DE2430310A1 - COMPRESSED GAS CIRCUIT BREAKER FOR HIGH VOLTAGE - Google Patents

Description

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Munich, dt η Jf. June 1974

SPEAKER SSCHUH AG, AARAU

Compressed gas circuit breaker for high voltage

The invention relates to a pressurized gas power switch for high voltage with a power interrupter and disconnector connected in series, arranged in a gas-filled housing, a pumping device which is frictionally connected to a switch drive and equipped with a pump cylinder and a pump piston, which pumps gas into the power interrupter when it is switched off and gas when it is switched on sucks.

From the German published application no. 1.790.047 a pressure gas switch with a switching pin, with which the movable part of a blow valve is combined, is known. The febtstöhende part d == blow valve is a nozzle body made of insulating material, dsr between the fixed and interacting with the switching pin. The switching element and the disconnection of the switching pin are located at the end of which the fixed switching element is separated from it by a gas path. In this arrangement, during a switch-off movement, the arc is first drawn through the gas path that forms the isolating distance and is only blown with compressed gas after the length of the safe extinguishing distance has been reached. This arrangement is disadvantageous because a relatively large amount of gas is required to extinguish the arc and to flush the space filled with ionized gases. For this reason, this arrangement is also - unsuitable - "- for pressurized gas switches with self-blowing, where the gas required for extinguishing and purging is during disconnection" -P 312

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movement is compressed. For short-term compression one would be very high drive energy and thus an uneconomically large one Drive necessary.

From the German utility model No. 6608446 is a circuit breaker with arc quenching, which is formed by a stationary and a movable contact, known. At least one the contacts are tubular. The ring-shaped Contact surfaces move away during a switch-off movement. The switch-off arc occurs between the contact surfaces, the is blown by an extinguishing agent flowing in the direction of the pipe axis. The blowing gap is through the annular contact surfaces formed the contacts themselves. The disadvantage is that the width of the blowing gap is identical to the extinguishing distance. With this arrangement the flow speed in the blowing gap can only be increased by increasing the pressure of the extinguishing agent. This measure but requires the use of an uneconomically large drive.

AufgabB of the invention is to provide a compressed gas circuit breaker z. create the pumping device clothes during Ausschaltbewe £ must promote only a relatively small amount of extinguishing agent "and riz an economically advantageous small AntrieD can be equipped.

The problem is solved in that the housing in two is divided into rooms separated by its wall,

one of which accommodates the circuit breaker and the other accommodates the isolating switch, so that the circuit breaker is formed from a pair of ring contacts surrounded by an annular gap nozzle which is arranged in the wall and which in the open state holds at least 2.5 times the phase voltage of the high-voltage network, the gapc the annular gap is bounded on one side by an electrical insulation at least in that the separation distance of the Trennschai t 'rs is at least sen bsmes- for Prüfepannung of the circuit breaker, the contacts of the Leistungsunterbrechsrs zwiscr.er. ZZ

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and 50V and the contacts of the disconnector at the earliest at 6o% of the Pump piston stroke separate when switching off.

The wall separating the housing can at least partially consist of a electrical insulating material exist. In the wall between the two One contact of the circuit breaker and one can clear Then a follower piston carrying a contact of the disconnector ■ be arranged.

An exemplary embodiment is described below with reference to the accompanying drawing the invention described in more detail

Fig. 1 shows a longitudinal section of a compressed gas circuit breaker

The compressed gas circuit breaker according to FIG. 1 is arranged coaxially in a tubular metal encapsulation 1 which is filled with sulfur hexafluoride insulating gas and has ground potential. In the housing 2 made of electrical insulating material, the circuit breaker with the two contacts 3 and 4 and the isolating switch with its contacts 5 and 6 are arranged in series. The power breaker and. the disconnectors are actuated by a switching drive, not shown, which is arranged outside the metal enclosure 1 and is connected to the actuating rod 7 either directly or via a lever. The actuating rod 7 is guided into the metal enclosure 1 in a gas-tight manner through a bellows θ. The actuating rod 7 engages the insulating lever 9. At the other end of the insulating .habeis 9, the tab 11 connecting the insulating lever 9 to the switching tube 10 is connected. The insulating lever 9 is shown in Fig. 1 in an intermediate position. The two end positions of this lever are indicated by the dot-dash center lines 12, 13.

Qa * switching tube 10 is connected to the current and voltage to carry certain conductors 14 via the sliding contact point 15. The switching tube 16 carries the contact 4 of the circuit breaker made of contact material. The switching tube 10 is at its ooersn tncs

501 * 18 / 0.6.60

provided with the cylindrical part forming a contact 16 of the parallel isolator. The nozzle body 17 made of electrical insulating material is attached to the switching tube 10 between the contact 4 of the circuit breaker and the contact Ϊ6 of the parallel disconnector. The switching tube 10 also carries the piston 18 of the pumping device made of electrical insulating material. The pumping space delimited by the housing 2 serving as the pumping cylinder of the pumping device is closed off from the gas space within the metal encapsulation 1 by the check valve. The seals 20, 21 are arranged between the stationary and the movable parts of the pumping device.

An annular gap nozzle 22 connected to the pump chamber of the pump device is arranged in the nozzle body 17. The estuary the annular gap nozzle 22 is closed by the contact 3 when the power interrupter is closed, and when the power interrupter is open it lies between the two contacts 3 and 4. The ratio of the distance between contacts 3, 4 of the open circuit breaker to the gap width of the annular gap nozzle 22 is 4. The cross section of the channel 23 leading to the annular gap nozzle 22 is decreasing in the direction of the mouth of the annular gap nozzle 22.

