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ADAMS车辆工程仿真案例:上控制臂部件UCA的研究

2023-09-17 理论教育 版权反馈
【摘要】:图1-20控制臂UCA几何体创建对话框

•单击Build > Part > General Part > New命令,弹出创建部件对话框,如图1-19所示,对于已经创建好的横置板簧悬架模型,通过右击._fsae_suspension_rear_axle.gel_uca部件,在弹出的快捷菜单中单击Modify而弹出对话框;

图1-19 控制臂UCA部件创建对话框

•General Part输入uca;

•Location Dependency:Centered between coordinates;

•Centered between:Three Coordinates,即上控制臂部件uca位于三点坐标的中心位置;

•Coordinate Reference #1(参考坐标):._fsae_suspension_rear_axle.ground.hpl_uca_front;

•Coordinate Reference #2(参考坐标):._fsae_suspension_rear_axle.ground.hpl_uca_rear;

•Coordinate Reference #3(参考坐标):._fsae_suspension_rear_axle.ground.hpl_uca_outer;

•Orient using:Euler Angles,即部件定向采用欧拉角模式;

•Euler Angles:0,0,0;

•Mass:1;

•Ixx:1;

•Iyy:1;

•Izz:1;

•Density:Material;

•Material Type:.materials.steel;

•单击OK,完成部件._fsae_suspension_rear_axle.gel_uca创建。

•单击Build > Geometry > Link > New命令,弹出创建连杆几何体对话框,如图1-20所示;

•Link Name (连杆名称)输入几何名称:uca_link_front;

•General Part输入._fsae_suspension_rear_axle.gel_uca;

•Coordinate Reference #1(参考坐标):._fsae_suspension_rear_axle.ground.hpl_uca_front;

•Coordinate Reference #2(参考坐标):._fsae_suspension_rear_axle.ground.hpl_uca_outer;

•Radius(半径):8;

•Color:dark gray;

•选择Calculate Mass Properties of General Part复选框,当几何建立好之后会更新对应部件的质量和惯量参数;

•Density:Material;

•Material Type:steel;

•单击Apply,完成uca_link_front几何体的创建;

•Link Name (连杆名称)输入几何名称:uca_link_rear;

•General Part输入._fsae_suspension_rear_axle.gel_uca;

•Coordinate Reference #1(参考坐标):._fsae_suspension_rear_axle.ground.hpl_uca_rear;

•Coordinate Reference #2(参考坐标):._fsae_suspension_rear_axle.ground.hpl_uca_outer;

•Radius(半径):8;

•Color:dark gray;

•勾选Calculate Mass Properties of General Part复选框;

•Density:Material;

•Material Type:steel;

•单击OK,完成uca_link_rear几何体的创建。

图1-20 控制臂UCA几何体创建对话框

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