We are a leading Manufacturer and Supplier of Drop Out Fuses. Beimco silicon polymeric type cutout fuse is ideally suitable for protection of transformers, where high level of fault current, high voltages of higher load encountered on day today‘s system. This solid injection molded one piece insulator design has excellent quality. Fiber glass tube provides unique ARC resistance and minimizes fault interruption.
BEIMCO Drop Out Fuse are much quieter operating over conventional ceramic distribution cutouts. BEIMCO silicon polymeric type cut outs incorporated with precision engineered non demagable silver or nickel coated fusible elements.
Also these fuses will detect and interrupt all faults large, medium, and small. It will provide safety to your transformers & minimize line interruption.
Reliable fault protection.
Excellent in polluted atmospheric environment.
Perfect drop out action
Reliability at distribution line saves maintenance cost & time.
Light in weighty, easy to install
Vandal proof, reduce transportation breakage
Very good hydrophobic property.
Higher creepage distance
Better sesthetic new generation material.
Upper & lower contacts made of electrical copper with silver plating.
Fuse Tube :
ARC extinguishing tube made from fiber glass material & manufactured from automatic pultrusion plant It has excellent arc extinguishes U.V. stabilized property.
Stainless Steel Fipper :
Act as a fuse leader positioner & protect from contamination & corrosion. Birdproof design polymer insulator. This design protect against earthing birds prevent birds fault. Silicon sheds provides higher creepage distance, good resistance to ageing, tracking & erosion.
Silver Plated Parts :
BEIMCO offer high electrical conductivity due to electrolite copper plated with silver plating exhibits excellent corrosion resistance property.
Load Break Hook :
BEIIVICO cutouts to be opened under load with use of portable load break tools.
Stainless Steel Hinge :
The Stainless steel hinge support provides additional protection for areas of extreme