The Crown RC 5500 Series was made on a vision that concentrates on realistic difficulties within the workplace. This ground-breaking unit features intelligent technology and best-in-class comfort and ergonomics. Keeping the operator comfortable and safe usually results in more productivity.
3-Wheel Stand-Up Counterbalanced Truck
The 3-Wheel Stand-Up Counterbalanced Truck comes in 3000, 3500 and 4000 lb. capacity.
Performance Versatility
Crown's RC 5500 have been made to work effectively in a busy work setting. Whether it is operating in an aisle or on the dock, this unit achieves greatness. It has been made to offer the operator unparalleled ride control, unmatched visibility and the best ergonomics. The exclusive FlexRide technology provided by Crown provides a suspended floorboard in order to eliminate much of the shock and vibration which operators need to work with each and every day. Interestingly enough, many of the competitor's sit-down truck models could not match the lessened impact levels provided by the RC 5500 Series.
Visibility - From a side-stance position in both directions of travel, this model provide maximum visibility for the operator. A low-profile provides a clear view mast as well a sculpted chassis allows the operators to be able to clearly see the fender, the fork tips and all around the truck. This optimum view reduces damage and enhances overall safety.
Speed - Through Access 1 2 3 Technology combined with the latest AC traction control, top travel speeds are amongst the best within the business and achieved. Performance levels could be custom tuned in order to match the operator's skill level or the application needs.
Operator Safety & Comfort
The suspended floorboard offered by Crown's FlexRide significantly enhances overall work performance by enhancing comfort and exhaustion is greatly lessened. The constant shock and vibration could lead to severe operator fatigue for those exposed to those motions on a daily basis especially during travel over dock plates, expansion joints and rough surfaces.