DE928654C - Electrical switchgear - Google Patents

Description

Electrical switching device The invention relates to a electrical switching device with two axially movable pin-like Contact pieces. The invention is based on the object of a switching device zu sohaffen which is suitable for particularly high voltages and large disconnection capacities is and in electrical as well as in mechanical respect the modern Development of the electrical energy transmission occurring requirements as far as possible Takes into account. Above all, high switching speeds and the shortest Disconnection times can be achieved in a simple and reliable manner.

It is known in and of itself to have two pin-shaped switch contacts to make oppositely movable. Apart from the fact that this is with Pressure chamber equipped switch acts, in which the interruption of the Sehaltstifte takes place in air outside the pressure chamber common to both contacts the two switch pins only have an interruption point, which is in the switched-on state is closed by butt colliding switch pins. Such switch pins however, have the disadvantage that they form a creeping contact, so that such Switches for high voltages and large breaking capacities are unsuitable.

The invention is essentially characterized in that it is approximately in the middle between the contact pieces moving in opposite directions there is a common stationary Contact piece or common contact piece set is provided. The precautions after The invention is particularly advantageous in the case of so-called short circuits use, where to avoid power plants from falling apart or power supplies quickly switch off the switching device in the event of a short circuit and afterwards should switch on again a relatively short time, to then when the short circuit until it has not subsided to be switched off again automatically. In addition, it is achieved by the invention that the contact pieces with finite speed introduced into the fixed contact or due to the overlap between the moving contact pieces and the fixed contact piece out of engagement with to be brought to this.

The further advantages and possibilities according to the invention are in given in the description below. In the drawing is an embodiment according to the invention, namely shown in section.

The insulating housing in particular in the manner of a column switch trained switching device can consist of an upper, the circuit breaker, z. B. Vapor expansion switch, receiving isolator I and one of this through a metal connection flange 3 separate one-part or multi-part insulator 2 exist in which switch drive mechanisms can be accommodated. At the inside this insulator I, which consists of an insulating material, as a vapor relaxation and centrifugal chamber serving switch head 4 carries, two are in the switch axis appropriately designed arcing chambers 5, 5 'arranged one above the other are provided. The arcing chambers 5, 5 'arranged in mirror image can advantageously be used according to Art formed by elastic vapor relaxation (expansion) chambers and under preservation an intermediate space by means of an insulating material consisting in particular of a layered material Switching vessel 7 are surrounded, which is used to relieve the pressure of the isolator I and at the same time to increase the electrical strength between the voltage bridges Switch parts contributes.

Bribe the design of the extinguishing devices as elastic chambers the chamber walls made of lined up hollow insulating disks of different Inner diameters, so that individual sub-chambers are created through central openings are connected to each other, through which the movable, in particular pin-shaped Switching pieces 8, 8 'are moved. The contact pieces 8, 8 'are in a suitable manner trained, e.g. B. tulip-shaped, dormant contact pieces I0, Io 'assigned to the are mechanically and galvanically connected to each other in such a way that they are switched on State carry the current. The stationary contact pieces Io, Io 'have a radiation protection cap n 25, 25 'surrounded, between which a multi-part telescopic tube I2 is located in which e ne or more springs 27 for the elastic compression of the Stacking plates of the two quenching chambers 5, 5 'are provided.

To improve the electrical properties of the switching device, each extinguishing device (extinguishing chamber) with an intermediate electrode 3o, 3o ' be equipped which are attached to the switching vessel 7, e sole contact pieces 33 are connected to the resistor 32, the dm switched off state an intermediate potential accepts. The damping resistance is when switching off after the arcs of the Switching paths between the stationary contact pieces Io, Io 'and the intermediate electrodes 3o and 3o 'are deleted via the movable contact pieces 8, 8' in the circuit switched. Such a resistance results in a considerable improvement in the extinguishing process, especially when switching off idle lines, power supplies, transformers and the like, and is an excellent means of protection against overvoltages.

The damping resistor can advantageously be concentric to the arcing chambers 5, 5 ', namely between the switching vessel 7 and the insulator I are provided. The damping resistor is arranged in such a way that it is switched off Condition of the switching device results in a particularly favorable voltage distribution, in that the damping resistance assumes a mean potential.

