China Horizontal G3lm-G3FM-G3ls-G3fs 0.1-0.2-0.4-0.75-1.5-2.2kw Helical Gearboxes with Great quality

Product Description

 

Merchandise Description

Primary Functions:
one) Manufactured of high high quality content,  non-rustingBoth flange and foot mounting available and suited for all-spherical installation
two) Large output torque and large radiating efficiency
three)Exact grinding helical gear with Easy running and minimal noise, no deformation,can operate lengthy time in dreadful problem
4)Great visual appeal, sturdy service lifestyle and little quantity, compact construction
five)Equally 2 and 3 stage obtainable with extensive ratio variety from 5 to two hundred
6)Distinct output shaft diameter offered -forty-50mm
7)Modular development enlarge ratio from 5 to 1400

Main Resources:
one)housing with aluminium alloyand solid iron material
2)Output Shaft Materials:20CrMnTi
three)Excellent quality no sound bearings to hold prolonged services daily life
four)Substantial efficiency oil seal to avoid from oil leakage

Purposes:
G3 Series helical equipment motor are broad utilised for all sorts of automatic gear, this kind of as chip removal device, conveyor, packaging gear, woodworking equipment, farming equipment, slurry scraper ,dryer, mixer and so on.

In depth Photographs

Product Parameters

 

(n1=1400r/min  50hz)
norminal ratio five 10 15 twenty twenty five 30 forty 50 60 80 100 100 120 a hundred and sixty   200   
0.1kw output shaft  Ø18 Ø22
n2* (r/min) 282 138 ninety two 70 fifty six forty six 35 28 23 18 fourteen 11 nine 7
M2(Nm) 50hz three.2 6.5 9.8 12.9 16.one 19.6 25.7 31.one 37.5 49.5 62.nine 76.one 100.seven 125.4
60hz three five 8 11 13 17 21 26 31 41 fifty two 63 eighty four one zero five
Fr1(N) 588 882 980 1180 1270 1370 1470 1570 2160 2450 2450 2450 2450 2450 2450
Fr2(N) 176
norminal ratio five ten fifteen 20 25 thirty forty fifty 60 80 one hundred a hundred 120 one hundred sixty 200
0.2kw output shaft  Ø18 Ø22 Ø28
n2* (r/min) 282 138 92 70 fifty six 45 35 29 23 18 14 13 12 8 seven
M2(Nm) 50hz 6.five twelve.six 19.1 26.three 32.six 38.9 fifty.four 63 seventy five.six a hundred.8 103.nine 125.4 150 200.four 250.seven
60hz five.4 10.5 16.six 21.9 27.1 32.4 forty two fifty two.5 63 eighty four 86.6 104.5 one hundred twenty five 167 208.9
Fr1(N) 588 882 980 1180 1270 1760 1860 1960 2160 2450 2450 2840 3330 3430 3430
Fr2(N) 196
norminal ratio 5 ten fifteen twenty 25 30 forty fifty 60 eighty a hundred 100 120 a hundred and sixty two hundred
0.4kw output shaft  Ø22 Ø28 Ø32
n2* (r/min) 288 144 ninety two seventy two 58 47 36 29 24 eighteen fourteen fourteen 12 nine 7
M2(Nm) 50hz 12.9 25 38.six fifty one.four sixty five.4 seventy eight.two 100.7 a hundred twenty five.4 150 two hundred.four 206.eight 250.7 301.one 400.7 461.eight
60hz ten.seven twenty.eight 32.one forty two.9 54.five sixty five.two eighty three.nine 104.five a hundred twenty five 167 172.three 208.nine 250.nine 333.9 384.eight
Fr1(N) 882 1180 1370 1470 1670 2550 2840 3140 3430 3430 3430 4900 5880 5880 5880
Fr2(N) 245
norminal ratio 5 10 fifteen twenty twenty five thirty forty 50 60 eighty one hundred 100 one hundred twenty one hundred sixty two hundred
0.75kw output shaft  Ø28 Ø32 Ø40
n2* (r/min) 278 140 94 69 fifty eight 46 35 29 24 eighteen 14 fourteen 11 9 7
M2(Nm) 50hz 24.6 forty eight.2 72.9 ninety seven.5 122.1 one hundred forty five.7 187.5 235.seven 282.nine 376.one 387.9 439 527 703 764
60hz twenty.five forty.two sixty.seven 81.3 201.eight 121.4 156.three 196.four 235.seven 313.four 323.two 366 439 585 732
Fr1(N) 1270 1760 2160 2350 2450 4571 4210 4610 5490 5880 5880 7060 7060 7060 7060
Fr2(N) 294
norminal ratio 5 ten 15 20 twenty five thirty forty 50 sixty 80 one hundred a hundred 120 one hundred sixty two hundred
1.5kw output shaft  Ø32 Ø40 Ø50
n2* (r/min) 280 one hundred forty ninety three 70 55 forty seven 34 27 24 17 14 13 12 eight seven
M2(Nm) 50hz 48.two 97.five one hundred forty five.7 193.nine 242.1 272 351 439 527 703 724 878 1060 1230 1230
60hz forty.2 81.3 121.4 161.six 201.8 226 293 366 439 585 603 732 878 1170 1230
Fr1(N) 1760 2450 2840 3230 3820 5100 5880 7060 7060 7060 7060 9800 9800 9800 9800
Fr2(N) 343
norminal ratio five ten fifteen 20 twenty five 30 40 fifty sixty eighty a hundred        
2.2kw output shaft  Ø40 Ø50  
n2* (r/min) 272 136 95 68 54 forty five 36 28 24 18 fourteen        
M2(Nm) 50hz sixty seven 133 two hundred 266 332 399 515 644 773 1571 1230        
60hz fifty six 111 167 221 277 332 429 537 644 858 1080        
Fr1(N) 2160 3140 3530 4571 4700 6960 7250 8620 9800 9800 9800        
Fr2(N) 392

Define and mounting dimension:

G3FM: A few Phase Gear MOTOR WITH FLANGE                                                                                       (n1=1400r/min)
Power kw output shaft ratio A F I J M O O1 P Q R S T U W X Y Y1
regular brake
0.1kw  Ø18 five–30-40-50 236 270 192.5 eleven 16.5 one hundred seventy 4 10 30 a hundred forty five 35 eighteen twenty.five 129 six 157 80 eighty one
 Ø22 -a hundred and sixty-two hundred 262 296 197.5 eleven 19 185 4 twelve forty 148 forty seven 22 24.five 129 six 171.five 89.5 83.five
0.2kw  Ø18 5- 267 270 192.five eleven 16.five one hundred seventy four 10 thirty a hundred forty five 35 eighteen twenty.five 129 six 161 eighty 81
 Ø22 -eighty-a hundred 293 296 197.5 11 19 185 4 12 40 148 forty seven 22 24.five 129 six 171.five 89.5 eighty three.5
 Ø28 306 309.5 208.5 11 23.5 215 4 15 45 one hundred seventy 50 28 31 129 8 198.5 one zero five.5 88
0.4kw  Ø22 5- 314 324.five 204 eleven 19 185 4 twelve forty 148 47 22 24.five 139 6 171.five 89.five 88.5
 Ø28 -80-a hundred 330 337.5 215 11 23.5 215 four fifteen 45 a hundred and seventy 50 28 31 139 8 198.5 one hundred and five.five 93
 Ø32 349 357 229.5 thirteen 28.5 250 four 15 55 180 sixty 32 35 139 ten 234 126 ninety eight
0.75kw  Ø28 5- 350.5 343.five 227.five 11 23.five 215 4 fifteen forty five one hundred seventy fifty 28 31 159 8 198.5 one hundred and five.5 103
 Ø32 -80-100 379.five 387 242 thirteen 28.5 250 4 fifteen fifty five 180 60 32 35 159 10 234 126 108
 Ø40 401.5 408.5 270 18 34 310 5 eighteen 65 230 seventy one 40 43 185 12 284 149 126.5
1.5kw  Ø32 five- 420.five 441 254 thirteen 28.five 250 5 15 55 a hundred and eighty sixty 32 35 185 ten 234 126 121
 Ø40 -80-a hundred 457.5 478 270 18 34 310 5 18 65 230 seventy one forty 43 185 twelve 284 149 126.five
 Ø50 485.5 506 three hundred 22 40 360 five twenty five seventy five 270 eighty three fifty fifty three.5 185 14 325 173.five 132.5
2.2kw  Ø40 5- 466.5 487 270 18 34 310 five 18 65 230 71 forty 43 185 12 284 149 126.5
 Ø50 -80-100 510.5 531 three hundred 22 40 360 5 twenty five 75 270 83 50 53.5 185 14 325 173.5 132.5


