DE19503679C1 - Circuit breaker actuator cut-in spring tensioning device - Google Patents

Abstract

The tensioning device has a spur gear train operated by an electric spring tensioning motor and by a manual tensioning shaft, with the last spur gearwheel (1) mounted on the cut-in shaft (5) via a free-running bearing. At the beginning of the cut-in spring tensioning, the cam (2) engaged by the spring and the cut-in shaft are both moved directly by the last spur gearwheel from a position outside the bottom dead centre position of the shaft, so that the cam rotates upwards. During the cut-in phase the last spur gearwheel is locked in position while the shaft moves through the bottom dead centre position due to the free-running bearing and the other spur gearwheels in the drive train.

Description

The invention relates to an elevator device for tensioning the closing spring of drive devices for electrical Circuit breakers, especially vacuum circuit breakers, at the one with the eccentric mounted on the switch-on shaft related switch-on, designed as a tension spring spring both by an electric motor and by a manual winding shaft with the interposition of a spur gear gear is clamped, the last spur gear over a Freewheel bearing also arranged on the engagement shaft which is also the pawl for releasing a switch-on process through the switch-on shaft and the switch-on lever cam connected in operative connection.

With electrical high-voltage switching devices, so with Lei circuit breakers and thus also with vacuum circuit breakers, one of the requirements is that at the beginning of the switching movement of the movable contact from a rest position must be accelerated out very strongly. On the other hand to take into account that after the end of the switch-on operation of the circuit breaker and thus also the vacuum Circuit breaker again for the next closing operation is to be prepared to ge a switching sequence off-on-off guarantee. This presupposes that after the completion of the Switch-on process, the closing spring causing this is tensioned again so that the next switch-on is prepared.

It stands at known Antriebseinrich for vacuum circuit breakers, as for the installation Tensioning the closing spring of drive devices for electrical circuit breakers, especially vacuum power switch, according to DE 44 13 191 C1, the Switch-on spring with a located on a switch-on shaft connected eccentric so that when a pawl also arranged on the switch-on shaft, a  other cam provided on the closing shaft their rotation by about 180 °, due to the effect of the Tension spring trained engagement spring, with the curves disc operating lever in a Presses position that corresponds to the switch-on position.

According to the proposed device for tensioning the Closing spring, according to DE 44 13 191 C1, the preparation, which is designed as a tension spring, is carried out Switch-on spring for the next switch-on process by a electric motor, with the interposition of a multi-stage figen helical gearbox, as it is for operating the movable switch contact in high-voltage switchgear, according to DD 2 96 378 A5. Is on the electri a motor control voltage is applied, so immediately bar at the start of the associated actuation of the more stage spur gear through the last spur gear that is arranged on the engagement shaft via a freewheel bearing, via the freewheel the switch-on shaft and thus the eccentric taken until the eccentric has taken up a position in the tensioned the closing spring, so for the drawing of the next switch-on process is prepared. With this Process in which the switch-on shaft and thus the curves disc and the eccentric is rotated by approx. 180 ° this rotation by hitting the on the on shaft arranged pawl limited to the start pawl.

The switch-on process is done by releasing the on the Einschaltwelle arranged pawl triggered, and by the tensioned closing spring, not only the jack but also the eccentric and thus the switch-on shaft and the curves disc also rotated by approx. 180 °, whereby the eccentric, due to the kinetic energy, the bottom dead center of the Starting shaft passes through.

Here are the positions that the switch-on shaft and thus  take the eccentric, not to use a electric motor, but takes these positions the switch-on shaft and thus the eccentric and that on the Einschaltwelle arranged pawl even when the Actuation of the multi-stage spur gear and thus the last, via the freewheel bearing on the switch-on shaft arranged spur gear for tensioning the closing spring by a Manual winding shaft can be actuated, its additional arrangement not only for carrying out revisions on the vacuum line switch is required, but also by many Operators of the vacuum circuit breaker in addition to the electri engine is required as the drive.

The invention has for its object an elevator Direction for tensioning the closing spring of the actuator directions for electrical circuit breakers, in particular Vacuum circuit breaker, in which the one with the one on control shaft attached eccentric related trained as a tension spring both by a electric motor as well as under a manual wind shaft Interposition of a spur gear is tensionable last spur gear via a freewheel bearing also on the Einschaltwelle is arranged, which is also the jack to free giving a switch-on process by the switch-on shaft as well the curves which are operatively connected to the switch-on lever disc carries, to create, with the reduction of the Stu fen of the spur gear and thus its enclosed space and its costs, especially not just turning back the Eccentric ver by the closing spring after switching on hinders or limits, but also a jam on the pawl connected to the start shaft which jack is avoided.

