Tag Archives: three phase ac induction motor

China Good quality Yy My Ml Yc Mc Ys Ms Y2 Ie2 Ye2 Capacitor Start Run B14 B5 Single Three Phase Induction AC Electric Electrical Motor for Fans Blowers Pumps Compressor Cleaners manufacturer

Product Description

YY series single phase capacitor run asynchronous  motors,are suitable for fans, blowers, and various equipments requiring light load starting.This series motors with  high power factor and efficiency, small size, light weight, good performance, low noise, and convenient maintenance

 

Power: 0.55kw-2.2kw Voltage: 220/230V( can can done as your need)
Frequency: 50/60hz Enamelled Wire: Copper Wire (Can Done Aluminum wire as Your Need)
Insulation Class: F Mounting Way: B3/B5/B14/B34/B35
Protection Grade: IP54 IP44 motor body : cast iron/cast aluminum

.

1. Are you a manufacturer or trading company?
We are a professional manufacturer of single phase motor,three phase electric motor and pump

2. Where is your factory located? 
Our factory is in HangZhou,HangZhou,ZHangZhoug,China. it is very near from HangZhou city,HangZhou city,ZheJiang city.

3. How do you confirm your quality?
A. Rich experience on weakness may appear on every components and products;
B. 100% checking before order and bulk sample reserved in warehouse for after-sale service.

4. Is it acceptable to use self-label brand?
Yes, we provide OEM products, also welcome ODM OTM orders.

5. What is your payment terms?
T/T and L/C. Normally T/T 30% deposit, 70% balance should be paid against the B/L copy.
Better payment terms Available for regular esteemed customers.

6. What is your company’s production capacity every year?
We have over 200,000 pcs production capacity every year.

7. Is sample available for my reference before final order?
Yes, we support trial sample order(1-100pcs) for you. Please contact with our sevice staff.

If you have any other questions,welcome to contact  us.

Application: Industrial
Speed: Variable Speed
Number of Stator: Single-Phase
Samples:
US$ 60/Piece
1 Piece(Min.Order)

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Order Sample

1.1kw
Customization:
Available

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Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

electric motor

How does an electric motor ensure efficient energy conversion?

An electric motor ensures efficient energy conversion by employing various design features and principles that minimize energy losses and maximize the conversion of electrical energy into mechanical energy. Here’s a detailed explanation of how electric motors achieve efficient energy conversion:

  1. Efficient Motor Design: Electric motors are designed with careful consideration given to their construction and materials. High-quality magnetic materials, such as laminated iron cores and permanent magnets, are used to reduce magnetic losses and maximize magnetic field strength. Additionally, the motor’s windings are designed with low-resistance conductors to minimize electrical losses. By optimizing the motor’s design, manufacturers can improve its overall efficiency.
  2. Reducing Friction and Mechanical Losses: Electric motors are designed to minimize friction and mechanical losses. This is achieved through the use of high-quality bearings and lubrication systems that reduce friction between moving parts. By reducing friction, the motor can operate more efficiently, translating more of the input energy into useful mechanical work rather than dissipating it as heat.
  3. Efficient Control and Power Electronics: Electric motors employ advanced control techniques and power electronics to enhance energy conversion efficiency. Variable frequency drives (VFDs) are commonly used to control motor speed and torque, allowing the motor to operate at optimal efficiency levels under varying load conditions. Power electronics devices, such as insulated gate bipolar transistors (IGBTs) and MOSFETs, minimize switching losses and optimize power flow within the motor.
  4. Regenerative Braking and Energy Recovery: Some electric motors, particularly those used in hybrid electric vehicles (HEVs) and electric trains, incorporate regenerative braking systems. These systems convert the kinetic energy of the moving vehicle back into electrical energy, which can be stored and reused. By capturing and reusing energy that would otherwise be wasted as heat during braking, regenerative braking significantly improves overall energy efficiency.
  5. Efficient Cooling and Thermal Management: Electric motors generate heat during operation, and excessive heat can lead to energy losses and reduced efficiency. To mitigate this, motors are designed with efficient cooling systems such as fans, heat sinks, or liquid cooling methods. Proper thermal management ensures that the motor operates within the optimal temperature range, reducing losses and improving overall efficiency.
  6. High-Efficiency Standards and Regulations: Governments and organizations have established energy efficiency standards and regulations for electric motors. These standards encourage manufacturers to produce motors with higher efficiency ratings. Compliance with these standards ensures that motors meet certain efficiency criteria, resulting in improved energy conversion and reduced energy consumption.

By incorporating these design features, control techniques, and efficiency measures, electric motors achieve efficient energy conversion. They minimize energy losses due to factors such as resistance, friction, and heat dissipation, ensuring that a significant portion of the input electrical energy is converted into useful mechanical work. The continuous advancements in motor design, materials, and control technologies further contribute to improving the overall energy efficiency of electric motors.

electric motor

How do electric motors impact the overall productivity of manufacturing processes?

Electric motors have a significant impact on the overall productivity of manufacturing processes. Their versatility, reliability, and efficiency make them essential components in a wide range of industrial applications. Here’s a detailed explanation of how electric motors contribute to enhancing productivity in manufacturing:

  1. Mechanization and Automation: Electric motors serve as the primary power source for a vast array of industrial machinery and equipment. By providing mechanical power, electric motors enable mechanization and automation of manufacturing processes. They drive conveyor belts, pumps, compressors, robots, and other machinery, allowing for efficient material handling, assembly, and production operations. The use of electric motors in mechanized and automated systems reduces manual labor, accelerates production rates, and improves overall productivity.
  2. Precise Control and Repeatable Movements: Electric motors offer precise control over speed, position, and torque, enabling accurate and repeatable movements in manufacturing processes. This precision is crucial for tasks that require consistent and controlled operations, such as precision cutting, drilling, machining, and assembly. Electric motors allow for fine adjustments and control, ensuring that manufacturing operations are performed with high levels of accuracy and repeatability, which ultimately enhances productivity and product quality.
  3. High Speed and Acceleration: Electric motors are capable of achieving high rotational speeds and rapid acceleration, enabling fast-paced manufacturing processes. Motors with high-speed capabilities are utilized in applications that require quick operations, such as high-speed machining, packaging, and sorting. The ability of electric motors to rapidly accelerate and decelerate facilitates efficient cycle times and overall process throughput, contributing to increased productivity.
  4. Reliability and Durability: Electric motors are known for their reliability and durability, making them well-suited for demanding manufacturing environments. With proper maintenance, electric motors can operate continuously for extended periods, minimizing downtime due to motor failures. The reliability of electric motors ensures consistent and uninterrupted production, optimizing manufacturing productivity and reducing costly disruptions.
  5. Energy Efficiency: Electric motors have witnessed significant advancements in energy efficiency, leading to reduced energy consumption in manufacturing processes. Energy-efficient motors convert a higher percentage of electrical input power into useful mechanical output power, resulting in lower energy costs. By utilizing energy-efficient electric motors, manufacturers can achieve cost savings and improve the overall sustainability of their operations. Additionally, energy-efficient motors generate less heat, reducing the need for cooling and improving the overall efficiency of auxiliary systems.
  6. Integration with Control Systems: Electric motors can be seamlessly integrated with sophisticated control systems and automation technologies. This integration allows for centralized control, monitoring, and optimization of manufacturing processes. Control systems can regulate motor speed, torque, and performance based on real-time data, enabling adaptive and efficient operations. The integration of electric motors with control systems enhances the overall productivity by optimizing process parameters, minimizing errors, and facilitating seamless coordination between different stages of manufacturing.

Electric motors significantly impact the overall productivity of manufacturing processes by enabling mechanization, automation, precise control, high-speed operations, reliability, energy efficiency, and integration with advanced control systems. Their versatility and performance characteristics make them indispensable in a wide range of industries, including automotive, electronics, aerospace, food processing, and more. By harnessing the power of electric motors, manufacturers can streamline operations, improve product quality, increase throughput, and ultimately enhance productivity in their manufacturing processes.

electric motor

What industries and applications commonly use electric motors?

Electric motors are widely utilized in various industries and applications due to their versatility, efficiency, and controllability. Here’s a detailed overview of the industries and applications where electric motors are commonly employed:

  1. Industrial Manufacturing: Electric motors are extensively used in industrial manufacturing processes. They power machinery and equipment such as conveyor systems, pumps, compressors, fans, mixers, robots, and assembly line equipment. Electric motors provide efficient and precise control over motion, making them essential for mass production and automation.
  2. Transportation: Electric motors play a crucial role in the transportation sector. They are used in electric vehicles (EVs) and hybrid electric vehicles (HEVs) to drive the wheels, providing propulsion. Electric motors offer benefits such as high torque at low speeds, regenerative braking, and improved energy efficiency. They are also employed in trains, trams, ships, and aircraft for various propulsion and auxiliary systems.
  3. HVAC Systems: Heating, ventilation, and air conditioning (HVAC) systems utilize electric motors for air circulation, fans, blowers, and pumps. Electric motors help in maintaining comfortable indoor environments and ensure efficient cooling, heating, and ventilation in residential, commercial, and industrial buildings.
  4. Appliances and Household Devices: Electric motors are found in numerous household appliances and devices. They power refrigerators, washing machines, dryers, dishwashers, vacuum cleaners, blenders, food processors, air conditioners, ceiling fans, and many other appliances. Electric motors enable the necessary mechanical actions for these devices to function effectively.
  5. Renewable Energy: Electric motors are integral components of renewable energy systems. They are used in wind turbines to convert wind energy into electrical energy. Electric motors are also employed in solar tracking systems to orient solar panels towards the sun for optimal energy capture. Additionally, electric motors are utilized in hydroelectric power plants for controlling water flow and generating electricity.
  6. Medical Equipment: Electric motors are crucial in various medical devices and equipment. They power surgical tools, pumps for drug delivery and fluid management, diagnostic equipment, dental drills, patient lifts, wheelchair propulsion, and many other medical devices. Electric motors provide the necessary precision, control, and reliability required in healthcare settings.
  7. Robotics and Automation: Electric motors are extensively used in robotics and automation applications. They drive the joints and actuators of robots, enabling precise and controlled movement. Electric motors are also employed in automated systems for material handling, assembly, packaging, and quality control in industries such as automotive manufacturing, electronics, and logistics.
  8. Aerospace and Defense: Electric motors have significant applications in the aerospace and defense sectors. They are used in aircraft for propulsion, control surfaces, landing gear, and auxiliary systems. Electric motors are also employed in military equipment, drones, satellites, guided missiles, and underwater vehicles.