 

G3LM: 3 Phase Equipment MOTOR WITH FOOT                                                                                                               (n1=1400r/min)
Power kw output shaft ratio A D E F J G H K P S T   U  V W   X  Y   Y1       
normal brake
0.1kw  Ø18 five–30-forty-fifty 236 270 forty 110 135 16.five sixty five nine 45 thirty 18 20.5 129 183 6 133 eighty five ten
 Ø22 -a hundred and sixty-200 262 296 65 one hundred thirty one hundred fifty five 19 90 11 55 40 22 24.5 129 193 6 139.five ninety 12
0.2kw  Ø18 five- 267 270 40 110 a hundred thirty five 16.five sixty five 9 45 30 18 20.five 129 183 six 133 eighty five 10
 Ø22 -eighty-100 293 296 65 a hundred thirty one hundred fifty five 19 ninety eleven 55 forty 22 24.five 129 193 6 139.five 90 12
 Ø28 306 309.5 90 140 a hundred seventy five 23.five one hundred twenty five eleven 65 forty five 28 31 129 203 eight 170 a hundred and ten 15
0.4kw  Ø22 five- 314 324.five 65 a hundred thirty a hundred and fifty five 19 90 11 55 40 22 24.5 139 199.five six 141.five ninety 12
 Ø28 -eighty-100 330 337.five 90 one hundred forty one hundred seventy five 23.5 one hundred twenty five eleven 65 45 28 31 139 210 8 one hundred seventy one hundred ten 15
 Ø32 349 357 130 a hundred and seventy 208 28.five a hundred and seventy 13 70 fifty five 32 35 139 226 10 198 one hundred thirty eighteen
0.75kw  Ø28 five- 350.five 343.5 ninety 140 one hundred seventy five 23.5 one hundred twenty five 11 sixty five 45 28 31 159 222 eight one hundred seventy 110 15
 Ø32 -80-one hundred 379.five 387 a hundred thirty 170 208 28.five 170 thirteen 70 55 32 35 159 238.5 10 198 a hundred thirty 18
 Ø40 401.5 408.five 150 210 254 34 196 15 90 65 40 43 185 249 twelve 230 one hundred fifty 20
1.5kw  Ø32 five- 420.five 441 a hundred thirty 170 208 28.5 a hundred and seventy 13 70 fifty five 32 35 185 250.five ten 198 one hundred thirty 18
 Ø40 -eighty-a hundred 457.5 478 one hundred fifty 210 254 34 196 15 ninety 65 forty forty three 185 260 twelve 230 150 20
 Ø50 485.5 506 a hundred and sixty 230 290 forty 210 eighteen a hundred 75 fifty fifty three.5 185 288 fourteen 265 one hundred seventy 25
2.2kw  Ø40 5- 466.five 487 a hundred and fifty 210 254 34 196 fifteen ninety sixty five 40 forty three 185 260 twelve 230 one hundred fifty 20
 Ø50 -eighty-one hundred 510.5 531 160 230 290 forty 210 eighteen 100 75 fifty 53.5 185 288 14 265 one hundred seventy 25


 

G3FS: IEC Equipment REDUCER WITH FOOT                                                                                                                           (n1=1400r/min)
Power kw output shaft ratio A B C F I J L M N O O1 P Q R S S1 T T1 W W1 X Y Y1
0.12kw  Ø18 five–thirty-forty-50 147 95 a hundred and fifteen 154 11 sixteen.five 4.5 170 one hundred forty four 10 30 a hundred forty five 35 18 11 20.five 12.eight 6 4 163 80 86.five
 Ø22 -one hundred sixty-200 173 ninety five a hundred and fifteen 164 eleven 19 4.5 185 140 four 12 40 148 forty seven 22 11 24.5 12.8 six four 171.5 89.5 89
0.18kw  Ø18 five- 147 95 115 154 11 sixteen.five four.five 170 140 4 10 30 one hundred forty five 35 18 eleven twenty.5 twelve.8 6 four 163 80 86.five
 Ø22 -eighty-100 173 95 one hundred fifteen 164 eleven 19 four.five 185 a hundred and forty 4 12 forty 148 forty seven 22 eleven 24.5 12.eight six four 171.five 89.5 89
 Ø28 186.five 95 a hundred and fifteen 186 eleven 23.5 4.5 215 one hundred forty 4 fifteen forty five a hundred and seventy 50 28 eleven 31 12.eight 8 four 198.5 one zero five.five ninety three.5
0.37kw  Ø22 5- 181.five 110 130 164 eleven 19 4.five 185 160 4 twelve forty 148 47 22 14 24.5 16.three six 5 201 89.five 99
 Ø28 -80-one hundred 198 one hundred ten 130 186 eleven 23.5 4.five 215 a hundred and sixty four 15 45 170 fifty 28 fourteen 31 sixteen.3 8 five 198.5 a hundred and five.five 103.5
 Ø32 216.five 110 130 215 13 28.5 four.five 250 a hundred and sixty four fifteen fifty five one hundred eighty 60 32 14 35 16.3 ten 5 234 126 108.5
0.75kw  Ø28 5- 206.5 a hundred thirty a hundred sixty five 185 11 23.five four.five 215 two hundred four fifteen 45 170 fifty 28 19 31 21.eight 8 six 216.five one hundred and five.five 123.5
 Ø32 -80-one hundred 235 130 a hundred sixty five 215 13 28.five 4.5 250 two hundred four 15 55 180 sixty 32 19 35 21.eight ten 6 236.five 126 128.five
 Ø40 260.five one hundred thirty 165 270 18 34 four.five 310 200 five eighteen 65 230 seventy one 40 19 43 21.eight 12 8 284 149 134
1.5kw  Ø32 five- 252 one hundred thirty a hundred sixty five 215 13 28.5 four.5 250 two hundred five fifteen 55 one hundred eighty 60 32 24 35 27.three ten eight 236.5 126 128.5
 Ø40 -eighty-one hundred 293.5 130 165 270 eighteen 34 4.5 310 two hundred five 18 65 230 seventy one forty 24 43 27.3 12 8 284 149 134
 Ø50 321.five a hundred thirty 165 300 22 forty four.5 360 200 five 25 75 270 eighty three fifty 24 53.five 27.three 14 eight 323.5 173.5 one hundred forty
2.2kw  Ø40 5- 290 180 215 270 18 34 five.five 310 250 five 18 sixty five 230 71 40 28 forty three 31.three twelve eight 284 149 134
 Ø50 -80-100 334 180 215 300 22 forty five.5 360 250 five 25 seventy five 270 83 50 28 53.5 31.3 fourteen eight 323.5 173.5 one hundred forty


