China wholesaler Top Part Strong Terminal Box Y2 Three Phase Electric Motor Cast Iron supplier

Product Description

Product Description

Three-phase induction motors, deveploped with new techniques, are renewal and upgrading products ofY2 series motors are defined as totally enclosed, fancooled, squirrel cage type and noted for their novel design, beautiful modelling, compact structure, low noise, high efficiency, large torque, excellent starting performance, easy serving, ect. The motors are adopted with F class insulation and designed with assessing method for insulation system according to intermational practice, it enhances greatly motor’s safely and reliability, therefore, these motor’s have reached an international advanced level of the such kind products at the initial days of the 90s.
Y2 series motors can be widely used as driving equipments of various machinery, such as, machine tools, blowers, pumps, compressors, transporters, agricultural and food processing.

Operating Conditions
Ambient temperature: -15C≤ θ ≤ 40C

Altitude: Altitude should be lower than 1000meters above sea level.

Rated voltage: 380V Rated frequency: 50Hz

Connection: Star-connection for 3KW or less whereas delta-connection for 4KW or more.

Duty/Rating: Conntinuous(S1).

Insulation class: F, the temperature rise of the stator winding is examined at 80K(by resistance method).

Protection class: The main body of the motor is IP54, but the terminal box reaches IP55.

Cooling method: IC0141.

If the motor of which the frequency, voltage and connection are specially, please stale when ordering.
 

