Epact Motors 040309

ISO 9001

..... Since 1937

Motors Power Behind

The Drive

EpactEnergy Efficient

MotorsEpact

Trickle ImpregnationAutomatic Winding Machine,STATOMAT - Germany

Test Plant, BENNING - Germany

■ CSA C 22.2 No. O - M91 : GeneralRequirements - Canadian ElectricalCode, Part II.

■ CSA C 22.2 No. 0.4 - M1982 :Bonding and Grounding of ElectricalEquipment (Protective Grounding).

■ UL1004 : Electric Motors (5th Edition).

Construction■ Pressure die cast, light but sturdy

aluminum body for frame size 143 to215 in series EADXXX and heavyduty cast iron body for larger frame inseries ENDXXX. Motors in frame size143 to 215 are optionally offered withcast iron frames in series ENDXXX.

■ Horizontal, standard foot mounting,C face or D flange mounting.

■ All motors are TEFC hose proof toIP55 with V ring slinger.

■ Series EAD offers multi-mount facilityfor frames 182, 184, 213 and 215offering flexibility at site. Other framesare with integral feet.

■ Diagonally split, oversize terminalbox with cable entry shift in steps of90 degrees.

■ Sealed bearings, greased for life, upto 215 frame motors with optionalon-line greasing for larger framemotors.

Test Plant■ Validated by CSA, Canada by

verifying test results in Canada, andwith :■ A torque Transducers of Dr. Staiger

Mohilo, Germany upto 3000 NM.■ Power Analyser of Voltech, UK.■ Fully automatic Test Plant,

integrated with Power Analyser -both from Benning, Germany.

■ Stable Power Supply from InverterDriven MG Sets.

Manufacturing Plant■ ISO 9001 : 2000 certified by BVQI,

UK.■ Under CSA, Canada, Category

Certification Programme.

Standard Specifications■ Supply 208-230/460V, 60 Hz, AC

or 575V, 60 Hz, AC.■ Class F insulated with class B

temperature rise and ambient of 40°C.■ With 1.15 service factor except for

208V supply, when SF would be 1and motors may not meet NEMAperformance.

■ Continuously rated, with design B toNEMA standards for GeneralApplications.

■ Enclosure, totally enclosed fan cooled.■ Approx. 9” length terminal wires for

supply connections.■ F1 mount, convertible to F2 mounting

by reversing rotor.

Options■ Motors suitable for Inverter

application, 5:1 constant torque and10:1 variable torque with 2000V spikeresistant wires.

■ Motor leads terminated on a terminalblock in Terminal Box.

■ Thermisters, Thermostats, windingRTDs, bearing temperature sensingdevices and separate terminal box forthese auxiliaries.

Special Applications■ Special application motors such as

“Closed Coupled Motors” for Pumpswith JP/JM flanges and for “InverterDuty” with 2000V Spike ResistantMagnet Wire and 10:1 veriable torqueand 5:1 constant torque applications.

EPACT Compliant EnergyEfficient Motors toNEMA/CSA Standards

Performance■ Energy efficient performance meeting

the mandated efficiency standards ofEPAct 92, verified as per CSA 390,Method 1 (equivelent to IEEE 112,Method B) calling for actualmeasurement of stray load losseswith high accuracy test equipmentand data acquisition instrumentation.

■ With and marks highlightingverification by CSA International,Canada for EPACT efficiencies andsafety compliance.■ EEV :■ :■ DoE :

■ Efficiencies at 50% and 75% full loadare close to the high efficiencies ratedfor full load, for true energy saving.

■ Energy efficiencies are achieved byminimizing:■ iron loss with low-loss and

low-magnetizing laminations.■ stator and rotor copper losses by

optimizing slot designs.■ friction losses by optimizing fan and

fan cover designs, bearings andclose tolerance assembly.

■ Extra material is used to ensure lowertemperature rise, thereby lowerwinding losses for meeting thespecified energy efficiencies.

Standards Conformance■ NEMA MG1 :■ CSA C 22.2 No. 100 - 95 : Motors and

Generators.■ CSA Std CAN/CSA C 390 - 93 :

Energy Efficiency Methods for ThreePhase Induction Motors.

MotorsEpact

1

OUTPUT P FRAME FL FL AMPS EFFICIENCY % POWER TORQUE LOCKED ROTOR NEMA INE-O RPM FACTOR AMPS CODE RTIAL WK2

E Nominal FL LR BD

SkW HP approx. 230V 460V 575V FL 3/4 FL 1/2 FL FL 3/4 FL 1/2 FL Ib-ft % % 230V 460V 575V Ib-ft2

0.55 0.75 6 EAD/END 143T 1140 3.4 1.7 1.4 72.0 69.0 64.0 0.57 0.50 0.40 3.50 240 280 15 7.5 6 J 0.130.75 1 2 EAD/END 143T 3400 3.1 1.6 1.3 75.5 73.0 71.0 0.80 0.75 0.70 1.50 300 350 24 12 10 L 0.03

4 EAD/END 145T 1710 3.3 1.7 1.4 82.5 81.0 77.0 0.71 0.60 0.40 3.10 275 300 24 12 10 L 0.136 EAD/END 145T 1150 4.0 2.0 1.6 80.0 79.0 76.0 0.60 0.50 0.40 4.60 250 270 24 12 10 L 0.16

