cacul mecanisme pod

Sheet1

Pod rulant 5tf-10,5m

Carucior 5tf

Sarcina Qs= (Kg) 5000

Greutate c?rucior Gm= (Kg) 1884

În?ltime de ridicare Hr= (m) 16

Num?rul de ramuri z= 4

Raportul palanului ip= 2

Grupa de functionare M6

Viteza de ridicare vr (m/min) 16

ALEGEREA CABLULUI

Tensiunea în fir SUPRASARCINA

1774.227 Coeficient 1.1 1.25

0.97 1951.65 2217.78

Q= 0.375

Diametrul de cablu dc=Q*SQRT(Tmax) 15.79559

Se alege un cablu de o dc (mm) 16

Sarcina real? minim? de rupere pt cablu ales este (daN) 36700

Rezistenta minima de rupere a sârmei (N/mm2)

Coeficientul de sigurant? al cablului

20.6851

Conform normei siderurgice T3212-80 coef de sigurant? se recomand? min.8

CALCULUL MOTORULUI

Puterea necesar? la viteza nominal?

19.997

0.9

Se alege un motor de 20KW tip AIM 200 L-6 n= (rot/min) 930

Momentul de rezistent? static P= (Kw) 20

Mst=95500*N/n (daNcm) 2053.47

Momentul dinamic la demarare

GD2=(GD2)rot+(GD2)cup 2.8772

1.15

tdem= (s) 3

Mdin= (daNcm) 794.441

vr= (m/min) 16

0.8

Momentul necesar la demarare

Mdem=Mst+Mdin (daNcm) 2847.91

Momentul nominal al motorului

Mnom=716.2*Nnom/n 15.40

Nnom= (Kw) 20

n= 930

Verificarea supraînc?rc?rii motorului

Mmax=Mdem

Mmax/Mnom= 1.85

CALCULUL FRÂNEI LA MECANISM RIDICARE

Nfr=Qs*v*eta/75 (CP) 19.58

M'din=del*GD2*n/(375*tfr)+.975*G*v2/(n*tfr)

tfr= 2.5

M'din= (daNm) 3.45

Momentul de frânare necesar

M'stat=71620*Nfr/nfr (daNcm) 1507.96

M'stat= (daNm) 15.08

MF=M'stat+M'din (daNm) 18.53

Verificarea momentului de frânare dup? coeficientul de frânare

MF=M'st*beta 37.70

beta=(regim usor) 1.75

beta=(regim mijlociu) 2

beta=(regim greu) 2.25-2.5

Tmax=(Qs+Gm)/(z*hp)

hp=

Cs=sr/Tmax

N=(Q+Gm)*vr/6120*h (Kw)

h=hp*ht*hm*hr

Mdin=(d*GD2*N/375*tdem)+0.975*G*v^2/n*tdem*hd=

h=

C5

Traversa cu electromagneti +cabluri

Sheet1

Se alege o frân? FC250/50R/95/23 Moment fr =23daNm

CALCULUL MOTORULUI MECANISMULUI DE DEPLASARE AL C?RUCIORULUI

ALEGEREA MOTORULUI

Rezistenta la deplasare

157.51

viteza deplasare caruc 40

23.842

2.5.....5.2 2.6

Go-greut propie carucior (Kg) 1884

w-coef de tractiune

8.8

R-raza rotii de rulare (cm)=D/2 12.5

d-diam fusului rotii (la lagare de alunecare) (cm)

d-diam. de rostogolire mediu (la lagare de rostogolire) 8

k= 0.05

0.015

Puterea statica a motorului

1.707 CP 1.2554

v= (m/min) 40.000

Se alege un motor cu P= 1.2(KW)tip AIM100La-6 1.2

Momentul de rezistenta static 850

Msta=71620*N/n (daNcm) 143.8619352

Msta= (daNm) 1.4386

Momentul dinamic

1.2

GD2=GD2rot 1.85 1.85

GD2rot=1.25(GD2cupl+GD2mot+GD2red)

GD2cupl= 1.2

GD2mot= 0.18

GD2red= 0.1

d 1.15

G'= 8768

Mdin= 1.8957

tdem= (s) 6

Momentul necesar motorului la demarare

Mdem=Msta+Mdin (daNm) 3.3343


Mnom=716.2*Nnom/n 1.3751

Mmax=Mdem 3.3343

Mmax/Mnom= 2.4248

ALEGEREA FRÂNEI


W=(Q+Go)*w 60.5792

Momentul static al fortelor de rezistent?

0.6731

M'st=71620*Nfr/n (daNcm) 56.7148

M'st= (daNm) 0.5671

Momentul dinamic în timpul frân?rii

M'din= 2.567

tfr= (s) 3

Momentul necesar pt frânare

MF=M'din-M'st (daNm) 1.9996

Se alege o frân? cu momentul de frânare=2.5 daNm

FC200/12R/110/2.5/N5CA 1.18.30.1011.00 2.5

W=b*(Q+Go)*w

v=p*D*nm/1000*ir

b= (pt lagare de rostogolire)

w=1000/R*(m*d/2+k)

m=

N=W*v/(75*h)

Mdin=a*(d*GD2*n)/(375*tdem)+(0.975*G'*v2)/(n*tdem*h)

a=

Nfr=W*v/(75*h) (CP)

M'din=d*(GD2*n)/375*tfr+(0.975*G'*v2*h)/(n*tfr)

Kw

Sheet1

CALCULUL MOTORULUI MECANISMULUI DE DEPLASARE MACARA

ALEGEREA MOTORULUI

Vitez? transl. macara

61.22


406.9921875 3

2.5.....5.2

Go-greut proprie macara (tf) 10.1

w-coef de tractiune

8.984375

R-raza rotii de rulare (cm)=D/2 16

d-diam fusului rotii (la lagare de alunecare) (cm)

d-diam. de rostogolire mediu (la lagare de rostogolire) 12.5

k= 0.05

0.015

raport transm red 5.42

raport transm ext 2.66

raport transm tot 14.450

Puterea statica a motorului (CP) 5.0893 (KW)

N=W*v/(75*eta) 6.9215

v= (m/min) 61.22 880Se alege un motor tip AIFM 132S 6 cu P= (KW) 3.2

Momentul de rezistenta static

Msta=71620*N/n (daNcm) 563.3131539

Msta= (daNm) 5.633131539

Momentul dinamic

1.2

GD2=GD2rot 1.9625 1.9625

GD2rot=1.25(GD2cupl+GD2mot+GD2red)

