Amandla Amasha & Amandla
Amandla ahlanzekile futhi avuselelwe abe yinkambiso yentuthuko yomhlaba wonke. Amasistimu okukhiqiza amandla elanga nomoya akhiqiza amanani amakhulu kagesi ngokuguqulelwa kwe-inverter futhi aphakele igridi yamandla, futhi inani elikhulu lamasethi ama-chip okulawula alawula ukusebenza kwezitshalo eziningi zokuqoqa amandla.uphethe uchungechunge oluphelele lokuhlinzekwa kwempahla. Ngokusebenzisa izinto ezisebenza kahle nezomnotho ezifana ne-aluminium extrusion, i-aluminium yokukhipha ukufa, kanye nemishini ye-CNC enembile, ubuchwepheshe bokuvikela ukumbozwa kwendawo okuhlala isikhathi eside, i-Ruiqifeng inganikeza osinki bamandla aphezulu ukuze bavikele ama-inverter abo nokulawula amasethi we-chip. Ngakho-ke zingasebenza ngokuzinza nangempumelelo ngokuncipha kwamandla amancane kanye nomjikelezo wempilo omude kakhulu.
Imboni Yezimoto
Ngenxa yesisindo sayo esilula, i-aluminium ifaneleka kakhulu ukukhiqiza izimoto kunezinye izinsimbi.Singakwazi ukuhlinzeka ngezinhlobonhlobo ze-aluminiyamu yezimoto engasindi futhi engagugi ukuze siqinisekise ukuphepha kwale mikhiqizo ezimotweni.
Ukwakhiwa Kwesakhiwo
Amafasitela neminyango ye-aluminium yenziwe ngamaphrofayili wokwakha i-aluminium.futhi isakhiwo sayo sefasitela sihlukaniswe iminyango namafasitela e-aluminium alloy evamile kanye neminyango namafasitela e-aluminium alloy insulated.Amafasitela e-aluminium anezici zobuhle. ukubeka uphawu namandla aphezulu. Isetshenziswa kabanzi ekwakheni. Emhlobiso wasekhaya, iminyango ye-aluminium namafasitela kuvame ukusetshenziselwa ama-balconi
Ukuxhumana Okungenantambo
Isinki sokushisa se-aluminiumiyingxenye ebalulekile yokukhipha ukushisa esetshenziswa kakhulu kubuchwepheshe bokuxhumana obungenantambo. Emishinini yokuxhumana engenantambo, izingxenye ezifana namaphrosesa wesignali angenawaya, izikhulisamandla, namamojula amafrikhwensi omsakazo azophehla ukushisa okukhulu. Uma ukushisa kungenakuqedwa ngesikhathi, kuzokwenza ukuthi okokusebenza kudlule futhi kuthinte ukusebenza nokuphila kwemishini. Ngakho-ke, amasinki okushisa e-aluminium adlala indima ebalulekile emishinini yokuxhumana engenantambo.
