Uhlelo lokushisela nge-laser oluphathwa ngesandla belulokhu luthandwa kakhulu emishinini yokushisela nge-laser eminyakeni embalwa edlule. Lugxile ezintweni ezinkulu zokusebenza ezibekwe kude. Luguquguquka kakhulu kangangokuthi ukulinganiselwa kwesikhala akuseyona inkinga futhi luthatha indawo yendlela yokukhanya yendabuko. Ngakho-ke, uhlelo lokushisela nge-laser oluphathwa ngesandla lwenza ukushisela okuhambayo kwangaphandle kube ngokoqobo.
Umgomo wohlelo lokushisela nge-laser oluphathwa ngesandla ukufaka ukukhanya kwe-laser okunamandla aphezulu ebusweni bento yokusebenza. I-laser nezinto ezisetshenziswayo zizosebenzisana ukuze ingaphakathi lezinto lincibilike bese liphola libe umugqa wokushisela. Lolu hlobo lokushisela lunomugqa wokushisela othambile, isivinini sokushisela esisheshayo, ukusebenza okulula futhi akukho okudliwayo okudingekayo. Ekushiseni ngensimbi encane, uhlelo lokushisela nge-laser oluphathwa ngesandla lungathatha indawo yokushisela yendabuko ye-TIG.
Kunezinzuzo ezimbalwa zesistimu yokushisela ye-laser ephathwa ngesandla
1.Ububanzi bokushisela obubanzi
Ngokuvamile, uhlelo lokushisela lwe-laser oluphathwa ngesandla lufakwe umugqa wefayibha oweluliwe ongu-10m, ovumela ukushisela okungaxhunyiwe kude;
2. Ukuguquguquka okuphezulu
Uhlelo lokushisela lwe-laser oluphathwa ngesandla luvame ukuhlonyiswa ngamasondo e-caster, ukuze abasebenzisi baluhambise noma kuphi lapho befuna khona;
3. Izitayela eziningi zokushisela
Uhlelo lokushisela lwe-laser oluphathwa ngesandla lungafinyelela ukushisela kwanoma yimaphi ama-engeli futhi luphinde lwenze ukusika kwamandla amancane inqobo nje uma abasebenzisi beshintsha umlomo wethusi wokushisela ngomlomo wethusi wokusika.
4. Ukusebenza kahle kakhulu kokushisela
Umshini wokushisela we-laser ophathwa ngesandla unendawo encane ethinta ukushisa, ukujula okuphezulu kokushisela, umugqa wokushisela obucayi ngaphandle kokucutshungulwa ngemuva.
Uma kuqhathaniswa nokushisela kwe-TIG, uhlelo lokushisela lwe-laser oluphathwa ngesandla luyakwazi ukwenza ukushisela kwezinsimbi ezahlukene ngesivinini esisheshayo, ukuguqulwa okuncane, ukunemba okuphezulu, okusebenza ekushiseleni izingxenye ezincane nezinembile. Futhi lokhu akukwazi ukufezwa ngokushisela kwe-TIG. Ngokuphathelene nokusetshenziswa kwamandla, uhlelo lokushisela lwe-laser oluphathwa ngesandla luyingxenye nje yokushisela kwe-TIG, okusho ukuthi izindleko zokukhiqiza zingancipha ngo-50%. Ngaphezu kwalokho, uhlelo lokushisela lwe-laser oluphathwa ngesandla aludingi ukucutshungulwa ngemuva, okuphinde konge izindleko. Ngakho-ke, kukholelwa ukuthi uhlelo lokushisela lwe-laser oluphathwa ngesandla luzothatha indawo yokushisela kwe-TIG futhi lusetshenziswa kabanzi embonini yokucubungula insimbi.
Iningi lesistimu yokushisela ye-laser ephathwa ngesandla inikwa amandla yi-fiber laser engu-1000W-2000W. I-fiber laser kulolu hlu lwamandla ivame ukukhiqiza ukushisa okukhulu. Ukuqinisekisa ukusebenza okuvamile kwesistimu yokushisela ye-laser ephathwa ngesandla, umthombo wayo we-fiber laser kumele upholiswe kahle. I-S&A Teyu yakha ama-RMFL series water chillers aklanyelwe ngqo uhlelo lokushisela lwe-laser oluphathwa ngesandla futhi inomklamo wokumisa ama-rack. Lawa ma-rack mount chillers afakwe ukuhlolwa kwezinga okulula ukulifunda kanye ne-water fill port elula, enikeza abasebenzisi lula kakhulu. Ukuqina kwezinga lokushisa kwalawa ma-laser chillers kufikela ku-±0.5℃. Ukuze uthole imininingwane eyengeziwe yama-RMFL series rack mount chillers, chofoza ku-https://www.chillermanual.net/fiber-laser-chillers_c2