GD2cupl= 1.2

GD2mot= 0.28

GD2red= 0.09

d 1.15

G'= 15100

Mdin= (Kgm) 6.01556

tdem= (s) 4.5

Momentul necesar motorului la demarare

Mdem=Msta+Mdin (daNm) 11.649


Mnom=716.2*Nnom/n 7.0839

Mmax=Mdem 11.6487

Mmax/Mnom= 1.644

Intocmit,

Verificat, ing. M.Dinu

ing. V. Lesefschi

v=p*D*nr/100

W=b*(Q+Go+Gm)*w

b= (pt lagare de rostogolire)

w=1000/R*(m*d/2+k)

m=

Mdin=d*(GD2*n)/375*tdem+(0.975*G'*v2)/n*tdem*ha=

motoare cablu

La alegerea cablului si a rolelor de cabluValorile coef. Q

M3 0.265 0.25 -

M4 0.28 0.3 0.3

M5 0.3 0.335 0.335

M6 0.335 0.375 0.375

M7 0.375 0.425 0.425

M8 0.425 0.475 0.475

M3 15 16 16 18 14 16

M4 16 18 18 20 14 16

M5 18 20 20 22.4 14 16

M6 20 22.4 22.4 25 16 18

M7 22.4 25 25 28 16 18

M8 25 28 28 31.5 18 20

h2

W

Alegere h1

GRUPA DE FUNCTIONARE

Q

Transporturi uzuale

Transp periculoase

Cablu normal

Cablu antigir.

Cablu normal

GRUPA DE FUNCTIONARE

h1

Tambur Role de cablu Role de egalizareCablu

normalCablu antigir.

Cablu normal

Cablu antigir.

Cablu normal

Cablu antigir.

Modul de infas.a cablului W h2tamb. si role de egaliz

rola de cablu

-2 role de cablu, cbl. incovoind. in acel. sens-1 rola de cablu, cbl. incovoind. in sens opus

<5 1 1

H29

numarul de schimbari ale sensului de incovoiere

motoare cablu

GD^2 MASA Mfr

P n AIM AIFM AIM AIFM AIFM

Modul de infas.a cablului Wtamb. si role de egaliz

rola de cablu

-2 role de cablu, cbl. incovoind. in acel. sens-1 rola de cablu, cbl. incovoind. in sens opus

<5 1 1

-cablul trece peste tambur si peste max.:-4 role de cablu, cbl. incovoind. in acel. sens;-2 role de cablu, cablul incovoind.in ac. sens si o rola peste care cablul se inconv. in sens opus;-2 role de cablu ,cablul incovoind. in sens opus

de la 6 pân? la 9 incl.

1 1.12

-cablul trece peste tambur si peste cel putin:-5 role de cablu, cbl. incovoind. in acel. sens;-3 role de cablu, cablul incovoind.in ac. sens si o rola peste care cablul se inconv. in sens opus;-1rola de cablu cablu incov. in ac. sens si 2 role peste cablul se inconv. in sensuri diferite;-3 role de cablu ,cablul incovoind. in sens opus

>=10 1 1.25

DENUMIRE

TIP GABARIT

S3; 40%

Mm

ax Servicii echivalente

S2 S3 S4

CARACTERISTICI MOTOARECARACTERISTICI MOTOARE

motoare cablu

kW r.p.m. kgfm^2 kg kgf 60 min. 25% 60% 100% 25% 40% 60%

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

AIM 100La-4 2 1320 4.2 0.14 0.184 42 55 5 2 2.2 1.8 1.6 2 1.6 1.25 AIFM

AIM 100Lb-4 2.5 1320 5 0.16 0.2 46 59 5 2.5 2.8 2.2 2 2.5 2 1.6 AIFM

AIM 112Ma-4 3.2 1340 5.8 0.18 0.22 56 69 5 3.2 3.6 2.8 2.5 3.2 2.5 2 AIFM

AIM 112Mb-4 4 1350 8 0.2 0.22 61 74 5 4 4.5 3.6 3.2 4 3.2 2.5 AIFM

AIM 132S-4 5 1340 10.6 0.22 0.24 90 115 10 5 5.6 4.5 4 5 4 3.2 AIFM

AIM 132Ma-4 6.3 1345 11 0.25 0.27 100 135 10 6.3 7.1 5.6 5 6.3 5 4 AIFM

AIM 132Mb-4 8 1360 18.5 0.3 0.32 130 145 10 8 9 7.1 6.3 8 6.3 5 AIFM

AIM 160M-4 10 1400 22 0.55 0.6 150 180 20 10 11 8.5 7.5 9.5 7.5 6 AIFM

AIM 160L-4 15 1400 28 0.65 0.7 170 200 20 15 16.5 12.5 11 14 11 9 AIFM

AIM 180L-4 20 1420 35 1 1.15 200 230 30 20 22 17 15 19 15 12 AIFM

AIM 200L-4 25 1400 53 1.6 2 280 325 30 25 28 21 18.5 23 18.5 15 AIFM

AIM 225M-4 32 1410 60.7 2.5 _ 405 _ _ 32 36.7 28 24 30 24 19.7AIM 225M-4 39 1410 77 3.2 _ 425 _ _ 39 45 34 30 37 30 24AIM 250M-4 48 1450 93 4.5 _ 500 _ _ 48 55 42 36 46 37 30AIM 250M-4 58 1450 106 5.5 _ 530 _ _ 58 67 51 45 56 45 36