1.1 1.5 2 EAD/END 143T 3400 4.1 2.1 1.7 82.5 82.5 82.0 0.82 0.80 0.70 2.30 275 300 36 18 14.5 L 0.054 EAD/END 145T 1710 4.6 2.3 1.9 84.0 84.0 83.0 0.72 0.65 0.60 4.60 230 280 36 18 16 L 0.136 EAD/END 182T 1145 5.0 2.5 2.0 85.5 85.5 85.0 0.65 0.60 0.50 6.90 220 250 36 18 16 L 0.27

1.5 2 2 EAD/END 145T 3400 5.4 2.7 2.2 84.0 84.0 84.0 0.84 0.80 0.70 3.10 275 300 50 25 20 L 0.064 EAD/END 145T 1710 5.8 2.9 2.3 84.0 84.0 83.0 0.77 0.70 0.60 6.10 240 280 50 25 20 L 0.166 EAD/END 184T 1145 6.0 3.0 2.4 86.5 86.5 86.0 0.72 0.65 0.60 9.20 220 250 50 25 20 L 0.34

2.2 3 2 EAD/END 182T 3480 7.2 3.6 2.9 85.5 85.5 85.0 0.89 0.87 0.85 4.50 275 300 64 32 25 K 0.144 EAD/END 182T 1740 7.6 3.8 3.0 87.5 87.5 87.0 0.83 0.76 0.64 9.10 230 280 64 32 25 K 0.276 EAD/END 213T 1150 8.4 4.2 3.4 87.5 87.5 87.0 0.75 0.67 0.60 13.70 220 250 64 32 25 K 0.88

3.7 5 2 EAD/END 184T 3480 12.0 6.0 4.8 87.5 87.5 87.0 0.89 0.87 0.85 7.50 275 300 92 46 37 J 0.184 EAD/END 184T 1740 12.8 6.4 5.1 87.5 87.5 87.0 0.83 0.78 0.67 15.10 230 280 92 46 37 J 0.346 EAD/END 215T 1160 14.2 7.1 5.7 87.5 87.5 87.0 0.75 0.67 0.60 22.60 210 240 92 46 37 J 0.97

5.5 7.5 2 EAD/END 213T 3480 17.2 8.6 6.9 88.5 88.5 88.0 0.90 0.88 0.86 11.30 210 240 126 63 50 H 0.394 EAD/END 213T 1740 18.4 9.2 7.4 89.5 89.5 89.0 0.84 0.81 0.74 22.60 210 240 126 63 50 H 0.886 END 254T 1164 20.0 10.0 8.0 89.5 86.5 83.5 0.80 0.76 0.68 33.27 200 250 126 63 50 H 1.27

7.5 10 2 EAD/END 215T 3480 23.4 11.7 9.4 89.5 89.5 89.0 0.90 0.88 0.86 15.10 210 240 162 81 65 H 0.434 EAD/END 215T 1750 25.0 12.5 10.0 89.5 89.5 89.0 0.84 0.81 0.74 30.00 210 240 162 81 65 H 0.976 END 256T 1170 27.5 13.8 11.0 89.5 90.2 89.0 0.80 0.76 0.68 45.14 200 250 162 81 65 H 2.73

11 15 2 END 254T 3504 35.0 17.5 14.0 90.2 89.5 88.0 0.88 0.86 0.78 22.10 250 300 232 116 92.8 G 0.774 END 254T 1752 35.0 17.5 14.0 91.0 91.0 89.5 0.84 0.82 0.74 44.21 200 250 232 116 92.8 G 2.146 END 284T 1170 37.5 18.8 15.0 90.2 90.2 89.0 0.80 0.76 0.68 66.21 200 250 232 116 92.8 G 3.80

15 20 2 END 256T 3504 47.5 23.8 19.0 90.2 90.2 89.0 0.88 0.86 0.79 30.50 250 300 290 145 116 G 1.014 END 256T 1752 50.0 25.0 20.0 91.0 91.0 89.5 0.84 0.83 0.75 60.29 200 250 290 145 116 G 2.796 END 286T 1170 52.5 26.3 21.0 90.2 91.0 89.5 0.80 0.73 0.68 90.28 225 275 290 145 116 G 6.88

18.5 25 2 END 284TS 3504 57.5 28.8 23.0 91.0 91.0 89.5 0.88 0.86 0.79 37.18 275 325 365 182.5 146 G 1.254 END 284T 1770 60.0 30.0 24.0 92.4 91.7 90.0 0.84 0.80 0.72 73.60 200 250 365 182.5 146 G 4.816 END 324T 1170 60.0 30.0 24.0 91.7 91.7 90.0 0.84 0.82 0.73 111.35 200 250 365 182.5 146 G 10.03

22 30 2 END 286TS 3504 65.0 32.5 26.0 91.0 91.0 89.5 0.92 0.90 0.84 44.21 275 325 435 217.5 174 G 2.614 END 286T 1770 70.0 35.0 28.0 92.4 92.4 91.0 0.86 0.84 0.77 87.53 200 250 435 217.5 174 G 5.646 END 326T 1170 72.5 36.3 29.0 91.7 92.4 91.0 0.84 0.82 0.78 132.40 200 250 435 217.5 174 G 12.10

