Enter the radial load and the distances from the load to each bearing to calculate the bearing load on a two-bearing system. This tool helps you determine how the load is distributed between two bearings placed on either side of a radial load.
Bearing Load Calculator
Bearing Load 1: –
Bearing Load 2: –
Bearing Load Formula
To find the bearing loads in a radial shaft system, use the following formulas:
- Bearing Load 1: R1=L2×PL1+L2R1 = \frac{L2 \times P}{L1 + L2}R1=L1+L2L2×P
- Bearing Load 2: R2=L1×PL1+L2R2 = \frac{L1 \times P}{L1 + L2}R2=L1+L2L1×P
Where:
- R1R1R1 and R2R2R2 are the loads on Bearing 1 and Bearing 2, respectively.
- PPP is the total radial load applied between the bearings.
- L1L1L1 is the distance from Bearing 1 to the load.
- L2L2L2 is the distance from Bearing 2 to the load.
Example Data
For clarity, let’s use this data:
- Radial Load (P): 300 N
- Distance to Bearing 1 (L1): 7 meters
- Distance to Bearing 2 (L2): 8 meters
Calculations
- Bearing Load 1: R1=8×30015=160 NR1 = \frac{8 \times 300}{15} = 160 \, \text{N}R1=158×300=160N
- Bearing Load 2: R2=7×30015=140 NR2 = \frac{7 \times 300}{15} = 140 \, \text{N}R2=157×300=140N
This tool provides an easy way to calculate the load distribution between two bearings, aiding in the design and analysis of radial shaft systems.
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