According to the invention the object is achieved in that with the last, above the freewheel bearing on the engagement shaft arranged a single-stage spur gear in connection  manure, the spur gear with the largest diameter, with a spur gear attached to the manual wind shaft with small nerem diameter is engaged, and that on the hand Zugswelle a freewheel bearing is also arranged, the receives a collar with a collar, on the outer circumference a return spring is arranged, the one end to one on the collar with the collar arranged stop element and its second end at one Stop element, of two on the rear wall of the switch drive bes arranged stop elements is attached.

While the return spring, which is advantageously a torsion spring on the shaft of the collar with a collar is arranged, are designed in accordance with the invention Lift the two to the back of the switch drive attached stop elements by, for example, 180 ° staggered. That means that through the staggered arrangement of these stop elements achieved effect at any other angle that can be the case, for example, if they are at 30 ° to each other are staggered. In the back of the switch the hand-wound mechanism is also very fancy shaft stored.

To turn on after turning on the vacuum circuit breaker Turn the eccentric backwards in the direction of the closing spring to avoid bottom dead center of the switch-on shaft, but at least limit it so that at the start of tensioning the closing spring of the eccentric and thus the closing shaft take a position in the direction of rotation of the eccentric upwards behind the bottom dead center of the switch-on shaft lies, but especially also after the attack of the with the Einschaltwelle connected pawl, in preparation of the Vacuum circuit breaker for the next switch-on process Preventing the catch from jamming is in further embodiment of the invention both after the one  switch the vacuum circuit breaker the reverse rotation angle of the Eccentric as well as after the stop with the power shaft connected pawl on the switch-on shaft of the reverse rotation limited angle of the jack.

This is done in that after the stop of the connected to a collar provided socket impact element on the direction of rotation of the socket initially lying, arranged on the rear wall of the switch drive Stop element, both stop elements together with the Freewheel bearing and the collar with a sleeve, for the single-stage helical gearbox and thus for switching on shaft form a backstop. It is with the attack of the stop element connected to the socket on the one lying in the direction of rotation of the socket, on the Rear wall of the switch drive arranged stop element, the return spring tensioned.

By creating a reverse rotation angle that through the Backstop is limited, not only after the on switching a possible reversal of movement of the switch prevents wave with its components, but it will all things guaranteed that after the hard attack the Jack to the on jack, which with the on shaft in Connected pawl at a small angle can turn back. Because of the resulting relaxation The striking force is not just blocking the one ratchet pawl removed, but it also ensures that with an elevator of the closing spring by the electri engine or when cranking the hand over the hand winding shaft no interference occur.

In the elevator device designed according to the invention the freewheel bearing when preparing the vacuum power switch for the next switch-on, by actuation of the single-stage spur gear via the electric motor  as an elevator motor or the manual winding shaft with a collar provided socket freely so that by relaxing the spring the socket is rotatable in the opposite direction until that stop element connected to the socket on second, arranged on the rear wall of the switch drive Stop element strikes.

Taking into account the tensioning of the closing spring a low engine torque can be made but also at a low speed of the last spur gear and thus to reach the switch-on shaft has one stage gear a great reduction.

It is useful that as a one-stage spur gear a large reduction gears a gearbox is used that from an elliptical, to the shaft of the electric motor attachable socket, which is on its outer circumference an externally toothed elastic ring via a ball bearing takes up the, in its large ellipse axis in the conc arranged internally to the shaft of the electric motor interlocking of two rings arranged one above the other engages, of which one ring on the housing of the electrical Motors is attached and the second ring is a double spur gear carries the spur gear with the smallest diameter the last spur gear arranged on the switch - on shaft Engagement is, the externally toothed elastic ring has fewer teeth than either of the two with an inside toothed rings arranged one above the other, whereby the other with an internal toothing the same che number of teeth like the externally toothed elastic Ring.

The invention is intended to be based on an exemplary embodiment are explained in more detail.

Show in the accompanying drawing  

Fig. 1 the closing shaft and the closing spring in the open position in conjunction with the clas-stage spur gear on the spur gear arranged on the closing shaft and with the hand-winding shaft

Fig. 2, the closing shaft with the closing spring in the switch in conjunction with the single-stage spur gearing, and with the hand-winding shaft,

Fig. 3 is a plan view of the representation according to FIG. 2.

