Yale Cushion Tire Trucks
Yale's IC cushion tire unit forklift has been designed and manufactured to specially suit the needs of many industry specific applications. The GM in-line 4.3L and 2.4L engines, together with the Mazda 2.2L and 2.0L in-line 4 cylinder engines are really efficient, durable and strong engines. Their design has been specially made and proven for utmost performance and dependability.
Yale Hi-Vis masts offer unsurpassed visibility and excellent construction due to their original construction and design. Each and every component has been engineered for fantastic performance and low-maintenance, extended life. These units are really well designed to be a leader within the business.
Frame & Outriggers
The outrigger and frame of the lift truck must be able to handle harsh environments in order to safely and efficiently handle the every day stresses it is likely to encounter. The frames built by Yale offer utmost protection to all of the parts of the lift truck. Moreover, they support the equipment and give it optimal strength and a long life.
To be able to make certain that their machines satisfy all the requirements and expectations of their clients, Yale frames have been subject to extensive laboratory, computer and application testing. For extra support and capacity, outriggers are welded directly to the frame. These major components should be able to effectively deal with the stresses of the most throughput reach truck condition.
Operator's Compartment
Among the most essential parts of the Yale trucks is their "Best-in-class" ergonomics. They offer excellent visibility, superior comfort, amazing operator comfort and low effort operation. These important features all add up to help operators keep up their productivity levels during their shift and allow operators to work more efficiently.
The engineers at Yale have concentrated extensively on the ergonomic design of the operator compartment. In addition, the electric steering by Yale further enhances the productivity of the units. This feature offers more precise steering control with minimal steering effort and further enhances production. Having an ergonomically friendly design is important in order to enable operators to remain as productive as possible throughout the shift.