EP0508160A2 - Gas blast circuit breaker - Google Patents

Gas blast circuit breaker Download PDF

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Publication number
EP0508160A2
EP0508160A2 EP92104468A EP92104468A EP0508160A2 EP 0508160 A2 EP0508160 A2 EP 0508160A2 EP 92104468 A EP92104468 A EP 92104468A EP 92104468 A EP92104468 A EP 92104468A EP 0508160 A2 EP0508160 A2 EP 0508160A2
Authority
EP
European Patent Office
Prior art keywords
piston
contact piece
blow
valve body
compressed gas
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP92104468A
Other languages
German (de)
French (fr)
Other versions
EP0508160A3 (en
EP0508160B1 (en
Inventor
Johannes Blatter
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
General Electric Switzerland GmbH
Original Assignee
GEC Alsthom T&D AG
Sprecher Energie AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by GEC Alsthom T&D AG, Sprecher Energie AG filed Critical GEC Alsthom T&D AG
Publication of EP0508160A2 publication Critical patent/EP0508160A2/en
Publication of EP0508160A3 publication Critical patent/EP0508160A3/en
Application granted granted Critical
Publication of EP0508160B1 publication Critical patent/EP0508160B1/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H33/00High-tension or heavy-current switches with arc-extinguishing or arc-preventing means
    • H01H33/70Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid
    • H01H33/88Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid the flow of arc-extinguishing fluid being produced or increased by movement of pistons or other pressure-producing parts
    • H01H33/90Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid the flow of arc-extinguishing fluid being produced or increased by movement of pistons or other pressure-producing parts this movement being effected by or in conjunction with the contact-operating mechanism
    • H01H33/91Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid the flow of arc-extinguishing fluid being produced or increased by movement of pistons or other pressure-producing parts this movement being effected by or in conjunction with the contact-operating mechanism the arc-extinguishing fluid being air or gas
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H33/00High-tension or heavy-current switches with arc-extinguishing or arc-preventing means
    • H01H33/70Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid
    • H01H33/88Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid the flow of arc-extinguishing fluid being produced or increased by movement of pistons or other pressure-producing parts
    • H01H33/90Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid the flow of arc-extinguishing fluid being produced or increased by movement of pistons or other pressure-producing parts this movement being effected by or in conjunction with the contact-operating mechanism
    • H01H2033/908Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid the flow of arc-extinguishing fluid being produced or increased by movement of pistons or other pressure-producing parts this movement being effected by or in conjunction with the contact-operating mechanism using valves for regulating communication between, e.g. arc space, hot volume, compression volume, surrounding volume
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H33/00High-tension or heavy-current switches with arc-extinguishing or arc-preventing means
    • H01H33/70Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid
    • H01H33/88Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid the flow of arc-extinguishing fluid being produced or increased by movement of pistons or other pressure-producing parts
    • H01H33/90Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid the flow of arc-extinguishing fluid being produced or increased by movement of pistons or other pressure-producing parts this movement being effected by or in conjunction with the contact-operating mechanism
    • H01H33/901Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid the flow of arc-extinguishing fluid being produced or increased by movement of pistons or other pressure-producing parts this movement being effected by or in conjunction with the contact-operating mechanism making use of the energy of the arc or an auxiliary arc
    • H01H33/903Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid the flow of arc-extinguishing fluid being produced or increased by movement of pistons or other pressure-producing parts this movement being effected by or in conjunction with the contact-operating mechanism making use of the energy of the arc or an auxiliary arc and assisting the operating mechanism

