FR2984589A1 - DEVICE FOR CONTROLLING THE MOTORIZATION OF THE RESET DEVICE OF THE DEVICE FOR CLOSING CONTACTS IN AN ELECTRICAL PROTECTION DEVICE AND APPARATUS COMPRISING IT - Google Patents

Abstract

The present invention relates to a device for controlling 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 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 control device comprising disengaging means capable of disengaging the actuating device and the resetting device at the end of the arming maneuver, this device being characterized in that it comprises so-called first means (3,6,8, 9) able to impose the engaged position to the motorization device at the end of the closed maneuver eture contacts in order to achieve the reset of the closure device, and disengagement means said second comprising biasing means adapted to return the motorization device M in the disengaged position when said first means are deactivated, said means said first acting to against the aforementioned means of recall.

Description

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

The present invention relates to a device for controlling 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 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 control device comprising disengaging means capable of disengaging the motorization device and the resetting device at the end of the arming maneuver. In a type of device such as that described in the document EP 1 139 368, it is necessary to disengage the drive system at the end of arming so as not to 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, as well as other mechanical parts so as to increase the life of the device.

For this purpose, the present invention relates to a control device of the kind mentioned above, this device being characterized in that it comprises means said first able to impose the engaged position to the drive device at the end of the maneuver of closure of the contacts in order to reset the closing device, and said second disengaging means comprising biasing means adapted to return the motorization device M in the disengaged position when the said first means are deactivated, said means said first acting to against the aforementioned means of recall.

According to a particular characteristic, this device comprises means for maintaining the aforementioned disengagement during substantially the entire closing operation of the control shaft.

According to another 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 gear, said wheel being driven, by means of an intermediate device, by a pinion said first belonging to the drive device in the clutch position of the device control and no longer mechanically connected to this pinion in the disengaged position of said device. 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 another characteristic, this intermediate device comprises a so-called second gear connected in rotation with a pinion said second, the so-called second gear being able to cooperate with the so-called first pinion of the drive device, while the pinion said second is in engagement with said first gear wheel secured to the control shaft. According to another characteristic, said means said first comprises means for axially moving said second wheel between a first position in which said drive device is uncoupled from the reset device and a second position in which these two devices are coupled, the displacement of a position to the other of the wheel being effected against the abovementioned return means.

According to another characteristic, said second means comprise means for axially moving the so-called second wheel between a so-called second position in which the drive device is coupled to the reset device and a so-called first position in which these two devices are uncoupled, so-called first means being deactivated.

According to another characteristic, the abovementioned return means of the aforementioned first means comprise at least one compression spring mounted around the axis of the second wheel, and when they are activated to impose the engaged position on the motorization device, said means first compress the spring (s). According to another characteristic, the so-called second wheel and its associated second pinion gear form only one and the same piece, this assembly sliding axially between the two aforementioned positions. According to another characteristic, 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 moved 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, the so-called first aforesaid means comprise a perforated disc integral with said first wheel, said disc cooperating with a protuberance provided on said second wheel to drive the wheel towards one or the other position. According to another characteristic, the aforementioned clutch holding means during the closure of the contacts consist mainly in that the shape and dimensions of the disk and the protuberance are chosen in such a way that the cooperation of these two parts drives the so-called wheel. second in the disengaged position for the duration of the closing of the apparatus. According to another feature, the protuberance comprises a disengaging cone while the open-work sector disc comprises an annular sector whose length of the opening substantially corresponds to the closing stroke of the control shaft. According to another characteristic, the or each aforementioned spring is interposed between a fixed support of the device and the pinion associated with said second wheel. According to another characteristic, this spring is mounted in a recess of said pinion.

