At least one embodiment of the invention generally relates to a drive for a switching device which has a contact system with a fixed contact and a moving contact.
A drive is known from international patent application WO 2013/004467 A1. This drive has an actuator for activating the moving contact and a mechanical transmission device which is arranged between the moving contact and the actuator. The actuator of the previously known drive comprises a lifting magnet which can be switched to and fro between two lifted positions. The locking of the two switched positions of the switching device is carried out by means of a stepped profile of a drive rod which is arranged between the actuator and the contact system.
A drive for a switching device is disclosed in at least one embodiment, which can be easily fabricated and permits safe switching of the contact system.
At least one embodiment of the invention is directed to a drive. Advantageous refinements of the drive according to the invention are specified in dependent claims.
According to the above, there is provision according to at least one embodiment of the invention that the transmission device has a toggle joint mechanism which is formed by a folding lever, which can be pivoted about a stationary bearing, and a coupling element, which is connected to the folding lever via a moving bearing. The toggle joint mechanism can be pivoted between a first end position and a second end position. When the changeover is made from the first end position to the second end position or vice versa, a maximum extended position occurs. Further, the coupling element secures the moving contact in the first end position in the position which closes the contact system, and in the second end position in the position in which the contact system is opened.
At least one embodiment of the invention also relates to a switching device having a drive as has been described above. With respect to the advantages of the switching drive according to at least one embodiment of the invention, reference is made to the above statements relating to the drive according to at least one embodiment of the invention.
The invention is explained in more detail below with reference to an example embodiment; in this context, in the drawings, by way of example:
In the figures, for the sake of clarity the same reference symbols have always been used for identical or comparable components.
At least one embodiment of the invention is directed to a drive. Advantageous refinements of the drive according to the invention are specified in dependent claims.
According to the above, there is provision according to at least one embodiment of the invention that the transmission device has a toggle joint mechanism which is formed by a folding lever, which can be pivoted about a stationary bearing, and a coupling element, which is connected to the folding lever via a moving bearing. The toggle joint mechanism can be pivoted between a first end position and a second end position. When the changeover is made from the first end position to the second end position or vice versa, a maximum extended position occurs. Further, the coupling element secures the moving contact in the first end position in the position which closes the contact system, and in the second end position in the position in which the contact system is opened.
A significant advantage of the drive according to at least one embodiment of the invention is based on the toggle joint mechanism which can be switched to and fro between two end positions between which there is a maximum extended position. Such a toggle joint mechanism advantageously permits the movement behavior of the moving contact to be configured differently in the case of switching on of the switching device than in the case of switching off of the switching device. For example, it is possible in the case of switching off of the switching device to provide an intermediate position of the toggle joint mechanism in which a predefined distance is maintained between the moving contact and the fixed contact of the contact system before the switching device is completely switched off.
With respect to the connection of the toggle joint mechanism to the moving contact of the contact system it is considered advantageous if the coupling element is connected to the moving contact via a lifting element and a contact pressure spring, and in the extended position the coupling element applies a maximum pressure force to the moving contact via the lifting element and the contact pressure spring.
The toggle joint mechanism preferably forms a component of a linkage.
For example, the toggle joint mechanism can form a component of a multi-joint chain, in particular of a four-joint chain, or of a multi-bar linkage, in particular of a four-bar linkage.
The first end position and the second end position are preferably arranged asymmetrically with respect to the extended position. It is considered particularly advantageous in this respect if in the first end position the toggle joint mechanism has a first extension angle between the folding lever and the coupling element, and in the second end position a second extension angle between the folding lever and the coupling element, and the first extension angle of the toggle joint mechanism is larger than the second extension angle of the toggle joint mechanism.
A control lever is preferably used to adjust the toggle joint mechanism; accordingly, it is considered advantageous if a control lever, with which the toggle joint mechanism can be moved from the first end position to the second end position or vice versa, is additionally connected to the moving bearing.
The control lever can advantageously be deflected by a gate lever which can be pivoted about a second stationary bearing.
The drive preferably also has a lifting drive which can assume a first lifted position and a second lifted position. If such a lifting drive is present, it is also considered advantageous if the lifting drive is coupled to the toggle joint mechanism in such a way that a changeover of the lifting drive from the first lifted position into the second lifted position and back again to the first lifted position causes the end position of the toggle joint mechanism to be reset, specifically either from the first end position into the second end position or from the second end position into the first end position.
According to at least one embodiment, in one particularly preferred refinement of the drive there is provision that the lifting drive is connected to the gate lever, which can be pivoted about the second stationary bearing, in such a way that when a changeover is made from the first lifted position into the second lifted position said lifting drive pivots in the direction of the moving bearing, and when a changeover is made from the second lifted position into the first lifted position it pivots away from said moving bearing.
According to at least one embodiment, in one particularly preferred refinement of the drive there is provision that when the changeover is made from the first lifted position to the second lifted position, the lifting drive extends the toggle joint mechanism from the first end position of the toggle joint mechanism by means of the control lever and moves it beyond the extended position into an intermediate folded position, and when the changeover is made from the second lifted position to the first lifted position said lifting drive moves said toggle joint mechanism from this intermediate folded position into the second end position of the toggle joint mechanism.