As shown in Fig. 1 and Fig. 2, in addition to the last spur gear 1 of a single-stage spur gear 2 on the closing shaft 3 of a switch drive for a vacuum circuit breaker, there is also an eccentric 4 , a cam plate 5 and a pawl 6 , via which the switch-on process after release is triggered by a latch 7 arranged. Here, the eccentric 4, the cam 5 and the handle 6 are fixedly arranged on the closing shaft 3, while the last spur gear 1 of the single-stage spur gear 2 is arranged via a freewheeling bearing on the closing shaft 8. 3

While in the switch-off position shown in FIG. 1, which is connected to the eccentric 4 and is designed as a tension spring, the switch-on spring 9 is tensioned so that the drive device is prepared for triggering a switch-on operation at the vacuum circuit-breaker, FIG. 2 shows that the switch-on spring 9 is relaxed, the switch-on spring 9 , the eccentric 4 and thus the switch-on shaft 3 being in a position which lies in the direction of rotation of the eccentric 4 upwards behind the bottom dead center 10 of the switch-on shaft 3 .

If, starting from the position of FIG. 2 of the closing spring 9 , this is to be tensioned to trigger a further switching operation, the closing shaft 3 , the eccentric 4 with the closing spring 9 , the cam plate 5 and the pawl 6 from the one in FIG. 2 apparent position in the position shown in FIG. 1, so is by the last spur gear 1 of the single-stage spur gear 2 immediately after its actuation by an electric motor 11 as an elevator motor after it has a control voltage or by the hand-winding shaft 12th ( Fig. 3) the switch-on shaft 3 and thus the eccentric 4 entrained until the eccentric 4 , the position shown in FIG. 1, in which the switch-on spring 9 is tensioned, that is to say prepared for triggering the next switch-on operation.

In order to ensure that the standing with the closing shaft 3 in conjunction pawl 6 can turn back by a small angle after the hard stop of the latch 6 to the closing latch 7, a backstop 13 as shown in Fig. 3 is additionally shown, is provided, through which for the turning back of the pawl 6 a limited turning angle is made available. But this means that the stop force can relax and thus blocking the switch pawl 7 is lifted. By the backstop 13 is achieved at the same time that after the Einschaltvor gear possible reversal of movement of the Einschaltwelle 3 with its components, including the closing spring 9 , is prevented at least but limited.

As shown in FIG. 3, the spur gear 14 with the largest diameter of the single-stage spur gear 2 is in engagement with a spur gear 15 fastened on the manual winding shaft 12 with a small diameter. Furthermore, a freewheel bearing 16 is arranged on the hand winding shaft 12 , which receives a bushing 18 provided with a collar 17 , on the outer circumference of which a return spring 19 is arranged. While one end 20 of the return spring 19 is fastened to a stop element 21 arranged on the socket 18 , the second end 22 of the return spring 19 arranged on the shaft 23 of the socket 18 , with a stop element 24 , is offset from one another by two by 180 ° the rear wall 25 of the Schaltan drive attached stop elements 24 ; 26 , connected. In this embodiment, the hand-winding shaft is mounted not only in the rear wall 25 but also in the front wall 27 of the scarf terantriebes 12th

By, essentially through the socket 18 , the return spring 19 , the stop elements 21 ; 24 ; 26 and formed by the freewheel bearing 16 backstop 13 is limited both after turning on the vacuum circuit breaker of the return angle of the eccentric 4 and after the stop of the pawl 6 connected to the closing shaft 3 on the closing pawl 7 of the turning angle. This is done by, after the stop of the socket 18 connected to the impact element 21 on the stop element 24 closest in the direction of rotation of the socket 18 , both stop elements 21 ; 24 together with the freewheel bearing 16 and the bushing 18 for the single-stage spur gear 2 and thus for the selector shaft 3 form a backstop 13 . Are both stop elements 21 ; 24 in contact with each other, so the return spring 19 is tensioned.

On the other hand, in the phase of preparing the vacuum circuit breaker for the next switch-on process, namely by actuating the single-stage spur gear 2 via the electric motor 11 as an elevator motor or the manual winding shaft 12, the freewheel bearing 16 releases the bushing 18 provided with a collar 17 , so that by relaxing the return spring 19, the socket 18 is rotated in the opposite direction. This rotation continues until the stop element 21 connected to the socket 18 strikes the second stop element 26 arranged on the rear wall 25 of the switch drive.

As a single-stage spur gear 2 , one with a large reduction is provided, as it is also known as a harmonic drive gear. One ring 28 is made up of two rings 28 ; 29 of this gearbox attached to the housing 30 of the electric motor 11 and the second ring 29 carries a double spur gear 31 , the spur gear 32 with the smallest diameter is in engagement with the last spur gear 1 arranged on the switch-on shaft. Through the use of this single-stage spur gear and its adaptation to the conditions of the switch drive for a vacuum circuit breaker, taking into account the manual winding shaft 12 , but also the backstop 13 , the elevator device according to the invention simultaneously influences the reduction of the enclosed space in relation to the spur gear and with it at the expense.

