Hydraulic engineering metallurgical cylinder body is a device that converts hydraulic energy into mechanical energy, and drives the piston to perform linear reciprocating motion inside the cylinder body through hydraulic pressure, thereby achieving operation and control of metallurgical equipment. It is applied in various equipment in the metallurgical industry, such as rolling mills, continuous casting machines, blast furnace top equipment, etc., to achieve functions such as lifting, tilting, and positioning of equipment.

Hydraulic engineering metallurgical cylinder bodies are usually composed of cylinder barrels, pistons, piston rods, seals, end caps, and other components, with the following structural characteristics:
Cylinder barrel: It is the main part of the hydraulic cylinder body, usually made of high-strength alloy steel material, with high pressure bearing capacity and wear resistance. The inner wall of the cylinder is precision machined to ensure sealing performance with the piston.
Piston: located inside the cylinder and connected to the piston rod, it converts hydraulic energy into mechanical energy. The sealing performance of the piston directly affects the working efficiency and service life of the hydraulic cylinder body.
Piston rod: connects the piston to external loads, transmitting motion and force. The material and surface treatment of piston rods vary depending on the usage environment.
Seals: Used to prevent oil leakage and ensure the sealing performance of hydraulic cylinder bodies. Common seals include O-rings, Y-rings, and combination seals.
End caps: installed at both ends of the cylinder, used to seal the cylinder and install inlet and outlet ports, buffer devices, etc.

The working principle of hydraulic engineering metallurgical cylinder body is based on Pascal's principle, which means that the pressure on the sealed liquid can be transmitted in all directions with a constant magnitude. When hydraulic oil enters one side of the cylinder through the inlet, due to the pressure difference between the two sides of the piston, the piston will move to the other side, thereby pushing the external load to move. By controlling the flow rate and pressure of hydraulic oil, precise control of metallurgical equipment can be achieved.

Strong load-bearing capacity: Hydraulic engineering metallurgical cylinder bodies can withstand large loads, meeting the requirements of metallurgical equipment for high strength and high rigidity.
Smooth movement: Due to the characteristics of stepless speed regulation and self-lubricating in hydraulic transmission, hydraulic engineering metallurgical cylinder bodies can achieve smooth movement and positioning.
Long service life: Using high-quality materials and precision machining technology, the hydraulic engineering metallurgical cylinder body has high wear resistance and sealing performance, with a long service life.
Easy maintenance: The structure of hydraulic engineering metallurgical cylinder bodies is relatively simple, easy to disassemble and repair, reducing maintenance costs.