DE601563C - Switch with extinguishing of the arc by a flow of compressed gas - Google Patents

Description

Switch with arc extinguishing by a flow of pressurized gas Bei electrical switches for high breaking capacities, it is known to be the point of interruption to be arranged in a switching chamber designed as a pressure chamber and the interruption arc to be extinguished by compressed air or pressurized gas. It is also at Known switches with arc release by a flow of pressurized gas, the contacts to be arranged in a completely closed chamber and the pressure of the extinguishing gas to be generated by the interruption arc itself. When the chamber opening is released The pressurized gas then flows out of the pressure chamber through the movable switch pin and thereby extinguishes the arc. However, this has the disadvantage that , the blocking of the pressure chamber from the outside area .by the movable switch contact formed tangles, whereby the pressure .des extinguishing gas from the switch contact movement is dependent. The shut-off of the pressure chamber is therefore independent of that in the Pressure chamber prevailing pressure canceled at the same moment in which the movable switch contact leaves the pressure chamber. This prevents Especially with small currents, a fast extinguishing of the switching arc sufficient gas flow can arise at all.

These disadvantages are avoided by the subject matter of the invention. The invention consists in that in a switch with extinguishing of the arc by a compressed air or gas flow in a chamber that is closed on all sides is generated by the interruption # arc itself, the pressure chamber with a of the switch contact movement independent shut-off device is provided, which a gas flow is only permitted from a certain overpressure in the chamber. For faster development of the gas flow required for extinguishing, in the chamber may contain a cold-releasing and evaporating mass. One can also arrange auxiliary contacts in a known manner next to the main contacts, which are in the electrical circuit are in series with the main contacts and which are intended for this are to bring about a part of the pressure increase when they separate Arc release is required while the remaining pressure increases through the arcing that occurs when the main contacts are separated. It is advantageous to arrange the shut-off device directly behind the interruption point, at which the arc is to be extinguished.

By closing the gas outlet point of the pressure chamber with a shut-off device independent of the switch contact movement, which is only activated by a specific Overpressure in the chamber allows a gas flow to develop without the involvement of a compressor system or a supply of compressed air or compressed gas that the 'when it occurs of the switching arc in the pressure chamber Pressure gradient that size assumes that to form a switching arc quickly and .Safe extinguishing air or gas flow is required. There is one in the pressure chamber Cold releasing and evaporating mass present, -so this has the consequence that the pressure increase caused by the switching arc and with it the mentioned Pressure drop reaches significantly higher values than is possible without the effect of cold were.

If you use carbonic acid snow as the cold releasing mass, you get arise from the constant evaporation of a part of it, which is a consequence of the unexposed effective heat radiation is a slow pressure increase even before switching off. The one that occurs when a switching arc occurs, leading to the opening of the shut-off device the closer this gradual one, the more rapidly sufficient total pressure will be achieved The pressure rise reaches the pressure value to which the shut-off element is set is to ensure the pressure gradient necessary to induce a strong gas flow.

In the drawing are two exemplary embodiments of the subject matter of the invention illustrated schematically, and. although Fig. i shows a switch with an interruption point, Abib. 2 one with two interruption points.

In a room i, which forms the pressure or switching chamber (Alyb. I), Contacts 2 and 3 are arranged, which are the break point of the switch form. The contact pin: 2 is movable and is in the usual way from the outside pressed forth. The wall 4, the pressure chamber i consists of an electrical and thermally insulating mass, e.g. B. porcelain. The fixed contact 3 is in the middle pierced so that the compressed gas is forced to flow out the contact point to inflate. The actual gas outlet opening of the switch is through a with Weight or spring effect or both equipped shut-off device 6 completed, which opens under the action of an overpressure of a predetermined magnitude and closes again in a force-locking manner when the pressure in space i drops. For reinforcement the thermal insulation of the pressure chamber i. a casing 7 is arranged, and the space 8 thereby formed is covered with cork or a similar heat insulating agent Fulfills. In the switching chamber i there is still a cold that emits and evaporates Mass 5, e.g. B. carbon dioxide snow, which by evaporation to the gas content of the room Gives off cold and at the same time keeps the contacts?, And 3 cool. One in the Wall 4 or 7 -provided opening which can be closed by a closure piece 9 facilitates the addition of the cold releasing compound and the control of the switch accounts.

