DE1173968B - Control device for electrical high-voltage compressed gas switch - Google Patents

Description

Control device for electrical high-voltage compressed gas switches The The invention relates to a control device for electrical high-voltage compressed gas switches with several separation points, each separation point having its own compressed gas drive and which cause the triggering via actuating devices in connection standing valves with the help of a common, pre-tensioned, mechanical locked energy accumulator can be operated on a pull rod or a rotating shaft works, which is attached to a return spring, the pull rod or the Rotary shaft with levers, lugs or the like. Is provided.

In high-voltage gas switches, it is known that the valves for to trigger the application of the compressed gas drive with the help of an energy storage device, which is also tensioned by compressed gas. By releasing the energy store the valves are operated quickly and independently of other factors, such as pressure head etc., actuated: For switches with a large number of interruption points, it is known to provide a common drive for all separation points and the separation points to be mechanically connected to the common drive. With modern switches however, each separation point has its own drive, and the task arises actuate all separation points at the same time. It is known the necessary for this Control members, in particular the valves for the separation points, from a common Control organ to operate.

In general, the valves have relatively complex interlocking devices actuated to on the one hand the simultaneity of the response and on the other hand the To ensure the inevitability of the switching cycle, because precautions must be taken that the switching movements are always clear and perfect, even if the switching commands are only given briefly or contradict each other.

There are also control organs, one of which is the control members of the valves of the individual separation points are operated together, known in which the valves mechanically locked with the help of a common, pre-tensioned Energy storage drive are operated. In the case of such control organs, it is true the actuation of the valves in a purely mechanical way for the switch-off process, see above that it is a matter of control organs that are completely independent of the pressure increase or pressure drop of the compressed gas, but it has been shown that the mechanical Type of elements triggered during the switch-off process for the next switch-off process can only be prepared again if further clamping valves, clamping lines and timing elements can be used for the voltage process. Added to this is this additional effort that the switch-on process by a further spread over time being affected.

The disadvantages inherent in the known control devices become now eliminated according to the invention that the when tensioning the energy accumulator overtravel carried out by the pull rod or the excess stroke beyond the working angle Rotary movement of the rotary shaft for actuating pre-valves known per se for the Actuating device is used. This is done in such a way that the pilot valves Pistons of the actuators are acted upon by pressurized gas and then after reaching the end position of the pistons ("on" position of the gas pressure switch) be vented by the energy storage drive returning to its starting position, the pull rod or rotating shaft is mechanically locked, the pilot valves reversed and the pistons of the controls are also locked, so that the control device is ready for the next "off" switching process.

On the basis of a schematic illustration, an exemplary embodiment is shown the invention explained in more detail.

The figure shows the schematic representation of an embodiment of the Invention using a preloaded rotating shaft. The rotating shaft is with 1 and the return spring is designated by 2. The rotating shaft is with several approaches, Noses or the like. The attachment 3 firmly connected to the shaft 1 and the lever 4, the z. B. the semicircular Sentence 5 can have serves for locking. At one approach 6, the energy storage drive 1 engages and The lock 9 for the main valve is actuated via a further approach 8 and the switching off of the switch initiated; as soon as the locking of the prestressed Wave 1 is released. If the switch is to be switched on, the drive will 7 is applied and this preloads the return spring 2 via the anchors 6, 3. Of the Drive 7 enables an overstroke on extension 3, which is designed in this way; that with it the plunger of the pilot valve 10 is actuated and the valve is opened and thus the switch-on of the switch made possible by acting on the actuating device 11, wherein the lock 9 becomes effective. When venting the drive 7, the lock the now preloaded shaft 1 completed with simultaneous venting of the actuating device 11 via the reversed pilot valve 10. This is the switch for the next switch-off prepared.

Those provided according to the number of valves to be operated Approaches can be chosen arbitrarily. Of course, the switch-on and switch-off process also run the other way around.

Claims (1)

Claim: Control device for electrical high-voltage compressed gas switch with several disconnection points, each disconnection point having its own compressed gas drive and the triggering, connected via actuating devices -finitely operated with the help of a common, pre-tensioned, mechanically locked energy storage device, dqr on a Pull rod or a rotary shaft works which is attached to a return spring, the pull rod or the rotary shaft being provided with levers, lugs or the like, which are used to actuate the valves that trigger the interruption; characterized in that the overstroke carried out by the pull rod when the energy store is tensioned or the rotary movement of the rotary shaft going beyond the working angle for actuating pilot valves (10) serves for the actuating devices (11) in such a way that the pistons via the pilot valves (10) the actuating devices (11) are acted upon by compressed gas and then, after reaching the end position of the pistons ("on" switch position of the compressed gas switch), they are vented by the energy storage drive (2) returning to its starting position, the pull rod or rotating shaft is mechanically locked, the pilot valves (10) are reversed and the pistons of the actuating devices (11) are also locked so that the control device is ready for the next "off" switching process. Considered publications: German Patent Specifications Nos. 533 574, 535 553, 550942.