China Custom Ye3-160m-4-11kw Premium High Efficiency Three Phase Induction AC Electric Asynchronous Motor Electric Motor vacuum pump oil

Product Description

Product Description:

It is have good performance, safety and reliable operation, nice appearance, and can be maintained very conveniently, while with low noise. little vibration,at the same time, lightweight and simple construction. These motors can be used for general drives.

company introduction

HangZhou UP CHINAMFG MACHINRY CO.,LTD. is a research and development,manufacturing, sales as 1 of the enterprises. The company’s main business is small and medium-sized asynchronous AC motor, Our main products include YC/YCL series single-phase capacitor starting asynchronous motors, YL series single-phase double–value capacitor asynchronous motors, MS series high-efficiency three-phase asynchronous motors with aluminum shell,YS Series three-phase asynchronous motor, YE3/YE4 series square type aluminum shell motor (71-160 frame),YD series variable pole multi-speed three-phase asynchronous motor, YE3 series high efficiency three-phase asynchronous motor YE4 series ultra-high efficiency three–phase asynchronous motor, YE5 series ultra-high efficiency three-phase asynchronous motor, etc.
The company in line with the “superior quality, first-class service” for the purpose, hot pillow look CHINAMFG to cooperating with customers from all over the world to create brilliant!


Factory Advantages:

1.Professional workman inspecting spare parts every processing.

2.Guaranteed Quality 
We have best quality materials to make our electric motors best performance.Our products are 100% brand new , 100% cooper wire.  It is newly designed in conformity with the relevant rules of IEC standards, Strictly and Perfect Management is guaranteed for Production

3.Professional Service
 We valuing every customer. We’d like to assist you arranging delivery things, test things or others on your request.

4. Fast delivery time, Normal models about 15-20days , another not normal models need about 30days

5.We have advanced winding , painting, assembly and packing etc. production line which make our products nice appearance, good performance and well packaged.

6. Electric motor will 100% check again before packing.
An electric motor from material to finish motor, must pass 15 time check, and 100% testing, output power, voltage, electric current, non-load, 50% load, 75% load, 100% load and check the nameplate, packing. Finally shipping to our customer.

7.We have professional financial department who are good at calculating and controlling the cost and capital operationwhich  could make most favorable prices for our customers.



Our Service:     
1. We valuing every customer.
2. We cooperate with customer to design and develop new product. Provide OEM.
3. 25-30 days leading time.
4. We’d like to assist you arranging delivery things, test things or others on your request.

Why us?
1. Our Manufacturer is a professional factory for Electric Motor in China
2. Have good price in China
3. Full of export experiences.
4. 100% tested for the quality prior to shipment
5. Special motors can be designed according to customers’ requirements
 6. Perfect performance, low noise, slight vibration, reliable running, good appearance, small volume, light weight and easy maintenance.
7. Reliable in country, city or factory environments
10. Sincere and Professional Service

Q: What is your delivery time?

A: Within 20~25 days after receiving deposit. 

Q: What is your MOQ of this item ?

A: 10 PCS per item.   

Q: Can we type our brand on it?

A: Yes of course.

Q: Where is your loading port ?

A: HangZhou Port, ZheJiang Port, China.

Q: What is your production capacity?

A: About 1000 PCS per day.

Ordering instructions:
1.Please indicate the motor type,rated output,rated voltage,rated frequency,synchronous speed,Explosion proof Mark,mounting type, 
2.If have special request,For example: the voltage, frequency,protection class,duplex shaft,direction of rotation.temperature monitoring device,please indicate in details in the ordering contract and CHINAMFG technical agreement if necessary 


If you are looking for new better supplier or purchase electric motors, please feel free contact us now.You will get all what you want.

Application: Industrial, Universal, Power Tools
Operating Speed: High Speed
Number of Stator: Three-Phase
Species: Y, Y2 Series Three-Phase
Rotor Structure: Winding Type
Casing Protection: Protection Type
US$ 85/Piece
1 Piece(Min.Order)




induction motor

What factors should be considered when selecting the right induction motor for a task?

