What effect does the number of reducer stages have on the load speed?
Publish Time: 2025-10-13 Origin: Site
The influence of the reducer series on the load speed is mainly reflected in the transmission ratio distribution, dynamic response and efficiency attenuation. The specific analysis is as follows:
1. Mathematical relationship between transmission ratio and speed
Total reduction ratio calculationThe total reduction ratio of a
multi -stage reducer is the product of the reduction ratios of each stage. For example, if a two-stage reducer has a first-stage speed ratio of 3:1 and a second-stage speed ratio of 5:1, the total speed ratio is 15:1. When the input speed is 1500r/min, the single-stage 10:1 output is 150r/min, while the three-stage 100:1 output is only 15r/min.Speed drop characteristic
Single-stage reducer: small speed drop, suitable for medium and high-speed scenarios (such as conveyor belt drive).
Multi-stage reducer: achieve extremely low output speed (such as 15r/min for ball mill) through step-by-step reduction.
2. Dynamic response and speed control
Response DelayIncreasing
the number of stages will lengthen the response time from input command to output action. For example, the response time of a reducer with a speed ratio of 100:1 may be 3-5 times longer than that of 10:1, which is suitable for heavy-load scenarios that do not require high dynamic response.Inertia moment conversionMulti
- stage transmission can convert the load inertia moment to the motor end according to the square of the reduction ratio, reducing the equivalent inertia moment. The equivalent moment of inertia of the three-stage reducer (total speed ratio 100:1) is only 1/100 of that of the single-stage reducer (10:1), which reduces the impact of starting and stopping the motor.
3. The impact of efficiency attenuation on speed stability
Efficiency lossEach
additional level of transmission reduces efficiency by about 1%-2%. For example, the efficiency of a three-stage planetary reducer is about 93%-94%, and long-term stability needs to be maintained through heat dissipation design (such as oil chamber expansion).Temperature rise limitReduced
efficiency leads to additional heat accumulation, which may affect the lubrication effect and meshing accuracy, and indirectly lead to speed fluctuations. Copper worm gear models (such as WPS series) need to control the shell temperature ≤75℃.