These are just a few examples of the industries and applications where electric motors are commonly used. Electric motors provide a reliable, efficient, and controllable means of converting electrical energy into mechanical energy, making them essential components in numerous technologies and systems across various sectors.

China Good quality Yy My Ml Yc Mc Ys Ms Y2 Ie2 Ye2 Capacitor Start Run B14 B5 Single Three Phase Induction AC Electric Electrical Motor for Fans Blowers Pumps Compressor Cleaners   manufacturer China Good quality Yy My Ml Yc Mc Ys Ms Y2 Ie2 Ye2 Capacitor Start Run B14 B5 Single Three Phase Induction AC Electric Electrical Motor for Fans Blowers Pumps Compressor Cleaners   manufacturer
editor by CX 2023-12-15

China best CE Yc Yl Y2 Y  GOST AC Three Single Phase Asynchronous Induction Copper Wire Winding Electrical Electric Motor with Hot selling

Product Description

 

 

Technical parameter:                                                                                                                         

Output
(KW)

MODEL

Amps
(A)

Speed
(R/min)

Eff.
%

p.f.

RT
N.m

     

Noise LwdB
(A)

Weight
(Kg)

380V 50HZ 2P

0.18

Y2-631-2

0.5

2800

65.0

0.80

00.61

2.2

2.2

5.5

61

14

0.25

Y2-632-2

0.7

2800

68.0

0.81

0.96

2.2

2.2

5.5

61

14.5

0.37

Y2-711-2

1.0

2800

70.0

0.81

1.26

2.2

2.2

6.1

64

15

0.55

Y2-712-2

1.4

2800

73.0

0.82

1.88

2.2

2.3

6.1

64

15.5

0.75

Y2-801-2

1.8

2825

75.0

0.83

2.54

2.2

2.3

6.1

67

16.5

1.1

Y2-802-2

2.6

2825

77.0

0.84

3.72

2.2

2.3

7.0

67

17.5

1.5

Y2-90S-2

3.4

2840

79.0

0.84

5.04

2.2

2.3

7.0

72

21

2.2

Y2-90L-2

4.9

2840

81.0

0.85

7.40

2.2

2.3

7.0

72

25

3

Y2-100L-2

6.3

2880

83.0

0.87

9.95

2.2

2.3

7.5

76

33

4

Y2-112M-2

8.1

2890

85.0

0.88

13.22

2.2

2.3

7.5

77

41

5.5

Y2-132S1-2

11.0

2900

86.0

0.88

18.11

2.2

2.3

7.5

80

63

7.5

Y2-132S2-2

14.9

2900

87.0

0.88

24.70

2.2

2.3

7.5

80

70

11

Y2-160M1-2

21.3

2930

88.0

0.89

35.85

2.2

2.3

7.5

86

110

15

Y2-160M2-2

28.8

2930

89.0

0.89

48.89

2.2

2.3

7.5

86

120

18.5

Y2-160L-2

34.7

2930

90.5

0.90

60.30

2.2

2.3

7.5

86

135

22

Y2-180M-2

41.0

2940

91.2

0.90

71.46

2.0

2.3

7.5

89

165

30

Y2-200L1-2

55.5

2950

92.0

0.90

97.12

2.0

2.3

7.5

92

218

37

Y2-200L2-2

67.9

2950

92.3

0.90

119.78

2.0

2.3

7.5

92

230

45

Y2-225M-2

82.3

2970

92.3

0.90

144.70

2.0

2.3

7.5

92

280

55

Y2-250M-2

100.4

2970

92.5

0.90

176.85

2.0

2.3

7.5

93

365

75

Y2-280S-2

134.4

2970

93.2

0.91

241.16

2.0

2.3

7.5

94

495

90

Y2-280M-2

160.2

2970

93.8

0.91

289.39

2.0

2.3

7.5

94

565

110

Y2-315S-2

195.4

2980

94.0

0.91

352.51

1.8

2.2

7.1

96

890

132

Y2-315M-2

233.2

2980

94.5

0.91

423.02

1.8

2.2

7.1

96

980

160

Y2-315L1-2

279.3

2980

94.6

0.92

512.75

1.8

2.2

7.1

99

1055

200

Y2-315L2-2

348.4

2980

94.8

0.92

640.94

1.8

2.2

7.1

99

1110

250

Y2-355M-2

433.2

2985

95.3

0.92

799.83

1.6

2.2

7.1

103

1900

315

Y2-355L-2

544.2

2985

95.6

0.92

1007.79

1.6

2.2

7.1

103

2300

380V 50HZ 4P

0.12

Y2-631-4

0.4

1400

57.0

0.72

0.82

2.1

2.2

4.4

52

13

0.18

Y2-632-4

0.6

1400

60.0

0.73

1.23

2.1

2.2

4.4

52

13.5

0.25

Y2-711-4

0.8

1400

65.0

0.74

1.71

2.1

2.2

5.2

55

14

0.37

Y2-712-4

1.1

1400

67.0

0.75

2.54

2.1

2.2

5.2

55

14.5

0.55

Y2-801-4

1.6

1390

71.0

0.75

3.78

2.4

2.3

5.2

58

15

0.75

Y2-802-4

2.0

1490

73.0

0.77

5.15

2.4

2.3

6.0

58

16

1.1

Y2-90S-4

2.0

1400

75.0

0.77

7.50

2.3

2.3

6.0

61

23

1.5

Y2-90L-4

3.7

1420

78.0

0.79

10.23

2.3

2.3

6.0

61

25

2.2

Y2-100L1-4

5.2

1420

80.0

0.81

14.80

2.3

2.3

7.0

64

33

3.

Y2-100L2-4

6.8

1420

82.0

0.82

20.18

2.3

2.3

7.0

64

35

4.

