DE1074121B - - Google Patents

Description

There are known switches in which by means of two interruption points arranged parallel to one another first at the first point of interruption an arc is drawn to generate pressure, which is extinguished by bridging the second interruption point, after which a new arc is pulled, which is then extinguished by the escaping pressure extinguishing agent. Such a "switch requires relatively considerable structural arrangements.

There are also fire chamber arrangements with special Known shape by which a partial arc is exposed to the flow of extinguishing agent. Included With these arrangements there is no division and control of the arc, the mode of action is very high limited.

Furthermore, switches are also known in which two interruption points arranged one behind the other are formed by a movable one Contact an arc is drawn into the arcing chamber, in this arc path a hollow electrode is provided through which an erasing arc and a pressure-generating Arc are created. Such an arrangement is very disadvantageous for the deletion process.

The invention relates to a switch with two interruption points arranged parallel to one another, which despite a very simple construction a safe and easy operation of the Arc extinction enabled.

According to the invention this is achieved in that there is a bridging electrode in the quenching chamber is arranged so insulated that the drawn between the fixed and movable contact of the interruption point pressure-generating arc after divided into two parts according to a certain switch-off path is such that the one arc part as a pressure-generating arc inside the arcing chamber burns and the other part of the arc as a quenching arc at the discharge opening of the quenching chamber, where · it is extinguished by the escaping extinguishing agent. The extinguishing point is always open from the solid hollow contact and the bridging electrode, the insulated bridging electrode with one end in front of the hollow electrode and with its other end in the Is arranged near the movable contact. The end of the bridging electrode facing the movable contact only approaches in a certain distance from the fixed contact to the moving contact. One himself between the solid Forces contact and the raised arc base contact located on the hollow electrode, after the arc on the bypass electrical switch

with arc quenching

by one of the arc itself

generated in an extinguishing chamber

Flow of pressure extinguishing agent

Applicant:
Emil Lange, Ville d'Avräy (France)

Representative: Dipl.-Ing. R. Schomeras, patent attorney,
Hanover, Theaterstr. 2

Claimed priority:
France 19 July 1954

Emil Lange, Ville d'Avray (France),
has been named as the inventor

trade is skipped, the displacement of the arc axis on the hollow electrode. To as much as possible To drive fresh extinguishing agent to the extinguishing point, the extinguishing point is from the burning point of the pressure-generating one Arc arranged remotely. It is advantageous to have two or more interruption points for drawing the pressure-generating arc with the corresponding extinguishing points arranged in parallel arrange in the extinguishing chamber. To the hot gases all the extinguishing agent in the extinguishing chamber keep away, the drawn arc burns in a shielding chamber, at the end of which both the bridging electrode and the arc base contact of the hollow electrode are located.

In Fig. 1, the principle of the construction is shown on a simple arcing chamber;

Fig. 2 shows an arcing chamber in which the erasing point is remote from the point of interruption which the pressure generating arc is drawn is arranged;

Fig. 3 shows an extinguishing chamber with two extinguishing points in the extinguishing chamber.

In Fig. 1, an arcing chamber 1 is the carrier for the fixed contact 2 with its movable Contact 3. A hollow electrode 4 is electrically connected to the fixed contact 2, with a raised one

909 727/392

Base contact 6 serves as the seat of the arc to be extinguished on contact 2. In the quenching chamber 1 is Furthermore, a bridging electrode 7 is insulated and fastened with one end 8 in front of the hollow electrode 4 stands and with the other end 9 to take over the burning on the movable pin contact 3 Arc is used. The rollover point 9 is far away from the fixed contact in the arcing chamber 1 2 laid in order to obtain a certain arc length in the arcing chamber.

The facility works as follows: When you open the Contacts 2 and 3 burns an arc that enters the arcing chamber 1 through the movable pin contact 3 is pulled and generates an increase in pressure in the extinguishing chamber. As the Pin contact 3 approaches the upper part of the switching pin 3 of the electrode tip 9 of the bridging electrode 7 and the long arc burning between the fixed contact 2 and the pin contact 3 jumps on the one hand onto the electrode tip 9 and on the other hand over the raised arc base contact 6 to the tip 8 of the bridging electrode 7. The original arc axis is now shifted and the second part of the arc burns between the hollow electrodes 4 and 8, which serves as an extinguishing point. The first part of the arc burns between the advancing pin contact 3 and the tip 9 of the electrode 7 and continues to generate pressure in the arcing chamber 1.

Due to the extinguishing agent flowing out through the hollow electrode 4, the small arc burning there becomes deleted with certainty.

In order to obtain an appropriate pressure increase in the extinguishing chamber and to control the exiting Extinguishing agent, it is very advantageous, the outflow opening of the hollow electrode 4 in a known manner Way to complete with a valve. Gas in any form, hard gas, can be used as an extinguishing agent or have a liquid in the extinguishing chamber.

In FIG. 2, a fixed contact 11 and a movable pin contact 12 are in the quenching chamber 10 arranged, which represent the point of interruption. The point of erasure is through the hollow electrode 13 and the bridging electrode 14 shown with round contact 15, the fixed contact 11 and the Electrode 14 and 15 are electrically connected to lead 16. The pin contact 12 is on the Sliding contacts 17 are electrically connected to the hollow electrode 13 with the supply line 18.