Metal wires, fluid resistances or with particular advantage individual bodies made of resistance building material placed one on top of the other be used. The resistance bodies can consist of rings, discs or rods are composed of conductive or semi-conductive and non-conductive parts, de in particular made of metal l, metal dust, carbon powder, graphite powder, silicon oxide, Synthetic resins or the like. Can exist. Disc stacks can also be used as resistance bodies be used lengthwise by fabrics of different composition or concentration are formed.

The arrangement is thus chosen according to the above so that the fixed Switch pieces Io, Io 'are facing each other. According to the invention, the movable Switching pins 8, 8 'when switching counter-rotating movements, so that the switching pins moved away from each other when switched off. To this end it can be beneficial serve a drive described in more detail below.

As the actual switch drive means, it can be particularly advantageous one arranged vertically in the center of the support 2 around its longitudinal axis of symmetry rotatable insulating drive shaft I4 are used, which have a not shown, z. B. existing bevel gears transmission can be driven. On the rotating shaft I4 attacks a plug-in coupling I5, which is cardan, spherical, cross-headed or in a is designed in a similar way and the rotary movement via a gear xnit transmission ratio, z. B. a planetary gear 16, on a violin longitudinal displacement ges; i, cherte, sufficiently long cylindrical rotary nut 17 transmits. The rotary nut is for example in the ball or roller bearings 18, -19 @beared and we @ i! st a single or multi-start, insbe, so: find another @ steep internal thread in which -when turning the threaded nut 17 a with an external thread, secured against rotation, cross-head-like Part or carrier 2o of the contact piece 8 is brought up or down.

The drive movement of the contact piece 8 is carried out at the same time via the rotary nut I7, in the opposite sense, transferred to the contact piece 8 '. To this Purpose, the rotary nut I7 has a ring gear 22 at one point, over which a pinion 23 is driven, which controls the rotary movement via the rotary shaft, thus rotatably mounted switching vessel 7 transmits. From the switching vessel 7 is the rotary movement about the parts 23 'formed accordingly, because pinion 23 and ring gear 22, 22 'and the nut I7' transferred to the contact piece 8 ', the opposite of the contact piece 8 by means of the crosshead-like part or carrier guided in the rotary nut I7 ' 2ö is moved up or down. In the switching vessel 7 are current collectors 33, 33 'stored, the intermediate electrodes 3o, 3o' attached to the insulator I. Connect damping resistor 32.

When switching, the crosshead-like carriers 2o, 2o 'are in the guide rods II, II 'performed, which is also used to transmit power from the switch pin via the z. B. from rolled 26 or 26 'existing current collection devices after the switch connections to serve. The guide rods I I, I I 'have another function by they wear the radiation protection caps I3, I3 '.

When switched off, the movable contact piece 8 'extends almost by the total height of the, for example, steam expansion and centrifugal room serving switch head d4, which also serves as a carrier of the rotary nut I7 'for the Switching piece 8 'is used.

The Sehalter according to the invention is for stopping power of several Iooo MVA and particularly high voltages are suitable and can be of particular advantage are used in open-air systems, especially since all of its moving parts are located inside the switch housing so that there is no risk of icing or jamming consists. The switching device is also in terms of maintenance and assembly according to the invention particularly advantageous because, among other things, it can be easily dismantled is.

Instead of the switching vessel or the individual switching chambers, as shown to arrange surrounding switching vessels rotatably in the manner of a rotating shaft, the coupling can between the two switch pin drives by means of separate rotating shafts or pulling or pressure rods. In addition, instead of rotary nuts I7 z. B. Threaded spindles are used on which the crosshead-like carrier of the switch pin is performed (cf. application S I5I 894-B1.875I2). The inside of the isolators I, 2, the switching vessel 7 and the extinguishing chamber 5, 5 'can advantageously with extinguishing liquid, z. B. oil or a non-flammable liquid.

Further possibilities according to the invention are that the damping resistance not, as shown in the drawing and described above, on both, but only to one of the interruption points, namely the upper or lower interruption point is switched. Here, the damping resistance between the stationary contact piece and an intermediate electrode or between the stationary contact and the one facing away from it End of the quenching chamber or the movable contact piece in its final release position shielding radiation protection cap are provided, so that only part of the or the entire interruption section is bridged by the damping resistor. In this way you can z. B. the damping resistance through the assigned to it movable contact piece compared to the establishment of the contact by the other Switch on moving contact piece with lead and therefore particularly safe. That dormant contact piece can be moved from the central position between the movable ones Contact pieces shifted somewhat in the axial direction or it can be movable for both Contact overlaps of different sizes provided or different long contact pieces are used.

