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Brushless DC Motor
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Brushless Permanent Magnet Motor
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Gearbox Brushless Motor
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Gearbox Stepper Motor
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Hybrid Stepper Motor
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Planetary Reducer Gearbox
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Linear Stepper Motor
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Frameless Servo Motor
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Conveyor Roller Motor
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DC Worm Gear motor
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Stepper Motor Controller
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BLDC Motor Driver
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Integrated Stepper Motor
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DC Brush Gear Motor
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AC Servo Motor
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Rod S****I purchased the 3-pack of the smaller steppers for my current ender 3 pro project. For my applications, they work perfectly. It's a great deal for quality motors, and I'm going to purchase another 10 packs.
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Sam N***These are great motors and they are very strong. They are operating quietly, and also need them to release their hold every time a move is complete.
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Jim S**Please develop more low noise gearbox and with better prices, so we can sell your products to more clients and gain larger markets. Thank you.
30nm 40nm 50 nm Small Gearbox Stepper Motor High Torque Ultra 42mm 52mm 57mm 63mm
Contact me for free samples and coupons.
Whatsapp:0086 18588475571
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xProduct Name | Stepping Gearbox Motor | Temperature Rise | 80 ℃ Max |
---|---|---|---|
Insulation Resistance | 100MΩ Min.500VC DC | Step Accuracy | ± 5% |
Ambient Temperature | -20℃~+50℃ | Radial Load(10mm From Flange) | ≤450N |
Shaft Axial Load | ≤200N | Dielectric Strength | 500VAC 1 Minute |
Number Of Gear Trains | 1, 2 | Backlash At No-load (°) | ≤1.5 |
Highlight | 30nm stepper motor,50nm stepper motor,40nm stepper motor |
57BYGHM with gearbox CE ROHS ISO high torque low noise step gearbox motor
*Products can match gearbox 52, 56mm
56mm Powder metallurgy Gearbox tolerance torque
Stage 1: Rated tolerance torque 2 N.m, max 6 N.m
Stage 2: Rated tolerance torque 8 N.m, max 25 N.m
Stage 3: Rated tolerance torque 16 N.m. max 50 N.m
52mm gearbox material: Zinc alloy
56mm gearbox material: Powder metallurgy, Zinc alloy & Engineering plastics.
MOTOR PART Electrical Specification:
MODEL | STEP ANGLE (°/STEP) |
LEAD WIRE (NO.) |
VOLTAGE (V) |
CURRENT (A/PHASE) |
RESISTANCE (Ω/PHASE) |
INDUCTANCE (MH/PHASE) |
HOLDING TORQUE (KG.CM) |
MOTOR HEIGHT L(MM) |
MOTOR WEIGHT (KG) |
---|---|---|---|---|---|---|---|---|---|
57BYGHM002-01 | 0.9 | 6 | 2.8 | 2.0 | 1.4 | 2.0 | 3.5 | 41 | 0.45 |
57BYGHM200-03A | 0.9 | 4 | 3.4 | 1.0 | 3.4 | 12 | 7.0 | 51 | 0.56 |
57BYGHM203-04 | 0.9 | 6 | 12 | 0.38 | 32.0 | 38 | 5.5 | 51 | 0.56 |
57BYGHM401-09 | 0.9 | 6 | 7.4 | 1.0 | 7.4 | 17 | 9.0 | 56 | 0.70 |
57BYGHM414 | 0.9 | 4 | 1.7 | 4.2 | 0.4 | 1.0 | 11 | 56 | 0.70 |
57BYGHM604-17 | 0.9 | 4 | 3.2 | 2.8 | 1.13 | 6.4 | 15 | 78 | 1.00 |
57BYGHM601-05 | 0.9 | 6 | 8.6 | 1.0 | 8.6 | 20 | 13 | 78 | 1.00 |
*Products can be customized by special request.
