China OEM Tycp Series Premium-Efficiency Three Phase Variable Frequency Permanent Magnet Synchronous Motors near me shop

Product Description

TYCP Series Premium-Efficiency Three Phase Variable Frequency Permanent Magnet Synchronous Motors

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Applications: Energy saving applications where continuous of frequent duty is required, like pumps, fans, etc.

General Description

  • Frame sizes: 80 to 355
  • Rated output: 0.55 to 375kW
  • Voltage: 380V
  • Frequency: 50Hz or 60Hz
  • Poles: 2, 4, 6, 8
  • Efficiency levels: IE4, IE5
  • Duty Cycle: S1
  • Enclosure: IC411, IC416
  • Insulation class: F
  • Degree of protection: IP55/56/65/66
  • Service Factor: 1.0
  • Regreasing system: Frame 250 and above

Features: 
T means for synchronous, YC for permanent magnet, and P for pump.These series motors have many virtues, including beautiful profile, high efficiency and energy saving, class F insulated, the protective class is IP55, low noise, little vibration, reliable running. Operating with WN90T inverter, the motor can be applied in various condition.

Optional Features:
Electrical:
Insulation Class:H
Thermal Protection:frame up to 132(include), with PTC Thermistor, Thermostat or PT100
Mechanical:
Others mountings
Protection Degree:IP56, IP65, IP66
Sealing:Lip seal, Oil seal
Space Heater, Double shaft ends
Drain Hole

Mounting Type:
Conventional mounting type and suitable frame size are given in following table(with “√”)

 

If there is no other request in the order or agreement, terminal box standard position is at the right side of the frame; data above may be changed without prior notice.

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WANNAN MOTOR INDUSTRIAL SOLUTIONS

Type kW A r/min Eff.
%
P.F N.m dB (A) Cooling Inverter
3000 r/min Rated frequency 200Hz
TYCP80M1-8-30 0.75 1.35 3000 88.6 0.95 2.39 62

IC411

WN90T-0.7G-4
TYCP80M2-8-30 1.1 1.96 3000 89.8 0.95 3.50 62 WN90T-0.7G-4
TYCP90S-8-30 1.5 2.64 3000 90.9 0.95 4.77 67 WN90T-1.5G-4
TYCP90L-8-30 2.2 3.83 3000 91.8 0.95 7.00 67 WN90T-2.2G-4
TYCP100L-8-30 3 5.18 3000 92.6 0.95 9.55 74 WN90T-3.7G-4
TYCP112M-8-30 4 6.86 3000 93.3 0.95 12.73 77 WN90T-3.7G-4
TYCP132S1-8-30 5.5 9.36 3000 94 0.95 17.51 79 WN90T-5.5G-4
TYCP132S2-8-30 7.5 12.6
9
3000 94.5 0.95 23.87 79 WN90T-7.5G-4
TYCP160M1-8-30 11 18.5
2
3000 95 0.95 35.01 81 WN90T-11G-4
TYCP160M2-8-30 15 25.1
7
3000 95.3 0.95 47.75 81 WN90T-15G-4
TYCP160L-8-30 18.5 30.9
5
3000 95.6 0.95 58.89 81 WN90T-18.5G-4

###

Type kW A r/mi n Eff.
%
P.F N.m dB (A) Cooling Inverter
3000 r/min Rated frequency 200Hz
TYCP180M-8-30 22 36.69 3000 95.9 0.95 70.03 83 IC411 WN90T-22G-4
TYCP200L1-8-30 30 49.93 3000 96.1 0.95 95.49 84 WN90T-30G-4
TYCP200L2-8-30 37 61.45 3000 96.3 0.95 117.8 84 WN90T-37G-4
TYCP225M-8-30 45 74.66 3000 96.4 0.95 143.2 86 WN90T-45G-4
TYCP250M-8-30 55 91.15 3000 96.5 0.95 175.1 89