30 40 2 END 324TS 3528 92.5 46.3 37.0 91.7 91.7 90.0 0.90 0.89 0.87 59.88 200 250 580 290 232 G 4.754 END 324T 1770 90.0 45.0 36.0 93.0 93.0 91.0 0.89 0.86 0.78 119.36 250 300 580 290 232 G 9.616 END 364T 1176 95.0 47.5 38.0 93.0 93.0 91.0 0.85 0.82 0.73 179.64 200 250 580 290 232 G 21.42

37 50 2 END 326TS 3540 112.5 56.3 45.0 92.4 92.4 91.0 0.90 0.89 0.87 73.60 200 250 725 362.5 290 G 5.284 END 326T 1776 112.5 56.3 45.0 93.0 93.0 91.0 0.89 0.86 0.78 146.70 250 300 725 362.5 290 G 15.666 END 365T 1176 120.0 60.0 48.0 93.0 93.0 92.0 0.84 0.81 0.72 221.56 250 300 725 362.5 290 G 28.59

45 60 2 END 364TS 3546 130.0 65.0 52.0 93.0 93.0 91.0 0.94 0.92 0.88 89.37 225 275 870 435 348 G 11.094 END 364TS 1776 135.0 67.5 54.0 93.6 93.6 92.0 0.89 0.86 0.78 178.43 250 300 870 435 348 G 18.566 END 405T 1164 142.5 71.3 57.0 93.6 93.0 91.0 0.85 0.81 0.73 272.24 200 250 870 435 348 G 47.52

55 75 2 END 365TS 3546 157.5 78.8 63.0 93.0 93.0 91.0 0.94 0.92 0.88 109.22 175 225 1085 542.5 434 G 16.554 END 365TS 1770 165.0 82.5 66.0 94.1 94.1 92.0 0.89 0.86 0.82 218.82 200 250 1085 542.5 434 G 20.466 END 405T 1164 175.0 87.5 70.0 93.6 93.0 91.0 0.84 0.80 0.72 332.74 200 250 1085 542.5 434 G 50.67

75 100 2 END 405TS 3546 215.0 107.5 86.0 93.6 93.0 91.0 0.94 0.92 0.88 148.94 150 200 1450 725 580 G 42.854 END 405T 1770 232.5 116.3 93.0 94.5 94.1 92.0 0.86 0.82 0.74 298.39 200 250 1450 725 580 G 42.75

Notes - Performance at 230V and 460V is applicable for 230/460V motors, suitably connected. Performance at 575V is for 575V motors.- FL - Full Load, LR - Locked Rotor, BD - Break Down- Minimum efficiencies shall be as per NEMA MG 1

MotorsEpact

C

2F

X

X

SECT. 'X X'

HD

GDES

B

SU

R

V

N-W

BA

P

A

J

4 HOLES OF H

2E

D

CABLE ENTRY SCREWEDFOR 'AA' B.S. CONDUITFOR CABLE GLAND

TEFC, ALUMINIUM FOOT MOUNTED

TEFC, CAST IRON FOOT MOUNTED

Frame Mounting Keyway Shaft Ext.

