Specifications
nsist of fiberglass epoxy resin lead-out rod.2.silicon rubber housing and hardware.
3.Plated Zinc to resiste erosion
Composite insulators are available for applications up to system voltages of 110 kV. The core of a composite insulator is a pultruded fiber glass rod which provides a high mechanical strength. In a direct injection molding process a non-tracking, erosion and UV resistant polymeric housing is molded directly onto the fiberglass rod. A corrosion resistant metal end fitting is crimped onto each end of the rod to provide a high mecha nical strength. A new developed crimping control technology monitors the assembly process of the metal fittings and ensures that crimping forces cause no damage to the fiberglass rod while achieving a crimp that will withstand the highest possible mechanical loads. Sealed with a tracking and erosion resistant polyurethane barrier, the core is protected from deterioration due to moisture ingress. Composite insulators are available as tension (suspension), line post and station post insulators. For railway applications, tension and strut composite insulators are available in a large variety of configurations.
Insulator Technical Parameters
Type |
Rated voltage | Rated mechanical bending load |
Structure height |
Insulation distance |
Creepage distance |
Lightning impulse withstand voltage |
P.F.wet withstand voltage |
kV | kN | mm | mm | mm | kV | kV | |
FPQ-10/4 | 10 | 4 | 215 | 125 | 280 | 75 | 42 |
FPS-10/5 | 10 | 5 | 250 | 180 | 380 | 105 | 42 |
FZSW-35/6 | 35 | 6 | 450 | 360 | 946 | 185 | 95 |
FXBW-35/70 | 35 | 70 | 650 | 450 | 1015 | 230 | 95 |
FXBW-35/100 | 35 | 100 | 650 | 450 | 1015 | 230 | 95 |