When selecting the right induction motor for a specific task or application, several factors need to be considered. Here’s a detailed explanation of the key factors:

  • Power Requirements:
    • Determine the power requirements of the task, including the required torque and speed.
    • Select a motor with sufficient power output to meet the demands of the application.
    • Consider factors such as starting torque, peak torque, and continuous torque requirements.
  • Operating Conditions:
    • Consider the environmental conditions in which the motor will operate.
    • Assess factors such as temperature, humidity, altitude, and the presence of dust, chemicals, or other potentially corrosive substances.
    • Choose a motor that is suitable for the specific operating conditions to ensure long-term reliability and performance.
  • Speed Control:
    • Determine if speed control is required for the task.
    • Consider whether a fixed-speed motor or a variable speed motor, such as a motor with a variable frequency drive (VFD), is more suitable.
    • Variable speed motors offer flexibility in adjusting the motor’s speed to meet varying load requirements, while fixed-speed motors are simpler and may be more cost-effective for certain applications.
  • Efficiency:
    • Consider the desired efficiency of the motor.
    • Higher efficiency motors can reduce energy consumption and operating costs over the motor’s lifetime.
    • Look for motors that meet or exceed energy efficiency standards, such as those defined by regulatory agencies like the International Electrotechnical Commission (IEC) or the National Electrical Manufacturers Association (NEMA).
  • Size and Weight:
    • Consider the available space and weight limitations for the motor installation.
    • Choose a motor that fits within the physical constraints of the application without compromising performance or safety.
    • Smaller and lighter motors may be preferred for applications with limited space or weight restrictions.
  • Reliability and Maintenance:
    • Evaluate the reliability and maintenance requirements of the motor.
    • Consider the expected duty cycle, required service life, and the availability of spare parts.
    • Choose a motor from a reputable manufacturer known for producing reliable and durable products.
  • Budget:
    • Consider the budget constraints for the motor selection.
    • Balance the desired performance and features with the available budget.
    • Compare the initial purchase cost with the long-term operating costs and energy savings to make an informed decision.
  • Compatibility:
    • Ensure that the selected motor is compatible with the power supply available in the application.
    • Check voltage, frequency, and any specific requirements for the electrical system.
    • Consider the control and communication interfaces required for integration with other equipment or automation systems.

By carefully considering these factors, it is possible to select the right induction motor that meets the specific requirements of the task, ensuring optimal performance, reliability, and efficiency.

induction motor

Can induction motors be integrated with advanced control systems and automation?

Yes, induction motors can be integrated with advanced control systems and automation to enhance their performance, efficiency, and functionality. Here’s a detailed explanation of how induction motors can be integrated with advanced control systems:

Variable Frequency Drives (VFDs):

One of the most common ways to integrate induction motors with advanced control systems is by using Variable Frequency Drives (VFDs). VFDs allow precise control of the motor’s speed by adjusting the frequency and voltage supplied to the motor. With a VFD, the motor’s speed can be varied to match the requirements of the application, resulting in energy savings, improved process control, and reduced mechanical stress on the motor and driven equipment.

Motor Control Centers (MCCs):

Motor Control Centers (MCCs) provide a centralized system for controlling and monitoring multiple induction motors. MCCs typically consist of motor starters, overload protection devices, and control circuits. Advanced MCCs can incorporate communication protocols such as Modbus or Ethernet/IP, allowing seamless integration with higher-level automation systems.

Programmable Logic Controllers (PLCs):

PLCs are widely used in automation systems to control and coordinate various devices and processes. Induction motors can be integrated with PLCs through digital or analog inputs and outputs. By connecting the motor to a PLC, it becomes possible to implement complex control strategies, monitor motor performance, and communicate with other automation components.

Supervisory Control and Data Acquisition (SCADA) Systems:

SCADA systems provide a comprehensive solution for monitoring, controlling, and managing industrial processes. Induction motors can be integrated into SCADA systems through communication protocols such as OPC (OLE for Process Control) or Modbus. SCADA systems enable real-time monitoring of motor parameters, remote control, data logging, and the implementation of advanced control algorithms.

