Ukuhlaziywa okufushane kokuthuthukiswa kohlelo lokushisela lwe-laser oluphathwa ngesandla

Eminyakeni engaba yi-10 eyedlule, umthombo we-laser osetshenziswa emshinini wokushisela we-laser emakethe yasekhaya kwakuyi-laser ephoqa ukukhanya okuqinile okunamandla amakhulu kanye nosayizi omkhulu. Ukuze kuxazululwe inkinga yokuthi "kunzima ukushintsha indlela yokukhanya", kwethulwa umshini wokushisela we-laser osekelwe ku-fiber optic transmission. Wabe usuphefumulelwa yidivayisi yokudlulisa i-fiber optic yangaphandle ephathwa ngesandla, abakhiqizi basekhaya bakha uhlelo lwabo lokushisela lwe-laser oluphathwa ngesandla.

Lona kwakuyinguqulo engu-1.0 yomshini wokushisela we-laser ophathwa ngesandla. Njengoba usebenzisa i-fiber optic flexible transmission, ukusebenza kokushisela kwaba lula kakhulu futhi kwashintshashintsha.

Ngakho-ke abantu bangase babuze, “Yimuphi ongcono? Umshini wokushisela we-TIG noma umshini wokushisela we-laser ophathwa ngesandla ongu-1.0?” Nokho, lezi yizinhlobo ezimbili ezahlukene zamadivayisi anezimiso zokusebenza ezahlukene. Singasho nje ukuthi anezinhlelo zawo zokusebenza.

Umshini wokushisela we-TIG:

1. Isebenza ezintweni zokushisela ezingaphezu kuka-1mm ubukhulu;

2. Intengo ephansi enosayizi omncane;

3. Amandla aphezulu okushisela futhi afanelekela izinto ezahlukahlukene;

4. Indawo yokushisela inkulu kodwa inokubukeka okuhle;

Kodwa-ke, inezinkinga zayo:

1. Indawo ethinta ukushisa inkulu kakhulu futhi kungenzeka kube nokuguquguquka;

2. Ngezinto zokwakha ezingaphansi kuka-1mm ubukhulu, kulula ukuba nokusebenza kabi kokushisela;

3. Isibani se-arc kanye nentuthu kadoti kubi emzimbeni womuntu

Ngakho-ke, ukushisela kwe-TIG kufaneleka kakhulu ekushiseleni izinto eziwugqinsi oluphakathi ezidinga izinga elithile lokushisela amandla.

Inguqulo engu-1.0 yomshini wokuwelda we-laser ophathwa ngesandla

1. Indawo egxile yayincane kakhulu futhi inembile, itholakala ukuze ilungiswe phakathi kuka-0.6 no-2mm;

2. Indawo ethinta ukushisa yayincane kakhulu futhi ingakwazi ukubangela ukuguguleka;

3. Akukho mfuneko yokucutshungulwa kweposi njengokupholisha noma into efana naleyo;

4. Akukho mfucuza edala intuthu

Kodwa-ke, njengoba uhlelo lokushisela lwe-laser oluphathwa ngesandla oluyi-1.0 empeleni lwaluyinto entsha, intengo yalo yayiphezulu kakhulu ngokusetshenziswa kwamandla aphezulu kanye nosayizi omkhulu. Ngaphezu kwalokho, ukungena kwe-weld kwakungajulile impela futhi amandla okushisela ayengaphakeme kangako.

Ngakho-ke, uhlobo lwe-1.0 lomshini wokushisela we-laser ophathwa ngesandla lwanqoba izinkinga zomshini wokushisela we-TIG. Ufanelekela ukushisela izinto ezincane zepuleti okudinga amandla aphansi okushisela. Ukubukeka kokushisela kuhle futhi akudingi ukupholisha ngemuva. Lokhu kwenza umshini wokushisela we-laser ophathwa ngesandla waqala ukusetshenziswa ebhizinisini lokukhangisa nokugaya amathuluzi. Kodwa-ke, intengo ephezulu namandla aphezulu kanye nosayizi omkhulu kwavimbela ukuthi ukhuthazwe kabanzi futhi usetshenziswe.

