Uhlalutyo olufutshane lophuhliso lwenkqubo yokuwelda yelaser ephathwayo

Kwiminyaka emalunga ne-10 eyadlulayo, umthombo welaser osetyenziswa kumatshini wokuwelda nge-laser kwimarike yasekhaya yayiyilaser yokumpompa ukukhanya okuqinileyo esetyenziswa kakhulu kwaye inobukhulu obukhulu. Ukuze kusonjululwe ingxaki yokuba "kunzima ukutshintsha indlela yokukhanya", kwaveliswa umatshini wokuwelda nge-laser osekelwe kwi-fiber optic transmission. Emva koko waphefumlelwa sisixhobo sokudlulisa i-fiber optic esiphathwa ngesandla sangaphandle, abavelisi basekhaya baphuhlisa inkqubo yabo yokuwelda nge-laser ephathwa ngesandla.

Le yayiyinguqulelo ye-1.0 yomatshini wokuwelda welaser ophathwa ngesandla. Ekubeni usebenzisa i-fiber optic flexible transmission, umsebenzi wokuwelda waba bhetyebhetye ngakumbi kwaye waba lula ngakumbi.

Ngoko ke abantu banokubuza, “Ngowuphi ongcono? Umatshini wokuwelda we-TIG okanye umatshini wokuwelda we-laser we-handheld ongu-1.0?” Kaloku, ezi ziintlobo ezimbini ezahlukeneyo zezixhobo ezinemigaqo yokusebenza eyahlukileyo. Singatsho kuphela ukuba zinezicelo zazo.

Umatshini wokuwelda we-TIG:

1.Isetyenziswa kwizixhobo zokuwelda ezinobukhulu obungaphezulu kwe-1mm;

2. Ixabiso eliphantsi elinobukhulu obuncinci;

3. Amandla aphezulu okuwelda kwaye afanelekile kwiintlobo ngeentlobo zezinto zokwakha;

4. Indawo yokuwelda inkulu kodwa inembonakalo entle;

Nangona kunjalo, ikwanazo neengxaki zayo:

1. Indawo echaphazela ubushushu inkulu kakhulu kwaye ukuguquka kungenzeka;

2. Kwizixhobo ezinobukhulu obungaphantsi kwe-1mm, kulula ukuba ukusebenza kakuhle kwe-welding kube kubi;

3. Isibane se-arc kunye nomsi wenkunkuma azisebenzi kakuhle emzimbeni womntu

Ngoko ke, ukuwelda kwe-TIG kulungele ngakumbi ukuwelda izixhobo ezinobukhulu obuphakathi ezifuna inqanaba elithile lokuwelda ngamandla.

Inguqulelo ye-1.0 yomatshini wokuwelda we-laser ophathwa ngesandla

1. Indawo egxile kuyo yayincinci kakhulu kwaye ichanekile, ifumaneka ukuba ilungiswe phakathi kwe-0.6 kunye ne-2mm;

2. Indawo echaphazela ubushushu yayincinci kakhulu kwaye ingenakubangela ukuguquka;

3. Akukho mfuneko yokucubungula emva kokwenza izinto ezifana nokupolisha okanye into efana naleyo;

4. Akukho msi ungcolileyo ovelisayo

Nangona kunjalo, ekubeni inguqulelo ye-1.0 yenkqubo yokuwelda yelaser ephathwayo yayiyinto entsha, ixabiso layo laliphezulu kakhulu ngenxa yokusetyenziswa kwamandla aphezulu kunye nobukhulu obukhulu. Ngaphezu koko, ukungena kwe-weld kwakunganzulu kangako kwaye amandla okuwelda ayengaphezulu kangako.

Ngenxa yoko, inguqulelo ye-1.0 yomatshini wokuwelda welaser ophathwa ngesandla uye woyisa iingxaki zomatshini wokuwelda we-TIG. Ifanelekile ukuwelda izixhobo zepleyiti encinci ezifuna amandla aphantsi okuwelda. Inkangeleko yokuwelda intle kwaye ayifuni ukupholishwa emva kokufakwa. Oku kwenza umatshini wokuwelda welaser ophathwa ngesandla waqala ukusetyenziswa kwishishini lokuthengisa nokulungisa izixhobo. Nangona kunjalo, ixabiso eliphezulu kunye namandla aphezulu kunye nobukhulu obukhulu kwathintela ukuba ikhuthazwe kwaye isetyenziswe ngokubanzi.