AIM 100La-6 1.25 850 2.81 0.18 0.21 42 55 5 1.25 1.4 1.1 1 1.25 1 0.8 AIFM

AIM 100Lb-6 1.6 850 4.2 0.2 0.22 46 59 5 1.6 1.8 1.4 1.25 1.6 1.25 1 AIFM

AIM 112Ma-6 2 870 5.2 0.23 0.24 56 69 5 2 2.2 1.8 1.6 2 1.6 1.3 AIFM

AIM 112Mb-6 2.5 870 7.5 0.25 0.27 61 74 5 2.5 2.8 2.2 2 2.5 2 1.6 AIFM

AIM 132S-6 3.2 880 8.1 0.28 0.3 90 115 10 3.2 3.6 2.8 2.5 3.2 2.5 2 AIFM

AIM 132Ma-6 4 890 10.8 0.3 0.32 100 135 10 4 4.5 3.6 3.2 4 3.2 2.6 AIFM

AIM 132Mb-6 5 900 13.1 0.33 0.35 130 145 10 5 5.6 4.5 4 5 4 3.2 AIFM

AIM 160M-6 7.5 925 20 0.6 0.65 145 175 20 7.5 8 6 5.5 7 5.5 4 AIFM

TIP GABARIT Mm

ax

S3 S4

6 poli Turatie sincron? - 1000 rot/min 6 poli Turatie sincron? - 1000 rot/min


motoare cablu

AIM 160L-6 10 920 22 0.8 0.9 160 195 20 10 11.5 8.5 7.5 9.5 7.5 6 AIFM

AIM 180L-6 15 930 37 1.3 1.4 200 230 30 15 16.5 12.5 11 14 11 9 AIFM

AIM 200L-6 20 930 47 1.7 2 300 329 30 20 23 17.5 15 19 15 12 AIFM

AIM 225Ma-6 25 940 64 3.4 _ 405 _ _ 25 28 22 18.5 23 18.5 15AIM 225Mb-6 30 940 92 3.7 _ 425 _ _ 30 34 26 22 27.5 22 17.5AIM 250M-6U 37 950 100 5.1 _ 505 _ _ 37 42 32 27 34 27 22AIM 250M-6V 45 950 120 7 _ 530 _ _ 45 52 39 34 42 34 27AIM 280S-6 60 960 165 11 _ 920 _ _ 60 70 52 45 56 45 36AIM 280M-6 75 960 210 14 _ 760 _ _ 75 85 61 55 59 55 44

AIM 132S-8 2.5 660 9.6 0.28 0.3 90 115 10 2.5 2.8 2.2 2 2.5 2 1.6 AIFM

AIM 132Ma-6 3.2 660 13.5 0.3 0.32 100 135 10 3.1 3.6 2.8 2.5 3.1 2.5 2 AIFM

AIM 132Mb-8 4 670 16 0.33 0.35 130 145 10 4 4.5 2.6 3.2 4 3.2 2.6 AIFM

AIFM 160M-8 5.5 680 17 0.6 0.65 140 170 20 5.5 6.2 5 4.4 5.5 4.4 3.5AIFM 160L-8 7.5 685 22.5 0.8 0.9 165 195 20 7 8.4 6.7 6 7.5 6 4.5AIFM 180L-8 10 690 31 1.3 1.4 200 280 30 9.4 11.5 8.5 7.5 9.4 7.5 6AIFM 200L-8* 15 695 54 1.6 2 300 322 30 14 16.5 12.5 11 14 11 8.8AIM 225Ma-8* 20 700 65 3.8 _ 410 _ _ 18.5 23 17 15 18.5 15 12AIM 225Mb-8* 25 700 82 4.4 _ 425 _ _ 23 28 22 18.5 22 18.5 14.8AIM 250M-8 30 710 120 6.4 _ 505 _ _ 27.5 34 26 22 27.5 22 17.5AIM 250M-8 37 710 154 7.5 _ 530 _ _ 34 42 32 27 34 27 21.5AIM 280S-8 50 705 186 11.5 _ 710 _ _ 46 57 44 37 46 37 30AIM 280M-8 63 705 230 14 _ 780 _ _ 59 73 55 47 59 47 38

AIM 250M-10 23 560 115 5.8 _ 520 _ _ 20.5 26 20 16.5 25 16.5 13AIM 250M-10 28 565 130 7.5 _ 560 _ _ 25 32 24 20 30 20 16AIM 280S-10 37 560 160 11.5 _ 720 _ _ 34 42 32 27 40 27 21.5AIM 280M-10 48 560 183 14 _ 780 _ _ 44 55 42 35 52 35 28



motoare cablu

GD^2 MASA

P n AIMS

kW r.p.m. kgfm^2 kg.

1 2 3 4 5 6 7 8

AIMS 160Ma-6 7 930 2.2 0.15 150 5.5

AIMS 160L-6a 10 930 3.4 0.2 175 7.5

AIMS 180L-6a 14.5 940 3.3 0.32 220 11

AIMS 200L-6a 20 950 3.4 0.52 255 15

AIMS 225L-5 18.5 940 2.8 0.9 410 15

AIMS 225L-6 22 940 2.8 1 475 18.5

AIMS 250M-6 27 940 2.8 2.2 380 22

AIMS 250L-6 34 940 2.8 2.5 620 27

AIMS 280M-6 45 945 2.8 3.5 710 34

AIMS 280L-6 55 945 2.8 4 800 75

AIMS 180L-8a 10 694 3.3 0.35 225 7.5

AIMS 200L-8a 14.5 700 3.4 0.57 225 11

AIMS 225M-8 15 670 2.5 0.95 575 11

AIMS 225L-8 18.5 650 2.5 1.1 475 15

AIMS 250M-8V 22 690 2.5 2.2 580 18.5

AIMS 250M-8W 27 695 2.5 2.5 620 22

AIMS 280M-8 37 695 2.5 3.5 710 27

AIMS 280L-8 47 695 2.5 4 760 37

AIMS 250M-10W 16.5 540 2.5 2.2 580 12

*Motoare neasimilate în fabricatie.


DENUMIRE

TIP GABARIT

S5;S4; 60%Mmax/Mns

Serv.echiv.S1


60min.


motoare cablu

AIMS 250L-10W 20 540 2.5 2.5 620 16.5

AIMS 280M-10 27 545 2.5 3.5 730 20

AIMS 280L-10 35 545 2.5 4 820 27

Comments

Page 10H29:

motoare

Gabarit kW r.p.m. kgfm^2 kg.

