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Columbus McKinnon Corp. announced its CM Lodestar VS electric chain hoist is now available in higher capacities up to three tons. The CM Lodestar VS combines the company’s hoist design with best-in-class adjustable frequency drive performance.
The Lodestar VS features CM HI-Tech (Hoist Interface Technology) – one of the easiest to use computer interfaces on the market developed exclusively by Columbus McKinnon. CM HI-Tech gives operators the ability to quickly and easily adjust hoist speed and performance parameters to deliver the precision load control their application demands. Using the interface, operators can easily set upper and lower hoist limits, enable additional electronic overload protection and instantly access hoist status and fault information.
“The Lodestar VS makes maintaining, monitoring and programming a hoist easier than ever,” said John Vander Linden, senior global product manager. “With a convenient, easy-to-access port, a tablet or computer can be connected to the hoist to instantly manage performance. Easy access to on-board diagnostics allows operators to identify and resolve issues through preventive maintenance. This increases productivity, uptime and safety for the operator and load.”
The Lodestar VS comes equipped with the Magnetek IMPULSE•G+ Mini drive, a Columbus McKinnon brand. Utilizing Magnetek’s advanced programming features, the IMPULSE•G+ Mini is optimized for unparalleled performance with programming features that allow for monitoring of the lift, load, current and voltage. Combined, these features help decrease wear and tear on the hoist by lowering torque spikes and reducing overload faults, while ensuring smooth acceleration and deceleration.
The Lodestar VS, excluding three-step models, comes equipped with the CM Rocket universal pendant, which features a unique, ergonomically designed rocker switch that reduces thumb strain and fatigue, while giving the operator ultimate load control for micropositioning applications.
Related Glossary Terms
- fatigue
fatigue
Phenomenon leading to fracture under repeated or fluctuating stresses having a maximum value less than the tensile strength of the material. Fatigue fractures are progressive, beginning as minute cracks that grow under the action of the fluctuating stress.