Power Boosting Hydraulic Cylinder
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Power Boosting Hydraulic Cylinder
Details introduction Specification of Power Boosting Hydraulic Cylinder Mode Bore Diameter(m/m) Stroke(m/m) (300kg/cm) Max.output(Tons) HY-BC90 200 380 94 HY-BC110 220 400 114 HY-BC145 250 450 147 HY-BC210 300 500 212 We also offer the other specification of Power Boosting Hydraulic Cylinder for custower. The following is the comparison of properties of various rubber hot (hydraulic) presses under the condition of same mould clamping force (F), stroke (S), and velocity (V): Hydraulic unit pressure (P1) 70kg/㎝ 210kg/㎝ 300kg/㎝ With boosting device 70kg/㎝ Mould clamping pressure (P2) Calculation method 70kg/㎝ 210kg/㎝ 300kg/㎝ 300kg/㎝ Piston area (A) A=F÷P2 A1=F/70 No.1 A2=F/210 No.2 A3=F/300 No.3 A4=F/300 Least No.3 Piston diameter (D) (A1/π×4) No.1 (A2/π×4) No.2 (A3/π×4) No.3 (A1/π×4) 最少 Least No.3 Fuel quantity of hydraulic pump (Q) Q=A×(S÷V) A1x(SV) No.1 A2x(SV) No.2 A3x(SV) No.3 A4x(SV) Least No.3 Hydraulic pump orsepower (HP) HP= P×Q÷m FX(S/v.m) No.1 FX(S/v.m) No.1 FX(S/v.m) No.1 70/300FX(S/v.m) Least No.2 Manufacturing and processing costs(approximation) Related to piston diameter and proof pressure More expensive No.1 No.2 No.2 No.2 Maintenance costs In direct ratio to hydraulic pump horsepower Least No.3 No.2 No.1 最少 Least No.3 Hydraulic unit price In direct ratio to unit pressure and fuel quantity of oil pump No.2 No.2 No.1 Cheapest No.3 Power energy In direct ratio to hydraulic pump horsepower No.1 No.1 No.1 Least No.2 Competitiveness Comprehensive comparison of costs of manufacturing, maintenance, and electricity No.2 No.2 No.3 Best No.1 |