Discover the precision and efficiency of our Splitter Swing Motion Calculator, designed to optimize your mechanical processes. This easy-to-use tool quickly calculates swing motion parameters, enhancing productivity and ensuring accurate results. Whether you’re involved in engineering, manufacturing, or mechanical design, our calculator is an invaluable resource for improving performance and reducing errors. Simplify complex calculations with reliable, real-time data tailored to meet industry standards. Experience streamlined operations and enhanced mechanical insights today.

Splitter Swing Motion Calculator
Splitter Swing Motion Calculator | Professional Motion Control Solutions

Parameters Explanation

Output Shaft Swing Angle (Q)

Angle of swing for the output shaft (degrees)

Input Shaft Drive Angle (Qh)

Drive angle of the input shaft (degrees)

Output Shaft Stroke Length (P)

Stroke length of the output shaft (mm)

Output Shaft Swing Arm Length (L)

Length of the output shaft swing arm (mm)

Positioning Time per Division (t1)

Time for each division to position (s)

Return Time per Division (t2)

Return time for each division (s)

Forward Time (t3)

Forward movement time (s)

Reset Time (t4)

Reset movement time (s)

Input Shaft Rotational Speed (n)

Rotational speed of the input shaft (rpm)

Workload (w)

Workload or working load (kg)

Swing Arm Width (M1)

Width of the swing arm (mm)

Swing Arm Height (M2)

Height of the swing arm (mm)

Swing Arm Length (M3)

Length of the swing arm (mm)

Max Non-directional Speed (Vm)

Maximum non-directional speed (mm/s)

Max Non-directional Acceleration (Am)

Maximum non-directional acceleration (mm/s²)

Cam Max Torque Coefficient (Qm)

Maximum torque coefficient of the cam

Calculator

Results

Output Arm Weight: 0 kg
Number of Divisions: 0
Work Reciprocating Linear Motion GD²(1): 0 kg·m²
Arm Reciprocating Motion GD²(2): 0 kg·m²
Work Linear Motion Inertia Torque Ti1: 0 N·m
Arm Reciprocating Motion Inertia Torque Ti2: 0 N·m
Total Inertia Torque Ti: 0 N·m
Friction Torque Tf: 0 N·m
Total Load Torque Tt: 0 N·m
Actual Load Torque Te: 0 N·m
Input Shaft Torque Tc: 0 N·m
Required Power P: 0 kW