IC416

WN90T-55G-4
TYCP280S-8-30 75 124.2 3000 96.6 0.95 238.7 91 WN90T-75G-4
TYCP280M-8-30 90 148.9 3000 96.7 0.95 286.5 91 WN90T-90G-4
TYCP315S-8-30 110 183.3 3000 96 0.95 350.1 92 WN90T-110G-4
TYCP315M-8-30 132 219.9 3000 96 0.95 420.2 92 WN90T-132G-4
TYCP315L1-8-30 160 266.0 3000 96.2 0.95 509.3 92 WN90T-160G-4
TYCP315L-8-30 185 307.6 3000 96.2 0.95 588.9 92 WN90T-185G-4
TYCP315L2-8-30 200 332.2 3000 96.3 0.95 636.6 92 WN90T-200G-4
TYCP315L3-8-30 220 365.4 3000 96.3 0.95 700.3 92 WN90T-220G-4
TYCP315L4-8-30 250 414.8 3000 96.4 0.95 795.8 92 WN90T-250G-4
TYCP355M1-8-30 220 365.4 3000 96.3 0.95 700.3 100 WN90T-220G-4
TYCP355M-8-30 250 414.8 3000 96.4 0.95 795.8 100 WN90T-250G-4
TYCP355L1-8-30 280 464.5 3000 96.4 0.95 891.3 100 WN90T-280G-4
TYCP355L-8-30 315 522.0 3000 96.5 0.95 1003 100 WN90T-315G-4
TYCP355L2-8-30 355 587.7 3000 96.6 0.95 1130 104 WN90T-350G-4
TYCP355L3-8-30 375 620.9 3000 96.6 0.95 1194 104 WN90T-400G-4
3000 r/min Rated frequency 200Hz
TYCP80M1-8-15 0.55 1.03 1500 85.6 0.95 3.50 56

IC411

WN90T-0.4G-4
TYCP80M2-8-15 0.75 1.40 1500 85.6 0.95 4.77 56 WN90T-0.7G-4
TYCP90S-8-15 1.1 2.01 1500 87.4 0.95 7.00 59 WN90T-0.7G-4
TYCP90L-8-15 1.5 2.72 1500 88.1 0.95 9.55 59 WN90T-1.5G-4
TYCP100L1-8-15 2.2 3.92 1500 89.7 0.95 14.01 64 WN90T-2.2G-4
TYCP100L2-8-15 3 5.31 1500 90.3 0.95 19.10 64 WN90T-3.7G-4
TYCP112M-8-15 4 7.04 1500 90.9 0.95 25.46 65 WN90T-3.7G-4
TYCP132S-8-15 5.5 9.55 1500 92.1 0.95 35.01 71 WN90T-5.5G-4
TYCP132M-8-15 7.5 12.95 1500 92.6 0.95 47.75 71 WN90T-7.5G-4
TYCP160M-8-15 11 18.80 1500 93.6 0.95 70.03 73 WN90T-11G-4
TYCP160L-8-15 15 25.52 1500 94 0.95 95.49 73 WN90T-15G-4
TYCP180M-8-15 18.5 31.38 1500 94.3 0.95 117.8 76 WN90T-18.5G-4
TYCP180L-8-15 22 37.15 1500 94.7 0.95 140.1 76 WN90T-22G-4
TYCP200L-8-15 30 50.50 1500 95 0.95 191.0 76 WN90T-30G-4
TYCP225S-8-15 37 62.09 1500 95.3 0.95 235.6 78 WN90T-37G-4
TYCP225M-8-15 45 75.28 1500 95.6 0.95 286.5 78 WN90T-45G-4
TYCP250M-8-15 55 91.82 1500 95.8 0.95 350.1 79 WN90T-55G-4
TYCP280S-8-15 75 125.0 1500 96 0.95 477.5 80 WN90T-75G-4
TYCP280M-8-15 90 149.6 1500 96.2 0.95 573.0 80 WN90T-90G-4
TYCP315S-8-15 110 182.5 1500 96.4 0.95 700.3 88 WN90T-110G-4
TYCP315M-8-15 132 218.8 1500 96.5 0.95 840.3 88 WN90T-132G-4
TYCP315L1-8-15 160 265.2 1500 96.5 0.95 1019 88 WN90T-160G-4
TYCP315L-8-15 185 306.6 1500 96.5 0.95 1178 88 WN90T-185G-4

