DE909216C - Electric high-voltage switch with arc extinguishing by a flowing pressure medium - Google Patents

Description

Electric high-voltage switch with arc extinguishing by a flowing pressure medium Addendum to patent 884.3 The patent 884383 has an electrical high-voltage switch with arc extinction by a flowing pressure medium, such as compressed gas, and with at least one extinguishing head, in which the cut-off arc between a movable pin-shaped contact and one in the Extinguishing head wall mounted outside. of the erasing head is pulled to form a free air separation section serving fixed contact, wherein the pressure medium is passed between the contacts and is discharged substantially in the direction of the movable contact to a side facing away from the free air separation section of the erase head. The movable contact is either designed as a hollow pin and the compressed gas is passed through it: or the compressed gas is discharged along the outside of the movable contact.

With this arrangement and the like, the tip of the movable Contact and thus the arc base located on it effective from the pressure washed up. Not so; on the other hand, blowing the surface on the fixed contact is favorable Arc root. In order to inflate this effectively, but without the pressure medium and with this the arc gases in the free air separation distance ; to get, the invention provides that the pressure medium also in the direction of the fixed contact is discharged from the erase head, in such a way that .es exits the extinguishing head at an angle to the free air separation section. Appropriate the pressure medium is passed through the fixed contact itself, which is to this Purpose of having a curved passage channel. This channel can be several V-shaped .have branched exit ends. But he can z. B. also T-shaped or otherwise be branched. It is also advantageous to have the pressure medium both through the hollow movable contact as well as through the hollow fixed contact from the Discharge head. One has the effect of a dowel nozzle arrangement.

However, the object of the invention can also be applied to another Way, in such a way that the fixed contact is drawn into the erase head interior and a nozzle is upstream of the movable contact in such a way that only Pressure medium flowing off in the direction of the movable contact and the arc base at the fixed as well as the arc base on the moving contact effectively detected.

The invention is explained in more detail below with reference to the drawing.

In Fig. I, i denotes the housing of an erase head. 2 is the movable pin-shaped hollow contact. He is, on top with a ring 3, that of a suitable contact metal with a high melting temperature or evaporation temperature can exist, provided and is by means of the piston a against the action of the Closing spring 5 driven. The drive air flows to the piston ¢ through bores 6 in the direction of arrows 7 to. The power connection for the movable contact 2 is formed by the contact arrangement 8, which in a known manner consists of two ring springs with an intermediate helical spring, which the former; against the contact housing 9 and the movable contact 2 pushes. The moving contact is shown in the figure in the retracted state. The on position is indicated with dash-dotted lines. The fixed contact is in the extinguishing head wall stored io. It is provided with a channel i i for the passage of pressure medium, which divides into several channels 12 branching off at an angle. The surface 13 of the contact works with another shoulder contact, e.g. B. look like one. formed contact, or with a multi-part contact, especially for larger inrush currents, one opposite erase head together. After separating the power contacts in the erase heads is between the contact surfaces 13 or the contact surface of a Erasing head and the contact fingers made a free air separation distance. By the compressed air flowing into the extinguishing head in the direction of arrows 14 or 7, as already mentioned, the piston q. ; driven and the switching pin 2 withdrawn. The compressed air continues to flow in the direction of the arrows 1 4 and passes through the arrows 1 5 is indicated, between .die contacts io and 2, 3. It flows from here in the direction of the arrows 16 through the nozzle 17 in front of the hollow contact the hollow contact. It also flows along the outside of the hollow contact, such as the arrows 18 show, and comes laterally through bores i9 in this way into the interior of the hollow contact, which is illustrated by arrows -o. Here the hollow pin channel is expediently widened from the area of the inflow openings i9, to avoid congestion. The arrow 21 indicates the whole through the hollow contact running oil flow. One recognizes without further ado that through him the discharged arc gases cannot get into the free air separation section of the switch can. The upstream nozzle 17, the whole or at least over a large part of the Length. Can also consist of insulating material, also has the effect that the arc is effectively exposed to the blowing of compressed air over a greater part of its length. It is also easily possible for the switching pin 2 to be withdrawn only so far is that the contact end is held in front of the nozzle-like extension 17 or comes on the same level. Here, the sliding contact 8 could be set further forward which made a smaller overall length possible. In the other direction flows now the compressed air in the direction of arrows 22 in the channel i i of the fixed contact i o and divides here into the individual compressed gas flows according to the channel branching 23, which emerge through the inclined channel branches 12. So you strive from the free Air gap. The arc gases discharged here also get there not in the free air separation section. In the case of the illustrated erase head, this takes place an effective blowing of both arc roots without any impairment the free air separation section occurs through switching gases.