1 2 3 4 5 7 8 1

MIPmS 315 S 90/90-8 76 736 S2 60 min 2.7 27.57 1285 MIPm2

MIPmS 315 S 90/90-8 93 734 S3 25% 2.7 27.57 1285 MIPm2

MIPmS 315 S 90/90-8 80 735 S3 40% 2.7 27.57 1285 MIPm2

MIPmS 315 S 90/90-8 70 736 S3 60% 2.7 27.57 1285 MIPm2

MIPmS 315 S 90/90-8 60 737 S3 100% 2.7 27.57 1285 MIPm2

MIPmS 315 S 90/90-8 75 736 S4 25% 2.7 27.57 1285 MIPm2

MIPmS 315 S 90/90-8 66 737 S4 40% 2.7 27.57 1285 MIPm2

MIPmS 315 S 90/90-8 60 737 S4 60% 2.7 27.57 1285 MIPm2

MIPmS 315 S 90/90-8 57 737 S5 40% 2.7 27.57 1285 MIPm2

MIPmS 315 S 90/90-8 52 737 S5 60% 2.7 27.57 1285 MIPm2

MIPmS 315 S 90/90-8 40 737 S5 60% 2.7 27.57 1285 MIPm2

MIPmS 315 M 90/90-8 95 736 S2 60min 2.6 32.71 1400 MIPm2

MIPmS 315 M 90/90-8 115 735 S3 25% 2.6 32.71 1400 MIPm2

MIPmS 315 M 90/90-8 100 736 S3 60% 2.6 32.71 1400 MIPm2

MIPmS 315 M 90/90-8 88 737 S3 40% 2.6 32.71 1400 MIPm2

MIPmS 315 M 90/90-8 75 738 S3 100% 2.6 32.71 1400 MIPm2

MIPmS 315 M 90/90-8 95 737 S4 25% 2.6 32.71 1400 MIPm2

MIPmS 315 M 90/90-8 83 737 S4 40% 2.6 32.71 1400 MIPm2

MIPmS 315 M 90/90-8 75 738 S4 60% 2.6 32.71 1400 MIPm2

MIPmS 315 M 90/90-8 72 738 S5 40% 2.6 32.71 1400 MIPm2

MIPmS 315 M 90/90-8 65 738 S5 60% 2.6 32.71 1400 MIPm2

MIPmS 315 M 90/90-8 50 738 S5 60% 2.6 32.71 1400 MIPm2

MIPmS 355 L 100/100-8 120 737 S2 60min 2.6 44.51 1680 MIPm2

MIPmS 355 L 100/100-8 145 738 S3 25% 2.6 44.51 1680 MIPm2

MIPmS 355 L 100/100-8 185 737 S3 40% 2.6 44.51 1680 MIPm2

MIPmS 355 L 100/100-8 110 738 S3 60% 2.6 44.51 1680 MIPm2

MIPmS 355 L 100/100-8 95 739 S3 100% 2.6 44.51 1680 MIPm2

MIPmS 355 L 100/100-8 120 737 S4 25% 2.6 44.51 1680 MIPm2

MIPmS 355 L 100/100-8 105 738 S4 40% 2.6 44.51 1680 MIPm2

MIPmS 355 L 100/100-8 95 739 S4 60% 2.6 44.51 1680 MIPm2

MIPmS 355 L 100/100-8 90 739 S5 40% 2.6 44.51 1680 MIPm2

MIPmS 355 L 100/100-8 82 739 S5 60% 2.6 44.51 1680 MIPm2

MIPmS 355 L 100/100-8 65 739 S5 60% 2.6 44.51 1680 MIPm2

MIPmS 355 L 100/100-8 152 739 S2 60min 2.6 55.64 1835 MIPm2

MIPmS 355 L 100/100-8 737 S3 25% 2.6 55.64 1835 MIPm2

MIPmS 355 L 100/100-8 160 738 S3 40% 2.6 55.64 1835 MIPm2

MIPmS 355 L 100/100-8 140 739 S3 60% 2.6 55.64 1835 MIPm2

MIPmS 355 L 100/100-8 120 740 S3 100% 2.6 55.64 1835 MIPm2

DENUMIRE

TIPServiciul

tip

Mmax/Mnom


GD^2P n MASA DENUMIRE

TIP GABARIT

6poli Turatie sincron? - 1000 rot/min 6poli Turatie sincron? - 1000 rot/min

motoare

MIPmS 355 L 100/100-8 150 739 S4 25% 2.6 55.64 1835 MIPm2

MIPmS 355 L 100/100-8 132 739 S4 40% 2.6 55.64 1835 MIPm2

MIPmS 355 L 100/100-8 120 740 S4 60% 2.6 55.64 1835 MIPm2

MIPmS 355 L 100/100-8 115 740 S5 40% 2.6 55.64 1835 MIPm2

MIPmS 355 L 100/100-8 105 740 S5 60% 2.6 55.64 1835 MIPm2

MIPmS 355 L 100/100-8 80 740 S5 60% 2.6 55.64 1835 MIPm2

MIPmS 400 L 110/110- 8 185 742 S2 60min 3 101.85 2390 MIPm2

MIPmS 400 L 110/110- 8 220 741 S3 25% 3 101.85 2390 MIPm2

MIPmS 400 L 110/110- 8 200 741 S3 40% 3 101.85 2390 MIPm2

MIPmS 400 L 110/110- 8 160 743 S3 60% 3 101.85 2390 MIPm2

MIPmS 400 L 110/110- 8 150 743 S3 100% 3 101.85 2390 MIPm2

MIPmS 400 L 110/110- 8 185 742 S4 25% 3 101.85 2390 MIPm2

MIPmS 400 L 110/110- 8 160 743 S4 40% 3 101.85 2390MIPmS 400 L 110/110- 8 150 743 S4 60% 3 101.85 2390 MIPm2

MIPmS 400 L 110/110- 8 120 743 S5 40% 3 101.85 2390 MIPm2

MIPmS 400 L 110/110- 8 110 743 S5 60% 3 101.85 2390 MIPm2

MIPmS 400 L 110/110- 8 90 743 S5 60% 3 101.85 2390 MIPm2

MIPmS 400 L 110/110- 8 220 743 S2 60min 3 121.12 2570 MIPm2

MIPmS 400 L 110/110- 8 315 740 S3 25% 3 121.12 2570 MIPm2

MIPmS 400 L 110/110- 8 250 742 S3 40% 3 121.12 2570 MIPm2

MIPmS 400 L 110/110- 8 200 743 S3 60% 3 121.12 2570 MIPm2

MIPmS 400 L 110/110- 8 185 743 S3 100% 3 121.12 2570 MIPm2

MIPmS 400 L 110/110- 8 250 742 S4 25% 3 121.12 2570 MIPm2

MIPmS 400 L 110/110- 8 200 743 S4 40% 3 121.12 2570 MIPm2

MIPmS 400 L 110/110- 8 185 743 S4 60% 3 121.12 2570 MIPm2

MIPmS 400 L 110/110- 8 160 744 S5 40% 3 121.12 2570 MIPm2

MIPmS 400 L 110/110- 8 132 744 S5 60% 3 121.12 2570 MIPm2

MIPmS 400 L 110/110- 8 110 744 S5 60% 3 121.12 2570 MIPm2

MIPm2

MIPmS 315 S 90/90-10 56 590 S2 60min 2.5 37 1235 MIPm2

MIPmS 315 S 90/90-10 70 585 S3 25% 2.5 37 1235 MIPm2

MIPmS 315 S 90/90-10 60 590 S3 60% 2.5 37 1235 MIPm2