###

Type kW A r/mi n Eff.
%
P.F N.m dB (A) Cooling Inverter
3000 r/min Rated frequency 200Hz
TYCP315L2-8-15 200 331.1 1500 96.6 0.95 1273 88

IC411

WN90T-200G-4
TYCP315L3-8-15 220 364.2 1500 96.6 0.95 1400 88 WN90T-220G-4
TYCP315L4-8-15 250 413.5 1500 96.7 0.95 1592 88 WN90T-250G-4
TYCP355M1-8-15 220 364.2 1500 96.6 0.95 1401 95 WN90T-220G-4
TYCP355M-8-15 250 413.5 1500 96.7 0.95 1592 95 WN90T-250G-4
TYCP355L1-8-15 280 463.1 1500 96.7 0.95 1783 95 WN90T-280G-4
TYCP355L-8-15 315 520.4 1500 96.8 0.95 2005 95 WN90T-315G-4
TYCP355L2-8-15 355 586.5 1500 96.8 0.95 2260 102 WN90T-350G-4
TYCP355L3-8-15 375 619.6 1500 96.8 0.95 2387 102 WN90T-400G-4
3000 r/min Rated frequency 200Hz
TYCP90S-8-10 0.75 1.37 1000 87.4 0.95 7.16 57

IC411

WN90T-0.7G-4
TYCP90L-8-10 1.1 1.98 1000 88.7 0.95 10.50 57 WN90T-0.7G-4
TYCP100L-8-10 1.5 2.67 1000 89.9 0.95 14.32 61 WN90T-1.5G-4
TYCP112M-8-10 2.2 3.87 1000 90.9 0.95 21.01 65 WN90T-2.2G-4
TYCP132S-8-10 3 5.23 1000 91.8 0.95 28.65 69 WN90T-3.7G-4
TYCP132M1-8-10 4 6.90 1000 92.7 0.95 38.20 69 WN90T-3.7G-4
TYCP132M2-8-10 5.5 9.42 1000 93.4 0.95 52.52 69 WN90T-5.5G-4
TYCP160M-8-10 7.5 12.76 1000 94 0.95 71.62 70 WN90T-7.5G-4
TYCP160L-8-10 11 18.62 1000 94.5 0.95 105.0 70 WN90T-11G-4
TYCP180L-8-10 15 25.17 1000 95.3 0.95 143.2 73 WN90T-15G-4
TYCP200L1-8-10 18.5 31.05 1000 95.3 0.95 176.7 73 WN90T-18.5G-4
TYCP200L2-8-10 22 36.80 1000 95.6 0.95 210.1 73 WN90T-22G-4
TYCP225M-8-10 30 50.08 1000 95.8 0.95 286.5 74 WN90T-30G-4
TYCP250M-8-10 37 61.64 1000 96 0.95 353.3 76 WN90T-37G-4
TYCP280S-8-10 45 74.81 1000 96.2 0.95 429.7 78 WN90T-45G-4
TYCP280M-8-10 55 91.34 1000 96.3 0.95 525.2 78 WN90T-55G-4
TYCP315S-8-10 75 124.4 1000 96.4 0.95 716.2 83 WN90T-75G-4
TYCP315M-8-10 90 149.2 1000 96.5 0.95 859.5 83 WN90T-90G-4
TYCP315L1-8-10 110 182.7 1000 96.3 0.95 1050 83 WN90T-110G-4
TYCP315L2-8-10 132 219.2 1000 96.3 0.95 1260 83 WN90T-132G-4
TYCP315L3-8-10 160 265.7 1000 96.3 0.95 1528 83 WN90T-160G-4
TYCP315L4-8-10 185 307.2 1000 96.3 0.95 1767 83 WN90T-185G-4
TYCP355M1-8-10 160 265.7 1000 96.3 0.95 1528 85 WN90T-160G-4
TYCP355M-8-10 185 307.2 1000 96.3 0.95 1767 85 WN90T-185G-4
TYCP355M2-8-10 200 331.8 1000 96.4 0.95 1910 85 WN90T-200G-4
TYCP355L1-8-10 220 365.0 1000 96.4 0.95 2101 85 WN90T-220G-4
TYCP355L-8-10 250 414.8 1000 96.4 0.95 2387 85 WN90T-250G-4
TYCP355L2-8-10 280 464.6 1000 96.4 0.95 2674 91 WN90T-280G-4
TYCP355L3-8-10 315 5227 1000 96.4 0.95 3008 91 WN90T-315G-4
TYCP355L4-8-10 355 589.0 1000 96.4 0.95 3390 91 WN90T-350G-4
3000 r/min Rated frequency 200Hz
TYCP90L-8-7.5 0.55 1.11 750 78.9 0.95 7.00 56 IC411 WN90T-0.4G-4
TYCP100L-8-7.5 0.75 1.43 750 83.6 0.95 9.55 59 WN90T-0.7G-4
TYCP100L2-8-7.5 1.1 2.06 750 85.2 0.95 14.01 59 WN90T-0.7G-4
TYCP112M-8-7.5 1.5 2.77 750 86.7 0.95 19.10 61 WN90T-1.5G-4

