I-DXB Series High Efficiency Motor Air Cooler
1. Ukuvikela imvelo, ukongiwa kwamandla, ukunakekelwa kalula kanye nezindleko eziphansi zokusebenza.
2. Isakhiwo esihlangene, indawo enkulu yokushisa ukushisa kanye nokusebenza kahle kokushintshaniswa kokushisa.
3. Impilo ende yokusebenza, umfutho ophakeme wokusebenza, ukupholisa ukubuya kukawoyela, ukuphuma kukawoyela kanye ne-loop ezimele ye-hydraulic system.ukupholisa iluphu nokupholisa okuzimele.
4. Kulula ukuyisebenzisa, ukufakwa okulula, izinga lokuhluleka eliphansi.
5. Ukuphepha.Amanzi namafutha ngeke kuxutshwe futhi kulimaza uhlelo uma sekuqhume, ngokungafani nesipholile samanzi.
6. Izinga lokushisa elifanele loketshezi: 10°C~ 130°C, lifanele izinga lokushisa lendawo: -40°C ~ -100°C.
I-cooler, ngenqubo ye-vacuum brazing, ishayela ngezinjini ezisezingeni eliphezulu ezisezingeni eliphezulu kanye nama-fan blades anamandla aphezulu ukuze kutholwe umphumela wokupholisa ozinzile.
· I-asynchronous motor enezigaba ezintathu: ukujikeleza okukhulu, ukuzinza okuhle, umsebenzi oqhubekayo amahora angama-24.
· I-Aluminium Eqinisiwe, Ubuchwepheshe Be-Vacuum Brazing.
· Ukushisa Okusheshayo.
· Imimoya enamandla.
· Ukuphepha Emsebenzini.
· Ayihambisani nemvelo futhi yonga amandla.
· Umsindo Ophansi.
· I-casing eqinile, ukwelashwa kokufafaza, ubuciko obuhle, akulula ukugqwala.
· Izilawuli lokushisa zingafakwa.
· Amafomu ahlukahlukene okuvikela ingcindezi angakhethwa.
· I-oyili ne-outlet ye-cooler kuyintambo evamile ye-G, futhi ingenziwa ngendlela oyifisayo noma ixhunywe ne-SAE flange njengoba kudingeka.
Ukuqinisekiswa Kwekhwalithi, Ukufakwa Okulula, Iwaranti Yonyaka owodwa
Ungagqwali ama-alloys e-aluminium:
① Uwoyela weHydraulic
② amafutha okugcoba
③ Uketshezi lwamanzi noluncibilika emanzini...
Izingxube Zamanzi NeGlycol, sicela usithinte.
| Imodeli | I-DXB-3 | I-DXB-4 | I-DXB-5 | I-DXB-6 | I-DXB-7 | I-DXB-8 | I-DXB-9 | I-DXB-10 | I-DXB-11 | I-DXB-12 | I-DXB-13 | I-DXB-14 | I-DXB-15 |
| Amandla Okupholisa* (KW) | 12 | 18 | 25 | 35 | 50 | 65 | 80 | 100 | 120 | 140 | 170 | 220 | 260 |
| Ukugeleza okulinganiselwe (L/min) | 100 | 150 | 200 | 250 | 300 | 350 | 400 | 500 | 600 | 700 | 800 | 900 | 1000 |
| Ingcindezi Yokusebenza (ibha) | 20 | 20 | 20 | 20 | 20 | 20 | 20 | 20 | 20 | 20 | 20 | 20 | 20 |
