DE591601C - Oil switch with several interruption points in series - Google Patents

Description

The invention relates to oil switches with several interruption points in series, in which a strong oil flow is driven via an interruption point, the by that generated by the arc at the other interruption point or points Pressure is created. In the known oil switches of this type with two in series Interrupting points, the interruption parts are housed in two separate chambers, with the first chamber a guide channel leads to the second interruption point, through which the oil flow is directed that it runs across the arc at the second interruption point. Such However, constructions are relatively cumbersome and expensive.

The present invention now aims to provide an oil switch in which the same beneficial effect as occurs in the known oil switches of the type mentioned above but this effect is achieved through a significantly simpler construction. According to the invention are the interruption points

completely enclosed by a special common pressure chamber located in the oil boiler, its walls close to the interruption points, with the exception of at least one that runs parallel to the switching path and is located to the side of it, constantly have free openings.

The drawing shows two exemplary embodiments of the invention.

Fig. Ι shows a longitudinal section through an oil switch according to the invention.

Fig. 2 is a cross-section along the line 2-2 in Fig. 1. ■

Fig. 3 shows the application of the invention to an oil switch with the known arrangement of the contacts on a horizontal traverse.

In the embodiment shown in Figs is the switch housing labeled 1 through a strong insulating plate 4 divided into a lower pressure chamber 2 and an upper chamber 3. The pressure chamber 2 is. Lined with insulating material 2 'and contains a switching fluid, for example oil. The oil fills the lower chamber 2 and the lower part of the chamber 3. In the pressure chamber 2 are the two interruption points, which are through a pair of fixed contacts 5 and 6 and one on the shift lever 8 attached switch blade 7 are formed. Contacts 5 and 6 are with the Through bolts 9 and 10 connected, which through the on the side wall of the chamber Pass 2 fastened bushing insulators 11 and 12 through.

The insulating plate 4 is provided with a pressure relief opening 13 through which the Pressure chamber 2 with the upper chamber 3,

which is under relatively low pressure, communicates. The opening is located in the immediate vicinity of the interruption point arising between the contact 5 and the contact blade 7. The left edge of the opening is at the same height as the free end of the fixed contact 5 of the interruption point. As can be seen from Fig. 2, a print release opening 13 is provided for each upper interruption point on the contact 5 in a multi-phase switch.
■. . When the switch is to be opened, the actuating device is released by the release coil 14 in the manner described below, the compression spring 15 rotating the switching arm 8 counterclockwise about the bearing pin 16. So that the pressure relief of the chamber 2 is practically limited to the opening 13, a relatively narrow slot 17 is provided in the insulating plate 4, which forms an extension of the opening 13 and which is filled by the switching arm 8 when the switch is opened. It is known that when an arc is drawn in an insulating liquid, for example oil, a high pressure is suddenly generated which is dependent on the strength of the arc and the current to be interrupted. If the switch is opened, for example in the event of a severe short circuit, the arc that occurs when the contact is interrupted generates a rapidly increasing pressure within the chamber 2. Between the contact 5 and the switch blade 7, an arc arises that is transverse to the axial direction of the opening 13 and in the immediate vicinity Near the same is drawn, while the arcing between the contact 6 and the switch blade 7 is located further away from the opening 13. Since the pressure within the chamber 2 can only be discharged through the opening 13, the insulating liquid is driven out of the chamber 2 through the opening 13 into the upper chamber 3 by the pressure generated at the lower interruption point, whereby it is transversely through the arc in the Flows near the point of interruption. Since the edge of the opening is at the level of the free end of the fixed contact, this oil flow perpendicular to the arc occurs immediately at the beginning of the interruption, which would not be the case if the fixed contact and the opening edge were greatly offset. As the oil flows through the pressure relief opening from all sides. If the arc flows in, it cannot avoid it, and as a result the arc is safely extinguished within a short time. The triggering device for the switch is not the subject of the present invention and will therefore only be described briefly. It is arranged in a housing 18 accommodated in the upper part of the switch. The switching arm 8 is held in the switched-on position in that a toggle lever which engages an extension of the switching lever 8 projecting beyond the bearing pin 16 is held in the extended position. The toggle lever is pushed out of its extended position in that a pin 27 attached to a lever 28 strikes against the inflection point of the toggle lever when the latching of an extension 30 on the lever 28 is released by the excitation of the release coil 14 and this under the action of the spring 29 counterclockwise is rotated. As soon as the toggle lever 21, 25 has been pushed beyond the dead center position, the compression spring 15 can bring the switching lever 8 into the switched-off position.

In the embodiment of Fig. 3, the fixed contacts 36 are known Manner carried by the lower ends of the bushing insulators 37, which are on the Lid 38 of the oil boiler 39 are attached. '' A switching traverse works with the fixed contacts 40 together, by a shift rod 41 and a suitable actuating device 42 can be moved in the vertical direction. The fixed contacts 36 have special arcing contacts 43 that something protrude over the main contact fingers 44 downwards. Those who work together with the contact finger The ends of the switch traverse, which is expediently knife-shaped in cross section, are reinforced at 45. The oil boiler 39 is made with insulating material 46 lined, which forms a housing with the cover 47 and serves to accommodate the movable and fixed contacts.

In the vertical wall of the insulating housing is near the right contact an opening 48 is arranged, the upper edge of which • corresponds to the arrangement in Fig. 1 approximately is at the same level with the free end of the right contact 43 and which through the channel 49 with the space above of the cover 47 of the insulating housing is in communication. The lower part of the channel 49 between the insulating housing and the boiler wall is filled with a piece of wood 50, whose upper edge is beveled so that the through the opening 48 from the insulating housing out- " emerging oil is fed vertically upwards.

If the contacts are opened when the switch is interrupted, the Pressure generated in the oil pushes the oil out of the opening 48, taking it transversely driven by the arc drawn between the right contact and the switching crosshead will. This will extinguish the arc. Above the oil level a sufficiently large air space 51 is provided, which acts as a buffer.

In the embodiment of the invention according to Fig. 3, the switching capacity of a certain Switch can be significantly improved without significant changes to the switch are required, and as a result, a switch can be used for a given power can be manufactured at a significantly lower cost. In the embodiment shown in Fig. 3, the contacts are practically identical. separated early. However, the contacts located further away from the opening 48 can also be used earlier than the contacts at this opening are disconnected. In some cases on the other hand, it may be desirable to use the

To draw the arc at the opening 48 a little earlier than the one causing the main pressure another arc so that the one located in the vicinity of the pressure relief opening 48 Oil mass is already somewhat accelerated when the main pressure is generated. Through this the highest possible speed of the oil flow is achieved.

Claims (3)

Patent claims: 1. Oil switch with several interruption points lying in series, characterized in that that the interruption points from a special common pressure chamber located in the oil boiler completely are enclosed, the walls of which are close to the {interruption bars, with the exception with at least one, parallel to the switching path and laterally always have free openings located therefrom. 2. oil switch according to claim 1, characterized characterized in that the contacts in the vicinity of the openings of the pressure chamber open earlier than the others. 3. Oil switch according to claim 1, characterized in that the pressure chamber openings extend from the height of the free end of the fixed contact of the interruption point in the disconnection direction. For this purpose ι sheet of drawings