A: Ewe, singabavelisi beebhetri abangochwephesha kwiPhondo laseGuangdong, eTshayina. Kwaye sizivelisela iipleyiti.
A: ISO 9001, ISO 14001, OHSAS 18001, CE, UL, IEC 61427, IEC 6096 ingxelo yovavanyo, Ilungelo lomenzi wechiza lobuchwephesha bejeli kunye nezinye imbeko zaseTshayina.
A: Ewe,Uphawu lwe-OEM lukhululekile
A: Ewe, imodeli nganye ifikelela kwi-200PCS, yenza ngokwezifiso umbala wetyala ngokukhululekileyo
A: Malunga neentsuku ezisi-7 zeemveliso zesitokhwe, malunga neentsuku ezingama-25-35 ze-odolo enkulu kunye neemveliso zesikhongozeli ezipheleleyo ezingama-20ft.
A: Sisebenzisa inkqubo yomgangatho ye-ISO 9001 ukulawula umgangatho. Sinecandelo loLawulo loMgangatho oluNgenayo (IQC) ukuvavanya nokuqinisekisa ukuba izinto eziluhlaza ziyahlangabezana neemfuno zokuvelisa ezikumgangatho ophezulu, icandelo loLawulo loMgangatho weMveliso (PQC) liqulathe uHlolo lokuqala, ulawulo lomgangatho olusebenzayo, uhlolo lokwamkelwa kunye nokuhlolwa okupheleleyo, icandelo loLawulo loMgangatho oluPhumayo (OQC) liqinisekisa ukuba akukho bhetri zinesiphene eziphumayo kumzi-mveliso.
A: Ewe, iibhetri zethu zingaziswa ngolwandle nangomoya. Sine-MSDS, ingxelo yovavanyo lokuthuthwa okukhuselekileyo njengeemveliso ezingengobungozi.
A: Kuxhomekeke kumthamo webhetri, ubunzulu bokukhupha, kunye nokusetyenziswa kwebhetri. Nceda unxibelelane nathi ukuze ufumane ulwazi oluchanekileyo olusekelwe kwiimfuno ezineenkcukacha.
Usenokuba ukhe weva kusithiwa "udinga itshaja yezigaba ezi-3". Sele sikutshilo, kwaye siza kuphinda sikutsho. Uhlobo lwetshaja olungcono onokulusebenzisa kwibhetri yakho yitshaja yezigaba ezi-3. Zikwabizwa ngokuba "ziitshaja ezikrelekrele" okanye "iitshaja ezilawulwa yi-micro processor". Ngokwenyani, ezi ntlobo zeetshaja zikhuselekile, kulula ukuzisebenzisa, kwaye aziyi kutshaja ibhetri yakho ngaphezulu. Phantse zonke iitshaja esizithengisayo ziitshaja zezigaba ezi-3. Kulungile, ngoko ke kunzima ukukhanyela ukuba iitshaja zezigaba ezi-3 ziyasebenza kwaye zisebenza kakuhle. Kodwa nanku umbuzo oxabisa izigidi zeerandi: Zeziphi izigaba ezi-3? Yintoni eyenza ezi tshaja zahluke kwaye zisebenze kakuhle? Ngaba zifanelekile ngokwenene? Masifumanise ngokudlula kwinqanaba ngalinye, ngalinye ngalinye:
Inqanaba 1 | Intlawulo enkulu
Injongo ephambili yetshaja yebhetri kukuphinda itshaje ibhetri. Eli nqanaba lokuqala lidla ngokuba apho i-voltage ephezulu kunye ne-amperage itshaja elinganiswe ngayo ziya kusetyenziswa khona. Inqanaba letshaja elinokusetyenziswa ngaphandle kokutshisa ibhetri laziwa ngokuba yi-natural absorption rate yebhetri. Kwibhetri eqhelekileyo ye-12 volt AGM, i-charging voltage engena kwibhetri iya kufikelela kwi-14.6-14.8 volts, ngelixa iibhetri ezigcwele amanzi zinokuba phezulu nangakumbi. Kwibhetri yejeli, i-voltage akufuneki ibe ngaphezulu kwe-14.2-14.3 volts. Ukuba itshaja yitshaja ye-10 amp, kwaye ukuba ukumelana nebhetri kuyakuvumela, itshaja iya kukhupha i-10 amps epheleleyo. Eli nqanaba liya kuphinda itshaje iibhetri ezikhutshiweyo kakhulu. Akukho mngcipheko wokutshaja kakhulu kweli nqanaba kuba ibhetri ayikafiki ekuzaliseni.