| Amandla Abalandeli (KW) | 0.55 | 0.75 | 1.1 | 1.5 | 1.5 | 2.2 | 3 | 3 | 4 | 2*2.2 | 2*3 | 2*3 | 2*4 |
| I-Inlet&Outlet Thread | G1" | G1¼" | G1¼" | G1¼" | G1¼" | G1¼" | G1½" | G1½" | G1½" | G2" | G2" | G2" | G2" |
| Intambo ye-Thermometric | G3/8" | G3/8" | G3/8" | G3/8" | G3/8" | G3/8" | G3/8" | G3/8" | G3/8" | G3/8" | G3/8" | G3/8" | G3/8" |
| Izinga Lomsindo** (dB) | 62 | 66 | 68 | 75 | 77 | 80 | 83 | 87 | 92 | 85 | 86 | 92 | 98 |
| A (mm±2) | 427 | 532 | 587 | 632 | 632 | 752 | 837 | 972 | 1082 | 1442 | 1642 | 1842 | 2047 |
| B (mm±2) | 503 | 563 | 603 | 623 | 623 | 763 | 919 | 1059 | 1208 | 763 | 913 | 1043 | 1193 |
| C (mm±2) | 350 | 350 | 350 | 450 | 450 | 450 | 500 | 600 | 600 | 450 | 500 | 600 | 600 |
| D (mm±2) | 290 | 390 | 450 | 490 | 490 | 560 | 645 | 700 | 700 | 560 | 645 | 700 | 800 |
| E (mm±2) | 310 | 310 | 310 | 400 | 400 | 400 | 450 | 550 | 550 | 400 | 450 | 550 | 550 |
| F (mm±5) | 384 | 434 | 475 | 495 | 495 | 634 | 780 | 920 | 1070 | 600 | 760 | 900 | 1050 |
| G (mm±5) | 50 | 55 | 55 | 55 | 55 | 55 | 60 | 60 | 60 | 75 | 70 | 65 | 65 |
| K (mm±10) | 496 | 530 | 535 | 611 | 631 | 656 | 686 | 686 | 713 | 706 | 706 | 706 | 713 |
| L (mm±2) | 40 | 40 | 40 | 45 | 45 | 45 | 55 | 55 | 55 | 45 | 55 | 55 | 55 |
| M (mm±2) | 12*18 | 12*18 | 12*18 | 12*18 | 12*18 | 14*22 | 14*22 | 18*25 | 18*25 | 14*22 | 14*22 | 18*25 | 18*25 |
| W1 | 180 | 200 | 220 | 250 | 280 | 320 | 380 | 400 | 500 | 320 | 380 | 400 | 500 |
| W2 | 380 | 400 | 450 | 500 | 550 | 650 | 750 | 800 | 1000 | 650 | 750 | 800 | 1000 |
| Qaphela: * Umthamo wokupholisa: amandla okupholisa ku-△T=40℃. ** Inani lomsindo likalwa ebangeni elingu-1m ukusuka endaweni epholile, okungeyereferensi kuphela. Ngoba kuthintwa indawo ezungezile, i-viscosity ephakathi kanye nokucabangela. *** Leli thebula lithatha kuphela i-AC380V-50HZ njengesibonelo. **** Inkomba yokusebenza kahle kwamandla:YE2;Izinga lokuvikelwa kwezimoto: IP55;Isigaba se-insulation: F. (Ezinye izinketho sicela uthinte i-DONGXU) | |||||||||||||
Isekhethi yesistimu yeHydraulic, isekethe yokupholisa ezimele kanye nesistimu yokupholisa uwoyela wokugcoba.
Isibonelo, amathuluzi omshini, imishini yezimayini, imishini ye-hydraulic, isiteshi sikagesi, okokusebenza kwamandla omoya, nokunye.