According to another characteristic, the aforesaid disc is secured to a shaft integral in rotation with the control shaft, said disc cooperating with the aforementioned protuberance of the so-called second wheel, which is fixed on the so-called second face of the aforementioned secondary wheel opposed to that located opposite the so-called first wheel. The present invention further relates to an electrical protection apparatus having the aforementioned 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 and in which: FIG. 1 is a perspective view of a part of the contact control device in a medium-voltage multipole breaking switchgear device 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. 2 is a perspective view of the so-called first wheel and the clutch disk 25 of the device according to the invention, FIG. 3 is a perspective view of the so-called second wheel of said device, comprising the drive gear of FIG. said first wheel, FIG. 4 is a side view of the device of FIG. 1, this contact control device being in a closed position, during arming, the motorization device being at the end of the engaged position, FIG. 5 is a view from above of the preceding figure, FIG. 6 is a partial view of FIG. 4, more particularly illustrating two wheels. FIGS. 7, 8 and 9 are identical views respectively to FIGS. 4,5 and 6, the control device being in the so-called armed position, at the beginning of the position (or stroke) of the clutch maintained by the return spring, the control then being ready to close the apparatus, FIGS. 10 and 11 illustrate, in a side view, this disengaging device according to the invention, respectively in a disengaged position of the device and in a FIG. 1 shows a motorization device M of the resetting device R of the contact closure device belonging to a medium-voltage multipolar 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 sub-assembly of arming and closure comprising a closing spring, and a sub-assembly opening assembly comprising an opening spring. In this embodiment 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 reset the closing spring 1 of the contacts, at the end of the closing operation of the contacts. In this particular embodiment, the end of the closing operation of the contacts 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 intended to cooperate with the motorization device M , this shaft being furthermore mechanically connected between these two ends, to the aforementioned closing spring 1. This so-called first wheel 3 is intended to be rotated by a pinion said first 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 pinion 4 of the motorization device M, while the so-called secondary pinion 7 integral with rotation of the so-called second wheel 6, 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, and as shown in FIG. 2, the so-called first wheel 3 comprises, at the end of a shaft portion 12 secured to the wheel and coaxial with said wheel, an annular sector disc 8 having an opening 8a, intended to cooperate with a clutch cone 9 provided on the wheel said second clutch cone is located on the face of the wheel 6 opposite that facing the so-called first wheel 3, as this is more visible in Figure 6. A compression spring 11 is in support by one of its ends, on one side of a fixed support of the apparatus, and by an opposite end on a face of the pinion 7 associated with the secondary wheel 6, said spring being mounted inside said pinion , as this is more visible in Figure 8. According to the embodiment of the invention illustrated on the figures, the so-called second wheel 6 and the second said pinion 7 form a one-piece assembly capable of sliding 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 with respect to each other.

According to a particular embodiment of the invention, the length of the empty portion 8a of the perforated disk 8 corresponds to the closing stroke of the control device. The operation of the disengaging device according to the illustrated embodiment will be described in the following with reference to Figures 4 to 11. In Figures 4,5 and 6, the device is at the end of arming the closing spring. In this position, the disc-sector 8 of the wheel 3 cooperates with the protuberance 9 to return the secondary wheel 6 and its associated pinion 7 to the disengaging spring (that is to say towards the top of the figure), position in which the secondary wheel 6 is driven by the pinion 4 of the motorization device. This displacement of the secondary wheel is carried out against the compression spring 11 whose function is to return the secondary wheel 6 to the opposite side to the so-called first wheel 3 (that is to say towards the bottom of the Figure 5). This position is also illustrated in FIG. 11. In FIGS. 7 to 9, after a clockwise displacement of the control shaft 2, and thus of said first wheel 3, the control device is brought into a position army ready to close. In this position, the secondary wheel 6 is no longer lifted upwards by the sector disk 8 because the latter has retracted and the protuberance of the so-called second wheel 6 has been brought into the opening 8a of the disk. , thanks to the spring acting on the secondary wheel. This position is also illustrated in FIG. 10. During the closing movement of the contacts of the apparatus, the disengaged position 15 is maintained throughout the duration of the closure in that the annular sector 8 of the first wheel 3 does not cooperate. more with the clutch cone 9 during this period, thus not imposing a clutch, the length of the empty portion 8a of the perforated disk 8 substantially corresponding to the length of the closing stroke.

It will be noted that according to another embodiment not illustrated, the so-called second wheel may be mechanically connected to its associated pinion by means of a clutch device allowing said wheel to be moved relative to its associated pinion, which in moving , dissociates from it, thus interrupting the mechanical connection 25 between the so-called first wheel and the pinion said first. This dog device comprises, in a manner known per se, a driving tooth in a claw clutch sleeve. In this case the return spring will act directly on the wheel 6 said second, passing through the pinion 7. It will always be guided by the recess of the pinion 7 30 which will remain in the geared position on the wheel 3 said first. It suffices to provide on this pinion 7 a shoulder which holds it against the wheel 3. It has therefore been achieved thanks to the invention, a device for holding the clutch during closing of the device to remove the shocks collected by the 35 disengagement gears during the closing of the device, for example slamming, impacting of the pins, inertia, etc ... as was the case for an engine with a gear train still in engagement with the main shaft of the control device. The present invention therefore makes it possible to improve the mechanical endurance resistance of the parts of the disengagement device of the engine. 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 closing of the circuit breaker so as not to drive the gear train of the motorization and to damage it. and not to disturb the closing of the command. This device uses the property that the gears with a profile of right 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.