The device works as follows: When you open the switch, the movable pin contact 12 is after moves down, and an arc burns between contacts 11 and 12. The arc is in the Extinguishing chamber 10 pulled in and generates an increase in pressure. If the pin contact 12 comes with its tip and thus the burning arc in the vicinity of the electrode 14, so he jumps on this Electrode 14 because it is connected to lead 16. The arc is now burning between the pin contact 12 and the electrode 14. The foot point of the seated on the fixed contact 11 The arc has thus been transferred to the electrode 14. When moving the movable Pin contact 12 comes the tip of the contact 12 in the vicinity of the lead electrode 19, which with the Hollow electrode 13 is connected. Since the hollow electrode 13 is electrically connected to the lead 18, the arc jumps from the tip of the pin contact 12 to the electrode 19, so that now the. Arc burns between electrodes 14 and 19.

By the escaping pressure extinguishing agent and the

In the form of electrodes 14 and 19, the arc is driven onto tip 15 and now burns in the Hollow electrode 13, where it is extinguished by the pressure extinguishing agent flowing out there.

Because the drawn arc only heats the upper part of the extinguishing agent in the extinguishing chamber the arc is extinguished in the lower part of the arcing chamber under special favorable conditions.

Here, too, it is advantageous to provide the outlet opening 13 with a valve in a known manner, which controls the old step of the extinguishing agent flow. Any gaseous extinguishing agent can be used or liquid extinguishing agents are used.

When using a gaseous extinguishing agent in the extinguishing chamber, the arc grows between the contacts 11 and 12 due to the ionization produced there is a flashover between the electrodes 14 and 19 take place before the tip of the switch pin 12 on the electrodes 14 and 19 walks past.

In FIG. 3, there are two interruption points for drawing the arc in a quenching chamber 20 and provided for generating the pressure increase in the arcing chamber, which is caused by the fixed contacts 21, 22 and the movable pin contacts 23, 24 are formed. The pin contacts 23, 24 are electrically connected and are moved by a drive 25. The fixed contacts 21, 22 are connected to the leads 26, 27 connected, and at the same time the hollow electrodes 28, 29 are built into this connection.

The interruption points formed from contacts 21, 23 and 22, 24 for pulling the pressure-generating) Arcs are made of insulating material shielding chambers 30, 31 surrounded to a to avoid premature flashover of the arc. At the end of the shielding chambers 30, 31 are Ableitunigselektoroden 32, 33 provided to take over of the arc to the hollow electrodes 28, 29 are used. In the extinguishing chamber 20 are also the insulated arranged electrodes 34, 35 arranged for bridging the arc, which with the one End as pins 36, 37 stand in front of the hollow electrodes. The setup works as follows: When disconnecting the contacts 21, 23 and 22, 24 are two arcs through the pin contacts 23, 24 in the hole chamber 20 drawn and generated an increase in pressure. The shielding chambers 30, 31 limit the Hot gases surrounding the arc within the quenching chamber 20.

When the pin contacts 23, 24 exit the shielding chambers 30, 31, the arcs burning at the tips jump onto the electrodes 32, 33 and on the electrodes 34, 35 during the further movement. The arcs are now burning between the Electrodes 33, 35 and the pin contact 24 and the electrodes 32, 34 and the pin contact 23.

The arcs are with the escaping pressure extinguishing agent. great speed in the Hollow electrodes 28, 29 driven, between the pin contacts 23, 24 and the electrodes 34, 35 the Keep the arc burning and generate an additional pressure increase.

The arcs burning between the electrodes 36, 28 and 37, 29 are most effective Extinguishing agent flow and are extinguished there.

Here, too, the outlet openings can have valves for controlling the exiting pressure extinguishing agent and can be used with advantage to store the pressure extinguishing agent in the extinguishing chamber.

Gaseous or liquid extinguishing agents can be used as extinguishing agents.

The processes described in the exemplary embodiments show that no arc extinction complicated mechanical means are used. The well-known control of the arc to generate pressure and erasure takes place electrically by means of a simple electrode arrangement and the two interruption parts arranged parallel to one another.

Claims (6)

Patent claims: 1. Electrical switch with arc extinguishing by one of the arc itself in an extinguishing chamber generated extinguishing agent flow with two parallel sub-ao refractive parts, characterized in that a bridging electrode (7) in the quenching chamber (1) is arranged isolated in such a way that the between the fixed (2) and movable (3) contact of the Point of interruption drawn pressure-generating arc after a certain switch-off path is divided into two parts in such a way that the one arc part as a pressure-generating arc inside the quenching chamber burns and the other part of the arc as a quenching arc on the Outflow opening of the extinguishing chamber, where its extinguishing by the escaping extinguishing agent he follows. 2. Electrical switch according to claim 1, characterized in that the hollow electrode (4) the extinguishing point is electrically connected to the fixed contact. 3. Electrical switch according to claim 1 and 2, characterized by one with the fixed contact (11) connected arc base contact (14), which the arc after a certain Switching off the moving contact takes over. 4. Electrical switch according to claim 1 to 3, characterized in that the deletion point of the The arc of the arc interruption point is arranged opposite. 5. Electrical switch according to claim 1 to 4, characterized in that two or more Interruptions are arranged in the extinguishing chamber are. 6. Electrical switch according to claim 5, characterized by arranging a shielding chamber for the pressure-generating arcs. Considered publications:
German patent specifications No. 572 818, 621 518,
420, 631 837, 647 726, 654 966, 705 099, 711 699, 592, 724 828. 1 sheet of drawings © 909 727/392 1.60