Okokuqala, ama-radiators e-aluminium anezakhiwo ezinhle zokushisa ezishisayo. I-Aluminium ine-thermal conductivity ephezulu futhi ingaphatha ngokushesha ukushisa kusuka endaweni yokushisa kuya phezulu kurediyetha, futhi ikhiphe ukushisa ngempumelelo endaweni ezungezile ngokusebenzisa indawo engaphezulu yerediyetha. Lokhu kuvumela usinki wokushisa we-aluminium ukuthi ususe ngokushesha ukushisa kudivayisi yezokuxhumana engenantambo, ukuvimbela idivayisi ekushiseni ngokweqile.Okwesibili, amaradiyetha e-aluminium anomklamo omuhle wokulahla ukushisa kanye nesakhiwo. Ama-radiator e-aluminium ngokuvamile asebenzisa izakhiwo eziningi ezifana namasinki okushisa nama-fins ukuze akhulise indawo yokukhipha ukushisa, futhi asebenzise amafeni noma amapayipi omoya ukuze athuthukise umphumela wokuqeda ukushisa. Lo mklamo awukwazi nje ukwandisa indawo yokushisa ukushisa, kodwa futhi uthuthukise ukujikeleza komoya futhi ukhuthaze ukuchithwa kokushisa okuphumelelayo. Ngaphezu kwalokho, amasinki okushisa e-aluminium alula futhi awakwazi ukugqwala, okuwenza alungele izidingo zemishini yokuxhumana engenantambo. Ngenxa yokuminyana okuphansi kwe-aluminium, usinki wokushisa we-aluminium awusindi nje kuphela, kodwa futhi ungahlangabezana nezidingo ezihlangene nezilula zemishini yokuxhumana engenantambo. Ngesikhathi esifanayo, ingaphezulu lama-radiator e-aluminium ngokuvamile li-oxidized noma i-anodized, okwandisa ukusebenza kwalo okulwa nokugqwala futhi kungasetshenziswa isikhathi eside ezindaweni zokusebenza ezinzima. Okokugcina, ama-radiator e-aluminium anezindleko eziphansi uma kuqhathaniswa ukuzenza futhi afanele ukukhiqizwa ngobuningi. I-Aluminium iyinsimbi evamile enezindleko eziphansi zokuthenga nokucubungula. Uma kuqhathaniswa nezinye izinto zokushisa ezisebenza kahle kakhulu, amasinki okushisa e-aluminium angathola ibhalansi enhle phakathi kokusebenza nezindleko, anikeze izixazululo ezingabizi kakhulu zokukhipha ukushisa kwemishini yokuxhumana engenantambo.
Kafushane, amasinki okushisa e-aluminium anezinhlobonhlobo zezinhlelo zokusebenza emkhakheni wezokuxhumana okungenantambo. Zihlakaza ukushisa ngokushesha nangempumelelo ukuze zigcine izinga lokushisa elivamile lokusebenza kwedivayisi, kuyilapho zingasindi, zimelana nokugqwala futhi zinezindleko eziphansi. Emishinini yokuxhumana engenantambo, osinki bokushisa be-aluminium bayingxenye ebalulekile futhi benza umnikelo obalulekile ekusebenzeni okuzinzile nempilo eyandisiwe yemishini.
Ukunikezwa kwamandla kagesi namandla
I-UPS, noma ukunikezwa kwamandla okungaphazamiseki, iyisisetshenziswa sesistimu esibalulekile esivala igebe phakathi kwebhethri nenjini eyinhloko yedivayisi noma isistimu. Umsebenzi wayo oyinhloko ukuguqula i-direct current (DC) ibe amandla kagesi ngokusebenzisa amasekhethi amamojula, njenge-inverter yenjini eyinhloko. Amasistimu e-UPS asetshenziswa kakhulu ezinhlelweni ezihlukene, okuhlanganisa ikhompuyutha eyodwa, amasistimu enethiwekhi yamakhompiyutha, nezinye izinto ezisebenza ngogesi ezifana namavalvu e-solenoid kanye nama-pressure transmitters, ukuze kuhlinzekwe ukunikezwa kwamandla okuzinzile nokungaphazamiseki. Ukubaluleka kokuphakelwa kukagesi kwe-UPS ekusebenzeni kwanamuhla angeke kubukezwe kancane. Ngokuthembela okwandayo njalo kwezobuchwepheshe, ukuphela kukagesi nokuguquguquka kungaletha izinselele ezinkulu, kuphazamise ukusebenza, futhi kulimaze amathuluzi azwelayo. Iqhaza lesistimu ye-UPS ukuqinisekisa ukuqhubeka ngokunikeza amandla ayisipele phakathi nemicimbi enjalo. Lokhu kusebenza akugcini nje ngokuvikela amasistimu abalulekile kodwa futhi kufaka isandla ekwandeni kokukhiqiza, ubuqotho bedatha, nokuvikelwa ekulahlekelweni kwezimali. Ukuze uhlelo lwe-UPS lusebenze kahle, ukuvimbela ukushisa ngokweqile kubaluleke kakhulu.
