采用碟形砂轮的斜齿面齿轮磨齿技术研究  被引量:4

Research on Face Gear With Helical Pinion Grinding Technology by Using Grinding Disk

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作  者:彭先龙[1] 李建华[1] 方宗德[1] 苏进展[1] 

机构地区:[1]西北工业大学机电学院,西安710072

出  处:《机械科学与技术》2013年第4期493-498,共6页Mechanical Science and Technology for Aerospace Engineering

基  金:国家自然科学基金项目(50175095)资助

摘  要:为了制造出高精度硬齿面斜齿面齿轮和获得抛物线传动误差并改善啮合性能,对采用碟形砂轮加工双向修形的斜齿面齿轮的磨齿方法进行了研究。设计了渐开线失配的碟形砂轮齿面,分析了碟形砂轮磨削斜齿面齿轮的展成原理,根据展成原理和用渐开线失配的碟形砂轮并改变砂轮的运动,推导出双向修形斜齿面齿轮的齿面方程。给出了双向修形斜齿面齿轮的齿面计算和接触分析实例,结果表明:理论齿面的最大齿面误差为5.98×10-4μm,采用碟形砂轮加工双向修形斜齿面齿轮的磨齿方法是可行的,获得了斜齿面齿轮抛物线传动误差,避免了边缘接触并改善了斜齿面齿轮的啮合性能。A method of tooth grinding for double crowned face gear with helical pinion machined by using grinding disk was studied in order to manufacture highly precise hardened face gear with helical pinion and obtain parabolic transmission errors and improve meshing performances. The surface of grinding disk with mismatched involute was designed ; the generation theory of helical face gear abraded by grinding disk is analyzed, deducing the tooth surface equation of double crowned face gear with helical pinion based on the generation theory, the grinding disk with mis- match involute and modification of the grinder movement. A tooth surface calculation and contact analysis example of double crowned face gear with helical pinion was represented and the results show that the maximum error of the theoretical tooth surface of face gear is 5.98 ~ 10 -4/zm, the grinding and crowning method is feasible and the para- bolic transmission is obtained, avoiding edge contact and approving m

关 键 词:斜齿面齿轮 碟形砂轮 双向修形 安装误差 齿面接触分析 

分 类 号:TH132.41[机械工程—机械制造及自动化]

 

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