 

G3LS: IEC Equipment REDUCER WITH FOOT                                                                                                                           (n1=1400r/min)  
Power kw output shaft ratio A B C D E F G H J K L N P S S1 T T1 W W1 X Y Y1 Z
0.12kw  Ø18 5–thirty-40-fifty 147 95 one hundred fifteen 40 one hundred ten one hundred thirty five 65 nine sixteen.5 forty five four.five one hundred forty thirty eighteen 11 twenty.5 twelve.8 6 4 138.five eighty five 10 M8
 Ø22 -160-two hundred 173 95 one hundred fifteen 65 one hundred thirty 154 ninety 11 19 55 4.5 140 40 22 eleven 24.five twelve.eight 6 4 141 90 12 M8
0.18kw  Ø18 5- 147 ninety five a hundred and fifteen 40 one hundred ten one hundred thirty five sixty five nine sixteen.5 45 four.five one hundred forty thirty eighteen eleven 20.5 twelve.eight 6 four 138.5 eighty five 10 M8
 Ø22 -80-a hundred 173 ninety five a hundred and fifteen sixty five one hundred thirty 154 ninety 11 19 fifty five 4.five a hundred and forty 40 22 11 24.five 12.8 six four 141 ninety 12 M8
 Ø28 186.five 95 a hundred and fifteen ninety 140 a hundred seventy five a hundred twenty five 11 23.five sixty five four.five 140 45 28 eleven 31 12.8 eight 4 one hundred seventy a hundred and ten 15 M8
0.37kw  Ø22 5- 181.5 110 a hundred thirty 65 130 154 ninety eleven 19 fifty five four.5 one hundred sixty 40 22 fourteen 24.five 16.three six 5 151 90 twelve M8
 Ø28 -eighty-one hundred 198 one hundred ten a hundred thirty ninety 140 175 a hundred twenty five 11 23.5 65 4.five 160 45 28 14 31 sixteen.three eight 5 a hundred and seventy 110 fifteen M8
 Ø32 216.five a hundred and ten 130 130 a hundred and seventy 208 170 13 28.5 70 4.5 a hundred and sixty 55 32 fourteen 35 16.three 10 five 198 130 18 M8
0.75kw  Ø28 5- 206.five 130 one hundred sixty five 90 one hundred forty one hundred seventy five 125 eleven 23.five sixty five 4.five 200 45 28 19 31 21.8 8 six 186.5 one hundred ten fifteen M10
 Ø32 -eighty-one hundred 235 one hundred thirty one hundred sixty five a hundred thirty 170 208 one hundred seventy 13 28.5 70 4.five 200 fifty five 32 19 35 21.8 ten 6 201.five a hundred thirty 18 M10
 Ø40 260.five a hundred thirty 165 150 210 254 196 fifteen 34 ninety 4.five 200 sixty five forty 19 43 21.8 twelve 8 230 a hundred and fifty 20 M10
1.5kw  Ø32 five- 252 one hundred thirty 165 a hundred thirty one hundred seventy 208 170 thirteen 28.5 70 four.five two hundred 55 32 24 35 27.three ten 8 201.five 130 18 M10
 Ø40 -80-a hundred 293.five one hundred thirty one hundred sixty five one hundred fifty 210 254 196 15 34 ninety four.five 200 sixty five forty 24 forty three 27.3 12 eight 230 150 20 M10
 Ø50 321.five 130 a hundred sixty five a hundred and sixty 230 290 210 eighteen forty 100 4.5 two hundred 75 fifty 24 fifty three.five 27.3 fourteen eight 265 a hundred and seventy 25 M10
2.2kw  Ø40 5- 290 180 215 150 210 254 196 fifteen 34 90 5.five 250 65 forty 28 forty three 31.three twelve eight 230 one hundred fifty 20 M12
 Ø50 -eighty-a hundred 334 one hundred eighty 215 a hundred and sixty 230 290 210 eighteen forty a hundred five.5 250 75 fifty 28 53.five 31.three fourteen 8 265 one hundred seventy 25 M12

Firm Profile

We are a professional reducer manufacturer located in HangZhou, ZHangZhoug province.Our foremost items is  full assortment of RV571-one hundred fifty worm reducers , also supplied GKM hypoid helical gearbox, GRC inline helical gearbox, Computer models, UDL Variators and AC Motors, G3 helical equipment motor.Items are widely employed for purposes such as: foodstuffs, ceramics, packing, substances, pharmacy, plastics, paper-creating, construction equipment, metallurgic mine, environmental defense engineering, and all kinds of automated strains, and assembly strains.With fast shipping and delivery, outstanding following-revenue provider, superior creating facility, our items offer well  both at residence and abroad. We have exported our reducers to Southeast Asia, Jap Europe and the Middle East and so on.Our aim is to produce and innovate on the foundation of substantial quality, and generate a good track record for reducers.

Workshop:

 

Exhibition

ZheJiang PTC Fair:

Packaging & Transport

Right after Product sales Provider

1.Routine maintenance Time and Guarantee:Inside of 1 year following acquiring products.
two.Other ProviderIncluding modeling assortment information, installation guide, and issue resolution information, etc

FAQ

one.Q:Can you make as for each client drawing?
A: Indeed, we offer you tailored services for clients appropriately. We can use customer’s nameplate for gearboxes.
two.Q:What is your conditions of payment ?
A: 30% deposit prior to manufacturing,harmony T/T before shipping and delivery.
three.Q:Are you a trading firm or company?
A:We are a manufacurer with sophisticated equipment and seasoned employees.
four.Q:What is actually your production capability?
A:4000-5000 PCS/Month
5.Q:Cost-free sample is accessible or not?
A:Of course, we can provide free sample if buyer agree to pay for the courier value
6.Q:Do you have any certificate?
A:Of course, we have CE certificate and SGS certificate report.

Speak to details:
Ms Lingel Pan
For any questions just really feel cost-free ton contact me. A lot of thanks for your kind attention to our company!

US $35-145
/ Piece
|
1 Piece

(Min. Order)

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Application: Motor, Machinery, Marine, Agricultural Machinery, Power Transmission Applications
Function: Distribution Power, Clutch, Change Drive Torque, Change Drive Direction, Speed Changing, Speed Reduction
Layout: Coaxial
Hardness: Hardened Tooth Surface
Installation: Vertical or Horizontal Type
Step: Two Stage- Three Stage

###

Samples:
US$ 35/Piece
1 Piece(Min.Order)

|
Request Sample

###

Customization:

