Yale Cushion Tire Trucks
Yale's Internal Combustion cushion tire unit forklift has been engineered and manufactured to specifically meet the requirements of many industry specific applications. The GM in-line 2.4L and 4.3L engines, along with the Mazda 2.2L and 2.0L in-line 4 cylinder engines are very efficient, durable and strong engines. Their design has been specifically made and proven for supreme reliability and performance.
Yale Hi-Vis masts provide excellent construction and unsurpassed visibility due to their original design and construction. Every part has been engineered for fantastic performance and extended, low-maintenance life. These models are really well designed to be a top-player in the industry.
Frame & Outriggers
To be able to efficiently and safely handle the possible stress that it endures during its complete working life, the outriggers and lift truck frame has to be able to withstand harsh environments. The frames made by Yale offer maximum protection to all of the lift truck parts. In addition, they support the equipment and give it a long life and optimal strength.
In order to make sure that their machines meet all the needs 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 successfully handle the stresses of the most throughput reach truck situation.
Operator's Compartment
Amongst the most integral components of the Yale trucks is their "Best-in-class" ergonomics. They offer superior comfort, excellent visibility, amazing operator comfort and low effort operation. These very essential features all add up to allow operators to work more effectively and help operators keep up their productivity levels during their shift.
Yale engineers specially focused on a spacious and ergonomically designed operator's compartment. Yale's electric steering further improves the production of the units. This feature provides more accurate steering control with less steering effort and further improves production. Having an ergonomically friendly design is very crucial in order to allow operators to remain as productive as possible throughout the shift.