Y2-112M-4

8.8

1440

84.0

0.82

26.53

2.3

2.3

7.0

65

41

5.5

Y2-132S-4

11.8

1440

85.0

0.83

36.48

2.3

2.3

7.0

71

65

7.5

Y2-132M-S

15.6

1440

87.0

0.84

49.74

2.2

2.3

7.0

71

76

11

Y2-160M-4

22.3

1460

88.0

0.85

71.59

2.2

2.3

7.0

75

118

15

Y2-160L-4

30.1

1460

89.0

0.85

98.12

2.2

2.3

7.5

75

132

18.5

Y2-180M-4

36.5

1470

90.5

0.85

120.19

2.2

2.3

7.5

76

164

22

Y2-1180L-4

43.2

1470

91.0

0.85

142.93

2.2

2.3

7.5

76

182

30

Y2-200L-4

57.6

1480

92.0

0.86

193.68

2.2

2.3

7.2

79

245

37

Y2-225S-4

69.9

1480

92.5

0.87

238.87

2.2

2.3

7.2

81

258

45

Y2-225M-4

84.7

1480

92.8

0.87

290.37

2.2

2.3

7.2

81

290

55

Y2-250M-4

103.3

1480

93.0

0.87

354.90

2.2

2.3

7.2

83

388

75

Y2-280S-4

139.6

1480

93.8

0.87

483.95

2.2

2.3

7.2

86

510

90

Y2-280M-4

166.9

1485

94.2

0.87

578.79

2.2

2.3

7.2

86

606

110

Y2-315S-4

201.0

1485

94.5

0.88

707.41

2.1

2.2

6.9

93

910

132

Y2-315M-4

240.4

1485

94.8

0.88

848.89

2.1

2.2

6.9

93

1000

160

Y2-315L1-4

287.8

1485

94.9

0.89

1571.96

2.1

2.2

6.9

97

1055

200

Y2-315L2-4

359.4

1485

95.0

0.89

1286.20

2.1

2.2

6.9

97

1128

250

Y2-355M-4

442.9

1490

95.3

0.90

1602.35

2.1

2.2

6.9

101

1700

315

Y2-355L-4

556.2

1490

95.6

0.90

2018.96

2.1

2.2

6.9

101

1900

380V 50HZ 6P

0.18

Y2-711-6

0.8

900

56.0

0.60

1.91

1.9

2.0

4.0

52

14

0.25

Y2-711-6

0.9

900

59.0

0.68

2.65

1.9

2.0

4.0

52

14.5

0.37

Y2-801-6

1.3

900

62.0

0.70

3.93

1.9

2.0

4.7

54

15

0.55

Y2-802-6

1.8

900

65.0

0.72

5.84

1.9

2.1

4.7

54

16

0.75

Y2-90S-6

2.3

910

69.0

0.72

7.87

2.0

2.1

5.5

57

19

1.1

Y2-90L-6

3.2

910

72.0

0.73

11.54

2.0

2.1

5.5

57

22

1.5

Y2-100L-6

3.9

940

76.0

0.76

15.24

2.0

2.1

5.5

61

32

2.2

Y2-112M-6

5.6

940

79.0

0.76

22.35

2.1

2.1

6.5

65

41

3

Y2-132S-6

7.4

960

81.0

0.76

29.84

2.1

2.1

6.5

69

63

4

Y2-132M1-6

9.9

960

82.0

0.76

39.79

2.1

2.1

6.5

69

72

5.5

Y2-132M-6

12.9

960

84.0

0.77

54.71

2.1

2.1

6.5

69

81

7.5

Y2-160M-6

16.9

970

86.0

0.78

73.84

2.0

2.1

6.5

73

118

11

Y2-160L-6

24.2

970

87.5

0.79

108.30

2.0

2.1

6.5

73

145

15

Y2-180L-6

31.6

970

89.0

0.81

147.68

2.1

2.1

7.0

73

178

18.5

Y2-200L1-6

38.6

970

90.0

0.81

182.14

2.1

2.1

7.0

76

200

22

Y2-200L2-6

44.7

970

90.0

0.83

216.60

2.1

2.1

7.0

76

228

30

Y2-225M-6

59.3

980

91.5

0.84

292.35

2.0

2.1

7.0

76

265

37

Y2-250M-6

71.1

980

92.0

0.86

360.56

2.1

2.1

7.0

78

370

45

Y2-280S-6

85.9

980

92.5

0.86

438.52

2.1

2.0

7.0

80

490

55

Y2-280M-6

104.7

980

92.8

0.86

535.97

2.1

2.0

7.0

80

540

75

Y2-315S-6

141.7

980

93.5

0.86

730.87

2.0

2.0

7.0

85

900

90

Y2-315M-6

169.5

985

93.8

0.86

872.59

2.0

2.0

7.0

85

980

110

Y2-315L1-6

206.7

985

94.0

0.86

1066.50

2.0

2.0

6.7

85

1045

132

Y2-315L2-6

244.7

985

94.2

0.87

1279.80

2.0

2.0

6.7

85

1100

160

Y2-355M1-6

292.3

990

94.5

0.88

1543.43

1.9

2.0

6.7

92

1440

200 Y2-355M2-6 364.6 990 94.7 0.88 1929.29 1.9 2.0 6.7 92 1600

250

Y2-355L-6

454.8

990

94.9

0.88

2411.62

1.9

2.0

6.7

92

1700

FACTORY OUTLINED LOOKING:

 

Application: Industrial, Universal, Household Appliances, Power Tools
Operating Speed: Low Speed
Number of Stator: Three-Phase
Species: 2,4,6,8,10,12p
Rotor Structure: Squirrel-Cage
Casing Protection: Closed Type
Samples:
US$ 300/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

electric motor

How does an electric motor ensure efficient energy conversion?

An electric motor ensures efficient energy conversion by employing various design features and principles that minimize energy losses and maximize the conversion of electrical energy into mechanical energy. Here’s a detailed explanation of how electric motors achieve efficient energy conversion:

  1. Efficient Motor Design: Electric motors are designed with careful consideration given to their construction and materials. High-quality magnetic materials, such as laminated iron cores and permanent magnets, are used to reduce magnetic losses and maximize magnetic field strength. Additionally, the motor’s windings are designed with low-resistance conductors to minimize electrical losses. By optimizing the motor’s design, manufacturers can improve its overall efficiency.
  2. Reducing Friction and Mechanical Losses: Electric motors are designed to minimize friction and mechanical losses. This is achieved through the use of high-quality bearings and lubrication systems that reduce friction between moving parts. By reducing friction, the motor can operate more efficiently, translating more of the input energy into useful mechanical work rather than dissipating it as heat.
  3. Efficient Control and Power Electronics: Electric motors employ advanced control techniques and power electronics to enhance energy conversion efficiency. Variable frequency drives (VFDs) are commonly used to control motor speed and torque, allowing the motor to operate at optimal efficiency levels under varying load conditions. Power electronics devices, such as insulated gate bipolar transistors (IGBTs) and MOSFETs, minimize switching losses and optimize power flow within the motor.
  4. Regenerative Braking and Energy Recovery: Some electric motors, particularly those used in hybrid electric vehicles (HEVs) and electric trains, incorporate regenerative braking systems. These systems convert the kinetic energy of the moving vehicle back into electrical energy, which can be stored and reused. By capturing and reusing energy that would otherwise be wasted as heat during braking, regenerative braking significantly improves overall energy efficiency.
  5. Efficient Cooling and Thermal Management: Electric motors generate heat during operation, and excessive heat can lead to energy losses and reduced efficiency. To mitigate this, motors are designed with efficient cooling systems such as fans, heat sinks, or liquid cooling methods. Proper thermal management ensures that the motor operates within the optimal temperature range, reducing losses and improving overall efficiency.
  6. High-Efficiency Standards and Regulations: Governments and organizations have established energy efficiency standards and regulations for electric motors. These standards encourage manufacturers to produce motors with higher efficiency ratings. Compliance with these standards ensures that motors meet certain efficiency criteria, resulting in improved energy conversion and reduced energy consumption.

By incorporating these design features, control techniques, and efficiency measures, electric motors achieve efficient energy conversion. They minimize energy losses due to factors such as resistance, friction, and heat dissipation, ensuring that a significant portion of the input electrical energy is converted into useful mechanical work. The continuous advancements in motor design, materials, and control technologies further contribute to improving the overall energy efficiency of electric motors.

electric motor

How do electric motors contribute to the precision of tasks like robotics?

Electric motors play a critical role in enabling the precision of tasks in robotics. Their unique characteristics and capabilities make them well-suited for precise and controlled movements required in robotic applications. Here’s a detailed explanation of how electric motors contribute to the precision of tasks in robotics:

  1. Precise Positioning: Electric motors offer precise positioning capabilities, allowing robots to move with accuracy and repeatability. By controlling the motor’s speed, direction, and rotation, robots can achieve precise position control, enabling them to perform tasks with high levels of accuracy. This is particularly important in applications that require precise manipulation, such as assembly tasks, pick-and-place operations, and surgical procedures.
  2. Speed Control: Electric motors provide precise speed control, allowing robots to perform tasks at varying speeds depending on the requirements. By adjusting the motor’s speed, robots can achieve smooth and controlled movements, which is crucial for tasks that involve delicate handling or interactions with objects or humans. The ability to control motor speed precisely enhances the overall precision and safety of robotic operations.
  3. Torque Control: Electric motors offer precise torque control, which is essential for tasks that require forceful or delicate interactions. Torque control allows robots to exert the appropriate amount of force or torque, enabling them to handle objects, perform assembly tasks, or execute movements with the required precision. By modulating the motor’s torque output, robots can delicately manipulate objects without causing damage or apply sufficient force for tasks that demand strength.
  4. Feedback Control Systems: Electric motors in robotics are often integrated with feedback control systems to enhance precision. These systems utilize sensors, such as encoders or resolvers, to provide real-time feedback on the motor’s position, speed, and torque. The feedback information is used to continuously adjust and fine-tune the motor’s performance, compensating for any errors or deviations and ensuring precise movements. The closed-loop nature of feedback control systems allows robots to maintain accuracy and adapt to dynamic environments or changing task requirements.
  5. Dynamic Response: Electric motors exhibit excellent dynamic response characteristics, enabling quick and precise adjustments to changes in command signals. This responsiveness is particularly advantageous in robotics, where rapid and accurate movements are often required. Electric motors can swiftly accelerate, decelerate, and change direction, allowing robots to perform intricate tasks with precision and efficiency.
  6. Compact and Lightweight: Electric motors are available in compact and lightweight designs, making them suitable for integration into various robotic systems. Their small size and high power-to-weight ratio allow for efficient utilization of space and minimal impact on the overall weight and size of the robot. This compactness and lightness contribute to the overall precision and maneuverability of robotic platforms.

Electric motors, with their precise positioning, speed control, torque control, feedback control systems, dynamic response, and compactness, significantly contribute to the precision of tasks in robotics. These motors enable robots to execute precise movements, manipulate objects with accuracy, and perform tasks that require high levels of precision. The integration of electric motors with advanced control algorithms and sensory feedback systems empowers robots to adapt to various environments, interact safely with humans, and achieve precise and controlled outcomes in a wide range of robotic applications.

electric motor

What is an electric motor and how does it function?

An electric motor is a device that converts electrical energy into mechanical energy. It is a common type of motor used in various applications, ranging from household appliances to industrial machinery. Electric motors operate based on the principle of electromagnetism and utilize the interaction between magnetic fields and electric current to generate rotational motion. Here’s a detailed explanation of how an electric motor functions:

  1. Basic Components: An electric motor consists of several key components. These include a stationary part called the stator, which typically contains one or more coils of wire wrapped around a core, and a rotating part called the rotor, which is connected to an output shaft. The stator and the rotor are often made of magnetic materials.
  2. Electromagnetic Fields: The stator is supplied with an electric current, which creates a magnetic field around the coils. This magnetic field is typically generated by the flow of direct current (DC) or alternating current (AC) through the coils. The rotor, on the other hand, may have permanent magnets or electromagnets that produce their own magnetic fields.
  3. Magnetic Interactions: When an electric current flows through the coils in the stator, it generates a magnetic field. The interaction between the magnetic fields of the stator and the rotor causes a rotational force or torque to be exerted on the rotor. The direction of the current and the arrangement of the magnetic fields determine the direction of the rotational motion.
  4. Electromagnetic Induction: In some types of electric motors, such as induction motors, electromagnetic induction plays a significant role. When alternating current is supplied to the stator, it creates a changing magnetic field that induces voltage in the rotor. This induced voltage generates a current in the rotor, which in turn produces a magnetic field that interacts with the stator’s magnetic field, resulting in rotation.
  5. Commutation: In motors that use direct current (DC), such as brushed DC motors, an additional component called a commutator is employed. The commutator helps to reverse the direction of the current in the rotor’s electromagnets as the rotor rotates. By periodically reversing the current, the commutator ensures that the magnetic fields of the rotor and the stator are always properly aligned, resulting in continuous rotation.
  6. Output Shaft: The rotational motion generated by the interaction of the magnetic fields is transferred to the output shaft of the motor. The output shaft is connected to the load, such as a fan blade or a conveyor belt, allowing the mechanical energy produced by the motor to be utilized for various applications.