Kodwa kamva ngo-2017, abavelisi be-laser basekhaya babechuma kakhulu kwaye umthombo we-laser yefayibha esebenza kakhulu wasekhaya wakhuthazwa kakhulu. Imithombo ye-laser yefayibha enamandla aphakathi nephezulu ye-500W, 1000W, 2000W kunye ne-3000W yakhuthazwa ngabavelisi be-laser abaphambili abanjengoRaycus. I-laser yefayibha kungekudala yathatha isabelo esikhulu semarike kwimarike ye-laser yaza yathatha indawo ye-laser yokumpompa ukukhanya okuqinileyo. Emva koko abanye abavelisi bezixhobo ze-laser baphuhlisa umatshini wokuwelda we-laser ophathwa ngesandla one-laser yefayibha ye-500W njengomthombo we-laser. Kwaye le yayiyinguqulelo ye-2.0 yenkqubo yokuwelda ye-laser ephathwa ngesandla.

Xa kuthelekiswa nohlobo lwe-1.0, uhlobo lwe-2.0 lomatshini wokuwelda welaser ophathwa ngesandla luphucule kakhulu ukusebenza kakuhle kokuwelda kunye nokusebenza kokucubungula kwaye lukwazile ukuwelda izixhobo ezinobukhulu obungaphantsi kwe-1.5mm ezifuna amandla athile. Nangona kunjalo, uhlobo lwe-2.0 belungagqibelelanga ngokwaneleyo. Indawo egxile ekuchanekeni okuphezulu kakhulu ifuna ukuba iimveliso eziweldayo zibe chanekileyo. Umzekelo xa kuwelda izixhobo ze-1mm, ukuba umgca wokuwelda mkhulu kune-0.2mm, ukusebenza kokuwelda bekungayi kuba mnandi kangako.

Ukuze kuhlangatyezwane neemfuno zomgca wokuwelda onzima, abavelisi bezixhobo zelaser kamva baphuhlise umatshini wokuwelda welaser ophathwa ngesandla oguquguqukayo. Olu luguqulelo lwe-3.0.

Eyona nto iphambili kumatshini wokuwelda we-laser ophathwa ngesandla kukuba indawo yokuwelda iyagungqa rhoqo, nto leyo eyenza indawo yokuwelda ilungelelaniswe ibe yi-6mm. Oko kuthetha ukuba ingayiwelda imveliso ngomgca omkhulu wokuwelda. Ngaphandle koko, uhlobo lwe-3.0 luncinci kunohlobo lwe-2.0 ngobukhulu ngexabiso eliphantsi, nto leyo eyatsala ingqalelo enkulu emva kokuba iqalisiwe kwimarike. Kwaye le yinguqulelo esiyibonayo kwimarike ngoku.

Ukuba ulumkile ngokwaneleyo, ungaqaphela ukuba kukho isixhobo sokupholisa phantsi komthombo we-fiber laser ngaphakathi kwenkqubo yokuwelda ye-laser ephathwayo. Kwaye eso sixhobo sokupholisa sisetyenziselwa ukugcina umthombo we-fiber laser ungatshisi kakhulu, kuba ubushushu buya kukhokelela ekusebenzeni okuphantsi kokuwelda kunye nobomi obufutshane. Ukuze ilingane kwinkqubo yokuwelda ye-laser ephathwayo, isixhobo sokupholisa kufuneka sibe luhlobo lwe-rack mount. Ii-S&A RMFL series rack mount chillers zenzelwe ngokukodwa umatshini wokuwelda we-laser ophathwayo ukusuka kwi-1KW ukuya kwi-2KW. Uyilo lwe-rack mount luvumela ii-chillers ukuba zidityaniswe noyilo lomatshini, zigcine indawo enkulu kubasebenzisi. Ngaphandle koko, ii-RMFL series rack mount chillers zinolawulo lobushushu oluphindwe kabini olubonelela ngokupholisa okuzimeleyo kwentloko ye-laser kunye ne-laser ngokufanelekileyo. Fumana okungakumbi malunga nee-RMFL series rack mount chillers ku- https://www.teyuchiller.com/fiber-laser-chillers_c2