DE1163423B - Switch disconnector with swiveling tubular chamber - Google Patents

Description

Switch Disconnectors with Swiveling Tubular Chamber The invention is concerned a switch disconnector, preferably for high voltages from 10 to 30 kV, the conventional design of a lever disconnector with a tubular chamber that can be swiveled trained extinguishing device exists. This is parallel to the switch blades of the separator arranged and rotatably mounted on this. In the extinguishing pipe of the pipe chamber there is an extinguishing device, which consists of a fixed and a movable one Contact is made, the arc being drawn in a gas-emitting insulating tube will. An extension of the movable switch pin is at one end from the Pipe chamber led out and carries at its end a button, ball or the like engages in a holding device on the fixed mating contact of the switch.

When the disconnector is opened, during the first opening movement the cutting knife by means of the holding device described on the fixed contact of the Switch held the end of the pipe quenching chamber facing the separation point. As a result, the quenching chamber is pivoted in relation to the cutting blades. It will a relative movement between the held switch pin and that of the cutting blades entrained extinguishing chamber causes. This switching movement is responsible for the power interruption exploited in the quenching chamber.

So far, the holding device has been resilient in switches of this type formed so that after reaching the full switching stroke the held end of the switching pin can be forcibly pulled out of the holding members. the known holding devices are as resilient bow-shaped or leaf spring-shaped clamping devices formed on the fixed contact of the switch, into which the free end of the switch pin, with a thickening - for example in the form of a ball button - provided is, clicks into place.

One in the described. Way designed as a resilient latch holding device is a relatively simple solution, but it is different Disadvantages. Seen from the sequence of movements of the switching process, must be required be that the release of the switch pin takes place at a certain point in time. It is also desirable that the multi-pole switch, the release in the three poles takes place practically at the same time. For a resilient detent, the criterion is Release the ratio of the tensile force of the switch pin to the holding force of the spring arrangement. The tensile force in turn is, however, also in the general case by resilient Elements determined. A return spring is required for the switch pin, which is tensioned during the switch-off and him after he has been removed from the holding device released, returns to the starting position. The actual switch-off movement is caused in many cases by a spring force accumulator. The force FH of the holding device must now with certainty be greater than the tensile force caused by the return spring FR to prevent the switch pin from prematurely, i.e. H. as long as the electricity is not yet interrupted, detaches from it. On the other hand, it must certainly be smaller than that of the opening spring after reaching the full switch pin stroke exerted force FA, taking into account that at this point in time the switch has already covered most of its total switching angle and the switch-off spring is therefore largely relaxed.

The mutual dependence of the suspension forces has the consequence that the freedom of dimensioning is restricted. This already constitutes a serious one Disadvantage of the resilient holding device. The problem becomes even more complicated if one takes into account the tolerances that are granted to the spring forces must and friction forces are added to the practical switches, the extent of which is difficult to narrow down if. one that has been in operation for many years Switch takes into account the expected influences. It appears among these Extremely difficult in circumstances, compliance with the condition FR <FHGFA flawless ensure under all circumstances. However, if the condition is not met, then it comes either prematurely or at all no release the switch pin; however, both are synonymous with a functional failure of the switch-disconnector, which can cause serious malfunctions.

Travel-dependent triggers for those pivoted on the main knife Extinguishing chamber arrangements are only known if the auxiliary knife is not used at the same time can be pulled out, and also with switches that can only be pulled out against spring force Switch parts for opening the arcing chamber. But these are for switches with swiveling Pipe extinguishing chamber whose mode of operation is based on a relative longitudinal movement of the one against the other moving parts is not applicable.

