DE202013011544U1 - Clamping device for a switch-on energy storage of a switching device - Google Patents

Abstract

Clamping device (1) for a switch-on energy store of a switching device with a gearbox (2), which gearbox can be driven by a motor and coupled to a shaft (6) on which shaft (6) the switch-on energy store is articulated eccentrically, characterized in that on the gearbox (2 ) an additional gear (8) is arranged, which can be coupled via a transmission kinematics (7) with a manual tensioning means for manually driving the transmission (2) and tensioning the switch-on energy store.

Description

The invention relates to a tensioning device for a switching energy storage of a switching device with a transmission, which gear is driven by a motor and coupled to a shaft to which shaft of the switching energy storage is articulated eccentrically.

Such tensioning devices for a switching energy storage of a switching device are known from the common prior art. Such a stand device is provided to tension the switch-on energy storage, for example in the form of a spring-loaded element for a switching device. The switching device, typically a circuit breaker for switchgear in the range of medium voltage is provided to switch a guided through the switchgear power or to interrupt, for example, in an error. The switch-on energy storage in the form of the spring-loaded element stores during normal operation of the switching device the energy required for a switching operation and can be clamped on the tensioning device and a mechanically coupled to the transmission of the tensioning motor by a shaft is driven via the gear, which is connected to an eccentric is at which eccentric the switch-on energy storage is articulated eccentrically.

Object of the present invention is to develop a clamping device of the type mentioned, which has a simple and inexpensive construction.

According to the invention this object is achieved with a clamping device of the type mentioned above in that an additional gear is arranged on the transmission, which can be coupled via a transmission kinematics with a manual clamping means for manually driving the transmission and clamping the switch energy storage.

By such an additional gear on the transmission of the tensioning device, which can be coupled via a transmission kinematics with a manual clamping means for manually driving the transmission and clamping the switch energy storage, an additional possibility is formed in a simple way to manually tension the switch-on energy storage, which is inexpensive to implement, because only an additional gear and a transmission kinematics are needed.

In an advantageous embodiment of the invention, the additional gear wheel is designed such that when the switch-on energy store is tensioned, the additional gear wheel is decoupled from the transmission kinematics. Such a design of the additional gear wheel, which ensures that the additional gear is decoupled from the transmission kinematics when the switch-on energy store is stored, ensures in a simple manner that no further force can be transmitted to the clamping devices, in particular the switch-on energy storage device, if this is already done by the manual clamping device is curious. This can for example be realized such that the additional gear only in an angular range which is between 180 ° and 200 °, preferably about 190 °, teeth, whereas in the remaining area of the gear teeth are not provided, so that a transmission from Manual clamping means on the transmission kinematics and thus the transmission for manual clamping of the power-ON energy storage is possible only in the planned area of the additional gear.

In a further advantageous embodiment of the invention, the transmission kinematics comprises a push pawl whose engagement is controlled on the additional gear via a pull plate coupled to a return spring. Such a configuration provides a simple and inexpensive construction by the simple pull plate, which is held on the one hand via a return spring in an initial state and on the other hand via the manual clamping means is controllable and makes the additional gear manually operable in cooperation with a simple pusher.

Preferably, the pull plate for controlling the push pawl via a rotatably mounted cam from a first position to a second position can be transferred. Such a cam, which is rotatably mounted on a holder, provides a simple and inexpensive way to implement a rotational movement of a manual clamping means in a pulling movement for controlling the pusher and thus for rotating the additional gear.

In a particularly preferred embodiment of the invention, the pull plate is guided on a guide pin of the switching device in a slot.

Furthermore, advantageously, a detent for preventing the discharge of the charged switch energy storage device during a charging process can be provided. By such a catch, which acts on the transmission during a tensioning operation and prevents energy transfer of the switch-on energy storage during actuation of the manual clamping means, it is ensured in a simple manner that during the charging process of the switch energy storage discharge is not possible.

The invention is explained in more detail below with reference to the drawing and an embodiment with reference to the accompanying figures. Show it:

1 a schematic view of a tensioning device according to the invention;

2 a side view of a transmission kinematics of the tensioning device according to the invention; the

3 to 8th The tensioning device according to the invention as well as the transmission kinematics in different states during a tensioning process of the switch-on energy storage.

1 shows a clamping device 1 for a switching energy storage of a switching device, not shown figuratively, for example, a circuit breaker for switchgear in the range of medium voltage for power transmission or distribution. Such switching devices are usually used to switch a current conducted via the switchgear and interrupt, for example, in a short circuit case and have a switch energy storage, which stores the energy required for a switch-on of the switching device, according to a switching command of a control device of the Switching device or the switchgear to perform such a switch-on. For clamping the switch-on energy storage, which may be embodied for example as a spring-loaded element, the tensioning device 1 provided and has a transmission 2 on which a first gear 3 and a second gear 4 includes. The first gear 3 is with a first wave 5 coupled, which first wave 5 can be driven by a motor unit, also not shown figuratively, so that by the motor unit, the first shaft 5 is caused to rotate and the first gear 3 , the second gear 4 is also rotated. The second gear 4 is with a second wave 6 mechanically coupled, on which second shaft 6 , figuratively also not further specified, eccentrically hinged the turn-on energy storage mechanically with this second wave 6 coupled, and about the rotation of the second gear 4 and the rotation of the second shaft 6 can be stretched. A transmission kinematics 7 is provided, which one on the gearbox 2 arranged additional gear 8th with the gearbox 2 can be coupled to a manual driving of the gearbox 2 and thus to enable a manual clamping of the switch-on energy storage. The motor unit, which with the first shaft 5 is coupled, has a freewheel, by which a reverse transmission of forces during such a manual clamping operation is prevented on the motor unit. The transmission kinematics 7 includes a pull plate 9 and a pusher 10 , The pull sheet 9 is at a first end 11 with a return spring 12 connected, which return spring 12 again at the other end 13 is attached to a figurative not running bearing plate of the switching device. At the first end 11 of the pull plate 9 is a slot 14 provided, which with a arranged on the bearing plate of the switching device guide pin 15 interacts and a guide of the pull plate 9 guaranteed. A second end 16 of the pull plate 9 has a role 17 on which with a cam 18 cooperates, which cam 18 from a driver 19 is controlled and can be performed in a rotary motion, which rotational movement on the driver 19 can be initiated by a manual clamping means, for example in the form of a crank. The pusher 10 is in the 1 in its lower, not on the additional gear 8th shown engaged position in which they on the one hand by the spring force of the return spring 12 held and on the other hand by a stop 20 is limited.

