Ball screw

Calculation

Ballscrew Positioner

Ball Screw-powered Machine Tool

Input

System Inclination (degrees)

γ=°

Ball Screw Lead

p=mm/rev

Ball Screw Length

L=mm

Ball Screw Diameter

D=mm

Ball Screw Efficiency

η_bs=

Friction Coefficient

μ=

Service Factor

K_A=

Traveling Mass

m=kg

Linear Speed

v=m/s

Acceleration Time

t_a=s

Machining Force

F_m=N

Max. Motor Speed During Cycle

n₁=rpm

Gearbox Efficiency

η_r=

Gearbox Moment of Inertia

J_R=kg·cm²

Motor Moment of Inertia

J_M=kg·cm²

The formulas used for these calculations are available in this PDF.

Results

Machine

System Efficiency

η_t=

Weight Force

F_w=N

Friction Force

F_f=N

Acceleration Force

F_a=N

Total Force

F_T=N

Total Force

F_T=N

Inertias

Traveling Mass Inertia

J_L=kg·cm²

Ball Screw Inertia

J_bs=kg·cm²

Total Inertia

J_T=kg·cm²

Total Inertia as Seen by the Motor

J_T1=kg·cm²

Load to Motor Inertia Ratio

Λ=

Kinematics

Linear Acceleration

a=m/s²

Screw Rotational Acceleration

α_bs=rad/s²

Screw Rotational Speed

ω_bs=rad/s

Screw Rotational Speed

n_bs=rpm

Motor

Motor Power

P₁=kW

Motor Power

P₁=kW

Required Motor Torque

T_m=N·m

Required Motor Torque

T_m=N·m

Gearbox

Ideal Gearbox Ratio

Required Gearbox Output Torque

T₂=N·m

Required Gearbox Output Torque, Adjusted for Service Factor

T_2KA=N·m

Required Gearbox Output Torque

T₂=N·m

Required Gearbox Output Torque, Adjusted for Service Factor

T_2KA=N·m

Buttons

Reset

Diagrams

Ball Screw