防空战车电气一体化检测工艺的优化
|
摘要
针对目前防空战车电气检测工艺中存在的自动化程度低、工序复杂、工位众多等问题,基于模块集成和专家故障诊断系统提出了一套快速有效的防空战车电气一体化检测工艺,并开发了电气一体化检测装备,应用于防空战车的研制生产过程中。试用结果表明,优化后的检测工艺相比优化前节省工时37%,大幅提高了防空战车检测的自动化、快速化、通用化水平。
Aiming at the challenges of low degree of automation, complicated process and numerous workstations in the current electric testing process for the air defense vehicle, a set of quick and effective electric integration testing process for the air defense vehicle based on module integration and professional fault diagnosis system was proposed and electric integration testing equipment was developed and applied to R & D and production process of the air defense vehicle. The trial results show that the optimized testing process saves 37% of the labor time, which greatly improves the automation level, speed-up level and generalization level during testing of the air defense vehicle.
Aiming at the challenges of low degree of automation, complicated process and numerous workstations in the current electric testing process for the air defense vehicle, a set of quick and effective electric integration testing process for the air defense vehicle based on module integration and professional fault diagnosis system was proposed and electric integration testing equipment was developed and applied to R & D and production process of the air defense vehicle. The trial results show that the optimized testing process saves 37% of the labor time, which greatly improves the automation level, speed-up level and generalization level during testing of the air defense vehicle.
引文
[1]杨康华.某型导弹电气自动测试系统设计[D].太原:中北大学, 2017.
[2]杨鸥宁.基于LabWindows/CVI的电气综合测试系统设计[D].太原:中北大学, 2016.
[3]王伟.电气工程自动设备可靠性检测技术分析[J].中国高新区,2017(19):109.
[4]胡琴.电气自动检测技术的现状与发展[J].硅谷, 2013,6(11):10,7.
[5]庞利博,李晓龙.探讨电气自动检测技术的发展研究[J].黑龙江科技信息,2016(7):74.
[6]李年裕,谢永成,李光升,等.装甲车辆电气仪表及控制盒自动检测系统的设计[J].计算机测量与控制,2003,11(9):704-706.
[7]袁杰,王福利,王姝,等.基于D-S融合的混合专家知识系统故障诊断方法[J].自动化学报,2017, 43(9):1580-1587.
[8]吕文龙,王甲峰.机内自检测BIT对安全和维修的影响[C].航空安全与装备维修技术学术研讨会,桂林,2014.
[9]韩琦文.某型导弹电缆网电气性能检测系统研发[D].南京:南京航空航天大学, 2016.
[10]姚芳芳.基于故障树的HXD3型电力机车转向架轴承故障分析[J].机械制造, 2017,55(5):86-88.
[2]杨鸥宁.基于LabWindows/CVI的电气综合测试系统设计[D].太原:中北大学, 2016.
[3]王伟.电气工程自动设备可靠性检测技术分析[J].中国高新区,2017(19):109.
[4]胡琴.电气自动检测技术的现状与发展[J].硅谷, 2013,6(11):10,7.
[5]庞利博,李晓龙.探讨电气自动检测技术的发展研究[J].黑龙江科技信息,2016(7):74.
[6]李年裕,谢永成,李光升,等.装甲车辆电气仪表及控制盒自动检测系统的设计[J].计算机测量与控制,2003,11(9):704-706.
[7]袁杰,王福利,王姝,等.基于D-S融合的混合专家知识系统故障诊断方法[J].自动化学报,2017, 43(9):1580-1587.
[8]吕文龙,王甲峰.机内自检测BIT对安全和维修的影响[C].航空安全与装备维修技术学术研讨会,桂林,2014.
[9]韩琦文.某型导弹电缆网电气性能检测系统研发[D].南京:南京航空航天大学, 2016.
[10]姚芳芳.基于故障树的HXD3型电力机车转向架轴承故障分析[J].机械制造, 2017,55(5):86-88.