Ukushisa kukhiqizwa ngenxa yenqubo yokuguqulwa nokusebenza okuqhubekayo kwezingxenye zikagesi ngaphakathi kwesistimu. Uma kungalawulwa kahle, lokhu kushisa kungaholela ekungasebenzini kahle, ukwehluleka kwengxenye, kanye nokonakaliswa kukonke kokusebenza kwemishini. Yilapho indima ka-i-aluminium extruded heat sinkuyadlala. Amasinki okushisa e-aluminium extruded asetshenziswa kakhulu ezinhlelweni ze-UPS ukuze kube lula ukulahlwa kokushisa okusebenzayo. Inqubo ye-extrusion idala isilinganiso esiphezulu sendawo ukuya kuvolumu, okuvumela ukudluliselwa okuphumelelayo kokushisa kusuka kusistimu ye-UPS kuya endaweni ezungezile. Lawa masinki okushisa ngokuvamile anamathiselwe ezingxenyeni ezikhiqiza ukushisa okukhulu, njengama-transistors wamandla noma amanye amadivayisi anamandla amakhulu. Ngokwenza kanjalo, amasinki okushisa asebenza njengama-conductor ashisayo, abamba ukushisa okweqile futhi akuhlakaze emoyeni ozungezile. Idizayini nosayizi we-aluminium extruded heat sink idlala indima ebalulekile ekwandiseni ukunqanyulwa kokushisa. Izinto ezinjengobubanzi bamaphiko, ubude, nesikhala, kanye nendawo yonke, kufanele kubhekwe ngokucophelela ukuze kuqinisekiswe ukupholisa kahle. Ukwengeza, ukusetshenziswa kwamafeni okupholisa noma ukuguqulwa kwemvelo kungathuthukisa kakhulu inqubo yokukhipha ukushisa, ikakhulukazi ezinhlelweni zokusebenza lapho izinga lokushisa le-ambient liphezulu noma isistimu isebenza ngaphansi kwezimo zomthwalo osindayo. Ngokuhlanganisa amasinki okushisa e-aluminium extruded kumasistimu e-UPS, abakhiqizi baqinisekisa ukusebenza okuvamile nokuphila isikhathi eside kwemishini. Lezi zinkimbi zokushisa zisiza ekwehliseni izinga lokushisa lokusebenza, ukuvimbela izinkinga ezihlobene nokushisa ngokweqile, kanye nokugcina ubuqotho nokuthembeka kwesistimu ye-UPS. Ukukhipha ukushisa okusebenzayo kusiza ukugcina izingxenye zangaphakathi ngaphakathi kwamazinga azo okushisa okusebenza aphephile, ngaleyo ndlela andise ubude bazo bempilo futhi kuthuthukise ukusebenza kwesistimu iyonke.
Sengiphetha, amasistimu e-UPS adlala indima ebalulekile ekuhlinzekeni ukuphakelwa kukagesi okuqhubekayo futhi ozinzile ezinhlelweni ezihlukahlukene. Ukusabalaliswa kahle kokushisa kubalulekile ukuze kuqinisekiswe ukusebenza okuvamile nokuhlala isikhathi eside kwezinto zokusebenza. Amasinki okushisa e-Aluminium extruded asebenza njengengxenye ebalulekile ekulawuleni ukushisa okukhiqizwa amasistimu e-UPS, okuvumela ukusebenza okuphelele nokuvikelwa emonakalweni ongaba khona obangelwa ukushisa ngokweqile. Ngakho-ke, ukubaluleka kwazo akunakunakwa ekwakhiweni nasekusetshenzisweni kwezixazululo zokuphakelwa kukagesi kwe-UPS.
I-Electronic Consumer
I-heater sink idlala indima ebalulekile ekulawuleni ukushisa okukhiqizwa izinto zikagesi noma zemishini, iqinisekisa ukuthi zisebenza ngaphakathi kwemikhawulo yazo yezinga lokushisa ephephile. Kuyisishintshi sokushisa esingashintshisi esidlulisa ukushisa kusuka kudivayisi kuya endaweni ewuketshezi, njengomoya noma into epholisayo ewuketshezi, lapho ingahlakazwa khona ngempumelelo.
