DE1127442B - Electric fluid switch - Google Patents

Description

Electric fluid switch A switch is known at the extinguishing agent against a main interruption point with the help of an auxiliary arc is pressed. The switch is designed in such a way that the auxiliary arc is only triggered with small Currents are ignited or short-circuited in the case of large currents. This is supposed to be a Adaptation of the extinguishing agent flow to the switching conditions can be achieved. at Liquid switches, it is generally undesirable when the interruption point when switching off large currents, a lot of extinguishing agent is supplied because then through too much pressure can be generated in the arc. Is disadvantageous with the known Switch that an expensive control for the adaptation of the extinguishing agent effect is needed. This makes the switch more expensive and susceptible to malfunctions.

For another switch with an extinguishing chamber and a pump piston, the additional extinguishing agent in the extinguishing chamber when small currents are switched off should press, attempts have been made to adjust the flow of extinguishing agent by means of valves to achieve the switching ratios. With one caused by a great current The valves close the extinguishing chamber under pressure, so that the pressure generated by the pump piston Extinguishing agent flow cannot get into the chamber. In this case it must be from Pump piston displaced extinguishing agent can be taken up outside the extinguishing chamber. The switch is therefore equipped with a very complicated pumping device. Another disadvantage is; that the pump piston is useless when switching off large currents against the high pressure determined by the valves in the extinguishing chamber wall got to.

It is also known, the fixed contact of a switch by an extinguishing agent flow caused by the arc with the help of a pressure chamber to flush while the moving contact piece after moving a certain Path takes a pump cylinder and pulls it over a stationary piston. Of the The cylinder also serves as a nozzle and directs the one emerging from the cylinder Extinguishing agent flow axially along the arc against the one emerging from the pressure chamber Flow against their pressure. the cylinder carried along by the switch pin must convey. Therefore, very large driving forces are required in the known switch when it should be avoided with certainty that the switch in a severe shutdown gets stuck in an intermediate position.

One has also already at a switch; in which a differential piston an additional chamber part is provided for extinguishing high-current arcs intended for the quenching of low-current arcs. With the known switch but only has the chamber part for extinguishing low-current arcs across Channels running towards the arc. The other chamber part is designed so that the extinguishing agent delivered by the differential piston raidal against the arc to be led. In the area of the arc, it can only give way axially. Included it occurs either in one of the contact pieces. containing room or in the for the Extinguishing of low-current arcs provided chamber part. This is disadvantageous. In the space containing the contact piece, there is great pressure and the extinguishing agent must therefore be promoted against this high pressure. If the extinguishing agent on the other hand evades into the part of the chamber provided for extinguishing low-current arcs, so the extinguishing ability of this part of the chamber is reduced because the extinguishing agent previously come into contact with the arc and at least partially ionized is.

The invention relates to a liquid switch with transverse to the breaking arc running channels for guiding the extinguishing agent flow. According to the invention are separate channels are available, namely one channel is known Way connected to a pressure chamber in which the switch-off arc causes the extinguishing agent flow generating pressure increase causes, while the other channel in a known manner is connected to the cylinder of a pumping device actuated by the switch pin, which only takes effect when the switch pin has traveled a certain distance Has.

The independent guidance of the two extinguishing agent flows the separate channels avoid mutual interference. That's why can the current-dependent extinguishing agent flow can be designed so that it can be used with large flows works best. In this context, large currents are to be understood as meaning the currents at to interrupt normal load or power switching: The current-independent, By contrast, the extinguishing agent flow generated by the pumping device can be dimensioned in this way ensure that small currents are switched off safely and without re-ignition. Under Small currents are generated when idling lines and capacitors are switched off or currents occurring from transformers.

The invention is not limited to each of the two extinguishing agent flows only one channel is assigned. You can also have several for each extinguishing agent flow Provide channels. The number of channels depends on the optimal extinguishing effect. Expediently, use is made of the fact that high-current arcs with the help of a flow directed transversely to the arc already at relatively short arc length can be extinguished with great certainty. That’s why it’s bad arrange the channels assigned to the pressure chamber closer to the stationary contact piece than the channels assigned to the pumping device. With small currents it results then a longer arc when the current-dependent flow of extinguishing agent is used to extinguish not enough at first. The greater arc length is due to the short Arc work harmless to the switch. With the help of the later onset Pump device, these low-current arcs are also safely extinguished. the Distance covered by the switching pin before the pumping device begins to act; so you make about the same as the arc length when switching off large currents.

