DE600406C - High voltage alternating current switch - Google Patents

Description

Bur. -Ind. ^

AUGL 14, 1934

ISSUED ON JULY 21, 1934

There are switch constructions known in which, in order to reduce the oil volume the whole single pole switch is housed in an insulating housing. One pole of the switch is at the bottom linde of the housing, the other pole at the top, and the insulating housing in between is equipped with deionization devices to quickly extinguish the arc as well as filled with the extinguishing liquid. This arrangement has the disadvantage that when the Switch the stress on the insulating parts in the longitudinal direction of the surfaces of the same is very unfavorable.

so that to achieve a sufficient dielectric strength relatively large dimensions of the insulating housing and the insulating parts contained therein required are.

It is known by potential control by means of metallic inserts in a die Contacts surrounding the insulating tube extinguish the switch-off arc and re-ignite to influence the same. However, the potential control is only limited here on the points of attachment of the arc. The break distance between the contacts is not affected by this, so the overall height of the switch is not reduced.

The invention is now a high-voltage AC switch with at least an outer and at least one inner insulating housing in cylindrical shape, wherein one of the inner insulating cylinders has a deionization device and metallic Has deposits for potential control, in which, according to the invention, a reduction in the The rollover path and thus the overall height of the switch is achieved in that metal inserts in the insulating cylinder at least over the entire length of the interruption section extend between the switch contacts.

- In the drawing, an embodiment of the invention is shown in longitudinal section. The switch is arranged within a ceramic cylinder σ and also contains an insulating cylinder b made of hard paper or a similar material for the mechanical relief of the ceramic 5c cylinder. In addition, a further cylinder c can be provided which contains the devices required for deionizing the arc, d is the fixed and e the movable switch contact. When switched off, all of these cylinders are electrically stressed along their surface and, as a result of poor voltage distribution, may give rise to the formation of sliding sparks. As a result of this phenomenon 6c, the maximum allowable voltage is greatly reduced. There are therefore in the insulating cylinder b, the metal deposits to f _t / _e housed and according to the invention such that the most uniform possible distribution of stress is obtained in the axial direction over the entire length of the interruption 6 · route. The ceramic cylinder ο is

sealed against corresponding metal parts of the switch by intermediate layers. The insulating cylinder b with the metallic inserts Z ₁ to / ₆ is screwed to corresponding parts of the switch.

If the switch is intended for a very high voltage, the thickness of the cylinder used to control the potential, e.g. B. b, be chosen so that the desired stress stress does not lead to any breakthrough between the individual deposits. Under certain circumstances, this condition can result in a cylinder wall that is too thick and, accordingly, a more expensive cylinder b . This disadvantage can be remedied by dimensioning cylinder b with regard to its mechanical stress and the greater wall thickness required for the electrical stress be created that further thinner insulating g are provided with corresponding metal inserts. the entire length of the switch or part may g These cylinders have it. They may be attached directly to the surface of the master cylinder b or arranged in a suitably sized distance from this .

Claims (6)

Patent claims: i. High-voltage alternating current switch with at least one outer and at least one an inner insulating housing in the form of a cylinder, one of the inner insulating cylinders being a deionization device and has metallic inserts for potential control, characterized in that that the metal inserts in the insulating cylinder extend at least over the entire length of the interruption section extend between the switch contacts. 2. High-voltage AC switch according to claim 1, characterized in that that several insulating cylinders with metal inserts pushed one on top of the other for potential control are. 3. High-voltage AC switch according to claim 2, characterized in that that only one insulating cylinder containing inserts is dimensioned with regard to mechanical stresses, while the other insulating cylinders are only used for potential control. 4. High-voltage AC switch according to claim 1 to 3, characterized in that that between the individual insulating cylinders containing the inserts; Space filled with extinguishing liquid is available. 5. High-voltage AC switch according to claim 1 to 4, characterized in that that the insulating cylinders pushed one above the other have the same length. 6. High-voltage AC switch according to claim 1 to 4, characterized in that that the length of the insulating cylinder is different. For this purpose ι sheet of drawings