Inqanaba lesi-2 | Intlawulo yokufunxa
Iitshaja ezikrelekrele ziya kubona i-voltage kunye nokuxhathisa kwibhetri ngaphambi kokuba itshaje. Emva kokufunda ibhetri, itshaja igqiba ukuba yeyiphi inqanaba ekufuneka itshaje ngalo ngokufanelekileyo. Nje ukuba ibhetri ifikelele kwi-80%* imeko yokutshaja, itshaja iya kungena kwinqanaba lokufunxa. Kule ndawo uninzi lweetshaja luya kugcina i-voltage izinzile, ngelixa i-amperage iyehla. Umbane ophantsi ongena kwibhetri unyusa ngokukhuselekileyo itshaja kwibhetri ngaphandle kokuyitshisa kakhulu.
Eli nqanaba lithatha ixesha elingaphezulu. Umzekelo, i-20% yokugqibela yebhetri ithatha ixesha elide kakhulu xa ithelekiswa ne-20% yokuqala ngexesha lesigaba sobuninzi. Umbane uyaqhubeka nokwehla ide ibhetri ifikelele kumthamo opheleleyo.
*Imeko yokwenyani yokutshaja Inqanaba lokufunxa eliza kungena liya kwahluka kwitshaja nganye
Inqanaba lesi-3 | Intlawulo yokudada
Ezinye iitshaja zingena kwimo yokutshaja xa sele zifikelele kwi-85% yesimo sokutshaja kodwa ezinye ziqala zisondele kwi-95%. Nokuba yeyiphi na indlela, isigaba sokutshaja sizisa ibhetri yonke indlela kwaye sigcina imeko yokutshaja eyi-100%. I-voltage iya kuncipha kwaye ihlale ikwi-13.2-13.4 volts engaguqukiyo, eyii-voltage ephezulu enokubanjwa yibhetri ye-12 volt. Umbane uya kuncipha ufikelele kwinqanaba apho uthathwa njenge-trickle. Kulapho igama elithi "trickle charger" livela khona. Ngokusisiseko linqanaba lokudada apho kukho itshaja engena ebhetrini ngamaxesha onke, kodwa kuphela ngesantya esikhuselekileyo ukuqinisekisa imeko epheleleyo yokudada kwaye akukho nto ingaphezulu. Uninzi lweetshaja ezikrelekrele azicimi ngeli xesha, kodwa kukhuselekile ngokupheleleyo ukushiya ibhetri ikwimo yokudada kangangeenyanga ukuya kwiminyaka emininzi ngexesha.
Yeyona nto isempilweni ukuba ibhetri ibe kwi-100% yetshaja.
Sele sikutshilo ngaphambili kwaye siza kuphinda sikutsho. Uhlobo olungcono lwetshaja onokuyisebenzisa kwibhetri yiItshaja ehlakaniphileyo yesigaba esi-3Kulula ukuzisebenzisa kwaye azinaxhala. Akunyanzelekanga ukuba ukhathazeke ngokushiya itshaja kwibhetri ixesha elide. Enyanisweni, kungcono ukuba UYISHIYE ivuliwe. Xa ibhetri ingatshajwanga ngokupheleleyo, i-sulfate crystal yakheka kwiipleyiti kwaye oku kukuphanga amandla. Ukuba ushiya amandla akho eshedini ngexesha lokuphumla okanye ngexesha leeholide, nceda uqhagamshele ibhetri kwitshaja yezigaba ezi-3. Oku kuya kuqinisekisa ukuba ibhetri yakho iya kuba ilungele ukuqala nanini na.
