Tag Archives: hp motor

China Professional 5kcp29jg E271s 1/4 HP Power Saving Electric AC Motor vacuum pump ac

Product Description

5kcp29jg E271s 1/4 HP Power Saving Electric AC Motor

Detailed Photos



Product Parameters


Item Inspection item Inspection standard Test method Amount of inspection Inspection result Result
1 appearance inspection According to the drawings Visual inspection AQL=1.0 Good appearance,  no scratches and rust spots Qualified
2 abnormal sound detection No sound, no noise Listening after normal power-on AQL=1.0 The sound is crisp and there is no abnormal sound. Qualified
3 size check Output shaft height 85±1 Caliper measurement AQL=2.5 84-85 85 85 85 85 85 85 Qualified
4 shaft diameter 12.68(-0.571–0.005) Micrometer measurement 12.655-12.675 12.68 12.68 12.68 12.68 12.68 12.68 Qualified
5 shaft extension ≤0.04 Dial indicator measurement 0.01-0.02 0.015 0.015 0.015 0.015 0.015 0.015 Qualified
6 location dimension 50±1 Caliper measurement 49-51 50 50 50 50 50 50 Qualified
7  installation size 42±0.5 Caliper measurement 41.5-42.5 42 42 42 42 42 42 Qualified
8 end cover height 106 Caliper measurement 106 106 106 106 106 106 106 Qualified
9 sheet thickness 1.5±0.2 Caliper measurement 1.52-1.48 1.5 1.5 1.5 1.5 1.5 1.5 Qualified
10 lead requirements 850±20 Meter measure 870-830 851 852 854 851 851 850 Qualified
11 casing requirements / Meter measure / / / / / / / /
12 Electrical strength (V/min) 1500 Motor factory comprehensive test bench AQL=1.0 Pass Qualified
13 insulation resistance(MΩ) ≥100 Motor factory comprehensive test bench 500 500 500 500 500 500 500 Qualified
14 inter-turn insulation(V) 2100 Motor factory comprehensive test bench Pass Qualified
15 leakage current(mA) ≤0.25 Motor factory comprehensive test bench 0.05-0.08 0.06 0.07 0.06 0.06 0.07 0.07 Qualified
16  cold resistance main phase Main phase(Ω) Rm 33.1±15% Resistance meter AQL=2.5 38.06-28.13 33.3 33.3 33.3 33.3 33.3 33.3 Qualified
17 Speed regulation1 (Ω) Rf1 4.04±15% Resistance meter 4.64-3.45 4 4 4 4 4.01 4.02 Qualified
18 Speed regulation2 (Ω) Rf2 / Resistance meter / / / / / / / Qualified
19 vice phase(Ω) Ra 38±15% Resistance meter 32.3-43.7 40.7 40.6 40.6 40.6 40.7 40.7 Qualified
20 output power (w) high-grade 163±10% Electrical parameter table 146.7-179.3 163.1 163.1 163.1 163.1 163.1 163.1 Qualified
21 output current (A) high-grade 1.27±10% Electrical parameter table 1.21-0.99 1.27 1.27 1.27 1.27 1.27 1.27 Qualified
Axial extension direction Clockwise Power on visual inspection AQL=1.0 clockwise Qualified
23 No-load performance Current  Current(A) high-grade 0.86±15% Electrical parameter table AQL=2.5 0.989~0.731 0.87 0.87 0.87 0.87 0.87 0.87 Qualified
26 Power(W) high-grade 135.5±15% Electrical parameter table 155~114.7 136 136 136 136 136 136 Qualified
38   power factor high-grade ≥0.95 Electrical parameter table AQL=2.5 0.95~0.98 0.96 0.95 0.96 0.95 0.95 0.95 Qualified
39 temperature rise(K) high-grade ≤85 Resistance meter: resistance method OK OK OK OK OK OK OK Qualified
40 low pressure start(V) low range 0.76Un Electrical parameter table OK OK OK OK OK OK OK Qualified
41 thermal protector KW-135ºC Motor unpacking visual inspection AQL=1.0 KW-135ºC Qualified
42 Comprehensive judgment 18AWG Visual inspection lead printing AQL=1.0 18AWG Qualified
Result  √Qualified   Unqualified


Product Description

Motor Quality & Reliability:

We define quality as a philosophy to live by.
An universal QM system with the latest measuring and testing methods ensures quality.
We guarantee quality and reliability of your HUND with 100% final inspection.