In summary, an electric motor converts electrical energy into mechanical energy through the interaction of magnetic fields and electric current. By supplying an electric current to the stator, a magnetic field is created, which interacts with the magnetic field of the rotor, causing rotational motion. The type of motor and the arrangement of its components determine the specific operation and characteristics of the motor. Electric motors are widely used in numerous devices and systems, providing efficient and reliable mechanical power for a wide range of applications.

China best CE Yc Yl Y2 Y  GOST AC Three Single Phase Asynchronous Induction Copper Wire Winding Electrical Electric Motor   with Hot selling	China best CE Yc Yl Y2 Y  GOST AC Three Single Phase Asynchronous Induction Copper Wire Winding Electrical Electric Motor   with Hot selling
editor by CX 2023-11-29

China high quality Ys (AO2) Premium High Efficiency Three Phase Induction AC Electric Asynchronous Motor China Source Factory with Great quality

Product Description

YS (AO2) series closed self-ventilated squirrel cage 3 phase small power asynchronous motors are widely used in common situations without flammable and combustible gases or special requirements, like small machine tools, pumps, fans, food machinery, reducers, etc.

Protection Class: IP 44/54
Insulation Grade: B
Cooling Way: IC411
Duty Type: S1

 

 

ZheJiang CHINAMFG Electromechanical Technology Co., Ltd, (originally ZHangZhoug Yinda) can date back to the year of 1992. Located in Xihu (West Lake) Dis. Hi-Tech Zone of ZheJiang Province, China, the company takes an area of 16,000 sqm with near 200 employees. The factory is equipped with complete series of production lines and equipment. And the annual output value is around 30 million US dollars.

Hilair specializes in the design and development of AC motors, such as IE1, IE2, IE3, IE4 series, cast iron and aluminum housing, AC & DC braked motors, variable frequency motors, grinding machine motors, etc.

Products have been exported to all over the world with the best prices and high quality.

We always insist on the principle of “people oriented, scientific and technological innovation”. We look CHINAMFG to your long term cooperation.

Q1 Are you a manufacturer or a trading company?
      We are a manufacturer of AC asynchronous motors in China.
Q2 Where is your factory?
      Xihu (West Lake) Dis., ZheJiang province.
Q3 What is your terms of payment ?
      Payment=1000USD, 30% T/T in advance , balance before shippment.
Q4 What about delivery time?
       Normally, 30 days after the receipt of payment.
Q5 About shipment?
      By sea, By air and By express delivery.
Q6 About sample?
      Available.

Application: Industrial
Operating Speed: Constant Speed
Number of Stator: Three-Phase
Species: Ys, Ao2
Rotor Structure: Squirrel-Cage
Casing Protection: Closed Type
Samples:
US$ 50/Piece
1 Piece(Min.Order)

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Customization:
Available

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electric motor

How do electric motors contribute to the efficiency of tasks like transportation?

Electric motors play a significant role in enhancing the efficiency of various transportation tasks. Their unique characteristics and advantages contribute to improved performance, reduced energy consumption, and environmental benefits. Here’s a detailed explanation of how electric motors contribute to the efficiency of tasks like transportation:

  1. High Energy Conversion Efficiency: Electric motors are known for their high energy conversion efficiency. They can convert a large percentage of electrical energy supplied to them into mechanical energy, resulting in minimal energy losses. Compared to internal combustion engines (ICEs), electric motors can achieve significantly higher efficiencies, which translates to improved energy utilization and reduced fuel consumption.
  2. Instant Torque and Responsive Performance: Electric motors deliver instant torque, providing quick acceleration and responsive performance. This characteristic is particularly advantageous in transportation tasks, such as electric vehicles (EVs) and electric trains, where rapid acceleration and deceleration are required. The immediate response of electric motors enhances overall vehicle efficiency and driver experience.
  3. Regenerative Braking: Electric motors enable regenerative braking, a process where the motor acts as a generator to convert kinetic energy into electrical energy during deceleration or braking. This recovered energy is then stored in batteries or fed back into the power grid, reducing energy waste and extending the vehicle’s range. Regenerative braking improves overall efficiency and helps maximize the energy efficiency of electric vehicles.
  4. Efficient Power Distribution: Electric motors in transportation systems can be powered by electricity generated from various sources, including renewable energy. This allows for a diversified and cleaner energy mix, contributing to reduced greenhouse gas emissions and environmental impact. By utilizing electric motors, transportation tasks can leverage the increasing availability of renewable energy resources, leading to a more sustainable and efficient transport ecosystem.
  5. Reduced Maintenance Requirements: Electric motors have fewer moving parts compared to ICEs, resulting in reduced maintenance requirements. They eliminate the need for components like spark plugs, fuel injection systems, and complex exhaust systems. As a result, electric motors typically have longer service intervals, lower maintenance costs, and reduced downtime. This enhances operational efficiency and reduces the overall maintenance burden in transportation applications.
  6. Quiet and Vibration-Free Operation: Electric motors operate quietly and produce minimal vibrations compared to ICEs. This characteristic contributes to a more comfortable and pleasant passenger experience, especially in electric vehicles and electric trains. The reduced noise and vibration levels enhance the overall efficiency and comfort of transportation tasks while minimizing noise pollution in urban environments.
  7. Efficient Power Management and Control: Electric motors can be integrated with advanced power management and control systems. This allows for precise control over motor speed, torque, and power output, optimizing efficiency for specific transportation tasks. Intelligent control algorithms and energy management systems can further enhance the efficiency of electric motors by dynamically adjusting power delivery based on demand, driving conditions, and energy availability.
  8. Reduction of Emissions and Environmental Impact: Electric motors contribute to significant reductions in emissions and environmental impact compared to traditional combustion engines. By eliminating direct emissions at the point of use, electric motors help improve air quality and reduce greenhouse gas emissions. When powered by renewable energy sources, electric motors enable nearly zero-emission transportation, paving the way for a cleaner and more sustainable transportation sector.

Through their high energy conversion efficiency, instant torque, regenerative braking, efficient power distribution, reduced maintenance requirements, quiet operation, efficient power management, and environmental benefits, electric motors significantly enhance the efficiency of tasks like transportation. The widespread adoption of electric motors in transportation systems has the potential to revolutionize the industry, promoting energy efficiency, reducing reliance on fossil fuels, and mitigating environmental impact.

electric motor

Can electric motors be used in renewable energy systems like wind turbines?

Yes, electric motors can be used in renewable energy systems like wind turbines. In fact, electric motors play a crucial role in converting the kinetic energy of the wind into electrical energy in wind turbines. Here’s a detailed explanation of how electric motors are utilized in wind turbines and their role in renewable energy systems:

Wind turbines are designed to capture the energy from the wind and convert it into electrical power. Electric motors are used in wind turbines to drive the rotation of the turbine blades and generate electricity through the following process:

  1. Wind Capture: The wind turbine blades are designed to efficiently capture the kinetic energy of the wind. As the wind blows, it causes the blades to rotate.
  2. Blade Rotation: The rotational motion of the turbine blades is achieved through electric motors known as pitch motors. Pitch motors adjust the angle or pitch of the blades to optimize their orientation relative to the wind direction. The electric motors drive the mechanical mechanism that rotates the blades, allowing them to capture the maximum energy from the wind.
  3. Power Generation: The rotation of the wind turbine blades drives the main shaft of the turbine, which is connected to an electric generator. The generator consists of another electric motor known as the generator motor or generator rotor. The rotational motion of the generator rotor within a magnetic field induces an electrical current in the generator’s stator windings, producing electricity.
  4. Power Conversion and Distribution: The electricity generated by the wind turbine’s generator motor is typically in the form of alternating current (AC). To make it compatible with the electrical grid or local power system, the AC power is converted to the appropriate voltage and frequency using power electronics such as inverters. These power electronics may also incorporate electric motors for various conversion and control functions.
  5. Integration with Renewable Energy Systems: Wind turbines, equipped with electric motors, are integrated into renewable energy systems to contribute to the generation of clean and sustainable power. Multiple wind turbines can be connected together to form wind farms, which collectively generate significant amounts of electricity. The electricity produced by wind turbines can be fed into the electrical grid, used to power local communities, or stored in energy storage systems for later use.

Electric motors in wind turbines enable the efficient conversion of wind energy into electrical energy, making wind power a viable and renewable energy source. The advancements in motor and generator technologies, along with control systems and power electronics, have enhanced the performance, reliability, and overall efficiency of wind turbines. Additionally, electric motors allow for precise control and adjustment of the turbine blades, optimizing the energy capture and minimizing the impact of varying wind conditions.

Overall, the use of electric motors in wind turbines is instrumental in harnessing the power of wind and contributing to the generation of clean and sustainable energy in renewable energy systems.

electric motor

Can you explain the basic principles of electric motor operation?

