Wim System Control Imiyalelo

Wim System Control Instructions

Inkcazelo emfutshane:


Iinkcukacha zeMveliso

Iithegi zeMveliso

System Overview

Inkqubo yokulinganisa i-quartz ye-Enviko eguquguqukayo iyamkelwa Windows 7 inkqubo yokusebenza edibeneyo, iPC104 + ibhasi eyandisiweyo kunye nemigangatho yeqondo lobushushu elibanzi.Inkqubo iqulunqwe ikakhulu ngumlawuli, i-amplifier yentlawulo kunye nomlawuli we-IO.Inkqubo iqokelela idatha ye-dynamic weighing sensor (i-quartz kunye ne-piezoelectric), i-coil sensor yomhlaba (i-laser ephela detector), i-axle identifier kunye ne-sensor yeqondo lokushisa, kwaye iqhubekisela phambili kulwazi olupheleleyo lwesithuthi kunye nolwazi lokulinganisa, kubandakanywa uhlobo lwe-axle, inombolo ye-axle, i-wheelbase, isondo. inani, ubunzima be-asi ye-asi, ubunzima beqela le-asi, ubunzima bubonke, isantya sokubaleka, isantya, ubushushu, njl. njl. Ixhasa isichongi sodidi lwesithuthi sangaphandle kunye nesazisi se-asi, kunye nenkqubo ngokuzenzekelayo ihambelanisa ukwenza ulwazi olupheleleyo lwesithuthi sokulayisha okanye ukugcinwa nohlobo lwesithuthi. ukuchongwa.

Inkqubo ixhasa iindlela ezininzi zoluvo.Inani leenzwa kumzila ngamnye unokumiselwa ukusuka kwi-2 ukuya kwi-16. I-amplifier yentlawulo kwinkqubo isekela iinzwa zangaphandle, zasekhaya kunye ne-hybrid.Inkqubo isekela i-IO mode okanye imowudi yenethiwekhi yokuqalisa umsebenzi wokubamba ikhamera, kwaye inkqubo isekela ukulawulwa kwemveliso yokubamba ngaphambili, ngaphambili, umsila kunye nomsila wokubamba.

Inkqubo inomsebenzi wokubona imeko, inkqubo inokubona imeko yezixhobo eziphambili ngexesha langempela, kwaye inokulungisa ngokuzenzekelayo kwaye ilayishe ulwazi kwimeko engaqhelekanga;inkqubo inomsebenzi we-cache yedatha ngokuzenzekelayo, enokugcina idatha yezithuthi ezifunyenwe malunga nesiqingatha sonyaka;inkqubo inomsebenzi wokubeka iliso kude, Inkxaso yedesktop ekude, iRadmin kunye nokunye ukusebenza okude, ukuxhasa ukusetwa kwakhona kwamandla okude;inkqubo isebenzisa iindlela ezahlukeneyo zokukhusela, kubandakanywa inkxaso ye-WDT yamanqanaba amathathu, ukhuseleko lwenkqubo ye-FBWF, inkqubo yokuphilisa isofthiwe ye-antivirus, njl.