Industrial Internet of Things (IIoT) and Industry 4.0:

With the rise of the Industrial Internet of Things (IIoT) and Industry 4.0, induction motors can be integrated into advanced control systems and automation networks. By equipping motors with sensors and connecting them to the IIoT infrastructure, real-time data on motor performance, energy consumption, and maintenance requirements can be collected. This data can be utilized for predictive maintenance, optimization of motor operation, and integration with broader automation and optimization strategies.

Advanced Control Algorithms:

Induction motors can benefit from advanced control algorithms such as vector control or field-oriented control (FOC). These control techniques allow precise control of motor torque and speed, even under varying load conditions. By implementing advanced control algorithms, induction motors can achieve higher efficiency, smoother operation, and improved dynamic response.

In conclusion, induction motors can be seamlessly integrated with advanced control systems and automation technologies. Variable Frequency Drives (VFDs), Motor Control Centers (MCCs), Programmable Logic Controllers (PLCs), Supervisory Control and Data Acquisition (SCADA) systems, Industrial Internet of Things (IIoT), Industry 4.0, and advanced control algorithms are some of the tools and technologies that enable the integration of induction motors into advanced control systems, providing enhanced performance, energy efficiency, and intelligent operation.

induction motor

What are the key components of a typical induction motor?

A typical induction motor consists of several key components that work together to generate motion and provide mechanical power. Here’s a detailed explanation of the key components:

  • Stator:
    • The stator is the stationary part of the induction motor. It is made up of a cylindrical core, typically constructed from laminated steel sheets, which provides a low reluctance path for the magnetic flux.
    • The stator core contains slots that hold the stator windings, which are typically made of copper or aluminum conductors. These windings are arranged in such a way that they produce a rotating magnetic field when energized by an AC power supply.
  • Rotor:
    • The rotor is the rotating part of the induction motor. It is also constructed from laminated steel sheets to reduce eddy current losses.
    • There are two common types of rotors used in induction motors: squirrel cage rotor and wound rotor.
    • In a squirrel cage rotor, which is the most common type, the rotor consists of short-circuited conductive bars or loops that are typically made of aluminum or copper. The rotor bars are permanently shorted at the ends by conducting end rings.
    • In a wound rotor, the rotor windings are not short-circuited and are instead connected to external resistors or other control devices. This type of rotor allows for external control of rotor impedance and provides additional flexibility for motor operation.
  • Bearings:
    • Bearings are used to support and allow the rotation of the rotor within the stator. They provide low-friction surfaces that reduce wear and enable smooth operation.
    • Induction motors typically use rolling element bearings, such as ball bearings or roller bearings, to support the rotor shaft.
  • End Bells or End Shields:
    • The end bells, also known as end shields, are located at each end of the motor and provide mechanical support for the stator core and rotor shaft.
    • They also house the bearings and protect the motor’s internal components from dust, moisture, and other environmental factors.
  • Air Gap:
    • The air gap is the space between the stator and the rotor. It is a critical region where the magnetic field generated by the stator interacts with the conductors in the rotor, inducing voltage and current.
    • The size of the air gap affects the motor’s performance, efficiency, and torque production.
  • Terminal Box or Connection Box:
    • The terminal box is located on the outside of the motor and provides a connection point for the external power supply and control devices.
    • It houses the motor’s electrical terminals, which allow for the connection of the stator windings to the power supply and external control circuits.
  • Fan and Cooling Mechanism:
    • Many induction motors include a fan or cooling mechanism to dissipate heat generated during operation. This helps to prevent overheating and maintain optimal motor performance.
    • The fan may be mounted on the rotor shaft or the motor casing and helps to circulate air over the motor’s internal components, reducing temperature rise.

These are the key components of a typical induction motor. Their proper design, construction, and functioning are crucial for the efficient and reliable operation of the motor.

China Custom Ye3-160m-4-11kw Premium High Efficiency Three Phase Induction AC Electric Asynchronous Motor Electric Motor   vacuum pump oil	China Custom Ye3-160m-4-11kw Premium High Efficiency Three Phase Induction AC Electric Asynchronous Motor Electric Motor   vacuum pump oil
editor by CX 2023-11-18