Amathuluzi omshini
Imishini yeHydraulic
Imishini yokwakha
Isiteshi sikagesi
Isisetshenziswa samandla omoya
| I-DXB | 8 | A3 | 5 | N | C | X | O | O |
| Uhlobo Lokupholisa: I-Motor Drive Series esebenza kahle | Usayizi Wepuleti: 3/4/5/6/7/8/9/10/11/12/13/14/15 | Amandla kagesi: A3=AC380V⬅Okujwayelekile I-A4=AC440V I-A5=AC660V | Imvamisa: 5=50Hz⬅Okujwayelekile 6=60Hz | I-Bypass Valve: N=Yakha ngaphakathi⬅Okujwayelekile W=Okwangaphandle M=Ngaphandle kweValve yokudlula | I-Oil Hole Direction: C=Uhlangothi olungaphandle⬅Okujwayelekile S=Phuma phezulu | Isikhombisi-ndlela somoya: X=Suction⬅Standard C=Ukufutha | Temp.Isilawuli: O=Ngaphandle kwesilawuli⬅Okujwayelekile T=Temp.Ukushintsha--Isikhathi Sesenzo.: T50=50℃,T60=60℃,T70=70℃ C=Temp.I-Transmitter-- C1=Okuhlangene,C2=Idijithali | Ukuvikelwa kwe-Heatsink: O=Ngaphandle kokuvikela⬅Okujwayelekile S=Anti-Stone inethi |
Ama-coolers e-Dongxu afakwe izinhlobo ezahlukahlukene zamasekethe e-bypass ukuvikela umongo opholile ekulimaleni.
A. Pressure Bypass Circuit
Umjikelezo we-bypass we-pressure uhlukaniswe waba yiziyingi ze-bypass eyakhelwe ngaphakathi nangaphandle, futhi ukucindezela kokuvula kwe-valve ye-bypass kusethelwe ku-5bar.
Uma ingcindezi yoketshezi ngaphakathi kwepholile ingaphansi noma ilingana no-5bar, ivalve yokudlula iyavalwa, bese uketshezi luzungeza lubuyele ethangini ngephaseji yangaphakathi yesipholile.
Lapho ukucindezela koketshezi olungena endaweni epholile kungaphezu noma kulingana nebha engu-5, i-valve ye-bypass iyavulwa, futhi uketshezi aludluli ngendlela yangaphakathi ye-cooler, kodwa lubuyela ngqo ku-fuel tank ngokusebenzisa i-bypass circuit.
Ngale ndlela, umonakalo ku-cooler obangelwa ingcindezi yangemuva eyenziwe ukucindezela kokushaqeka nokugeleza ngokweqile kuyagwenywa noma kuncishiswe.
B. I-Temperature Control Bypass Circuit
Izinga lokushisa elisebenzayo le-valve yokulawula izinga lokushisa le-bypass circuit lokushisa ngu-40C °, okungukuthi:
- Uma izinga lokushisa lamafutha liyi-≤40C °, i-valve yokulawula izinga lokushisa ivuliwe, uwoyela awudluli ku-cooler, futhi isifunda se-bypass sibuyela ngqo ku-tank yamafutha.
Lokhu kugwema ukulimala ezingxenyeni zesistimu epholile ngenxa yokucindezela okukhulu emuva emazingeni okushisa aphansi.
- Uma izinga lokushisa likawoyela li>40C°, ukuvuleka kwevalvu yokulawula izinga lokushisa kancane kancane kuba kuncane.Ngalesi sikhathi, ingxenye yoketshezi idlula endaweni epholile, futhi ingxenye yoketshezi ibuyela ngqo ethangini likawoyela.
- Uma izinga lokushisa likawoyela lingaphezu kuka-60C°, ivalvu yokulawula izinga lokushisa ivaleka ngokuphelele, futhi lonke uketshezi lupholiswa ngesipholile.Le sekhethi ye-bypass ifanele isekethe yesistimu evame ukuqaliswa ezingeni lokushisa eliphansi.
Kuhlelo lokugcoba, ngenxa ye-viscosity ephezulu yamafutha ekushiseni okuphansi, ukucindezela okuthile okungemuva kuzokwenziwa lapho kudlula endaweni epholile.
Lokhu kuzokwandisa umthwalo wesistimu futhi kubangele umonakalo othile ezingxenyeni ezipholile kanye nesistimu, ngakho-ke kunconywa ukusebenzisa i-bypass circuit elawulwa izinga lokushisa ohlelweni olunjalo.
