DOUBLE GIRDER  CRANES offer you a virtually unmatched deadweight/load capacity ratio. They are also characterized by their outstanding crane geometry, ensuring extremely favorable travel characteristics and therefore minimizing wear and tear. Particularly, large lifting height is derived from the fact that the load hook can be raised between the two crane girders.  Depending on requirements, our double-girder overhead traveling cranes can also be fitted with radio or operator cabin controls.  Optional maintenance platforms and accessible crabs not only makes crane maintenance easy but also ensures that your hall fittings such as lamps, heating elements or supply lines can be quickly and easily be reached.

Benefits & Features:

  • Consistent quality with overhead traveling crane benefits
  • Thanks to double-girder design facilitating high performance & high travel speeds
  • Low deadweight reduces investment layout
  • Additional fittings
    • Optional maintenance platform for building repairs
    • Operator cab control as a crane control variant

Technical Specifications:

Safe Working Load 1 Ton to 50 Tons
Span 6m to 40 m
Class of Duty/Standards M5, M7, M8 as per IS: 3177 / IS: 807. Also available as per any other applicable international standards
Speeds Selected depending on client specifications / applications / dimensions
Crane Control From floor through Pendant Push Buttons. Open Cabin / Totally enclosed Cabin (Optional) Radio Control (Optional)
Drive System Single / Twin Drive through Squirrel Cage / Slip Ring Induction Motor through totally enclosed, oil immersed, Helical Gear Box
Motors Crane Duty motors for Main Hoisting, Auxiliary Hoisting, Cross Travel and Long Travel
Brakes Electro Hydraulic Thrusters / Disc Brakes for all motions. DC/AC Electro Magnetic Brakes or additional brakes can be on request
Power Supply System To Hoist and Cross Travel through Trailing Cables or through Drag Chains. To Crane through Shrouded Bus Bars/Trailing Cable MS Iron Conductors/Bare Copper Conductors (depending on customer’s choice and application)



Optimum adaptation to the building design