Iiparamitha zobugcisa

amandla I-AC220V 50Hz
uluhlu lwesantya 0.5km/h100km/h
icandelo lentengiso d =50kg
ukunyamezela i-axle ± 10% isantya esingaguqukiyo
inqanaba lokuchaneka kwesithuthi Iklasi ye-5, iklasi ye-10, iklasi ye-2(0.5km/h20km/h
Ukuchaneka kokwahlulwa kwemoto ≥99%
Izinga lokuqatshelwa kwemoto ≥98%
uluhlu lomthwalo we-asi 0.5t40t
Indlela yokuqhuba Iindlela ezi-5
Umjelo woluvo Amajelo angama-32, okanye ukuya kumatshaneli angama-64
Uyilo lwenzwa Inkxaso yeendlela ezininzi zokubeka isivamvo, indlela nganye njenge-2pcs okanye i-16pcs sensor yokuthunyelwa, ukuxhasa iintlobo ezahlukeneyo zoxinzelelo.
Isixhobo sekhamera I-16channel YENZA imveliso ephumayo yodwa ibangela okanye imowudi yokuqalisa inethiwekhi
Ukuphelisa ukubhaqwa I-16channel DI igalelo lokuzihlukanisa lidibanisa isignali yekhoyili, imowudi yokufumanisa i-laser okanye imodi yokuphela kwe-auto.
Isoftware yenkqubo Embedded WIN7 inkqubo yokusebenza
Ukufikelela kwisazisi se-asi Xhasa iintlobo ngeentlobo zesixhobo sokubona i-axle yamavili (i-quartz, i-infrared photoelectric, eqhelekileyo) ukwenza ulwazi olupheleleyo lwesithuthi
Ukufikelela kwisazisi sohlobo lwemoto ixhasa inkqubo yokuchonga uhlobo lwesithuthi kwaye yenze ulwazi olupheleleyo lwesithuthi kunye nedatha yobude, ububanzi kunye nobude.
Xhasa ukufunyanwa kweendlela ezimbini Inkxaso phambili kunye nokubuyisela umva ukufunyanwa kwe-bidirectional.
Ujongano lwesixhobo Ujongano lweVGA, ujongano lwenethiwekhi, ujongano lwe-USB, RS232, njl
Ukufunyanwa nokubekwa kweliso karhulumente Ukufunyanwa kwesimo: inkqubo ibona imeko yezixhobo eziphambili ngexesha langempela, kwaye inokulungisa ngokuzenzekelayo kwaye ilayishe ulwazi kwimeko yeemeko ezingaqhelekanga.
  Ukubekwa esweni okude: inkxaso yedesktop ekude, iRadmin kunye neminye imisebenzi ekude, ixhasa ukusetwa kwakhona kombane okude.
Ukugcinwa kwedatha Ubushushu obubanzi besimo esiqinileyo sediski enzima, inkxaso yokugcina idatha, ukugawulwa kwemithi, njl.
Ukhuseleko lwenkqubo Inkxaso yenqanaba le-WDT emithathu, ukhuseleko lwenkqubo ye-FBWF, inkqubo yokunyanga isoftware ye-antivirus.
Ubume behardware yenkqubo Uyilo olubanzi lobushushu boshishino
Inkqubo yokulawula ubushushu Isixhobo sinenkqubo yaso yokulawula ubushushu, esinokubeka iliso kwimeko yobushushu besixhobo ngexesha lokwenyani kwaye silawule ngamandla ukuqala kwefeni kunye nokuyeka kwekhabhinethi.
Sebenzisa okusingqongileyo (uyilo olubanzi lobushushu) Ubushushu benkonzo: - 40 ~ 85 ℃
  Ukufuma okuhambelanayo: ≤ 85% RH
  Ixesha lokufudumala: ≤ 1 umzuzu

Ujongano lwesixhobo

WIM SYSTEM CONTROL INSTRUCTIONS (7)

1.2.1 uqhagamshelo lwezixhobo zenkqubo
Isixhobo senkqubo ikakhulu siqulunqwe sisilawuli senkqubo, iamplifier yentlawulo kunye ne-IO input / output controller

product (1)

1.2.2 ujongano lomlawuli wenkqubo
Umlawuli wenkqubo unokudibanisa ii-amplifiers ze-3 zentlawulo kunye nomlawuli we-IO we-1, kunye ne-3 rs232 / rs465, i-4 USB kunye ne-interface ye-1 yenethiwekhi.

product (3)

1.2.1 ujongano lweamplifier
I-amplifier yentlawulo isekela i-4, i-8, i-12 iziteshi (ukhetho) igalelo loluvo, i-DB15 ye-interface output, kunye nombane osebenzayo yi-DC12V.

product (2)

1.2.1 Ujongano lomlawuli we-I / O
I-IO yegalelo kunye nomlawuli wemveliso, kunye ne-16 igalelo elilodwa, i-16 imveliso yodwa, i-DB37 ye-interface yemveliso, i-Working Voltage DC12V.

uyilo lwenkqubo

2.1 uyilo loluvo
Ixhasa iindlela ezininzi zokuhlela i-sensor ezifana ne-2, i-4, i-6, i-8 kunye ne-10 ngomzila ngamnye, isekela ukuya kwii-lanes ezi-5, i-32 ye-sensor inputs (enokwandiswa ukuya kwi-64), kwaye ixhasa phambili kwaye iguqule iindlela zokufumanisa iindlela ezimbini.

