现代制造工程
現代製造工程
현대제조공정
MODERN MANUFACTURING ENGINEERING
2014年
8期
112-116
,共5页
新型罗茨转子%滚刀设计%转子参数优选%虚拟加工%实物加工
新型囉茨轉子%滾刀設計%轉子參數優選%虛擬加工%實物加工
신형라자전자%곤도설계%전자삼수우선%허의가공%실물가공
new roots rotor%hobbing tool design%rotor parameters optimization%virtual manufacturing%physical manufacturing
针对传统渐开线罗茨转子存在参数干涉和加工效率较低的问题,设计了采用滚切法加工的大模数、少齿数的新型渐开线罗茨转子。以一对四齿转子为例,分析了刀具参数和转子齿形的关系,设计出滚切法加工转子的大齿顶圆弧滚刀,研究了变位系数对转子重合度和面积利用系数的影响,得到了较为理想的转子齿廓。在此基础上,采用CATIA V5软件的二次开发技术,通过CATIA的宏模块和布尔运算功能实现转子的虚拟加工,验证了刀具设计的正确性,并在数控滚齿机上加工出了转子实物。结果表明:通过合理的刀具设计和齿廓参数的选择,可以得到满足工程使用要求的新型罗茨转子,转子滚切法加工工艺效率较高、通用性好,为罗茨转子的设计制造提供了一种新途径,具有一定的应用价值。
針對傳統漸開線囉茨轉子存在參數榦涉和加工效率較低的問題,設計瞭採用滾切法加工的大模數、少齒數的新型漸開線囉茨轉子。以一對四齒轉子為例,分析瞭刀具參數和轉子齒形的關繫,設計齣滾切法加工轉子的大齒頂圓弧滾刀,研究瞭變位繫數對轉子重閤度和麵積利用繫數的影響,得到瞭較為理想的轉子齒廓。在此基礎上,採用CATIA V5軟件的二次開髮技術,通過CATIA的宏模塊和佈爾運算功能實現轉子的虛擬加工,驗證瞭刀具設計的正確性,併在數控滾齒機上加工齣瞭轉子實物。結果錶明:通過閤理的刀具設計和齒廓參數的選擇,可以得到滿足工程使用要求的新型囉茨轉子,轉子滾切法加工工藝效率較高、通用性好,為囉茨轉子的設計製造提供瞭一種新途徑,具有一定的應用價值。
침대전통점개선라자전자존재삼수간섭화가공효솔교저적문제,설계료채용곤절법가공적대모수、소치수적신형점개선라자전자。이일대사치전자위례,분석료도구삼수화전자치형적관계,설계출곤절법가공전자적대치정원호곤도,연구료변위계수대전자중합도화면적이용계수적영향,득도료교위이상적전자치곽。재차기출상,채용CATIA V5연건적이차개발기술,통과CATIA적굉모괴화포이운산공능실현전자적허의가공,험증료도구설계적정학성,병재수공곤치궤상가공출료전자실물。결과표명:통과합리적도구설계화치곽삼수적선택,가이득도만족공정사용요구적신형라자전자,전자곤절법가공공예효솔교고、통용성호,위라자전자적설계제조제공료일충신도경,구유일정적응용개치。
According to the parameter interference and low efficiency manufacturing technology on profile of traditional involute rotor,the new involute rotor of big modulus and less number teeth involute was put forward ,slitting manufacturing technology can been adopt .A pair of four tooth rotors was taken as an example ,the relationship between tool parameters and rotor profile was dis-cussed,and the large addendum arc hob of rotor generating method manufacturing was designed .The influence modification coeffi-cient on the rotor contact ratio and area utilization factor was studied ,and relative perfect rotor profile was got .On the basic of this point,a virtual technology based on CATIA V5 second development technology through the CATIA macro module and Boolean function to realize rotor virtual manufacturing ,the correctness of the cutting tool design was verified ,and the real manufacturing of the rotor was realized in the numerical control gear hobbing machine .Results show that the new rotors reach requirements of engi-neering use were processed out through the reasonable cutting tool design and right choice of rotor profile parameters .The slitting manufacturing technology rotors were high efficiency and good generality .This method provides a new way to realize designing and manufacturing of roots rotor ,and possesses certain value of application .