A particularly simple structure of the switch according to the invention results when the pressure chamber on the one and the cylinder of the pumping device the other side of the channels is arranged. With Sehaltern with one when switching off from bottom to top to be pulled switch pin is the pressure chamber in which in general the stationary contact piece is arranged, thus below the channels, while connects to the top of the channels of the cylinder.

In the event that the guiding of the cross-flowing extinguishing agent The necessary length of the channels is not sufficient to ensure a sufficient separation of the two To achieve extinguishing agent flows, one will provide a corresponding extension. The extension ensures that the channels emerging from the canals Can only combine extinguishing agent flows after passing a certain distance. It is particularly advantageous to design the switch in such a way that the extension is essentially in the axial direction, d. H. parallel to the direction of movement of the switch pin. A corresponding arrangement with sufficient flow cross-sections is obtained . B. easy with a switch, i in which the cylinder for the pumping device and the pressure chamber of preferably nested concentrically to the switching pin Cylinders are formed. Circular or semicircular flow channels then result; which, for example, surround the i cylinder of the pumping device.

In order to obtain a not too large overall height of the switch, one can according to the invention arrange a check valve in the partition between the channels. The non-return valve is to be installed in such a way that it prevents the extinguishing agent from escaping allowed the channel assigned to the pumping device in the other channel. At the When small currents are switched off, the pumping device then pumps extinguishing agent into all transverse channels. Thus, the low-current arc is also influenced over its entire length. This intensive influencing of the arc is advantageously a Backfire-free switching also enables small capacitive currents.

One or more valves can be installed in the cylinder of the pumping device provide; which release relief openings at a certain pressure. Through this it is achieved that no damage to the switch occurs, even in the event of reversal disturbances can. The maximum pressure occurring in the switch is reduced to one by the valves desired value.

In Figs. 1, 2 and 3, embodiments of the invention are shown. 1 shows the essential part of a switch according to the invention in FIG a longitudinal section; FIG. 2 is a cross section according to that shown in FIG Line II-II; FIG. 3 is a modified embodiment of a switch according to FIG Invention.

The same reference numerals are used for corresponding parts.

With 1 is the outer tubular jacket of the switching chamber of a 'liquid switch designated. The switching chamber is closed at the bottom by a metallic floor 2. A stationary contact piece 3 is attached to the bottom 2. The upper part of the switching chamber is also closed in a suitable manner, not shown, with guides and drive members for the movable switch pin 4 are provided. The desk is shown in the on position. In. the switch-off position is the switch pin tip in the position shown in dashed lines at 5.

Concentric to the switching pin 4 and to the jacket 1 is also seated made of insulating material pipe 7, the bottom through the bottom 2 and above an insulating plate 8 is completed. A plate inserted into the tube 7 9 delimits a pressure chamber 10 at the top. This pressure chamber is used to reduce pressure peaks an existing made of elastic material torus body 11 is provided with a Gas is filled. The one assigned to the pressure chamber runs above the pressure chamber Channel 12 for an extinguishing agent flow directed transversely to the arc: it is through a partition wall 13 separated from the overlying Kafä114 - the one as a whole with 15 designated Pumpeinrichtimg is assigned. The pumping device consists from a cylinder 16 and a piston 17, which is seated concentrically to the switching pin, which is pressed down against a shoulder 19 under the action of a spring 18. When switching off the piston 17 is provided on the switching pin 4 approach 20 mi = t taken when the switch pin a predetermined distance, in this case the distance between the projection 20 and the piston 17 has covered.