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(n1=1400r/min  50hz)
norminal ratio 5 10 15 20 25 30 40 50 60 80 100 100 120 160   200   
0.1kw output shaft  Ø18 Ø22
n2* (r/min) 282 138 92 70 56 46 35 28 23 18 14 11 9 7
M2(Nm) 50hz 3.2 6.5 9.8 12.9 16.1 19.6 25.7 31.1 37.5 49.5 62.9 76.1 100.7 125.4
60hz 3 5 8 11 13 17 21 26 31 41 52 63 84 105
Fr1(N) 588 882 980 1180 1270 1370 1470 1570 2160 2450 2450 2450 2450 2450 2450
Fr2(N) 176
norminal ratio 5 10 15 20 25 30 40 50 60 80 100 100 120 160 200
0.2kw output shaft  Ø18 Ø22 Ø28
n2* (r/min) 282 138 92 70 56 45 35 29 23 18 14 13 12 8 7
M2(Nm) 50hz 6.5 12.6 19.1 26.3 32.6 38.9 50.4 63 75.6 100.8 103.9 125.4 150 200.4 250.7
60hz 5.4 10.5 16.6 21.9 27.1 32.4 42 52.5 63 84 86.6 104.5 125 167 208.9
Fr1(N) 588 882 980 1180 1270 1760 1860 1960 2160 2450 2450 2840 3330 3430 3430
Fr2(N) 196
norminal ratio 5 10 15 20 25 30 40 50 60 80 100 100 120 160 200
0.4kw output shaft  Ø22 Ø28 Ø32
n2* (r/min) 288 144 92 72 58 47 36 29 24 18 14 14 12 9 7
M2(Nm) 50hz 12.9 25 38.6 51.4 65.4 78.2 100.7 125.4 150 200.4 206.8 250.7 301.1 400.7 461.8
60hz 10.7 20.8 32.1 42.9 54.5 65.2 83.9 104.5 125 167 172.3 208.9 250.9 333.9 384.8
Fr1(N) 882 1180 1370 1470 1670 2550 2840 3140 3430 3430 3430 4900 5880 5880 5880
Fr2(N) 245
norminal ratio 5 10 15 20 25 30 40 50 60 80 100 100 120 160 200
0.75kw output shaft  Ø28 Ø32 Ø40
n2* (r/min) 278 140 94 69 58 46 35 29 24 18 14 14 11 9 7
M2(Nm) 50hz 24.6 48.2 72.9 97.5 122.1 145.7 187.5 235.7 282.9 376.1 387.9 439 527 703 764
60hz 20.5 40.2 60.7 81.3 201.8 121.4 156.3 196.4 235.7 313.4 323.2 366 439 585 732
Fr1(N) 1270 1760 2160 2350 2450 4020 4210 4610 5490 5880 5880 7060 7060 7060 7060
Fr2(N) 294
norminal ratio 5 10 15 20 25 30 40 50 60 80 100 100 120 160 200
1.5kw output shaft  Ø32 Ø40 Ø50
n2* (r/min) 280 140 93 70 55 47 34 27 24 17 14 13 12 8 7
M2(Nm) 50hz 48.2 97.5 145.7 193.9 242.1 272 351 439 527 703 724 878 1060 1230 1230
60hz 40.2 81.3 121.4 161.6 201.8 226 293 366 439 585 603 732 878 1170 1230
Fr1(N) 1760 2450 2840 3230 3820 5100 5880 7060 7060 7060 7060 9800 9800 9800 9800
Fr2(N) 343
norminal ratio 5 10 15 20 25 30 40 50 60 80 100        
2.2kw output shaft  Ø40 Ø50  
n2* (r/min) 272 136 95 68 54 45 36 28 24 18 14        
M2(Nm) 50hz 67 133 200 266 332 399 515 644 773 1029 1230        
60hz 56 111 167 221 277 332 429 537 644 858 1080        
Fr1(N) 2160 3140 3530 4020 4700 6960 7250 8620 9800 9800 9800        
Fr2(N) 392

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G3FM: THREE PHASE GEAR MOTOR WITH FLANGE                                                                                       (n1=1400r/min)
Power kw output shaft ratio A F I J M O O1 P Q R S T U W X Y Y1
standard brake
0.1kw  Ø18 5-10-15-20-25-30-40-50 236 270 192.5 11 16.5 170 4 10 30 145 35 18 20.5 129 6 157 80 81
 Ø22 60-80-100-120-160-200 262 296 197.5 11 19 185 4 12 40 148 47 22 24.5 129 6 171.5 89.5 83.5
0.2kw  Ø18 5-10-15-20-25 267 270 192.5 11 16.5 170 4 10 30 145 35 18 20.5 129 6 161 80 81
 Ø22 30-40-50-60-80-100 293 296 197.5 11 19 185 4 12 40 148 47 22 24.5 129 6 171.5 89.5 83.5
 Ø28 100-120-160-200 306 309.5 208.5 11 23.5 215 4 15 45 170 50 28 31 129 8 198.5 105.5 88
0.4kw  Ø22 5-10-15-20-25 314 324.5 204 11 19 185 4 12 40 148 47 22 24.5 139 6 171.5 89.5 88.5
 Ø28 30-40-50-60-80-100 330 337.5 215 11 23.5 215 4 15 45 170 50 28 31 139 8 198.5 105.5 93
 Ø32 100-120-160-200 349 357 229.5 13 28.5 250 4 15 55 180 60 32 35 139 10 234 126 98
0.75kw  Ø28 5-10-15-20-25 350.5 343.5 227.5 11 23.5 215 4 15 45 170 50 28 31 159 8 198.5 105.5 103
 Ø32 30-40-50-60-80-100 379.5 387 242 13 28.5 250 4 15 55 180 60 32 35 159 10 234 126 108
 Ø40 100-120-160-200 401.5 408.5 270 18 34 310 5 18 65 230 71 40 43 185 12 284 149 126.5
1.5kw  Ø32 5-10-15-20-25 420.5 441 254 13 28.5 250 5 15 55 180 60 32 35 185 10 234 126 121
 Ø40 30-40-50-60-80-100 457.5 478 270 18 34 310 5 18 65 230 71 40 43 185 12 284 149 126.5
 Ø50 100-120-160-200 485.5 506 300 22 40 360 5 25 75 270 83 50 53.5 185 14 325 173.5 132.5
2.2kw  Ø40 5-10-15-20-25 466.5 487 270 18 34 310 5 18 65 230 71 40 43 185 12 284 149 126.5
 Ø50 30-40-50-60-80-100 510.5 531 300 22 40 360 5 25 75 270 83 50 53.5 185 14 325 173.5 132.5

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G3LM: THREE PHASE GEAR MOTOR WITH FOOT                                                                                                               (n1=1400r/min)
Power kw output shaft ratio A D E F J G H K P S T   U  V W   X  Y   Y1       
standard brake
0.1kw  Ø18 5-10-15-20-25-30-40-50 236 270 40 110 135 16.5 65 9 45 30 18 20.5 129 183 6 133 85 10
 Ø22 60-80-100-120-160-200 262 296 65 130 155 19 90 11 55 40 22 24.5 129 193 6 139.5 90 12
0.2kw  Ø18 5-10-15-20-25 267 270 40 110 135 16.5 65 9 45 30 18 20.5 129 183 6 133 85 10
 Ø22 30-40-50-60-80-100 293 296 65 130 155 19 90 11 55 40 22 24.5 129 193 6 139.5 90 12
 Ø28 100-120-160-200 306 309.5 90 140 175 23.5 125 11 65 45 28 31 129 203 8 170 110 15
0.4kw  Ø22 5-10-15-20-25 314 324.5 65 130 155 19 90 11 55 40 22 24.5 139 199.5 6 141.5 90 12
 Ø28 30-40-50-60-80-100 330 337.5 90 140 175 23.5 125 11 65 45 28 31 139 210 8 170 110 15
 Ø32 100-120-160-200 349 357 130 170 208 28.5 170 13 70 55 32 35 139 226 10 198 130 18
0.75kw  Ø28 5-10-15-20-25 350.5 343.5 90 140 175 23.5 125 11 65 45 28 31 159 222 8 170 110 15
 Ø32 30-40-50-60-80-100 379.5 387 130 170 208 28.5 170 13 70 55 32 35 159 238.5 10 198 130 18
 Ø40 100-120-160-200 401.5 408.5 150 210 254 34 196 15 90 65 40 43 185 249 12 230 150 20
1.5kw  Ø32 5-10-15-20-25 420.5 441 130 170 208 28.5 170 13 70 55 32 35 185 250.5 10 198 130 18
 Ø40 30-40-50-60-80-100 457.5 478 150 210 254 34 196 15 90 65 40 43 185 260 12 230 150 20
 Ø50 100-120-160-200 485.5 506 160 230 290 40 210 18 100 75 50 53.5 185 288 14 265 170 25
2.2kw  Ø40 5-10-15-20-25 466.5 487 150 210 254 34 196 15 90 65 40 43 185 260 12 230 150 20
 Ø50 30-40-50-60-80-100 510.5 531 160 230 290 40 210 18 100 75 50 53.5 185 288 14 265 170 25

