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Product Description

Product Parameters

Ms series aluminum housing 3 phase asychronous motor ,with latest design in entirely ,are made of selected quality materials and conform to IEC standard.

 MS motor have good performance ,safety and reliable operation ,nice appearance ,and can be maintained very conveniently ,while with low noise ,little vibration and at the same time light weight and simple construction .these motors can be used for general drive 

Ambient Temperature

-15ºC≤0≤40ºC

Altitude

Not exceeding 1000 CHINAMFG

Rated Voltage

380V±5%,220V±5%

Protection Type

IP44/IP54

Connection

Y Start-Connection for 3 Kw and below

Y Date-Connection for 3 Kw or more

Cooling Type 

IC0141

Insulation Class

Class B/Class F

Rated Frequency

50Hz/60Hz

Duty/Rating

Continuous(S1) Or customized 

The terminal box IP55

Model Rated power Current Power factor Efficiency speed Locked Rotor
 torque
Locked Rot or Current Breskdown Torque
Type (KW) (A) (cosΦ) (η%) (r/min) Tst
TN
Ist
TN
Tmax
TN
synchronous speed 3000r/min(380V 50HZ)
YS/MS561-2 0.09 0.29 0.77 62 2750 2.2 5.2 2.1
YS/MS562-2 0.12 0.37 0.78 64 2750 2.2 5.2 2.1
YS/MS631-2 0.18 0.53 0.8 65 2780 2.3 5.5 2.3
YS/MS632-2 0.25 0.69 0.81 68 2780 2.3 5.5 2.3
YS/MS711-2 0.37 1.01 0.81 69 2800 2.2 6.1 2.3
YS/MS712-2 0.55 1.38 0.82 74 2800 2.3 6.1 2.3
YS/MS801-2 0.75 1.77 0.83 75 2825 2.3 6.1 2.2
YS/MS802-2 1.1 2.46 0.84 76.2 2825 2.3 6.9 2.2
YS/MS90S-2 1.5 3.46 0.84 78.5 2840 2.3 7.0  2.2
YS/MS90L-2 2.2 4.85 0.85 81 2840 2.3 7.0  2.2
YS/MS100L-2 3 6.34 0.87 82.6 2880 2.3 7.5 2.2
YS/MS112M-2 4 8.20  0.88 84.2 2890 2.3 7.5 2.2
YS/MS132S1-2 5.5 11.1 0.88 85.7 2900 2.3 7.5 2.2
YS/MS132S2-2 7.5 14.9 0.88 87 2900 2.3 7.5 2.2
YS/MS160M1-2 11 21.2 0.89 88.4 2947 2.3 7.5 2.2
YS/MS160M2-2 15 28.6 0.89 89.4 2947 2.3 7.5 2.2
YS/MS160L-2 18.5 34.7 0.90  90 2947 2.3 7.5 2.2
synchronous speed 1500 r/min(380V 50HZ)
YS/MS561-4 0.06 0.23 0.70  56 1300 2.1 4.0  2.0 
YS/MS562-4 0.09 0.33 0.72 58 1300 2.1 4.0  2.0 
YS/MS631-4 0.12 0.44 0.72 57 1330 2.2 4.4 2.1
YS/MS632-4 0.18 0.62 0.73 60 1330 2.2 4.4 2.1
YS/MS711-4 0.25 0.79 0.74 65 1360 2.2 5.2 2.1
YS/MS712-4 0.37 1.12 0.75 67 1360 2.2 5.2 2.1
YS/MS801-4 0.55 1.52 0.75 71 1380 2.3 5.2 2.4
YS/MS802-4 0.75 1.95 0.76 73 1380 2.3 6.0  2.3
YS/MS90S-4 1.1 2.85 0.77 76.2 1390 2.3 6.0  2.3
YS/MS90L-4 1.5 3.72 0.78 78.2 1390 2.3 6.0  2.3
YS/MS100L1-4 2.2 5.09 0.81 81 1410 2.3 7.0  2.3
YS/MS100L2-4 3 6.78 0.82 82.6 1410 2.3 7.0  2.3
YS/MS112M-4 4 8.8 0.82 84.6 1435 2.3 7.0  2.3
YS/MS132S1-4 5.5 11.7 0.83 85.7 1445 2.3 7.0  2.3
YS/MS132S2-4 7.5 15.6 0.84 87 1445 2.3 7.0  2.3
YS/MS160M-4 11 22.5 0.84 88.4 1460 2.2 7.0  2.3
YS/MS160L-4 15 30.0  0.85 89.4 1460 2.2 7.5 2.3
                 