###

Frame Basic Type Derived Type
B3 B5 B35 V1 V3 V5 V6 B6 B7 B8 V15 V17 V35 V37 B14 B34 V18
80~112
132~160
180~280
315~355
Type kW A r/min Eff.
%
P.F N.m dB (A) Cooling Inverter
3000 r/min Rated frequency 200Hz
TYCP80M1-8-30 0.75 1.35 3000 88.6 0.95 2.39 62

IC411

WN90T-0.7G-4
TYCP80M2-8-30 1.1 1.96 3000 89.8 0.95 3.50 62 WN90T-0.7G-4
TYCP90S-8-30 1.5 2.64 3000 90.9 0.95 4.77 67 WN90T-1.5G-4
TYCP90L-8-30 2.2 3.83 3000 91.8 0.95 7.00 67 WN90T-2.2G-4
TYCP100L-8-30 3 5.18 3000 92.6 0.95 9.55 74 WN90T-3.7G-4
TYCP112M-8-30 4 6.86 3000 93.3 0.95 12.73 77 WN90T-3.7G-4
TYCP132S1-8-30 5.5 9.36 3000 94 0.95 17.51 79 WN90T-5.5G-4
TYCP132S2-8-30 7.5 12.6
9
3000 94.5 0.95 23.87 79 WN90T-7.5G-4
TYCP160M1-8-30 11 18.5
2
3000 95 0.95 35.01 81 WN90T-11G-4
TYCP160M2-8-30 15 25.1
7
3000 95.3 0.95 47.75 81 WN90T-15G-4
TYCP160L-8-30 18.5 30.9
5
3000 95.6 0.95 58.89 81 WN90T-18.5G-4

###

Type kW A r/mi n Eff.
%
P.F N.m dB (A) Cooling Inverter
3000 r/min Rated frequency 200Hz
TYCP180M-8-30 22 36.69 3000 95.9 0.95 70.03 83 IC411 WN90T-22G-4
TYCP200L1-8-30 30 49.93 3000 96.1 0.95 95.49 84 WN90T-30G-4
TYCP200L2-8-30 37 61.45 3000 96.3 0.95 117.8 84 WN90T-37G-4
TYCP225M-8-30 45 74.66 3000 96.4 0.95 143.2 86 WN90T-45G-4
TYCP250M-8-30 55 91.15 3000 96.5 0.95 175.1 89