Technical Data

TYPE OUTPUT FULL LOAD Ist/TN Tst/TN Tmax/TN
HP KW Speed
(RPM)
Current
(A)
Efficiency
η(%)
Power Factor
(cosΦ)
Synchronous Speed 3000 rpm
Y2-631-2 0.18 0.25 2720 0.53 65 0.80 5.5 2.2 2.2
Y2-632-2 0.25 0.34 2720 0.69 68 0.81 5.5 2.2 2.2
Y2-711-2 0.37 0.5 2740 0.99 70 0.81 6.1 2.2 2.2
Y2-712-2 0.55 0.75 2740 1.4 73 0.82 6.1 2.2 2.3
Y2-801-2 0.75 1 2835 1.83 77.4 0.83 6.1 2.2 2.3
Y2-802-2 1.1 1.5 2835 2.58 79.6 0.84 7 2.2 .2.3
Y2-90S-2 1.5 2 2845 3.43 81.3 0.84 7 2.2 2.3
Y2-90L-2 2.2 3 2845 4.85 83.2 0.85 7 2.2 2.3
Y2-100L-2 3 4 2875 6.31 84.6 0.87 7.5 2.2 2.3
Y2-112M-2 4 5.5 2895 8.1 85.8 0.88 7.5 2.2 2.3
Y2-132S1-2 5.5 7.5 2905 11 87 0.88 7.5 2.2 2.3
Y2-132S2-2 7.5 10 2905 14.9 88.1 0.88 7.5 2.2 2.3
Y2-160M1-2 11 15 2935 21.3 89.4 0.89 7.5 2.2 2.3
Y2-160M2-2 15 20 2935 28.8 90.3 0.89 7.5 2.2 2.3
Y2-160L-2 18.5 25 2935 34.7 90.9 0.90 7.5 2.2 2.3
Y2-180M-2 22 30 2945 41 91.3 0.90 7.5 2 2.3
Y2-200L1-2 30 40 2955 55.5 92 0.90 7.5 2 2.3
Y2-200L2-2 37 50 2955 67.9 92.5 0.90 7.5 2 2.3
Y2-225M-2 45 60 2975 82.3 92.9 0.92 7.5 2 2.3
Y2-250M-2 55 75 2975 101 93.2 0.90 7.5 2 2.3
Y2-280S-2 75 100 2975 134 93.8 0.90 7.5 2 2.3
Y2-315S-2 110 150 2980 195 94.3 0.91 7.1 1.8 2.2
Y2-315M-2 132 180 2980 233 94.6 0.91 7.1 1.8 2.2
Y2-315L1-2 160 200 2980 279 94.8 0.92 7.1 1.8 2.2
Y2-315L2-2 200 270 2980 348 95 0.92 7.1 1.8 2.2
Y2-355M-2 250 340 2980 433 95 0.92 7.1 1.6 2.2
Y2-355L-2 315 430 2980 544 95 0.92 5.8 1.6 2.2
Y2-400M1-2 355 475 2975 618 95.9 0.91 5.8 1.23 2.53
Y2-400M2-2 400 535 2982 689 96.0 0.92 5.74 1.31 2.43
Y2-400M3-2 450 600 2982 775 96.1 0.92 7.27 1.83 2.98
Y2-400L1-2 500 670 2982 853 96.3 0.92 6.14 1.2 2.9
Y2-400L2-2 560 750 2982 952 96.3 0.92 5.46 0.98 2.57
Synchronous Speed 1500 rpm
Y2-631-4 0.12 0.17 1310 0.44 57 0.72 4.4 2.1 2.2
Y2-632-4 0.18 0.25 1310 1.62 60 0.73 4.4 2.1 2.2
Y2-711-4 0.25 0.34 1330 0.79 65 0.75 5.2 2.1 2.2
Y2-712-4 0.37 0.5 1330 1.12 67 0.74 5.2 2.1 2.2
Y2-801-4 0.55 0.75 1395 1.57 71 0.75 5.2 2.4 2.3
Y2-802-4 0.75 1 1395 2.03 79.6 0.76 6 2.3 2.3
Y2-90S-4 1.1 1.5 1405 2.89 81.4 0.77 6 2.3 2.3
Y2-90L-4 1.5 2 1405 3.7 82.8 0.79 6 2.3 2.3
Y2-100L1-4 2.2 3 1435 5.16 84.3 0.81 7 2.3 2.3
Y2-100L2-4 3 4 1435 6.78 85.5 0.82 7 2.3 2.3
Y2-112M-4 4 5.5 1445 8.8 86.6 0.82 7 2.3 2.3
Y2-132S-4 5.5 7.5 1445 11.7 87.7 0.83 7 2.3 2.3
Y2-132M-4 7.5 10 1445 15.6 88.7 0.84 7 2.3 2.3
Y2-160M-4 11 15 1460 22.3 89.8 0.84 7 2.2 2.3
Y2-160L-4 15 20 1460 30.1 90.6 0.85 7.5 2.2 2.3
Y2-180M-4 18.5 25 1470 36.5 91.2 0.86 7.5 2.2 2.3
Y2-180L-4 22 30 1470 43.2 91.6 0.86 7.5 2.2 2.3
Y2-200L-4 30 40 1470 57.6 92.3 0.86 7.2 2.2 2.3
Y2-225S-4 37 50 1485 69.9 92.7 0.87 7.2 2.2 2.3
Y2-225M-4 45 60 1485 84.7 93.1 0.87 7.2 2.2 2.3
Y2-250M-4 55 75 1485 103 93.5 0.87 7.2 2.2 2.3
Y2-280S-4 75 100 1485 140 94 0.87 7.2 2.2 2.3
Y2-280M-4 90 125 1490 167 94.2 0.87 7.2 2.2 2.3
Y2-315S-4 110 150 1490 201 94.5 0.88 6.9 2.1 2.2
Y2-315M-4 132 180 1490 240 94.7 0.88 6.9 2.1 2.2
Y2-315L1-4 160 200 1490 287 94.9 0.89 6.9 2.1 2.2
Y2-315L2-4 200 270 1490 359 94.1 0.89 6.9 2.1 2.2
Y2-355M-4 250 340 1485 443 95.1 0.90 6.9 2.1 2.2
Y2-355L-4 315 430 1485 556 95.1 0.90 6.9 2.1 2.2
Y2-400M1-4 355 475 1490 641 95.5 0.88 6.5 2.6 1.93
Y2-400M2-4 400 535 1490 723 95.5 0.88 6.5 2.75 1.8
Y2-400M3-4 450 600 1490 804 95.5 0.89 6.5 2.81 2.03
Y2-400L1-4 500 670 1490 893 95.6 0.89 6.61 2.52 1.83
Y2-400L2-4 560 750 1490 971 96.0 0.89 6.6 2.67 2.02
Synchronous Speed 1000 rpm