According to the invention, a switch disconnector is used to remedy the disadvantages mentioned proposed with a pivoting pipe extinguishing chamber, which is approximately in the middle of is mounted around her one end pivotable double knives and their extendable Part when the switch is opened by a holding device attached to the isolating contact is held and thereby pulled out against a spring force, the pipe extinguishing chamber is pivoted from its rest position parallel to the switch blades and the current interrupts while the released from the holding device when pivoting Pipe extinguishing chamber in the rest position the contact pieces located in the extinguishing device are closed again, which is characterized in that the holding device is designed as a rigid, latched system that the pipe extinguishing chamber as a function releases from the angular position of the switch shaft via an additional insulating rod.

It is particularly useful as a release element for the release pawl the holding device to use a half-wave, which is due to a in its dimensions adjustable lever system operated by the switch shaft is controlled. The time at which the tube chambers are released depending on the opening angle of the Separating knife can. can be set precisely. The holding devices of each Poles can be controlled independently or together. In in the latter case it is achieved that the tube chambers of all poles are unlatched at the same time will.

According to the invention, a directly path-dependent release of the pipe extinguishing chamber is achieved guaranteed, which actually depends on the principle of the arrangement a very specific geometric constellation must take place, namely; not before reaching the full switching path in the pipe arcing chamber, but absolutely before Reaching the maximum opening angle of the cutting knife. The right trigger time is always path or angle dependent. In contrast, the cited, known arrangements a path-dependent release only indirectly achieved because their proper function depends entirely on the fact that the effective forces such as spring and Frictional forces in a very specific and almost always the same ratio to stand by each other. Functional reliability as offered by the invention can never be achieved.

In the drawing, an embodiment of the subject matter of Invention shown schematically. It shows F i g. 1 the closed position of the switch-disconnector, F i g. 2 shows an intermediate position during the switch-off process, FIG. 3 the release the tubular chamber through the holding device after the current interruption, F i G. 4 the switch-off position of the switch-disconnector.

The switch-disconnector consists of the switch frame 1 and the two insulators 2 and 3 arranged on it, on which the two fixed contact pieces, namely the contact block 4 and the mating contact 5, are fastened. The double knife 6 is rotatably mounted in the contact block 4 and is actuated by the switch shaft 7 via the actuating rod 8. When the double knife 6 is closed, the connection with the fixed mating contact 5 is established and the main current path is thus closed. The tubular chamber 9 is pivotably arranged between or next to the knives of the double knife 6. The tubular chamber 9 consists of an insulating tube in which the fixed contact and the arc tube device, which is made of gas-emitting material, of the quenching chamber are arranged. An extension of the movable switching pin 10 is led out of the tubular chamber and carries a ball 11 at its end, which engages in the pawl 12 of the holding device on the fixed mating contact 5. The release pawl 12 is preferably double-legged so that when switching on the switching pin 10 swings between the two legs of the pawl 12 and engages by means of the ball 11, the diameter of which is greater than the distance between the two legs of the pawl 12, when switching off. A compression spring 14 brings the release pawl 12 back into the starting position after the tubular chamber has been released. The release pawl 12 rests on the edge of the half-shaft 13, which is controlled by the switch shaft 7 as a lock for the pawl 12 via a lever system. An adjusting ring 15 is fixedly mounted on the switch shaft 7, to the cam 16 of which the actuating rod 17 is hinged, the second end of which engages in the link of the rotatably mounted toggle lever 20 and actuates the same by means of the two adjustable nuts 18 and 19. The half-shaft 13 is controlled via the toggle lever 20, the intermediate linkage 21 and the crank 22 , so that it locks or releases the pawl 12.

