DE7032905U - ELECTRIC COMPRESSION SWITCH - Google Patents

Description

White Γ ** 80/70. ^

Aktiengesellschaft Brow-η, Doveri & Cie., Eaden (Schv: eiz)

Electric compression switch

Ξΐο Zrfir "dur. ~" Refers to an electrical compression switch that uses a
Solvent flow is used, which is generated by the movement of a cylinder which cooperates with a piston and in which a double nozzle contact arrangement in
an extinguishing chamber filled with compressed gas, preferably S? g, is used.

Electrical compression switches are known in which, when the excitation is switched off, an extinguishing agent flow is generated by the people; one isit gem movable
Switching piece connected cylinder, which works together with a piston, a gas overpressure is produced (cf., e.g. DT-PS 1 069 7 ^ 0). The cylinder is firmly connected to the movable contact piece by means of guide rods.
Furthermore, it is known per se in the case of pressure switches to have double nozzle contact arrangements in one, preferably with SFg

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filled extinguishing chamber (see e.g. 3rd CK-PS · Ί22 9 ^ 5). Here, one of the two nozzle contacts is simultaneously ir.it actuated a blow valve to initiate the extinguishing stream.

The invention is dif ¹ object of the invention to provide one simple solution for a compression switch of the aforementioned type, wherein v hich is ersieit a Bev.'egungsablauf the nozzle switching pieces with speedy allocation of the Ko.'ppressionszylinders / which optimal conditions for the arc extinguishing allows v; o is achieved by a considerable increase in the switch-off capacity r.os switch. According to the invention, the switch is characterized in that means are provided by which the movable nozzle switch, which is controlled by a rapid switch-off bending of the cylinder, is brought into an intermediate position that is optimal for arc extinction during the switch-off movement and is held there briefly.

The drawing shows an embodiment of the invention based on this is explained in more detail

Fig. 1 shows the compression switch in an elevational section in switch-on positionj during

FIG. 2 shows the most favorable extinguishing position and FIG. 3 shows the switch-off position. ■

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In Fig. 1 is located in a metallic housing in a manner not shown insulated, the carrier 2 for the resilient ghosted, fixed nozzle-shaped contact piece 3, on which the spring acts %. Furthermore, the fixed main contact piece 5 is accommodated in the carrier 2 and is in engagement with the tubular contact piece 6 in the switching position. The contact piece 6 is firmly connected to the cylindrical part 7, which is driven by a drive device (not shown) sr; See the well-known type via the articulation force δ actuated viri, whereby the drive forcefulness 3 can be distributed several times over its circumference. The movable nozzle contact piece 9 is slidably mounted in the ring-shaped testicle part 7a and is under the action of the spring Io, one end of which is supported on the collar 9 '' and its other end on the ring 11. The part 9 is uneven by an insulating sleeve 12 which is slidingly mounted in the contact piece β and is under the action of the spring 15. The insulating sleeve 312 has inside a ring 12b held by ribs 12a, at dex in the switched-on position, the ring 11. On the side of the contact tube 6 facing away from the contact point, in an extension of part 7, there is a valve disk Ikj which, depending on the pressure state, either closes off the opening 15 or 16 in part 7. The cylindrical part 7 comprises a spatially sliding part fixed piston 17 which has several openings 17b that can be closed by a flip disk 17a

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attached to the circumferentially distributed studs "17c which pass through the part 7 and simp end? r. with openings L8A provided annular piston 18 carry. The Oef fnur.sien L8A are L3b closable by a non-return _plate} which is mounted in recesses dev studs 17c limited by a stop The ring piston 18 can slide tightly in the gap 19 between the contact tube 6 and the cylindrical extension 7b of the part 7.

Ir. Fig. 2 are for the '-, easier. Share the same mark. v: ie used in FIG. 1. Here, after a certain partial stroke of the part 7, the contact pieces 3 ₅ 9 assume the optimal erasure position in which the contact piece 9 with its collar 9b rests against the ring 12t and initially cannot continue to run in the disconnection direction.

The Pig. 3 finally shows the wheel position of the gear shifting movement, in v: which the contact pieces 3, 9 are in the insulating position are located. The part 7 and the insulating sleeve 12 have also reached their switch-off position.