Y2-711-6 0.18 0.25 850 0.74 56 0.66 4 1.9 2
Y2-712-6 0.25 0.34 850 0.95 59 0.68 4 1.9 2
Y2-801-6 0.37 0.5 890 1.3 62 0.70 4.7 1.9 2
Y2-802-6 0.55 0.75 890 1.79 65 0.72 4.7 1.9 2.1
Y2-90S-6 0.7 1 915 2.29 75.9 0.72 5.5 2 2.1
Y2-90L-6 1.1 1.5 915 3.18 78.1 0.73 5.5 2 2.1
Y2-100L-6 1.5 2 945 3.94 79.8 0.75 5.5 2 2.1
Y2-112M-6 2.2 3 945 5.6 81.8 0.76 6.5 2 2.1
Y2-132S-6 3 4 965 7.4 83.3 0.76 6.5 2.1 2.1
Y2-132M1-6 4 5.5 965 9.8 84.6 0.76 6.5 2.1 2.1
Y2-132M2-6 5.5 7.5 965 12.9 86 0.77 6.5 2.1 2.1
Y2-160M-6 7.5 10 975 17 87.2 0.78 6.5 2 2.1
Y2-160L-6 11 15 975 24.2 88.7 0.81 7 2 2.1
Y2-180L-6 15 20 975 31.6 89.7 0.81 7 2 2.1
Y2-200L1-6 18.5 25 975 38.6 90.4 0.83 7 2.1 2.1
Y2-200L2-6 22 30 975 44.7 90.9 0.84 7 2.1 2.1
Y2-225M-6 30 40 980 59.3 91.7 0.86 7 2 2.1
Y2-250M-6 37 50 980 71 92.2 0.86 7 2.1 2.1
Y2-280S-6 45 60 980 86 92.7 0.86 7 2.1 2
Y2-280M-6 55 75 980 105 93.1 0.86 7 2.1 2
Y2-315S-6 75 100 980 141 93.7 0.86 7 2 2
Y2-315M-6 90 125 980 169 94 0.86 7 2 2
Y2-315L1-6 110 150 980 206 94.3 0.86 6.7 2 2
Y2-315L2-6 132 180 980 244 94.6 0.87 6.7 2 2
Y2-355M1-6 160 200 985 292 94.8 0.88 6.7 1.9 2
Y2-355M2-6 200 270 985 365 95 0.88 6.7 1.9 2
Y2-355L-6 250 340 985 455 95 0.88 6.7 1.9 2
Y2-400M1-6 280 380 990 510 95.8 0.87 5.9 2.3 1.8
Y2-400M2-6 315 430 990 574 95.8 0.87 5.9 2.3 1.8
Y2-400M3-6 355 475 990 638 95.8 0.87 5.9 2.3 1.8
Y2-400L1-6 400 535 990 719 96.0 0.88 6.3 2.3 1.8
Y2-400L2-6 450 600 990 796 96.5 0.89 6.3 2.3 1.8
Synchronous Speed 750 rpm
Y2-801-8 0.18 0.25 630 0.88 51 0.61 3.3 1.8 1.9
Y2-802-8 0.25 0.34 640 1.15 54 0.61 3.3 1.8 1.9
Y2-90S-8 0.37 0.5 660 1.49 62 0.61 4 1.8 1.9
Y2-90L-8 0.55 0.75 660 2.18 63 0.61 4 1.8 2
Y2-100L1-8 0.75 1 680 2.39 71 0.67 4 1.8 2
Y2-100L2-8 1.1 1.5 680 3.32 73 0.69 5 1.8 2
Y2-112M-8 1.5 2 690 4.5 75 0.69 5 1.8 2
Y2-132S-8 2.2 3 690 6 78 0.71 6 1.8 2
Y2-132M-8 3 4 710 7.9 79 0.73 6 1.8 2
Y2-160M1-8 4 5 710 10.3 81 0.73 6 1.9 2
Y2-160M2-8 5.5 7.5 720 13.6 83 0.74 6 2 2
Y2-160L-8 7.5 10 720 17.8 85.5 0.75 6 2 2
Y2-180L-8 11 15 730 25.1 87.5 0.76 6.6 2 2
Y2-200L-8 15 20 730 34.1 88 0.76 6.6 2 2
Y2-225S-8 18.5 25 730 40.6 90 0.76 6.6 1.9 2
Y2-225M-8 22 30 740 47.4 90.5 0.78 6.6 1.9 2
Y2-250M-8 30 40 740 64 91 0.79 6.6 1.9 2
Y2-280S-8 37 50 740 78 91.5 0.79 6.6 1.9 2
Y2-280M-8 45 60 740 94 92 0.79 6.6 1.9 2
Y2-315S-8 55 75 740 111 92.8 0.81 6.6 1.8 2
Y2-315M-8 75 100 740 151 93 0.81 6.6 1.8 2
Y2-315L1-8 90 125 740 178 93.8 0.82 6.6 1.8 2
Y2-315L2-8 110 150 740 217 94 0.82 7.2 1.8 2
Y2-355M1-8 132 180 740 261 93.7 0.82 7.2 1.8 2
Y2-355M2-8 160 200 740 315 94.2 0.82 7.2 1.8 2
Y2-355L-8 200 270 740 388 94.5 0.83 7.2 1.8 2
Y2-400M1-8 250 340 745 494 95.0 0.81 6.2 2.3 1.8
Y2-400M2-8 280 380 745 552 95.0 0.82 6.2 2.3 1.8
Y2-400L1-8 315 430 745 592 95.0 0.85 6.2 2.3 1.8
Y2-400L2-8 355 475 745 692 95.0 0.85 6.2 2.3 1.8
Y2-400L3-8 400 535 745 780 95.0 0.85 6.2 2.3 1.8
Synchronous Speed 600 rpm
Y2-315S-10 45 60 590 100 91.5 0.75 6.2 1.5 2
Y2-315M-10 55 75 590 121 92 0.75 6.2 1.5 2
Y2-315L1-10 75 100 590 162 92.5 0.76 6.2 1.2 2
Y2-315L2-10 90 125 590 191 93 0.77 6.2 1.5 2
Y2-355M1-10 110 150 590 230 93.2 0.78 6 1.3 2
Y2-355M2-10 132 180 590 275 93.5 0.78 6 1.3 2
Y2-355L-10 160 200 590 334 93.5 0.78 6 1.3 2
Y2-400M1-10 200 270 595 404 95.0 0.80 6.2 2.6 1.8
Y2-400M2-10 250 340 595 495 95.0 0.81 6.2 2.6 1.8
Y2-400L1-10 280 380 595 554 95.0 0.82 6.2 2.6 1.8
Y2-400L2-10 315 430 595 630 95.0 0.82 6.2 2.6 1.8

