Kami terang étamesin presisi requirements for precision is very high,mesin presisi of good rigidity, high manufacturing accuracy, accurate tool setting, so it can process parts with high precision requirements. So which parts are suitable formesin presisi?

Mimiti, dibandingkeun sareng bubut biasa, bubut CNC gaduh fungsi motong speed linier konstan, henteu masalah pikeun nyanghareupan tungtung tungtung atanapi bunderan luar diameter anu béda tiasa diolah kalayan laju linier anu sami, nyaéta pikeun mastikeun nilai kasarna permukaan anu konsisten sareng kawilang leutik. Sedengkeun bubut biasa nyaéta kecepatan konstan, laju motong béda pikeun diaméter anu béda. Dina kaayaan yén bahan bahan padamel sareng alat, ngarengsekeun sangu sareng sudut alat pasti, kasarna permukaan gumantung kana kagancangan motong sareng kecepatan pakan.

     When processing the surface with different surface roughness, a small feed speed is chosen for the surface with small roughness, and a larger feed speed is chosen for the surface with large roughness, with good variability, which is difficult to be achieved in ordinary lathes. Parts with complex contour shapes. Any plane curve can be approximated by a straight line or arc, cncmesin presisi with arc interpolation function, can process a variety of complex contours of the parts. cncmesin presisi needs the careful use of the operator's good or bad.

     CNCmesin presisiutamina gaduh péngkolan rupa, bosen rupa, panggilingan rupa, grinding rupa sareng prosés grinding

Ngabuburit rapi sareng bosen rupa: seuseueurna paduan lampu presisi (alloy aluminium atanapi magnesium, sareng sajabana) bagian tina pesawat biasana diolah ku metoda ieu. Umumna nganggo alat inten kristal tunggal alami, radius tina bunderan motong langkung kirang ti 0,1 mikron. Dina pengolahan lathe presisi tinggi tiasa kéngingkeun akurasi 1 micron sareng bédana jangkungna rata-rata kirang tina 0.2 permukaan permukaan micron, akurasi koordinat tiasa ngahontal ± 2 mikron

Ngolah bagian

    Panggilingan presisi:Dipaké pikeun mesin bagian strukturna tina alloy aluminium atanapi beryllium kalayan bentuk anu rumit. Ngandelkeun akurasi pituduh mesin sareng spindle pikeun kéngingkeun akurasi posisi silih luhur. Panggilingan gancang-gancang kalayan ujung intan anu ati-ati tiasa ngahontal permukaan eunteung anu akurat.

 Grinding rupa:Dipaké pikeun aci mesin atanapi bagian jinis liang. Kaseueuran bagian-bagian ieu didamel tina waja anu dikeras, anu atos luhurna. Kaseueuran spindle mesin grinding presisi tinggi nganggo bantalan cairan tekanan hidrostatik atanapi dinamis pikeun mastikeun stabilitas tinggi. Akurasi pamungkas grinding dipangaruhan ku alat mesin spindle sareng ranjang anu kaku, tapi ogé ku faktor sapertos seleksi sareng kasaimbangan roda grinding sareng akurasi mesin tina liang tengah bahan damel. Élmu rupa tiasa kéngingkeun akurasi diménsi 1 mikron sareng kaluarna 0,5 micron.

   Ngagiling:Prinsip silih grinding bagian kawin dipaké pikeun sacara selektif ngolah bagian anu henteu teratur dina permukaan mesin. Diaméter gandum grinding, gaya motong sareng motong panas tiasa persis dikontrol, janten éta anu pangluhurnamesin presisi method inmesin presisi technology. Hydraulic or pneumatic mating parts in precision servo parts of aircraft and bearing parts of dynamic gyro motors are machined by this method to achieve 0.1 or even 0.01 micron accuracy and 0.005 micron micro-unevenness.