Claims (10)

1. Elevator device for tensioning the closing spring of drive devices for electrical circuit breakers, in particular vacuum circuit breakers, in which the closing spring designed as a tension spring, connected to the eccentric mounted on the closing shaft, by an electric motor as well as by a manual winding shaft with interposition a spur gear can be tensioned, the last spur gear of which is also arranged on the switch-on shaft via a freewheel bearing, which also carries the pawl for releasing a switch-on process by the switch-on shaft and the cam disc which is in active connection with the switch-on lever, characterized in that with the last, Via a freewheel bearing ( 8 ) on the selector shaft ( 3 ) arranged spur gear ( 1 ), a single-stage spur gear ( 2 ) is connected, the spur gear ( 14 ) with the largest diameter with a spur gear ( 12 ) attached to the hand winding shaft ( 15 ) is engaged with a small diameter, and that on the hand-operated pull shaft ( 12 ) a free-wheel bearing ( 16 ) is further arranged, which receives a collar ( 17 ) provided with bushing ( 18 ), on the outer circumference of which a return spring ( 19 ) is arranged, one end ( 20 ) of which is arranged on a stop element ( 21 ) arranged on the socket ( 18 ) provided with a collar ( 17 ) and the second end ( 22 ) of which is arranged on a stop element ( 24 ) of two on the Rear wall ( 25 ) of the switch drive arranged stop elements ( 24 ; 26 ) is attached. 2. Elevator device according to claim 1, characterized in that the return spring ( 19 ) on the shaft ( 23 ) of the collar ( 17 ) provided with the bushing ( 18 ) is arranged. 3. Elevator device according to claim 1 or 2, characterized in that the return spring ( 19 ) is a torsion spring. 4. Elevator device according to one of claims 1 to 3, characterized in that the two on the rear wall ( 25 ) of the Schaltan drive attached stop elements ( 24 ; 26 ) are arranged offset by 180 ° to each other. 5. Elevator device according to one of claims 1 to 4, characterized in that the manual winding shaft ( 12 ) is mounted on the one hand in the rear wall ( 25 ) and on the other hand in the front wall ( 27 ) of the switching drive. 6. Elevator device according to one of claims 1 to 5, characterized in that both after switching on the vacuum circuit breaker, the return angle of the eccentric ( 4 ) and after the stop with the switch-on shaft ( 3 ) ver connected pawl ( 6 ) the closing latch (7) of the rear angle of rotation of the pawl (6) is limited by after stop of the associated with the provided with a collar (17) socket (18) stop element (21) to the rotational direction of the socket (18) Initially lying, on the rear wall ( 25 ) of the switch drive arranged stop element ( 24 ) both stop elements ( 21 ; 24 ) together with the freewheel bearing ( 16 ) and the bushing ( 18 ) for the single-stage spur gear ( 2 ) and thus for the closing shaft ( 3 ) form a backstop ( 13 ). 7. Elevator device according to one of claims 1 to 6, characterized in that when the stop with the socket ( 18 ) in connec tion stop element ( 21 ) on the in the direction of rotation of the socket ( 18 ) initially lying on the rear wall ( 25th ) the switch drive arranged stop element ( 24 ), the return spring ( 19 ) is tensioned. 8. Elevator device according to one of claims 1 to 7, characterized in that when preparing the vacuum circuit breaker for the next switch-on operation by actuating a one-stage spur gear ( 2 ) via the electric motor ( 11 ) as an elevator motor or the manual winding shaft ( 12 ) the freewheeling bearing (16) releases the provided with a collar (17) socket (18) so that spring by relaxation of the back (19) of the socket (18) in the opposite Rich tung rotatable until the socket (18) in Connected stop element ( 21 ) strikes the second stop element ( 26 ) arranged on the rear wall ( 25 ) of the switch drive. 9. Elevator device according to one of claims 1 to 8, characterized in that the single-stage spur gear ( 2 ) has a large reduction. 10. Elevator device according to one of claims 1 to 9, characterized in that the single-stage spur gear ( 2 ) large reduction consists of an elliptical, on the shaft of the electric motor ( 11 ) mountable bushing, the one on its outer circumference via a ball bearing receives external toothed elastic ring, which engages in its large ellipse axis in the internal toothing of two rings ( 28 ; 29 ) arranged one above the other concentrically to the shaft of the electric motor ( 11 ), one of which rings ( 28 ) on the housing ( 30 ) of the electric motor ( 11 ) and the second ring ( 29 ) carries a double spur gear ( 31 ), of which the spur gear ( 32 ) with the smallest diameter engages with the last spur gear ( 1 ) arranged on the switch-on shaft ( 3 ) , wherein the externally toothed elastic ring has fewer teeth than one of the two provided with an internal toothing, arranged one above the other e ( 28 ; 29 ), the other ring with internal teeth having the same number of teeth as the external toothed elastic ring.