WIM SYSTEM CONTROL INSTRUCTIONS (9)
WIM SYSTEM CONTROL INSTRUCTIONS (13)

Uqhagamshelwano lolawulo lwe-DI

Iziteshi ze-16 ze-DI ezizimeleyo zegalelo, ukuxhasa umlawuli we-coil, i-laser detector kunye nezinye izixhobo zokugqiba, ukuxhasa i-Di mode njenge-optocoupler okanye i-relay input.Izalathiso zangaphambili nezingasemva zomzila ngamnye zabelana ngesixhobo esinye sokuphela, kwaye ujongano luchazwa ngolu hlobo lulandelayo;

Indlela yokuphela     Inombolo yezibuko lojongano lwe-DI            Phawula
  Hayi indlela enye (phambili, umva)    1+,1- Ukuba isixhobo sokulawula isiphelo sisiphumo se-optocoupler, isignali yesixhobo sokuphela kufuneka ihambelane ne- + kunye ne-imiqondiso yesilawuli se-IO nganye nganye.
   Akukho mzila 2(phambili, umva)    2+,2-  
  Akukho mzila we-3 (phambili, umva)    3+,3-  
   Hayi indlela 4(phambili, umva)    4+,4-  
  Akukho mzila we-5 (phambili, umva)    5+,5-

YENZA uxhulumaniso lolawulo

I-channel ye-16 yenza imveliso eyedwa, esetyenziselwa ukulawula i-trigger control yekhamera, inqanaba lokuxhasa inqanaba kunye nemowudi yokuwa.Inkqubo ngokwayo ixhasa imo yangaphambili kunye nemo yokubuya umva.Emva kokuba isiphelo sokulawula i-trigger yemodi yangaphambili iqwalaselwe, imowudi ye-reverse ayifuni ukulungiswa, kwaye inkqubo iyatshintsha ngokuzenzekelayo.I-interface ichazwa ngolu hlobo lulandelayo:

Inombolo yendlela  Ukuxhobisa phambili Ukucupha umsila Icala lecala lokuxhobisa Umsila kwicala lendlela yokuqalisa           Phawula
Akukho lane enye (phambili) 1+,1- 6+,6-  11+,11- 12+,12- Isiphelo sokulawula i-trigger yekhamera sine- + - isiphelo.Isiphelo sokulawula i-trigger yekhamera kunye ne- + - isignali yomlawuli we-IO kufuneka ihambelane nganye nganye.
No2 lane(phambili) 2+,2- 7+,7-      
No3 lane(phambili) 3+,3- 8+,8-      
No4 lane(phambili) 4+,4- 9+,9-      
No5 lane(phambili) 5+,5- 10+,10-      
Akukho ndlela enye(umva) 6+,6- 1+,1- 12+,12- 11+,11-