Definitions

  • the present invention relates to a gas pressure switch according to the preamble of claim 1.
  • a gas pressure switch of this type is known from EP-A-0 380 907.
  • the extinguishing gas flowing into a blow-out space supports the drive.
  • slide-like valve means are provided which, when switched on, release openings in the cylinder delimiting the discharge chamber in the radial direction in relation to the pressure in the pump chamber as a result of the relatively large excess pressure in the blow-out chamber in order to equalize the pressure between the blow-out space and the surrounding space.
  • a control piston is provided in the pump piston separating the pump chamber from the blow-out chamber.
  • a piston that delimits it and is moved with the movable contact piece is provided with a large-area check valve that remains open with respect to the surrounding space when a vacuum occurs in the blow-out space.
  • the disadvantage of this known switch is that to open the slide-like valve means, a certain pressure difference must be built up between the pump space and the blow-out space, which requires drive energy, and that at the beginning of a switch-off stroke, the slide-like valve means must first be brought back into their closed position, the pump space enlarged by the shifting of the control piston becomes. This has the consequence that the pressure built up in the pump chamber is reduced, which affects the breaking capacity of the switch.
  • such slide-like valve means cause a complicated structure of the pressure gas switch.
  • valve means are controlled depending on the stroke of the movable contact piece, which prevents an influence on the pump chamber and the build-up of pressure for actuating the valve means.
  • the also particularly preferred forms of training according to claims 4 and 6 ensure that the drive does not have to do more work when switching off small currents than in compressed gas switches without a blow-out space, in which negative pressure in the blow-out space with respect to the surrounding space is prevented.
  • the form of training according to claim 4 is particularly preferred because of its simplicity.
  • a fixed contact piece 10 which is connected in parallel to a continuous current contact piece 12 which surrounds it coaxially and is also fixed, is connected in a generally known manner to the one connector 14 of the compressed gas switch, which is only indicated schematically in FIG.
  • this fixed contact piece 10 closes a blowing nozzle 16 made of insulating material, which is fixedly mounted on the bottom 18 of a metallic pump cylinder 20 that is open at the bottom, and whose inlet 22 via flow passages 24 in the bottom 18 with a pump chamber enclosed by the pump cylinder 20 26 communicates.
  • the pump cylinder 20 has a metal cylinder jacket 20 'on which the bottom 18 is fastened in the upper end region.
  • the bottom 18 and thus the pump cylinder 20 are firmly anchored to a movable contact piece 28.
  • the movable contact piece 28 has above the base 18 a tulip-like consumable contact piece 30 which cooperates with the fixed contact piece 10 and which, in the switched-on position, delimits the inlet 22 of the blow nozzle 16 on the inside, viewed in the radial direction.
  • the movable contact piece 28 has a blow-out tube 32, which extends away from the bottom 18 in the direction towards the bottom and which is closed at its lower end by a pin 34 tapered towards the inside of the blow-out tube 32.
  • the erosion contact piece 30 and the blow-out pipe 32 thus enclose a passage 36, which extends from the upper free end of the movable contact piece 28 and runs in the axial direction and penetrates the bottom 18, the length of which is limited by the pin 34 and which is restricted by radial openings 38 in the blow-out pipe 32 in a blow-out space 40 opens.
  • the pump chamber 26 is delimited by a stationary, ring-like pump piston 42, which surrounds the blowout pipe 32 above the openings 38.
  • the pump piston 42 has a circumferential groove in which a piston ring 44 made of plastic is arranged, on which the cylinder jacket 20 'is slidably mounted.
  • the pump piston 42 rests on a support tube 46 which surrounds the blow-out tube 32 at a distance and which is supported at the bottom by an intermediate base 48 of an essentially cylindrical second continuous current contact piece 50.
  • a connecting flange 52 protrudes from the second continuous current contact piece 50 to the outside Ensure electrical connection to the other connection of the pressure gas switch, not shown in the figures.
  • the pump chamber 26 and blow-out chamber 40 are connected to one another via suction passages 54 in the pump piston 42, which are releasably closed by an annular check valve body 56 which interacts with the pump piston 42.
  • the check valve body 56 forms, together with the pump piston 42, a flap or check valve which opens when the overpressure in the blow-out chamber 40 is higher than the pressure in the pump chamber 26.
  • the area of the second continuous current contact piece 50 below the intermediate base 48 forms a cylinder 58 in which a piston 60 is slidably supported.
  • the piston 60 has a circumferential groove in which a piston ring 44 'engages to seal between the cylinder 58 and the piston 60.
  • a connection opening 62 is provided which extends in the axial direction, the inside width of which is aligned with the inside width of the support tube 46 and thus the sub-space 46 'delimited by the support tube 46 and on the top by the pump piston 42 with that of the cylinder 58 and piston 60 bounding partial space 58 '.
  • the blow-out space 40 is thus composed of these two sub-spaces 46 'and 58'.
  • a neck 64 protruding upwards is integrally formed, into which the blow-out pipe 32 is screwed with its lower end region.
  • a connecting lug 66 protrudes from the piston 60, on which an actuating rod connected to a drive 67 only indicated schematically in FIG. 1 68 is articulated from insulating material.
  • Large-area inlet openings 70 are provided in the piston 60 (see also FIGS. 3 and 4), which can be closed by means of a disk-shaped valve body 72 which engages around the neck 64 with play and cooperates with the piston 60.
  • Control means 74 leave the valve body 72 in its closed position 72 'on the piston 60, on its side facing the blow-out space 40, in order to close the inlet openings 70 (FIGS. 1 and 3) or hold the valve body 72 in the open position 72' ', as is the case with the Figures 2 and 4 show.
  • An annular actuating member 76 of the control means 74 engages around the neck 64 of the piston 60 and is guided on the latter in an axially displaceable manner.
  • a locking device 78 defines a lower first locking position 76 '( Figures 1 and 3) and an upper second locking position 76' '( Figures 2 and 4) for the actuating member 76.
  • the actuating member 76 points in the axial direction by the distance between the first and second locking positions 76 ', 76' ', circumferential locking grooves 80, 80' spaced apart from each other, which cooperate with locking balls 82 which are displaceable in the radial direction in the neck 64 of the piston 60 and biased towards the outside.
  • Lugs 84 protrude from the actuating member 76 in the radial direction toward the outside, only one of which is shown in FIGS. 1 to 4.
  • Attached to each lug 84 is an axially extending shaft 86 with a stepped diameter, which with its smaller-diameter stem part 86 'adjoining the lug 84 has the valve body 72 and with its larger-diameter stem part 86''the piston 60 reaches through.
  • the gradation in the shaft 86 forms a drag connection between the valve body 72 and the actuating member 76. If the actuating member 76 is in its first latching position 76 '(FIGS. 1 and 3), the valve body 72 closes the inlet openings 70.
  • the second continuous current contact piece 50 is fastened to an annular holding flange 90 which surrounds the actuating rod 68 at a distance and is supported on a switch housing (not shown) via support insulators 92.
  • This switch housing encloses an ambient space 94 in which all the components described so far are arranged and in which an extinguishing gas under excess pressure, e.g. SF6 is present.
  • a first stop surface 96 is formed on the holding flange 90 on its side facing the piston 60 and cooperates with the lower end of the shaft 86 acting as the first counter stop.
  • a second stop surface 98 is provided on the side of the intermediate base 48 which also faces the piston 60 and which cooperates with the lugs 84 which act as a second counter-stop.
  • a spring ring 100 fastened to the neck 64 and the piston 60 ensure that the actuating member 76 which is movable with the piston 60 only between its first and second locking position 76 ', 76''can be moved back and forth.
  • a crown-like sliding contact piece 102 is attached approximately at the level of the pump piston 42, the self-resilient contact fingers 102 'of which rest against the cylinder jacket 20' under the additional effect of a spring 104 encompassing them.
  • a slide ring 106 is provided for guiding the pump cylinder 20 in the upper end region of the second continuous current contact piece 50 encompassing it.
  • the continuous current contact piece 12 has, at its lower end region facing the pump cylinder 20, covered by a hood 108, resiliently designed and interacting with the pump cylinder 20, continuous current contact fingers 110.
  • FIGS. 5 and 6 corresponds to the embodiment shown in FIGS. 1 to 4 and described in detail above.
  • Figures 5 and 6 the same reference numerals are used for the same parts as in Figures 1 to 4.
  • FIGS. 5 and 6 show the area of the piston 60 in the on or off position of the switch.
  • the actuating member 76 On the neck 64 protruding from the piston 60 in the direction toward the top, the actuating member 76 is mounted such that it can be moved in the axial direction.
  • the latching device 78 defines the first latching position 76 '(FIG. 5) and the second latching position 76''(FIG. 6) for the actuating member 76.
  • the shaft 86 fastened to the nose 84 of the actuating member 76 penetrates the disc-shaped valve body 72 and the piston 60 and holds the valve body 72 between the step between the shaft parts 86 'and 86''and the lugs 84 clamped immovably with respect to the actuator 76. If the actuating member 76 is in its first latching position 76 ', the inlet openings 70 of the piston 60 are closed by the valve body 72 which is in the closed position 72'.
  • the valve body 72 cannot act as
  • the embodiments of the compressed gas switch according to the invention shown in the figures function as follows: In the switch-on position shown in FIGS. 1, 3 and 5, the actuating member 76 is shifted into its first latching position 76 ', so that the valve body 72 closes in its closed position closing the inlet openings 70 72 'is located.
  • the current largely flows from the connection 14 through the continuous current contact piece 12 the continuous current contact fingers 110 to the pump cylinder 20. From this via the sliding contact piece 102 to the second continuous current contact piece 50 and through the connecting flange 52 to the other connection of the compressed gas switch.
  • the remaining smaller part of the current flows through the fixed contact piece 10 and from this to the erosion contact piece 30 and across the bottom 18 to the cylinder jacket 20 '. From here, this current part flows along the path described above to the other connection of the gas pressure switch.
  • the continuous current contact fingers 110 first separate from the cylinder jacket 20 ', so that all of the current commutates into the fixed contact piece 10 and the erosion contact piece 30.
  • an arc is formed which is blown with the compressed gas compressed in the pump chamber 26 by the relative movement between the pump cylinder 20 and pump piston 42 until it is extinguished.
  • Part of the compressed gas flows through the blowing nozzle 16 into the surrounding space 94 and the other part through the passage 36 in the movable contact piece 28 into the blow-out space 40.
  • the negative pressure in the pump space 26 is compensated for by sucking in compressed gas through the inlet 22 and by means of the suction passages 54 released by the check valve body 56 under these pressure conditions.
  • the lugs 84 now run onto the second stop surface 98, which has the consequence that the actuating member 76 is pushed back from its second latching position 76 ′′ into the first latching position 76 ′.
  • the valve body 72 is transferred from the open position 72 ′′, which it assumed during switching on, to the closed position 72 ′. Before switching off, the valve body 72 is therefore always in the closed position 72 '.
  • the pressurized gas switch according to the invention supports the drive 67 when switching off medium and large currents and requires no more work from it when switching off small flows and when switching on than with a pressurized gas switch without a blowout space 40, without impairing the extinguishing behavior.
  • the compressed gas switch according to the invention thus manages with a drive 67 of low energy.
  • valve body 72 it is also conceivable to arrange the valve body 72 firmly on the actuating member 76, as shown in FIGS. 5 and 6, and to dispense with through holes 112. In this case, a vacuum occurs when the current is switched off or when small currents are switched in the blow-out space 40 built up, which can quickly extinguish the arc, but requires additional work from the drive.
  • the latching device 78 can of course be designed in different ways. It is conceivable to hold the actuating member 76 in the respective latched position by magnetic means. It is also conceivable to move the actuating member from one to the other latching position only in the switched-on or switched-off position of the pressure gas switch.
  • the locking device for the actuating member can be provided on the blow-out tube of the movable contact piece.

Landscapes

  • Circuit Breakers (AREA)
  • Driving Mechanisms And Operating Circuits Of Arc-Extinguishing High-Tension Switches (AREA)
  • Switches Operated By Changes In Physical Conditions (AREA)
  • Fluid-Driven Valves (AREA)
  • Gas-Insulated Switchgears (AREA)

Abstract

In a gas-blast circuit breaker, compressed gas is passed through the moving contact piece (28) into the arcing space (40). Said arcing space (40) is bounded by the cylinder (58) and the piston (60) which is moved with the moving contact piece (28). The piston (60) has inlet openings (70) which are closed by means of the valve body (72), such that they can be opened. The operating device (76) is supported on the neck (64) of the piston (60) so that said operating device (76) can be displaced in a reciprocating manner between two latching positions. During switching on, the tab (84) of the operating device (76) strikes against the stop surface (98), as a result of which the operating device (76) is moved into the first latching position (76'). At the same time, the valve body (72) is moved into the closed position (72'). Towards the end of the switching-off movement, the shaft (86) runs onto a stop (96) so that the operating device (76) is moved back into the upper second latching position, as a result of which the valve body (72) is moved into the open position and is held. During switching on, the arcing space (40) is thus connected to the surrounding space (94), and is separated from it again before the start of switching off. The drive is supported when switching off large currents and no more work is demanded of it during switching on and when switching off small currents. The gas-blast circuit breaker thus manages with a low power drive. <IMAGE>

Description

Die vorliegende Erfindung betrifft einen Druckgasschalter gemäss dem Oberbegriff des Anspruchs 1.The present invention relates to a gas pressure switch according to the preamble of claim 1.