Kumongo wamakhompyutha, osinki bokushisa bavame ukusetshenziselwa ukupholisa amayunithi okucubungula amaphakathi (CPUs), amayunithi okucubungula ihluzo (GPUs), ama-chipset, namamojula we-RAM. Lezi zingxenye zivame ukukhiqiza inani elikhulu lokushisa ngesikhathi sokusebenza, futhi ngaphandle kokupholisa okufanele, zingashisa ngokushesha, okuholela ekonakaleni kokusebenza noma ngisho nokuhluleka kwengxenye. Idizayini nokwakhiwa kosinki wokushisa kubalulekile ukuze kukhishwe ukushisa ngendlela efanele. Amasinki amaningi okushisa asebenzisa isakhiwo esicijile esenziwe ngezinto ezihambisa ukushisa njenge-aluminium noma ithusi. Amaphiko akhulisa indawo engaphezulu yesinki wokushisa, okuvumela ukuthintana okukhulu nendawo ewuketshezi ezungezile futhi kuthuthukise ukudluliswa kokushisa. Uma idivayisi ye-elekthronikhi isebenza, ukushisa kukhiqizwa ezingeni lengxenye, njenge-CPU noma i-GPU. Ukushisa kuqhutshwa ngomzimba wedivayisi, futhi ukuvimbela ukushisa ngokweqile, kudinga ukuchithwa endaweni ezungezile. Yilapho i-heater sink ingena khona. Umshini wokushisa unamathele engxenyeni eshisayo, esebenza njengendlela yokushisa ukuze ukushisa kugeleze kusuka engxenyeni kuya endaweni yokushisa. Uma ukushisa sekudluliselwe kusinki wokushisa, kudinga ukuchithwa ngokuphumelelayo ukuze kugcinwe izinga lokushisa ledivayisi ngaphakathi kwemikhawulo ephephile. Ukupholisa komoya kuyindlela evame kakhulu, lapho usinki wokushisa uvezwa emoyeni ozungezile. Indawo enkulu yamaphiko okushisa okushisa ivumela ukuchithwa okuphumelelayo kokushisa ngokusebenzisa i-convection. Umoya ozungezile udonsa ukushisa futhi ukuhambise, upholise isinki sokushisa kanye nengxenye enamathiselwe. Kuzinhlelo zokusebenza ezidinga kakhulu noma lapho usebenza nemithwalo yokushisa ephezulu kakhulu, ukupholisa uketshezi kungasetshenziswa. Isipholile esiwuketshezi sizungeza kusinki wokushisa, sibambe ukushisa, bese sikuthwala sikuyise kurediyetha lapho singachithwa khona. Ukupholisa uketshezi kunikeza i-thermal conductivity ephezulu kunokupholisa komoya, okuvumela ukulahlwa kokushisa okuthuthukisiwe kanye namazinga okushisa okungenzeka aphansi okusebenza. Amasinki okushisa awagcini kumakhompyutha; ziphinde zisetshenziswe kakhulu kumadivayisi we-semiconductor yamandla aphezulu njengama-transistors amandla, ama-lasers, nama-LED. Lawa madivayisi akhiqiza ukushisa okuphawulekayo ngesikhathi sokusebenza, futhi ngaphandle kokuphathwa kokushisa okuphumelelayo, ukusebenza kwawo nokuthembeka kungase kube sengozini. Osinki bokushisa kulezi zinhlelo zokusebenza ngokuvamile baklama ngokwezifiso ukuze bahlangabezane nezimfuneko ezithile zokushisa zedivayisi.
Sengiphetha, amasinki okushisa ayizingxenye ezibalulekile ezinhlelweni zikagesi nezemishini, ezilawula izinga lokushisa lamadivayisi ngokudlulisa kahle nokukhipha ukushisa. Kungakhathaliseki ukuthi kumakhompuyutha, ama-power transistors, noma ama-optoelectronics, osinki bokushisa badlala indima ebalulekile ekugcineni ukusebenza kwedivayisi, ukuvimbela ukushisa ngokweqile, kanye nokuqinisekisa ubude besikhathi nokuthembeka kwezingxenye.