A further advantageous device can be seen in FIG although the ring valve plate 2.1. This works with a valve seat provided in the housing together as a check valve. By flowing in in the direction of arrows 1 ¢ Air this valve is opened, as indicated by dash-dotted lines. But as soon as the cut-off arc is drawn, the arc pressure takes effect and closes the check valve. This creates a space of higher pressure in the erase head delimited in which the gases are stored during large current instantaneous values so that they are in the current zero crossing in the manner described at high speed to quench the arc from the quenching head. After the arc has occurred: extinguishing the supplied compressed gas can open the check valve again. It then flows fresh compressed gas to stabilize the interruption section. The creation such a delimited space has not only for the embodiment shown in FIG an erase head, but also for erase heads of any other kind the same meaning.

If the channel branches 12 are dimensioned correspondingly narrow, one can achieve that the arc closes the branch of the canal on which it is currently attached, so that the blown air can no longer escape here. The consequence of this is that the arc root is driven by the compressed air to the next branch of the sewer. Here it is repeated the same. In this way you can force the arc at the fixed contact to wander from one canal to another. The arc root always comes from this in contact with another point of contact, which is favorable for the deletion is. Of course, something similar could easily be done on the movable hollow contact provide. The channel branches 12 can also be arranged in a circle, with the axes the channel branches or holes can be parallel or inclined to one another, so that the arc must rotate, which z. B. by a tangentially inserted Extinguishing agent jet or by magnetic means can be favored. It can also here two nozzle holes drilled close to one another have such an effect. These holes can also be drilled through an insulating body and the counter electrode be arranged on the other side of the insulating plate.

Another embodiment of the contact io is illustrated in FIG. The channel ii is branched in a T-shape. Of course, several transverse channels 25 can also be provided. One can also see in this figure an insulating nozzle 17 upstream of the movable contact 2, which causes the arc to be blown over a greater length. The cooler 35, which is designed as a plate cooler in the present case, ensures that only non-conductive gases escape, so that no flashovers to other parts of the system can occur. Such coolers can be used with the same effect in all other exemplary embodiments.

Fig. 3 shows an erase head design in which the fixed contact io is designed as a tulip contact. He has contact fingers in a known manner 26 and 27, which by springs 28 against the inner wall of the contact housing 29 and are pressed against the outer surface of the movable hollow contact.

Fig. Q. shows an embodiment in which the movable contact 2 again has a nozzle 1 7, similar to that in FIGS To maintain the favorable flow conditions in relation to the tip of the moving contact. The arrows show the flow of compressed air. It enters the erase head at 36 in, and flows left into the hollow. Contact io and to the right into the nozzle 17. From the nozzle 17 it reaches the hollow contact 2, from which it flows through bores 3o in the direction of the arrows 34 drawn into the open. On the other hand, it flows outside along the hollow contact 2 through openings 3 i according to the arrows 3 q. also outdoors.

