DE678747C - Device for extinguishing high-voltage alternating current arcs - Google Patents

Description

Device for extinguishing high voltage alternating current arcs The The invention relates to a device for erasing. High voltage arcs by flowing media using an in particular made of insulating material and the nozzle upstream of the fixed contact in the direction of flow of the compressed gas.

The known devices for extinguishing high voltage arcs by a flowing gas or vapor: extinguishing agent, including such with movable metal nozzle, have the disadvantage that the arc with its full Strength, i.e. with the peak value of the alternating current, drawn into the extinguishing channel can. The extinguishing agent upstream of the nozzle, viewed in the direction of flow, is used strongly heated and ionized, so that backfires when the current passes through zero can arise. One has therefore 'so-called. Synchronous switch developed which the metal nozzle moves with the switching contact and depending on the current value the contact separation and the inflow of the extinguishing agent into the extinguishing channel. However, these switches require intricate electromagnetic controls.

These difficulties are eliminated by the # invention over against the known arrangements also has the advantage that the current also increases Branch of the current curve can be easily deleted. The invention achieves the favorable Erasable in that the particular consisting of insulating material and the fixed contact, seen in the direction of flow, upstream nozzle as a function of is moved by the current curve of the alternating current to be switched off in such a way that the between interruption arc drawn from the fixed and moving switching contact occurs only at or almost at zero current passage through the nozzle.

- Due to the separate arrangement of the nozzle and the fixed contact, there is a Lateral evasion of the arc towards your blow jet impossible. Self if the blowing does not start exactly in the zero value, this is only of minor importance Influence; because the arc, which is centrally guided by the nozzle made of insulating material, securely embraced and limited in its lateral extent Evird.

By keeping the cut-off arc burning with high amperage away from the extinguishing room, which is usually made of insulating material and is sensitive to heat this room is only heated to a small extent. Also the wear and tear of the extinguishing channel the nozzle is reduced to an insignificant dimension, so that its passage cross-section remains essentially unchanged. This has the advantage that the pressure conditions in the control room and thus the extinguishing properties of the switch even after frequent switching do not worsen: on the drawings (fig. i to 6) the invention is in different Embodiments on the basis of a direct gas switch, illustrated, wherein in all Figures the same switch parts are denoted by the same reference numerals. The idea of the invention can not apply to one-time, but also to periodic Arc extinguishing processes, e.g. for power converters, can be used.

As can be seen from Fig. I, i is in a switching chamber, the the extinguishing medium is fed in the direction of arrows 2, an extinguishing nozzle 3, e.g. made of rubber. The switch pin 4 with a suitable counter electrode 5, e.g. B. annular cross-section, cooperates is when the switch is turned on encompassed by the nozzle 3 like a ring. The current is fed to the switch via connection .6 supplied, arrives via the stationary counterelectrode 5 to the one in contact with the same movable switch pin q. and then leaves the switch via the sliding contacts 7 and a clamp B. In. the outflow space g, which is opposite to the cross section of the switching chamber may have an extension, rods i o, 12 are provided on the insulating nozzle 3 attack and release the same at or closer to zero flow, so that it can shift. The linkage io, 12 can here, as it is in the left part of the A.bb. i is indicated by means of relay or, as it is from the right part of Fig. i emerges, by compressed air or by the exhaust gases of the arc be actuated, whereby in the last two cases a cushioned one on the rod 12 attached pressure piston i i is used, which gecitkig with the rod i o, 12 is connected; the compressed air piston i i slides in a cylinder 1.4.

The arc burns when the contacts q are separated. and 5 in the outflow space g. Are the instantaneous values of the current at which the arc occurs is pulled large, there is little or no passage of the extinguishing medium through the narrowing of the insulating nozzle 3, since the nozzle is still on the switching pin q. is located. Only when the current values approach or reach the zero value, is the blocking by the linkage i o, 12 under the action of a suitable Device or the DTuckluftkolbens i i triggered (see: dashed lines indicated Position of the rods io), so that the nozzle 3 suddenly under the action of the extinguishing medium can shoot up, whereby the arc at least approximately at the current zero crossing is blown vigorously.