An electric motor operates based on several fundamental principles of electromagnetism and electromagnetic induction. These principles govern the conversion of electrical energy into mechanical energy, enabling the motor to generate rotational motion. Here’s a detailed explanation of the basic principles of electric motor operation:

  1. Magnetic Fields: Electric motors utilize magnetic fields to create the forces necessary for rotation. The motor consists of two main components: the stator and the rotor. The stator contains coils of wire wound around a core and is responsible for generating a magnetic field. The rotor, which is connected to the motor’s output shaft, has magnets or electromagnets that produce their own magnetic fields.
  2. Magnetic Field Interaction: When an electric current flows through the coils in the stator, it generates a magnetic field. This magnetic field interacts with the magnetic field produced by the rotor. The interaction between these two magnetic fields results in a rotational force, known as torque, that causes the rotor to rotate.
  3. Electromagnetic Induction: Electric motors can also operate on the principle of electromagnetic induction. In these motors, alternating current (AC) is supplied to the stator coils. The alternating current produces a changing magnetic field that induces a voltage in the rotor. This induced voltage then generates a current in the rotor, which creates its own magnetic field. The interaction between the stator’s magnetic field and the rotor’s magnetic field leads to rotation.
  4. Commutation: In certain types of electric motors, such as brushed DC motors, commutation is employed. Commutation refers to the process of reversing the direction of the current in the rotor’s electromagnets to maintain continuous rotation. This is achieved using a component called a commutator, which periodically switches the direction of the current as the rotor rotates. By reversing the current at the right time, the commutator ensures that the magnetic fields of the stator and the rotor remain properly aligned, resulting in continuous rotation.
  5. Output Shaft: The rotational motion generated by the interaction of magnetic fields is transferred to the motor’s output shaft. The output shaft is connected to the load or the device that needs to be driven, such as a fan, a pump, or a conveyor belt. As the motor rotates, the mechanical energy produced is transmitted through the output shaft, enabling the motor to perform useful work.

In summary, the basic principles of electric motor operation involve the generation and interaction of magnetic fields. By supplying an electric current to the stator and utilizing magnets or electromagnets in the rotor, electric motors create magnetic fields that interact to produce rotational motion. Additionally, the principle of electromagnetic induction allows for the conversion of alternating current into mechanical motion. Commutation, in certain motor types, ensures continuous rotation by reversing the current in the rotor’s electromagnets. The resulting rotational motion is then transferred to the motor’s output shaft to perform mechanical work.

China high quality Ys (AO2) Premium High Efficiency Three Phase Induction AC Electric Asynchronous Motor China Source Factory   with Great quality China high quality Ys (AO2) Premium High Efficiency Three Phase Induction AC Electric Asynchronous Motor China Source Factory   with Great quality
editor by CX 2023-11-29

China Standard Asynchronous IEC Standard Electrical Motor Three Phase High Efficiency Ie3 Induction AC Electric Motor supplier

Product Description

Three Phase Asynchronous motor is the AC motors, the modular for 3 phase motor offers millions of possible drive combinations.

For the high efficiency electric motor, we have YE3, YE4, YE5 series, from 0.75kW to 315kW. For different voltage, frequency and different power, we can do the customized.

Product Description
 

MOTOR TYPE Asynchronous motor, YE3, YE4, YE5.
STRUCTURE Iron Cast or Aluminum Housing, Customized.
PROTECTION CLASS IP54, IP55.
INSULATION CLASS Class F.
VOLTAGE 380V, 400V, 440V, 660V, Customized.
FREQUENCY 50Hz(60Hz Available).
EFFICIENCY IE3, IE4, IE5, 
OUTPUT POWER 0.75kW~315kW.
PHASE Three Phase.
POLE 2pole, 4pole, 6pole, 8pole, 10pole.
COOLING METHOD IC 411/Customized.
DUTY S1 (24Hour continuous working).
AMBIENT TEMPRETURE -15°C≤ 0 ≤ 40°C.
ALTITUDE Not exceeding 1000m above sea level
MOUNTING TYPE B3,B5,B35, V1, V3,Customized.
STHangZhouRD IEC International Standard, China CCC, ISO 9001, CE.
PACKAGE Carton or Wooden Case, well protection, easy loading and delivery. 
APPLICATION Water Pump, Assembly line, Air Compressor, Packing and Food Machinery, Mill Machinery, fan, and other equipment.
WARRANTY 1 year except for the wear parts.
DELIVERY TIME 10-30 working days.

Application: Industrial
Operating Speed: Constant Speed
Number of Stator: Three-Phase
Species: Y, Y2 Series Three-Phase
Rotor Structure: Squirrel-Cage
Casing Protection: Protection Type
Customization:
Available

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electric motor

What maintenance practices are essential for prolonging the lifespan of an electric motor?

Maintaining electric motors is crucial for prolonging their lifespan and ensuring optimal performance. Proper maintenance practices help prevent failures, minimize downtime, and maximize the efficiency and reliability of electric motors. Here’s a detailed explanation of essential maintenance practices for prolonging the lifespan of an electric motor:

  1. Regular Inspections: Conduct regular visual inspections of the motor to identify any signs of wear, damage, or loose connections. Inspect the motor’s external components, such as the housing, bearings, cooling fans, and cables. Look for any unusual noise, vibration, or overheating during operation, as these can indicate potential issues that require attention.
  2. Lubrication: Proper lubrication is vital for the smooth operation and longevity of electric motors. Follow the manufacturer’s guidelines for lubrication intervals and use the recommended lubricants. Apply lubrication to bearings, shafts, and other moving parts as specified. Over-lubrication or using incompatible lubricants can cause overheating and premature wear, so it’s essential to follow the recommended practices.
  3. Cleaning: Keep the motor clean and free from dirt, dust, and debris that can accumulate over time. Regularly clean the motor’s exterior using a soft brush or compressed air. Ensure that cooling vents and fans are clear of any obstructions to maintain proper airflow and prevent overheating. Cleanliness helps prevent insulation damage and improves heat dissipation.
  4. Alignment and Balance: Misalignment or imbalance in the motor’s shaft and coupling can lead to excessive vibrations and premature wear. Regularly check and correct any misalignment or imbalance issues using precision alignment tools. Proper alignment and balance reduce stress on bearings and extend their lifespan, contributing to the overall longevity of the motor.
  5. Temperature Monitoring: Monitor the motor’s temperature during operation using temperature sensors or thermal imaging techniques. Excessive heat can damage insulation, bearings, and other components. If the motor consistently operates at high temperatures, investigate the cause and take corrective actions, such as improving ventilation, reducing loads, or addressing any cooling system issues.
  6. Electrical Connections: Inspect and tighten electrical connections regularly to ensure secure and reliable connections. Loose or corroded connections can lead to voltage drops, increased resistance, and overheating. Check terminal blocks, wiring, and motor leads for any signs of damage or degradation. Properly torquing electrical connections and addressing any issues promptly helps maintain electrical integrity.
  7. Vibration Analysis: Perform regular vibration analysis to detect any abnormal vibration patterns that could indicate underlying issues. Vibration analysis tools and techniques can help identify unbalanced rotors, misalignment, bearing wear, or other mechanical problems. Addressing vibration issues early can prevent further damage and improve motor performance and longevity.
  8. Periodic Testing and Maintenance: Conduct periodic testing and maintenance based on the manufacturer’s recommendations and industry best practices. This may include insulation resistance testing, winding resistance testing, bearing lubrication checks, and other diagnostic tests. Such tests help identify potential problems before they escalate and allow for timely maintenance and repairs.
  9. Training and Documentation: Ensure that maintenance personnel are properly trained in electric motor maintenance practices. Provide training on inspection techniques, lubrication procedures, alignment methods, and other essential maintenance tasks. Maintain comprehensive documentation of maintenance activities, including inspection reports, maintenance schedules, and repair records.

By implementing these maintenance practices, motor owners can significantly prolong the lifespan of electric motors. Regular inspections, proper lubrication, cleaning, alignment, temperature monitoring, electrical connection maintenance, vibration analysis, periodic testing, and training contribute to the motor’s reliability, efficiency, and overall longevity.

electric motor

Are there any emerging trends in electric motor technology, such as smart features?

Yes, there are several emerging trends in electric motor technology, including the integration of smart features. These trends aim to improve motor performance, efficiency, and functionality, while also enabling connectivity and advanced control capabilities. Here’s a detailed explanation of some of the emerging trends in electric motor technology:

  1. Internet of Things (IoT) Integration: Electric motors are becoming increasingly connected as part of the broader IoT ecosystem. IoT integration allows motors to communicate, share data, and be remotely monitored and controlled. By embedding sensors, communication modules, and data analytics capabilities, motors can provide real-time performance data, predictive maintenance insights, and energy consumption information. This connectivity enables proactive maintenance, optimized performance, and enhanced energy efficiency.
  2. Condition Monitoring and Predictive Maintenance: Smart electric motors are equipped with sensors that monitor various parameters such as temperature, vibration, and current. This data is analyzed in real-time to detect anomalies and potential faults. By implementing predictive maintenance algorithms, motor failures can be anticipated, enabling maintenance activities to be scheduled proactively. This trend reduces unplanned downtime, improves reliability, and optimizes maintenance costs.
  3. Advanced Motor Control and Optimization: Emerging electric motor technologies focus on advanced motor control techniques and optimization algorithms. These advancements allow for precise control of motor performance, adapting to changing load conditions, and optimizing energy efficiency. Additionally, sophisticated control algorithms enable motor systems to operate in coordination with other equipment, such as variable speed drives, power electronics, and energy storage systems, resulting in improved overall system efficiency.
  4. Energy Harvesting and Regenerative Features: Electric motors can harness energy through regenerative braking and energy harvesting techniques. Regenerative braking allows motors to recover and convert kinetic energy into electrical energy, which can be fed back into the system or stored for later use. Energy harvesting technologies, such as piezoelectric or electromagnetic systems, can capture ambient energy and convert it into usable electrical energy. These features enhance energy efficiency and reduce overall power consumption.
  5. Integration with Artificial Intelligence (AI) and Machine Learning (ML): The integration of electric motors with AI and ML technologies enables advanced motor control, optimization, and decision-making capabilities. AI and ML algorithms analyze motor performance data, identify patterns, and make real-time adjustments to optimize efficiency and performance. The combination of AI/ML with electric motors opens up possibilities for autonomous motor control, adaptive energy management, and intelligent fault detection.
  6. Miniaturization and Lightweight Design: Emerging trends in electric motor technology focus on miniaturization and lightweight design without compromising performance. This trend is particularly relevant for portable devices, electric vehicles, and aerospace applications. Advancements in materials, manufacturing processes, and motor design allow for smaller, lighter, and more powerful motors, enabling greater mobility, improved efficiency, and increased power density.

