DE606153C - Device for the destruction of electrical charges in multi-phase system parts - Google Patents

Description

Device for the destruction of electrical charges in the case of multiphase System parts After the disconnection of high-voltage capacitors from. Network stays on the coverings a residual charge, the amount of which from the moment of final extinction of the cut-off arc. With backfire-free shutdown and simultaneous interruption of the switch contacts in all phases can with In the worst case, alternating current has an electrostatic residual charge of 1 2 times Value of the effective operating AC voltage remain on the pads. The this Residual voltage corresponding residual charge must be destroyed immediately to avoid accidents will; It must also be used for safe discharge of what remains on the coverings Voltage potential to earth.

In low-voltage systems, high-resistance ones are attached to the capacitor terminals Discharge resistors on, or you take care of it; that the capacitors are over the windings of a rigidly connected, mostly inductive power consumer (Motor, reactor or transformer) discharged. Sometimes the capacitor switch is set up with auxiliary contacts to which the required discharge devices are connected so that the residual electrical charge in the switched-off state via this is destroyed and can flow away. In the case of high-voltage capacitors, it is possible to continuously Discharge resistors attached to the terminals are usually not provided, as they are designed with consideration on the otherwise occurring high permanent losses would have to have a very high ohm number ; this would require a very long discharge time. Also the arrangement of a Tapping in the middle of the resistors presents difficulties so that there is a drain of the voltage potential to earth is not possible. Because of that you either see a special oil switch, which has discharge resistors with an earthing tap owns, or you use a special voltage converter, a permanently parallel high-voltage motor, high-voltage transformer or the like.

The invention seeks to avoid such additional devices. to for this purpose she suggests using an insulating rod with discharge resistors with for making contact with the heads of the individual phases of a multi-phase system suitable contact pieces are arranged.

This makes it possible to use voltage converters in parallel with the capacitors, Avoid motors or transformers. You can then get one for each capacitor separately fuse the battery connected via a single circuit breaker, there in front of everyone Touch the capacitors over the insulating rod of the invention are discharged, so that even when a fuse blows remaining charges cannot cause any damage.

Such an insulating rod is shown in Fig. I. On a vertical rod made of insulating material = a cross member 2 is arranged. On this, by means of springs 3, is another cross member 4 as a carrier of the contacts 5, 6 and 7 attached. These contacts have resistors in a V connection 8, which are arranged between the cross members g and io below the cross member 2 are connected. When pressing the insulating rod i against the conductors = _, 12 and 13, the contacts 5, 6 and 7 come into contact with them and thereby connect these conductors via the resistors B. Residual charges on the conductors can therefore balance each other through the resistances.

So that any remaining voltage potential can be diverted to earth, the rod is provided with a short-circuiter 14 which is attached to the cross member 2 and connected to earth by a rope 15. The short-circuiter is brought into contact with the stops 16, 17 and 18, which are in conductive connection with the contacts 5, 6 and 7, when the rod i is pushed further towards the conductors 1i, 12 and 13, overcoming the force of the springs 3 . As a result, the conductors 1i, 12 and 13 are immediately short-circuited and connected to earth.

So that the contacts 5, 6 and 7 also with conductors that are not in one To ensure a good current transfer, it is advisable to use the contact pieces to be arranged according to resilience. The feathers must be so soft, that they can be compressed more easily than the springs 3, which the cross members Connect 2 and 4 together. Since this can cause difficulties in some cases can, it is advantageous to provide a lock between the cross members 2 and ¢, which creates a rigid connection. The locking is only then done by hand canceled when the conductors 1i, 12 and 13 were bridged across the resistors and the contact rod i has been removed from the conductors. So it is in this case a second touch of lines 1i, 12 and 13 is required. It can then simultaneously a second latch can be made by hand, which is the connection between the contacts 16, 17 and 18 and the short-circuit bar 14 produces. This gets increased safety for short-circuiting all phases. It is furthermore compared to the unlocked state, only a reduced contact pressure is required.

To make contact with the direct connection of the individual conductors To improve even further, it is advantageous to use the short-circuiter according to Fig. 2 as a removable rail. The short circuiter 14 is then located on a cross member 2o and is by springs according to Fig. 3 with this tied together. The springs are each connected to the individual contacts 5, 6 and 7. The resistors 8 are attached between the cross members 4 and 2o.

For use for lines with lower voltages, the Resistors according to Figures 4 and 5 are arranged directly on the cross member 4 because in this case they are correspondingly smaller. As the resistances can only be used for a short time, this fact can be included in the calculation be worn.

The device according to the invention is in the same way for unloading and earthing of lines, cable sections and the like.

Claims (6)

PATENT CLAIMS: i. Device for the destruction of electrical charges in the case of multi-phase system parts, characterized in that on an insulating rod (i) Discharge resistors (8) for making contact with the conductors (1i, 12, 13) of the Individual phases suitable contact pieces (5, 6, 7) are arranged. 2. Establishment according to claim i, characterized in that the contact pieces (5, 6, 7) are resilient are arranged so that they touch all conductors when pressed, even if these are not in one plane. 3. Device according to claim i and 2, characterized characterized in that a short-circuiter (i4) for the individual on the insulating rod Resistors (8) is arranged. 4. Device according to claim i to 3, characterized in that that the short circuiter (i4) is connected to earth. 5. Device according to claim = to 4, characterized in that the contacts (5, 6, 7) on a spring-loaded Traverse are arranged that they first the resistors (8) and stronger Press down and connect the short circuiter (i4) to the conductors (Fig. I). 6. Establishment according to claims i to 4, characterized in that the short-circuiter (i4) is removable Rail is arranged on the insulating rod (Fig. 2).