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Application: Industrial, Universal, Household Appliances, Power Tools
Operating Speed: Constant Speed
Number of Stator: Three-Phase
Species: Y, Y2 Series Three-Phase
Rotor Structure: Winding Type
Casing Protection: Protection Type
Samples:
US$ 30/Piece
1 Piece(Min.Order)

|

Customization:
Available

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electric motor

Can you provide examples of machinery or equipment that rely on electric motors?

Electric motors are extensively used in various machinery and equipment across different industries. They play a crucial role in converting electrical energy into mechanical energy to power a wide range of applications. Here are some examples of machinery and equipment that heavily rely on electric motors:

  • Industrial Machinery: Electric motors are found in numerous industrial machinery and equipment, such as pumps, compressors, fans, conveyors, agitators, mixers, and machine tools. These motors provide the necessary power for moving fluids, gases, and materials, as well as driving mechanical processes in manufacturing, mining, construction, and other industrial applications.
  • Electric Vehicles: Electric motors are the primary propulsion system in electric vehicles (EVs) and hybrid electric vehicles (HEVs). They provide the power needed to drive the wheels and propel the vehicle. Electric motors in EVs and HEVs offer high efficiency, instant torque, and regenerative braking capabilities, contributing to the advancement of sustainable transportation.
  • Household Appliances: Many household appliances rely on electric motors for their operation. Examples include refrigerators, air conditioners, washing machines, dishwashers, vacuum cleaners, blenders, and electric fans. Electric motors enable the movement, cooling, or mechanical functions in these appliances, enhancing convenience and efficiency in daily household tasks.
  • HVAC Systems: Heating, ventilation, and air conditioning (HVAC) systems utilize electric motors for various functions. Motors power the fans in air handling units, circulate air through ducts, and drive compressors in air conditioning and refrigeration systems. Electric motors in HVAC systems contribute to efficient temperature control and air circulation in residential, commercial, and industrial buildings.
  • Medical Equipment: Electric motors are essential components in a wide array of medical equipment. Examples include MRI machines, X-ray machines, CT scanners, surgical robots, dental drills, infusion pumps, and patient lifts. These motors enable precise movements, imaging capabilities, and mechanical functions in medical devices, supporting diagnostics, treatment, and patient care.
  • Power Tools: Electric motors are commonly used in power tools such as drills, saws, grinders, sanders, and routers. They provide the rotational force and power required for cutting, shaping, drilling, and other tasks. Electric motors in power tools offer portability, ease of use, and consistent performance for both professional and DIY applications.
  • Aircraft Systems: Electric motors are increasingly utilized in aircraft systems. They power various components, including landing gear actuation systems, fuel pumps, hydraulic systems, and cabin air circulation systems. Electric motors in aircraft contribute to weight reduction, energy efficiency, and improved reliability compared to traditional hydraulic or pneumatic systems.

