Application of ANSYS and ADAMS in the Design of Photovoltaic Automated Tipping Mechanism
In photovoltaic automation equipment,the tipping mechanism is a key component of the system.In order to achieve low cost and high stability,a motor directly connected flip mechanism is designed.The kinematics and dynamics of the tilting mechanism are simulated by using the simulation software ADAMS,and the driving force is investigated.The kinematics and dynamics of the tilting mechanism are simulated using the simulation software ADAMS,and the permissible load and contact force of the drive motor are analysed to ensure that the tilting mechanism in order to ensure that the stress and strain of the rotating shaft are within the error range,the finite element analysis software ANSWER is used in order to ensure that the stress and strain of the rotating shaft are within the error range,the finite element analysis software ANSYS Workbench is used to carry out static analysis to determine its strength and reliability and precision degree to meet the requirements.The results show that simulation analysis of the strength,stiffness and smoothness of the tumbler is an important part of mechanism design and selection.The results show that the simulation analysis of the strength,stiffness and smoothness of operation of the tumbler is an important basis for the design and selection of the mechanism.
photovoltaic automationtipping mechanismdynamic simulationfinite element analysis
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