Gear profile modification method based on vibration reliability and genetic algorithm
A genetic algorithm and reliability technology, applied in computing, special data processing applications, instruments, etc., can solve the calculation model of gear mesh stiffness and elastic deformation that is difficult to meet the requirements of large and complex mechanical transmission heavy load, high speed and high precision Insufficient accuracy and inability to accurately guide gear tooth profile modification design and other problems to achieve the effects of reducing vibration, improving reliability of transmission errors, and reducing vibration and noise
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[0077] The following takes cylindrical spur gears as an example to modify the gear tooth profile based on vibration reliability and genetic algorithm. The material of the gear is 16Cr3NiWMoVNbE, and the number of teeth of the driving wheel is z 1 is 26, the number of driven gear teeth z 2 is 40, the modulus m is 3mm, the pressure angle α 0 is 20°, tooth width B is 20mm, head clearance coefficient c * is 0.25, and the tooth profile deviations of the driving and driven gears are respectively Ef p =8μm, Ef g =8μm, comprehensive tooth pitch deviation ES=10μm, the maximum modification amount of driving and driven wheels is S p and S g , the modification angle is α p and alpha g , S p =0.06mm, α p = 63°, S g =0.06mm, α g =63 °, the program flow chart of the present invention is as figure 1 shown.
[0078] Step 1: Establish a meshing elastic deformation virtual prototype of gears and modified gears;
[0079] The transmission error of the gear is related to the comprehens...
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