Motor processing:

Motor package:
Two sets motors is packed in 1 carton with foam


Advanced One-Stop Purchasing Service. Welcome !

Aimee Chen
HangZhou Andwin Refrigeration Equipment Co.,Ltd
Add:No.91 Xihu (West Lake) Dis. Road, New District, HangZhou, ZheJiang , China.



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Application: Industrial
Speed: High Speed, Variable Speed
Number of Stator: Three-Phase


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Estimated freight per unit.

about shipping cost and estimated delivery time.
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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 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

What are the different types of electric motors available?

There are various types of electric motors available, each designed for specific applications and operating principles. These motors differ in their construction, power sources, and performance characteristics. Here is an overview of some common types of electric motors:

  1. DC Motors: DC (Direct Current) motors are widely used and come in different configurations. The most common types include brushed DC motors and brushless DC motors. Brushed DC motors use brushes and a commutator to switch the direction of current in the rotor, while brushless DC motors use electronic commutation. DC motors offer good speed control and torque characteristics, making them suitable for applications like robotics, electric vehicles, and small appliances.
  2. AC Motors: AC (Alternating Current) motors are classified into several types, including induction motors, synchronous motors, and universal motors. Induction motors are popular for their simplicity and reliability. They operate based on electromagnetic induction and are commonly used in industrial and residential applications. Synchronous motors operate at a constant speed and are often used in applications that require precise control, such as industrial machinery and synchronous clocks. Universal motors are designed to operate on both AC and DC power sources and are commonly found in household appliances like vacuum cleaners and power tools.
  3. Stepper Motors: Stepper motors are designed to move in discrete steps or increments, making them suitable for applications that require precise positioning. They are often used in robotics, 3D printers, CNC machines, and other automated systems. Stepper motors are available in various configurations, including permanent magnet stepper motors, variable reluctance stepper motors, and hybrid stepper motors.
  4. Servo Motors: Servo motors are a type of motor that combines a DC motor with a feedback control mechanism. They are known for their precise control over position, velocity, and acceleration. Servo motors are commonly used in robotics, industrial automation, and applications that require accurate motion control, such as robotic arms, RC vehicles, and camera gimbals.
  5. Linear Motors: Linear motors are designed to produce linear motion instead of rotational motion. They operate on similar principles as rotary motors but with a different mechanical arrangement. Linear motors find applications in high-speed transportation systems, cutting machines, and other systems that require linear motion without the need for mechanical conversion from rotary to linear motion.
  6. Haptic Motors: Haptic motors, also known as vibration motors, are small motors used to create tactile feedback or vibrations in electronic devices. They are commonly found in smartphones, game controllers, wearable devices, and other gadgets that require haptic feedback to enhance the user experience.

These are just a few examples of the different types of electric motors available. Each type has its own advantages, limitations, and specific applications. The selection of an electric motor depends on factors such as the required torque, speed, control, efficiency, and the specific needs of the application at hand.

China Professional 5kcp29jg E271s 1/4 HP Power Saving Electric AC Motor   vacuum pump acChina Professional 5kcp29jg E271s 1/4 HP Power Saving Electric AC Motor   vacuum pump ac
editor by CX 2024-04-12

China Standard CHINAMFG Freight Electric Motor 1.5 HP Electric Motor 380V 50Hz 1500rpm with Hot selling

Product Description

Harbor Freight Electric Motor 1.5 HP Electric Motor 380V 50HZ 1500RPM

Product Description

1. Good performance, safe and reliable operation

2. Low noise, low vibration and light weight
3. Used for household appliance, swimming pool pumps, fan and recording meters
4. Mounting dimensions conform to IEC standards

Product Parameters


Power 0.09 ~ 3.7kw
Frame Size 56 ~ 112
Phase Single
Efficiency Class IE1 ~ IE4
Poles 2, 4, 6, 8 poles
Protection Class IP44, IP54, IP55, IP56
Insulation Class B, F, H
Mounting Type B14, B3, B5, B35, B34
Ambient Temperature -15 ~ +40 °C
Altitude ≤1000M
Material Aluminum/Cast Iron


Detailed Photos


Company Profile





Q: Can you make the gear motor with customization?
A: Yes, we can customize per your request, like power, voltage, speed, shaft size, wires, connectors, capacitors, terminal box, IP grade, etc.

Q: Do you provide samples?
A: Yes. Sample is available for testing.

Q: What is your MOQ?
A: It is 10pcs for the beginning of our business.

Q: What’s your lead time?
A: Standard product need 5-30days, a bit longer for customized products.