The measures according to the invention, despite the double interruption result in a space-saving switch design, can not only be based on liquid switches, but on any other high-voltage switch based on other extinguishing principles, z. B. pressure gas switch, use.

Claims (24)

PATENT CLAIMS: I. Electrical switching device with two in the axial direction movable pin-like contact pieces, characterized in that in the middle between the counter-rotating contact pieces a common stationary contact piece or a common contact piece set is provided. 2. Switching device with two in Series of interruption points, especially for service interruptions higher voltages, in particular according to claim I, characterized by the composition of two switching units that are mirror images of the stationary contact piece. 3. Device according to claim I and 2, characterized in that the switching units including the transmission within a common insulator body of a switch the column design are housed. d 4. Device according to claim I to 3, characterized characterized in that the formwork units are made of spaced apart, inshesond, ere ela@stis.chen L öschkam, men exist whose facing fixed switching pieces are galvanically connected to one another. 5. Establishment according to claims i to d., characterized in that: one of the movable switching pins when switched off, at least partly from de @ mLeistungsschalteriso @ l @ ato, r hera, usge and protrudes into the switch head. 6. Establishment according to claims 1 to 5, characterized in that one of the moving switching pins when switched off is almost by the total height of the example as Steam expansion and centrifugal chamber serving switch head extends at the same time as a carrier of the Anbriebsmittel for the one who serves. 7. Device according to claim I to 6, characterized in that for both moving contact pieces together coupled drive means are provided, which by a common, in particular actuated as a vertically arranged rotating shaft drive member. B. Device according to Claims 1 to 7, characterized in that the two contact piece drives are formed the same or similar. 9. Device according to claim I to 8, characterized in that the actuation of the contact piece drives by pulling or Pressure linkage takes place. Io. Device according to Claims I to 8, characterized in that that several rotating shafts are provided for coupling the contact drives. II. ' Device according to Claims I to 8 and Io, characterized in that the two arcing chambers arranged one above the other while maintaining a space of one common tubular switching vessel are surrounded. I2. Establishment, in particular according to claims I to 8, Io and i i, characterized in that that for both arcing chambers common switching vessel or the switching vessels surrounding an arcing chamber as Rotary shaft is formed or are. I3. Device according to Claim I to I2, characterized characterized in that the switch pin drives are used as threaded nuts or Threaded spindle are trained. I4. Device according to claim I to 9, there, -, characterized by, that the contact drives consist of pivotable dead center levers. I5. Device according to Claims I to I4, characterized in that the two are galvanically interconnected resting switching pieces by a telescopic tube Turn surrounding elastic organs apart, thereby relieving the tension of the two elastic arcing chambers. I6. Device according to claim I bis I5, characterized by a damping resistance band, which is switched off the switching device assumes a mean potential. I7. Device according to claim I to I6, characterized in that the damping resistor is arranged in such a way that that it is switched to both interruption points. I8. Device according to claim I to I6, characterized in that the damping resistor is arranged in such a way that that it is switched to one of the two interruption points. I9. Facility according to claims I to I5, I7 and I8, characterized in that the damping resistor part of the entire or the entire switching path bridged 2o. Facility according to claims I to I5, I7 to I9, characterized in that the switching on of the Damping resistance takes place with lead. 2I. Device according to claim I bis 2o, characterized in that the damping resistor is concentric to the arcing chambers Eats provided in the annular space between the switching vessel and the insulator. 22. Establishment according to claims I to 2I, characterized in that the prevention of the damping resistance with the intermediate electrodes with the help of current drawers, which in the as Rotary shaft trained switching vessel are mounted. 23. Device according to claim I to 22, characterized in that the contact pieces and their drive means and pantographs with their guiding organs with the help of radiation protection caps are shielded. 24. Device according to claim I to 23, characterized in that the power transmission and guide rods for the cross-head-like parts or carriers of the movable Schaltstüclee: serve as a carrier of the radiation protection caps. Taken printed letters: German Patent Nos. 58o 699, 628 853, 726 441; Swiss Patent No. 163 661; USA. Pat. No. 1,965,551.