DE2039240A1 - Compressed gas switch, especially with self-blowing - Google Patents

Description

Dr.'E. WetZel ⁸⁵⁰ ° November 1, 4th Aug 70 Hefnaripl «tz 3 - Pottfach 9347

. E. TerQ3U Telex 06/22327 - Tel. 0911 / 204081-83

Postal check account NQrnberg 11151.

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Please always indicate our reference— ■

8/2 (216/70) 891

Merlin Gerin company, Grenoble / France.

Compressed gas switch, especially with self-blowing

The invention relates to a gas pressure switch, in particular with self-inflation, with a pair of contacts, with ^ a blower nozzle that keeps the contacts in their closed position surrounds, and with a device for circulating an extinguishing gas through the nozzle to extinguish an arc, which is pulled during the separation of the contacts.

The Swiss patent 392 665 deals with a switch of this type, in which the arc between the Contacts that separate until the moment of its deletion. It has been found that with these switches with a separating bin of limited volume, the w elongation of the arc favors the appearance of a very large volume of ionized gas, which favors a strong Generates overpressure which tends to oppose the flow of the regenerator gas, which is responsible for the extinguishing of the Arc is essential.

The invention aims to eliminate these disadvantages and to provide a switch with increased switching capacity. The gas pressure switch according to the invention is characterized in that that the nozzle in at least one zone of their

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inner surface has an electrically conductive part which during the duration of the arc extinction with a contact is electrically connected so that a transition of the arc from this contact to the electrically conductive part during the separating movement of the contacts and an expansion of the arc at right angles to the direction of flow of the extinguishing gas over a limited and clearly constant distance during the extinguishing phase is so effected that the ionizing effect is restricted.

The arc drawn between the separating contacts quickly settles on the electrically conductive ones Part of the blower nozzle and to the associated contact, the small distance of which is maintained and remains constant during the opening process of the switch. The arc length Just like the volume of the generated ionized gas, it remains constant.

The extinguishing gas, which can also be an extinguishing liquid, in particular electronegative, for example sulfur hexafluoride, flows axially into the nozzle. It will be understood that in these known switches with an arc extending axially between the contacts, the effect is not optimal. According to the invention, the arc applied to the blower nozzle is made to assume a transverse position with respect to the flow of the extinguishing gas, which is particularly favorable for deionization.

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According to the invention, the main contacts are outside the blow nozzle intended. The hot gases escaping from the air nozzle become the upper part of the room or the separation chamber in routed a zone away from the main contacts in order to avoid reignition between them. To this end the nozzle is in the closed position of the contacts in a tubular coaxial extending it Sleeve and at the same time ensures the connection with the contact up to the moment of displacement of the nozzle after a predetermined opening course. The 3ntakt, which is electrically connected to the blower nozzle and located inside the tubular sleeve may be of semi-rigid type. However, in order to reduce its cross-section, it is preferred formed by a simple rod which hardly hampers the escape of gases through the tubular sleeve, whereby the semi-fixed assembly on the mechanical with the air nozzle connected contact is transferred.

The blower nozzle can be made partially or entirely of conductive Material or of a material with a high line resistance, e.g. graphite, in order to achieve the automatic Inserting a resistor in series with the arc during the disconnection time will allow the disconnection is favored by small induction currents. The value of this resistance preferably increases with time of the arc.

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he
The variable resistance can also be incorporated into the connection between the nozzle and the contact, e.g. by using a material with high resistance for the tubular sleeve that works telescopically with the nozzle or a coiled resistor whose coils are related during the relative displacement of the nozzle on the tubular sleeve are inserted one after the other into the circuit with the help of sliding contacts.

Embodiments of the invention are shown in the figures. Show it :
1 shows an axial section of a switch according to the invention

in closed position,
FIG. 2 shows a section corresponding to FIG. 1, the switch being shown during the opening process

is and
3 shows an axial section of a further switch according to the invention in a position corresponding to FIG.

