Designed for operation with solid links of size 3, 1250A
A flame-proof, self-extinguishing plastic with a V0 flammability class
Two-pole contact arrangement
Find out what the RWS 1250 pro fuse switch disconnector has to offer
Option to change the direction from top to bottom
Designed for installation on a 185mm busbar system
Versions
Installation for a 185 mm busbar system, 3-POLE SWITCHING - all phases simultaneoulsy
RWS 1250-6-2M pro cable connection: two M12 nuts per phase; connection width 100 mm
RWS 1250-6-3M pro cable connection: three M12 nuts per phase; connection width 200 mm
RWS 1250-6-T pro power supply from the rear of the switch disconnector, connection busbar length = 120 mm, hole in the busbar suitable for an M12 bolt
RWS 1250-6-T pro power supply from the rear of the switch disconnector, connection rail length = 170 mm, hole in the rail suitable for an M12 bolt
RWS 1250 NL pro switch disconnector with side outlet cable connection: M12 screw, outlet on the left
RWS 1250 NR pro switch disconnector with side outlet cable connection: M12 screw, outlet on the right-hand side
Applications of the RWS 1250 pro fuse switch disconnector
Transformer stations
The use of fuse switch disconnectors in transformer substations ensures the highest standards of operational safety. The design of the switchgear allows for rapid disconnection of the power supply. Furthermore, its resistance to harsh conditions and temperature fluctuations means the equipment does not require frequent servicing, thereby reducing operating costs.
Low voltage switchgear
The fuse switch disconnector is a solution designed to optimise space in LV switchgear. Thanks to its compact design, it facilitates the arrangement of equipment whilst ensuring reliable circuit protection. A well-designed connection system allows cables to be neatly and safely routed, which speeds up installation and makes future inspections easier.
Cable connectors
The fuse switch disconnector ensures effective circuit isolation, thereby enhancing staff safety during operational work. Furthermore, the device minimises the risk of phase-to-phase short circuits, and its design guarantees the stability of the network parameters.