IC416

WN90T-55G-4
TYCP280S-8-30 75 124.2 3000 96.6 0.95 238.7 91 WN90T-75G-4
TYCP280M-8-30 90 148.9 3000 96.7 0.95 286.5 91 WN90T-90G-4
TYCP315S-8-30 110 183.3 3000 96 0.95 350.1 92 WN90T-110G-4
TYCP315M-8-30 132 219.9 3000 96 0.95 420.2 92 WN90T-132G-4
TYCP315L1-8-30 160 266.0 3000 96.2 0.95 509.3 92 WN90T-160G-4
TYCP315L-8-30 185 307.6 3000 96.2 0.95 588.9 92 WN90T-185G-4
TYCP315L2-8-30 200 332.2 3000 96.3 0.95 636.6 92 WN90T-200G-4
TYCP315L3-8-30 220 365.4 3000 96.3 0.95 700.3 92 WN90T-220G-4
TYCP315L4-8-30 250 414.8 3000 96.4 0.95 795.8 92 WN90T-250G-4
TYCP355M1-8-30 220 365.4 3000 96.3 0.95 700.3 100 WN90T-220G-4
TYCP355M-8-30 250 414.8 3000 96.4 0.95 795.8 100 WN90T-250G-4
TYCP355L1-8-30 280 464.5 3000 96.4 0.95 891.3 100 WN90T-280G-4
TYCP355L-8-30 315 522.0 3000 96.5 0.95 1003 100 WN90T-315G-4
TYCP355L2-8-30 355 587.7 3000 96.6 0.95 1130 104 WN90T-350G-4
TYCP355L3-8-30 375 620.9 3000 96.6 0.95 1194 104 WN90T-400G-4
3000 r/min Rated frequency 200Hz
TYCP80M1-8-15 0.55 1.03 1500 85.6 0.95 3.50 56

IC411

WN90T-0.4G-4
TYCP80M2-8-15 0.75 1.40 1500 85.6 0.95 4.77 56 WN90T-0.7G-4
TYCP90S-8-15 1.1 2.01 1500 87.4 0.95 7.00 59 WN90T-0.7G-4
TYCP90L-8-15 1.5 2.72 1500 88.1 0.95 9.55 59 WN90T-1.5G-4
TYCP100L1-8-15 2.2 3.92 1500 89.7 0.95 14.01 64 WN90T-2.2G-4
TYCP100L2-8-15 3 5.31 1500 90.3 0.95 19.10 64 WN90T-3.7G-4
TYCP112M-8-15 4 7.04 1500 90.9 0.95 25.46 65 WN90T-3.7G-4
TYCP132S-8-15 5.5 9.55 1500 92.1 0.95 35.01 71 WN90T-5.5G-4
TYCP132M-8-15 7.5 12.95 1500 92.6 0.95 47.75 71 WN90T-7.5G-4
TYCP160M-8-15 11 18.80 1500 93.6 0.95 70.03 73 WN90T-11G-4
TYCP160L-8-15 15 25.52 1500 94 0.95 95.49 73 WN90T-15G-4
TYCP180M-8-15 18.5 31.38 1500 94.3 0.95 117.8 76 WN90T-18.5G-4
TYCP180L-8-15 22 37.15 1500 94.7 0.95 140.1 76 WN90T-22G-4
TYCP200L-8-15 30 50.50 1500 95 0.95 191.0 76 WN90T-30G-4
TYCP225S-8-15 37 62.09 1500 95.3 0.95 235.6 78 WN90T-37G-4
TYCP225M-8-15 45 75.28 1500 95.6 0.95 286.5 78 WN90T-45G-4
TYCP250M-8-15 55 91.82 1500 95.8 0.95 350.1 79 WN90T-55G-4
TYCP280S-8-15 75 125.0 1500 96 0.95 477.5 80 WN90T-75G-4
TYCP280M-8-15 90 149.6 1500 96.2 0.95 573.0 80 WN90T-90G-4
TYCP315S-8-15 110 182.5 1500 96.4 0.95 700.3 88 WN90T-110G-4
TYCP315M-8-15 132 218.8 1500 96.5 0.95 840.3 88 WN90T-132G-4
TYCP315L1-8-15 160 265.2 1500 96.5 0.95 1019 88 WN90T-160G-4
TYCP315L-8-15 185 306.6 1500 96.5 0.95 1178 88 WN90T-185G-4

###

Type kW A r/mi n Eff.
%
P.F N.m dB (A) Cooling Inverter
3000 r/min Rated frequency 200Hz
TYCP315L2-8-15 200 331.1 1500 96.6 0.95 1273 88

