DE719870C - Low-liquid high-voltage wall switch of the tube type - Google Patents

Description

Tube-type, low-liquid, high-voltage wall switch Done the attachment of a low-fluid high-voltage switch of the tube type on a wall with horizontally arranged post insulators that provide the necessary Clearance of the - live parts of the switch from the wall, see above Care must be taken that both the attachment of the post insulators to the wall as well as the attachment of the switch to the post insulators in sufficient Dimensions is done. There is a special one for attaching the post insulators to the wall '' Metal base necessary in which the post insulators are cemented or on which the Isolators are held by clamping devices. In the same way, the Switches attached to the isolators. If post insulators are used, then enlarged the structural dimensions of the switch by the height of the fastening flanges (cement flanges).

Are the switching points of low-liquid high-voltage switches in special chambers, e.g. B. flow quenching chambers arranged, which act in such a way that the drawn arc is extinguished within the closed chamber, so %% - earth the high gas pressures that occur inside the chamber when switching consumed and cannot get outside. The stress of the board surrounding switching wall will be significantly lower compared to such switches, where z. B. the usual quenching chambers are used in which the deletion of the arc drawn during switching at the moment the switch pin emerges out of the chamber. As a result, the switch wall can be relatively weak be executed.

About the method of fastening such low-liquid high-voltage switches to simplify the switching wall, through the particular attachment between Porcelain parts and metal bags. as it was previously necessary, is no longer necessary and thus reducing the size of the switch occurs according to the invention in place of the post insulators necessary for fastening the low-liquid switch a molded insulating part, which at the same time covers the switch parts in such a way, that a completely closed insulating envelope of the whole low-liquid High-voltage switch is created. This Isolicrstoffpreßteil can be formed that the Schaltcrantriebsgestänge is also located within this part. The resulting housing has a cover-like part. and the on Job of the post insulator stepping Isolierstoffpreßteil either carries the switch with the extinguishing chamber or the cover-like part with the drive rod. In the latter In this case, the switch with the quenching chamber is arranged hanging on this part. These Arrangement has the further advantage that not only reduces the weight of the switch, but this is also better distributed at its attachment point because wearing of the switch not by two brackets, but by the stresses that occur are distributed over the entire mounting surface of the Isolierpreßstoffgehäuscs that is held on the wall in several places by screws or the like.

It has already been proposed to use individual switch parts together with to design the post insulators in part. But this is not the case around low-liquid high-capacity switches. where within a closed Housing the contact interruption takes place, but about the attachment of individual Switch parts that cannot be referred to as the outer switching vessel because both the switching point itself and those not used for supply or discharge live parts are on the outside. Need such arrangements a special cover if the switching points are inside a housing should be located.

The figures serve to explain the invention and show two the possible. Embodiments. In Fig.i, a is the insulating part, that replaces the supporters. It forms a part with the switch housing b Screws or the like is attached to the wall. c is the housing cover. In Fig. 2 the cover is made in one piece with the molded insulating part a, which serves as a support, and the actual switch housing b is attached to it in a suspended manner.

In Fig. I the switch housing is shown in section. d and e are the power supply and discharge points. They have inwardly protruding pin-like lugs f and g, over which the moving switch part h together with the quenching chamber i slides like a slide-on disconnector. k is the liquid level indicator. L is an opening for refilling the switching fluid. .

The housing can of course also be made of pressed ceramic material exist, provided that this material can withstand the stresses that occur. It is also possible to have the cover of the housing made of pressed ceramic material, make the remaining part of insulating molded material or vice versa.

Claims (4)

PATENT CLAIMS: i. Low-liquid high-voltage wall switch of the tube type, in which the arc is extinguished within a closed arcing chamber, which keeps the pressure surges away from the outer housing wall, characterized in that a support made of molded insulating material is used for fastening the low-liquid switch to the wall, which at the same time the Covered switch parts in such a way that a completely closed insulating molded material covering the entire low-liquid high-voltage switch is formed. 2. High voltage switch according to claim i, characterized in that the switch drive linkage is also within the Isolierpreßstoffgehäuses is housed. 3. High-voltage switch according to claim i to 3, characterized in that the housing has a cover-like part and the insulating molded part serving as a support either the switch or the wears lid-like part, in the latter case the switch on the lid-like Part is arranged hanging: 4. High-voltage switch according to claim i to 3, characterized marked that the current supply or% v. -Duction contacts on the floor or lower End of the switch are fixed and inwardly protruding pin-like lugs have, over which the moving part of the switch together with the extinguishing chamber is like a push-break switch slides.