5 shows another possibility for creating a delimited space in the erasing head, namely here the movable contact 2 is guided in a seal 32 of the nozzle body 17. The front part of the nozzle body, in which the contact tip retracts, creates the delimited space. The body 17 can inevitably be set up so that it can be displaced in the longitudinal direction such that the access opening for the extinguishing agent to the delimited space is only small during the interruption and extinguishing of the arc, possibly just sufficient for it; to fill, so that when the contact pieces are separated, the effect of the arc creates a high pressure that is favorable for extinguishing. The opening can also be completely absent at the beginning and until the extinction, in particular if the wall stanchions of the body 17 are made of gas-emitting material.

Another possibility for solving the problem on which the invention is based was mentioned at the beginning. This is illustrated by Figure 6 of the drawing. The fixed contact 10 is provided with a tip 33 extending into the interior of the erase head. This protrudes into the nozzle 17 upstream of the movable contact. As the arrows show, both arcing base points are effectively blown by the exhaust gas flow through this training. The switch-on position of this arrangement is indicated by dash-dotted lines. The contact tip 33 is covered with an arc-proof metal such as tungsten or the like.

Claims (13)

PATENT CLAIMS: i. Electric high voltage switch with arc extinguishing by a flowing pressure medium, such as compressed gas, and at least one extinguishing head, in which the cut-off arc between a movable pin-shaped contact and one stored in the erase head wall, outside, of the erase head to form a firm contact serving as a free air separation distance is drawn, according to the patent 88q.383, characterized in that the pressure medium is also in the direction of the fixed Contact (i o) is removed from the erase head, in such a way that it is under exits the extinguishing head at an angle to the free air separation section of the switch. 2. Switch according to claim i, characterized in that the fixed contact (io) has a curved passage channel (i i, 12) for the extinguishing agent. 3. Switch according to claim i and 2, characterized in that: ß the channel (i i) several V-shaped has branched outlet ends (12). q .. Switch according to claims i and 2, characterized characterized in that the channel (12, z 5) is branched in a T-shape. 5. Switch to Claims i to q., Characterized in that the movable hollow contact (a) a nozzle (17) is upstream, which the pressure medium must flow through before it in the hollow contact can flow in or along it. 6. Switch according to claim i to 5, characterized in that the pressure medium except at the open tip of the hollow contact (2) in this, also by lateral ones located behind the tip Bores (i 9) enters. 7. Switch according to claim i to 6, characterized in that that the nozzle (i7) upstream of the movable contact moves with the contact (z) will. B. Switch according to claims i to 7, characterized by such a structure, that when the arc is ignited, a delimited space of higher pressure is created. G. Switch according to Claims i to 8, characterized in that the delimited space is formed by the nozzle body (17) surrounding the movable contact (z), in which the tip of the movable contact is at the time of disconnection or withdraws into it (Fig. 5). ok Switch according to claims i to g, characterized characterized in that in the air supply channel of the extinguishing head a check valve (2q.) Is installed, which is closed by the arc pressure and thereby delimits the space of increased pressure. i i. Switch according to claim i o, characterized in that that the check valve (2 ¢) is formed by a movable annular disc which is arranged between the contact housing and the erasing head wall and with .ein the valve seat provided in the housing cooperates. iz. Sehalter nasch Pa.tent 88 ¢ 383, characterized in that .that the fixed contact (io) in this way into the interior of the erase head drawn in and a nozzle (17) .derart upstream of the movable contact (a) is that the pressure medium flowing off only in the direction of the movable contact (a) both the arc root on the fixed and the arc root on the movable Contact effectively detected (Fig. 6). 13. Switch according to claim i, characterized in that that the firm contact with several channels or channel branches. (1z) of such diameter is provided that the arc thereby from a channel. to the other that migrates he blocks the channel cross-section for the passage of pressure medium and through the pressure medium as a result, is driven to the next channel. 1q .. switch according to claim 13, characterized in that the individual channels or channel branches (12) are circular are arranged so that a rotation of the arc base located on the fixed contact (1o) takes place, if necessary with the assistance of an appropriately guided pressure medium jet or a magnetic field.