Model Rated power Current Power factor Efficiency speed Locked Rotor
 torque
Locked Rot or Current Breskdown Torque
Type (KW) (A) (cosΦ) (η%) (r/min) Tst
TN
Ist
TN
Tmax
TN
synchronous speed 1000 r/min(380V 50HZ)
YS/MS711-6 0.18 0.74 0.66 56 900 2.0  4.0  1.9
YS/MS712-6 0.25 0.95 0.68 59 900 2.0  4.0  1.9
YS/MS801-6 0.37 1.23 0.70  62 900 2.0  4.7 1.8
YS/MS802-6 0.55 1.70  0.72 65 900 2.1 4.7 1.8
YS/MS90S-6 0.75 2.29 0.72 69 900 2.1 5.3 2.0 
YS/MS90L-6 1.1 3.18 0.73 72 910 2.1 5.5 2.0 
YS/MS100L-6 1.5 4.0  0.76 76 910 2.1 5.5 2.0 
YS/MS112M-6 2.2 5.6 0.76 79 940 2.1 6.5 2.0 
YS/MS132S-6 3 7.40  0.76 81 940 2.1 6.5 2.1
YS/MS132M1-6 4 9.5 0.76 82 960 2.1 6.5 2.1
YS/MS132M2-6 5.5 12.6 0.77 84 960 2.1 6.5 2.1
YS/MS160M-6 7.5 17.2 0.77 86 960 2.0  6.5 2.1
YS/MS160L-6 11 24.5 0.78 87.5 960 2.0  6.5 2.1
synchronous speed 750 r/min(380V 50HZ)
YS/MS801-8 0.18 0.83 0.61 51 630 1.9 3.3 1.8
YS/MS802-8 0.25 1.10  0.61 54 640 1.9 3.3 1.8
YS/MS90S-8 0.37 1.49 0.61 62 660 1.9 4.0  1.8
YS/MS90L-8 0.55 2.17 0.61 63 660 2.0  4.0  1.8
YS/MS100L1-8 0.75 2.43 0.67 70 690 2.0  4.0  1.8
YS/MS100L2-8 1.1 3.36 0.69 72 690 2.0  5.0  1.8
YS/MS112M-8 1.5 4.40  0.70  74 680 2.0  5.0  1.8
YS/MS132S-8 2.2 6.00  0.71 79 710 2.0  6.5 1.8
YS/MS132M-8 3 7.80  0.73 80 710 2.0  6.5 1.8
YS/MS160M1-8 4 10.3 0.73 81 720 2.0  6.6  2.0 
YS/MS160M2-8 5.5 13.6 0.74 83 720 2.0  6.6  2.0 
YS/MS160L-8 7.5 17.8 0.75 85.5 720 2.0  6.6 2.0 

Detailed Photos

FAQ

Q: Where is Your factory?
A: HangZhou city, ZHangZhoug Province.
 
Q: Do you accept OEM/ODM service?
A: Yes, avaliable.
 
Q: Are you trading company or manufacturer?
A: We are a manufacturer.
 
Q: What about the shipment?
A: By sea, By air and By express delivery.
 
Q: What is the delivery time?
A: It depends on the order quantity, usually 35days after confirmation.
 
Q: Can I buy different products in 1 container?
A: Yes, but no more than 5 models.
 
Q: What is the warranty time?
A: One year.

Q: Can you offer the sample?
A: Of course we can.

 

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Application: Industrial, Household Appliances, Power Tools, Car
Operating Speed: Constant Speed
Number of Stator: Three-Phase
Samples:
US$ 40/Piece
1 Piece(Min.Order)

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Order Sample

Customization:
Available

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

induction motor

Are there specific maintenance requirements for AC motors to ensure optimal performance?