Size 2E 2F H BAA B C D J P HD AA

S GD R ES V N-W U

143T5.50

4.000.34 2.25 6.70 5.95

12.403.50 1.50 7.10 9.00 NPT ¾” 0.188 0.188 0.771 1.41 1.575 2.25 0.875

145T 5.00 13.40

182T7.50

4.502.75 8.75 6.70 15.35 4.50 2.00 8.75 11.00 NPT ¾” 0.250 0.250 0.986 1.78 1.900 2.75 1.125

184T 5.500.41

213T8.50

5.503.50 9.92

7.0018.94 5.25 2.00 10.24 12.53 NPT 1” 0.312 0.312 1.201 2.41 2.560 3.38 1.375

215T 7.00 8.50

KEYFrame A B C D 2E 2F G H J BA P HD U R N-W XFS GD ES

AB AC AF AA

143T6.614

5.00 12.6833.50 5.50

4.000.511 0.34 1.377 2.25 7.48 -- 0.875 0.771 2.25

-0.188 0.188 1.41 05.90 06.10 2.46 ¾

145T 5.984 13.667 5.00 4.00182T

8.746.692 15.348

4.50 7.504.50

0.511 0.41 1.417 2.75 9.055 10.82 1.125 0.986 2.75-

0.250 0.250 1.78 6.69 7.20 2.46 ¾184T 6.692 16.332 5.50 4.50213T

10.007.00 18.734

5.25 8.505.50

0.629 0.41 1.889 3.50 10.62 12.59 1.375 1.201 3.38-

0.312 0.312 2.41 7.48 8.65 2.46 1215T 8.50 20.309 7.00 5.50254T

12.125 11.75 25.30 6.25 10.008.25

0.875 0.55 2.87 4.25 12.52 14.8 1.625 1.416 4.00-

0.375 0.375 2.91 10.48 9.90 2.83 1¼256T 10.00 8.25

284TS 27.09.50

1.625 1.416 3.25-

0.375 0.375 1.91284T 13.70 12.75

28.447.00 11.00 0.875 0.55 3.3 4.75 13.86 16.5

1.875 1.591 4.62 0.500 0.500 3.2811.25 11.27 2.83 2

286T 11.00 9.50324TS 32.2

10.501.875 1.591 3.75

-2.03

324T 15.00 14.033.7

8.00 12.50 1.00 0.66 2.6 5.25 16.85 18.92.125 1.845 5.25

0.500 0.5003.91

13.19 12.45 2.83 2326T 12.00 10.50

364TS 33.0011.25

1.875 1.591 3.75-

0.500 0.500 2.03364T 16.73 15.75 9.00 14.00 1.00 0.66 2.75

5.8818.50 21.02

2.375 2.021 5.88 0.625 0.625 4.2815.98 15.00 5.35 3

365T35.01

12.25 11.25404T

19.00 17.75 40.2 10.00 16.0012.25

1.25 0.18 3.15 6.62 19.68 23.54 2.875 2.450 7.25 0.75 0.75 5.65 17.08 15.55 5.35 3405T 13.75 12.25

All dimensions are in inches. Please call for certifieddrawing for engineering purpose. 2

2F±.03

AC

2E±.03

B A

AB

AF

H

J

%%cAA

D

HD

G

Ø P

XF

KEY

+.05-.00

C

BA±.09

R

ØU

S GD

SECT.- XX

ES

N-W

MotorsEpact

3

45°

C

2F

X

X

SECT. "X-X"

HD

GD

ES

BC

BD

AK

AH

BB

B

S U

R

V

N-W

BA

P

A

J

4 HOLES OF Ø H

2E

D

CABLE ENTRY SCREWEDFOR 'AA' B.S. CONDUIT FORCABLE GLAND

BF HOLES ON AJ P.C.D.EQUI-SPACED

TEFC, ALUMINIUM ‘C’ TYPE FLANGE MOUNTED

All dimensions are in inches. Please call for certifieddrawing for engineering purpose.

Ø P

EARTHING TERMINALS

CABLE ENTRY 'KK'

C±0.25

BC=0±1mm

BB

ECCENTRICITY

X

ES

X

N-W

AK

(R

AB

BE

T)

Ø B

D

FLANGE FACE RUNOUT& SHAFT RUNOUT

EYE BOLT WHEN REQD.

AF

XL

AB

45°

'N'-HOLES Ø 'BF' AS SHOWNON 'AJ' PCD

HB

SGD

R

Ø U

SECT.- XX

TEFC, CAST IRON ‘C’ TYPE FLANGE MOUNTED

Frame Face Fixing Shaft and Keyway OverallSize AJ AK BB max BD max ØBF N U N-W R ES min S GD AB Ø P C HB XL AF KK

143 TC5.875 4.5 0.16 6.5 3/8-16 4 0.875 2.12 0.771 1.41 0.188 0.188 5.90 7.48

12.56-- 5.07 2.46 1×3/4”

145 TC 13.55

182 TC7.25 8.5 0.25 9.0 1/2-13 4 1.125 2.62 0.986 1.78 0.25 0.25 6.69 9.05

15.21-- 5.07 2.46 1×3/4”

184 TC 16.20

213 TC7.25 8.5 0.25 9.0 1/2-13 4 1.375 3.12 1.201 2.41 0.312 0.312 7.48 10.62

18.5-- 5.07 2.46 1×1”

215 TC 20.04

254 TC7.25 8.5 0.25 10 1/2-13 4 1.625 4 1.416 2.91 0.375 0.375 10.48 12.52 25.3 16.57 6.49 2.83 1×1”

256 TC

284 TC9.0 10.5 0.25 11.25 1/2-13 4 1.875 4.62 1.591 3.28 0.500 0.500 11.25 13.86 28.44 18.82 6.49 2.83 1×1.5”

286 TC

324 TC11 12.5 0.25 14 5/8-11 4 2.125 5.25 1.845 3.91 0.500 0.500 13.19 16.85 33.7 21.93 6.49 2.83 1×2”

326 TC

364 TC11 12.5 0.25 14 5/8-11 8 2.375 5.88 2.021 4.28 0.625 0.625 15.98 18.5 35.01 24.33 10.32 5.35 1×3”

365 TC

404 TC11 12.5 0.25 15.5 5/8-11 8 2.875 7.25 2.450 5.65 0.75 0.75 17.08 19.68 40.2 27.08 10.32 5.35 1×3”

405 TC

FRAME MOUNTING KEYWAY SHAFT EXT. FLANGE BF BOLTSIZE 2E 2F H BA A B C D J P HD AA S GD R ES V N-W U AJ AK BD BB BC AH NO. TAP SIZE PENETR