Ein Druckgasschalter dieser Art ist aus der EP-A-0 380 907 bekannt. Beim Ausschalten grosser Ströme unterstützt das in einen Ausblasraum einströmende Löschgas den Antrieb. Um beim Einschalten einen vom Antrieb Mehrarbeit verlangenden Ueberdruck zu vermeiden, sind schieberartige Ventilmittel vorgesehen, die beim Einschalten infolge des dabei erzeugten, relativ grossen Ueberdruckes im Ausblasraum bezüglich dem Druck im Pumpraum in radialer Richtung verlaufende Öffnungen im den Ausblasraum begrenzenden Zylinder freigeben, um einen Druckausgleich zwischen dem Ausblasraum und dem Umgebungsraum zu gewährleisten. Um die Ventilmittel zu steuern, ist im den Pumpraum vom Ausblasraum trennenden Pumpkolben ein Steuerkolben vorgesehen. Damit der Antrieb beim Ausschalten kleiner Ströme nicht mehr Arbeit leisten muss als bei einem Schalter ohne Ausblasraum, ist ein diesen begrenzender und mit dem beweglichen Kontaktstück mitbewegter Kolben mit einem grossflächigen Rückschlagventil versehen, das beim Entstehen eines Unterdrucks im Ausblasraum bezüglich des Umgebungsraumes offen bleibt. Nachteilig bei diesem bekannten Schalter ist, dass zum Oeffnen der schieberartigen Ventilmittel ein bestimmter Druckunterschied zwischen dem Pumpraum und Ausblasraum aufgebaut werden muss, was Antriebsenergie benötigt, und dass zu Beginn eines Ausschalthubs die schieberartigen Ventilmittel zuerst wieder in ihre Geschlossenstellung verbracht werden müssen, wobei der Pumpraum durch das dabei stattfindende Verschieben des Steuerkolbens vergrössert wird. Dies hat zur Folge, dass der im Pumpraum aufgebaute Druck erniedrigt wird, was das Ausschaltvermögen des Schalters beeinträchtigt. Im weitern bedingen derartige schieberartige Ventilmittel einen komplizierten Aufbau des Druckgasschalters.A gas pressure switch of this type is known from EP-A-0 380 907. When large flows are switched off, the extinguishing gas flowing into a blow-out space supports the drive. In order to avoid an overpressure which requires additional work when the drive is switched on, slide-like valve means are provided which, when switched on, release openings in the cylinder delimiting the discharge chamber in the radial direction in relation to the pressure in the pump chamber as a result of the relatively large excess pressure in the blow-out chamber in order to equalize the pressure between the blow-out space and the surrounding space. In order to control the valve means, a control piston is provided in the pump piston separating the pump chamber from the blow-out chamber. So that the drive does not have to do more work when switching off small flows than with a switch without a blow-out space, a piston that delimits it and is moved with the movable contact piece is provided with a large-area check valve that remains open with respect to the surrounding space when a vacuum occurs in the blow-out space. The disadvantage of this known switch is that to open the slide-like valve means, a certain pressure difference must be built up between the pump space and the blow-out space, which requires drive energy, and that at the beginning of a switch-off stroke, the slide-like valve means must first be brought back into their closed position, the pump space enlarged by the shifting of the control piston becomes. This has the consequence that the pressure built up in the pump chamber is reduced, which affects the breaking capacity of the switch. In addition, such slide-like valve means cause a complicated structure of the pressure gas switch.

Es ist deshalb eine Aufgabe der vorliegenden Erfindung, einen gattungsgemässen Schalter derart weiterzubilden, dass er bei einfachem Aufbau verbesserte Schalteigenschaften aufweist und der Antrieb beim Einschalten des Schalters nicht mehr Arbeit leisten muss als bei einem Schalter ohne Ausblasraum.It is therefore an object of the present invention to develop a generic switch in such a way that it has improved switching properties with a simple construction and the drive does not have to do more work when the switch is switched on than with a switch without a blow-out space.

Diese Aufgabe wird durch einen gattungsgemässen Druckgasschalter, der die Merkmale des kennzeichnenden Teiles des Anspruchs 1 aufweist, gelöst. Die Ventilmittel werden in Abhängigkeit vom Hub des beweglichen Kontaktstücks gesteuert, was einen Einfluss auf den Pumpraum und den Aufbau von Druck zum Betätigen der Ventilmittel verhindert.This object is achieved by a generic pressure gas switch which has the features of the characterizing part of claim 1. The valve means are controlled depending on the stroke of the movable contact piece, which prevents an influence on the pump chamber and the build-up of pressure for actuating the valve means.

Besonders bevorzugte und im Aufbau äusserst einfache Ausbildungsformen des erfindungsgemässen Druckgasschalters sind in den Ansprüchen 2 und 3 angegeben.Particularly preferred and extremely simple design forms of the pressure gas switch according to the invention are specified in claims 2 and 3.

Die ebenfalls besonders bevorzugten Ausbildungsformen gemäss den Ansprüchen 4 und 6 gewährleisten, dass der Antrieb beim Ausschalten kleiner Ströme nicht mehr Arbeit zu leisten hat als bei Druckgasschaltern ohne Ausblasraum, in dem Unterdruck im Ausblasraum bezüglich dem Umgebungsraum verhindert wird. Besonders bevorzugt ist dabei wegen ihrer Einfachheit die Ausbildungsform gemäss Anspruch 4.The also particularly preferred forms of training according to claims 4 and 6 ensure that the drive does not have to do more work when switching off small currents than in compressed gas switches without a blow-out space, in which negative pressure in the blow-out space with respect to the surrounding space is prevented. The form of training according to claim 4 is particularly preferred because of its simplicity.

Weitere bevorzugte Ausbildungsformen des erfindungsgemässen Druckgasschalters sind in den verbleibenden abhängigen Ansprüchen angegeben.Further preferred embodiments of the inventive Gas pressure switches are specified in the remaining dependent claims.

Die vorliegende Erfindung wird nun anhand von zwei in der Zeichnung dargestellten Ausbildungsformen näher beschrieben. Es zeigen rein schematisch:

Fig. 1 und 2
in einem Längsschnitt teilweise eine erste Ausbildungsform eines erfindungsgemässen Druckgasschalters in Einschalt- bzw. Ausschaltstellung;
Fig. 3 und 4
in vergrösserter Darstellung die in den Figuren 1 und 2 mit den Pfeilen III bzw. IV bezeichneten Bereiche des Druckgasschalters und
Fig. 5 und 6
in gleicher Darstellung wie Figuren 3 und 4 einen Teil einer zweiten Ausbildungsform des erfindungsgemässen Druckgasschalters.
The present invention will now be described with reference to two training forms shown in the drawing. It shows purely schematically:
1 and 2
partly in a longitudinal section, a first embodiment of a compressed gas switch according to the invention in the on or off position;
3 and 4
in an enlarged view the areas of the pressure gas switch and indicated in FIGS. 1 and 2 with the arrows III and IV
5 and 6
in the same representation as FIGS. 3 and 4, part of a second embodiment of the compressed gas switch according to the invention.

Ein festes Kontaktstück 10, das parallel zu einem dieses koaxial umgebenden, ebenfalls festen Dauerstromkontaktstück 12 geschaltet ist, ist auf allgemein bekannte Art und Weise mit dem einen nur in Figur 1 schematisch angedeuteten Anschluss 14 des Druckgasschalters verbunden. Dieses feste Kontaktstück 10 verschliesst in Einschaltstellung (Figur 1) eine Blasdüse 16 aus Isolierstoff, die fest auf dem Boden 18 eines nach unten offenen metallischen Pumpzylinders 20 montiert ist und deren Einlass 22 über im Boden 18 vorhandene Strömungsdurchlässe 24 mit einem vom Pumpzylinder 20 umschlossenen Pumpraum 26 kommuniziert. Der Pumpzylinder 20 weist einen metallenen Zylindermantel 20' auf, an welchem im oberen Endbereich der Boden 18 befestigt ist. Der Boden 18 und somit der Pumpzylinder 20 sind fest an einem beweglichen Kontaktstück 28 verankert. Das bewegliche Kontaktstück 28 weist oberhalb des Bodens 18 ein tulpenartiges mit dem festen Kontaktstück 10 zusammenwirkendes und dieses in Einschaltstellung umfassendes Abbrandkontaktstück 30 auf, das in radialer Richtung gesehen auf der Innenseite den Einlass 22 der Blasdüse 16 begrenzt. Weiter weist das bewegliche Kontaktstück 28 ein vom Boden 18 weg in Richtung gegen unten sich erstreckendes Ausblasrohr 32 auf, das an seinem unteren Ende durch einen in Richtung gegen das Innere des Ausblasrohres 32 zugespitzten Zapfen 34 verschlossen ist. Das Abbrandkontaktstück 30 und das Ausblasrohr 32 umschliessen somit einen vom oberen freien Ende des beweglichen Kontaktstückes 28 ausgehenden, in axialer Richtung verlaufenden und den Boden 18 durchdringenden Durchlass 36, dessen Länge durch den Zapfen 34 beschränkt ist und der durch radiale Oeffnungen 38 im Ausblasrohr 32 in einen Ausblasraum 40 mündet.A fixed contact piece 10, which is connected in parallel to a continuous current contact piece 12 which surrounds it coaxially and is also fixed, is connected in a generally known manner to the one connector 14 of the compressed gas switch, which is only indicated schematically in FIG. In the switched-on position (FIG. 1), this fixed contact piece 10 closes a blowing nozzle 16 made of insulating material, which is fixedly mounted on the bottom 18 of a metallic pump cylinder 20 that is open at the bottom, and whose inlet 22 via flow passages 24 in the bottom 18 with a pump chamber enclosed by the pump cylinder 20 26 communicates. The pump cylinder 20 has a metal cylinder jacket 20 'on which the bottom 18 is fastened in the upper end region. The bottom 18 and thus the pump cylinder 20 are firmly anchored to a movable contact piece 28. The movable contact piece 28 has above the base 18 a tulip-like consumable contact piece 30 which cooperates with the fixed contact piece 10 and which, in the switched-on position, delimits the inlet 22 of the blow nozzle 16 on the inside, viewed in the radial direction. Furthermore, the movable contact piece 28 has a blow-out tube 32, which extends away from the bottom 18 in the direction towards the bottom and which is closed at its lower end by a pin 34 tapered towards the inside of the blow-out tube 32. The erosion contact piece 30 and the blow-out pipe 32 thus enclose a passage 36, which extends from the upper free end of the movable contact piece 28 and runs in the axial direction and penetrates the bottom 18, the length of which is limited by the pin 34 and which is restricted by radial openings 38 in the blow-out pipe 32 in a blow-out space 40 opens.