As FIG. 2 shows, the annular space 22 formed by the tube 7 and the cylinder 16 is divided into two halves 25 and 26 by partition walls 23 and 24. The extinguishing agent conveyed from the cylinder when it is switched off is fed to the channel 14 through the part 26. After passing through the arc, it flows from there through part 25 upwards. The area of the tube 7 on the left in FIG. 1 serves as an extension of the partition 13 in the axial direction. The extinguishing agent flows emerging from the channels 12 and 14 can only unite above the plate 8. The switch works as follows: To switch off the switch pin 4 is moved from bottom to top. An arc is drawn between the stationary contact piece 1 and the contact pin. The arc heats the extinguishing agent located in the pressure chamber 10. A considerable increase in pressure is generated by the switching gases that are formed. This leads to the extinguishing agent flow indicated by the arrows 30. In the case of large currents, the flow of extinguishing agent is so intentional that the arc is extinguished before the stop 20 reaches the piston 17. With small currents, on the other hand, the current-dependent extinguishing agent effect is initially insufficient. A longer arc extending beyond the channel 14 is drawn. In this area, the arc is influenced by the current-dependent extinguishing agent flow generated by the pump device 15. The course of the current-dependent extinguishing agent flow is indicated by the arrows 31. This flow of extinguishing agent results in reliable extinguishing of small currents.

When switching on, the piston 17 is pushed down by the spring 18 pressed against the stop 19. The check valves 33 ensure that the movement is not slowed down by the extinguishing liquid in the cylinder 16 will. The filling gap 40, through which oil is sucked in when switching off, is expedient mounted so that the cylinder 16 always fills with fresh oil. As in Fig. 2 is shown in dashed lines, this can be done, for. B. reach through walls 41 and 42, which separate an inflow line 43 from space 22.

As indicated by dashed lines in Fig. 1, the switch can move to of the invention can also easily be fitted with a resistor 34. The resistance 34 has the metallic base 2 and an intermediate electrode provided in the partition 13 tied together. As a result, switching overvoltages can be reduced in a known manner and a stabilization of the arc can be achieved. The resistance is so too dimensioned that the arc of the residual current flowing through the resistor through the flow 31 in the channel 14 is safely deleted.

In the case of the switch shown in FIG. 3, a check valve 35 is provided in the partition 13. The check valve is arranged so that only a flow of extinguishing agent can take place from the part 26 into the channel 12, but not from the pressure chamber 10 into the channel 14. With this arrangement, long arcs of small currents can be flushed essentially over their entire length. The supply of fresh extinguishing agent ensures that the electrical strength of the switching path is quickly strengthened. The switch is therefore particularly suitable for backfire-free switching of capacitive currents. A pressure relief valve 36, which is under the action of a spring 37, is provided in the tube 7. The spring 37 determines the level of pressure at which the opening 38 is released. The valve 36 is used to relieve the cylinder 16 when the pressure is too high.

Claims (7)

PATENT CLAIMS: 1. Electric fluid switch with across Switch-off arc running channels for guiding the extinguishing agent flow, thereby characterized in that the channels are separated from one another and that the one channel is connected in a known manner to a pressure chamber in which the switch-off arc causes one pressure increase producing the extinguishing agent flow, and that the other Channel in a known manner with the cylinder of a pumping device actuated by the switching pin connected, which only takes effect when the switch pin a certain distance has covered. 2. Liquid switch according to claim 1, characterized in that that the pressure chamber and the cylinder are arranged on opposite sides of the channels are. 3. Liquid switch according to claim 1, characterized by an extension the partition between the channels so that the extinguishing agent flows out of the channels can only unite after traveling a certain distance. 4. Liquid switch according to claim 3, characterized in that the extension is substantially in runs in the axial direction. 5. Liquid switch according to claim 1, characterized through a non-return valve in the partition between the channels that overflows of the extinguishing agent from the channel assigned to the pumping device into the other channel allowed. 6. Liquid switch according to claim 1, characterized by a valve, that at a certain pressure a relief opening for the cylinder of the pumping device releases. 7. Liquid switch according to claim 1, characterized in that the Cylinder for the pumping device and the pressure chamber of preferably concentric For the switch pin nested cylinders are formed. Considered Publications: German Patent No. 819 276; German interpretative document no. 1025 488.