Load calculations
The forces and torques acting on the bearing position are decisive for selecting the optimum bearing size and guaranteeing the required service life.
Direction and distribution of forces
Pure radial load Fr
Loads that must be taken into account:
1. Weight of the moving part
2. Centrifugal force (imbalance)
3. Dynamic load (acceleration, deceleration)
4. Force due to energy transmission (pulley, gears, etc.)
5. Preload for duplex bearings¹
Pure axial load Fa
fa = Q
(alternating load)
fa = Q
(unidirectional load)
fa = Q
(alternating load)
fa = Q
(alternating load)
Note: To ensure that an axial load can be supported by several ball bearings, they must be arranged in pairs¹ , either ring to ring or with very precisely manufactured intermediate rings.
Combined loads
(radial and axial)
1) see duplex installation
Qr = cos ß – Q
Qa = sin ß – Q
Normal installation
Fa = Qa (the axial load is absorbed by only one ball bearing)
Duplex installation in tandem design
(intermediate ring)
Fr = Qr
Fa = Qa
Preload Fap
Ball bearings in duplex form¹
(O arrangement or X arrangement) have a preload (Fap) that is above or below the axial load Fa.
This preload Fap must be adjusted to the operating conditions and the desired life expectancy.