143TC5.50

4.00.34 2.25 6.70 5.95

12.43.5 1.5 7.1 9.0 NPT ¾” 0.188 0.188 0.771 1.41 1.575 2.25 0.875 5.875 4.50 6.50 0.16 2.12 UNC 3/8”×16 0.56

145TC 5.0 13.40.12

182TC7.50

4.502.75 8.75 6.70 15.35 4.5 2.0 8.75 11.0 NPT ¾” 0.25 0.25 0.986 1.78 1.9 2.75 1.125 2.62 4

184TC 5.507.250 8.50 9.00 0.25 UNC 1/2”×13 0.75

213TC8.50

5.500.41

3.50 9.927.0

18.94 5.25 2.0 10.24 12.53 NPT 1” 0.312 0.312 1.201 2.41 2.56 3.38 1.375 0.25 3.12215TC 7.0 8.5

MotorsEpact

Ø P

CABLE ENTRY 'KK'

EARTHING TERMINALS

C±0.25

BB

ECCENTRICITY

X

ES

X

BE

BC=0±1mm

AH

& SHAFT RUNOUTFLANGE FACE RUNOUT

ØA

K (

RA

BB

ET

)

Ø B

D

AF

XL

EYE BOLT WHEN REQD.

AB

45°

ON 'AJ' PCD'N'-HOLES Ø 'BF' AS SHOWN

HB

SECT.- XX

Ø U

R

GD

S

TEFC, CAST IRON ‘D’ TYPE FLANGE MOUNTED

Frame Flange Fixing Shaft and Keyway OverallSize AJ AK BB max BD max ØBF BE N U AH R ES min S GD AB Ø P C HB XL AF KK

143 TD10.0 9.0 0.25 11 0.53 0.5 4 0.875 2.25 0.771 1.41 0.188 0.188 5.90 7.48

12.68-- 5.07 2.46 1×3/4”

145 TD 13.66

182 TD10.0 9.0 0.25 11 0.53 0.5 4 1.125 2.75 0.986 1.78 0.25 0.25 6.69 9.05

15.34-- 5.07 2.46 1×3/4”

184 TD 16.33

213 TD10.0 9.0 0.25 11 0.53 0.5 4 1.375 3.38 1.201 2.41 0.312 0.312 7.48 10.62

18.73-- 5.07 2.46 1×1”

215 TD 20.30

254TD12.5 11.0 0.25 14 0.81 0.75 4 1.625 4.0 1.416 2.91 0.375 0.375 10.48 12.52 25.3 16.57 6.49 2.83 1×1”

256TD

284TD12.5 11.0 0.25 14 0.81 0.75 4 1.875 4.62 1.591 3.28 0.500 0.500 11.25 13.86 28.44 18.82 6.49 2.83 1×1.5”

286TD

324TD16.0 14.0 0.25 18 0.81 0.75 4 2.125 5.25 1.845 3.91 0.500 0.500 13.19 16.85 33.7 21.93 6.49 2.83 1×2”

326TD

364TD16.0 14.0 0.25 18 0.81 0.75 4 2.375 5.88 2.021 4.28 0.625 0.625 15.98 18.5 35.01 24.33 10.32 5.35 1×3”

365TD

404TD20.0 18.0 0.25 22 0.81 1.00 8 2.875 7.25 2.450 5.65 0.75 0.75 17.08 19.68 40.2 27.08 10.32 5.35 1×3”

405TD

TEFC, ALUMINIUM ‘D’ TYPE FLANGE MOUNTED

Frame Flange Fixing Shaft and Keyway OverallSize AJ AK BB max BD max ØBF BE N U AH R ES min S GD AB Ø P C KK

143 TD10.0 9.0 0.25 11 0.53 0.5 4 0.8750 2.25 0.771 1.41 0.188 0.188 5.5 7.10

12.41×1”

145 TD 13.4

182 TD10.0 9.0 0.25 11 0.53 0.5 4 1.1250 2.75 0.986 1.78 0.250 0.250 6.5 8.75 15.35 1×1.5”

184 TD

213 TD10.0 9.0 0.25 11 0.53 0.5 4 1.3750 3.38 1.201 2.41 0.312 0.312 7.3 10.24 18.94 1×2”

215 TD

4

CABLE ENTRY KK

Ø P

C±0.2

BB'X'

AH

ES

ECCENTRICITY

'X'

BE

BC=0 ±1mm

Ø B

D

ØA

K (

RA

BB

ET

)

FLANGE FACE RUNOUT& SHAFT RUNOUT

AB

45°

'N' HOLES DRILL Ø 'BF' ASSHOWN ON 'AJ' PCD. SECT. X-X

U

S

RG

D

MotorsEpact

5

CABLE ENTRY SCREWEDFOR 'AA' B.S. CONDUITFOR CABLE GLAND

C

ER

AH

AH

X

EL ES

EM

AK

BD

EP

X

FOR 143-184 JM & JP

FOR 213-215 JM & JP

BB

EQ

ET ET

EQ

FOR 213-215 JM & JP

FOR 143-184 JM & JPP

EQUI-SPACEDBF HOLES ON AJ P.C.D.

45°

EN CLASS 3 R.H.

RG

D S

U

TEFC, ‘JM & JP’ TYPE ALUMINIUM FLANGE MOUNTED

EARTHING TERMINALS OF M8 SIZE

CABLE ENTRY 'KK'

FOR 143-184 JM & JP

FOR 213-215JM & JP

BB

AH

AH

C ± 0.25FOR 143-184 JM & JP

FOR 213-215 JM & JP ERET

ET

EQEQ X

ØE

P

ØE

LØ

EM

X

ES

Ø A

K

Ø B

D

ECCENTRICITY


EQUI-SPACEDABBF HOLES ON 'AJ’ ' PCD.