Yes, AC motors have specific maintenance requirements to ensure their optimal performance and longevity. Regular maintenance helps prevent unexpected failures, maximizes efficiency, and extends the lifespan of the motor. Here are some key maintenance practices for AC motors:

  1. Cleaning and Inspection: Regularly clean the motor to remove dust, dirt, and debris that can accumulate on the motor surfaces and hinder heat dissipation. Inspect the motor for any signs of damage, loose connections, or abnormal noise/vibration. Address any issues promptly to prevent further damage.
  2. Lubrication: Check the motor’s lubrication requirements and ensure proper lubrication of bearings, gears, and other moving parts. Insufficient or excessive lubrication can lead to increased friction, overheating, and premature wear. Follow the manufacturer’s guidelines for lubrication intervals and use the recommended lubricants.
  3. Belt and Pulley Maintenance: If the motor is coupled with a belt and pulley system, regularly inspect and adjust the tension of the belts. Improper belt tension can affect motor performance and efficiency. Replace worn-out belts and damaged pulleys as needed.
  4. Cooling System Maintenance: AC motors often have cooling systems such as fans or heat sinks to dissipate heat generated during operation. Ensure that these cooling systems are clean and functioning properly. Remove any obstructions that may impede airflow and compromise cooling efficiency.
  5. Electrical Connections: Regularly inspect the motor’s electrical connections for signs of loose or corroded terminals. Loose connections can lead to voltage drops, increased resistance, and overheating. Tighten or replace any damaged connections and ensure proper grounding.
  6. Vibration Analysis: Periodically perform vibration analysis on the motor to detect any abnormal vibrations. Excessive vibration can indicate misalignment, unbalanced rotors, or worn-out bearings. Address the underlying causes of vibration to prevent further damage and ensure smooth operation.
  7. Motor Testing: Conduct regular motor testing, such as insulation resistance testing and winding resistance measurement, to assess the motor’s electrical condition. These tests can identify insulation breakdown, winding faults, or other electrical issues that may affect motor performance and reliability.
  8. Professional Maintenance: For more complex maintenance tasks or when dealing with large industrial motors, it is advisable to involve professional technicians or motor specialists. They have the expertise and tools to perform in-depth inspections, repairs, and preventive maintenance procedures.

It’s important to note that specific maintenance requirements may vary depending on the motor type, size, and application. Always refer to the manufacturer’s guidelines and recommendations for the particular AC motor in use. By following proper maintenance practices, AC motors can operate optimally, minimize downtime, and have an extended service life.

induction motor

How do AC motors contribute to the functioning of household appliances?

AC motors play a crucial role in the functioning of numerous household appliances by converting electrical energy into mechanical energy. These motors are used in a wide range of devices, powering various components and performing essential tasks. Let’s explore how AC motors contribute to the functioning of household appliances:

  • Kitchen Appliances: AC motors are found in various kitchen appliances, such as refrigerators, freezers, dishwashers, and blenders. In refrigerators and freezers, AC motors drive the compressor, which circulates the refrigerant and maintains the desired temperature. Dishwashers use AC motors to power the water pumps, spray arms, and the motorized detergent dispenser. Blenders utilize AC motors to rotate the blades and blend ingredients.
  • Laundry Appliances: AC motors are integral to laundry appliances like washing machines and clothes dryers. Washing machines rely on AC motors to power the agitator or the drum, facilitating the washing and spinning cycles. Clothes dryers use AC motors to rotate the drum and operate the blower fan, facilitating the drying process.
  • Vacuum Cleaners: Vacuum cleaners utilize AC motors to generate suction and drive the motorized brush or beater bar. These motors power the fan or impeller, creating the necessary airflow for effective cleaning.
  • Fans and Air Circulation: AC motors are employed in various types of fans, including ceiling fans, table fans, and pedestal fans. These motors drive the fan blades, producing airflow and facilitating air circulation to provide cooling or ventilation in rooms. Additionally, AC motors power exhaust fans used in kitchens, bathrooms, and range hoods to remove odors, smoke, or excess moisture.
  • Air Conditioning and Heating Systems: AC motors are critical components in air conditioning and heating systems. They power the compressor, condenser fan, and blower fan, which are responsible for circulating refrigerant, dissipating heat, and delivering conditioned air throughout the house. AC motors enable the regulation of temperature and humidity levels, ensuring comfort in residential spaces.
  • Garage Door Openers: AC motors are utilized in garage door openers to drive the mechanism responsible for opening and closing the garage door. These motors generate the necessary torque to lift or lower the door smoothly and efficiently.
  • Other Appliances: AC motors are also found in a variety of other household appliances. For instance, they power pumps in water heaters, swimming pool filters, and sump pumps. AC motors are used in dehumidifiers, humidifiers, and air purifiers to drive the fans and other internal components. They are also present in audiovisual equipment, such as DVD players, record players, and fans used for cooling electronics.