These examples represent just a fraction of the machinery and equipment that rely on electric motors. From industrial applications to household appliances and transportation systems, electric motors are integral to modern technology, providing efficient and reliable mechanical power for a wide range of purposes.

electric motor

What advancements in electric motor technology have improved energy efficiency?

Advancements in electric motor technology have played a crucial role in improving energy efficiency, leading to more sustainable and environmentally friendly applications. Here’s a detailed explanation of some key advancements in electric motor technology that have contributed to enhanced energy efficiency:

  1. High-Efficiency Motor Designs: One significant advancement in electric motor technology is the development of high-efficiency motor designs. These designs focus on reducing energy losses during motor operation, resulting in improved overall efficiency. High-efficiency motors are engineered with optimized stator and rotor geometries, reduced core losses, and improved magnetic materials. These design enhancements minimize energy wastage and increase the motor’s efficiency, allowing it to convert a higher percentage of electrical input power into useful mechanical output power.
  2. Premium Efficiency Standards: Another notable advancement is the establishment and adoption of premium efficiency standards for electric motors. These standards, such as the International Electrotechnical Commission (IEC) IE3 and NEMA Premium efficiency standards, set minimum efficiency requirements for motors. Manufacturers strive to meet or exceed these standards by incorporating innovative technologies and design features that enhance energy efficiency. The implementation of premium efficiency standards has led to the widespread availability of more efficient motors in the market, encouraging energy-conscious choices and reducing energy consumption in various applications.
  3. Variable Speed Drives: Electric motor systems often operate under varying load conditions, and traditional motor designs operate at a fixed speed. However, the development and adoption of variable speed drives (VSDs) have revolutionized motor efficiency. VSDs, such as frequency converters or inverters, allow the motor’s speed to be adjusted according to the load requirements. By operating motors at the optimal speed for each task, VSDs minimize energy losses and significantly improve energy efficiency. This technology is particularly beneficial in applications with variable loads, such as HVAC systems, pumps, and conveyors.
  4. Improved Motor Control and Control Algorithms: Advanced motor control techniques and algorithms have contributed to improved energy efficiency. These control systems employ sophisticated algorithms to optimize motor performance, including speed control, torque control, and power factor correction. By precisely adjusting motor parameters based on real-time operating conditions, these control systems minimize energy losses and maximize motor efficiency. Additionally, the integration of sensor technology and feedback loops enables closed-loop control, allowing motors to respond dynamically and adaptively to changes in load demand, further enhancing energy efficiency.
  5. Use of Permanent Magnet Motors: Permanent magnet (PM) motors have gained popularity due to their inherent high energy efficiency. PM motors utilize permanent magnets in the rotor, eliminating the need for rotor windings and reducing rotor losses. This design enables PM motors to achieve higher power densities, improved efficiency, and enhanced performance compared to traditional induction motors. The use of PM motors is particularly prevalent in applications where high efficiency and compact size are critical, such as electric vehicles, appliances, and industrial machinery.
  6. Integration of Advanced Materials: Advances in materials science have contributed to improved motor efficiency. The utilization of advanced magnetic materials, such as rare-earth magnets, allows for stronger and more efficient magnetic fields, resulting in higher motor efficiency. Additionally, the development of low-loss electrical steel laminations and improved insulation materials reduces core losses and minimizes energy wastage. These advanced materials enhance the overall efficiency of electric motors, making them more energy-efficient and environmentally friendly.

The advancements in electric motor technology, including high-efficiency motor designs, premium efficiency standards, variable speed drives, improved motor control, permanent magnet motors, and advanced materials, have collectively driven significant improvements in energy efficiency. These advancements have led to more efficient motor systems, reduced energy consumption, and increased sustainability across a wide range of applications, including industrial machinery, transportation, HVAC systems, appliances, and renewable energy systems.

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 wholesaler Top Part Strong Terminal Box Y2 Three Phase Electric Motor Cast Iron   supplier China wholesaler Top Part Strong Terminal Box Y2 Three Phase Electric Motor Cast Iron   supplier
editor by CX 2024-03-27