Q: Do you provide technology support?
A: Yes. Our company have design and development team, we can provide technology support if you

Q: How to ship to us?
A: It is available by air, or by sea, or by train.

Q: How to pay the money?
A: T/T and L/C is preferred, with different currency, including USD, EUR, RMB, etc.

Q: How can I know the product is suitable for me?
A: >1ST confirm drawing and specification >2nd test sample >3rd start mass production.

Q: Can I come to your company to visit?
A: Yes, you are welcome to visit us at any time.

Q: How shall we contact you?
A: You can send inquiry directly, and we will respond within 24 hours.

Application: Industrial
Speed: Constant Speed
Number of Stator: Single-Phase
US$ 50/Piece
1 Piece(Min.Order)


Order Sample

1pc for the normal type and design


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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 do manufacturers ensure the quality and reliability of electric motors?

Manufacturers employ several measures and quality control processes to ensure the quality and reliability of electric motors. These measures span from design and manufacturing stages to testing and inspections. Here’s a detailed explanation of how manufacturers ensure the quality and reliability of electric motors:

  1. Robust Design and Engineering: Manufacturers invest significant effort in designing electric motors with robust engineering principles. This involves careful selection of materials, precise calculations, and simulation techniques to ensure optimal performance and durability. Thorough design reviews and analysis are conducted to identify potential issues and optimize the motor’s design for reliability.
  2. Stringent Manufacturing Processes: Manufacturers adhere to stringent manufacturing processes to maintain consistent quality standards. This includes using advanced manufacturing technologies, automated assembly lines, and precision machining to ensure accurate and reliable motor production. Strict quality control measures are implemented at each stage of manufacturing, including material inspection, component testing, and assembly verification.
  3. Quality Control and Testing: Comprehensive quality control and testing procedures are implemented to assess the performance and reliability of electric motors. This includes electrical testing to verify motor characteristics such as voltage, current, power consumption, and efficiency. Mechanical testing is conducted to assess factors like torque, vibration, and noise levels. Additionally, endurance tests are performed to evaluate the motor’s performance over extended operating periods.
  4. Certifications and Compliance: Electric motor manufacturers often obtain certifications and comply with industry standards to ensure quality and reliability. These certifications, such as ISO 9001, IEC standards, and UL certifications, demonstrate that the manufacturer follows recognized quality management systems and meets specific requirements for product safety, performance, and reliability. Compliance with these standards provides assurance to customers regarding the motor’s quality.
  5. Reliability Testing: Manufacturers conduct extensive reliability testing to assess the motor’s performance under various conditions and stress factors. This may include accelerated life testing, temperature and humidity testing, thermal cycling, and load testing. Reliability testing helps identify potential weaknesses, evaluate the motor’s robustness, and ensure it can withstand real-world operating conditions without compromising performance or reliability.
  6. Continuous Improvement and Feedback: Manufacturers emphasize continuous improvement by gathering feedback from customers, field testing, and warranty analysis. By monitoring the performance of motors in real-world applications, manufacturers can identify any issues or failure patterns and make necessary design or process improvements. Customer feedback also plays a crucial role in driving improvements and addressing specific requirements.
  7. Quality Assurance and Documentation: Manufacturers maintain comprehensive documentation throughout the production process to ensure traceability and quality assurance. This includes recording and tracking raw materials, components, manufacturing parameters, inspections, and testing results. Proper documentation allows manufacturers to identify any deviations, track the motor’s history, and enable effective quality control and post-production analysis.
  8. Supplier Evaluation and Control: Manufacturers carefully evaluate and select reliable suppliers for motor components and materials. Supplier quality control processes are established to ensure that the sourced components meet the required specifications and quality standards. Regular supplier audits, inspections, and quality assessments are conducted to maintain a consistent supply chain and ensure the overall quality and reliability of the motors.

By implementing these measures, manufacturers ensure the quality and reliability of electric motors. Through robust design, stringent manufacturing processes, comprehensive testing, compliance with standards, continuous improvement, and effective quality control, manufacturers strive to deliver electric motors that meet or exceed customer expectations for performance, durability, and reliability.

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

How do electric motors generate motion and mechanical work?

