光学精密工程
光學精密工程
광학정밀공정
OPTICS AND PRECISION ENGINEERING
2009年
12期
3047-3054
,共8页
郑黎明%邓春萍%杨慎华%郑祺峰
鄭黎明%鄧春萍%楊慎華%鄭祺峰
정려명%산춘평%양신화%정기봉
连杆裂解%摆动机构%激光切割头%动力学仿真%ADAMS
連桿裂解%襬動機構%激光切割頭%動力學倣真%ADAMS
련간렬해%파동궤구%격광절할두%동역학방진%ADAMS
fracture splitting connecting rod%asway mechanism%laser cutting head%dynamics simulation%ADAMS
激光切割裂解槽机床是连杆裂解加工的关键设备之一,用于完成连杆初始裂解槽的切割.本文介绍了该机床的激光头摆动机构,对摆头机构进行了ADAMS动力学仿真.根据仿真结果确定了合理的液压参数(液压压力为2.5 MPa,溢流阀流量系数为0.2),并完成了摆头机构的物理切割试验.试验结果表明,在合适的工艺参数条件下,摆头机构的定位精度达到±0.02 mm,且工作稳定、可靠,连杆裂解槽槽深均为(0.5±0.05) mm.提出了伺服电机驱动激光头摆头方案,对改进的摆头方案进行了ADAMS运动学仿真.仿真结果表明,改进后的摆头机构可在0.4 s内完成摆头动作,且摆动角度调整方便,说明改进后的摆动机构是较理想的激光头摆动方案,可为连杆初始裂解槽激光加工主机结构优化提供可靠的理论依据.
激光切割裂解槽機床是連桿裂解加工的關鍵設備之一,用于完成連桿初始裂解槽的切割.本文介紹瞭該機床的激光頭襬動機構,對襬頭機構進行瞭ADAMS動力學倣真.根據倣真結果確定瞭閤理的液壓參數(液壓壓力為2.5 MPa,溢流閥流量繫數為0.2),併完成瞭襬頭機構的物理切割試驗.試驗結果錶明,在閤適的工藝參數條件下,襬頭機構的定位精度達到±0.02 mm,且工作穩定、可靠,連桿裂解槽槽深均為(0.5±0.05) mm.提齣瞭伺服電機驅動激光頭襬頭方案,對改進的襬頭方案進行瞭ADAMS運動學倣真.倣真結果錶明,改進後的襬頭機構可在0.4 s內完成襬頭動作,且襬動角度調整方便,說明改進後的襬動機構是較理想的激光頭襬動方案,可為連桿初始裂解槽激光加工主機結構優化提供可靠的理論依據.
격광절할렬해조궤상시련간렬해가공적관건설비지일,용우완성련간초시렬해조적절할.본문개소료해궤상적격광두파동궤구,대파두궤구진행료ADAMS동역학방진.근거방진결과학정료합리적액압삼수(액압압력위2.5 MPa,일류벌류량계수위0.2),병완성료파두궤구적물리절할시험.시험결과표명,재합괄적공예삼수조건하,파두궤구적정위정도체도±0.02 mm,차공작은정、가고,련간렬해조조심균위(0.5±0.05) mm.제출료사복전궤구동격광두파두방안,대개진적파두방안진행료ADAMS운동학방진.방진결과표명,개진후적파두궤구가재0.4 s내완성파두동작,차파동각도조정방편,설명개진후적파동궤구시교이상적격광두파동방안,가위련간초시렬해조격광가공주궤결구우화제공가고적이론의거.
The laser cutting fracture splitting notch processing machine is one of the key apparatuses used for cutting the fracture splitting notch of connecting rod. The asway mechanism of the machine is introduced, and a series of dynamics simulations are carried out. Based on the simulation results, rational hydraulic parameters(at a optimum hydraulic pressure of 2.5 MPa and a throttle valve's discharge coefficient of 0.2) are determined,and physical cutting tests are also undertaken.Experimental results indicate that the asway mechanism can provide a stable and reliable working state and its positioning accuracy reaches 0.02 mm under the depth of fracture splitting notch in (0.5±0.05)mm. Meanwhile,a scheme in which the asway mechanism in driven by a electromotor is presented and the ADAMS kinematic simulations towards the improved asway mechanism are accomplished. The simulation results show that the improved asway mechanism can complete the asway process in 0.4 s with a more accurate asway angle, which proves that the servo electromotor driven asway mechanism is reasonable and can provide a reliable theoretic basis for optimizing the structure of the laser cutting fracture splitting notch machine.