In summary, AC motors are essential components in household appliances, enabling their proper functioning and delivering the mechanical energy required for various tasks. From kitchen appliances to laundry machines, fans, air conditioning systems, and more, AC motors provide the necessary power and functionality to enhance our daily lives.

induction motor

How does the speed control mechanism work in AC motors?

The speed control mechanism in AC motors varies depending on the type of motor. Here, we will discuss the speed control methods used in two common types of AC motors: induction motors and synchronous motors.

Speed Control in Induction Motors:

Induction motors are typically designed to operate at a constant speed determined by the frequency of the AC power supply and the number of motor poles. However, there are several methods for controlling the speed of induction motors:

  1. Varying the Frequency: By varying the frequency of the AC power supply, the speed of an induction motor can be adjusted. This method is known as variable frequency drive (VFD) control. VFDs convert the incoming AC power supply into a variable frequency and voltage output, allowing precise control of motor speed. This method is commonly used in industrial applications where speed control is crucial, such as conveyors, pumps, and fans.
  2. Changing the Number of Stator Poles: The speed of an induction motor is inversely proportional to the number of stator poles. By changing the connections of the stator windings or using a motor with a different pole configuration, the speed can be adjusted. However, this method is less commonly used and is typically employed in specialized applications.
  3. Adding External Resistance: In some cases, external resistance can be added to the rotor circuit of an induction motor to control its speed. This method, known as rotor resistance control, involves inserting resistors in series with the rotor windings. By varying the resistance, the rotor current and torque can be adjusted, resulting in speed control. However, this method is less efficient and is mainly used in specific applications where precise control is not required.

Speed Control in Synchronous Motors:

Synchronous motors offer more precise speed control compared to induction motors due to their inherent synchronous operation. The following methods are commonly used for speed control in synchronous motors:

  1. Adjusting the AC Power Frequency: Similar to induction motors, changing the frequency of the AC power supply can control the speed of synchronous motors. By adjusting the power frequency, the synchronous speed of the motor can be altered. This method is often used in applications where precise speed control is required, such as industrial machinery and processes.
  2. Using a Variable Frequency Drive: Variable frequency drives (VFDs) can also be used to control the speed of synchronous motors. By converting the incoming AC power supply into a variable frequency and voltage output, VFDs can adjust the motor speed with high accuracy and efficiency.
  3. DC Field Control: In some synchronous motors, the rotor field is supplied by a direct current (DC) source, allowing for precise control over the motor’s speed. By adjusting the DC field current, the magnetic field strength and speed of the motor can be controlled. This method is commonly used in applications that require fine-tuned speed control, such as industrial processes and high-performance machinery.

These methods provide different ways to control the speed of AC motors, allowing for flexibility and adaptability in various applications. The choice of speed control mechanism depends on factors such as the motor type, desired speed range, accuracy requirements, efficiency considerations, and cost constraints.

China Custom Ms Series 380V 2850rpm 550W Aluminum Shell AC Electric Three Phase Induction Motor for Car Washer Plunger Pump   with Best Sales China Custom Ms Series 380V 2850rpm 550W Aluminum Shell AC Electric Three Phase Induction Motor for Car Washer Plunger Pump   with Best Sales
editor by CX 2024-05-15

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