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G3FS: IEC GEAR REDUCER WITH FOOT                                                                                                                           (n1=1400r/min)
Power kw output shaft ratio A B C F I J L M N O O1 P Q R S S1 T T1 W W1 X Y Y1
0.12kw  Ø18 5-10-15-20-25-30-40-50 147 95 115 154 11 16.5 4.5 170 140 4 10 30 145 35 18 11 20.5 12.8 6 4 163 80 86.5
 Ø22 60-80-100-120-160-200 173 95 115 164 11 19 4.5 185 140 4 12 40 148 47 22 11 24.5 12.8 6 4 171.5 89.5 89
0.18kw  Ø18 5-10-15-20-25 147 95 115 154 11 16.5 4.5 170 140 4 10 30 145 35 18 11 20.5 12.8 6 4 163 80 86.5
 Ø22 30-40-50-60-80-100 173 95 115 164 11 19 4.5 185 140 4 12 40 148 47 22 11 24.5 12.8 6 4 171.5 89.5 89
 Ø28 100-120-160-200 186.5 95 115 186 11 23.5 4.5 215 140 4 15 45 170 50 28 11 31 12.8 8 4 198.5 105.5 93.5
0.37kw  Ø22 5-10-15-20-25 181.5 110 130 164 11 19 4.5 185 160 4 12 40 148 47 22 14 24.5 16.3 6 5 201 89.5 99
 Ø28 30-40-50-60-80-100 198 110 130 186 11 23.5 4.5 215 160 4 15 45 170 50 28 14 31 16.3 8 5 198.5 105.5 103.5
 Ø32 100-120-160-200 216.5 110 130 215 13 28.5 4.5 250 160 4 15 55 180 60 32 14 35 16.3 10 5 234 126 108.5
0.75kw  Ø28 5-10-15-20-25 206.5 130 165 185 11 23.5 4.5 215 200 4 15 45 170 50 28 19 31 21.8 8 6 216.5 105.5 123.5
 Ø32 30-40-50-60-80-100 235 130 165 215 13 28.5 4.5 250 200 4 15 55 180 60 32 19 35 21.8 10 6 236.5 126 128.5
 Ø40 100-120-160-200 260.5 130 165 270 18 34 4.5 310 200 5 18 65 230 71 40 19 43 21.8 12 8 284 149 134
1.5kw  Ø32 5-10-15-20-25 252 130 165 215 13 28.5 4.5 250 200 5 15 55 180 60 32 24 35 27.3 10 8 236.5 126 128.5
 Ø40 30-40-50-60-80-100 293.5 130 165 270 18 34 4.5 310 200 5 18 65 230 71 40 24 43 27.3 12 8 284 149 134
 Ø50 100-120-160-200 321.5 130 165 300 22 40 4.5 360 200 5 25 75 270 83 50 24 53.5 27.3 14 8 323.5 173.5 140
2.2kw  Ø40 5-10-15-20-25 290 180 215 270 18 34 5.5 310 250 5 18 65 230 71 40 28 43 31.3 12 8 284 149 134
 Ø50 30-40-50-60-80-100 334 180 215 300 22 40 5.5 360 250 5 25 75 270 83 50 28 53.5 31.3 14 8 323.5 173.5 140

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G3LS: IEC GEAR REDUCER WITH FOOT                                                                                                                           (n1=1400r/min)  
Power kw output shaft ratio A B C D E F G H J K L N P S S1 T T1 W W1 X Y Y1 Z
0.12kw  Ø18 5-10-15-20-25-30-40-50 147 95 115 40 110 135 65 9 16.5 45 4.5 140 30 18 11 20.5 12.8 6 4 138.5 85 10 M8
 Ø22 60-80-100-120-160-200 173 95 115 65 130 154 90 11 19 55 4.5 140 40 22 11 24.5 12.8 6 4 141 90 12 M8
0.18kw  Ø18 5-10-15-20-25 147 95 115 40 110 135 65 9 16.5 45 4.5 140 30 18 11 20.5 12.8 6 4 138.5 85 10 M8
 Ø22 30-40-50-60-80-100 173 95 115 65 130 154 90 11 19 55 4.5 140 40 22 11 24.5 12.8 6 4 141 90 12 M8
 Ø28 100-120-160-200 186.5 95 115 90 140 175 125 11 23.5 65 4.5 140 45 28 11 31 12.8 8 4 170 110 15 M8
0.37kw  Ø22 5-10-15-20-25 181.5 110 130 65 130 154 90 11 19 55 4.5 160 40 22 14 24.5 16.3 6 5 151 90 12 M8
 Ø28 30-40-50-60-80-100 198 110 130 90 140 175 125 11 23.5 65 4.5 160 45 28 14 31 16.3 8 5 170 110 15 M8
 Ø32 100-120-160-200 216.5 110 130 130 170 208 170 13 28.5 70 4.5 160 55 32 14 35 16.3 10 5 198 130 18 M8
0.75kw  Ø28 5-10-15-20-25 206.5 130 165 90 140 175 125 11 23.5 65 4.5 200 45 28 19 31 21.8 8 6 186.5 110 15 M10
 Ø32 30-40-50-60-80-100 235 130 165 130 170 208 170 13 28.5 70 4.5 200 55 32 19 35 21.8 10 6 201.5 130 18 M10
 Ø40 100-120-160-200 260.5 130 165 150 210 254 196 15 34 90 4.5 200 65 40 19 43 21.8 12 8 230 150 20 M10
1.5kw  Ø32 5-10-15-20-25 252 130 165 130 170 208 170 13 28.5 70 4.5 200 55 32 24 35 27.3 10 8 201.5 130 18 M10
 Ø40 30-40-50-60-80-100 293.5 130 165 150 210 254 196 15 34 90 4.5 200 65 40 24 43 27.3 12 8 230 150 20 M10
 Ø50 100-120-160-200 321.5 130 165 160 230 290 210 18 40 100 4.5 200 75 50 24 53.5 27.3 14 8 265 170 25 M10
2.2kw  Ø40 5-10-15-20-25 290 180 215 150 210 254 196 15 34 90 5.5 250 65 40 28 43 31.3 12 8 230 150 20 M12
 Ø50 30-40-50-60-80-100 334 180 215 160 230 290 210 18 40 100 5.5 250 75 50 28 53.5 31.3 14 8 265 170 25 M12
US $35-145
/ Piece
|
1 Piece

(Min. Order)

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Application: Motor, Machinery, Marine, Agricultural Machinery, Power Transmission Applications
Function: Distribution Power, Clutch, Change Drive Torque, Change Drive Direction, Speed Changing, Speed Reduction
Layout: Coaxial
Hardness: Hardened Tooth Surface
Installation: Vertical or Horizontal Type
Step: Two Stage- Three Stage

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Samples:
US$ 35/Piece
1 Piece(Min.Order)

|
Request Sample

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Customization:

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(n1=1400r/min  50hz)
norminal ratio 5 10 15 20 25 30 40 50 60 80 100 100 120 160   200   
0.1kw output shaft  Ø18 Ø22
n2* (r/min) 282 138 92 70 56 46 35 28 23 18 14 11 9 7
M2(Nm) 50hz 3.2 6.5 9.8 12.9 16.1 19.6 25.7 31.1 37.5 49.5 62.9 76.1 100.7 125.4
60hz 3 5 8 11 13 17 21 26 31 41 52 63 84 105
Fr1(N) 588 882 980 1180 1270 1370 1470 1570 2160 2450 2450 2450 2450 2450 2450
Fr2(N) 176
norminal ratio 5 10 15 20 25 30 40 50 60 80 100 100 120 160 200
0.2kw output shaft  Ø18 Ø22 Ø28
n2* (r/min) 282 138 92 70 56 45 35 29 23 18 14 13 12 8 7
M2(Nm) 50hz 6.5 12.6 19.1 26.3 32.6 38.9 50.4 63 75.6 100.8 103.9 125.4 150 200.4 250.7
60hz 5.4 10.5 16.6 21.9 27.1 32.4 42 52.5 63 84 86.6 104.5 125 167 208.9
Fr1(N) 588 882 980 1180 1270 1760 1860 1960 2160 2450 2450 2840 3330 3430 3430
Fr2(N) 196
norminal ratio 5 10 15 20 25 30 40 50 60 80 100 100 120 160 200
0.4kw output shaft  Ø22 Ø28 Ø32
n2* (r/min) 288 144 92 72 58 47 36 29 24 18 14 14 12 9 7
M2(Nm) 50hz 12.9 25 38.6 51.4 65.4 78.2 100.7 125.4 150 200.4 206.8 250.7 301.1 400.7 461.8
60hz 10.7 20.8 32.1 42.9 54.5 65.2 83.9 104.5 125 167 172.3 208.9 250.9 333.9 384.8
Fr1(N) 882 1180 1370 1470 1670 2550 2840 3140 3430 3430 3430 4900 5880 5880 5880
Fr2(N) 245
norminal ratio 5 10 15 20 25 30 40 50 60 80 100 100 120 160 200
0.75kw output shaft  Ø28 Ø32 Ø40
n2* (r/min) 278 140 94 69 58 46 35 29 24 18 14 14 11 9 7
M2(Nm) 50hz 24.6 48.2 72.9 97.5 122.1 145.7 187.5 235.7 282.9 376.1 387.9 439 527 703 764
60hz 20.5 40.2 60.7 81.3 201.8 121.4 156.3 196.4 235.7 313.4 323.2 366 439 585 732
Fr1(N) 1270 1760 2160 2350 2450 4020 4210 4610 5490 5880 5880 7060 7060 7060 7060
Fr2(N) 294
norminal ratio 5 10 15 20 25 30 40 50 60 80 100 100 120 160 200
1.5kw output shaft  Ø32 Ø40 Ø50
n2* (r/min) 280 140 93 70 55 47 34 27 24 17 14 13 12 8 7
M2(Nm) 50hz 48.2 97.5 145.7 193.9 242.1 272 351 439 527 703 724 878 1060 1230 1230
60hz 40.2 81.3 121.4 161.6 201.8 226 293 366 439 585 603 732 878 1170 1230
Fr1(N) 1760 2450 2840 3230 3820 5100 5880 7060 7060 7060 7060 9800 9800 9800 9800
Fr2(N) 343
norminal ratio 5 10 15 20 25 30 40 50 60 80 100        
2.2kw output shaft  Ø40 Ø50  
n2* (r/min) 272 136 95 68 54 45 36 28 24 18 14        
M2(Nm) 50hz 67 133 200 266 332 399 515 644 773 1029 1230        
60hz 56 111 167 221 277 332 429 537 644 858 1080        
Fr1(N) 2160 3140 3530 4020 4700 6960 7250 8620 9800 9800 9800        
Fr2(N) 392

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G3FM: THREE PHASE GEAR MOTOR WITH FLANGE                                                                                       (n1=1400r/min)
Power kw output shaft ratio A F I J M O O1 P Q R S T U W X Y Y1
standard brake
0.1kw  Ø18 5-10-15-20-25-30-40-50 236 270 192.5 11 16.5 170 4 10 30 145 35 18 20.5 129 6 157 80 81
 Ø22 60-80-100-120-160-200 262 296 197.5 11 19 185 4 12 40 148 47 22 24.5 129 6 171.5 89.5 83.5
0.2kw  Ø18 5-10-15-20-25 267 270 192.5 11 16.5 170 4 10 30 145 35 18 20.5 129 6 161 80 81
 Ø22 30-40-50-60-80-100 293 296 197.5 11 19 185 4 12 40 148 47 22 24.5 129 6 171.5 89.5 83.5
 Ø28 100-120-160-200 306 309.5 208.5 11 23.5 215 4 15 45 170 50 28 31 129 8 198.5 105.5 88
0.4kw  Ø22 5-10-15-20-25 314 324.5 204 11 19 185 4 12 40 148 47 22 24.5 139 6 171.5 89.5 88.5
 Ø28 30-40-50-60-80-100 330 337.5 215 11 23.5 215 4 15 45 170 50 28 31 139 8 198.5 105.5 93
 Ø32 100-120-160-200 349 357 229.5 13 28.5 250 4 15 55 180 60 32 35 139 10 234 126 98
0.75kw  Ø28 5-10-15-20-25 350.5 343.5 227.5 11 23.5 215 4 15 45 170 50 28 31 159 8 198.5 105.5 103
 Ø32 30-40-50-60-80-100 379.5 387 242 13 28.5 250 4 15 55 180 60 32 35 159 10 234 126 108
 Ø40 100-120-160-200 401.5 408.5 270 18 34 310 5 18 65 230 71 40 43 185 12 284 149 126.5
1.5kw  Ø32 5-10-15-20-25 420.5 441 254 13 28.5 250 5 15 55 180 60 32 35 185 10 234 126 121
 Ø40 30-40-50-60-80-100 457.5 478 270 18 34 310 5 18 65 230 71 40 43 185 12 284 149 126.5
 Ø50 100-120-160-200 485.5 506 300 22 40 360 5 25 75 270 83 50 53.5 185 14 325 173.5 132.5
2.2kw  Ø40 5-10-15-20-25 466.5 487 270 18 34 310 5 18 65 230 71 40 43 185 12 284 149 126.5
 Ø50 30-40-50-60-80-100 510.5 531 300 22 40 360 5 25 75 270 83 50 53.5 185 14 325 173.5 132.5