In the embodiment according to Fig. 2, the insulating nozzle 3 is at Shutdown similar to the embodiment according to Fig. I only when the instantaneous current values approach or reach the zero value after the lock has been released under the action of the extinguishing medium flowing in the direction of arrow 2 upwards in the direction of a fixed counter-electrode, not shown. This movement takes place against the action of a spring 16 which, after the nozzle 3 has become effective by causing a powerful blowing of the arc returns the nozzle to its original position indicated in Fig. 2. After the arc has been extinguished, the return movement of the nozzle 3 from the to limit the fixed electrode, are on the inner surface of the switching chamber i Approaches i 7 provided, which are designed as individual projections or as a ring could be.

In order to effect the blocking of the insulating nozzle 3, several curved pawls 18, ig are provided, which can be pivoted about the pin 21. The lugs 1 9 of the pivot arms 18, ig are guided through the recesses 2o in the wall of a switching chamber and engage in the space provided on the circumference of the nozzle recesses 22nd The pawls 18 are pivoted out by means of the tie rods 28 which are hingedly attached to them and which are actuated, for example, by means of relays (not shown). The counter electrode, not shown, can be designed in the arrangement according to Fig.2 either as in the embodiment according to Fig. I or in the form of a spring-loaded pin following the movable switch pin.

In contrast to the embodiments of the exhaust gas switch according to Fig. I and 2 takes place in the embodiment according to Fig.3, the movement of the insulating nozzle by a mechanical drive 2q., which the drive 25 for the switch pin q. is similar or can be constructively united with it. The drives 2q., 25 can be designed so that when switching off the nozzle 3 and the switch pin q to perform a movement in the same sense. However, the arrangement can also be made in this way that when switching off the movement of the nozzle 3 is opposite to that of the switch pin 4. is directed. Similar to the arrangement according to Fig. 3 are not specified Locking devices are provided, which are triggered shortly before the current zero crossing, so that the nozzle only becomes effective at or shortly before the current zero crossing and the arc is extinguished. However, devices can also be provided that inhibit the movement of the nozzle at the appropriate moment, so that they are small Instantaneous values of the current or during a current zero crossing to the effect comes.

As Fig.3 shows, the nozzle 3 is elongated and forms a capsule-shaped body which has openings 23 through which the side Gaseous or vaporous extinguishing medium flowing in the direction of arrow 2 to the nozzle 3 arrives. The capsule-shaped body running out into the nozzle 3 is of one at the same time surrounded as a guide for the same serving chamber 26 into which the DTuckgaszufuhrleitung 27 opens. Slides after the nozzle 3 comes into effect from this for purging the arc Guided extinguishing agents can, as indicated, be released into the open without that a muffler is used in this arrangement.

In the case of the fig. Q. illustrated embodiment of the direct gas switch the movable insulating nozzle 3 is designed so that it also acts as a differential piston works. The larger area F of the differential piston under the action of a spring 37 is provided on the downstream side of the nozzle 3. The exhaust space in which the arc when switching off between the switching pin q. and a consumable electrode 35, the Surrounding electrode 5, burns, is on the one hand by the surface F of the differential piston, on the other hand, formed by a sound absorber 3o with passage openings 32.

If P denotes the pressure of the extinguishing medium on the smaller area f of the differential piston and p denotes the pressure of the gases in the exhaust gas chamber 9, which is preferably caused by the thermal effect of the arc, then at higher current values the relationship P # f --- p # F is fulfilled, whereby the force of the spring is not taken into account. So as long as the instantaneous current values have not reached a certain minimum value. the displacement of the nozzle by the potential energy of the extinguishing agent under the action of the pressure p generated by the arc on the surface F is prevented. If, on the other hand, the value falls below this specific instantaneous value, the nozzle 3 is moved upwards against the action of the spring 37 under the effect of the pressure p of the extinguishing medium on the smaller area f of the differential piston, so that at least approximately when the current passes through zero, the arc is suddenly blown out. The space receiving the spring 37 is connected to the outside air by means of openings 44 in order to avoid counterpressure, so that the air present in this space can flow out in the direction of the arrows q.5 during the extinguishing process.