IC411

WN90T-200G-4
TYCP315L3-8-15 220 364.2 1500 96.6 0.95 1400 88 WN90T-220G-4
TYCP315L4-8-15 250 413.5 1500 96.7 0.95 1592 88 WN90T-250G-4
TYCP355M1-8-15 220 364.2 1500 96.6 0.95 1401 95 WN90T-220G-4
TYCP355M-8-15 250 413.5 1500 96.7 0.95 1592 95 WN90T-250G-4
TYCP355L1-8-15 280 463.1 1500 96.7 0.95 1783 95 WN90T-280G-4
TYCP355L-8-15 315 520.4 1500 96.8 0.95 2005 95 WN90T-315G-4
TYCP355L2-8-15 355 586.5 1500 96.8 0.95 2260 102 WN90T-350G-4
TYCP355L3-8-15 375 619.6 1500 96.8 0.95 2387 102 WN90T-400G-4
3000 r/min Rated frequency 200Hz
TYCP90S-8-10 0.75 1.37 1000 87.4 0.95 7.16 57

IC411

WN90T-0.7G-4
TYCP90L-8-10 1.1 1.98 1000 88.7 0.95 10.50 57 WN90T-0.7G-4
TYCP100L-8-10 1.5 2.67 1000 89.9 0.95 14.32 61 WN90T-1.5G-4
TYCP112M-8-10 2.2 3.87 1000 90.9 0.95 21.01 65 WN90T-2.2G-4
TYCP132S-8-10 3 5.23 1000 91.8 0.95 28.65 69 WN90T-3.7G-4
TYCP132M1-8-10 4 6.90 1000 92.7 0.95 38.20 69 WN90T-3.7G-4
TYCP132M2-8-10 5.5 9.42 1000 93.4 0.95 52.52 69 WN90T-5.5G-4
TYCP160M-8-10 7.5 12.76 1000 94 0.95 71.62 70 WN90T-7.5G-4
TYCP160L-8-10 11 18.62 1000 94.5 0.95 105.0 70 WN90T-11G-4
TYCP180L-8-10 15 25.17 1000 95.3 0.95 143.2 73 WN90T-15G-4
TYCP200L1-8-10 18.5 31.05 1000 95.3 0.95 176.7 73 WN90T-18.5G-4
TYCP200L2-8-10 22 36.80 1000 95.6 0.95 210.1 73 WN90T-22G-4
TYCP225M-8-10 30 50.08 1000 95.8 0.95 286.5 74 WN90T-30G-4
TYCP250M-8-10 37 61.64 1000 96 0.95 353.3 76 WN90T-37G-4
TYCP280S-8-10 45 74.81 1000 96.2 0.95 429.7 78 WN90T-45G-4
TYCP280M-8-10 55 91.34 1000 96.3 0.95 525.2 78 WN90T-55G-4
TYCP315S-8-10 75 124.4 1000 96.4 0.95 716.2 83 WN90T-75G-4
TYCP315M-8-10 90 149.2 1000 96.5 0.95 859.5 83 WN90T-90G-4
TYCP315L1-8-10 110 182.7 1000 96.3 0.95 1050 83 WN90T-110G-4
TYCP315L2-8-10 132 219.2 1000 96.3 0.95 1260 83 WN90T-132G-4
TYCP315L3-8-10 160 265.7 1000 96.3 0.95 1528 83 WN90T-160G-4
TYCP315L4-8-10 185 307.2 1000 96.3 0.95 1767 83 WN90T-185G-4
TYCP355M1-8-10 160 265.7 1000 96.3 0.95 1528 85 WN90T-160G-4
TYCP355M-8-10 185 307.2 1000 96.3 0.95 1767 85 WN90T-185G-4
TYCP355M2-8-10 200 331.8 1000 96.4 0.95 1910 85 WN90T-200G-4
TYCP355L1-8-10 220 365.0 1000 96.4 0.95 2101 85 WN90T-220G-4
TYCP355L-8-10 250 414.8 1000 96.4 0.95 2387 85 WN90T-250G-4
TYCP355L2-8-10 280 464.6 1000 96.4 0.95 2674 91 WN90T-280G-4
TYCP355L3-8-10 315 5227 1000 96.4 0.95 3008 91 WN90T-315G-4
TYCP355L4-8-10 355 589.0 1000 96.4 0.95 3390 91 WN90T-350G-4
3000 r/min Rated frequency 200Hz
TYCP90L-8-7.5 0.55 1.11 750 78.9 0.95 7.00 56 IC411 WN90T-0.4G-4
TYCP100L-8-7.5 0.75 1.43 750 83.6 0.95 9.55 59 WN90T-0.7G-4
TYCP100L2-8-7.5 1.1 2.06 750 85.2 0.95 14.01 59 WN90T-0.7G-4
TYCP112M-8-7.5 1.5 2.77 750 86.7 0.95 19.10 61 WN90T-1.5G-4