The mode of operation of the subject matter of the invention is illustrated in FIG. 1 to 4 illustrated switching off process illustrated. When the switch-disconnector is switched on (FIG. 1), the cutting knife 6 forms the current-carrying main current path with the fixed mating contact 5, while the tubular chamber 9 is de-energized. For the purpose of disconnection, the switch shaft 7 of the switch disconnector is given a rotary movement so that the actuating rod 8 swings the disconnection knife 6 out. Shortly before the cutting knife 6 leaves the fixed mating contact 5, the ball 11 of the switching pin 10 engages in the release pawl 12 blocked by the half shaft 13, whereby the tube chamber 9, which has now become live, is pivoted out. At the moment when the cutting knife 6 leaves the mating contact, the tube chamber 9 takes over the entire flow. During the further opening movement of the cutting knife 6, the end of the tubular chamber 9 facing the mating contact 5 is held back by the release pawl 12, which is held locked, so that the tubular chamber 9 as in FIG. 2 is swiveled out of its normal position in a line with the cutting knife 6. A relative movement is brought about between the held switching pin 10 and the pipe extinguishing chamber 9 carried along by the cutting knife 6. This switching movement is used to interrupt the current in the pipe extinguishing chamber 9. After the current interruption in the pipe extinguishing chamber 9 has taken place and the cutting knife 6 has reached a certain opening angle, the switching pin 10 or its ball 11 is as shown in FIG. 3 released by the release pawl 12, the lock of which was released by the half-shaft 13 as a function of the opening angle of the cutting knife 6. When the tube chamber 9 released by the holding device is pivoted back into the normal position, the extinguishing device is closed again. The switch-disconnector achieves the in F i g. 4 shown switch-off position. The release of the tubular chamber 9, which was held back by the release pawl 12 via the ball 11 of its switching pin 10, takes place in that the lock of the release pawl 12 is released by the half-shaft 13 at the given time. If the cutting knife 6 reaches a certain opening angle after the power interruption in the pipe extinguishing chamber 9, the switch shaft 7 takes the toggle lever 20 with it via the articulated actuating rod 17 by stopping the nut 18, which in turn rotates via the intermediate rod 21 and the crank 22 of the half shaft 13 mediated so that the lock of the release pawl 12 as in F i g. 3 is repealed. The pawl 12 released by the edge of the half-shaft 13 is pivoted against the compression spring 14 under the pulling action of the switching pin 10, so that the ball 11 slides off. The switching pin 10 is now brought back into its normal position by a return spring in its closed position in the course of the pivoting back of the tubular chamber 9. The released release pawl 12 is returned to its starting position by the compression spring 14, as in FIG. 4 brought back, in which it is blocked again by the half-wave 13 during the switching-on process of the switch-disconnector. When switched on, the switch shaft 7 rotates in the opposite direction, so that the articulated actuating rod 1.7 takes the toggle lever 20 with it when the nut 19 stops, and the latter, via the intermediate linkage 21 and the crank 22 of the half-shaft 13, provides a counterclockwise rotation into its locking position. The half-shaft 13 can also be brought into its locking position by spring action after the lever system has been released via the nut 18 during the switch-on process.

Claims (4)

Claims: 1. Switch-disconnector with swiveling pipe extinguishing chamber, which are stored approximately in the middle of double knives pivotable around one end and its pull-out part when the switch is opened by one on the isolating contact attached holding device held and thereby pulled out against a spring force the pipe extinguishing chamber from its rest position parallel to the switch blades is pivoted and interrupts the current, while when pivoting the out of the Holding device released pipe extinguishing chamber in the rest position in the extinguishing device located contact pieces are closed again, d u r c h e -k e n n n notices that the holding device is designed as a rigid, latched system is that the pipe extinguishing chamber depending on the angular position of the switch shaft releases via an additional insulating rod (17, 21). 2. Switch-disconnector according to Claim 1, characterized in that the release pawl (12) of the holding device on the edge of a half-wave (13) serving as a triggering element rests through one adjustable in its dimensions and operated by the switch shaft (7) Lever system is controlled. 3. Switch disconnector according to claim 1 and 2, characterized characterized in that the holding devices of the individual poles are independent of one another being controlled. 4. Switch disconnector according to claim 1 and 2, characterized in that that the holding devices of all poles are controlled together. Considered Publications: German Patent No. 739 305; U.S. Patent No. 2,337 889, 2,710,322.