2 shows a side view of the transmission kinematics 7 with the return spring 12 , the pull sheet 9 as well as the second end 16 arranged elements of the transmission kinematics 7 , as with respect to the 1 already described. The position of the transmission kinematics 7 of the 2 also corresponds to the position as with respect to the 1 already described. A catch 21 engages the first gear 3 such that turning the first gear 3 clockwise allows a rotation of the first gear 3 counterclockwise but effectively suppressed and prevented, whereby a discharge of the power-on energy storage is prevented during a manual clamping operation.

With reference to the 3 to 8th Now a clamping operation by means of a manual clamping means starting from the position of the clamping device 1 out 1 and the transmission kinematics 7 of the 1 and 2 explained in more detail. In the 3 and 4 is the position of the tensioning device 1 or the transmission kinematics 7 shown after the by the manual clamping means of the cam 18 turned counter-clockwise by about 90 °, passing through the roller 17 , which on the pull sheet 9 is arranged, the pull plate 9 relative to the position of 1 and 2 has moved upwards, reducing the pusher 10 in engagement with the toothed portion of the additional gear 8th passes, by further turning the manual clamping means and thus the driver 19 will be in the 6 illustrated position of the cam 18 after a rotation of about 270 °, which leads to a further lifting of the draw plate 9 and thus to a lifting of the pusher 10 , like in the 5 shown, which causes the second gear 4 is rotated by an angle designated α, so that over the second shaft 6 Also, the eccentric, not shown figuratively has rotated by this angle α and thus the turn-on energy storage is stretched. Another turn of the driver 19 leads in turn to the in 2 illustrated starting position, wherein over the catch 21 Turning back the gearbox 2 or a relaxing of the switch-on energy storage is prevented, so that the clamping operation by further rotation of the driver 19 via the manual clamping device to continue through the positions of the 3 to 6 leads, with each time the additional gear 8th rotates by an angle range α and leads to further charging of the switch-on energy storage, until finally in the 7 shown position is reached, in which the switch-on energy storage after a plurality of rotations of the driver 19 is completely charged. After turning the additional gear 8th around in the 7 With α2 designated angle, in the exemplary embodiment about 190 °, the switch-on energy storage is fully charged, and by the non-existing teeth in the remaining angular range of the additional gear 8th is ensured that another power transmission from manual clamping device via driver 19 , Cams 18 and transmission kinematics 7 on the additional gear 8th and thus the transmission 2 or the switch-on energy storage is no longer possible. 8th shows the transmission kinematics 7 with decoupled from the additional gear pusher 10 with tensioned switch energy storage, from which it can be seen that a further actuation of the manual clamping means not for gripping the pusher 10 in the additional gear 8th can lead. Only after a discharge of the switch energy storage can over the transmission kinematics 7 and that again in the position of 1 located additional gear 8th energy is transferred again via the manual clamping device.

LIST OF REFERENCE NUMBERS

1

jig

2

transmission

3

first gear

4

second gear

5

first wave

6

second wave

7

transition kinematics

8th

additional gear

9

draw plate

10

push pawl

11

first end

12

return spring

13

other end

14

Long hole

15

guide pins

16

second end

17

role

18

cam

19

takeaway

20

attack

21

notch

Claims (7)

Clamping device ( 1 ) for a switch-on energy storage of a switching device with a transmission ( 2 ), which gear can be driven by a motor and with a shaft ( 6 ) is coupled to which shaft ( 6 ) the switch-on energy storage is articulated eccentrically, characterized in that the transmission ( 2 ) an additional gear ( 8th ) which is arranged via a transmission kinematics ( 7 ) with a manual tensioning means for manually driving the transmission ( 2 ) and clamping the switch-on energy storage can be coupled. Clamping device ( 1 ) according to claim 1, characterized in that the additional gear ( 8th ) is formed such that when the switch-on energy storage memory spanned the additional gear ( 8th ) of the transmission kinematics ( 7 ) is decoupled. Clamping device ( 1 ) according to claim 1 or 2, characterized in that the transmission kinematics ( 7 ) a push pawl ( 10 ) whose engagement with the additional gear ( 8th ) via a with a return spring ( 12 ) coupled pull sheet ( 9 ) is controlled. Clamping device ( 1 ) according to claim 3, characterized in that the pull plate ( 9 ) for controlling the pusher ( 10 ) via a rotatably mounted cam ( 18 ) can be transferred from a first position to a second position. Clamping device ( 1 ) according to claim 3 or 4, characterized in that the pull plate ( 9 ) on a guide pin ( 15 ) of the switching device in a slot ( 14 ) is guided. Clamping device ( 1 ) according to one of the preceding claims, characterized in that a catch ( 21 ) is provided for preventing the discharge of the energized switch-on energy storage during a charging operation. Switching device with a clamping device ( 1 ) according to one of the preceding claims.

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