A: Ibhetri ye-lead carbon ixhasa ukutshaja ngokukhawuleza. Ngaphandle kwebhetri ye-lead carbon, ezinye iimodeli zokutshaja ngokukhawuleza azikhuthazwa kuba ziyingozi kwibhetri.
Ngokuphathelele iibhetri zeVRLA, Nazi iingcebiso ezibalulekileyo zokulungisa kumthengi wakho okanye kumsebenzisi wokugqibela, kuba ukulungiswa rhoqo kuphela okunokunceda ekufumaneni ibhetri engaqhelekanga ngexesha lokusetyenziswa kunye nengxaki yenkqubo yolawulo, ukuze kulungiswe ixesha ukuqinisekisa ukuba izixhobo zisebenza ngokuqhubekayo nangokukhuselekileyo, kwanokwandisa ubomi bebhetri:
Ulondolozo lwemihla ngemihla:
1. Qinisekisa ukuba umphezulu webhetri womile kwaye ucocekile.
2. Qinisekisa ukuba i-terminal yocingo lwebhetri iqhagamshelwe kakuhle.
3. Qinisekisa ukuba igumbi licocekile kwaye lipholile (malunga nama-25 degrees).
4. Jonga indlela ibhetri ebonakala ngayo ukuba iqhelekile.
5. Jonga i-voltage yokutshaja ukuba iqhelekile.
Amanye amacebiso okulungisa ibhetri wamkelekile ukuba uqhagamshelane ne-CSPOWER nangaliphi na ixesha.
A:Ukukhupha ibhetri kakhulu yingxaki ebangelwa kukungabikho komthamo webhetri owaneleyo obangela ukuba iibhetri zisebenze kakhulu. Ukukhupha ibhetri kunzulu ngaphezu kwama-50% (ngokwenyani ngaphantsi kwe-12.0 Volts okanye i-1.200 Specific Gravity) kunciphisa kakhulu ubomi boMjikelo webhetri ngaphandle kokunyusa ubunzulu obusebenzisekayo bomjikelo. Ukungatshaji rhoqo okanye ukungatshaji ngokwaneleyo kunokubangela iimpawu zokukhupha ibhetri kakhulu ezibizwa ngokuba yi-SULFATION. Nangona izixhobo zokutshaja zilawula kakuhle, iimpawu zokukhupha ibhetri kakhulu zibonakaliswa njengokulahlekelwa ngumthamo webhetri kwaye ziphantsi kunomxhuzulane oqhelekileyo. I-Sulfate yenzeka xa i-sulfur evela kwi-electrolyte idibana ne-lead kwiiplate kwaye yenze i-lead-sulfate. Nje ukuba le meko ivele, iitshaja zebhetri zasemanzini aziyi kuyisusa i-sulfate eqinileyo. I-Sulfate idla ngokususwa nge-desulfation efanelekileyo okanye i-equalization charge ngeetshaja zebhetri zangaphandle. Ukuze kufezwe lo msebenzi, iibhetri zeplate ezikhukuliswe ngamanzi kufuneka zitshajiswe kwi-6 ukuya kwi-10 amps. kwi-2.4 ukuya kwi-2.5 volts kwiseli nganye de zonke iiseli zikhuphe igesi ngokukhululekileyo kwaye umxhuzulane wazo othile ubuyele kuxinzelelo lwazo olupheleleyo lwe-charge. Iibhetri ze-AGM ezivaliweyo kufuneka zisiwe kwi-2.35 volts ngeseli nganye zize zikhutshwe kwi-1.75 volts ngeseli nganye, emva koko le nkqubo mayiphindwe ide ibuyele kwibhetri. Iibhetri zejeli zisenokungaphindi zisebenze. Kwiimeko ezininzi, ibhetri inokubuyiselwa ukuze igqibezele ubomi bayo benkonzo.