MIPmS 315 S 90/90-10 52 551 S3 40% 2.5 37 1235 MIPm2

MIPmS 315 S 90/90-10 44 592 S3 100% 2.5 37 1235 MIPm2

MIPmS 315 S 90/90-10 56 590 S4 25% 2.5 37 1235 MIPm2

MIPmS 315 S 90/90-10 50 591 S4 40% 2.5 37 1235 MIPm2

MIPmS 315 S 90/90-10 44 592 S4 60% 2.5 37 1235 MIPm2

MIPmS 315 S 90/90-10 42 593 S3 40% 2.5 37 1235 MIPm2

MIPmS 315 S 90/90-10 37 594 S5 60% 2.5 37 1235 MIPm2

MIPmS 315 S 90/90-10 29 595 S5 60% 2.5 37 1235 MIPm2

MIPmS 315 M 90/90-10 70 591 S2 60min 2.5 45 1350 MIPm2

MIPmS 315 M 90/90-10 87 589 S3 25% 2.5 45 1350 MIPm2

MIPmS 315 M 90/90-10 75 590 S3 60% 2.5 45 1350 MIPm2

MIPmS 315 M 90/90-10 65 592 S3 40% 2.5 45 1350 MIPm2


motoare

MIPmS 315 M 90/90-10 55 593 S3 100% 2.5 45 1350 MIPm2

MIPmS 315 M 90/90-10 70 591 S4 25% 2.5 45 1350 MIPm2

MIPmS 315 M 90/90-10 62 592 S4 40% 2.5 45 1350 MIPm2

MIPmS 315 M 90/90-10 55 593 S4 60% 2.5 45 1350 MIPm2

MIPmS 315 M 90/90-10 53 593 S5 40% 2.5 45 1350 MIPm2

MIPmS 315 M 90/90-10 46 594 S5 60% 2.5 45 1350 MIPm2

MIPmS 315 M 90/90-10 36 595 S5 60% 2.5 45 1350 MIPm2

MIPmS 355 L100/100-10 93 593 S2 60min 3.5 65 1725 MIPm2

MIPmS 355 L100/100-10 115 594 S3 25% 3.5 65 1725 MIPm2

MIPmS 355 L100/100-10 100 594 S3 60% 3.5 65 1725 MIPm2

MIPmS 355 L100/100-10 86 594 S3 40% 3.5 65 1725 MIPm2

MIPmS 355 L100/100-10 73 595 S3 100% 3.5 65 1725 MIPm2

MIPmS 355 L100/100-10 93 593 S4 25% 3.5 65 1725 MIPm2

MIPmS 355 L100/100-10 83 594 S4 40% 3.5 65 1725 MIPm2

MIPmS 355 L100/100-10 73 595 S4 60% 3.5 65 1725 MIPm2

MIPmS 355 L100/100-10 70 595 S5 40% 3.5 65 1725 MIPm2

MIPmS 355 L100/100-10 62 595 S5 60% 3.5 65 1725 MIPm2

MIPmS 355 L100/100-10 48 596 S3 60% 3.5 65 1857 MIPm2

MIPmS 355 L100/100-10 118 591 S2 60min 2.6 74.5 1857 MIPm2

MIPmS 355 L100/100-10 145 589 S3 25% 2.6 74.5 1857 MIPm2

MIPmS 355 L100/100-10 125 590 S3 60% 2.6 74.5 1857 MIPm2

MIPmS 355 L100/100-10 103 592 S3 40% 2.6 74.5 1857 MIPm2

MIPmS 355 L100/100-10 92 593 S3 100% 2.6 74.5 1857 MIPm2

MIPmS 355 L100/100-10 117 591 S4 25% 2.6 74.5 1857 MIPm2

MIPmS 355 L100/100-10 105 592 S4 40% 2.6 74.5 1857 MIPm2

MIPmS 355 L100/100-10 92 593 S4 60% 2.6 74.5 1857 MIPm2

MIPmS 355 L100/100-10 88 593 S3 40% 2.6 74.5 1857 MIPm2

MIPmS 355 L100/100-10 78 594 S3 60% 2.6 74.5 1857 MIPm2

MIPmS 355 L100/100-10 60 595 S3 60% 2.6 74.5 1857 MIPm2

MIPmS 400 L110/110-10 148 593 S2 60min 2.8 138 2480 MIPm2

MIPmS 400 L110/110-10 180 592 S3 25% 2.8 138 2480 MIPm2

MIPmS 400 L110/110-10 160 593 S3 60% 2.8 138 2480 MIPm2

MIPmS 400 L110/110-10 135 594 S3 40% 2.8 138 2480 MIPm2

MIPmS 400 L110/110-10 115 595 S3 100% 2.8 138 2480 MIPm2

MIPmS 400 L110/110-10 146 593 S4 25% 2.8 138 2480 MIPm2

MIPmS 400 L110/110-10 130 594 S4 40% 2.8 138 2480 MIPm2

MIPmS 400 L110/110-10 115 595 S4 60% 2.8 138 2480 MIPm2

MIPmS 400 L110/110-10 110 595 S3 40% 2.8 138 2480 MIPm2

MIPmS 400 L110/110-10 97 595 S3 60% 2.8 138 2480MIPmS 400 L110/110-10 75 595 S3 60% 2.8 138 2480 MIPm2-X

MIPmS 500 L110/90-10 187 594 S2 60min 2.9 160 2680 MIPm2-X

MIPmS 500 L110/90-10 230 592 S3 25% 2.9 160 2680 MIPm2-X

MIPmS 500 L110/90-10 200 593 S3 60% 2.9 160 2680 MIPm2-X

motoare

MIPmS 500 L110/90-10 170 594 S3 40% 2.9 160 2680 MIPm2-X

MIPmS 500 L110/90-10 145 595 S3 100% 2.9 160 2680 MIPm2-X

MIPmS 500 L110/90-10 185 594 S4 25% 2.9 160 2680 MIPm2-X

MIPmS 500 L110/90-10 163 594 S4 40% 2.9 160 2680 MIPm2-X

MIPmS 500 L110/90-10 145 595 S4 60% 2.9 160 2680 MIPm2-X

MIPmS 500 L110/90-10 140 595 S3 40% 2.9 160 2680 MIPm2-X

MIPmS 500 L110/90-10 123 596 S3 60% 2.9 160 2680 MIPm2

MIPmS 500 L110/90-10 95 597 S3 60% 2.9 160 2680 MIPm2

MIPmS 450 M120/100-10 300 594 S2 60min 3 205 3430 MIPm2

MIPmS 450 M120/100-10 375 593 S3 25% 3 205 3430 MIPm2

MIPmS 450 M120/100-10 315 594 S3 60% 3 205 3430 MIPm2

MIPmS 450 M120/100-10 250 595 S3 40% 3 205 3430MIPmS 450 M120/100-10 220 596 S3 100% 3 205 3430MIPmS 450 M120/100-10 300 594 S4 25% 3 205 3430MIPmS 450 M120/100-10 250 595 S4 40% 3 205 3430MIPmS 450 M120/100-10 220 596 S4 60% 3 205 3430MIPmS 450 M120/100-10 180 596 S3 40% 3 205 3430MIPmS 450 M120/100-10 160 597 S3 60% 3 205 3430MIPmS 450 M120/100-10 132 597 S3 60% 3 205 3430

motoare

kW r.p.m. kgfm^2 kg.