*Products can match gearbox 42,52,57,63mm
Out diameter 42mm Powder metallurgy
Housing material | Bearing at output | Radial load(10mm from flange)N | Shaft axial load(N) | Shaft press-fit force max(N) | Radial play of shaft(mm) | Thrust play of shaft(mm) | Backlash at no-load (°) |
Powder metallurgy | sleeve bearing | ≤120 | ≤80 | ≤500 | ≤0.03 | ≤0.1 | ≤1.5 |
Reduction ratio | Rated tolerance torque (Nm) | Max momentary tolerance torque (Nm) | Efficiency% |
Length L (mm) |
Weight(g) | Number of gear trains |
1/4 | 1.0 | 3.0 | 81% | 32.5 | 170 | 1 |
1/6 | ||||||
1/15 | 4.0 | 12 | 72% | 46.3 | 207 | 2 |
1/18 | ||||||
1/25 | ||||||
1/36 | ||||||
1/54 |
8.0
|
25
|
65%
|
60.1
|
267
|
3 |
1/65 | ||||||
1/90 | ||||||
1/112 | ||||||
1/155 | ||||||
1/216 | 10 | 30 | 65% | 60.1 | 267 |
Mechanical Dimension
Out diameter 52mm Zinc alloy
Housing material | Bearing at output | Radial load(10mm from flange)N | Shaft axial load(N) | Shaft press-fit force max(N) | Radial play of shaft(mm) | Thrust play of shaft(mm) | Backlash at no-load (°) |
Zinc alloy | sleeve bearings | ≤450 | ≤200 | ≤1000 | ≤0.03 | ≤0.1 | ≤1.5 |
Reduction ratio | Rated tolerance torque (Nm) | Max momentary tolerance torque (Nm) | Efficiency% |
Length L(mm) |
Weight(g) | Number of gear trains | Reduction ratio |
1/13 | 1/13 | 2.0 | 6.0 | 81% | 52.9 | 345 | 1 |
Mechanical Dimension
Out diameter 56mm Powder metallurgy
Housing material | Bearing at output | Radial load(10mm from flange)N | Shaft axial load(N) | Shaft press-fit force max(N) | Radial play of shaft(mm) | Thrust play of shaft(mm) | Backlash at no-load (°) |
Powder metallurgy | sleeve bearings | ≤450 | ≤200 | ≤1000 | ≤0.03 | ≤0.1 | ≤1.5 |
Reduction ratio | Rated tolerance torque (Nm) | Max momentary tolerance torque (Nm) | Efficiency% |
Length L (mm) |
Weight(g) | Number of gear trains |
1/4 | 2.0 | 6.0 | 81% | 41.3 | 491 | 1 |
1/6 | ||||||
1/15 | 8.0 | 25 | 72% | 59.6 | 700 | 2 |
1/18 | ||||||
1/26 | ||||||
1/47 | 16 |
50
|
72% | 59.6 | 700 | 2 |
1/66 |
Mechanical Dimension
Out diameter 56mm Engineering plastics
Housing material | Bearing at output | Radial load(10mm from flange)N | Shaft axial load(N) | Shaft press-fit force max(N) | Radial play of shaft(mm) | Thrust play of shaft(mm) | Backlash at no-load (°) |
Engineering plastics | sleeve bearing | ≤450 | ≤200 | ≤1000 | ≤0.03 | ≤0.1 | ≤1.5 |
Reduction ratio | Rated tolerance torque (Nm) | Max momentary tolerance torque (Nm) | Efficiency% |
Length L (mm) |
Weight(g) | Number of gear trains |
1/15 | 8.0 | 25 |
72%
|
61.6 | 450 |
2
|
1/18 | ||||||
1/26 | ||||||
1/47 | 16 |
50
|
||||
1/66 |
Mechanical Dimension
Out diameter 56 mm Zinc alloy
Housing material | Bearing at output | Radial load(10mm from flange)N | Shaft axial load(N) | Shaft press-fit force max(N) | Radial play of shaft(mm) | Thrust play of shaft(mm) | Backlash at no-load (°) |
Zinc alloy | sleeve bearings | ≤450 | ≤200 | ≤1000 | ≤0.03 | ≤0.1 | ≤1.5 |
Reduction ratio | Rated tolerance torque (Nm) | Max momentary tolerance torque (Nm) | Efficiency% |
Length L (mm) |
Weight(g) | Number of gear trains |
1/4 |
2.0
|
6 | 81% |
43.3
|
350 | 1 |
1/6 | ||||||
1/13 | 52.7 | 400 |
Mechanical Dimension
Out diameter 63mm Zinc alloy
Housing material | Bearing at output | Radial load(10mm from flange)N | Shaft axial load(N) | Shaft press-fit force max(N) | Radial play of shaft(mm) | Thrust play of shaft(mm) | Backlash at no-load (°) |
Zinc alloy | sleeve bearings | ≤450 | ≤200 | ≤1000 | ≤0.03 | ≤0.1 | ≤1.5 |
Reduction ratio | Rated tolerance torque (Nm) | Max momentary tolerance torque (Nm) | Efficiency% |
Length L(mm) |
Weight(g) | Number of gear trains |
1/8 | 3.0 | 8.0 | 81% | 75.5 | 400 | 1 |
Mechanical Dimension
Gearbox motor aging test
Advantage of planetary gearbox motor
Wide Speed Ratio with a Long Service Lifespan
For the same amount of load capacity, a planetary gearbox has a higher service lifespan than the traditional gearboxes. Therefore, these gearboxes are easy to handle and install. These are key aspects that can improve efficiency and reliability in any mechanical system.
Again, the arrangement of gears is such that the entire system remains stable and reliable.
Unique Design for High Power Density
High power density is one of the many planetary gearbox advantages.
This is mainly due to the many planets in the gear system, which allow for efficient power distribution.
By sharing the load among various planet gears, the planetary gearbox not only increases efficiency but also reduces the chances of wear and tear.