The integration of smart features in electric motor technology is driving advancements in connectivity, data analytics, predictive maintenance, advanced control, energy harvesting, AI/ML integration, and miniaturization. These trends are revolutionizing the capabilities and functionality of electric motors, making them more intelligent, efficient, and adaptable to various applications. As technology continues to evolve, electric motors are expected to play a crucial role in the ongoing transition towards smart and sustainable industries.

electric motor

What is an electric motor and how does it function?

An electric motor is a device that converts electrical energy into mechanical energy. It is a common type of motor used in various applications, ranging from household appliances to industrial machinery. Electric motors operate based on the principle of electromagnetism and utilize the interaction between magnetic fields and electric current to generate rotational motion. Here’s a detailed explanation of how an electric motor functions:

  1. Basic Components: An electric motor consists of several key components. These include a stationary part called the stator, which typically contains one or more coils of wire wrapped around a core, and a rotating part called the rotor, which is connected to an output shaft. The stator and the rotor are often made of magnetic materials.
  2. Electromagnetic Fields: The stator is supplied with an electric current, which creates a magnetic field around the coils. This magnetic field is typically generated by the flow of direct current (DC) or alternating current (AC) through the coils. The rotor, on the other hand, may have permanent magnets or electromagnets that produce their own magnetic fields.
  3. Magnetic Interactions: When an electric current flows through the coils in the stator, it generates a magnetic field. The interaction between the magnetic fields of the stator and the rotor causes a rotational force or torque to be exerted on the rotor. The direction of the current and the arrangement of the magnetic fields determine the direction of the rotational motion.
  4. Electromagnetic Induction: In some types of electric motors, such as induction motors, electromagnetic induction plays a significant role. When alternating current is supplied to the stator, it creates a changing magnetic field that induces voltage in the rotor. This induced voltage generates a current in the rotor, which in turn produces a magnetic field that interacts with the stator’s magnetic field, resulting in rotation.
  5. Commutation: In motors that use direct current (DC), such as brushed DC motors, an additional component called a commutator is employed. The commutator helps to reverse the direction of the current in the rotor’s electromagnets as the rotor rotates. By periodically reversing the current, the commutator ensures that the magnetic fields of the rotor and the stator are always properly aligned, resulting in continuous rotation.
  6. Output Shaft: The rotational motion generated by the interaction of the magnetic fields is transferred to the output shaft of the motor. The output shaft is connected to the load, such as a fan blade or a conveyor belt, allowing the mechanical energy produced by the motor to be utilized for various applications.

In summary, an electric motor converts electrical energy into mechanical energy through the interaction of magnetic fields and electric current. By supplying an electric current to the stator, a magnetic field is created, which interacts with the magnetic field of the rotor, causing rotational motion. The type of motor and the arrangement of its components determine the specific operation and characteristics of the motor. Electric motors are widely used in numerous devices and systems, providing efficient and reliable mechanical power for a wide range of applications.

China Standard Asynchronous IEC Standard Electrical Motor Three Phase High Efficiency Ie3 Induction AC Electric Motor   supplier China Standard Asynchronous IEC Standard Electrical Motor Three Phase High Efficiency Ie3 Induction AC Electric Motor   supplier
editor by CX 2023-11-27

China best CZPT Motor Three Phase AC Electric Induction Motors near me factory

Solution Description

 Super-substantial Efficiency Frequency Variable Velocity Regulation Motor
———————————————————————————————

Programs
Extensively used in metallurgy, chemistry, textile, pharmacy, printing, packing and food market on the device or tools by which adjustable pace is essential, like enthusiast, pump, numerical handle machine, machining centre, and many others.

General Description

  • Frame sizes: eighty to 355    
  • Rated output: .18 to 375kW          
  • Insulation course: F            
  • Voltage: 380V
  • Performance levels: IE1 / IE2 / IE3
  • Frequency assortment for 2P: (3) 5-100Hz (body measurement eighty-250)
  •                                         (3) 5-70Hz (frame measurement 280)
                                            (3) 5-60Hz (frame measurement 315-355)
  • Frequency range for 4, 6, 8, 10P: (3) 5-100Hz

Attributes: 

*Stepless velocity regulation in a wide range
*Good performance, energy conserving
*Large-grade insulation materials and specific technological can face up to high frequency pulse effect
*Separated fan for compelled-ventilation
*Divided supporter for forced-ventilation

Optional Functions:
Electrical:
Insulation Course:H
Thermal Security: PTC Thermistor, Thermostat or PT100
Mechanical:
Other folks mountings
Security Degree:IP55, IP56, IP65
Sealing:Lip seal, Oil seal 
Place Heater
Drain Gap

Product Output
kW
Rated Ampere A RPM Eff.% Electricity Issue Rated Torque
N.m
dB(A) Constant Torque Frequency Assortment
Hz
Continuous Output 
Frequency Range
Hz
Synchronous speed  3000r/min
YE3VF80M1-2 .75 1.seven 2855 80.7 .eighty three 2.fifty one 70 five-50 fifty-one hundred
YE3VF80M2-2 one.1 two.four 2870 eighty two.seven .83 3.66 70
YE3VF90S-two one.five three.two 2865 eighty four.two .eighty four 5.00 74
YE3VF90L-two two.2 4.6 2870 eighty five.nine .eighty five seven.32 74
YE3VF100L-2 3 six. 2875 87.1 .87 nine.ninety seven seventy eight
YE3VF112M-two 4 seven.8 2910 88.one .88 13.1 82
YE3VF132S1-2 five.5 10.6 2935 89.2 .88 17.nine eighty five
YE3VF132S2-two seven.5 fourteen.4 2930 90.1 .88 24.four eighty five
YE3VF160M1-2 11 20.6 2950 91.2 .89 35.six 87
YE3VF160M2-two fifteen 27.nine 2945 ninety one.9 .89 forty eight.six 87
YE3VF160L-2 18.five 34.2 2945 92.4 .89 60. 87
YE3VF180M-2 22 40.five 2950 92.seven .89 seventy one.2 ninety
YE3VF200L1-two thirty 54.nine 2960 ninety three.3 .89 96.eight ninety two
YE3VF200L2-two 37 sixty seven.4 2960 ninety three.seven .89 119 92
YE3VF225M-two 45 eighty.eight 2965 94. .ninety a hundred forty five ninety four
YE3VF250M-2 55 ninety eight.5 2970 ninety four.three .ninety 177 ninety six 5-fifty 50-70
YE3VF280S-two 75 134 2975 94.seven .ninety 241 98
YE3VF280M-2 ninety a hundred and sixty 2970 ninety five. .ninety 289 98

Requirements of CZPT blower and brake for the motor

Motor Frame 80 ninety 100 112 132 a hundred and sixty a hundred and eighty two hundred 225 250 280 315 355
Cooling Fan (W)
Power
thirty 42 52 55 fifty five eighty 80 a hundred and fifty two hundred 230 320 700 700
(A)
Existing
.09 .sixteen .18 .18 .19 .26 .30 .6 .six .six one.1 1.8 1.9
Voltage Common 380V, but blower of other voltage can be custom-made depending on user’s requirement.
Encoder Optional Incremental Encoder

Mounting Kind:
Traditional mounting kind and suited body dimensions are offered in subsequent desk(with “√”)

Frame basic kind derived kind
 
B3 B5 B35 V1 V3 V5 V6 B6 B7 B8 V15 V36 B14 B34 V18
eighty~112
132~160
a hundred and eighty~280
315~355

If there is no other ask for in the purchase or agreement, terminal box regular place is at the appropriate aspect of the frame data over might be altered CZPT prior discover.
Site

Present Area

Top quality Support

Certificates

Top quality Manage

Wannan Motor Manufacturing Workshop and Circulation Chart

Hundreds of Certificates, Honors and far more Firm info remember to go to “ABOUT US”
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Welcome to get in touch with us directly…
wnmmotor
https://youtu.be/frVvg3yQqNM

WANNAN MOTOR     INDUSTRIAL Options
 

Two types of AC motors consist of: Synchronous: The truth that a synchronous motor rotates at the same price as the frequency of the mains present gives the motor its name. A synchronous motor consists of a stator and a rotor. Synchronous motors have a extensive variety of apps. Induction: Induction motors are the most basic and strongest motors obtainable. These AC motors consist of two electrical factors: a wound stator and rotor assembly. The current needed to turn the rotor is created by the electromagnetic induction created by the stator windings. Induction motors are 1 of the most commonly utilised varieties of motors in the entire world.
AC motors are also various from DC motors since most AC motors do not consist of brushes. This implies that servicing and components substitution demands for AC motors tend to be considerably diminished, with most users usually anticipating a lengthier regular lifespan. As opposed to DC motors, the output speed of several varieties of AC motors is usually decided by inverter control – once again, we are going to briefly outline a selection of possible versions on the basic AC motor product.

China best CZPT Motor Three Phase AC Electric Induction Motors     near me factory

China Best Sales Yxl Ce CCC 0.12~18.5kw High Efficiency Three Phase Induction AC Electric Aluminum Small Motor for Food Mixer Conveyor Fan Pump Yxl71m1-2 0.37kw 2740rpm with Great quality

Item Description

YXL CE CCC .twelve~18.5KW Large Efficiency 3 Period Induction AC Electric Aluminum Little Motor for foods mixer conveyor fan pump
———————————————————————————————

Purposes: Can be applied in the machines in which ongoing responsibility is required, standard applications like

  • Pumps
  • Fans
  • Chopping Equipment
  • Conveyors
  • Equipment Equipment
  • Farm Duty
  • Foods Processing
  • Generation industry
  • OEM and Re-sale (Distribution) markets, lowered excess weight, rapid availability and aggressive pricing

Standard Description

  • Frame sizes: sixty three to 160M/L     
  • Rated output: .twelve to eighteen.5kW
  • Voltage: 380V                         
  • Frequency: 50Hz or 60Hz
  • Poles: 2, 4, 6, 8                        
  • Effectiveness levels: IE2
  • Obligation Cycle: S1                         
  • Enclosure: IC411 – TEFC
  • Insulation class: F                     
  • Diploma of protection: IP55/fifty six/65/sixty six
  • Service Element: 1.0                   
  • Mounting: Flange, Foot

Characteristics: Gorgeous profile, higher effectiveness and energy saving, low noise, little vibration, trustworthy operating.

