ZHEJIANG YITIAN PRECISION MACHINERY CO.,LTD
Application of Eccentric Mechanical Power Press Machine
Eccentric Mechanical Power Press Machine hydraulic press consists of two parts: the main engine and the control mechanism. The main part of the Eccentric Mechanical Power Press Machine includes the fuselage, the master cylinder, the ejector cylinder and the liquid filling device. The power mechanism consists of a fuel tank, a high-pressure pump, a low-pressure control system, an electric motor, and various pressure valves and directional valves.
The power mechanism of Eccentric Mechanical Power Press Machine realizes energy conversion, regulation and delivery through pumps, oil cylinders and various hydraulic valves under the control of electrical devices, and completes the cycle of various process actions. Hydraulic cylinder: Converting hydraulic energy into mechanical energy Hydraulic transmission is a transmission method that uses liquid pressure to transmit power and control. The hydraulic device is composed of hydraulic pump, hydraulic cylinder, hydraulic control valve and hydraulic auxiliary components.
Eccentric Mechanical Power Press Machine is suitable for pressing processes of various plastic materials, such as stamping, bending, flanging, etc. It can also be used for calibration, press fitting, grinding wheel forming, plastic products, rubber products and powder products.
Eccentric Mechanical Power Press Machine adopts three-beam and four-column structure, hydraulic system adopts cartridge valve oil circuit, electrical system adopts relay into PLC control circuit, with adjustment and semi-automatic operation mode, the whole machine has a simple, compact, economical and reasonable structure, and reliable operation. Long service life, small hydraulic impact force, reducing connection pipeline and leakage.
The working pressure, pressing speed and stroke range of the Eccentric Mechanical Power Press Machine can be adjusted within the specified range according to the process needs, and two process modes of constant pressure and fixed stroke can be realized. During constant pressure molding, there is a pressure holding delay and automatic return after pressing. There is an ejection device in the middle of the worktable. In addition to ejecting the product, there is also a molding process used as a hydraulic pad for stretching.