中国机械工程
中國機械工程
중국궤계공정
CHINA MECHANICAl ENGINEERING
2015年
9期
1167-1172
,共6页
高速电火花线切割%大锥度%随动机构%多次切割
高速電火花線切割%大錐度%隨動機構%多次切割
고속전화화선절할%대추도%수동궤구%다차절할
high speed wire-cut electric discharge machining (HSWEDM)%large taper%servo guide mechanism%multi cutting
高速往复走丝电火花线切割机床大锥度(≥±5°)切割时,受到诸多因素的影响,尤其是电极丝采用导轮定位产生的结构误差的影响,加上切割时工作液不能很好地包裹住电极丝并随着电极丝沿倾斜方向进入加工区域,使其加工精度和表面粗糙度比直体切割时差很多,对于锥度零件的多次切割特别是大锥度零件的多次切割则显得更加困难,其根本原因是没有能够保持电极丝空间位置及稳定性的随动导丝器和喷水机构。为此,设计了一种随着电极丝倾斜能随动导丝并跟踪喷液的六连杆大锥度随动导丝及喷水机构。通过试验,在相同加工参数条件下,新型随动机构与现有机构相比,圆锥加工误差从80μm 减小到40μm,表面粗糙度 Ra 从4.059μm 减小至3.495μm,多次切割后加工精度可以达到25μm(锥度±20°,工件厚40 mm),表面粗糙度 Ra 达到1.670μm。
高速往複走絲電火花線切割機床大錐度(≥±5°)切割時,受到諸多因素的影響,尤其是電極絲採用導輪定位產生的結構誤差的影響,加上切割時工作液不能很好地包裹住電極絲併隨著電極絲沿傾斜方嚮進入加工區域,使其加工精度和錶麵粗糙度比直體切割時差很多,對于錐度零件的多次切割特彆是大錐度零件的多次切割則顯得更加睏難,其根本原因是沒有能夠保持電極絲空間位置及穩定性的隨動導絲器和噴水機構。為此,設計瞭一種隨著電極絲傾斜能隨動導絲併跟蹤噴液的六連桿大錐度隨動導絲及噴水機構。通過試驗,在相同加工參數條件下,新型隨動機構與現有機構相比,圓錐加工誤差從80μm 減小到40μm,錶麵粗糙度 Ra 從4.059μm 減小至3.495μm,多次切割後加工精度可以達到25μm(錐度±20°,工件厚40 mm),錶麵粗糙度 Ra 達到1.670μm。
고속왕복주사전화화선절할궤상대추도(≥±5°)절할시,수도제다인소적영향,우기시전겁사채용도륜정위산생적결구오차적영향,가상절할시공작액불능흔호지포과주전겁사병수착전겁사연경사방향진입가공구역,사기가공정도화표면조조도비직체절할시차흔다,대우추도령건적다차절할특별시대추도령건적다차절할칙현득경가곤난,기근본원인시몰유능구보지전겁사공간위치급은정성적수동도사기화분수궤구。위차,설계료일충수착전겁사경사능수동도사병근종분액적륙련간대추도수동도사급분수궤구。통과시험,재상동가공삼수조건하,신형수동궤구여현유궤구상비,원추가공오차종80μm 감소도40μm,표면조조도 Ra 종4.059μm 감소지3.495μm,다차절할후가공정도가이체도25μm(추도±20°,공건후40 mm),표면조조도 Ra 체도1.670μm。
Because many factors especially the structure error influences caused by wire electrode using wheel positioning,and dielectric fluid cannot grip the wire electrode very well so that could not flow into the machining area with wire electrode along the direction of dip when big taper parts in cut-ting,the machining accuracy and surface roughness of the taper parts were worse than parts with stretched cutting.Multi cutting of taper parts especially big taper parts was much more difficult.The basic reason was that it had no follow-up guide and spray mechanism which could keep the wire elec-trode space position and stability.In view of the above mentioned problems,the paper presented the design of a six connecting rod big taper follow-up guide and spray mechanism that could guide wire along with wire electrode’s inclination and realize tracking spray at the same time.On the basis of new mechanism,experimental results show that taper machining errors decrease from 80μm to 40μm. Surface roughness Ra decreases from 4.059 μm to 3.495 μm.After multi cutting,taper machining (taper ±20°,thickness 40 mm)errors are decreased to 25 μm.Surface roughness Ra is decreased to 1.670 μm.
