Cost-effective outdoor solution

EVPE, ZVPE full-portal cranes up to 50 tonnes

Stand-alone operation without additional crane runways

Demag full-portal cranes can often be integrated into existing production facilities and inhouse logistics processes with only little design effort. They mainly differ from semi-portal cranes by having an integrated articulated leg, which compensates any movements. The load-bearing crane girder is part of the frame structure which, together with the legs at either end, forms a travelling bridge. The cranes run on ground rails, which eliminates the need for a crane runway. Full-portal cranes are preferably used for outdoor operation in storage yards and loading areas.

  • Single-girder semi-portal cranes: load capacities up to 12.5 tonnes, spans up to 30 m
  • Double-girder semi-portal cranes: load capacities up to 50 tonnes, spans up to 35 m

Your Contact

Demag contact

Demag Cranes & Components GmbH

Postfach 67
58286 Wetter

+49 (0) 2335 92-0
+49 (0) 2335 92-7676

Product information

The benefits at a glance

  • Operation as a stand-alone unit – without additional crane runways
  • Double-girder full-portal cranes with an accessible travelling hoist, maintenance walkway and access ladder
  • Cost-effective solution, ideal supplement to in-house logistics
  • Optional cable-connected control pendants or radio controls
  • Can also be equipped with 2 hoists or 2 crabs
  • Power is supplied via a cable reel that is fitted to a leg
  • Outdoor package with wind safety system to monitor outdoor operation
  • Rail clamp to lock the crane to prevent damage in stormy conditions

Technical data

Full-portal cranes

Max. load capacity F [t] 12.5 50
Span dimension lkr [m] up to 30 up to 35
Headroom dimension A [m] 4, 6, 8, 10 6, 8, 10, 12, 14, 16
Travel speeds
Long travel [m/min] up to 40 up to 40
Cross travel  [m/min] up to 30 up to 30
Lifting/lowering [m/min] up to 12.5 up to 12.5
Stepless motions possible in 3 axes possible in 3 axes

EVPE and ZVPE portal cranes of single and double-girder design, respectively