isikhokelo sokusetyenziswa kwenkqubo

3.1 Eyokuqala
Ukulungiselela phambi kokusetwa kwesixhobo.
3.1.1 iseti iRadmin
1) Khangela ukuba i-server ye-Radmin ifakwe kwisixhobo (inkqubo yesixhobo sefektri).Ukuba ilahlekile, nceda uyifake
WIM SYSTEM CONTROL INSTRUCTIONS (1)
2) Seta iRadmin, yongeza iakhawunti kunye negama lokugqitha
WIM SYSTEM CONTROL INSTRUCTIONS (4)
WIM SYSTEM CONTROL INSTRUCTIONS (48)WIM SYSTEM CONTROL INSTRUCTIONS (47)WIM SYSTEM CONTROL INSTRUCTIONS (8)
3.1.2 ukhuseleko lwediski yenkqubo
1) Ukuqhuba umyalelo we-CMD ukungena kwindawo ye-DOS.
WIM SYSTEM CONTROL INSTRUCTIONS (11)
2)Buza ubume bokhuseleko lwe-EWF (uhlobo lwe-EWFMGR C: ngenisa)
(1)Ngeli xesha, umsebenzi wokhuseleko we-EWF uvuliwe(Ilizwe = YENZA)
WIM SYSTEM CONTROL INSTRUCTIONS (44)
(Uhlobo lwe-EWFMGR c: -communanddisable -live enter), kwaye urhulumente ukhubazekile ukubonisa ukuba ukhuseleko lwe-EWF lucimile.
(2)Ngeli xesha, umsebenzi wokukhusela i-EWF uvala (umbuso = ukukhubaza), akukho msebenzi olandelayo ofunekayo.
WIM SYSTEM CONTROL INSTRUCTIONS (10)
(3) Emva kokutshintsha izicwangciso zesistim, seta i-EWF ukuba isebenze
WIM SYSTEM CONTROL INSTRUCTIONS (44)
3.1.3 Yenza indlela emfutshane yokuqalisa ngokuzenzekela
1)Yenza indlela emfutshane ukuze usebenze.
WIM SYSTEM CONTROL INSTRUCTIONS (12)WIM SYSTEM CONTROL INSTRUCTIONS (18)
WIM SYSTEM CONTROL INSTRUCTIONS (15)
WIM SYSTEM CONTROL INSTRUCTIONS (16)
WIM SYSTEM CONTROL INSTRUCTIONS (19)
WIM SYSTEM CONTROL INSTRUCTIONS (20)
WIM SYSTEM CONTROL INSTRUCTIONS (21)
WIM SYSTEM CONTROL INSTRUCTIONS (22)
WIM SYSTEM CONTROL INSTRUCTIONS (23)

3.2 Intshayelelo kujongano lwesistim
WIM SYSTEM CONTROL INSTRUCTIONS (25)

3.3 Ukusetha iparamitha yesistim
3.3.1 Ukusetwa kweparamitha yokuqala yeSistim.
(1)Ngenisa ibhokisi yencoko yababini yocwangciso lwenkqubo

WIM SYSTEM CONTROL INSTRUCTIONS (26)

(2) Ukumisela iiparamitha

WIM SYSTEM CONTROL INSTRUCTIONS (32)

a.Seta ubunzima bubonke be-coefficient njenge-100
WIM SYSTEM CONTROL INSTRUCTIONS (28)
b.Seta i-IP kunye nenombolo yezibuko
WIM SYSTEM CONTROL INSTRUCTIONS (29)
c.Seta ireyithi yesampulu kunye netshaneli
WIM SYSTEM CONTROL INSTRUCTIONS (30)
Qaphela: xa uhlaziya inkqubo, nceda ugcine ireyithi yesampulu kunye netshaneli ihambelana nenkqubo yokuqala.
d.Ukusetwa kweParameter yesivamvo esisecaleni
WIM SYSTEM CONTROL INSTRUCTIONS (39)
4. Faka useto lolungelelwaniso
WIM SYSTEM CONTROL INSTRUCTIONS (39)
WIM SYSTEM CONTROL INSTRUCTIONS (38)
5.Xa isithuthi sidlula kwindawo yenzwa ngokulinganayo (isantya esicetyiswayo yi-10 ~ 15km / h), inkqubo ivelisa iiparitha zobunzima obutsha.
6.Layisha kwakhona iiparamitha zobunzima obutsha.
(1)Ngena useto lwenkqubo.
WIM SYSTEM CONTROL INSTRUCTIONS (40)
(2)Cofa Gcina ukuphuma.WIM SYSTEM CONTROL INSTRUCTIONS (41)
5. Ukulungiswa kakuhle kweeparamitha zesistim
Ngokobunzima obuveliswa yinzwa nganye xa isithuthi esiqhelekileyo sidlula kwinkqubo, iiparitha zobunzima benzwa nganye zilungiswa ngesandla.
1.Seta inkqubo.
WIM SYSTEM CONTROL INSTRUCTIONS (40)
2.Lungisa i-K-factor ehambelanayo ngokwendlela yokuqhuba yesithuthi.
Ziya phambili, itshaneli enqamlezayo, iparamitha yesantya esisezantsi kunye nesantya esiphezulu.
WIM SYSTEM CONTROL INSTRUCTIONS (42)
6.System yokufumanisa iparameter setting
Cwangcisa iiparamitha ezihambelanayo ngokweemfuno zokubona inkqubo.
WIM SYSTEM CONTROL INSTRUCTIONS (46)

Inkqubo yonxibelelwano lweprotocol

Imowudi yonxibelelwano ye-TCPIP, isampuli yefomathi ye-XML yokuhanjiswa kwedatha.