Auf der vom Boden 18 abgewandten Seite ist der Pumpraum 26 durch einen ortsfesten, ringartigen, das Ausblasrohr 32 oberhalb der Oeffnungen 38 dicht umgreifenden Pumpkolben 42 begrenzt. Der Pumpkolben 42 weist eine Umfangsnut auf, in welcher ein Kolbenring 44 aus Kunststoff angeordnet ist, an welchem der Zylindermantel 20' gleitend gelagert ist. Der Pumpkolben 42 liegt auf einem das Ausblasrohr 32 mit Abstand umgreifenden Stützrohr 46 auf, das unternends von einem Zwischenboden 48, eines im wesentlichen zylinderförmig ausgebildeten zweiten Dauerstromkontaktstückes 50 abgestützt ist. Vom zweiten Dauerstromkontaktstück 50 steht gegen aussen ein Anschlussflansch 52 ab, um die elektrische Verbindung zum in den Figuren nicht gezeigten andern Anschluss des Druckgasschalters sicherzustellen.On the side facing away from the bottom 18, the pump chamber 26 is delimited by a stationary, ring-like pump piston 42, which surrounds the blowout pipe 32 above the openings 38. The pump piston 42 has a circumferential groove in which a piston ring 44 made of plastic is arranged, on which the cylinder jacket 20 'is slidably mounted. The pump piston 42 rests on a support tube 46 which surrounds the blow-out tube 32 at a distance and which is supported at the bottom by an intermediate base 48 of an essentially cylindrical second continuous current contact piece 50. A connecting flange 52 protrudes from the second continuous current contact piece 50 to the outside Ensure electrical connection to the other connection of the pressure gas switch, not shown in the figures.

Der Pumpraum 26 und Ausblasraum 40 sind über Einsaugdurchlässe 54 im Pumpkolben 42 miteinander verbunden, welche durch einen ringförmigen, mit dem Pumpkolben 42 zusammenwirkenden Rückschlagventilkörper 56 freigebbar verschlossen sind. Der Rückschlagventilkörper 56 bildet mit dem Pumpkolben 42 zusammen ein Flatter- bzw. Rückschlagventil, welches bei Ueberdruck im Ausblasraum 40 bezüglich dem Druck im Pumpraum 26 öffnet.The pump chamber 26 and blow-out chamber 40 are connected to one another via suction passages 54 in the pump piston 42, which are releasably closed by an annular check valve body 56 which interacts with the pump piston 42. The check valve body 56 forms, together with the pump piston 42, a flap or check valve which opens when the overpressure in the blow-out chamber 40 is higher than the pressure in the pump chamber 26.

Der Bereich des zweiten Dauerstromkontaktstücks 50 unterhalb des Zwischenbodens 48 bildet einen Zylinder 58, in welchem ein Kolben 60 gleitend verschiebbar lagert. Der Kolben 60 weist eine Umfangsnut auf, in welchen ein Kolbenring 44' eingreift, um zwischen dem Zylinder 58 und dem Kolben 60 abzudichten. Im den Boden des Zylinders 58 bildenden Zwischenboden 48 ist eine in axialer Richtung verlaufende Verbindungsöffnung 62 vorgesehen, deren lichte Weite mit der lichten Weite des Stützrohres 46 fluchtet und somit den vom Stützrohr 46 und obernends vom Pumpkolben 42 begrenzten Teilraum 46' mit dem vom Zylinder 58 und Kolben 60 begrenzten Teilraum 58' verbindet. Der Ausblasraum 40 setzt sich somit aus diesen beiden Teilräumen 46' und 58' zusammen.The area of the second continuous current contact piece 50 below the intermediate base 48 forms a cylinder 58 in which a piston 60 is slidably supported. The piston 60 has a circumferential groove in which a piston ring 44 'engages to seal between the cylinder 58 and the piston 60. In the intermediate base 48 forming the base of the cylinder 58, a connection opening 62 is provided which extends in the axial direction, the inside width of which is aligned with the inside width of the support tube 46 and thus the sub-space 46 'delimited by the support tube 46 and on the top by the pump piston 42 with that of the cylinder 58 and piston 60 bounding partial space 58 '. The blow-out space 40 is thus composed of these two sub-spaces 46 'and 58'.

Am Kolben 60 ist ein gegen oben abstehender Hals 64 einstückig angeformt, in welchen das Ausblasrohr 32 mit seinem unteren Endbereich eingeschraubt ist. Auf der vom Hals 64 abgewandten Seite steht vom Kolben 60 eine Verbindungsnase 66 ab, an welcher eine mit einem nur in Figur 1 schematisch angedeuteten Antrieb 67 verbundene Betätigungsstange 68 aus Isolierstoff angelenkt ist.On the piston 60, a neck 64 protruding upwards is integrally formed, into which the blow-out pipe 32 is screwed with its lower end region. On the side facing away from the neck 64, a connecting lug 66 protrudes from the piston 60, on which an actuating rod connected to a drive 67 only indicated schematically in FIG. 1 68 is articulated from insulating material.

Im Kolben 60 sind grossflächige Einlassöffnungen 70 vorgesehen (vergleiche auch Figuren 3 und 4), welche mittels eines scheibenringförmigen, den Hals 64 mit Spiel umgreifenden und mit dem Kolben 60 zusammenwirkenden Ventilkörpers 72 verschliessbar sind. Steuermittel 74 lassen den Ventilkörper 72 in seiner Schliessstellung 72' am Kolben 60, auf dessen dem Ausblasraum 40 zugewandten Seite anliegen, um die Einlassöffnungen 70 zu verschliessen (Figuren 1 und 3) oder halten den Ventilkörper 72 in Offenstellung 72'', wie dies die Figuren 2 und 4 zeigen. Ein ringförmiges Betätigungsorgan 76 der Steuermittel 74 umgreift den Hals 64 des Kolbens 60 und ist an jenem in axialer Richtung verschiebbar geführt. Eine Rasteinrichtung 78 definiert eine untere erste Raststellung 76' (Figuren 1 und 3) und eine obere zweite Raststellung 76'' (Figuren 2 und 4) für das Betätigungsorgan 76. Zu diesem Zweck weist das Betätigungsorgan 76 in axialer Richtung um den Abstand zwischen der ersten und der zweiten Raststellung 76', 76'' voneinander beabstandete, umlaufende Rastnuten 80, 80' auf, die mit im Hals 64 des Kolbens 60 in radialer Richtung verschiebbaren und in Richtung gegen aussen vorgespannten Rastkugeln 82 zusammenwirken.Large-area inlet openings 70 are provided in the piston 60 (see also FIGS. 3 and 4), which can be closed by means of a disk-shaped valve body 72 which engages around the neck 64 with play and cooperates with the piston 60. Control means 74 leave the valve body 72 in its closed position 72 'on the piston 60, on its side facing the blow-out space 40, in order to close the inlet openings 70 (FIGS. 1 and 3) or hold the valve body 72 in the open position 72' ', as is the case with the Figures 2 and 4 show. An annular actuating member 76 of the control means 74 engages around the neck 64 of the piston 60 and is guided on the latter in an axially displaceable manner. A locking device 78 defines a lower first locking position 76 '(Figures 1 and 3) and an upper second locking position 76' '(Figures 2 and 4) for the actuating member 76. For this purpose, the actuating member 76 points in the axial direction by the distance between the first and second locking positions 76 ', 76' ', circumferential locking grooves 80, 80' spaced apart from each other, which cooperate with locking balls 82 which are displaceable in the radial direction in the neck 64 of the piston 60 and biased towards the outside.