The arrangement according to Fig. Q. can advantageously, as shown in Fig.5 is to be combined with a device for relieving the muffler 3o. This has a space demarcated on the Abstföiriseite the prerequisite that z. B. can be formed by the outflow space 39 and in which the arc burns or into which it is pressed. With large instantaneous values of the Electricity brings the medium located in the demarcated space to high pressure, this medium on the one hand an inflow of the extinguishing medium large amount to delimited space 39 throttles, on the other hand from the same under the influence of the pressure flows off at high speed, so that the arc is extinguished when it drops the current instantaneous value to at least approximately zero the extinguishing agent at low Counter pressure at high speed the extinguishing channel formed by the nozzle 3 can flow through.

In the embodiment according to Fig. 5 also takes place, similar to the direction switch according to Fig. q. a differential piston designed or Extinguishing nozzle 3 connected to a metal differential piston. In deviation of the Duck gas switch according to Fig. 4 is here however above that movable extinguishing nozzle 3 a second nozzle 43 fixedly arranged in the silencer is provided, which brings the heated switching gases to a higher discharge speed. The one in that Space 39 between the two glands controls the moving arc burning Nozzle in the same way as in the arrangement according to Fig. Q .. However, this arrangement has the advantage that it responds more accurately due to the relatively small space 39 and also an intensive blowing of the arc base on the fixed electrode enables.

The execution according to dep. 6 differs from the execution according to Fig.5 essentially in that the switching pin q. is discontinued and thus the Releases the extinguishing channel for the extinguishing agent earlier than the version according to Fig. 5.

Claims (7)

PATENT CLAIMS: i. Equipment for the erasure of high-voltage alternating currentsÜ: arcs by flowing media using a moving nozzle, characterized in, that the particular consisting of insulating material and the fixed contact in .der Direction of flow of the compressed gas: upstream nozzle depending on the current curve of the alternating current to be switched off is moved in such a way that the between the fixed and moving switching contact, interrupting arc drawn only at or approximately occurs when the current passes through the nozzle. 2. Device according to claim i, characterized characterized in that the nozzle is fixed at the deleterious current instantaneous values and only at or approximately at the current zero crossing, in particular in the direction of the extinguishing medium, is moved via the movable switch pin or the arc. 3. Device according to claim i and 2, characterized in that .the nozzle the same or opposite movement as the moving contact executes: q :. Device according to Claims z to 3, characterized in that: the movement the nozzle through the extinguishing medium, in particular compressed gas, through the arc heat induced pressure or by a mechanical drive independent of the movement of the moving contact takes place. 5. Device according to claim i to characterized that the nozzle or: its drive has a lock that is released when the current after the contact separation approaches the zero crossing, so that the nozzle or they get into the most favorable extinguishing position during the current zero crossing can happen. 6. Device according to claim i to 5; characterized in that the movement of the nozzle during or approximately when the current passes through zero through compressed air or by the pressure generated by the arc heat through a relay or the like. is triggered. 7. Device according to claim r to 6, characterized in that the nozzle like that. is designed that it also acts as a differential piston by the larger area of which is provided on the side of the nozzle facing away from the extinguishing agent supply. B. Device according to claim i to 7, characterized in that the movable Nozzle is combined with a device for relieving the muffler, which contains a space (39) provided on the downstream side, in which the arc burns or into which it is pressed in such a way that it burns at large instantaneous values of the current to be switched off, the medium located in the demarcated space is set to high Bringing pressure, with this medium on the one hand an inflow of the extinguishing medium; large Amount to the delimited space throttles, on the other hand from the same under the influence @ of the pressure flows off at high speed, causing the arc to be extinguished when the instantaneous current value drops to at least approximately zero, the extinguishing agent can flow through the extinguishing channel at low back pressure at high speed.