According to FIGS. 1 and 2, an insulating space is in the form a closed cartridge formed by a cylinder 10 which is closed at its ends by the bottoms 12 and 14 is, one of which is penetrated by a sliding control rod 16, the outer end of which with a not shown Control device cooperates. A blow piston 18 can be inside the cylinder 10 under the action of Slide control rod 16, at the end of which it is attached. The circumference of the blow piston 18 has a lip seal 20,

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which slides on the inner wall of the cylinder 10 and ensures a perfect seal in the direction of movement of the piston, which corresponds to the opening of the switch and indicated by the arrow F of the Pig. 2 is marked. In the reverse direction, the seal 20 preferably allows a free connection between ^"1 the two end faces of the blast piston 18. A blow nozzle 22 is fixedly connected to the blast piston 18, the openings 24 which connect the two chambers through the inner part of the blow nozzle 22, which are delimited in the cylinder 10 by the blow piston 18. Inside and concentric to the B398 nozzle 22 is a movable contact 26 which is telescopically or semi-fixedly arranged at the end of the control rod 16 so that it can perform an axial movement with respect to the control rod 16. For this purpose, a compression spring 28 is provided between the control rod 16 and the movable contact 26, which presses it away in the direction of the control rod 16. In this position, the contact 26 is held by a stop which has a shoulder 32 of the control rod 16. A contact terminal 34 connects the movable contact 26 to the control rod ge 16 electrical, which serves the movable contact 26 as a power supply conductor.

The upper floor 12 of the cylinder 10 carries an opposite one Terminal 35 of the switch connected to a fixed Contact 36 is connected. This is supported by a cylindrical Formed rod, which in the axis of the cylinder 10 and opposite

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is arranged above the movable contact 26 with which they cooperates. In the closed position of the switch according to Figure 1, the contacts 26 and 36 are against each other, and the The contact zone is located inside the blowing nozzle 22 - viewed in the direction of flow of the extinguishing gas - above one Narrowed section or neck 38 of the blow nozzle 22. The semi-fixed assembly can of course also be on the Fixed contact 36 are transferred, and the contacts can be of any kind, e.g. with interlocking, pushing through or sliding.

The upper base 12 also carries a tubular cylindrical sleeve 40 which is coaxial with the cylinder 10 and on its base is connected to the terminal 35. The tubular sleeve 40 is made of electrically conductive Material and has openings 41 in the vicinity of its base. The other end 42 of the sleeve 40 covers the blow nozzle 22, which engages in them at a suitable distance, and cooperates with the main contacts 44 in the form of terminals, which are permanently connected to the blow piston 18 and electrically to the control rod 16. Pantograph 46, which is fixed are connected to the sleeve 40 and in contact with the blow nozzle 22, these electrically connect to the sleeve 40 in the Engagement position. The tightness of the passage of the control rod 16 in the bottom 14 is made by a bellows 48 or made other way.

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According to Flg. 1, the blow nozzle 22 has an upper part 50 conductive material located below the neck of the Blow nozzle 22 extends in an insulating part 52, the Part 50 firmly connects to the blow piston 18. The conductive part 50 is extended by a conductive ring 51, the lies outside the insulating part 52. The pantograph 46 work in succession with the ring 51 and the outer one Surface of the part 50 together to this electrically during a predetermined opening distance of the contacts 26 and 36 to connect to the contact 36.

In the closed position of the contacts according to Figure 1, the electrical Connection between the Aaschlußklemmen 16 and 35 through the interlocking main contacts 42,44 and through the touching spark extinguishing contacts 26,36 secured. The conductive portion 50 of the nozzle 22 is through the portion 52 isolated from movable contact 26 and connected to fixed contact 36 through current collectors 46 and sleeve 40. The cylinder 10 is advantageously tight and possibly compressed with extinguishing gas, e.g. sulfur hexafluoride, filled, whereby the pressure is uniform throughout the room.