Among the other advantages of the invention is the fact that the spring is slightly compressed in the disengaged position when the apparatus is in the closed position, the control device being in the armed position, which corresponds to the normal position for a control device on the network, resulting in less wear risk of the spring. On the other hand, if despite all the spring was no longer working properly, the device would remain engaged after a clutch, and it will be noted that it is easier to pass under the effect of the spring from the engaged position to the disengaged position than the opposite. Note finally that the guide of the return spring is better achieved since the latter is naturally guided in the pinion 7. Of course, the invention is not limited to the embodiment described and illustrated which has not been given as an 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. 35

Claims (20)

REVENDICATIONS1. Device for controlling the device for activating the device for resetting the closure device of 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 for participating in closing the contacts, said control device comprising disengagement means capable of disconnecting the motorization device and the reset device at the end of the arming maneuver, characterized in that it comprises means said first (3,6,8,9) able to impose the position engaged to the motorization device at the end of the closing operation of the contacts in order to achieve the rearmament t of the closing device, and disengagement means said seconds (11) comprising biasing means adapted to return the motorization device M in the disengaged position when said first means are deactivated, said means said first acting against abovementioned recall means. 2. Control device according to claim 1, characterized in that it comprises means (8, 9) for maintaining said clutch during substantially the entire closing operation of the control shaft (2). 3. Control device according to claim 1 or 2, characterized in that it is the aforementioned control shaft (2) which controls the resetting device 30 above. 4. Control device according to any one of claims 1 to 3, characterized in that the aforementioned control shaft (2) is secured to a so-called first gear (3), said wheel being driven, by means of an intermediate device (5), by a pinion said first (4) belonging to the magnetization device M in the clutch position of the control device and no longer mechanically connected to the pinion (4) in the disengaged position of said device. 5. Control device according to claim 4, characterized in that the so-called first gear (3) and the pinion said first (4) are rotatably mounted about two parallel axes relative to each other. 6. Control device according to claim 4 or 5, characterized in that this intermediate device (5) comprises a so-called second gear (6) secured in rotation with a second said pinion (7), the so-called second gear ( 6) being able to cooperate 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). ). 15 7. Control device according to claim 6, characterized in that said means said first (3,6,8,9) comprise means for axially displacing said second wheel (6) between a first position in which said drive device M is uncoupled from the reset device R and a second position in which these two devices are coupled, the displacement of one position to the other of the wheel (6) taking place against the abovementioned return means ( 11). 8. Control device according to claim 6 or 7, characterized in that said second means (11) comprise means for axially displacing said second wheel (6) between a so-called second position in which the drive device is coupled. to the reset device R and a so-called first position in which these two devices are uncoupled, said first means being deactivated. 30 9. Control device according to any one of claims 6 to 8, characterized in that the abovementioned return means (11) of the aforementioned first means comprise at least one compression spring mounted around the axis of the second wheel ( 6), and in that when they are activated in order to impose the engaged position on the motorization device M, the so-called first means (3,6,8,9) compress the spring (s) (11). 10. Control device according to any one of claims 6 to 9, characterized in that the said second wheel (6) and its pinion said second partner (7) form a single piece, this assembly axially sliding between the two aforementioned positions. 11. Control device according to any one of claims 6 to 9, characterized in that the 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 relative to its associated pinion (7), which in moving, disengages itself from it thereby interrupting the mechanical connection between the so-called first wheel (3) and the pinion said first (4) motorization device M. 12. Control device according to any one of claims 7 to 11, characterized in that said first said means comprise a perforated disc (8) integral with said first wheel (3), said disc cooperating with a protuberance (9). ) provided on the so-called second wheel (6) to drive the wheel to one or the other position. 13. Control device according to claims 2 and 12, characterized in that the aforementioned clutch holding means during closure of the contacts consist mainly in that the shape and dimensions of the disk and the protuberance are chosen in such a way that the cooperation of these two parts drives the so-called second wheel (6) in the disengaged position during the entire duration of the closure of the device. 14. Control device according to claim 12 or 13, characterized in that the protuberance (9) comprises a disengagement cone while the disk (8) openwork sector comprises an annular sector whose length of the opening (8a). corresponds substantially to the closing stroke of the control shaft (2). 15. Control device according to any one of claims 9 to 14, characterized in that the or each said spring (11) is interposed between a fixed support of the apparatus and the pinion (7) associated with the said second wheel. (6) .35 16. Control device according to claim 15, characterized in that this spring (11) is mounted in a recess (7a) of said pinion (7). 17. Control device according to any one of claims 12 to 16, characterized in that the aforesaid disk (8) is integral with a shaft integral in rotation with the control shaft (2), said disk (8). cooperating with the aforesaid protuberance (9) of the said second wheel (6), which is fixed on the face of the aforementioned secondary wheel (6) opposite that located opposite the so-called first wheel (3). 18. Electrical protection apparatus, characterized in that it comprises a control device according to any one of the preceding claims. Electrical protection device according to Claim 18, characterized in that it is a medium voltage switch or circuit breaker. 20 25 30 35