###

Frame Basic Type Derived Type
B3 B5 B35 V1 V3 V5 V6 B6 B7 B8 V15 V17 V35 V37 B14 B34 V18
80~112
132~160
180~280
315~355

Benefits of a Planetary Motor

Besides being one of the most efficient forms of a drive, a Planetary Motor also offers a great number of other benefits. These features enable it to create a vast range of gear reductions, as well as generate higher torques and torque density. Let’s take a closer look at the benefits this mechanism has to offer. To understand what makes it so appealing, we’ll explore the different types of planetary systems.
Motor

Solar gear

The solar gear on a planetary motor has two distinct advantages. It produces less noise and heat than a helical gear. Its compact footprint also minimizes noise. It can operate at high speeds without sacrificing efficiency. However, it must be maintained with constant care to operate efficiently. Solar gears can be easily damaged by water and other debris. Solar gears on planetary motors may need to be replaced over time.
A planetary gearbox is composed of a sun gear and two or more planetary ring and spur gears. The sun gear is the primary gear and is driven by the input shaft. The other two gears mesh with the sun gear and engage the stationary ring gear. The three gears are held together by a carrier, which sets the spacing. The output shaft then turns the planetary gears. This creates an output shaft that rotates.
Another advantage of planetary gears is that they can transfer higher torques while being compact. These advantages have led to the creation of solar gears. They can reduce the amount of energy consumed and produce more power. They also provide a longer service life. They are an excellent choice for solar-powered vehicles. But they must be installed by a certified solar energy company. And there are other advantages as well. When you install a solar gear on a planetary motor, the energy produced by the sun will be converted to useful energy.
A solar gear on a planetary motor uses a solar gear to transmit torque from the sun to the planet. This system works on the principle that the sun gear rotates at the same rate as the planet gears. The sun gear has a common design modulus of -Ns/Np. Hence, a 24-tooth sun gear equals a 3-1/2 planet gear ratio. When you consider the efficiency of solar gears on planetary motors, you will be able to determine whether the solar gears are more efficient.

Sun gear

The mechanical arrangement of a planetary motor comprises of two components: a ring gear and a sun gear. The ring gear is fixed to the motor’s output shaft, while the sun gear rolls around and orbits around it. The ring gear and sun gear are linked by a planetary carrier, and the torque they produce is distributed across their teeth. The planetary structure arrangement also reduces backlash, and is critical to achieve a quick start and stop cycle.
When the two planetary gears rotate independently, the sun gear will rotate counterclockwise and the ring-gear will turn in the same direction. The ring-gear assembly is mounted in a carrier. The carrier gear and sun gear are connected to each other by a shaft. The planetary gears and sun gear rotate around each other on the ring-gear carrier to reduce the speed of the output shaft. The planetary gear system can be multiplied or staged to obtain a higher reduction ratio.
A planetary gear motor mimics the planetary rotation system. The input shaft turns a central gear, known as the sun gear, while the planetary gears rotate around a stationary sun gear. The motor’s compact design allows it to be easily mounted to a vehicle, and its low weight makes it ideal for small vehicles. In addition to being highly efficient, a planetary gear motor also offers many other benefits.
A planetary gearbox uses a sun gear to provide torque to the other gears. The planet pinions mesh with an internal tooth ring gear to generate rotation. The carrier also acts as a hub between the input gear and output shaft. The output shaft combines these two components, giving a higher torque. There are three types of planetary gearboxes: the sun gear and a wheel drive planetary gearbox.
Motor

