Tie Rod hydraulic cylinders have a more modular design, with external tie rods holding the end caps to the cylinder barrel. This construction allows for easier disassembly and maintenance.
Welded type hydraulic cylinders have their end caps welded to the barrel, forming a single, integral structure. This design is robust and suitable for heavy-duty applications, providing durability and resistance to leaks.
These cylinders use hydraulic pressure to extend the piston, and a spring or external force for retraction. They are commonly used in applications where the load needs to be lifted or pushed in one direction only.
Telescopic hydraulic cylinders consist of multiple nested stages, allowing for an extended range of movement in a compact design. These cylinders are often used when a long stroke is required but space is limited.
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.
Designed for one-way motion, these cylinders rely on hydraulic pressure for extension and use gravity or springs for retraction. A simple, reliable, and economical choice.
With hydraulic fluid powering both extension and retraction, these cylinders deliver precise control, smooth performance, and versatility for a wide range of applications.
By utilizing unequal piston areas on each side, these cylinders achieve faster return strokes without extra power. Ideal for applications demanding efficiency and reduced cycle times.
Engineered with built-in damping at the stroke ends, these cylinders minimize impact, reduce shock loads, and enhance equipment lifespan while ensuring smoother operation.
Integrated sensors provide real-time stroke feedback, enabling precise control, enhanced automation, and improved safety in demanding applications across modern industries.
Featuring equal piston areas on both sides, these cylinders deliver balanced force and smooth motion in both directions, making them ideal for synchronized operations and control.