2 3 4 5 7 8

315 S 90-6 55 988 S1 3.5 31 1200

315 S 90-6 75 982 S3 60% 3.5 31 1200

315 S 90-6 90 980 S3 40% 3.5 31 1200

315 S 90-6 110 975 S3 25% 3.5 31 1200

315 S 90-6 90 980 S2 60 min 3.5 31 1200

315 S 90-6 75 988 S1 3.5 33 1250

315 S 90-6 90 984 S3 60% 3.5 33 1250

315 S 90-6 110 979 S3 40% 3.5 33 1250

315 S 90-6 132 975 S3 25% 3.5 33 1250

315 S 90-6 110 979 S2 60 min 3.5 33 1250

315 S 90-6 90 988 S1 3.5 38 1380

315 S 90-6 110 984 S3 60% 3.5 38 1380

315 S 90-6 132 981 S3 40% 3.5 38 1380

315 S 90-6 160 977 S3 25% 3.5 38 1380

315 S 90-6 132 981 S2 60 min 3.5 38 1380

315 M 90-6 110 987 S1 3.4 49.4 1450

315 M 90-6 132 984 S3 60% 3.4 49.4 1450

315 M 90-6 160 981 S3 40% 3.4 49.4 1450

315 M 90-6 200 976 S3 25% 3.4 49.4 1450

315 M 90-6 160 981 S2 60 min 3.4 49.4 1450

315 M 90-6 132 989 S1 3.3 59.2 1550

315 M 90-6 160 986 S3 60% 3.3 59.2 1550

315 M 90-6 200 983 S3 40% 3.3 59.2 1550

315 M 90-6 250 978 S3 25% 3.3 59.2 1550

315 M 90-6 200 983 S2 60 min 3.3 59.2 1550

315 S 80/65-6 55 988 S1 3.5 31 1200

315 S 80/65-6 75 982 S3 60% 3.5 31 1200

315 S 80/65-6 90 980 S3 40% 3.5 31 1200

315 S 80/65-6 110 975 S3 25% 3.5 31 1200

315 S 80/65-6 90 980 S2 60 min 3.5 31 1200

315 S 80/65-6 75 988 S1 3.5 33 1250

315 S 80/65-6 90 984 S3 60% 3.5 33 1250

315 S 80/65-6 110 979 S3 40% 3.5 33 1250

315 S 80/65-6 132 975 S3 25% 3.5 33 1250

315 S 80/65-6 110 979 S2 60 min 3.5 33 1250

315 S 80/65-6 90 988 S1 3.5 38 1380

315 S 80/65-6 110 984 S3 60% 3.5 38 1380

315 S 80/65-6 132 981 S3 40% 3.5 38 1380

MASADENUMIRE

TIP GABARITServiciul

tip

Mmax/Mnom

6poli Turatie sincron? - 1000 rot/min 6poli Turatie sincron? - 1000 rot/min

GD^2P n

motoare

315 S 80/65-6 160 977 S3 25% 3.5 38 1380

315 S 80/65-6 132 981 S2 60 min 3.5 38 1380

315 M 90/75-6 110 987 S1 3.4 40.4 1450

315 M 90/75-6 132 934 S3 60% 3.4 40.4 1450

315 M 90/75-6 160 981 S3 40% 3.4 40.4 1450

315 M 90/75-6 200 976 S3 25% 3.4 40.4 1450

315 M 90/75-6 160 981 S2 60 min 3.4 40.4 1450

315 M 90/75-6 132 939 S1 3.3 59.2 1550

315 M 90/75-6 160 936 S3 60% 3.3 59.2 1550

315 M 90/75-6 200 983 S3 40% 3.3 59.2 1550

315 M 90/75-6 250 978 S3 25% 3.3 59.2 1550

315 M 90/75-6 200 983 S2 60 min 3.3 59.2 1550

315 S 90-8 45 739 S1 2.9 23 1160

315 S 90-8 55 736 S3 60% 2.9 23 1160

315 S 90-8 75 731 S3 40% 2.9 23 1160

315 S 90-8 90 727 S3 25% 2.9 23 1160

315 S 90-8 75 731 S2 60 min 2.9 23 1160

315 S 90-8 55 739 S1 2.8 27 1190

315 S 90-8 75 735 S3 60% 2.8 27 1190

315 S 90-8 90 732 S3 40% 2.8 27 1190

315 S 90-8 110 728 S3 25% 2.8 27 1190

315 S 90-8 90 732 S2 60 min 2.8 27 1190

315 S 90-8 75 739 S1 3.3 30 1250

315 S 90-8 90 736 S3 60% 3.3 30 1250

315 S 90-8 110 731 S3 40% 3.3 30 1250

315 S 90-8 132 727 S3 25% 3.3 30 1250

315 S 90-8 110 731 S2 60 min 3.3 30 1250315 M 90-8 90 738 S1 2.8 41 1385315 M 90-8 110 736 S3 60% 2.8 41 1385

315 M 90-8 132 733 S3 40% 2.8 41 1385

315 M 90-8 160 730 S3 25% 2.8 41 1385

315 M 90-8 132 733 S2 60 min 2.8 41 1385

315 M 90-8 110 739 S1 3 48 1500

315 M 90-8 132 737 S3 60% 3 48 1500

315 M 90-8 162 735 S3 40% 3 48 1500

315 M 90-8 200 730 S3 25% 3 48 1500

315 M 90-8 160 735 S2 60 min 3 48 1500

355 L 110-8 132 742 S1 3 64 1900

355 L 110-8 160 740 S3 60% 3 64 1900

355 L 110-8 200 738 S3 40% 3 64 1900

355 L 110-8 250 735 S3 25% 3 64 1900

355 L 110-8 200 738 S2 60 min 3 64 1900

355 L 110-8 160 742 S1 3 72 2000


motoare

355 L 110-8 200 740 S3 60% 3 72 2000

355 L 110-8 250 738 S3 40% 3 72 2000

355 L 110-8 300 735 S3 25% 3 72 2000

355 L 110-8 250 738 S2 60 min 3 72 2000

315 S 80/65-8 45 739 S1 2.8 27 1190

315 S 80/65-8 55 736 S3 60% 2.8 27 1190

315 S 80/65-8 75 731 S3 40% 2.8 27 1190

315 S 80/65-8 90 727 S3 25% 2.8 27 1190