Kodwa kamuva ngo-2017, abakhiqizi be-laser basekhaya babechuma kakhulu futhi umthombo we-laser ye-fiber esebenza kahle kakhulu wasekhaya wakhuthazwa kakhulu. Imithombo ye-laser ye-fiber enamandla aphakathi nendawo angu-500W, 1000W, 2000W kanye no-3000W yakhuthazwa abakhiqizi be-laser abaphambili njengoRaycus. I-laser ye-fiber ngokushesha yathatha isabelo esikhulu semakethe emakethe ye-laser futhi kancane kancane yathatha indawo ye-laser ephoqa ukukhanya okuqinile. Ngemuva kwalokho abanye abakhiqizi bedivayisi ye-laser bathuthukisa umshini wokushisela we-laser ophathwa ngesandla one-laser ye-fiber engu-500W njengomthombo we-laser. Futhi lokhu kwakuyinguqulo engu-2.0 yohlelo lokushisela we-laser oluphathwa ngesandla.

Uma kuqhathaniswa nenguqulo engu-1.0, inguqulo engu-2.0 yomshini wokushisela we-laser ophathwa ngesandla ithuthukise kakhulu ukusebenza kahle kokushisela kanye nokusebenza kokucubungula futhi yakwazi ukushisela izinto ezinobukhulu obungaphansi kuka-1.5mm ezidinga izinga elithile lamandla. Kodwa-ke, inguqulo engu-2.0 yayingaphelele ngokwanele. Indawo eqondile yokunemba okuphezulu kakhulu idinga ukuthi imikhiqizo eshiselwe nayo ibe nenembile. Isibonelo lapho kushiselwa izinto ezingu-1mm, uma umugqa wokushisela umkhulu kuno-0.2mm, ukusebenza kokushisela bekungeke kwanelise.

Ukuze kuhlangatshezwane nesidingo somugqa wokushisela odingakalayo, abakhiqizi bamadivayisi e-laser kamuva bathuthukisa umshini wokushisela we-laser ophathwa ngesandla onesitayela sokuxega. Futhi lena inguqulo engu-3.0.

Isici esiyinhloko somshini wokushisela we-laser ophathwa ngesandla ngesitayela sokugoba ukuthi indawo yokugxila yokushisela iyagoba ngesivinini esiphezulu, okwenza indawo yokugxila yokushisela ilungiswe ibe ngu-6mm. Lokho kusho ukuthi ingashisela imikhiqizo ngomugqa omkhulu wokushisela. Ngaphandle kwalokho, inguqulo engu-3.0 incane kunenguqulo engu-2.0 ngobukhulu ngentengo ephansi, okwadonsela ukunaka okukhulu lapho isiqaliswe emakethe. Futhi lena inguqulo esiyibona emakethe manje.

Uma uqaphele ngokwanele, ungase uqaphele ukuthi kuvame ukuba nedivayisi yokupholisa ngaphansi komthombo we-fiber laser ngaphakathi kohlelo lokushisela lwe-laser oluphathwa ngesandla. Futhi leyo divayisi yokupholisa isetshenziselwa ukugcina umthombo we-fiber laser ungashisi ngokweqile, njengoba ukushisa ngokweqile kuzoholela ekusebenzeni okunciphile kokushisela kanye nokuphila isikhathi esifushane. Ukuze ilingane ohlelweni lokushisela lwe-laser oluphathwa ngesandla, idivayisi yokupholisa idinga ukuba uhlobo lokushisela lwe-rack. Ama-chiller e-S&A RMFL series rack mount aklanyelwe ngokukhethekile umshini wokushisela we-laser ophathwa ngesandla kusukela ku-1KW kuya ku-2KW. Umklamo wokushisela we-rack uvumela ama-chiller ukuthi ahlanganiswe nokwakheka komshini, okusindisa isikhala esikhulu kubasebenzisi. Ngaphandle kwalokho, ama-chiller e-RMFL series rack mount anokulawula okushisa okubili okunikeza ukupholisa okuzimele kwekhanda le-laser kanye ne-laser ngempumelelo. Thola okwengeziwe mayelana nama-chiller e-RMFL series rack mount ku- https://www.teyuchiller.com/fiber-laser-chillers_c2