Vom Betätigungsorgan 76 stehen in radialer Richtung gegen aussen Nasen 84 ab, von welchen in den Figuren 1 bis 4 je nur eine gezeigt ist. An jeder Nase 84 ist ein in axialer Richtung verlaufender, in seinem Durchmesser abgestufter Schaft 86 befestigt, der mit seinem an die Nase 84 angrenzenden, im Durchmesser kleineren Schaftteil 86' den Ventilkörper 72 und mit seinem im Durchmesser grösseren Schaftteil 86'' den Kolben 60 durchgreift. Die Abstufung im Schaft 86 bildet eine Schleppverbindung zwischen dem Ventilkörper 72 und dem Betätigungsorgan 76. Befindet sich das Betätigungsorgan 76 in seiner ersten Raststellung 76' (Figuren 1 und 3), verschliesst der Ventilkörper 72 die Einlassöffnungen 70. Der Abstand zwischen der Unterkante der Nase 84 und dem sich in Schliessstellung 72' befindenden Ventilkörper 72 lässt diesen als Flatter- oder Ueberdruckventil wirken. Befindet sich das Betätigungsorgan 76 hingegen in seiner zweiten Raststellung 76'' (Figuren 2 und 4), sorgt die Schleppverbindung durch die Stufe im Schaft 86 zwischen dem ersten und zweiten Schaftteil 86', 86'' dafür, dass der Ventilkörper 72 immer in Offenstellung 72'' gehalten ist.Lugs 84 protrude from the actuating member 76 in the radial direction toward the outside, only one of which is shown in FIGS. 1 to 4. Attached to each lug 84 is an axially extending shaft 86 with a stepped diameter, which with its smaller-diameter stem part 86 'adjoining the lug 84 has the valve body 72 and with its larger-diameter stem part 86''the piston 60 reaches through. The gradation in the shaft 86 forms a drag connection between the valve body 72 and the actuating member 76. If the actuating member 76 is in its first latching position 76 '(FIGS. 1 and 3), the valve body 72 closes the inlet openings 70. The distance between the lower edge of the nose 84 and the valve body 72 which is in the closed position 72 'allows it to act as a flap or pressure relief valve. If, on the other hand, the actuating member 76 is in its second latching position 76 ″ (FIGS. 2 and 4), the towing connection through the step in the shaft 86 between the first and second shaft parts 86 ′, 86 ″ ensures that the valve body 72 is always in the open position 72 '' is held.

Mit seinem untern Ende ist das zweite Dauerstromkontaktstück 50 an einem ringförmigen Halteflansch 90 befestigt, der die Betätigungsstange 68 mit Abstand umgreift und über Stützisolatoren 92 an einem nicht gezeigten Schaltergehäuse abgestützt ist. Dieses Schaltergehäuse umschliesst einen Umgebungsraum 94, in dem alle bisher beschriebenen Bestandteile angeordnet sind und in dem ein unter Ueberdruck stehendes Löschgas, z.B. SF6 vorhanden ist.With its lower end, the second continuous current contact piece 50 is fastened to an annular holding flange 90 which surrounds the actuating rod 68 at a distance and is supported on a switch housing (not shown) via support insulators 92. This switch housing encloses an ambient space 94 in which all the components described so far are arranged and in which an extinguishing gas under excess pressure, e.g. SF6 is present.

Am Halteflansch 90 ist auf seiner dem Kolben 60 zugewandten Seite eine erste Anschlagfläche 96 ausgebildet, die mit dem unteren Ende des als erster Gegenanschlag wirkenden Schaftes 86 zusammenwirkt. In ähnlicher Art und Weise ist an der ebenfalls dem Kolben 60 zugewandten Seite des Zwischenbodens 48 eine zweite Anschlagfläche 98 vorgesehen, die mit den als zweiter Gegenanschlag wirkenden Nasen 84 zusammenwirkt. Ein am Hals 64 befestigter Federring 100 und der Kolben 60 stellen sicher, dass das mit dem Kolben 60 mitbewegliche Betätigungsorgan 76 nur zwischen seiner ersten und zweiten Raststellung 76', 76'' hin und her verschoben werden kann.A first stop surface 96 is formed on the holding flange 90 on its side facing the piston 60 and cooperates with the lower end of the shaft 86 acting as the first counter stop. In a similar manner, a second stop surface 98 is provided on the side of the intermediate base 48 which also faces the piston 60 and which cooperates with the lugs 84 which act as a second counter-stop. A spring ring 100 fastened to the neck 64 and the piston 60 ensure that the actuating member 76 which is movable with the piston 60 only between its first and second locking position 76 ', 76''can be moved back and forth.

Am obern Ende des zweiten Dauerstromkontaktstücks 50 ist etwa auf der Höhe des Pumpkolbens 42 ein kronenähnliches Gleitkontaktstück 102 befestigt, dessen selbstfedernde Kontaktfinger 102', unter der zusätzlichen Wirkung einer diese umgreifenden Feder 104, am Zylindermantel 20' anliegen. Zur Führung des Pumpzylinders 20 ist im oberen Endbereich des jenen umgreifenden zweiten Dauerstromkontaktstückes 50 ein Gleitring 106 vorgesehen.At the upper end of the second continuous current contact piece 50, a crown-like sliding contact piece 102 is attached approximately at the level of the pump piston 42, the self-resilient contact fingers 102 'of which rest against the cylinder jacket 20' under the additional effect of a spring 104 encompassing them. A slide ring 106 is provided for guiding the pump cylinder 20 in the upper end region of the second continuous current contact piece 50 encompassing it.

Das Dauerstromkontaktstück 12 weist an seinem unteren, dem Pumpzylinder 20 zugewandten Endbereich von einer Haube 108 überdeckte, federnd ausgebildete und mit dem Pumpzylinder 20 zusammenwirkende Dauerstromkontaktfinger 110 auf.The continuous current contact piece 12 has, at its lower end region facing the pump cylinder 20, covered by a hood 108, resiliently designed and interacting with the pump cylinder 20, continuous current contact fingers 110.

Mit Ausnahme der zwei im folgenden näher beschriebenen Unterschiede entspricht die in den Figuren 5 und 6 nur teilweise gezeigte Ausbildungsform des Druckgasschalters der in den Figuren 1 bis 4 gezeigten und weiter oben ausführlich beschriebenen Ausbildungsform. In den Figuren 5 und 6 werden für gleiche Teile die gleichen Bezugszeichen wie in den Figuren 1 bis 4 verwendet.With the exception of the two differences described in more detail below, the embodiment of the compressed gas switch shown only partially in FIGS. 5 and 6 corresponds to the embodiment shown in FIGS. 1 to 4 and described in detail above. In Figures 5 and 6, the same reference numerals are used for the same parts as in Figures 1 to 4.

Die Figuren 5 und 6 zeigen den Bereich des Kolbens 60 in Einschalt- bzw. Ausschaltstellung des Schalters. Am vom Kolben 60 in Richtung gegen oben abstehenden Hals 64 ist das Betätigungsorgan 76 in axialer Richtung verschiebbar gelagert. Die Rasteinrichtung 78 definiert die erste Raststellung 76' (Figur 5) und zweite Raststellung 76'' (Figur 6) für das Betätigungsorgan 76. Der an der Nase 84 des Betätigungsorgans 76 befestigte Schaft 86 durchdringt den tellerscheibenförmigen Ventilkörper 72 sowie den Kolben 60 und hält den Ventilkörper 72 zwischen der Stufe zwischen den Schaftteilen 86' und 86'' und den Nasen 84 eingeklemmt bezüglich des Betätigungsorgans 76 unverschiebbar fest. Befindet sich das Betätigungsorgan 76 in seiner ersten Raststellung 76', sind die Einlassöffnungen 70 des Kolbens 60 durch den sich in Schliessstellung 72' befindenden Ventilkörper 72 verschlossen. Der Ventilkörper 72 kann nicht als Flatterventil wirken.FIGS. 5 and 6 show the area of the piston 60 in the on or off position of the switch. On the neck 64 protruding from the piston 60 in the direction toward the top, the actuating member 76 is mounted such that it can be moved in the axial direction. The latching device 78 defines the first latching position 76 '(FIG. 5) and the second latching position 76''(FIG. 6) for the actuating member 76. The shaft 86 fastened to the nose 84 of the actuating member 76 penetrates the disc-shaped valve body 72 and the piston 60 and holds the valve body 72 between the step between the shaft parts 86 'and 86''and the lugs 84 clamped immovably with respect to the actuator 76. If the actuating member 76 is in its first latching position 76 ', the inlet openings 70 of the piston 60 are closed by the valve body 72 which is in the closed position 72'. The valve body 72 cannot act as a flutter valve.

Im Zwischenboden 48 des zweiten Dauerstromkontaktstücks 50 sind den Umgebungsraum 94 mit dem Ausblasraum 40 verbindende Durchgangslöcher 112 vorgesehen, die durch ein Rückschlagventil 114 bei Ueberdruck im Ausblasraum 40 bezüglich dem Druck im Umgebungsraum 94 die Durchgangslöcher 112 verschliessen. Diese Rückschlagventile 114 übernehmen somit die Funktion des bei der Ausbildungsform gemäss den Figuren 1 bis 4 als Flatterventil wirkenden Ventilkörpers 72. Der Vollständigkeit halber sei erwähnt, dass der vom Zwischenboden 48 und Pumpkolben 42 sowie dem zweiten Dauerstromkontaktstück 50 und Stützrohr 46 begrenzte Ringraum, in welchem die Durchgangslöcher 112 münden, durch radiale Oeffnungen 116 im zweiten Dauerstromkontaktstück 50 mit dem Umgebungsraum 94 kommuniziert.In the intermediate floor 48 of the second continuous-current contact piece 50, through-holes 112 connecting the surrounding space 94 with the blow-out space 40 are provided, which close the through-holes 112 by means of a check valve 114 at excess pressure in the blow-out space 40 with respect to the pressure in the surrounding space 94. These check valves 114 thus take over the function of the valve body 72 which acts as a flap valve in the embodiment according to FIGS. 1 to 4. For the sake of completeness, it should be mentioned that the annular space delimited by the intermediate base 48 and pump piston 42 as well as the second continuous flow contact piece 50 and support tube 46 the through holes 112 open, communicates with the surrounding space 94 through radial openings 116 in the second continuous current contact piece 50.