45°EN CLASS 3 R.H.

S

GD

R

Ø U

SECT.- XX

P

TEFC, ‘JM & JP’ TYPE ALUMINIUM FLANGE MOUNTED

Frame Mounting BF Bolt Keyway Shaft Extension ENSize AJ AK BD BB NO. TAP Penetr AB C P S GD R ES U AH ER ET EP EQ EL EM Tap Tap Drill Bolt Penetr AA

max Size min min Size Depth Allowance

143JM/ 4.281/ 4.25 2.890/ 0.640/145JM

5.875 4.500 6.62 0.156 4 UNC 0.56 5.9 15.7 7.5 0.188 0.188 0.771 1.65 0.8745 4.219 2.8601.156

0.610 1.156 1.0000 3/8-16 1.12 0.75 NPT143JP/ 4.497 0.125 3/8” × 16 18.7 0.190 0.190 0.756 0.8740 7.343/ 7.312 5.952 1.578/ 1.154 0.9995 3/4”145JP 7.281 5.922 1.548

182JM/ 4.281/ 4.25 2.890/ 0.640/184JM

5.875 4.500 6.62 0.156 4 UNC 0.56 6.7 17.8 8.75 0.188 0.188 0.771 1.65 0.8745 4.219 2.8601.250

0.610 1.250 1.0000 3/8-16 1.12 0.75 NPT182JP/ 4.497 0.125 3/8” × 16 20.8 0.190 0.190 0.756 0.8740 7.343/ 7.312 5.952/ 1.578/ 0.248 0.9995 3/4”184JP 7.281 5.922 1.548

213JM/ 0.188 0.188 0.771 1.65 0.8745 4.281/ 4.25 2.890/ 0.640/ 1.250 1.0000 3/8-16 1.12 0.75215JM

7.250 8.500 9.00 0.312 4 UNC 0.75 7.5 21.1 10.60.190 0.190 0.756 0.8740 4.219 2.860

1.7500.610 0.248 0.9995 NPT

213JP/ 8.497 0.250 1/2” × 13 25.0 0.252 0.252 1.112 2.53 1.2495 8.156/ 8.125 5.890/ 2.390/ 1.750 1.3750 1/2-13 1.50 1.001”

215JP 0.250 0.250 1.097 1.2495 8.094 5.860 2.360 1.748 1.3745

Frame Mounting BF Bolt Keyway Shaft Extension ENSize AJ AK BD BB NO. TAP Penetr C P S GD R ES U AH ER ET EP EQ EL EM Tap Tap Drill Bolt Penetr AA

max Size min min Size Depth Allowance

143JM/ 4.281/ 4.25 2.890/ 0.640/145JM

5.875 4.500 6.62 0.156 4 UNC 0.56 15.4 7.5 0.188 0.188 0.771 1.65 0.8745 4.219 2.8601.156

0.610 1.156 1.0000 3/8-16 1.12 0.75 NPT143JP/ 4.497 0.125 3/8” × 16 18.5 0.190 0.190 0.756 0.8740 7.343/ 7.312 5.952 1.578/ 1.154 0.9995 3/4”145JP 7.281 5.922 1.548

182JM/ 4.281/ 4.25 2.890/ 0.640/184JM

5.875 4.500 6.62 0.156 4 UNC 0.56 16.8 8.75 0.188 0.188 0.771 1.65 0.8745 4.219 2.8601.250

0.610 1.250 1.0000 3/8-16 1.12 0.75 NPT182JP/ 4.497 0.125 3/8” × 16 19.9 0.190 0.190 0.756 0.8740 7.343/ 7.312 5.952/ 1.578/ 0.248 0.9995 3/4”184JP 7.281 5.922 1.548

213JM/ 0.188 0.188 0.771 1.65 0.8745 4.281/ 4.25 2.890/ 0.640/ 1.250 1.0000 3/8-16 1.12 0.75215JM

7.250 8.500 9.00 0.312 4 UNC 0.75 19.7 10.60.190 0.190 0.756 0.8740 4.219 2.860

1.7500.610 0.248 0.9995 NPT

213JP/ 8.497 0.250 1/2” × 13 23.7 0.252 0.252 1.112 2.53 1.2495 8.156/ 8.125 5.890/ 2.390/ 1.750 1.3750 1/2-13 1.50 1.001”

215JP 0.250 0.250 1.097 1.2495 8.094 5.860 2.360 1.748 1.3745

MotorsEpact

ECCENTRICITY

4-HOLES 'BF'

EARTHING TERMINALS

CABLE ENTRY 'KK'

ø P

OF M8 SIZE

AS SHOWN ON 'AJ' PCD

X

X

SECT.- XX

AB

XL

AF

S

R

ø U

ES

BC=0 ±1mm

EQ

ER

ET

ø A

K

øE

L

øE

M

øE

P

45°

ø B

D

C ± 0.25


HB

1-TAP DRILL 1/2-13X1.5 DEEP

BBAH

TEFC, CAST IRON ‘JM/JP’ TYPE FACE MOUNTED

Frame Flange Fixing Shaft and Keyway OverallSize AJ AK BBmax BDmax øBF EL EM U AH R ESmin S EP min EQ ER ET AB ø P C HB XL AF KK