315 S 80/65-8 75 731 S2 60 min 2.8 27 1190

315 S 80/65-8 55 739 S1 2.8 27 1190

315 S 80/65-8 75 735 S3 60% 2.8 27 1190

315 S 80/65-8 90 732 S3 40% 2.8 27 1190

315 S 80/65-8 110 728 S3 25% 2.8 27 1190

315 S 80/65-8 90 732 S2 60 min 2.8 27 1190

315 M 90/75-8 90 738 S1 3.3 30 1250

315 M 90/75-8 110 736 S3 60% 3.3 30 1250

315 M 90/75-8 132 733 S3 40% 3.3 30 1250

315 M 90/75-8 160 730 S3 25% 3.3 30 1250

315 M 90/75-8 132 733 S2 60 min 3.3 30 1250

315 M 90/75-8 110 736 S3 60% 2.8 41 1385

315 M 90/75-8 132 733 S3 40% 2.8 41 1385

315 M 90/75-8 160 730 S3 25% 2.8 41 1385

315 M 90/75-8 132 733 S2 60 min 2.8 41 1385

315 M 90/75-8 110 739 S1 3 48 1500

315 M 90/75-8 132 737 S3 60% 3 48 1500

315 M 90/75-8 160 735 S3 40% 3 48 1500

315 M 90/75-8 730 S3 25% 3 48 1500

315 M 90/75-8 160 735 S2 60 min 3 48 1500

355 L110/90-8 160 742 S1 3 64 1900

355 L110/90-8 200 740 S3 60% 3 64 1900

355 L110/90-8 250 738 S3 40% 3 64 1900

355 L110/90-8 300 735 S3 25% 3 64 1900

355 L110/90-8 250 738 S2 60 min 3 64 1900

355 L110/90-8 160 742 S1 3 72 2000

355 L110/90-8 200 740 S3 60% 3 72 2000

355 L110/90-8 250 737 S3 40% 3 72 2000

355 L110/90-8 300 323 S3 25% 3 72 2000

355 L110/90-8 250 737 S2 60 min 3 72 2000

315 S 80/65-8 45 739 S1 2.8 23 1160

315 S 80/65-8 55 736 S3 60% 2.8 23 1160

315 S 80/65-8 75 731 S3 40% 2.8 23 1160

315 S 80/65-8 90 727 S3 25% 2.8 23 1160


motoare

315 S 80/65-8 75 731 S2 60 min 2.8 23 1160

315 M 90/75-8 90 738 S1 2.9 41 1385

315 M 90/75-8 110 736 S3 60% 2.9 41 1385

315 M 90/75-8 132 739 S3 40% 2.9 41 1385

315 M 90/75-8 160 730 S3 25% 2.9 41 1385

315 M 90/75-8 132 735 S2 60 min 2.9 41 1385

315 M 90/75-8 739 S1 3 38 1500

315 M 90/75-8 737 S3 60% 3 38 1500

315 M 90/75-8 735 S3 40% 3 38 1500

315 M 90/75-8 730 S3 25% 3 38 1500

315 M 90/75-8 735 S2 60 min 3 38 1500

Frane

1 2 3 4

FC200/12R/110/2.5/N5CA 1.18.30.1011.00 2.5

FC200/12R/95/2.8/N5CA 1.18.30.1012.00 2.8

FC200/12R/80/3.4/N5CA 1.18.30.1013.00 3.4

FC200/12R/75/3.7/N5CA 1.18.30.1014.00 3.7

FC200/12R/70/4/N5CA 1.18.30.1015.00 4

FC200/12R/60/5/N5CA 1.18.30.1016.00 5

FC200/12R/50/5/N5CA 1.18.30.1017.00 5.5

FC200/12R/45/6/N5CA 1.18.30.1018.00 6

FC200/12R/40/7/N5CA 1.18.30.1019.00 7

FC200/12R/35/8/N5CA 1.18.30.1020.00 8

FC200/20R/110/4N5CA 1.18.30.1030.00 4

FC200/20R/95/5/N5CA 1.18.30.1031.00 5

FC200/20R/80/5.75/N5CA 1.18.30.1032.00 5.75

FC200/20R/70/6.6/N5CA 1.18.30.1033.00 6.6

FC200/20R/60/8/N5CA 1.18.30.1034.00 8

FC200/20R/50/9/N5CA 1.18.30.1035.00 9

FC200/20R/45.10/N5CA 1.18.30.1036.00 10

FC200/20R/40/12.2/N5CA 1.18.30.1037.00 12.2

FC200/20R/35/16/N5CA 1.18.30.1038.00 16

FC250/32R/110/11/N5CA 1.18.30.2008.00 11

FC250/32R/95/14/N5CA 1.18.30.2009.00 14

FC250/32R/80/16/N5CA 1.18.30.2010.00 16

FC250/32R/70/18/N5CA 1.18.30.2011.00 18

FC250/32R/60/20/N5CA 1.18.30.2012.00 20

FC250/32R/50/24/N5CA 1.18.30.2013.00 24

FC250/32R/45/27/N5CA 1.18.30.2014.00 27

FC250/50R/110/12/N5CA 1.18.30.2022.00 12

FC250/50R/95/23/N5CA 1.18.30.2023.00 23

FC250/50R/80/25/N5CA 1.18.30.2024.00 25

FC250/50R/70/29/N5CA 1.18.30.2025.00 29

FC250/50R/60/32/N5CA 1.18.30.2026.00 32

FC250/50R/50/34/N5CA 1.18.30.2027.00 34

FC250/50R/45/38/N5CA 1.18.30.2028.00 38

FC315/32R/125/13/N5CA 1.18.30.3009.00 13

FC315/32R/105/16/N5CA 1.18.30.3010.00 16

FC315/32R/95/18/N5CA 1.18.30.3011.00 18

FC315/32R/80/21/N5CA 1.18.30.3012.00 21

FC315/32R/75/23/N5CA 1.18.30.3013.00 23

FC315/32R/70/25/N5CA 1.18.30.3014.00 25

FC315/32R/60/25/N5CA 1.18.30.3015.00 25

TIP FRÂN?

1.18

.30.

1011

.00

1.18

.30.

1011

.00

MOMENTUL[daNm]COD FRÂN? COD

DESEN

1.18

.30.

2008

.00

1.18

.30.

2008

.00

1.18

.30.

3009

.00

1.18

.30.

3009

.00

TIP FRÂN?

