On a forklift, you'll notice a range of different mechanisms which lower and raise the lifts, like: scissors lifts, rack and pinion lifts, screw lifts, telescoping lifts and articulated lifts. The scissor lift utilizes crisscrossed folding supports with a screw system which draws the members together. Rack and pinion lifts use a pinion, that is a small drive gear, to drive a straight-toothed rack to raise the load. The telescoping lift mechanism is made with multiple sections that retract and extend out of and into each other to attain lifting action. Screw lifts use threads to raise the lift. Articulated lifts use a system involving multiple parts which articulate or unfold. An example of an articulated lift is the "cherry picker."
Lift truck Material Handling
In material handling processes, there can be numerous reasons to keep up with innovations. Material handling methods and the machines could be utilized to handle increased geographical coverage, more SKUs, and the requirement to lower inventories. Tools which are well ahead of the technological curve could help maximize efficiency and increase effectiveness.
Lift truck Battery & Charging Technology
The decision to convert from conventional, internal combustion forklifts to electric lift trucks is a smart one since the latest line-ups of electric lift trucks provide longer run-times and higher capacities than ever before. Battery and charger combinations are offering more power for a lot longer periods than older systems were capable of accomplishing. Improvements in both charger and battery technologies are not just making electric forklifts more productive but they are making it possible to have more environmentally friendly warehouse operations.
These new batteries are called Li-ion batteries or Lithium-Ion batteries. This technology is still somewhat new, however Li-ion batteries show incredible promise. They are not only smaller but are capable of holding up to six times the charge of traditional lead acid batteries. Li-ion batteries have extremely low maintenance requirements and could maximize opportunity charging through zero memory technology.