254JM7.250

8.500 0.31210 1/2-13

1.750 1.3750 1.2495 5.281 1.1122.53

0.2521.750

0.6405.25

3.01510.48 12.52 26.54 16.57 6.49 2.83 1

256JM 8.497 0.250 1.748 1.3745 1.2490 5.219 1.097 0.250 0.610 2.985

254JP7.250

8.500 0.31210 1/2-13

1.750 1.3750 1.2495 8.156 1.1122.53

0.2521.750

2.3908.125

5.89010.48 12.52 29.41 16.57 6.49 2.83 1

256JP 8.497 0.250 1.748 1.3745 1.2490 8.094 1.097 0.250 2.360 5.860

284JM11.00

12.50 0.31214 5/8-11

1.750 1.3750 1.2495 5.281 1.1122.53

0.2522.125

0.6455.25

3.02011.25 13.86 29.09 18.82 6.49 2.83 1.5

286JM 12.495 0.250 1.748 1.3745 1.2490 5.219 1.097 0.250 0.605 2.980

284JP11.00

12.50 0.31214 5/8-11

1.750 1.3750 1.2495 8.156 1.1122.53

0.2522.125

2.3908.125

5.89511.25 13.86 31.96 18.82 6.49 2.83 1.5

286JP 12.495 0.250 1.748 1.3745 1.2490 8.094 1.097 0.250 2.360 5.855

324JM11.00

12.50 0.31214 5/8-11

1.750 1.3750 1.2495 5.281 1.1122.53

0.2522.125

0.6455.25

3.02013.19 16.85 32.64 21.93 6.49 2.83 2

326JM 12.495 0.250 1.748 1.3745 1.2490 5.219 1.097 0.250 0.605 2.980

324JP11.00

12.50 0.31214 5/8-11

1.750 1.3750 1.2495 8.156 1.1122.53

0.2522.125

2.3958.125

5.89513.19 1.85 35.51 21.93 6.49 2.83 2

326JP 12.495 0.250 1.748 1.3745 1.2490 8.094 1.097 0.250 2.355 5.855

6

TOLERANCESFlange Mounted Frame 143T to 405T

Keyseat Width .188 Thru .750 +.002/–.000Keyseat Over .750 Thru 1.250 +.003/–.000Parallel to “V” = Over 4.00 Thru 10.00 .0005/IN. of “V”Centerline “V” = Over 10.00 .005

Shaft Runout.625 Thru 1.625 Dia. .002

F.I.M.Over 1.625 Thru 3.375 Dia. .003Dimension “U” .875 Thru 1.500 Dia. +.000/–.0005Dimension “U” Over 1.500 Thru 3.375 Dia. +.000/–.001Dimension “D” 143T Thru 405T +.00/–.06

Frame Eccentricity of Flange Face ShaftSize Mounting Rabbet Runout Runout

143-256 0.004” 0.004” 0.002”

284-326 0.006” 0.006” 0.003”

Tolerances On Dimensions:

Dimension AJ AK BB max.

ToleranceCentreline of øBF

+0.000”/–0.005” +0.00”/–0.05”holes within ±0.025”

Dimension S ‘S’ On Shaft ROn Key Width(s)/Key Height(GD)

Tolerance 0.188–0.312+0.002”/ +0.000”/

+0.000”/–0.003”–0.000” –0.005”

Tolerance 0.375–0.75+0.003”/ +0.000”/

+0.000”/–0.003”–0.000” –0.009”

Foot Mounted Frame 143T to 405T

Keyseat Width .188 Thru .750 +.002/–.000Keyseat Over .750 Thru 1.250 +.003/–.000Parallel to “V” = Over 4.00 Thru 10.00 .0005/IN. of “V”Centerline “V” = Over 10.00 .005

Shaft Runout.625 Thru 1.625 Dia. .002

F.I.M.Over 1.625 Thru 3.375 Dia. .003Dimension “U” .875 Thru 1.500 Dia. +.000/–.0005Dimension “U” Over 1.500 Thru 3.375 Dia. +.000/–.001Dimension “D” 143T Thru 405T +.00/–.06

Frame Eccentricity of Flange Face ShaftSize Mounting Rabbet Runout Runout

143-215 0.004” 0.004” 0.002”

‘JM/JP’ Face Mounted

Dimension AJ AK 88 max. U

Tolerance Centreline of øBF +0.000”/ +0.00”/ +0.000”/holes within ±0.025” –0.005” –0.05” –0.001”

Dimension S ‘S’ On Shaft ROn Key Width(s)/Key Height(GD)

Tolerance 0.188–0.312+0.002”/ +0.000”/

+0.000”/–0.003”–0.000” –0.005”

Tolerance 0.375–0.75+0.003”/ +0.000”/

+0.000”/–0.003”–0.000” –0.009”

MotorsEpact

DIMENSIONS AND WEIGHTS

7 Product improvement is a continuous process. Hence datagiven in this catalogue is subject to change without intimation.