The switch according to the invention works as follows:

To open the switch, drive the control rod 16 downwards in the direction of arrow F, which when it is moved the blue piston 18, the movable main contact 44, the blower nozzle 22 and the carrier of the spark extinguishing contact 26

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takes along, the latter remaining in contact with the fixed contact 36 under the action of the compression spring 28 during a first movement phase. This shift causes, on the one hand, the separation of the main contacts 42,44, which are bridged by the contacts 26,36 and open without arcing, and, on the other hand, a compression of the gas in the lower part of the cylinder 10, the volume of which decreases with the lowering of the blow piston 18. The current collectors 46 slide on the conductive parts 50 and * y \ , maintaining the electrical connection between them and the contact 36. In a second opening phase, the shoulder 32 of the control rod 16 comes into contact with the stop 30 of the spark extinguishing contact 26 and takes it with it, with the contacts 26, 36 being separated with an arcing between these contacts 26, 36 inside the blowing nozzle 22. Under the effect of the increasing pressure with the displacement of the blow piston 18, a flow of the gas is caused in the interior of the blow nozzle 22 in order to extinguish the arc. As soon as the distance between the contacts 26, 36 reaches a predetermined value, the arc leaves the fixed contact 36 and jumps over to the conductive part of the blowing nozzle 22, which has the same potential as the fixed contact 36 because of the current collector 46, see FIG ). The length of the arc is thus limited, and under the blowing action, which continues and acts across the path of the arc, it is extinguished.

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The pantographs are during the last extinguishing phase of the arc 46 remained in contact with the nozzle 22, and only at the end of the opening process and after the arc has been extinguished do they separate in order to reduce the dielectric state of the To improve switching chamber.

It can be easily seen that the arc length by the structural features of the switch remains limited to a predetermined length. The choice of this length, or more precisely that minimum distance between the contact 26 and the inner surface of the blow nozzle 22 in the stagnation zone of the arc is a compromise between the opposing factors of maximum breakdown distance and performance as well as the speed of the extinguishing gas in this maximum zone. Remarkable results have been achieved with distances between 3 and 4 mm, with the arc root point in the vicinity of the neck 38 of the nozzle 22 is fixed. The blowing takes place across the arc and ensures rapid deionization. The main contacts 42, 44 outside the blow nozzle 22 are protected by this, which has a metal screen forms for the arc. The hot ionized Gaee are zone through the nozzle 22 and the tubular sleeve 40 extending it into the upper part of the space which is removed from the main contacts 42,44 where they escape from the sleeve 40 through the openings 41.

According to FIGS. 1 and 2, the very upper part 50 of the blow nozzle 22 consists of a conductive material, and the electrical

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Connection to the fixed contact 36 is through the pantograph 46 manufactured. It is clear that only a small portion of the nozzle 22 can be conductive and that they apply to each another way, e.g. through a stranded wire, with the fixed contact 36 can be connected. The device according to the invention is particularly suitable for inserting a resistor in Series with the arc, whereby the separation of currents, especially inductive, is favored. According to FIG. 1 and 2 this object is easily achieved by placing a blow nozzle on a material of high line resistance, e.g. graphite is used. It will be appreciated that once the arc settles on the tuyere 22, the current is one Resistance path flows through the nozzle 22 in order to reach the current collectors 46 and the connection terminal 35. A favorable effect for the arc extinguishing results from the enlargement of this path and thus of the during the displacement of the nozzle 22 introduced resistance. The additional resistance can also go into the connection be inserted between the terminal 35 and the nozzle 22, as can be seen from the following illustration becomes apparent.