  1. Isithuthi singena: isixhobo sithunyelwa kumatshini ohambelanayo, kwaye umatshini ohambelanayo awuphenduli.
Intloko yomcuphi Ubude bomzimba wedatha (8-byte umbhalo uguqulelwe kwinani elipheleleyo) Umzimba wedatha (umtya weXML)
DCYW

deviceno=Inombolo yesixhobo

roadno=Inombolo yendlela

recno=Inombolo yothotho lwedatha

/>

 

  1. Ukuhamba kwemoto: isixhobo sithunyelwa kumatshini ohambelanayo, kwaye umatshini ohambelanayo awuphenduli
intloko (8-byte umbhalo uguqulelwe kwinani elipheleleyo) Umzimba wedatha (umtya weXML)
DCYW

deviceno=Inombolo yesixhobo

roadno=Inombolo yeNdlela

ulwazi=Inombolo yothotho lwedatha

/>

 

  1. Ukulayishwa kwedatha yobunzima: isixhobo sithunyelwa kumatshini ohambelanayo, kwaye umatshini ohambelanayo awuphenduli.
intloko (8-byte umbhalo uguqulelwe kwinani elipheleleyo) Umzimba wedatha (umtya weXML)
DCYW

isixhobo=Inombolo yesixhobo

roadno=Inombolo yendlela:

recno=Inombolo yothotho lwedatha

kroadno=Wela uphawu lwendlela;ungaweli indlela ugcwalise u0

isantya=isantya;Iyunithi yeekhilomitha ngeyure

ubunzima=ubunzima bubonke: iyunithi: Kg

axlecount=Inani lezembe;

iqondo lobushushu=ubushushu;

maxdistance=Umgama phakathi kwe-axis yokuqala kunye ne-axis yokugqibela, kwiimilimitha

I-asi ye-asi = Ubume be-asi: umzekelo, i-1-22 ithetha itayara elinye kwicala ngalinye le-asi yokuqala, itayara eliphindwe kabini kwicala ngalinye le-asi yesibini, itayara eliphindwe kabini kwicala ngalinye le-asi yesithathu, kunye ne-asi yesibini kunye ne-asi yesithathu. zidityanisiwe

weightstruct=Isakhiwo sobunzima: umzekelo, i-4000809000 ithetha i-4000kg kwi-asi yokuqala, i-8000kg kwi-asi yesibini kunye ne-9000kg kwi-asi yesithathu.

distancestruct=Isakhiwo somgama: umzekelo, i-40008000 ithetha ukuba umgama phakathi kwe-axis yokuqala kunye ne-axis yesibini yi-4000 mm, kwaye umgama phakathi kwe-axis yesibini kunye ne-axis yesithathu yi-8000 mm.

diff1 = 2000 ngumahluko we-millisecond phakathi kwedatha yobunzima kwisithuthi kunye ne-sensor yokuqala yoxinzelelo

diff2 = 1000 ngumahluko we-millisecond phakathi kwedatha yobunzima kwisithuthi kunye nesiphelo

ubude=18000;ubude besithuthi;mm

ububanzi=2500;ububanzi besithuthi;iyunithi: mm

ubude=3500;ubude besithuthi;iyunithi mm

/>

 

  1. Ubume besixhobo: isixhobo sithunyelwa kumatshini ohambelana nawo, kwaye umatshini ohambelana nawo awuphenduli.
Intloko (8-byte umbhalo uguqulelwe kwinani elipheleleyo) Umzimba wedatha (umtya weXML)
DCYW

deviceno=Inombolo yesixhobo

ikhowudi="0" Ikhowudi yesimo, u-0 ubonisa isiqhelo, amanye amaxabiso abonisa ukungaqhelekanga

msg=”” Ingcaciso

/>

 


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