In the nozzle body 17 is the one contact 3 of the circuit breaker and the follower piston 24 carrying a contact 6 of the disconnector. The spring 25 holds the contacts 3.4 of the circuit breaker in the open position. The contact pressure of the circuit breaker in the closed position and supplies part of the breaking energy during opening movements the spring 26. The circuit breaker can with the plug-like cylindrical part 27 on other not shown Ladders are connected.

In FIG. 1, the circuit breaker is shown in an intermediate position. At the beginning of a stopping movement, the contacts 16 and 28 of the parallel switch provided for carrying the rated current separate first. In the Pur.pvorrichtung tegir.nt dii

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Compression of the SFg gas. The mouth of the annular gap nozzle 22 remains up to 40% of the total stroke movement of the pump piston 18 through contact 3 closed because the force of the spring 26 is greater than the force of spring 25. Disconnect when continuing the switch-off movement the contacts 3 and 4 on the action of the spring 25 as soon as the Contact 6 separates from the follower piston 29 of the spring 26. By the opened mouth of the annular gap nozzle 22 now flows the pre-compressed gas at very high speed into the between the isolating distance of the circuit breaker formed by contacts 3 and 4 and extinguishes the arc burning there. At about 83% of the gas total stroke of the pump piston 16 also separate now de-energized contacts 5, 6 of the disconnector. The switch-off movement is over with that. The isolating distance between the contacts 3 and 4 of the circuit breaker is only 2.5 times Phase voltage of the high-voltage network designed. In this distance, the arc should only be extinguished. For the full Test voltage, however, is that between contacts 5 and dimensioning separating distance. This Trerinstrecka is through the formed from the piston 18 from the switching tube 10, from the nozzle body 17 Wall and separated from the isolating distance of the circuit breaker by the follower piston 24 guided in this wall * The isolating distance of the isolating switch is therefore always in as good as new, non-ionized or contaminated extinguishing gas. Of the The disconnector can also be equipped with a snap-action device that prevents at least one contact from snapping back Disconnector after the contact separation and somiij a faster one Reaching the necessary tranndistance causes. By such a Measure further saving of drive energy is possible, because during the disconnection movement of the disconnector no further Compression of the gas is necessary. . ·

During the closing movement, contacts 5 and 6 of the disconnector are activated first, then contacts 3, 4 of the power breaker. and finally the contacts 16, 28 of the parallel separator closed «-

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-sr-

sen. During the switch-on movement, the pump space formed by the housing 2 and the switching tube 10 is filled via the check valve 19 with fresh gas. The springs 25 and 26 are also during the. Switch-on movement tense.

Special advantages of the pressure gas circuit breaker described lie in the high disconnection capacity with a relatively low drive energy.

SO9-816 / 0660

Claims (6)

Patent claims: The compressed gas power supply holder for high voltage, which is connected in series and divides a circuit breaker and a disconnector, as well as a pump device connected to a switch drive, which is connected in a positive manner to Puap-8 / linder and Puspkoiben, the bell switches off Oaa in the circuit and when there is an interruption "Switching on Oaaaugt, characterized in that the ßehäuae (2) is subdivided into a separate EAuse by the wall," one of which sneezes on the power supply and the other on the disconnector, so that in the open state there is also the 2.5 façade of the Hoobapannuogaaetsea holding Leiatungaunterbreober also a single contact patr O ₉ 4) is formed, which grips a Bingaptltduse (22) arranged in the wall, the gap of which aindeatena on one side is limited by an electrical insulation material, because the Trannataltrekke of the Trennfungaobaltere beaeasen iat and daa a aiob beia Auaaobalten the contacts (3, 4) dea Leiatungsunterbreobera iviaoben 20 and 50 Jl and the contacts (5, 6) dea frennaobaltera frübeatena at 80 % dea Puapkolbenbubes separate. , 2. Druckgaa-Laiatungaaobalter naob inapruob 1, characterized in that daaa the daa QehcUite (2) separating wall aindeatena partly also consists of electriaebea insulating material. 3 · Uruokgas-Leiatungaaobalter naoh inapruob 2, characterized in that the two fitiuaen unite in the land one contact (3) of the Leiatungeunterbreebara and the one contact (6) the disconnector carrying laoblauf flask (24) arranged iat. 4. Druokgaa Leiatungaaohalter naob claim 3, characterized in that the daa housing (2) separating hand ia GthAuee (2) it can be moved and serves as a piston (18) that serves as a support. 5 0 3 8 16/0680 5. Druckgaa-ieiatungasobalter according to claim 3 "daiurob gekennieiohnet that · the ratio of the distance · of the contacts (5, 4) daa open power auntarbreobara sur gap width is HingapaItdüae (22) greater than 1 and less than 10 iat. 6. Druokgaa-Leiatungaacbaltsr naob one of the claims 1 to 3 _f dadurob characterized, daaa the Leiatungaunterbreober and the old theseeaobalted Trenoaobalter are bridged by a for the lennatroB of the circuit-breaker · parallel disconnectionbalter · praiseworthy its contacts (16, 26) luarst separated and closed last in the case of single movements, and the contacts (3, 4) of the line interruption coaxially uasohlieaean. 509 8 16/0660