Yale Cushion Tire Trucks
The internal combustion engine cushion model lift trucks engineered by Yale are made and engineered to satisfy the demands of specific applications and businesses. The GM in-line 2.4L and 4.3L engines, together with the Mazda 2.0L and 2.2L in-line 4 cylinder engines are extremely strong, efficient and durable engines. Their design has been specially made and proven for utmost reliability and performance.
Yale Hi-Vis masts provide excellent construction and unsurpassed visibility thanks to their innovative construction and design. Each and every part has been engineered for excellent performance and low-maintenance, extended life. These models are extremely well designed to be a leader in the industry.
Outriggers and Frame
The frame of the lift truck and outriggers should be able to handle harsh environments in order to safely and efficiently handle the every day stresses it is likely to encounter. The frames made by Yale provide utmost protection to all of the lift truck components. Additionally, they support the machinery and give it a long life and optimal strength.
To be able to make sure that their equipment satisfy 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 directly welded to the frame. These main parts must be able to effectively handle the stresses of the most throughput reach truck condition.
Operator's Compartment
Yale trucks have built into every new equipment their "Best-in-class" ergonomics, that provides excellent visibility, superior comfort, amazing operator comfort and low effort operation. These very vital features all add up in order to help operators keep up their productivity levels during their shift and allow operators to work more effectively.
The engineers at Yale have focused extensively on the ergonomic design of the operator compartment. Additionally, the electric steering by Yale further enhances the production of the models. This feature provides more accurate steering control with minimal steering effort and further enhances production. Having an ergonomically friendly design is important to be able to enable operators to remain as productive as they could throughout the shift.