Our low level order picker LOL/LOD is designed for safe, effective, order picking in heavy warehouse applications. An exceptional combination of manoeuvrability and ergonomics, this is the perfect partner for picking and placing goods on different load carriers.
A wide cab and low step in make the LOL/LOD a highly efficient order picker. With rapid acceleration, high top speed, and gentle braking, it moves quickly between picking stations. Both robust and slender, this truck is also highly effective in narrow aisles.
Productivity is further enhanced by advanced ergonomic design including a spacious driving platform with comfortable backrest, adjustable seat (optional) and storage space for paper and pens etc. All perfectly located and within easy reach to give the best working position.
Making picking very cost effective, the powerful AC motor gives high top speed and fast acceleration between picking locations
The low instep and the rising centrally positioned driver platform that puts the operator close to the picking location maximise picking efficiency.
Combined with rising forks, this ensures good ergonomics and high picking efficiency.
Choose rising steering equipment for driving between 2 level picking locations without lowering.
The operator is in the centre of the truck and is effectively protected all-round. The PIN code entry ensures that only authorised operators can drive the truck. Further enhancing safety, the optional Stability Support system S3 and Ergo power steering control the speed when cornering to ensure stability of load and driver.
Battery capacity up to 600 Ah allows long working cycles.
For efficient multi-shift operations, a quick battery changing system is available as the batterybed on rollers comes as standard.
TCM’s patented 4-point Friction Force chassis automatically increase the drive wheel pressure to enhance traction in all conditions. This is particularly useful in moist environments and on slopes. This unique drivetrain technology gives the truck a smooth ride also on uneven surfaces.