Die in den Figuren gezeigten Ausbildungsformen des erfindungsgemässen Druckgasschalters funktionieren wie folgt: In der in den Figuren 1, 3 und 5 gezeigten Einschaltstellung ist das Betätigungsorgan 76 in seine erste Raststellung 76' verschoben, so dass sich der Ventilkörper 72 in seiner die Einlassöffnungen 70 verschliessenden Schliessstellung 72' befindet. Der Strom fliesst zum grössten Teil vom Anschluss 14 durch das Dauerstromkontaktstück 12 über die Dauerstromkontaktfinger 110 zum Pumpzylinder 20. Von diesem über den Gleitkontaktstück 102 auf das zweite Dauerstromkontaktstück 50 und durch den Anschlussflansch 52 zum andern Anschluss des Druckgasschalters. Der verbleibende kleinere Teil des Stromes fliesst durch das feste Kontaktstück 10 und von diesem zum Abbrandkontaktstück 30 und über den Boden 18 zum Zylindermantel 20'. Von hier aus fliesst dieser Stromteil entlang dem oben beschriebenen Weg zum andern Anschluss des Druckgasschalters.The embodiments of the compressed gas switch according to the invention shown in the figures function as follows: In the switch-on position shown in FIGS. 1, 3 and 5, the actuating member 76 is shifted into its first latching position 76 ', so that the valve body 72 closes in its closed position closing the inlet openings 70 72 'is located. The current largely flows from the connection 14 through the continuous current contact piece 12 the continuous current contact fingers 110 to the pump cylinder 20. From this via the sliding contact piece 102 to the second continuous current contact piece 50 and through the connecting flange 52 to the other connection of the compressed gas switch. The remaining smaller part of the current flows through the fixed contact piece 10 and from this to the erosion contact piece 30 and across the bottom 18 to the cylinder jacket 20 '. From here, this current part flows along the path described above to the other connection of the gas pressure switch.

Wird das bewegliche Kontaktstück 28 durch den Antrieb 67 von seiner Einschaltstellung (Figuren 1, 3 und 5) um seinen Schalthub in die Ausschaltstellung (Figuren 2, 4 und 6) verbracht, so trennen sich zuerst die Dauerstromkontaktfinger 110 vom Zylindermantel 20', so dass der gesamte Strom in das feste Kontaktstück 10 und das Abbrandkontaktstück 30 hineinkommutiert. Beim nachfolgenden Trennen des Abbrandkontaktstückes 30 vom festen Kontaktstück 10 wird ein Lichtbogen gebildet, der mit dem im Pumpraum 26 durch die Relativbewegung zwischen dem Pumpzylinder 20 und Pumpkolben 42 komprimierten Druckgas bis zu seiner Löschung beblasen wird. Ein Teil des Druckgases strömt dabei durch die Blasdüse 16 in den Umgebungsraum 94 und der andere Teil durch den Durchlass 36 im beweglichen Kontaktstück 28 hindurch in den Ausblasraum 40.If the movable contact piece 28 is moved by the drive 67 from its switched-on position (FIGS. 1, 3 and 5) by its switching stroke to the switched-off position (FIGS. 2, 4 and 6), the continuous current contact fingers 110 first separate from the cylinder jacket 20 ', so that all of the current commutates into the fixed contact piece 10 and the erosion contact piece 30. During the subsequent separation of the erosion contact piece 30 from the fixed contact piece 10, an arc is formed which is blown with the compressed gas compressed in the pump chamber 26 by the relative movement between the pump cylinder 20 and pump piston 42 until it is extinguished. Part of the compressed gas flows through the blowing nozzle 16 into the surrounding space 94 and the other part through the passage 36 in the movable contact piece 28 into the blow-out space 40.

Beim stromlosen Ausschalten und beim Ausschalten kleiner Ströme wird das Druckgas durch den Lichtbogen nicht oder sehr wenig aufgeheizt, so dass sich im Ausblasraum 40 bezüglich den Umgebungsraum 94 ein Unterdruck aufbauen möchte, da erstens nicht sämtliches aus dem Pumpraum 26 verdrängte Druckgas in den Ausblasraum 40 strömt und zweitens der Ausblasraum 40 stärker vergrössert als der Pumpraum 26 verkleinert wird, weil die aktive Fläche des Kolbens 60 grösser ist als jene des Pumpkolbens 42. Der Aufbau des Unterdrucks im Ausblasraum 40 wird aber dadurch verhindert, dass bei der Ausführungsform gemäss den Figuren 1 bis 4 der Ventilkörper 72 als Flatterventil wirkt und den Umgebungsraum 94 mit dem Ausblasraum 40 verbindet, und bei der Ausbildungsform gemäss den Figuren 5 und 6 das Rückschlagventil 114 öffnet, um ebenfalls den Umgebungsraum 94 mit dem Ausblasraum 40 strömungsmässig zu verbinden. Da in diesem Fall im Ausblasraum 40 kein Unterdruck aufgebaut werden kann, muss der Antrieb 67 nicht mehr Arbeit leisten, als dies bei einem Schalter ohne Ausblasraum 40 der Fall wäre.When the current is switched off and when small currents are switched off, the compressed gas is not heated or is heated up very little by the arc, so that a negative pressure would like to build up in the blow-out space 40 with respect to the surrounding space 94, because firstly not all of the compressed gas displaced from the pump space 26 flows into the blow-out space 40 and secondly, the blow-out space 40 is enlarged more than the pump space 26 is reduced, because the active area of the piston 60 is larger than that of the pump piston 42. However, the build-up of the negative pressure in the blow-out space 40 is prevented by the fact that in the embodiment according to FIGS. 1 to 4 the valve body 72 acts as a flap valve and the surrounding space 94 connects to the blow-out space 40, and in the embodiment according to FIGS. 5 and 6 opens the check valve 114 in order also to connect the surrounding space 94 to the blow-out space 40 in terms of flow. In this case, since no negative pressure can be built up in the blow-out space 40, the drive 67 does not have to do more work than would be the case with a switch without a blow-out space 40.

Beim Ausschalten mittlerer und grosser Ströme wird das aus dem Pumpraum 26 herausgepresste Druckgas stark erhitzt, was zur Folge hat, dass im Ausblasraum 40 bezüglich dem Umgebungsraum 94 ein Ueberdruck aufgebaut wird. Der Ventilkörper 72 bleibt somit in seiner Schliessstellung 72', und bei der Ausbildungsform gemäss den Figuren 5 und 6 ist das Rückschlagventil 114 verschlossen. Durch den Ueberdruck im Ausblasraum 40 wird somit beim Schalten mittlerer und grosser Ströme der Antrieb 67 unterstützt.When medium and large flows are switched off, the pressurized gas pressed out of the pump chamber 26 is strongly heated, which has the consequence that an overpressure is built up in the blow-out chamber 40 with respect to the surrounding chamber 94. The valve body 72 thus remains in its closed position 72 ', and in the embodiment according to FIGS. 5 and 6 the check valve 114 is closed. The drive 67 is thus supported by the excess pressure in the blow-out space 40 when switching medium and large currents.

Gegen Ende des Ausschalthubes läuft nun jeweils der Schaft 86 auf die erste Anschlagfläche 96 auf, was zur Folge hat, dass das mit dem Kolben 60 bis zu diesem Zeitpunkt mitbewegte Betätigungsorgan 76 von seiner ersten Raststellung 76' in die zweite Raststellung 76'' verschoben wird (Figuren 2, 4 und 6). Dadurch wird der Ventilkörper 72 in seine Offenstellung 72'' überführt und dort behalten.Towards the end of the switch-off stroke, the shaft 86 now runs onto the first stop surface 96, which has the consequence that the actuating member 76 which has been moved with the piston 60 up to this point in time is displaced from its first detent position 76 'to the second detent position 76' ' (Figures 2, 4 and 6). As a result, the valve body 72 is transferred to its open position 72 ″ and kept there.