It is also advantageous if when the changeover is made from the first lifted position to the second lifted position, the lifting drive extends the toggle joint mechanism from the second end position of the toggle joint mechanism by means of the control lever, and moves it beyond the extended position directly—without remaining in an intermediate folded position —to the first end position of the toggle joint mechanism.
The control lever preferably is not pivoted from the respective control lever end position present at the first lifted position to the respective other control lever end position until the changeover from the second lifted position to the first lifted position.
In its first control lever end position which it assumes in the first end position of the toggle joint mechanism, the control lever preferably bears against a first support point on the gate lever. In its second control lever end position which it assumes in the second end position of the toggle joint mechanism, said control lever preferably bears against a second support point on the gate lever or is separated therefrom.
In order to pivot the control lever it can be provided, for example, that the drive has one or more control lever stops (for example in the form of a spring). The pivoting of the control lever from the first control lever end position to the second control lever end position is preferably brought about by a first control lever stop, against which the control lever is pressed during the further movement of the moving bearing during the changeover from the second lifted position into the first lifted position or during the changeover from the intermediate folded position of the toggle joint mechanism into the second end position of the toggle joint mechanism.
Alternatively or additionally, the drive can have a (second) control lever stop (for example in the form of a spring) which brings about the pivoting of the control lever from the second control lever end position to the first control lever end position if, during the changeover from the second lifted position into the first lifted position, the control lever is pressed against said control lever stop.
The intermediate folded position which the toggle joint mechanism reaches from the first end position is preferably selected in such a way that although the contact system is opened to such an extent that an arc which occurs between the fixed contact and the moving contact in the case of switching off just goes out and the return tension is maintained, the completely opened contact position of the contact system is still not reached.
The lift drive is preferably a magnetic drive whose first lifted position and/or whose second lifted position are respectively maintained by magnetic forces and/or spring forces.
At least one embodiment of the invention also relates to a switching device having a drive as has been described above. With respect to the advantages of the switching drive according to at least one embodiment of the invention, reference is made to the above statements relating to the drive according to at least one embodiment of the invention.
In order to move the moving contact 40 and to switch the switching device 10 on and off, the switching device 10 is equipped with a drive 100 which comprises an actuator in the form of a lifting drive 110 and a transmission device 120. The transmission device 120 is arranged between the lifting drive 110 and the moving contact 40 and transmits the lifting movement and the force of the lifting drive 110 to the moving contact 40.
The transmission device 120 comprises a toggle joint mechanism 130 which has a folding lever 140 and a coupling element 150. The folding lever 140 is mounted so as to be pivotable about a stationary bearing 160. In order to connect the folding lever 140 to the coupling element 150, a moving bearing 170 is used, on which moving bearing 170 a control lever 180 is additionally secured in a pivotable fashion.
The toggle joint mechanism 130 can be pivoted between a first end position, as is shown in
In the first end position of the toggle joint mechanism 130 (cf.
The lifting drive 110, which is equipped with an anchoring element 200, is used to adjust the toggle joint mechanism 130 from the first end position (cf.
A lifting element 300 and a contact pressure spring 310 are connected to the coupling element 150 and are in turn coupled to the moving contact 40 via a pivoting lever 330 which can pivot about a third stationary bearing 320.
The adjustment of the switching device 10 from the switched-on state illustrated in
In order to switch off the switching device 10, the anchoring element 200 of the lifting drive 110 is firstly moved upward into the second lifted position shown in
S2>S1.
In
In the position of the lifting drive 110 and of the contact system 20 shown in
The switching on again of the switching device 10 from the position illustrated in
Starting from the completely switched-off state of the switching device 10 illustrated in
Furthermore, in
In
The toggle joint mechanism 130 which is shown in
As is apparent from the above explanations relating to
Starting from the second end position (cf.
When the switching device 10 is switched on, the changeover of the switched state takes place, in other words, already when the changeover is made from the first lifted position into the second lifted position, whereas when the switching device 10 is switched off, an intermediate state in the form of the intermediate folded position is selectively set. In the intermediate folded position, the contacts of the contact system 20 are already open to such an extent that an arc goes out, whereas the switching device 10 is not yet completely switched off. This makes it possible to allow the switching device 10 to remain in an intermediate state in which it is possible to wait until the arc goes out before the contacts of the contact system 20 are completely opened.
Number | Date | Country | Kind |
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102013207436.0 | Apr 2013 | DE | national |
This application is the national phase under 35 U.S.C. §371 of PCT International Application No. PCT/EP2014/057616 which has an International filing date of Apr. 15, 2014, which designated the United States of America and which claims priority to German patent application number DE 102013207436.0 filed Apr. 24, 2013, the entire contents of which are hereby incorporated herein by reference.
Filing Document | Filing Date | Country | Kind |
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PCT/EP2014/057616 | 4/15/2014 | WO | 00 |