If you are an expert, you should know that there is a self-locking reducer in the reducer, in which there are dynamic self-locking and static self-locking. Different transmission efficiency for self-locking ability is not the same, so often some users say how to lock it? We need to know about efficiency first. How to calculate the efficiency of the reducer? The efficiency of reducer mainly depends on the design and friction condition of worm turbine drive pair.

For the dynamic self-locking of turbine reducer. The dynamic self-locking of reducer means that the output shaft can stop synchronously when the input shaft of Mada end stops suddenly, so the dynamic efficiency of dynamic self-locking is less than 0.4. But in the dynamic self-locking efficiency, when the static self-locking efficiency is greater than 0.6, the dynamic self-locking efficiency is reversible; When it is between 0.5 and 0.6, it is low reversible; When it is between 0.4 and 0.5, the dynamic self-locking is good; 4, dynamic self-locking. When the static self-locking efficiency is greater than 0.55, the static state is reversible; When it is between 0.5 and 0.55, the static state is low reversible; When less than 0.5 is static self-locking. These only show the general classification of mud function, vibration and impact will affect the check function of turbine reducer. For a combined reducer, the inverse condition must consider that the efficiency of the combined reducer is the product of the efficiency of each reducer, that is, multiplying the efficiency of the two reducers.