Beim Einschalten, bei welchem das bewegliche Kontaktstück 28 zusammen mit der Blasdüse 16, dem Pumpzylinder 20, dem Kolben 60 und dem mitbeweglichen Betätigungsorgan 76 in Richtung gegen oben bewegt werden, wird der Pumpraum 26 vergrössert und der Ausblasraum 40 verkleinert. Der nun durch das in der zweiten Raststellung 76'' verrastete Betätigungsorgan 76 zwangsweise in Offenstellung 72'' gehaltene Ventilkörper 72 hält die Einlassöffnungen 70 frei, so dass sich im Ausblasraum 40 kein Ueberdruck aufbauen kann. Infolgedessen hat beim Einschalten der Antrieb 67 keine Mehrarbeit zu leisten im Vergleich zu einem Schalter ohne Ausblasraum 40. Der Unterdruck im Pumpraum 26 wird durch Einsaugen von Druckgas durch den Einlass 22 sowie durch die unter diesen Druckbedingungen vom Rückschlagventilkörper 56 freigegebenen Einsaugdurchlässe 54 ausgeglichen. Gegen Ende des Einschaltvorganges laufen nun die Nasen 84 auf die zweite Anschlagfläche 98 auf, was zur Folge hat, dass das Betätigungsorgan 76 von seiner zweiten Raststellung 76'' in die erste Raststellung 76' zurückverschoben wird. Dadurch wird der Ventilkörper 72 von der Offenstellung 72'', die er während dem Einschalten eingenommen hat, in die Schliessstellung 72' überführt. Vor Beginn des Ausschaltens befindet sich somit der Ventilkörper 72 immer in Schliessstellung 72'.When switching on, in which the movable contact piece 28 together with the blowing nozzle 16, the pump cylinder 20, the piston 60 and the movable actuating member 76 are moved in the upward direction, the pump chamber 26 is enlarged and the blow-out chamber 40 is reduced. The valve body 72, which is now forcibly held in the open position 72 ″ by the actuating member 76, which is locked in the second latching position 76 ″, keeps the inlet openings 70 clear, so that no excess pressure can build up in the blow-out space 40. As a result, when the drive 67 is switched on, there is no additional work to be done in comparison to a switch without a blow-out space 40. The negative pressure in the pump space 26 is compensated for by sucking in compressed gas through the inlet 22 and by means of the suction passages 54 released by the check valve body 56 under these pressure conditions. Towards the end of the switch-on process, the lugs 84 now run onto the second stop surface 98, which has the consequence that the actuating member 76 is pushed back from its second latching position 76 ″ into the first latching position 76 ′. As a result, the valve body 72 is transferred from the open position 72 ″, which it assumed during switching on, to the closed position 72 ′. Before switching off, the valve body 72 is therefore always in the closed position 72 '.

Der erfindungsgemässe Druckgasschalter unterstützt den Antrieb 67 beim Ausschalten mittlerer und grosser Ströme und verlangt von diesem beim Ausschalten kleiner Ströme sowie beim Einschalten nicht mehr Arbeit als bei einem Druckgasschalter ohne Ausblasraum 40, ohne dass dabei das Löschverhalten beeinträchtigt wird. Der erfindungsgemässe Druckgasschalter kommt somit mit einem Antrieb 67 geringer Energie aus.The pressurized gas switch according to the invention supports the drive 67 when switching off medium and large currents and requires no more work from it when switching off small flows and when switching on than with a pressurized gas switch without a blowout space 40, without impairing the extinguishing behavior. The compressed gas switch according to the invention thus manages with a drive 67 of low energy.

Es ist auch denkbar, den Ventilkörper 72 fest am Betätigungsorgan 76 anzuordnen, wie dies in den Figuren 5 und 6 gezeigt ist, und auf Durchgangslöcher 112 zu verzichten.In diesem Fall wird beim stromlosen Ausschalten bzw. beim Schalten kleiner Ströme im Ausblasraum 40 ein Unterdruck aufgebaut, was zu einer schnellen Löschung des Lichtbogens führen kann, allerdings vom Antrieb Mehrarbeit erfordert.It is also conceivable to arrange the valve body 72 firmly on the actuating member 76, as shown in FIGS. 5 and 6, and to dispense with through holes 112. In this case, a vacuum occurs when the current is switched off or when small currents are switched in the blow-out space 40 built up, which can quickly extinguish the arc, but requires additional work from the drive.

Die Rasteinrichtung 78 kann selbstverständlich auf unterschiedliche Art und Weise ausgebildet sein. So ist es denkbar, das Betätigungsorgan 76 durch magnetische Mittel in der jeweiligen Raststellung zu halten. Es ist auch denkbar, das Betätigungsorgan jeweils erst in Einschalt- bzw. Ausschaltstellung des Druckgasschalters von der einen in die andere Raststellung zu verbringen. Selbstverständlich kann die Rasteinrichtung für das Betätigungsorgan am Ausblasrohr des beweglichen Kontaktstückes vorgesehen sein.The latching device 78 can of course be designed in different ways. It is conceivable to hold the actuating member 76 in the respective latched position by magnetic means. It is also conceivable to move the actuating member from one to the other latching position only in the switched-on or switched-off position of the pressure gas switch. Of course, the locking device for the actuating member can be provided on the blow-out tube of the movable contact piece.

Claims (9)

Druckgasschalter mit einem festen und einem beweglichen, in einem ein Löschgas aufweisenden Umgebungsraum (94) angeordneten Kontaktstück (10, 28), wobei das bewegliche Kontaktstück (28) mit einem von seinem freien Ende ausgehenden axialen Durchlass (36) versehen und von einer in Einschaltstellung durch das feste Kontaktstück (10) durchdrungenen Blasdüse (16) umgeben ist, deren Einlass (22) mit einem bei einem Ausschalthub unter Druck setzbaren, durch einen Pumpzylinder (20) und einen Pumpkolben (42) begrenzten Pumpraum (26) kommuniziert, wobei der axiale Durchlass (36) am von dem freien Ende des beweglichen Kontaktstückes (28) abgekehrten Ende in einen Ausblasraum (40) mündet, der durch einen Zylinder (58) und einen mit dem beweglichen Kontaktstück (28) mitbeweglichen Kolben (60) begrenzt und mit dem Umgebungsraum (94) über gesteuerte Ventilmittel (72) beim Einschalten in Verbindung bringbar ist, dadurch gekennzeichnet, dass Steuermittel (74) vorgesehen sind um die Ventilmittel (72) gegen Ende des Ausschalthubes zu öffnen und offen zu halten bis beim Einschalten die Einschaltstellung im wesentlichen erreicht ist.Compressed gas switch with a fixed and a movable contact piece (10, 28) arranged in an ambient space (94) containing an extinguishing gas, the movable contact piece (28) being provided with an axial passage (36) extending from its free end and one in the switched-on position is surrounded by the fixed contact piece (10) penetrated blowing nozzle (16), the inlet (22) of which can be pressurized during a switch-off stroke and is limited by a pump cylinder (20) and a pump piston (42) pump chamber (26), the axial passage (36) at the end facing away from the free end of the movable contact piece (28) opens into a blow-out space (40) which is delimited by a cylinder (58) and a piston (60) movable with the movable contact piece (28) and with the surrounding space (94) can be connected via controlled valve means (72) when switched on, characterized in that control means (74) are provided around the valve center Open (72) towards the end of the switch-off stroke and keep it open until the switch-on position is essentially reached when switching on. Druckgasschalter nach Anspruch 1, dadurch gekennzeichnet, dass die Steuermittel ein in Bewegungsrichtung des Kolbens (60) bewegliches, auf den Ventilkörper (72) des Ventilmittels zur Einwirkung bringbares Betätigungsorgan (76) und eine Rasteinrichtung (78) mit zwei Raststellungen (76', 76'') für das Betätigungsorgan (76) aufweisen, wobei das Betätigungsorgan (76) gegen oder am Ende des Ausschalthubes durch Auftreffen auf einen ersten Anschlag (96) von einer, der Schliessstellung (72') des Ventilkörpers (72) entsprechenden ersten Raststellung (76') in eine, der Offenstellung (72'') des Ventilkörpers (72) entsprechende zweite Raststellung (76'') und beim Einschalten kurz vor oder beim Erreichen der Einschaltstellung durch Auftreffen auf einen zweiten Anschlag (98) von der zweiten (76'') in die erste Raststellung (76') überführbar ist.Compressed gas switch according to claim 1, characterized in that the control means comprises an actuating member (76) which is movable in the direction of movement of the piston (60) and can be brought into action on the valve body (72) of the valve means and a latching device (78) with two latched positions (76 ', 76 '') for the actuator (76), the actuating member (76) towards or at the end of the switch-off stroke by hitting a first stop (96) from a first latching position (76 ') corresponding to the closed position (72') of the valve body (72) into a, the second detent position (76 '') corresponding to the open position (72 '') of the valve body (72) and when switching on shortly before or when reaching the switch-on position by hitting a second stop (98) from the second (76 '') to the first Locking position (76 ') can be transferred. Druckgasschalter nach Anspruch 2, dadurch gekennzeichnet, dass der erste und der zweite Anschlag (99, 98) orsfest sind.Compressed gas switch according to claim 2, characterized in that the first and the second stop (99, 98) are stationary. Druckgasschalter nach Anspruch 2 oder 3, dadurch gekennzeichnet, dass der Ventilkörper (72) mit dem Betätigungsorgan (76) über eine Schleppverbindung (86, 86', 86'') derart gekuppelt ist, dass in der ersten Raststellung (76') der Ventilkörper (72) ein Flatterventil mit freiem Durchlass in Richtung vom Umgebungssraum (94) in den Ausblasraum (40) bildet.Compressed gas switch according to claim 2 or 3, characterized in that the valve body (72) is coupled to the actuating member (76) via a towing connection (86, 86 ', 86' ') in such a way that the valve body in the first detent position (76') (72) forms a flap valve with a free passage in the direction from the surrounding space (94) into the blow-out space (40). Druckgasschalter nach einem der Ansprüche 1 bis 4, dadurch gekennzeichnet, dass der, vorzugsweise ringscheibenartig ausgebildete Ventilkörper (72) der Ventilmittel mit dem Kolben (60) zusammenwirkt, um in diesem vorgesehene Einlassöffnungen (70) freigebbar zu verschliessen.Compressed gas switch according to one of Claims 1 to 4, characterized in that the valve body (72) of the valve means, which is preferably designed in the form of an annular disk, cooperates with the piston (60) in order to release the openings (70) provided therein. Druckgasschalter nach einem der Ansprüche 1 bis 4, dadurch gekennzeichnet, dass der Ausblasraum (40) mit dem Umgebungsraum (94) über ein Rückschlagventil (114) mit freiem Durchlass in Richtung vom Umgebungssraum (94) in den Ausblasraum (40) verbunden ist.Compressed gas switch according to one of claims 1 to 4, characterized in that the blow-out space (40) with the surrounding space (94) is connected via a check valve (114) with free passage in the direction from the surrounding space (94) into the blow-out space (40). Druckgasschalter nach einem der Ansprüche 2 bis 5, dadurch gekennzeichnet, dass das Betätigungsorgan (76) im Innern des Ausblasraumes (40) angeordnet und ringförmig, das bewegliche Kontaktstück (28) oder einen am Kolben (60) angeformten Hals (64) umfassend ausgebildet ist, und die Rasteinrichtung (78) im beweglichen Kontaktstück (28) bzw. im Hals (64) des Kolbens (60) ein federbelastetes Rastglied (82), vorzugsweise eine Kugel aufweist, das mit zwei Rastnuten (80, 80') am Betätigungsorgan (76) zusammenwirkt.Compressed gas switch according to one of claims 2 to 5, characterized in that the actuating member (76) is arranged in the interior of the blow-out space (40) and is ring-shaped, comprising the movable contact piece (28) or a neck (64) formed on the piston (60) , and the locking device (78) in the movable contact piece (28) or in the neck (64) of the piston (60) has a spring-loaded locking member (82), preferably a ball, which has two locking grooves (80, 80 ') on the actuating member ( 76) interacts. Druckgasschalter nach Anspruch 7, dadurch gekennzeichnet, dass das Betätigungsorgan (76) ein den Kolben (60) durchdringendes, mit dem ausserhalb des Ausblasraumes (40) vorgesehenen ersten Anschlag (96) zusammenwirkendes Gegenanschlagselement (86) aufweist, und der zweite Anschlag (98) im Ausblasraum (40) vorgesehen ist.Compressed gas switch according to claim 7, characterized in that the actuating member (76) has a counter-stop element (86) penetrating the piston (60) and cooperating with the first stop (96) provided outside the blow-out space (40), and the second stop (98) is provided in the blow-out space (40). Druckgasschalter nach Anspruch 2, dadurch gekennzeichnet, dass die Rasteinrichtung magnetische Mittel aufweist um das Betätigungsorgan in der ersten und/oder zweiten Raststellung zu halten.Compressed gas switch according to claim 2, characterized in that the latching device has magnetic means to hold the actuating member in the first and / or second latching position.
EP92104468A 1991-04-12 1992-03-16 Gas blast circuit breaker Expired - Lifetime EP0508160B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CH1103/91 1991-04-12
CH110391 1991-04-12

