Hydraulic Oil Press Machine

The hydraulic oil press machine is mainly composed of a transmission box, a hydraulic cylinder, a piston, a column, a movable top, a base, a cylinder, a distribution box, an automatic temperature control device, and a pressure gauge.

Product Description

1. The hydraulic oil press machine is mainly composed of transmission box, hydraulic cylinder, piston, column, movable top, base, barrel, distribution box, automatic temperature control device and pressure gauge etc..

2. Hydraulic transmission components: The main hydraulic transmission components are composed of transmission worms, turbines, crankshafts, high-pressure pumps, gear pumps, one-way valves, hydraulic cylinders, hydraulic pipes and other components. The hydraulic three-piston pump station Improved by combining advanced technology has high efficiency, high pressure, stable pressure, high oil output, high temperature resistance, and continuous work. Suitable for sesame, olive, pine nut, coconut, mustard seeds, walnuts, etc.

Hydraulic oil press machine parameters

Model Capacity Weight Pressure Power Machine   Size
YY-185 4   kg/batch 590 kg 60Mpa 1.1 kw 0.6*0.888*1.15   m
YY-230(A) 8.5   kg/batch 924 kg 60Mpa 1.1 kw 0.67*0.95*1.46   m
YY-230(B) 9.5   kg/batch 950 kg 60Mpa 1.1 kw 0.67*0.95*1.56   m
YY-250 11   kg/batch 1070 kg 60Mpa 1.1 kw 0.71*0.95*1.56   m
YY-270 13.5kg/batch 1230 kg 60Mpa 2.2 kw 0.75*1.01*1.64   m
YY-300 16   kg/batch 1600 kg 60Mpa 2.2 kw 1*1.1*1.66   m
YY-335 20   kg/batch 1750 kg 60Mpa 2.2 kw 1.1*1.24*1.73   m
YY-355 23   kg/batch 2350 kg 60Mpa 3.0 kw 1.16*1.2*1.81   m


Schematic diagram of hydraulic press

The oil extraction of the hydraulic oil press machine is to use small power to generate powerful hydraulic pressure for pressing. It is completely carried out by the principle of hydraulic transmission. We can get the calculation formula of the total pressure of the oil press: P1 =P2 (d1+d2), where in this In the formula, d1 is the diameter of the cylinder plug of the oil press, d2 is the diameter of the piston of the power cylinder, P1 is the total pressure of the oil press, and P2 is the pressure of the power cylinder. It can be seen from the formula that the small-diameter high-pressure pump uses a small power P2 to generate the total high pressure P1 (top pressing force) on the hydraulic frame after transmission.

All hydraulic press oil extraction systems include a loop system formed by the oil press body (press chamber and hydraulic working cylinder) and hydraulic system (oil pump, fuel tank, oil divider valve and instrument, pipeline), and all use small The power produces huge hydraulic pressure for oil extraction. The formation of the pressure is based on the principle that the pressure (N) added to the liquid can always be transmitted to any position in the system according to the constant pressure (N/m) in a closed system. Under the condition of constant pressure, it is only necessary to change the area difference of the pressure piston to form a huge pressure difference.

oil extraction of the hydraulic oil press machine is to use small power to generate powerful hydraulic pressure for pressing. It is completely carried out by the principle of hydraulic transmission. We can get the calculation formula of the total pressure of the oil press: P1 =P2 (d1+d2), where in this In the formula, d1 is the diameter of the cylinder plug of the oil press, d2 is the diameter of the piston of the power cylinder, P1 is the total pressure of the oil press, and P2 is the pressure of the power cylinder. It can be seen from the formula that the small-diameter high-pressure pump uses a small power P2 to generate the total high pressure P1 (top pressing force) on the hydraulic frame after transmission.

All hydraulic press oil extraction systems include a loop system formed by the oil press body (press chamber and hydraulic working cylinder) and hydraulic system (oil pump, fuel tank, oil divider valve and instrument, pipeline), and all use small The power produces huge hydraulic pressure for oil extraction. The formation of the pressure is based on the principle that the pressure (N) added to the liquid can always be transmitted to any position in the system according to the constant pressure (N/m) in a closed system. Under the condition of constant pressure, it is only necessary to change the area difference of the pressure piston to form a huge pressure difference.


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