Electric motors generate motion and mechanical work through the interaction of magnetic fields and the conversion of electrical energy into mechanical energy. Here’s a detailed explanation of how electric motors accomplish this:

  1. Magnetic Fields: Electric motors consist of a stationary part called the stator and a rotating part called the rotor. The stator contains coils of wire that are supplied with an electric current, creating a magnetic field around them. The rotor, on the other hand, typically 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. The interaction between the magnetic fields of the stator and the rotor creates a rotational force, also known as torque. This torque causes the rotor to start rotating.
  3. Electromagnetic Induction: In certain types of electric motors, such as induction motors, electromagnetic induction plays a significant role. When alternating current (AC) is supplied to the stator, it creates a changing magnetic field. This changing magnetic field induces voltage in the rotor, which leads to the flow of current in the rotor. The current in the rotor produces its own magnetic field, and the interaction between the stator’s magnetic field and the rotor’s magnetic field results in rotation.
  4. Commutation: In motors that use direct current (DC), such as brushed DC motors, commutation is employed. Commutation is the process of reversing the direction of current in the rotor’s electromagnets as the rotor rotates. This is done using a component called a commutator, which ensures that the magnetic fields of the rotor and the stator are always properly aligned. By periodically reversing the current, the commutator allows for continuous rotation.
  5. Conversion of Electrical Energy to Mechanical Energy: As the rotor rotates, the mechanical energy is produced. The rotational motion of the rotor is transferred to the motor’s output shaft, which is connected to the load or the device that needs to be driven. The mechanical work is performed as the output shaft drives the load, such as spinning a fan blade, rotating a conveyor belt, or powering a machine.

In summary, electric motors generate motion and mechanical work by utilizing the interaction of magnetic fields and the conversion of electrical energy into mechanical energy. The electric current flowing through the stator’s coils creates a magnetic field that interacts with the magnetic field of the rotor, producing torque and initiating rotation. In some motors, electromagnetic induction is employed, where a changing magnetic field induces voltage and current in the rotor, leading to rotation. 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, enabling the motor to perform mechanical work by driving the load.

China Standard CHINAMFG Freight Electric Motor 1.5 HP Electric Motor 380V 50Hz 1500rpm   with Hot selling	China Standard CHINAMFG Freight Electric Motor 1.5 HP Electric Motor 380V 50Hz 1500rpm   with Hot selling
editor by CX 2023-12-12

China wholesaler 10 hp 15 hp single phase electric motor 1500 rpm electric motor 110v 15kw electric motors with Free Design Custom

Warranty: 3months-1year, 2 YEARS
Model Number: AC electric fan motor
Type: Asynchronous Motor
Frequency: 50HZ/60HZ
Phase: Single-phase
Protect Feature: Other
AC Voltage: 220V/230V/240V/120V/110V
Efficiency: IE 2
Product Name: Refrigerator fan motor
Used for: Home Appliance
Lead time: 30 days after payment
Speed: 1500~2000 RPM
Rated Voltage: 115V,230V
Mounting: FREE STHangZhouRD
Protection class: B,F
Certification: CCC, ce, RoHS
Packaging Details: 25pcs per carton carton size: 48*39*16.5cm N.W/G.W:20/21kg
Port: HangZhou/ZheJiang

10 hp 15 hp single phase electric motor 1500 rpm electric motor 110v 15kw electric motors

ApplicationSpeedNumber of StatorIndustrial,Air conditioner , home appliances ,etcAs requirementsSingle-Phase,three phase, AC/DC/ECFunctionWire MaterialTrademarkDriving, ControlCopperLONGWELL OR CUSTOMER BRANDSpecificationOriginHS CodeCE, ROHS, TUV, SGS, CCCChina841595710 Shaded pole CZPT AC motors have a low starting torque that provides a smooth and quiet start up while being more economical than other types of replacement motors used in blower applications such as bathroom fans and range hoods. Shaded pole room air conditioner AC motors have a low starting torque that provides a smooth and quiet startup while being more economical than other types of replacement motors used to power fans in air conditioning equipment. Permanent split capacitor (PSC) air conditioner AC motors provide powerful, smooth, and softer startups for use with fans and blowers that must gradually come up to speed after start up. They have a capacitor that decreases the amount of power consumed for a given load.

How to Assemble a Planetary Motor

A Planetary Motor uses multiple planetary surfaces to produce torque and rotational speed. The planetary system allows for a wide range of gear reductions. Planetary systems are particularly effective in applications where higher torques and torque density are needed. As such, they are a popular choice for electric vehicles and other applications where high-speed mobility is required. Nevertheless, there are many benefits associated with using a planetary motor. Read on to learn more about these motors.


