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HSV反求电锤冲击气动系统的设计及优化
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湖南省科技计划资助项目(2014GK3050);湖南省教育厅科学研究资助项目(15C0619);国家留学基金委地方合作资助项目(201308430462)


HSV Reverse Design and Optimization of Impact System and Pneumatic System of Rotary Hammer
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    摘要:

    文中电锤是一种高频电动气锤,以市场上标称32 mm连杆式电锤为研究对象,通过高速摄像技术HSV和运动分析软件ProAnalyst对电锤的撞锤和活塞进行了运动分析,从而反向求导出电锤冲击气动系统,并对已有参数调节获得最佳气动参数匹配设置和最优输出冲击能量。这种逆向求导思维和方法,更准确和真实,为电锤的气动系统提供了更可靠的理论设计依据。

    Abstract:

    Rotary hammer is a high frequency pneumatic hammer driven by electricity. 32 mmnominal connecting rod rotary hammer was chosen as an research object.The motion of hammer and piston of rotary hammer were analyzed with HSV and ProAnalyst. And impact system and pneumatic system of rotary hammer were deduced from the above reverse analyses. The optimal pneumatic parameters match setting and the optimal output impact energy were obtained by adjusting the existing parameters. As a reverse thinking and method, the datas are more accurate and true, which provide a more reliable theoretical design basis for pneumatic system of rotary hammer.

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引用本文

谭华,胡广. HSV反求电锤冲击气动系统的设计及优化[J].机床与液压,2016,44(17):121-124.
. HSV Reverse Design and Optimization of Impact System and Pneumatic System of Rotary Hammer[J]. Machine Tool & Hydraulics,2016,44(17):121-124

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  • 在线发布日期: 2016-12-01
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