- Wide colour liquid crystal display
- Balanced pendulum chassis
- Multifunction proportional joystick
- Open Can-Bus electrical system
- Ignition using personal PIN code
- Three-phase AC electric motor
- All wheels can turn through 360°
- Electronic regenerative braking system
- Reduced maintenance and ease of access to the compartments
- Possibility of customising the sideloader with numerous accessories
The balanced pendulum chassis, divided into two parts (mechanical compensation), can even work on slightly uneven floors while keeping the wheels in contact with the ground to improve the stability of the machine.
The lifting masts are made from extruded manganese steel profiles to ensure high rigidity, high residual lifting capacity, even with extended and high centres of gravity, and a high safety margin.
The large polyurethane, cushion rubber or superelastic rubber wheels are suitable for working inside warehouses with industrial flooring or outside on asphalt surfaces. The electromagnetic brakes ensure a rapid response to the stop command.
The wide fork support plate and hydraulic positioner can stabilise the load, allowing transportation of long materials.
The multidirectional drive offers 12 different steering programs. The operator can manoeuvre the sideloader in complete safety by selecting the most suitable and safe drive for the load to be transported and the working environment.
An encoder electronically controls the position of each wheel. The sideloader can rapidly change from forward to sideways or diagonal drive, or can pivot through 360°, both clockwise and anticlockwise.
The front, diagonal or side cab allows the operator to sit or stand to meet the needs of every customer and adapt the sideloader to any working environment.
Clear visibility in all directions and a robust protective roof ensure operator safety.
The wide colour liquid crystal display is tilted towards the operator and has clearly visible function keys.
The three-phase AC motors and Open Can-Bus electronics optimise performance, reduce battery consumption and cut maintenance costs. A logical and rational component layout inside the compartments facilitates access for rapid maintenance, reducing work times, machine downtime and the resulting costs.