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G3LM: THREE PHASE GEAR MOTOR WITH FOOT                                                                                                               (n1=1400r/min)
Power kw output shaft ratio A D E F J G H K P S T   U  V W   X  Y   Y1       
standard brake
0.1kw  Ø18 5-10-15-20-25-30-40-50 236 270 40 110 135 16.5 65 9 45 30 18 20.5 129 183 6 133 85 10
 Ø22 60-80-100-120-160-200 262 296 65 130 155 19 90 11 55 40 22 24.5 129 193 6 139.5 90 12
0.2kw  Ø18 5-10-15-20-25 267 270 40 110 135 16.5 65 9 45 30 18 20.5 129 183 6 133 85 10
 Ø22 30-40-50-60-80-100 293 296 65 130 155 19 90 11 55 40 22 24.5 129 193 6 139.5 90 12
 Ø28 100-120-160-200 306 309.5 90 140 175 23.5 125 11 65 45 28 31 129 203 8 170 110 15
0.4kw  Ø22 5-10-15-20-25 314 324.5 65 130 155 19 90 11 55 40 22 24.5 139 199.5 6 141.5 90 12
 Ø28 30-40-50-60-80-100 330 337.5 90 140 175 23.5 125 11 65 45 28 31 139 210 8 170 110 15
 Ø32 100-120-160-200 349 357 130 170 208 28.5 170 13 70 55 32 35 139 226 10 198 130 18
0.75kw  Ø28 5-10-15-20-25 350.5 343.5 90 140 175 23.5 125 11 65 45 28 31 159 222 8 170 110 15
 Ø32 30-40-50-60-80-100 379.5 387 130 170 208 28.5 170 13 70 55 32 35 159 238.5 10 198 130 18
 Ø40 100-120-160-200 401.5 408.5 150 210 254 34 196 15 90 65 40 43 185 249 12 230 150 20
1.5kw  Ø32 5-10-15-20-25 420.5 441 130 170 208 28.5 170 13 70 55 32 35 185 250.5 10 198 130 18
 Ø40 30-40-50-60-80-100 457.5 478 150 210 254 34 196 15 90 65 40 43 185 260 12 230 150 20
 Ø50 100-120-160-200 485.5 506 160 230 290 40 210 18 100 75 50 53.5 185 288 14 265 170 25
2.2kw  Ø40 5-10-15-20-25 466.5 487 150 210 254 34 196 15 90 65 40 43 185 260 12 230 150 20
 Ø50 30-40-50-60-80-100 510.5 531 160 230 290 40 210 18 100 75 50 53.5 185 288 14 265 170 25

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G3FS: IEC GEAR REDUCER WITH FOOT                                                                                                                           (n1=1400r/min)
Power kw output shaft ratio A B C F I J L M N O O1 P Q R S S1 T T1 W W1 X Y Y1
0.12kw  Ø18 5-10-15-20-25-30-40-50 147 95 115 154 11 16.5 4.5 170 140 4 10 30 145 35 18 11 20.5 12.8 6 4 163 80 86.5
 Ø22 60-80-100-120-160-200 173 95 115 164 11 19 4.5 185 140 4 12 40 148 47 22 11 24.5 12.8 6 4 171.5 89.5 89
0.18kw  Ø18 5-10-15-20-25 147 95 115 154 11 16.5 4.5 170 140 4 10 30 145 35 18 11 20.5 12.8 6 4 163 80 86.5
 Ø22 30-40-50-60-80-100 173 95 115 164 11 19 4.5 185 140 4 12 40 148 47 22 11 24.5 12.8 6 4 171.5 89.5 89
 Ø28 100-120-160-200 186.5 95 115 186 11 23.5 4.5 215 140 4 15 45 170 50 28 11 31 12.8 8 4 198.5 105.5 93.5
0.37kw  Ø22 5-10-15-20-25 181.5 110 130 164 11 19 4.5 185 160 4 12 40 148 47 22 14 24.5 16.3 6 5 201 89.5 99
 Ø28 30-40-50-60-80-100 198 110 130 186 11 23.5 4.5 215 160 4 15 45 170 50 28 14 31 16.3 8 5 198.5 105.5 103.5
 Ø32 100-120-160-200 216.5 110 130 215 13 28.5 4.5 250 160 4 15 55 180 60 32 14 35 16.3 10 5 234 126 108.5
0.75kw  Ø28 5-10-15-20-25 206.5 130 165 185 11 23.5 4.5 215 200 4 15 45 170 50 28 19 31 21.8 8 6 216.5 105.5 123.5
 Ø32 30-40-50-60-80-100 235 130 165 215 13 28.5 4.5 250 200 4 15 55 180 60 32 19 35 21.8 10 6 236.5 126 128.5
 Ø40 100-120-160-200 260.5 130 165 270 18 34 4.5 310 200 5 18 65 230 71 40 19 43 21.8 12 8 284 149 134
1.5kw  Ø32 5-10-15-20-25 252 130 165 215 13 28.5 4.5 250 200 5 15 55 180 60 32 24 35 27.3 10 8 236.5 126 128.5
 Ø40 30-40-50-60-80-100 293.5 130 165 270 18 34 4.5 310 200 5 18 65 230 71 40 24 43 27.3 12 8 284 149 134
 Ø50 100-120-160-200 321.5 130 165 300 22 40 4.5 360 200 5 25 75 270 83 50 24 53.5 27.3 14 8 323.5 173.5 140
2.2kw  Ø40 5-10-15-20-25 290 180 215 270 18 34 5.5 310 250 5 18 65 230 71 40 28 43 31.3 12 8 284 149 134
 Ø50 30-40-50-60-80-100 334 180 215 300 22 40 5.5 360 250 5 25 75 270 83 50 28 53.5 31.3 14 8 323.5 173.5 140

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G3LS: IEC GEAR REDUCER WITH FOOT                                                                                                                           (n1=1400r/min)  
Power kw output shaft ratio A B C D E F G H J K L N P S S1 T T1 W W1 X Y Y1 Z
0.12kw  Ø18 5-10-15-20-25-30-40-50 147 95 115 40 110 135 65 9 16.5 45 4.5 140 30 18 11 20.5 12.8 6 4 138.5 85 10 M8
 Ø22 60-80-100-120-160-200 173 95 115 65 130 154 90 11 19 55 4.5 140 40 22 11 24.5 12.8 6 4 141 90 12 M8
0.18kw  Ø18 5-10-15-20-25 147 95 115 40 110 135 65 9 16.5 45 4.5 140 30 18 11 20.5 12.8 6 4 138.5 85 10 M8
 Ø22 30-40-50-60-80-100 173 95 115 65 130 154 90 11 19 55 4.5 140 40 22 11 24.5 12.8 6 4 141 90 12 M8
 Ø28 100-120-160-200 186.5 95 115 90 140 175 125 11 23.5 65 4.5 140 45 28 11 31 12.8 8 4 170 110 15 M8
0.37kw  Ø22 5-10-15-20-25 181.5 110 130 65 130 154 90 11 19 55 4.5 160 40 22 14 24.5 16.3 6 5 151 90 12 M8
 Ø28 30-40-50-60-80-100 198 110 130 90 140 175 125 11 23.5 65 4.5 160 45 28 14 31 16.3 8 5 170 110 15 M8
 Ø32 100-120-160-200 216.5 110 130 130 170 208 170 13 28.5 70 4.5 160 55 32 14 35 16.3 10 5 198 130 18 M8
0.75kw  Ø28 5-10-15-20-25 206.5 130 165 90 140 175 125 11 23.5 65 4.5 200 45 28 19 31 21.8 8 6 186.5 110 15 M10
 Ø32 30-40-50-60-80-100 235 130 165 130 170 208 170 13 28.5 70 4.5 200 55 32 19 35 21.8 10 6 201.5 130 18 M10
 Ø40 100-120-160-200 260.5 130 165 150 210 254 196 15 34 90 4.5 200 65 40 19 43 21.8 12 8 230 150 20 M10
1.5kw  Ø32 5-10-15-20-25 252 130 165 130 170 208 170 13 28.5 70 4.5 200 55 32 24 35 27.3 10 8 201.5 130 18 M10
 Ø40 30-40-50-60-80-100 293.5 130 165 150 210 254 196 15 34 90 4.5 200 65 40 24 43 27.3 12 8 230 150 20 M10
 Ø50 100-120-160-200 321.5 130 165 160 230 290 210 18 40 100 4.5 200 75 50 24 53.5 27.3 14 8 265 170 25 M10
2.2kw  Ø40 5-10-15-20-25 290 180 215 150 210 254 196 15 34 90 5.5 250 65 40 28 43 31.3 12 8 230 150 20 M12
 Ø50 30-40-50-60-80-100 334 180 215 160 230 290 210 18 40 100 5.5 250 75 50 28 53.5 31.3 14 8 265 170 25 M12