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EP0508160A2 true EP0508160A2 (en) 1992-10-14
EP0508160A3 EP0508160A3 (en) 1993-02-24
EP0508160B1 EP0508160B1 (en) 1994-12-14

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EP92104468A Expired - Lifetime EP0508160B1 (en) 1991-04-12 1992-03-16 Gas blast circuit breaker

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US (1) US5248862A (en)
EP (1) EP0508160B1 (en)
JP (1) JP3378266B2 (en)
AT (1) ATE115765T1 (en)
CA (1) CA2064268C (en)
DE (1) DE59200933D1 (en)
ES (1) ES2065093T3 (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0831503A1 (en) * 1996-09-23 1998-03-25 Gec Alsthom T & D Sa High-voltage circuit breaker with absorber
FR2766609A1 (en) * 1997-07-24 1999-01-29 Gec Alsthom T & D Sa GAS SWITCH WITH COMPRESSIBLE THERMAL EXPANSION VOLUME
WO2011110557A1 (en) * 2010-03-09 2011-09-15 Alstom Grid Sas Medium and high voltage electric switch having closing return and device for inserting a resistor

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
ES2109552T3 (en) * 1994-06-20 1998-01-16 Gec Alsthom T & D Ag COMPRESSED GAS SWITCH.

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH01313825A (en) * 1988-06-10 1989-12-19 Meidensha Corp Buffer type gas-blast circuit-breaker
EP0380907A1 (en) * 1989-01-02 1990-08-08 Gec Alsthom Sa High and medium voltage gas blast circuit breaker
JPH02250227A (en) * 1989-03-23 1990-10-08 Toshiba Corp Buffer type gas circuit breaker
EP0456139A2 (en) * 1990-05-11 1991-11-13 Licentia Patent-Verwaltungs-GmbH Compression switch

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4276456A (en) * 1978-10-23 1981-06-30 Westinghouse Electric Corp. Double-flow puffer-type compressed-gas circuit-interrupter
FR2619246B1 (en) * 1987-08-03 1989-11-17 Alsthom HIGH OR MEDIUM VOLTAGE CIRCUIT BREAKER UNDER PRESSURE WITH CURING ENERGY TAKEN FROM THE ARC
FR2661549B1 (en) * 1990-04-25 1996-07-19 Alsthom Gec MEDIUM OR HIGH VOLTAGE CIRCUIT BREAKER WITH ARC-END CONTACTORS.

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH01313825A (en) * 1988-06-10 1989-12-19 Meidensha Corp Buffer type gas-blast circuit-breaker
EP0380907A1 (en) * 1989-01-02 1990-08-08 Gec Alsthom Sa High and medium voltage gas blast circuit breaker
JPH02250227A (en) * 1989-03-23 1990-10-08 Toshiba Corp Buffer type gas circuit breaker
EP0456139A2 (en) * 1990-05-11 1991-11-13 Licentia Patent-Verwaltungs-GmbH Compression switch

Non-Patent Citations (2)

* Cited by examiner, † Cited by third party
Title
PATENT ABSTRACTS OF JAPAN Bd. 014, Nr. 117 (E-898) 05 März 1990 & JP 01 313825 A (MEIDENSHA) 19 Dezember 1989 *
PATENT ABSTRACTS OF JAPAN Bd. 014, Nr. 576 (E-1016) 21 Dezember 1990 & JP 02 250227 A (TOSHIBA) 08 Oktober 1990 *

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0831503A1 (en) * 1996-09-23 1998-03-25 Gec Alsthom T & D Sa High-voltage circuit breaker with absorber
FR2753834A1 (en) * 1996-09-23 1998-03-27 Gec Alsthom T & D Sa HIGH VOLTAGE CIRCUIT BREAKER WITH SHOCK ABSORBER
US5877465A (en) * 1996-09-23 1999-03-02 Gec Alsthom T & D Sa High-tension circuit-breaker with damper
FR2766609A1 (en) * 1997-07-24 1999-01-29 Gec Alsthom T & D Sa GAS SWITCH WITH COMPRESSIBLE THERMAL EXPANSION VOLUME
EP0895262A1 (en) * 1997-07-24 1999-02-03 Gec Alsthom T & D Sa Gas circuit breaker with compressible volume and thermal expansion
US5939692A (en) * 1997-07-24 1999-08-17 Gec Alsthom T & D Sa Gas-filled interrupter with compressible thermal expansion chamber
WO2011110557A1 (en) * 2010-03-09 2011-09-15 Alstom Grid Sas Medium and high voltage electric switch having closing return and device for inserting a resistor
FR2957451A1 (en) * 2010-03-09 2011-09-16 Areva T & D Sas HIGH VOLTAGE ELECTRIC SWITCH WITH CLOSURE RETURN AND DEVICE FOR INSERTING RESISTANCE
US8952285B2 (en) 2010-03-09 2015-02-10 Alstom Technology Ltd. Medium and high-voltage electric switch with return on closure and an insertion device for inserting a resistance

Also Published As

Publication number Publication date
CA2064268A1 (en) 1992-10-13
EP0508160A3 (en) 1993-02-24
JP3378266B2 (en) 2003-02-17
ATE115765T1 (en) 1994-12-15
CA2064268C (en) 2003-02-25
ES2065093T3 (en) 1995-02-01
JPH05114339A (en) 1993-05-07
DE59200933D1 (en) 1995-01-26
EP0508160B1 (en) 1994-12-14
US5248862A (en) 1993-09-28

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