UKUTSHAYA Ii-Alternators kunye neetshaja zebhetri ezidadayo kuquka neetshaja ze-photo voltaic ezilawulwayo zineendlela zokulawula ezizenzekelayo ezinciphisa izinga lokutshaja njengoko iibhetri zifika ekutshajeni. Kufuneka kuqatshelwe ukuba ukwehla ukuya kwii-ampere ezimbalwa ngelixa utshaja akuthethi ukuba iibhetri zitshajiwe ngokupheleleyo. Iitshaja zebhetri zeentlobo ezintathu. Kukho uhlobo lwesandla, uhlobo lwe-trickle, kunye nohlobo lwe-automatic switcher.
Njengebhetri ye-UPS VRLA, ibhetri ikwimeko yokutshaja okudadayo, kodwa utshintsho lwamandla oluyinkimbinkimbi lusasebenza ngaphakathi kwebhetri. Amandla ombane ngexesha lokutshaja okudadayo atshintshele kumandla obushushu, ngoko ke cela indawo yokusebenza yebhetri kufuneka ibe namandla okukhulula ubushushu okanye i-air conditioner elungileyo.
Ibhetri yeVRLA mayifakwe kwindawo ecocekileyo, epholileyo, enomoya opholileyo neyomileyo, kuphephe ukuchaphazeleka lilanga, ubushushu obugqithisileyo okanye ubushushu obukhanyayo.
Ibhetri yeVRLA kufuneka itshajwe kubushushu obuphakathi kwe-5 ukuya kwi-35 degrees. Ubomi bebhetri buya kufutshane xa ubushushu bungaphantsi kwe-5 degrees okanye ngaphezulu kwe-35 degrees. I-voltage yokutshaja ayinakudlula uluhlu lwesicelo, kungenjalo, iya kukhokelela ekonakaleni kwebhetri, ubomi bufutshane okanye ukwehla komthamo wayo.
Nangona kukho inkqubo engqongqo yokukhetha ibhetri, emva kokusetyenziswa kwexesha elithile, ukungafani kuya kubonakala ngokucacileyo. Okwangoku, izixhobo zokutshaja azikwazi ukukhetha nokuqondanisa ibhetri ebuthathaka, ngoko ke ngumsebenzisi onokukwazi ukulawula indlela yokugcina ulungelelwaniso lomthamo webhetri. Umsebenzisi angavavanya ngcono i-OCV yebhetri nganye rhoqo okanye ngokungacwangciswanga phakathi nasemva kwexesha lokusetyenziswa kwebhetri aze atshaje ibhetri yombane ophantsi ngokwahlukeneyo, ukuze i-voltage kunye nomthamo zifane nezinye iibhetri, nto leyo enciphisa umahluko phakathi kweebhetri.
A: Ubomi bebhetri ye-lead acid evaliweyo buxhomekeke kwizinto ezininzi. Ezi ziquka ubushushu, ubunzulu kunye nesantya sokukhupha, kunye nenani leetshaja kunye nokukhupha (ezibizwa ngokuba yiimijikelo).
Yintoni umahluko phakathi kwezicelo ze-float kunye ne-cycle?
Usetyenziso oluhambayo lufuna ukuba ibhetri itshajwe rhoqo kwaye ikhutshwe ngamanye amaxesha. Iinkqubo zitshaja kwaye zikhuphe ibhetri rhoqo.
A:Ukusebenza kakuhle kokukhupha ibhetri kubhekisa kumlinganiselo wamandla okwenyani kumthamo oqhelekileyo xa ibhetri ikhupha kwi-voltage yokugqibela kwiimeko ezithile zokukhupha ibhetri. Ichaphazeleka kakhulu zizinto ezifana nesantya sokukhupha ibhetri, ubushushu bokusingqongileyo, ukumelana kwangaphakathi. Ngokubanzi, xa isantya sokukhupha siphezulu, kokukhona ukusebenza kakuhle kokukhupha ibhetri kuya kuba sezantsi; xa iqondo lobushushu liphantsi, kokukhona ukusebenza kakuhle kokukhupha ibhetri kuya kuba sezantsi.
