Tie rod hydraulic cylinders feature a modular design with external tie rods holding the end caps to the cylinder barrel. This design enables easy disassembly and maintenance, reducing downtime.
Welded type hydraulic cylinders have end caps welded directly to the barrel, forming a single, integral structure. This construction provides high strength and rigidity for demanding working conditions.
Bolted cylinders use hydraulic pressure to extend the piston. Retraction is achieved by a spring or an external force.
Telescopic hydraulic cylinders consist of multiple nested stages. Telescopes cylinder design allows for a long-extended stroke while maintaining a compact retracted length.
Mill-type cylinders are more durable and reliable than other cylinders, reducing maintenance and replacement costs. They have a wide ductile iron piston for high pressure rating and long bearing life.
Single acting cylinders are designed for one-way motion. Hydraulic pressure is used for extension of the piston.
Double acting cylinders use hydraulic fluid to power both extension and retraction. They provide precise control of motion.
Differential cylinders can use unequal piston areas on each side. This differential design enables faster return strokes without consuming extra hydraulic power.
Cushioned hydraulic cylinders are engineered with built-in damping at the stroke ends. They minimize impact and reduce shock loads on machinery.
Position sensing hydraulic cylinders with integrated sensors provide real-time stroke feedback. This type of cylinders is enabling precise control of piston movement.
Double-ended hydraulic cylinders have equal piston areas on both sides. They provide balanced force and smooth motion in both directions.