The Importance of an Agricultural Gearbox

The role of an agricultural gearbox is crucial to the production of food. They play a crucial role in agricultural equipment, and are needed at every stage of the food chain. As the population increases and the need for food rises, gearboxes are increasingly becoming a critical component of heavy-duty equipment. To maintain a high quality, agricultural gearbox, replacements must be available at a reasonable cost. In addition, they need to be easily accessible.
agriculturalparts

Bevel gearboxes

A durable bevel gearbox is a critical component of any agricultural gearbox. The mechanisms and materials used to make the device will determine its durability. Investing in a long-lasting gearbox will save you the trouble of replacing it later. Bevel gearing is one of the most common types of mechanical gearing, and its advantages are many. A durable gearbox is reliable, easy to use, and cost-effective, ensuring that you will never have to replace it.
Bevel gearboxes are available in different tooth shapes and sizes, and are typically realized with straight or helical teeth. Bevel gearboxes can be either parallel or oblique in direction, and their axes can intersect at 90 degrees. Bevel gearboxes can have opposite or parallel output shafts, and the direction of the drive and output shaft can be the same or opposite, depending on the installation.
A tractor PTO can be a powerful source of torque, but it can only transmit the same amount of torque at slower speeds. Agricultural implements, on the other hand, use chains and pulleys to transmit their torque. This type of heavy-duty gearing is essential for the heavy-duty demands that agricultural implements place on them. Although geared agricultural applications are the most common, they are not limited to agriculture. Most agricultural gearboxes are used in wheel drives and massive torque low-speed applications.
Bevel gearboxes for agricultural machinery applications have several characteristics that make them useful. A right angle gearbox, for example, is well suited for use with offset rotary fillers and hollow output shafts. It offers a reduction ratio of up to 2.44:1, has a cast-iron case, and delivers power up to 49kW. It is designed for small agricultural work, such as crop treatment, soil preparation, and cement mixers.

CZPT gearboxes

There are countless reasons why CZPT agricultural gearboxes are so important. Global population is increasing by 80 million people per year, and that demand is only expected to continue rising. In addition to a constantly growing population, cropping cycles are getting shorter, putting even more strain on farm machinery, including gearboxes. Fortunately, CZPT offers a variety of solutions to maintain and repair your equipment, from on-site repairs to storage options.
Agricultural gearboxes are essential to the cropping process, and CZPT reducers perform a variety of critical tasks. The reversing gear, for instance, helps reduce friction and increase efficiency. The reversing gear is usually made of ball bearings, and is available in various versions and power capacities. Agricultural gearboxes are essential for a number of tasks, including a tractor’s ability to pull a tiller.
In the agricultural industry, a CZPT ag-class reducer powers a beet truck’s conveyor. Its durable helical gearing and grease-purged Viton seals keep it working properly for years. CZPT Ultramite gearmotors can be used to power pilers, stackers, and hoists. They generate low speed directly and can also support high-speed pinions.
CZPT Gearbox Company is one of the world’s premier manufacturers of high-performance gearboxes. Its highly experienced engineers can reverse engineer existing designs and help you design custom gearboxes for agricultural applications. Whether your gearbox needs to be used for a tractor, a hay baler, or a grain cart, CZPT Gearbox Company can provide a solution. A CZPT agricultural gearbox will help you make the most of your farm machinery by reducing your environmental footprint.
agriculturalparts

Closed-loop seals

A closed-loop seal is an excellent alternative to desiccant breathers, which can lead to contamination. A closed-loop seal can isolate a gearbox from the atmosphere, ensuring that no moisture or contamination can enter. This is essential for the safety of the equipment. A closed-loop elastomeric seal prevents water from entering the gearbox, preventing contamination and lubrication from escaping.
These high-tech seals combine service life and reliability, enabling new breakthroughs in agriculture, infrastructure and transportation. Moreover, these high-performance mechanical drive components are an essential part of breakthroughs in industries like energy, agriculture and transportation, as well as global megatrends like digitalization. As a result, they extend the life of agricultural gearboxes. But how do these high-tech seals perform?
A closed-loop seal is critical for agricultural gearboxes, as they keep the lubricants and gases in the gearbox. They are essential for the entire food chain, as even a little bit of downtime can cut production costs. This is why a high-quality agricultural gearbox is essential for safety and easy maintenance. To ensure a high-quality, long-lasting performance, closed-loop seals should be a standard feature.
Another improvement over single-lip designs is the inclusion of a dust-lip. The outer lip of the closed-loop seal can be damaged by temperature and contaminants. Once the outer lip fails, debris will accumulate against it and under it, causing a leak and seal failure. When this happens, it’s too late to repair the seal. You’ll need to invest in a new agricultural gearbox, and you don’t want to waste money on an expensive failure.

Surface finish

An agricultural gearbox should be free of mechanical damage and casting defects. Surface finish should be as close as possible to 76. The distance between shafts and bearing housing must be within six millimeters and the surface finish should be smooth. In addition, the shaft surface finish should not exhibit any ellipticity or directional pattern. A smooth surface is comfortable to operate. In this way, it improves the quality of comfort while driving.
There are various types of gears and their surface finishes. For example, bevel gears, sun gear drive, and planetary gearbox are common in agricultural applications. The surface finish of agricultural gears varies depending on the type of material used. In certain industries, gears can be subjected to low torques and strong forces. However, in agriculture, gears are subjected to specific conditions such as dustiness and contaminated water.
Various studies have been conducted to study the effectiveness of various surface finishes. Some of these studies have focused on the quality class of honed wrought steel gears. However, results were inconsistent. It was determined that the difference in the quality class of honed wrought steel gears was less than 3%, which was within the acceptable range of errors in the assembly process. However, it remains important to note that a high quality surface finish is crucial for a high gearbox’s performance.
Stream finishing has proven to be more effective in enhancing surface finish. Compared to honing and grinding, Stream finishing produces a smooth surface that is two to four times better than conventional finishes. The benefits of this method include high-quality metal and reduced waste. The process of isotropic superfinishing makes a gearbox more efficient than other manufacturing processes. In addition, it improves the lifespan and durability of its components.
agriculturalparts

Cost

Agricultural gearboxes are critical for the production of the food we eat. With heightened food demand, a worn out gear will lead to increased equipment wear and downtime, resulting in significant losses for farmers. Agricultural gearboxes should be of high quality, as they are critical for the whole food chain. These gears can be costly to replace and can cause significant downtime, resulting in a failure to meet the demand.
To determine the cost of an agricultural gearbox, you need to compare the prices offered by different manufacturers. If you’re planning to purchase a new agricultural gearbox, look for one that’s manufactured by an authentic equipment manufacturer such as CZPT. Don’t settle for a gearbox that’s not manufactured by an OEM, as it won’t last long. Also, check the safety section of the manufacturer’s website for advice on selecting a gearbox for your needs.
China Horizontal G3lm-G3FM-G3ls-G3fs 0.1-0.2-0.4-0.75-1.5-2.2kw Helical Gearboxes     with Great quality China Horizontal G3lm-G3FM-G3ls-G3fs 0.1-0.2-0.4-0.75-1.5-2.2kw Helical Gearboxes     with Great quality
editor by czh 2023-03-31