Yale Cushion Tire Trucks
The IC engine cushion unit lift trucks engineered by Yale are manufactured and engineered to meet the requirements of specific applications and industries. The GM in-line 4.3L and 2.4L engines, together with the Mazda 2.0L and 2.2L in-line 4 cylinder engines are extremely durable, powerful and efficient engines. Their design has been specifically made and proven for supreme performance and dependability.
Due to their innovative construction and design, Yale's Hi-Vis masts offer excellent construction and unsurpassed visibility. Every part has been engineered for extended, low-maintenance life and excellent performance. These models are really well designed to be a leader within the business.
Outriggers and Frame
The outrigger and frame of the lift truck should be able to handle extreme environments to be able to safely and efficiently handle the every day stresses it is likely to encounter. The frames made by Yale offer maximum protection to all of the lift truck parts. Additionally, they support the machinery and give it optimal strength and a long life.
Each Yale frame has been subjected to extensive laboratory, application and computer testing in order to make sure their machines meet all their clients' requirements and expectations. For extra capacity and support, outriggers are directly welded to the frame. These major parts should be able to successfully deal with the stresses of the most throughput reach truck situation.
Compartment of the Operator
Yale trucks have built into every new machinery their "Best-in-class" ergonomics, which provides excellent visibility, superior comfort, amazing operator comfort and low effort operation. These important features all add up to help operators keep up their production levels during their shift and enable operators to work more efficiently.
The engineers at Yale have focused extensively on the ergonomic design of the operator compartment. What's more, the electric steering by Yale further improves the productivity of the units. This feature provides more precise steering control with less steering effort and further enhances productivity. Having an ergonomically friendly design is really important in order to allow operators to remain as productive as they can throughout the shift.