摘要
针对吊重二自由度摆角非线性动力学模型,研究了起重机吊重摆角的产生机理和摆角的影响因素。起重机小车和大车同时做加(减)速的复合运动时,产生吊重二自由度摆角,摆角的大小受起升绳长度和小车运行加(减)速度大小的影响。动态仿真表明:小车运行加(减)速度对摆角的影响比绳长度显著;小车起动和制动时,吊重做受迫摆动;当小车加(减)速度增大l倍时,吊重摆角约增大0.12rad,摆速约增大0.164rad/s;当绳长度增加2m时,摆角和摆速无明显变化,吊重自由摆动的周期约增加1.3s。
Swing angel' s generating mechanism and influencing factors were investigated for the load' s swing angle on overhead or gantry cranes aiming at load' s two-degree-of-freedom swing angle non-linear dy- namic model. When the crane' s bridge and trolley complexly travel with some acceleration value simultane- ously, the load will bring two-degree-of-freedom swing angle. The load' s hoisting rope length and the acceler- ation of the bridge or trolley are the main influencing factors for the load' s swing angle. Dynamic simulation results show that the rope-length' s force is less prominent than the trolley-acceleration' s for the swing angle of load. The swing angle will increase 0. 12 rad and the swing angle-velocity value will increase 0. 164 rad/s when the trolley' s acceleration increase 1 time; the swing angle and swing angle-velocity will be indistinctively variational, but the uncontrolled swin~ periodicity will chan^e 1.3 .~_
出处
《武警工程大学学报》
2012年第2期13-16,共4页
Journal of Engineering University of the Chinese People's Armed Police Force
基金
基金项目:国家自然科学基金项目(51005246)
武警工程大学基础研究基金项目(WJY201033)
关键词
起重机吊重系统
摆角
产生机理
动态仿真
crane-load system
swing angle
generating mechanism
dynamic simulation