Optional Attributes:
Electrical:
Insulation Course:H
Thermal Defense: PTC Thermistor, Thermostat or PT100
Mechanical:
Other people mountings
Safety Degree:IP56, IP65, IP66
Sealing:Lip seal, Oil seal, Place Heater, Double shaft ends
Drain Hole

Mounting Sort:
B5 (Footless and B5 Flange Mounted)

 

Frame Poles Mounting Dimension Overall Dimension
D E F G M N P R S T AC Advert HF L
63M two,four 11 23 4 eight.five 115 95 a hundred and forty four-Φ10 3 one hundred thirty five 112 a hundred and forty 225
71M 2,4,6 14 thirty 5 eleven one hundred thirty one hundred ten 160 4-Φ10 three.five one hundred forty five one hundred twenty a hundred and sixty 245
80M 2,4,6,8 19 40 six fifteen.5 a hundred sixty five one hundred thirty 200 4-Φ12 three.5 one hundred sixty five a hundred thirty five 245 295
90S 2,4,6,8 24 50 8 20 165 130 200 0 4-Φ12 3.five 180 145 265 320
90L 345
100L two,4,6,8 28 60 eight 24 215 180 250 4-Φ15 four 205 a hundred and fifty five three hundred 390
112M 2,4,6,8 28 60 eight 24 215 180 250 four-Φ15 4 225 180 315 420
132S 2,4,6,eight 38 80 10 33 265 230 300 0 4-Φ15 4 270 205 370 465
132M 505
160M 2,4,6,8 42 110 12 37 300 250 350 0 4-Φ19 5 320 240 435 605
160L 650

If there is no other ask for in the get or arrangement, terminal box common placement is at the right side of the frame data earlier mentioned may possibly be altered CZPT prior observe.
Site

Present Area


Certificates

Premium Services

Quality Manage

Wannan Motor Creation Workshop and Movement Chart

Hundreds of Certificates, honors and more Business information please go to “ABOUT US”
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Welcome to contact us straight…
wnmmotor
https://youtu.be/frVvg3yQqNM

WANNAN MOTOR      INDUSTRIAL Remedies

These NEMA c-aircraft reducers are equipment strength, maintenance-free, and can be set up in any orientation with a slip fit “O” ring layout. Accessible in low to substantial reduction ratios, flange mount or foundation mount designs, appropriate angle or hollow shaft proper angle variations. Put in NEMA C-Experience AC motors, brushless DC motors, and brushed DC motors. For 1/2 HP to 3 HP Motors NEMA 56C, 140TC, and 180TC Enter Flange Inline Helical Gear Reducers Appropriate Angle Hypoid Equipment Reducers
The rotor of a reluctance motor consists of a solid solid metal component with a convex toothed rack. Their commencing approach is related to an induction motor, but it operates like a synchronous motor. Typically, their rotors have fewer poles than stators, which minimizes torque ripple and stops perfect pole alignment, as no torque is made in that spot. Reluctance motors selection in energy scores from a couple of watts to about 22 kilowatts.

China Best Sales Yxl Ce CCC 0.12~18.5kw High Efficiency Three Phase Induction AC Electric Aluminum Small Motor for Food Mixer Conveyor Fan Pump Yxl71m1-2 .37kw 2740rpm     with Great top quality

China Professional Yd Multi Speed Premium High Efficiency Three Phase Induction AC Electric Asynchronous Motor Original Factory with Free Design Custom

Product Description

YD collection 3 phase variable-pole multi-speed asynchronous motors are created from Y series 3 stage AC motors. The mounting sizes, insulation grade, protection course, CZPT way and responsibility kind are the same as Y sequence.
 

 

ZheJiang CZPT Electromechanical Technology Co., Ltd, (initially ZHangZhoug Yinda) can day again to the calendar year of 1992. Found in Xihu (West Lake) Dis. Hello-Tech Zone of ZheJiang Province, China, the organization normally takes an area of 16,000 sqm with around two hundred staff. The manufacturing unit is equipped with full series of production strains and gear. And the annual output price is all around 30 million US dollars.

Hilair specializes in the design and style and improvement of AC motors, these kinds of as IE1, IE2, IE3, IE4 collection, solid iron and aluminum housing, AC & DC braked motors, variable frequency motors, grinding equipment motors, and so on.

Products have been exported to all more than the globe with the very best prices and large good quality.

We usually insist on the theory of “people oriented, scientific and technological innovation”. We seem forward to your extended expression cooperation.

Q1 Are you a maker or a investing business?
      We are a manufacturer of AC asynchronous motors in China.
Q2 The place is your factory?
      Xihu (West Lake) Dis., ZheJiang province.
Q3 What is your phrases of payment ?
      Payment=1000USD, thirty% T/T in CZPT , equilibrium just before shippment.
This fall What about delivery time?
       Normally, 30 days right after the receipt of payment.
Q5 About shipment?
      By sea, By air and By convey shipping.
Q6 About sample?
      Accessible.

Induction motors, also known as asynchronous motors, use the electromagnetic induction produced by the magnetic area of the stator to generate current in the rotor, thus generating torque. These motors do not run at a velocity in sync with the existing, therefore the title. They use the phenomenon of electromagnetic induction to convert electrical power into mechanical power. Induction motor rotors are the most frequent kind of AC motor identified in pumps, compressors, and other machines of all sorts.
Single-phase motors have a stator. They do not have the rotating magnetic field qualities of polyphase or polyphase motors. The magnetic discipline developed by the stator windings is pulsating, not rotating. When the rotor is stationary, the expansion and contraction of the stator’s magnetic area generate an electrical present in the rotor. The current makes the rotor magnetic subject with the opposite polarity to the stator magnetic discipline. The opposite polarity applies rotational pressure to the higher and reduced components of the rotor. Because this power passes through the center of the rotor, it remains equivalent in every single direction, retaining the rotor stationary. If the rotor starts off to turn, it carries on to flip in the route it commenced, due to the fact the rotor’s momentum creates a rotational drive in that path. Single-phase motors are utilised in low-electrical power purposes this sort of as ceiling supporters, mixer grinders, and family appliances this sort of as portable power instruments.

China Professional Yd Multi Speed Premium High Efficiency Three Phase Induction AC Electric Asynchronous Motor Original Factory     with Free Design Custom

China Good quality AC Three Phase Asynchronous Electric Motor Drving Function Induction Motor near me factory

Solution Description

HangZhou kaigong Electric Machinery Co.,Ltd
Far more than 23 years encounter in motor and generator&lparSince 1995)

&bigstar SPECIFICATION&bigstar

photograph product number electrical power voltage mouting sort rated frequency insulation class efficency pole
  CDFseries .12~315kw 380V
400V
 
B3 B35
B5 B14
50&sol60HZ course B
course F
IE2&solIE1 two,4,6,8,ten

&bigstarFEATURE&bigstar
one:motor can be equipped with PTC
2:bearing of SKF, NSK or NTN at optional
three:The motor are adopted in class F &lparTemperature rise B) insulation and IP55 defense

&bigstarDETAIL Demonstrate&bigstar

Process:
one. Stamping of lamination&semi
2. Rotor die-casting&semi  
3. Winding and inserting – both guide and semi-immediately&semi
four. Vacuum varnishing&semi
five. Machining shaft, housing, finish shields, and so forth&semi
6. Rotor balancing&semi
seven. Painting – both moist paint and powder coating&semi
8. Assembly&semi
nine. Packing&semi
10. Inspecting spare components every processing&semi
eleven. a hundred&percnt check soon after every approach and last test before packing.

Operating Conditions
Ambient temperture:-15º C~40º C    Altitude: not CZPT 1000m
Rated frequency: 50HZ,60HZ            Security course: IP54.IP55
Insulation class: F, H                         Cooling strategy: IC411       Duty: S1&lparcontinuous)
Connection: Star-connection for uo to 3kw, delta-connection for 4kw and over

Remark: Terminal box also be equipped with PTC, as properly as re-greasing method for frame measurement one hundred sixty and previously mentioned.

&bigstarTechnical Knowledge of CDF collection&bigstar

Manufacturing facility present:

&bigstarOur Solutions&bigstar

1.We supply 24 hour online reply.  
2.We can help you offer with the motor problem any time.
three.Different kinds of payment are available for you .
four.We are the manufacturer so we could supply different products as soon as possible and inexpensive .
5.The solution is assured for 1 12 months.

&bigstarRAQ&bigstar
Shipping time:Inside of thirty days functioning working day since we receive the deposit.
MQO: 1 set is suitable.
Payment term: thirty&percnt T.T deposite,70&percntTT harmony prior to shipment&semiOR  L&solC 100&percnt At Sight
Packed: Standard export bundle&lparWrapping movie and bubble pad or plywood scenario)
Frequency and voltage: 50HZ&sol60HZ&semi 110V &sol 220V,230V&sol 400V, 220V&sol380V-440V&semi ect
Producing common: ISO9001:2008, CE, CCS,ZY,GOST.