A: Iingenelo: ixabiso eliphantsi, ixabiso leebhetri ze-lead acid yi-1/4 ~ 1/6 nje kuphela kwezinye iintlobo zeebhetri ezinotyalo-mali oluphantsi olunokuthwalwa ngabasebenzisi abaninzi.
Iingxaki: ubunzima nobukhulu, amandla aphantsi athile, ukutshaja nokukhupha itshaja ngokungqongqo.
A:Umthamo wokugcina yimizuzu ibhetri enokugcina i-voltage eluncedo phantsi kokukhutshwa kwe-25 ampere. Okukhona umlinganiselo womzuzu uphezulu, kokukhona amandla ebhetri okusebenzisa izibane, iipompo, ii-inverters, kunye ne-elektroniki ixesha elide ngaphambi kokuba kutshajwe kwakhona kuyimfuneko. Umlinganiselo woMthamo we-25 Amp. Reserve ungaphezulu kune-Amp-Hour okanye i-CCA njengomlinganiselo womthamo wenkonzo yomjikelo onzulu. Iibhetri ezikhuthazwayo kwi-Cold Cranking Ratings zazo eziphezulu kulula kwaye azibizi kakhulu ukuzakha. Imarike igcwele zona, nangona kunjalo uMthamo wazo we-Reserve, Ubomi boMjikelo (inani lokukhutshwa kunye neetshaja ibhetri enokuzizisa) kunye nobomi benkonzo buphantsi. Umthamo wokugcina kunzima kwaye kubiza kakhulu ukuwuqulunqa ube yibhetri kwaye ufuna izixhobo zeseli ezikumgangatho ophezulu.
A: Uhlobo olutsha lwebhetri evaliweyo engachithiyo yolondolozo engenazo iivalvu ezilawulwayo lusebenzisa "ii-Absorbed Glass Mats", okanye ii-AGM separators phakathi kweepleyiti. Le yi-fiber entle kakhulu ye-Boron-Silicate glass mat. Olu hlobo lweebhetri luneengenelo zonke ze-gelled, kodwa lunokuthatha ukusetyenziswa gwenxa okungakumbi. Ezi zikwabizwa ngokuba yi-"starved electrolyte". Njengeebhetri ze-Gel, i-AGM Battery ayizukuvuza i-asidi ukuba yaphukile.
A: Uyilo lwebhetri yejeli ludla ngokuguqulwa kwebhetri ye-lead acid yemoto okanye yolwandle. I-gelling agent yongezwa kwi-electrolyte ukunciphisa intshukumo ngaphakathi kwebhokisi yebhetri. Iibhetri ezininzi zejeli zisebenzisa iivalvu zendlela enye endaweni yemibhobho evulekileyo, oku kunceda iigesi zangaphakathi eziqhelekileyo ukuba ziphinde zihlangane emanzini kwibhetri, nto leyo enciphisa ukuvuza kwegesi. Iibhetri "zeGel Cell" azichitheki nokuba zaphukile. Iiseli zejeli kufuneka zitshajwe ngevolthi ephantsi (C/20) kunezikhukula okanye i-AGM ukuthintela igesi engaphezulu ekonakaliseni iiseli. Ukuzitshaja ngokukhawuleza kwitshaja yemoto eqhelekileyo kunokubangela umonakalo ongunaphakade kwiBhetri yeGel.
A:Uvavanyo lwebhetri oluqhelekileyo yi-AMP-HOUR RATING. Le yiyunithi yokulinganisa umthamo webhetri, efunyanwa ngokuphindaphinda ukuhamba kwamandla kagesi kwii-ampere ngexesha kwiiyure zokukhupha. (Umzekelo: Ibhetri ekhupha ii-ampere ezi-5 iiyure ezingama-20 ikhupha ii-ampere ezi-5 ngokuphindwe ngeeyure ezingama-20, okanye ii-ampere ezili-100 iiyure.)
