Umatshini we-Cryogenic deflashing 60C
Umatshini we-Cryogenic deflashing 60C
Iphaneli yokuSebenza ye-NS-60C
Ubuchwephesha obuphezulu
1. Isakhelo esipheleleyo sensimbi engenasici siqinisekisa ubomi obude bokusebenza komatshini.
2. Ibhaskithi eyilwe ngokufanelekileyo kunye nenkqubo ye-OBD ibonisa ngokupheleleyo ukusebenza okuphezulu, ukugcinwa kwamandla, ukukhuselwa kwendalo.
3. Ulawulo oluninzi lokhuseleko lokuqinisekisa ukusebenza okukhuselekileyo nokuthembekileyo.
Inkqubo yeDynamical
1. Inkqubo yamandla isebenzisa ivili leprojectile yensimbi ephezulu yokuqina kunye neJapan evela kumazwe angaphandle i-high-frequency motor esebenza nge-60/45 degree inclined cylindrical basket.
2. Imveliso yamandla kunye nomthamo wokulungiswa kwemveliso ifikelela kumlinganiselo ozinzileyo we-1: 1.
3. Umlinganiselo ofanelekileyo wamandla uvelisa ukuchaneka okungaqhelekanga kokucubungula.
Inkqubo yokuhlela
1. Umatshini wamkela uhlobo lwe-Sato oluchasene ne-plugging, i-3D eguquguqukayo eguquguqukayo yomgca we-waveform yesikrini sokungcangcazela.
2. Ukusebenza kakuhle kwe-thermal insulation ukukhusela i-icing yangaphandle.
3. Ukukhawuleza kwaye kulula ukuchithwa kunye nokugcinwa, ukuphucula ukusebenza kwemveliso.
4. Ubomi obude bokusebenza kunye nokuzinza okuphezulu.
Umatshini we-cryogenic deflashing unika abasebenzisi isisombululo sokujongana ngokufanelekileyo nombane wemveliso, ofaneleke kakhulu kwimveliso yobuninzi obukhulu, iinxalenye ezinobungakanani obuhlukeneyo, izakhiwo, okanye izinto ezifuna ukuchaneka okuphezulu kwonyango lomphezulu wemveliso.
1. Irabha kunye neenxalenye zeplastiki.
2. Eyona igqwesileyo yeeringi zika-'O'.
3. Ukususwa kweflash yeemveliso ezilastiki.
4. Amacandelo e-elektroniki.
5. Izibonelelo zonyango.
Indlela ye-Cryogenic deflashing iqhele ukusetyenziswa kwi-automotive, i-aerospace, unyango, i-electronics kunye ne-rubber industry jikelele.
1. Imvelaphi yebrendi
Isuka kwiQela laseJapan laseShowadenko iminyaka engama-30 yokuwa kweteknoloji, iminyaka eli-16 yamava okwenziwa kwemveliso yasekhaya.
2. Iindleko zokhuphiswano
Ukusebenza okugqwesileyo kokufakwa kwe-thermal kunciphisa inkunkuma yenitrogen engamanzi.Umaleko wokugquma we-PIR ngokusebenza ngcono kokugquma kwe-thermal kunye nevalve ye-solenoid ye-ultra-low ukunciphisa inkcitho yenitrogen engamanzi kunye neendleko zokusebenza.
3. Isisombululo sobugcisa esivuthiweyo
Zonke iinkcukacha zobugcisa ziyilwe ngokufanelekileyo kubandakanya isantya seprojekthi, i-projectile angle, i-basket shape, i-angle inclination angle kunye nokujikeleza, njl.
4. Ukusebenza okusebenzayo ngakumbi
Amalungu angaphakathi kwenkqubo yokujikeleza kweprojekti atywinwe kakuhle okwenza inkqubo yeprojekti ibe namandla ngakumbi kwaye ukujikeleza kuzinzile.
5. Ukhuseleko oluthembekileyo lokhuseleko
Ihinge yocango olukhethekileyo kumatshini inokuthwala uxinzelelo lwe-0.5Mpa.I-STMC isebenzisa isiphatho socango esikhethekileyo esingeniswe ngaphandle sisuka eJapan kuzo zonke iimodeli zoomatshini be-cryogenic deflashing abanganeli nje ukwenza lula ukuvulwa kwegumbi kodwa bakhuseleke ngakumbi kwaye banciphise ukusetyenziswa kwenitrogen engamanzi.
6. Amacandelo angundoqo oqwalaselo oluphezulu
Amacandelo angundoqo angagqibekanga angeniswa esuka eJapan anentsebenzo engcono kunye nomgangatho, angatshintshwa ukuba ulungelelwaniso lwesiJamani lukhethwayo, kubandakanywa iimoto ze-Siemens (ukhetho), i-frequency converter, i-PLC kunye nesikrini sokuchukumisa.
7. Ulawulo lomgangatho
Ulawulo lomgangatho we-ISO9000, ngaphezulu kwe-800 yohlolo olungenayo, uhlolo oludityanisiweyo lwe-30, kunye nokuhlolwa kokuhanjiswa kwe-25.
8. Inkonzo epheleleyo
Uvavanyo lokuthengisa kwangaphambili lwasimahla kunye nokubonelela ngengxelo yovavanyo (kubandakanya iingcebiso zohlengahlengiso lokubumba), bonelela ngesona sisombululo silungileyo sobugcisa, unyaka we-1 (ukuya kwiiyure ezingama-2000) iwaranti, iinxalenye ezisecaleni ziqinisekisa ukubonelela iminyaka eyi-10, impendulo ekude kwiiyure ezi-2, iiyure ezingama-48. kwisiza, amabuyelo ama-4 ngonyaka.