    Contact:   Mr JUN                  Mob.: &plus86~13 0571 88828 1385811777857153313  

 

An AC motor is a frequent sort of electric motor that is driven by alternating recent. As the most efficient functional motors for everyday industrial programs (as nicely as hobbyist projects, house things, and all other professional equipment and buyer merchandise), AC motors offer you a fairly productive technique of creating mechanical power from a easy electrical enter signal.
AC motors are also diverse from DC motors because most AC motors do not incorporate brushes. This implies that maintenance and areas substitution demands for AC motors are inclined to be drastically decreased, with most consumers generally anticipating a longer common lifespan. Not like DC motors, the output velocity of several varieties of AC motors is frequently decided by inverter management – once again, we’ll briefly define a range of potential variants on the fundamental AC motor model.

China Good quality AC Three Phase Asynchronous Electric Motor Drving Function Induction Motor     near me factory

China factory ANP Three Phase AC Asynchronous Squirrel Cage Induction Electric Motor for agriculture machinery near me manufacturer

Item Description

Merchandise Description

Standard Description

ANP collection a few-stage electrical motors are totally enclosed and fan-cooling. The electrical power score and set up measurement conform to GosT regular,220v/380v(56-112) 380/660v(132-355) rated voltage with 50Hz rated frequency, F grade insulation, IP54/P55
diploma of masking security, C411 CZPT approach. With substantial effectiveness, energy-preserving, low sounds, tiny vibration dependable working, it is widely utilised as drivers for various variety of equipment, this kind of as pumps, blower, conveyer, mixer, agriculture machinery and mine equipment and so on.

Running Conditions

Rated voltage: 220v/380v(fifty six-112) 380/660v(132-355)
Rated frequency: 50Hz,Course F insulation
Ingress Security:IP54/IP55
cooling methods: C411

 

Merchandise Parameters

Squirrel Cage Motor Complex Info

Set up Dimensions

 

Company Profile

one.You need to have to shell out for samples and the freight will be borne by the customer.
2.PaymentmethodT/T,L/C.
three.Shipping:Bysea, samples can be shipped by air.
4.Below regular circumstances, it will be delivered 1 month soon after the order is placed.
5.We can supply OEM,ODM.
six.Big batches of items are packed in cartons and can be custom-made in accordance to buyers.
7.The particular motor can be tailored in accordance to the customer’s pattern, and the particular expense is discussed.

 

Synchronous motors run at a velocity that is synchronous with the frequency of the mains existing. This means that in the regular-condition of the motor, the rotation of the shaft is synchronized with the frequency of the source existing. The interval of rotation of the shaft is equivalent to the quantity of AC cycles. The stator of a synchronous motor has polyphase AC electromagnets. These electromagnets produce a magnetic discipline that rotates in synchrony with the current in the wire. The rotor geared up with everlasting magnets or electromagnets rotates synchronously with the stator magnetic area to type the next synchronous rotating magnetic area of the AC motor.
AC motors vary from a lot of other types of motors, specially some of the more acquainted DC (direct recent) motors, by several essential standards. The most standard of these is the fact that an AC motor depends entirely on the alternating present about its circuit to generate efficient mechanical vitality. We will discuss this special method in a lot more depth in the subsequent sections of this manual.

China factory ANP Three Phase AC Asynchronous Squirrel Cage Induction Electric Motor for agriculture machinery     near me manufacturer

China Professional 3kw 4HP 2880rpm Three Phase Asynchronous Electric Induction AC Motor with Great quality

Solution Description

We,GOGOGO Mechanical&Electrical Co.,Ltd specialize in high top quality power-efficient electrical motors. The combination of the very best obtainable resources, higher top quality sheet metallic and the correct sum of copper in the rotor/stator makes GOGOGO’s electrical motors extremely vitality-effective.

We layout our electric motors to in shape and match our customer’s specifications at our generation site. The electric powered motors can be supplemented with a range of choices and components or modified with a unique design and style to endure any atmosphere.
 

Electric motors account for a big part of the electrical power used. If we search at the globe, electric powered motors account for about 65 percent of the electricity utilised in business. To reduce this use of electrical energy, there are authorized specifications regarding the effectiveness of electric powered motors manufactured in the EU, or exported into the EU.

3-period, single-speed asynchronous motors are lined by the demands today. Asynchronous motors are the most frequent type of motor and account for ninety p.c of the electricity use of all electric powered motors in the power variety .seventy five – 375 kW.

According to that regular, the vitality performance courses have the designations IE1, IE2, IE3 and IE4, exactly where IE4 has the greatest performance.

 

Revision of the standard

A revision of the common was made a decision by the Ecodesign Committee in 2019. The revision was printed on October 1, 2019. The pursuing will utilize:

For electrical motors

From July 1, 2571

2-, 4-, 6- and 8-pole motors from .75 – one thousand kW (earlier up to 375kW) are incorporated in effectiveness class IE3.

Motors within the range .12 – .seventy five kW have to meet up with effectiveness course IE2.

The preceding likelihood to replace IE3 motors with an IE2 motor with frequency travel disappears.

From July 1, 2571

For 2-, 4-, 6- and 8-pole motors from .12 – a thousand kW, the efficiency class IE2 now also applies to Ex eb certified motors with substantial safety.

Solitary stage motors with higher electricity than .12 kW are covered by the corresponding IE2 class.

The higher effectiveness course IE4 applies to 2, 4 and 6-pole motors among seventy five – two hundred kW.

For frequency inverters

From July 1, 2571

For use with electric motors with power from .twelve – 1000 kW, the frequency CZPT have to move efficiency class IE2 specially developed for inverters.

Existing needs according to the Directive

Because 16 June, 2011 it is prohibited to place electric motors under strength performance class IE2 on the market, or to put them into service in the EU.

Considering that January 1, 2015, electric powered motors inside the variety 7.5 – 375 kW (2-, 4-, and 6-pole) have to meet the requirements for IE3, or IE2 if the latter is merged with frequency inverters for speed manage. The legal prerequisite hence offers 2 options.

From January 1, 2017, the specifications were tightened so that all motors .75 – 375 kW (2-, 4-, and 6-pole) have to meet up with the demands for IE3, or IE2 if they are combined with frequency inverters.

Exemptions from the recent directive

  • Operation other than S1 (constant travel) or S3 (intermittent drive) with a nominal cyclicity aspect of eighty percent or reduced.
  • Produced for assembly with frequency inverters (integral motors).
  • Electric powered motors created for use in liquid.
  • Electric motors that are totally built-in into a solution (e.g. a gear, pump, admirer or compressor) in which the vitality performance is not examined independently of the item.
  • Brake motors

Electrical motors intended for operation solely:

  • At altitudes exceeding 4 000 meters earlier mentioned sea degree.
  • If ambient air temperatures CZPT 60°C.
  • Where maximum operating temperature exceeds 400°C.
  • In which ambient air temperatures are significantly less than -30°C for all motors, or less than 0°C for motors with h2o cooling.
  • In explosive atmospheres (as described in Directive ninety four/9 / EC 9)

The demands do not implement to ships or other means of transportation that carry merchandise or persons, because there must be specially designed engines for this goal. (If the identical mobile conveyor belt is employed on ships as nicely as on land, the principles utilize).

Also, the demands do not utilize to fix of motors previously put on the marketplace, or place into service – until the repair is so substantial that the product will in practice be model new.

If the motor is to be more exported for use outside the house Europe, the needs do not use.

Some other needs utilize to drinking water-cooled motors

We have our possess design and development team, we can provide buyers with normal AC electric motors, We can also personalize the one period/three phase motors in accordance to the unique demands of clients.    At present our main motor goods protect 3 – stage large – performance motors,general 3 – section motors, one phase motors, and so forth.
The principal motor ranges: IE3 / YE3, IE2 / YE2, IE1 / Y2, Y, YS, MS, YC, YL, YY, MC, MY, ML motors.
 American common NEMA motors
Russian regular GOST ANP motors
ZheJiang sort AEEF motors,YC motors

Why choose us?
Guarantee of our motors:18-24months
Common elivery time:fifteen-30days
Value of motors: Most sensible for the duration of your all suppliers
Packing:Powerful export cartons/picket case/plywood cases/pallets
Payment way with your order: T/T,LC,DP,and many others

Sample get: Satisfactory
Cargo way: Sea ship,Air flight,Specific way,Land transfer way.

If you are looking for new better provider or purchase electrical motors, please really feel free of charge speak to us now.You will get all what you want.

Single-stage motors have a stator. They do not have the rotating magnetic subject qualities of polyphase or polyphase motors. The magnetic discipline developed by the stator windings is pulsating, not rotating. When the rotor is stationary, the enlargement and contraction of the stator’s magnetic subject create an electrical current in the rotor. The recent produces the rotor magnetic field with the reverse polarity to the stator magnetic discipline. The opposite polarity applies rotational power to the upper and reduced parts of the rotor. Given that this pressure passes via the heart of the rotor, it remains equal in each and every route, maintaining the rotor stationary. If the rotor starts to switch, it carries on to turn in the route it began, since the rotor’s momentum creates a rotational force in that direction. Single-section motors are utilised in low-electricity purposes this kind of as ceiling fans, mixer grinders, and family appliances this sort of as portable energy resources.
Solitary-stage motors have a stator. They do not have the rotating magnetic field characteristics of polyphase or polyphase motors. The magnetic area produced by the stator windings is pulsating, not rotating. When the rotor is stationary, the growth and contraction of the stator’s magnetic subject create an electrical existing in the rotor. The present creates the rotor magnetic field with the reverse polarity to the stator magnetic area. The opposite polarity applies rotational force to the higher and lower elements of the rotor. Because this force passes via the centre of the rotor, it stays equal in every path, trying to keep the rotor stationary. If the rotor starts off to flip, it carries on to turn in the direction it commenced, because the rotor’s momentum creates a rotational drive in that route. Solitary-phase motors are employed in lower-energy apps these kinds of as ceiling enthusiasts, mixer grinders, and family appliances such as moveable energy instruments.

China Professional 3kw 4HP 2880rpm Three Phase Asynchronous Electric Induction AC Motor     with Great quality