FlexLink Systems, Inc.

6580 Snowdrift Rd
Allentown, PA 18106
Fax: 610-973-8345
FlexLink is one of the world's leading conveyor manufacturers, offering flexible, modular conveyors, industrial automation and assembly equipment. FlexLink specializes in automated plastic chain conveyor systems and wide belt conveyors, including aluminum conveyors and stainless steel conveyors. FlexLink manufactures and designs modular industrial automation systems such as flexible conveyors, modular conveyors, and automated assembly systems, including design and engineering of assembly automation systems. Flexible conveyors from FlexLink are automated conveyors based on an aluminum (or stainless steel) conveyor beam with low friction slide rails guiding a plastic flexible conveyor chain. Automated or robotic assembly systems for lightweight products cover a wide range of applications, from simple pallet-based systems through to highly-automated turnkey assembly systems and test systems. Pallet conveyor systems and modular pallet conveyor equipment utilizes assembly pallets on flexible plastic chain pallet conveyors to maximize product flow. FlexLink offers solutions for automotive, electronics, food and dairy, laboratory automation, medical, pharmaceuticals, compliant logistics, paper converting, personal products, solar, tissue, massflow and tobacco manufacturing applications. FlexLink provides the following products: plastic chain conveyors, aluminum conveyors, stainless steel conveyors, flexible conveyors, modular conveyors, automated conveyor systems, automated assembly systems, automation cells, material handling conveyors, linear drives, linear motion systems, wide belt conveyors, pallet conveyors and table top conveyors. Handling solutions include accumulators, automated storage and retrieval systems (ASRS), alpine conveyors, diverters, merge units, spacer units, gravity chutes, incline conveyors, spiral elevators, wedge conveyors, robotic palletizers, pick and place units, roller bridges, pushers and wipe-off units.
3801.68 mi