DE735832C - Electric circuit breaker - Google Patents

Description

Electric circuit breaker For an electric circuit breaker with arc quenching in a chamber made of insulating material into which an extinguishing gas flows is initiated, it is already known that the extinguishing gas flow during the shutdown process partly through the hollow switch contacts and partly through the one between the contacts to let the switching chamber space outflow. With a free jet gas switch, in which the switching contacts are displaceable - are arranged in extinguishing heads, flows With such a structure, the compressed gas stream blowing axially on the switching contact is released, the erase head partly through the passage opening for the switch contact and to the Part in the opposite direction through the hollow switch contact. In doing so, each arc base point becomes through the hollow contact: entering Pressurized gas stream is purged, and the metal vapors are passed through the hollow contact discharged. It is largely avoided that metal vapors on the Knock down the wall of the passage opening for the switching contact, so that the risk of backfire is significantly reduced.

It is now known that the switching contacts of electrical switches with auxiliary electrodes to be provided for the approach of the arc roots. These electrodes consist of usually made of a metal that is difficult to evaporate, such as tungsten, tontal, molybdenum and the like. Like. When they are used, the contact surfaces themselves are protected from burning.

The invention now uses such auxiliary electrodes to .die To improve the operation of the circuit breaker mentioned at the beginning. It consists in the fact that in a circuit breaker of the aforementioned type, the auxiliary electrodes be withdrawn into the hollow switch contacts during the switch-off process. They are called This completely shields the arc roots. The danger of getting around Metal fumes on the chamber wall or in the for the passage the switching contacts precipitate certain holes of the erase heads, is thereby further reduced significantly. The metal fumes released from the arc roots and charge carriers are rather caused by the blowing current when the auxiliary electrode is drawn in blown completely into the interior of the hollow switch contacts.

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

It is i the housing of an extinguishing head for a free jet pressure gas switch. It accommodates another housing 2 in which the hollow switching contact 3 is displaceably arranged. He is under the action of the closing spring .l. The switch-off is effected by means of compressed air through the piston 5. The power supply contact for the hollow switching pin consists of the annular spiral springs 6 and 7, which are pressed against the metal housing 2 by the compression spring 8 through the intermediary of the annular disk 9 and io. The auxiliary electrode ii, which is electrically connected to it, is slidably mounted in the hollow switch contact 3. Guide pieces 12 are used for guidance. It is provided with a tip 1 3 made of metal that is difficult to vaporize. When switching off, the drive takes place by means of the blown air which acts on the piston 14 against the pressure of the spring 15.

The mode of operation of the arrangement is as follows: When the switch is switched on, the hollow switching contact is in the position indicated by dash-dotted lines. It extends through the nozzle 1 6 of the erase head and interacts with the same switching contact, which is located in another erase head. The switching contacts of the two erasing heads are pressed against each other by their closing springs 4. with their end faces. The tips 13 of the auxiliary electrodes ii also lie against one another. When the system is switched off, the air flows into the extinguishing head in the direction of arrow 17. It enters in part by bores 18 on the piston 5 and in part in the nozzle chamber 1 6. It initially separate from the switching contacts 3, while the auxiliary electrodes are still held together by the springs 1 5 for the time being. Eventually these also separate and a light is drawn between them. When the contact 3 has reached the position shown in the drawing, the auxiliary electrode moves from the previous one in dash-dotted lines. 1-line indicated position through the air flowing into the 1-1> contact in the direction of the arrow 2o, which acts on the piston 14, into the hollow contact, until the position shown in the drawing with thick lines is reached. The air flowing into the hollow contact can then flow out through bores i 9. The base of the liclite arch on the auxiliary electrode is completely shielded. The metal vapors and charge carriers released by it cannot reach the wall of the room 16, but are instead discharged through the hollow contact 3. The jump of the arc to contact 3 is effectively prevented by the blowing current. After power interruption and cessation of blowing going contacts and ii under the influence of the springs .i and 1 5 back into the on-position. The erase heads have now separated from each other.

Claims (3)

PATENT CLAIMS: i. Electric circuit breaker with arc extinguishing in a chamber made of insulating material, into which a flow of extinguishing gas is introduced during the shutdown process partly through the hollow switch contacts and partly through the between. the contacts located switchgear chamber flows, and with auxiliary electrodes for the approach of the arc base, characterized in that the auxiliary electrodes During the switch-off process in. the hollow switch contacts are withdrawn -earth. 2. Circuit breaker according to claim i, characterized in that the withdrawal of the auxiliary electrodes is effected by the blown air. 3. Circuit breaker according to claim i, characterized in that that the movement of the auxiliary electrodes allows the blown air to flow through the Control planks switching contacts. Arrangement according to claims i to 3, characterized by their use in free jet gas switches.