Simulation analysis method of vibratory response of variable working condition single-stage heavy gear case containing crackle fault

A vibration response, simulation analysis technology, applied in machine gear/transmission mechanism testing, special data processing applications, instruments, etc., can solve problems such as limitations

Inactive Publication Date: 2010-01-13
BEIJING UNIV OF TECH
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Problems solved by technology

[0005] Using the finite element method to solve the meshing stiffness of gears has its unique advantages; however, the current mainstream finite element analysis soft

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  • Simulation analysis method of vibratory response of variable working condition single-stage heavy gear case containing crackle fault
  • Simulation analysis method of vibratory response of variable working condition single-stage heavy gear case containing crackle fault
  • Simulation analysis method of vibratory response of variable working condition single-stage heavy gear case containing crackle fault

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Embodiment Construction

[0032] The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

[0033] Such as figure 1 As shown, it is a working flow chart of the vibration response simulation analysis method of a single-stage heavy-duty gearbox with crack faults in the present invention. It is mainly composed of 3 parts, which are realized by 3 software respectively. The detailed steps are as follows.

[0034] SolidWorks part: Draw high-precision and complete involute cylindrical gears according to the involute parameter equation. And use the gear parameters to calculate the initial meshing position of the gear pair, so that it can mesh without interference at the meshing boundary position of single and double teeth. The 3D solid model of the gear pair after assembly is as follows: figure 2 shown. Then, according to the requirements, using the functions of SolidWorks surface drawing and solid cutting, you can add any form of crack faults o...

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Abstract

The invention relates to a simulation analysis method of the vibratory response of a variable working condition single-stage heavy gear case containing a crackle fault, which comprises the following steps: establishing a gear pair 3D solid model containing a crackle fault on the basis of 3D design software SolidWorks; leading the model into finite element analysis software ansys, programming a program capable of calculating the gear meshing rigidity of any meshing positions by combining menu operations of the ansys and APDL languages and outputting a result data file of the meshing rigidity; establishing a damping gear case system kinetic model of 8 degrees-of-freedom and kinetic simultaneous differential equations considering factors of the rigidity and the damping of a shaft and the case, an input torque and a load torque of a motor, and the like and utilizing MATLAB to solve the equations so as to simulate the system vibratory response of the single-stage heavy gear case containing a crackle fault. The invention integrates the advantages of the SolidWorks, the ansys and the MATLAB and can quickly and accurately simulate the vibratory responses of variable working condition heavy single-stage heavy gear cases containing various different forms of crackle faults.

Description

technical field [0001] The invention relates to a vibration response simulation analysis method, in particular to a vibration response simulation analysis method of a single-stage heavy-duty gearbox under variable working conditions with crack faults. Background technique [0002] Gearbox transmission system for large-scale heavy-duty equipment (such as wind power generation speed-increasing gearbox, blast furnace bellless top airtight box, steelmaking converter transmission system, cement mill transmission equipment, port ship unloader transmission system, portal crane Transmission equipment, ladle rotating tower power transmission equipment, rod and wire roughing mill gear box, etc.) are the key equipment of complex systems and major facilities in modern industry. If an unexpected accident occurs, a chain reaction will occur, which will seriously affect the production and economic benefits of the enterprise . The outstanding features of this type of equipment are low oper...

Claims

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Application Information

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IPC IPC(8): G06F17/50G01M13/02
Inventor 崔玲丽张飞斌苏善斌高立新张建宇胥永刚刘志峰郝倩
Owner BEIJING UNIV OF TECH
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