasing means comprises a compression spring axially mounted about the axis of said second wheel (6) and adapted to bias said wheel in said second position. 15 13. Disengagement device according to any one of claims 5 to 12, characterized in that it comprises a slide secured in translation with the said second wheel (6) and adapted to actuate a micro-contact (11) electrically connected to the power supply device of motorization device M. 20 14. A release device according to any one of claims 5 to 12, characterized in that it comprises a micro-contact (11), said micro-contact (11) comprising a pallet (12) adapted to cooperate with a protuberance (14) provided on a wheel (2a) integral with the control shaft (2). 25 15. Electrical protection device according to any one of the preceding claims, characterized in that it comprises a disengaging device according to any one of the preceding claims. An electrical protection apparatus according to claim 15, characterized in that it is a medium voltage switch or circuit breaker. 35