Frane

FC315/32R/50/30/N5CA 1.18.30.3016.00 30

FC315/50R/125/20/N5CA 1.18.30.3025.00 20

FC315/50R/105/25/N5CA 1.18.30.3026.00 25

FC315/50R/95/29/N5CA 1.18.30.3027.00 29

FC315/50R/80/32/N5CA 1.18.30.3028.00 32

FC315/50R/75/34/N5CA 1.18.30.3029.00 34

FC315/50R/70/36/N5CA 1.18.30.3030.00 36

FC315/50R/60/38/N5CA 1.18.30.3031.00 38

FC315/50R/50/46/N5CA 1.18.30.3032.00 46

FC315/80R/125/33/N5CA 1.18.30.3040.00 33

FC315/80R/105/40/N5CA 1.18.30.3041.00 40

FC315/80R/95/46/N5CA 1.18.30.3042.00 46

FC315/80R/80/52/N5CA 1.18.30.3043.00 52

FC315/80R/75/55/N5CA 1.18.30.3044.00 55

FC315/80R/70/57/N5CA 1.18.30.3045.00 57

FC315/80R/60/62/N5CA 1.18.30.3046.00 62

1.18

.30.

3009

.00

1.18

.30.

3009

.00

Frane

1 2 3 4

FC400/50R/125/32/N5CA 1.18.30.4008.00 32

FC400/50R/120/33/N5CA 1.18.30.4009.00 33

FC400/50R/110/38/N5CA 1.18.30.4010.00 38

FC400/50R/105/40/N5CA 1.18.30.4011.00 40

FC400/50R/95/43/N5CA 1.18.30.4012.00 43

FC400/50R/80/51/N5CA 1.18.30.4013.00 51

FC400/50R/70/56/N5CA 1.18.30.4014.00 56

FC400/80R/125/52/N5CA 1.18.30.4023.00 52

FC400/80R/120/55/N5CA 1.18.30.4024.00 55

FC400/80R/110/60/N5CA 1.18.30.4025.00 60

FC400/80R/105/66/N5CA 1.18.30.4026.00 66

FC400/80R/95/70/N5CA 1.18.30.4027.00 70

FC400/80R/80/77/N5CA 1.18.30.4028.00 77

FC400/80R/75/83/N5CA 1.18.30.4029.00 83

FC400/80R/70/90/N5CA 1.18.30.4030.00 90

FC400/125R/125/82/N5CA 1.18.30.4039.00 82

FC400/125R/120/86/N5CA 1.18.30.4040.00 86

FC400/125R/110/93/N5CA 1.18.30.4041.00 93

FC400/125R/105/98/N5CA 1.18.30.4042.00 98

FC400/125R/95/108/N5CA 1.18.30.4043.00 108

FC400/125R/80/120/N5CA 1.18.30.4044.00 120

FC400/125R/75/130/N5CA 1.18.30.4045.00 130

FC400/125R/70/140/N5CA 1.18.30.4046.00 140

FC500/80R/125/63/N5CA 1.18.30.5008.00 63

FC500/80R/110/73/N5CA 1.18.30.5009.00 70

FC500/80R/105/78/N5CA 1.18.30.5010.00 78

FC500/80R/95/85/N5CA 1.18.30.5011.00 85

FC500/80R/80/90/N5CA 1.18.30.5012.00 30

FC500/80R/75/95/N5CA 1.18.30.5013.00 95

FC500/80R/70/102/N5CA 1.18.30.5014.00 102

FC500/125R/110/110/N5CA 1.18.30.5021.00 110

FC500/125R/115/20/N5CA 1.18.30.5022.00 120

FC500/125R/35/130/N5CA 1.18.30.5023.00 130

FC500/125R/80/140/N5CA 1.18.30.5024.00 140

FC500/125R/75/154/N5CA 1.18.30.5025.00 154

FC500/125R/70/170/N5CA 1.18.30.5026.00 170

FC500/200R/110/175/N5CA 1.18.30.5032.00 175

FC500/200R/95/200/N5CA 1.18.30.5033.00 200

FC500/200R/80/213/N5CA 1.18.30.5034.00 213

FC500/200R/75/240/N5CA 1.18.30.5035.00 240

TIP FRÂN?MOMENTUL

[daNm]COD FRÂN? CODDESEN

1.18

.30.

5008

.00

1.18

.30.

5008

.00

1.18

.30.

4008

.00

1.18

.30.

4008

.00

Frane

FC500/200R/70/273/N5CA 1.18.30.5036.00 273

FC630/80R/120/110/N5CA 1.18.30.6006.00 110

FC630/80R/110/125/N5CA 1.18.30.6007.00 125

FC630/80R/105/130/N5CA 1.18.30.6008.00 130

FC630/80R/95/140/N5CA 1.18.30.6009.00 140

FC630/80R/80/140/N5CA 1.18.30.6010.00 170

FC630/125R/120/175/N5CA 1.18.30.6016.00 175

FC630/125R/110/190/N5CA 1.18.30.6017.00 190

FC630/125R/105/200/N5CA 1.18.30.6018.00 200

FC630/125R/95/220/N5CA 1.18.30.6019.00 220

FC630/125R/180/260/N5CA 1.18.30.6020.00 260

FC630/200R/120/280/N5CA 1.18.30.6024.00 280

FC630/200R/110/300/N5CA 1.18.30.6025.00 300

FC630/200R/105/320N5CA 1.18.30.6026.00 320

FC710/80R/120/145//N5CA 1.18.30.7006.00 145

FC710/80R/110/160/N5CA 1.18.30.7007.00 160

FC710/80R/105/170/N5CA 1.18.30.7008.00 170

FC710/80R/95/185/N5CA 1.18.30.7009.00 185

FC710/80R/80/220/N5CA 1.18.30.7010.00 220

FC710/125R/120/235/N5CA 1.18.30.7016.00 235

FC710/125R/110/250/N5CA 1.18.30.7017.00 250

FC710/125R/105/290N5CA 1.18.30.7018.00 290

FC710/125R/95/325/N5CA 1.18.30.7019.00 325

FC710/125R/80/350/N5CA 1.18.30.7020.00 350

FC710/200R/120/380/N5CA 1.18.30.7025.00 380

FC710/200R/110/395/N5CA 1.18.30.7026.00 395

FC710/200R/105/420/N5CA 1.18.30.7027.00 420

FC710/200R/95/450/N5CA 1.18.30.7028.00 450

1.18

.30.

5008

.00

1.18

.30.

5008

.00

1.18

.30.

6006

.00

1.18

.30.

6006

.00

1.18

.30.

7006

.00

1.18

.30.

7006

.00

Sheet5

Lesefschi Victor 2

Dogaru Ioan

Dinu Mihaela

T?tucu Anton

Vrabie Nicusor

Lupea Cristina

Rapa Valentina

Iacomi Dorina

Antohi Neculina

Iosif Angela

Deriglazov Maria

Pazargic Valerica

Lesefschi Victor

cacul mecanisme pod

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