The mode of operation of the arrangement is as follows:

Based on the switch-on position of the switch according to FIG. z-on switching off the part 7 remote from the cylinder moves in the direction of the arrow. ! laughs a little one. Ke ^ stretch the main valley point 5, S out of engagement. Through the

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Spring k , however, the contact piece 3 remains initially in contact with the contact piece 9 until the contact piece 3 sits on a collar on its carrier 2. In the further course of the movement, the. Contact pieces 3,9 - so that a switch-off arc can arise between them, ϊώ the quenching tank housing 1 is at rest, filled with pressurized gas, sB SF ^ ₃ , which also fills all the roughness of the extinguishing device with the same pressure. The movement of the ^ part 7 generates an overpressure in its interior, which is converted into a gas flow via the openings 15 as soon as the contact pieces 3,9 begin to separate.

Shell 12 initially remains in its original position, partly due to the action of the spring Io, partly due to the gas pressure, and ensures that the compressed gas flows to the switching path and through the interior of the two nozzle tubes 3j9, thereby blowing the arc favorably. Practically at the end of the movement of leil J, when the gas overpressure in its interior has practically subsided, the spring 13 brings the insulating jar 12 into the in rig. 3 drawn end position, the Hing 22b, which initially the nozzle contact 9 on the. «Bund 9b in the Äer position according to Pig. 2, the latter by means of the Hinges 11 also takes it into the end position shown. In this way, despite the rapid movement of the part 7, which acts as a circular, intermittent movement, the result is an intermittent movement; for the movable contact piece 9 (Fig. 2). During the switch-off

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The openings are moved l? b by the setback washer 17a locks · ;. The Yent-il disc 1 ", on the other hand, gives the openings 1δ free. The one when switching off enlarging. Out closed by the ring piston Io 15 cannot fill up with gas as a result of the eüekschlag disk l8b releasing the openings l8a, there is no undesired gas Suction can arise.

'iirc zuii switch on aas part 7 against the direction of the arrow ir. Fi "- 1 moves, on the one hand it moves through the inside of the part 7 through the openings 17b, which are released by the non-return disk 17a, fill with gas, on the other hand, in the Space 19 generates a gas overpressure. This gas overpressure causes the openings 15 through the valve disc 1Ί and then a movement of the insulating sleeve 12 relative to. Nozzle tube 9 in the switch-on direction. Towards the end of the switch-on movement, the insulating sleeve 12 nironrt a layer, in which a blow-out of a possible switch-on arc takes place. Are in the final switch position the contact pieces 5, 6, 3, 9, scv: ie the insulating sleeve 12 again in the position shown in FIG.

Public company Brown, 3overi &. Cie.

Claims (4)

- 7 "- '80/70 5ns test 1. Electrical compression switch, in which an extinguishing agent flow is used to extinguish the arc, which is generated by the movement of a cylinder ₃ which cooperates with a piston _a and in which a double nozzle contact arrangement is used in a fire extinguishing chamber filled with compressed gas, preferably SFg gekeimsslehnet- ^ that means (10 _f 12b) are provided by which the movable nozzle contact piece (9) controlled by a rapid switch-off movement of the cylinder (7) is brought into an intermediate position that is optimal for arc extinction during the switch-off movement and is held there briefly. 2. Compression switch according to claim 1, characterized in that that the stop for the plague holding the nozzle switch piece (9) is formed in the intermediate position by a ring 12b firmly connected to the insulating sleeve (12), wherein the insulating sleeve 12, the nozzle switch pieces (3,9) at least during the intermediate position (Fig.2) includes. 3. Compression switch according to claim 1 and 2, characterized in that that the insulating sleeve (12) is under the action of a spring (13) which, towards the end of the opening movement of the Cylinder (7) the insulating sleeve (12) while taking along the nozzle switch (9) the latter in the switch-off diagrams (Fig. 3) convict. ■ ii / j - 8 - 80/70 4. Compression switch according to claim I _3, characterized in that the cylinder (7) has an annular space (19) and cooperates with a stationary annular piston (l8) located therein in such a way that when switching on, the approaching nozzle switching pieces (3 ₃ 9) are blown out. arises. Public Company Brown * Boverl & Cie,