TOTAL LENGTH SHIPPING DETAILSFRAMEOF MOTOR

NETPACKING GROSS LENGTH BREADTH HEIGHT VOLUMESIZE

‘C’ (in)WT.(lb)

WT. (lb) (in) (in) (in) (cu. in.)

ALUMNIUM FRAME MOTORS – TERMINAL BOX ON TOP

143 12.400 33 Carton 38 15.75 9.25 12.00 1770145 13.400 44 Carton 49 15.75 9.25 12.00 1770182 15.350 64 Carton 71 16.34 10.43 13.77 2349213 18.940 102 Carton 111 22.24 14.17 17.91 5645215 18.940 114 Carton 126 22.24 14.17 17.91 3814

CAST IRON FRAME MOTORS – TERMINAL BOX ON SIDE

143 12.683 49 Wooden 57 16.14 12.2 10.62 2075145 13.667 55 Wooden 64 16.14 12.2 10.62 2075182 15.348 93 Wooden 106 19.49 14.57 12.59 3600184 16.332 99 Wooden 112 19.49 14.57 12.59 3600213 18.734 150 Wooden 168 23.62 16.93 14.96 5980215 20.309 174 Wooden 194 23.62 16.93 14.96 5980254 25.300 267 Wooden 395 32.52 24.21 21.063 16476256 25.300 315 Wooden 450 32.52 24.21 21.063 16476284 27.000 384 Wooden 551 36.81 28.15 22.44 23189286 28.440 450 Wooden 617 36.81 28.15 22.44 23189326 33.700 560 Wooden 807 40.35 32.48 27.55 36004364 33.000 772 Wooden 1019 40.35 32.48 27.55 36004365 35.010 838 Wooden 1085 40.35 32.48 27.55 36004404 40.200 1014 Wooden 1292 45.28 33.27 27.95 42106405 40.200 1102 Wooden 1385 45.28 33.27 27.95 42106

BEARING REFRENCE

FRAME POLARITY DE BEARING ODE BEARING

143T / 145T 2/4/6 6205ZZ 6205ZZ

182T / 184T 2/4/6 6306ZZ 6205ZZ

213T / 215T 2/4/6 6308ZZ 6305ZZ

254T / 256T 2/4/6 6309 C3 6306 C3

284T / 286T 2/4/6 6310 C3 6310 C3

324T / 325T 2/4/6 6312 C3 6312 C3

364T / 365T 2/4/6 6313 C3 6313 C3

404T / 405T 2/4/6 6315 C3 6314 C3

MotorsEpact

NOTES..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

..................................................................................................................................................................................................................................

8

Crompton Greaves Limited, established in1937, has witnessed over six decades ofunparalleled growth to have current sales ofover Rs. 16 Billion (US $ 330 Millions). With anelectrifying attitude, a fusion of experienceand expertise in the field of applied energy,extensive R & D, advanced technology,dedicated workforce, superior manufacturingskills, exacting standards of quality anddiverse and distinctive competencies thatconverge, Crompton Greaves offers acomprehensive portfolio of products andservices for Generation, Transmission,Distribution and Utilisation of power in variousapplications. Its presence is well establishedand widespread, notably in the Utilities,Industry, Agriculture, Transportation,Informatics, Telecommunication and LifestyleProducts.

CG InternationalInternational Operations ofCrompton Greaves Limited

‘Jagruti’, Kanjurmarg (East),Mumbai (Bombay) - 400 042. (INDIA)

Telephones : +91-22-2578 2451Direct : +91-22-2577 6524 / 6649Fax : +91-22-2577 4066E mail : [email protected] Page : http://www.cglonline.com C

G.ID

/57/

NE

MA

/3/0

3

Crompton Greaves promotes a high level ofResearch and Development activities tomaintain a technological lead and competitiveadvantage. R & D operations are structured toinitiate a techno-active response right throughthe company, getting research out of the labsin to the products. Numerous awards andISO 9000 certifications have accredited theexacting standards of quality management.

Today, Crompton Greaves InternationalOperations are spread over all the continentsin the world to become the largest from Indiain each segment of Transformers, Switchgear,L.V. Controlgear, Motors and AC Generators,Pumps and Fans.

As the new millennium consumers plug-in to aswitched-on future, Crompton Greaves, amember of the B. M. Thapar Group andInvensys plc., will continue to play anelectrodynamic role …engineering the rightsolutions … making a difference to life andthriving in an increasingly wired world.

Crompton Greaves operates through followingStrategic Business Units, each completelyresponsible for focussed manufacturing,marketing and value creation in the respectiveoperating segment.

Power Sys tems � Indus t r ia l Sys tems � Consumer Produc ts � In fo r mat ics & Te lecom

ExpressionsofPower

Digital• Informatics• Telecom

ConsumerProducts• Lighting• Fans• Pumps

Power Systems• Transformers• Switchgear• Engineering Projects

IndustrialSystems• Industrial & FHP Motors• AC Generators• Rail Transportation

37%

31%

22%10%

CG House, Mumbai

Epact Motors 040309

Documents

Transcript of Epact Motors 040309