Planetary gear

A planetary motor gear works by distributing rotational force along a separating plate and a cylindrical shaft. A shock-absorbing device is included between the separating plate and cylindrical shaft. This depressed portion prevents abrasion wear and foreign particles from entering the device. The separating plate and shaft are positioned coaxially. In this arrangement, the input shaft and output shaft are rotated relative to one another. The rotatable disc absorbs the impact.
Another benefit of a planetary motor gear is its efficiency. Planetary motor gears are highly efficient at transferring power, with 97% of the input energy being transferred to the output. They can also have high gear ratios, and offer low noise and backlash. This design also allows the planetary gearbox to work with electric motors. In addition, planetary gears also have a long service life. The efficiency of planetary gears is due in part to the large number of teeth.
Other benefits of a planetary motor gear include the ease of changing ratios, as well as the reduced safety stock. Unlike other gears, planetary gears don’t require special tools for changing ratios. They are used in numerous industries, and share parts across multiple sizes. This means that they are cost-effective to produce and require less safety stock. They can withstand high shock and wear, and are also compact. If you’re looking for a planetary motor gear, you’ve come to the right place.
The axial end surface of a planetary gear can be worn down by abrasion with a separating plate. In addition, foreign particles may enter the planetary gear device. These particles can damage the gears or even cause noise. As a result, you should check planetary gears for damage and wear. If you’re looking for a gear, make sure it has been thoroughly tested and installed by a professional.

Planetary gearbox

A planetary motor and gearbox are a common combination of electric and mechanical power sources. They share the load of rotation between multiple gear teeth to increase the torque capacity. This design is also more rigid, with low backlash that can be as low as one or two arc minutes. The advantages of a planetary gearmotor over a conventional electric motor include compact size, high efficiency, and less risk of gear failure. Planetary gear motors are also more reliable and durable than conventional electric motors.
A planetary gearbox is designed for a single stage of reduction, or a multiple-stage unit can be built with several individual cartridges. Gear ratios may also be selected according to user preference, either to face mount the output stage or to use a 5mm hex shaft. For multi-stage planetary gearboxes, there are a variety of different options available. These include high-efficiency planetary gearboxes that achieve a 98% efficiency at single reduction. In addition, they are noiseless, and reduce heat loss.
A planetary gearbox may be used to increase torque in a robot or other automated system. There are different types of planetary gear sets available, including gearboxes with sliding or rolling sections. When choosing a planetary gearset, consider the environment and other factors such as backlash, torque, and ratio. There are many advantages to a planetary gearbox and the benefits and drawbacks associated with it.
Planetary gearboxes are similar to those in a solar system. They feature a central sun gear in the middle, two or more outer gears, and a ring gear at the output. The planetary gears rotate in a ring-like structure around a stationary sun gear. When the gears are engaged, they are connected by a carrier that is fixed to the machine’s shaft.
Motor

Planetary gear motor

Planetary gear motors reduce the rotational speed of an armature by one or more times. The reduction ratio depends on the structure of the planetary gear device. The planetary gear device has an output shaft and an armature shaft. A separating plate separates the two. The output shaft moves in a circular pattern to turn the pinion 3. When the pinion rotates to the engagement position, it is engaged with the ring gear 4. The ring gear then transmits the rotational torque to the armature shaft. The result is that the engine cranks up.
Planetary gear motors are cylindrical in shape and are available in various power levels. They are typically made of steel or brass and contain multiple gears that share the load. These motors can handle massive power transfers. The planetary gear drive, on the other hand, requires more components, such as a sun’s gear and multiple planetary gears. Consequently, it may not be suitable for all types of applications. Therefore, the planetary gear drive is generally used for more complex machines.
Brush dusts from the electric motor may enter the planetary gear device and cause it to malfunction. In addition, abrasion wear on the separating plate can affect the gear engagement of the planetary gear device. If this occurs, the gears will not engage properly and may make noise. In order to prevent such a situation from occurring, it is important to regularly inspect planetary gear motors and their abrasion-resistant separating plates.
Planetary gear motors come in many different power levels and sizes. These motors are usually cylindrical in shape and are made of steel, brass, plastic, or a combination of both materials. A planetary gear motor can be used in applications where space is an issue. This motor also allows for low gearings in small spaces. The planetary gearing allows for large amounts of power transfer. The output shaft size is dependent on the gear ratio and the motor speed.

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