The function of the switch is as follows. When opening the Contacts 2 and 3 form an arc in the pressure chamber i. The same creates an increase in pressure in the amount of air or gas present in the pressure chamber. Through the cold generator 5, the temperature of the gas that fills the pressure chamber i is greatly reduced. The pressure increase caused by the switching arc is Naturally, the greater the gas that is trapped in the pressure chamber, the greater it is is cooled, the closer its temperature is to the absolute temperature. Under the effect of the sudden pressure increase opens the pressure chamber i attached closure member 6, so that the standing under very strong compression Gas flows out at high speed. This will be the one between the contacts 2 and 3 standing arcs extinguished very quickly. The pressure chamber i remains after the switching process has ended and the arc is extinguished by a quantity of gas, .the pressure of which is fulfilled by .the non-positively closed Shut-off device is intended. Due to this permanently existing minimum pressure, which assumes a value that is independent of the switching origan due to the evaporation of the carbonic acid snow is maintained, the deletion process is influenced very favorably. = At the The increase in pressure caused by the arc is of great advantage if the initial value from which the sudden increase in pressure originates is considerable is above atmospheric pressure. It then needs the gas content through the arc the pressure chamber only a small amount of heat can be supplied to the rapid To achieve arc quenching required gas escape. This advantage makes applies particularly to smaller shutdown capacities.

In the figure 2 a switch with two interruption points (one Main and an auxiliary contact point).

In the pressure chamber ii there is a movable cross member 13 which is occupied by two contact pieces 12 and which is actuated by the drive rod 16. The contacts 14 and 15 serve as mating contacts for the contact pieces 12. The contact 14 is designed as a socket contact and the contact 15 is designed as a hollow contact. The contacts 14 and 15 are attached to the inner wall of a housing enclosing the pressure chamber, the cavities of which are filled with an electrically and thermally insulating material 17 . Furthermore, there is also a cold generator 2o, which is carbonic acid, in the pressure chamber ii. The switching chamber is accessible through the opening 18 which can be closed by means of a closure piece 19. The opening formed by the bore of the contact 15 is held closed by a non-positive shut-off device 2i. The pressure chamber ii is surrounded by a cladding a2, which enables thermal insulation for the pressure chamber.

The function of the switch is as follows. The extinguishing of the arc takes place under similar conditions as previously described. By .the well-known Arrangement of the auxiliary contact point 1a, in series with the main contact point, 14, however, the current interruption and thus the arcing is already before Opening of the main contacts initiated. Through the forming at the auxiliary contact point Arc causes a significant increase in pressure in the pressure chamber, even before the main contacts open. As a result, the pressure increase decreases when the main contacts open, significantly larger values are reached, and the gas flows around so sooner and with all the greater speed.

Without changing anything in the invention, you can also use the switch operate only with air.

Claims (4)

PATENT CLAIMS: i. Switch with extinguishing of the arc by a Compressed gas flow, its pressure in a chamber closed on all sides through the interruption arc itself is generated,. characterized in that the pressure chamber with one of the switch contact movement independent shut-off device is provided, which one Gas flow is only permitted from a certain overpressure in the chamber. 2. Switch according to claim i, characterized in that a cold emits in the switching chamber and evaporating mass is included. 3. Switch according to claim i and a, characterized by auxiliary contacts that are in series with the main contacts and intended for this purpose are to bring about a part of the pressure increase when they separate, which for Arc extinction is required while the remaining pressure increase is generated by the when the main contacts are separated, an arc is produced. 4th Switch according to claims i to 3, characterized in that the shut-off element is directly behind the interruption point at which the arc is to be extinguished, is arranged. The patent 601 563 is by judgment of the Reichsgericht dated February 12th 1943 partially annulled by the fact that claims 1 and 2 were deleted will.