Abavelisi basebenzisa amaxesha ahlukeneyo okukhupha ibhetri ukuze bavelise i-Amp-Hr eyahlukileyo. Uvavanyo lweebhetri ezinomthamo ofanayo, ngoko ke, uVavanyo lwe-Amp-Hr. alunamsebenzi kangako ngaphandle kokuba luchazwe ngenani leeyure ibhetri ekhutshwa ngazo. Ngenxa yesi sizathu, uVavanyo lwe-Amp-Hour luyindlela eqhelekileyo yokuvavanya umthamo webhetri ngeenjongo zokukhetha. Umgangatho wezinto zangaphakathi kunye nolwakhiwo lobuchwephesha ngaphakathi kwebhetri kuya kuvelisa iimpawu ezahlukeneyo ezifunwayo ngaphandle kokuchaphazela uVavanyo lwe-Amp-Hour. Umzekelo, kukho iibhetri ze-Amp-Hour ezili-150 ezingayi kuxhasa umthwalo wombane ubusuku bonke kwaye ukuba kufuneka zenze njalo ngokuphindaphindiweyo, ziya kusilela kwasekuqaleni kobomi bazo. Ngokwahlukileyo koko, kukho iibhetri ze-Amp-Hour ezili-150 eziya kusebenzisa umthwalo wombane iintsuku ezininzi ngaphambi kokuba zifune ukutshajwa kwaye ziya kwenza njalo iminyaka. Uvavanyo olulandelayo kufuneka luhlolwe ukuze kuhlolwe kwaye kukhethwe ibhetri efanelekileyo kwisicelo esithile: I-COLD CRANKING AMPERAGE kunye ne-RESERVE CAPACITY ziivavanyo ezisetyenziswa lishishini ukwenza lula ukukhetha ibhetri.
A: Zonke iibhetri ze-lead acid ezivaliweyo ziyazikhupha ngokwazo. Ukuba ukulahleka komthamo ngenxa yokuzikhupha ngokwazo akuhlawulelwa ngokuziphinda zitshaje, umthamo webhetri usenokungafumaneki. Ubushushu bukwadlala indima ekumiseleni ubomi beshelufu yebhetri. Iibhetri zigcinwa kakuhle kwi-20℃. Xa iibhetri zigcinwe kwiindawo apho ubushushu obuphakathi butshintshatshintsha khona, ukuzikhupha ngokwazo kunokunyuka kakhulu. Jonga iibhetri rhoqo emva kweenyanga ezintathu okanye ngaphezulu kwaye utshaje ukuba kuyimfuneko.
A: Umthamo webhetri, kwi-Ahs, linani eliguqukayo elixhomekeke kumbane okhutshwayo. Umzekelo, ibhetri ekhutshwayo kwi-10A iya kukunika amandla angaphezu kwebhetri ekhutshwayo kwi-100A. Ngesantya seeyure ezingama-20, ibhetri iyakwazi ukuhambisa ii-Ahs ezingaphezulu kunesantya seeyure ezi-2 kuba isantya seeyure ezingama-20 sisebenzisa umbane okhutshwayo ophantsi kunesantya seeyure ezi-2.
A: Into ethintela ubomi bebhetri eshelufini kukukhawuleza kokuzikhupha, nto leyo exhomekeke kubushushu. Iibhetri zeVRLA ziya kuzikhupha ngaphantsi kwe-3% ngenyanga kwi-77° F (25° C). Iibhetri zeVRLA akufuneki zigcinwe ngaphezulu kweenyanga ezi-6 kwi-77° F (25° C) ngaphandle kokuziphinda zitshajwe. Ukuba kushushu, ziphinde zitshajwe rhoqo emva kweenyanga ezi-3. Xa iibhetri zisusiwe kwindawo yokugcina ixesha elide, kucetyiswa ukuba uziphinde zitshajwe ngaphambi kokuba uzisebenzise.