Fig. 3 shows an embodiment of the invention in which the puncture of the fixed main contact and the puncture the electrical connection between the nozzle and the fixed contact are disconnected. The main movable contact 44 operates with a fixed contact 54 together, and the blow nozzle

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has current collectors 56 which slide on a tube 58, that connects the nozzle 22 with the terminal 35 · The pipe 58 and / or the nozzle 22 can be made of an electrical highly conductive material, e.g. copper or steel, or, in the manner described above, of a material of great magnitude specific line resistance exist to introduce a resistance into the arc circuit. According to Fig.3 corresponds the increase in the resistance of an increased length of the pipe, which results from the displacement of the pantograph 56 gives "It is clear, however, that the current collectors are firmly connected to the pipe 58 and on the nozzle 22 can slide in the manner described above. The tube 58 can be a coiled resistor which advantageously is sunk in the pipe. The main contacts 44 and 54 are complete independent of the nozzle 22. The blow nozzle 22 and the mechanically connected contact 26 can be fixed, in which case the switch is opened by moving the contact 36, the is electrically connected to the blow nozzle 22 without affecting the function of the switch · The blow piston is then independent of the nozzle and connected in any way to the movable part of the switch. The pouring The extinguishing gas can be produced in various ways, e.g. by an auxiliary source of pressurized gas.

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Claims (12)

ι υ 3 y; / ■ '·, υ - 12 patent claims: 1. I pressurized gas switch, in particular with self-blowing, with a pair of separable contacts, with a blowing nozzle that surrounds the contacts in their closed position, and with a device for circulating an extinguishing gas through the blowing nozzle to extinguish an arc drawn during the separation of the contacts is characterized in that the blow nozzle has an electrically conductive part in at least one zone of its inner surface which is electrically connected to a contact during the arc extinction period in such a way that a transition of the arc from this contact to the electrically conductive part during the Separation movement of the contacts and an expansion of the arc transversely to the direction of flow of the extinguishing gas over a limited and clearly constant distance during the extinguishing phase is brought about in such a way that the ionization effect is limited. 2. Switch according to claim 1, characterized in that the blower nozzle with the electrically conductive part, which is connected to one contact, mechanically fixed to the other Contact is connected and electrically isolated from this. 3. Switch according to claim 2, characterized in that the nozzle has a neck in the vicinity of the zone of separation of the contacts and that its electrically conductive part is arranged so that the arc is transverse to the axis of the Blowing nozzle extends, 10 9 8 15/1308 ORIGINAL INSPECTED 2U39 / 4U 4. Switch according to claim 2 or 3 _? characterized in that the nozzle is made of conductive material or of a material with a high line resistance and is firmly connected to the contact by an insulating support. 5. Switch according to claim 4 ·, characterized in that the nozzle is made of graphite. 6. Switch according to claim 1, characterized in that means for connecting the electrically conductive part of the Blower nozzle with one of the contacts arranged to provide an interval of separation and isolation in the open position of the To effect switch. 7. Switch according to claim 6, characterized in that an electrical resistor is inserted into the connecting means is the result of the transition of the arc to the electrically conductive part in series with the arc lies. 8. Switch according to claim 6, characterized in that the blower nozzle in the closed position of the contacts of one coaxial tubular sleeve, which extends it and ensures the electrical connection, whereby the isolation interval is established by moving the nozzle at the end of the switch opening. . 10 9 8 15/1308 20397UJ 9. Switch according to claim 7 and 8, characterized in that the resistance track inserted into the connecting means during the opening movement depending on the progressing en displacement of the nozzle relative to the tubular sleeve increases. 10. Switch according to claim 9 with main contacts that are open in front of the contacts arranged inside the blow nozzle, characterized in that the bite nozzle and the tubular Coaxial sleeve form a screen that prevents the gases ionized by the arc from entering the zone of the main contacts enter. 11. Switch according to claim 1, characterized in that it has a blow piston which passes through the blow nozzle flowing extinguishing gas stream, e.g. from sulfur hexafluoride, generated, which merges from one part of a closed space into another part during the opening movement. 12. Switch according to claim 11, characterized in that the blow piston has an opening which opens into the blow nozzle carried by the blow piston, the blow piston and blow nozzle are connected to the moving contact. 10 3 8 15/1 3 0 8 Ol, INSPECTED