DE738264C - Bushing disconnector - Google Patents

Description

Bushing disconnector The invention relates to a disconnector, especially for high-voltage purposes, which are so operationally safe due to special training is made, Uaß it at the same time as a wall duct, especially for high-voltage circuit cells, can be used.

In such high-voltage switching cells, one has hitherto generally , made the structure as shown in Fig. i. It; i and 2 are two Double busbar systems, -3 and 4 are disconnectors, 5 and 6 special wall bushings from the busbars to the disconnectors. 7 is the circuit breaker and 8 the output disconnect switch.

The disconnector according to the invention is designed to be operationally reliable, that, as can be seen in FIG. 2, it can also be used as a wall duct can, whereby a reduced overall height of the switching cells is achieved. In Fig.2 is such a switchgear cubicle with a bushing disconnector according to the invention shown. i and 2 are the two busbar systems, 9 and io two according to disconnectors designed according to the invention. In Figs. 3 to 6 is the special one Structure of the disconnector shown. The circuit breaker consists of. a porcelain tube, i i, into which a tubular insulating piece 12 is inserted. In this insulating piece the switch blade 13 slides, which slides into contact 14 at the top and into contact at the bottom an annular extension 15 runs out, which enables the disconnector to be pulled.

According to the invention, there is now an iron ring 1 7 in the porcelain tube i i arranged, which limits the creep effect of the current. The ring17 is further in accordance with of the invention connected to the support flange 16, which is suitably made of cast iron. The flange can, as from. 3 and 4 can be seen in an inclined position of the Wall be formed at an angle, but it can also, as FIG. 6 shows, perpendicular to the The porcelain pipe of the isolating switch is standing. By inserting this grounded ring the circuit breaker is made so operationally safe that @ it is used as a wall duct can be, because leakage currents, those inside the bushing insulator can arise between the open contacts, discharged through the grounding ring will. This ruled out with certainty that the open isolating distance can be bridged.

FIG. 3 shows the disconnector when it is switched on, FIG. 4 when it is switched off Conditions. So that you can never see the separating cell from the outside, as in the. Fig. 5 shown, according to the invention in the porcelain tube. Window 18 should be inserted. How out Fig. Z can be seen, the circuit breaker can also be in the lower wall of the cell i9.

The possibility of the disconnector due to the new training to be able to use it as a wall duct because of its high operational reliability significant benefits result.

As a comparison of the switching cell according to Fig. I and z shows, the Overall height of the entire switching cell when using the new one. Feedthrough disconnector considerably lower. This means a saving in material and a reduction in price all over the place. In addition, the safety in the switchgear cell is increased because Switched off disconnectors, the part of the switching cell below the protective wall no longer has any live parts. In the earlier design according to Fig. This advantage was not available because the disconnector was also switched off the upper contacts of the disconnector were in the cell and carried voltage, so that when the cells are opened, special protective walls are often inserted had to. The bushing disconnector can of course be attached to others except in switchgear cubicles Stell can be used where there is a bushing and an isolating circuit at the same time are necessary.

Claims (6)

PATENT CLAIMS: r. Sliding disconnector whose switching path is within : one: bushing insulator is, characterized in that inside the A conductive grounded ring is inserted, which defines the creepage distance for the Current limited. 2. Isolating switch according to claim i, characterized in that the Implementation contains a window that allows inspection of the isolating section. 3. Disconnector according to claim i and 2, characterized in that within the A second insulating tube is inserted into the bushing insulator of the disconnector, that surrounds the switch blade in its open position. q .. Isolating switch according to claim i, characterized in that the conductive ring with the support flange of the: bushing insulator is conductively connected. 5. Disconnector according to claim i, characterized by. that the isolating switch serving as a wall duct is in the upper end wall is attached to a switchgear cubicle. 6. Disconnector according to claim i, characterized in that that the disconnector is used as an output disconnector in the lower wall of a switchgear cubicle is used.