If you’re looking to replace the original VP, the VPLite has a similar output shaft as the original. This means that you can mix and match your original gear sets, including the input and output shafts. You can even mix metal inputs with plastic outputs. Moreover, if you decide to replace the gearbox, you can easily disassemble the entire unit and replace it with a new one without losing any output torque.
Compared to a planetary motor, a spur gear motor uses fewer gears and is therefore cheaper to produce. However, the latter isn’t suitable for high-torque applications. The torque produced by a planetary gearmotor is evenly distributed, which makes it ideal for applications that require higher torque. However, you may have to compromise on the torque output if you’re looking for a lightweight option.
The VersaPlanetary Lite gearbox replaces the aluminum ring gear with a 30% glass-filled nylon gear. This gearbox is available in two sizes, which means you can mix and match parts to get a better gear ratio. The VPLite gearbox also has a female 5mm hex output shaft. You can mix and match different gearboxes and planetary gearboxes for maximum efficiency.


The VersaPlanetary is a highly versatile planetary motor that can be mounted in a variety of ways. Its unique design includes a removable shaft coupler system that makes it simple to swap out the motor with another. This planetary motor mounts in any position where a CIM motor mounts. Here’s how to assemble the motor. First, remove the hex output shaft from the VersaPlanetary output stage. Its single ring clip holds it in place. You can use a drill press to drill a hole into the output shaft.
After mounting the gearbox, you can then mount the motor. The mounting hardware included with the VersaPlanetary Planetary Motor comes with four 10-32 threaded holes on a two-inch bolt circle. You can use these holes to mount your VersaPlanetary on a CIM motor or a CIM-compatible motor. Once assembled, the VersaPlanetary gearbox has 72 different gear ratios.
The VersaPlanetary gearbox is interchangeable with regular planetary gearboxes. However, it does require additional parts. You can purchase a gearbox without the motor but you’ll need a pinion. The pinion attaches to the shaft of the motor. The gearbox is very sturdy and durable, so you won’t have to worry about it breaking or wearing out.

Self-centering planetary gears

A planetary motor is a simple mechanical device that rotates around a axis, with the planets moving around the shaft in a radial direction. The planets are positioned so that they mesh with both the sun gear and the output gears. The carrier 48 is flexibly connected to the drive shaft and can move depending on the forces exerted by the planet gears. In this way, the planets can always be in the optimal mesh with the output gears and sun gear.
The first step in developing a planetary gear motor is to identify the number of teeth in each planet. The number of teeth should be an integer. The tooth diameters of the planets should mesh with each other and the ring. Typically, the teeth of one planet must mesh with each other, but the spacing between them must be equal or greater than the other. This can be achieved by considering the tooth count of each planet, as well as the spacing between planets.
A second step is to align the planet gears with the output gears. In a planetary motor, self-centering planetary gears must be aligned with both input and output gears to provide maximum torque. For this to be possible, the planet gears must be connected with the output shaft and the input shaft. Similarly, the output shaft should also be able to align with the input gear.


A planetary geared motor is a DC motor with a planetary gearbox. The motor can be used to drive heavy loads and has a ratio of 104:1. The shaft speed is 116rpm when it is unloaded. A planetary gearbox has a low backlash and is often used in applications that need high torque. Planetary Motor encoders can help you keep track of your robot’s position or speed.
They are also able to control motor position and speed with precision. Most of them feature high resolution. A 0.18-degree resolution encoder will give you a minimum of 2000 transitions per rotation between outputs A and B. The encoder is built to industrial standards and has a sturdy gearbox to avoid damage. The encoder’s robust design means it will not stall when the motor reaches its maximum speed.
There are many advantages to a planetary motor encoder. A high-quality one will not lose its position or speed even if it’s subject to shocks. A good quality planetary motor will also last a long time. Planetary motors are great for resale or for your own project. If you’re considering buying a planetary motor, consider this information. It’ll help you decide if a particular model is right for your needs.


There are several advantages of planetary motors. One of the biggest is their cost, but they can also be used in many different applications. They can be combined with a variety of gearboxes, and are ideal for various types of robots, laboratory automation, and production applications. Planetary gearboxes are available in many different materials, and plastic planetary gearboxes are an economical alternative. Plastic gearboxes reduce noise at higher speeds, and steel input stage gears are available for high torques. A modified lubrication system can help with difficult operating conditions.
In addition to being more durable, planetary motors are much more efficient. They use fewer gears, which lowers the overall cost of production. Depending on the application, a planetary motor can be used to move a heavy object, but is generally less expensive than its counterpart. It is a better choice for situations where the load is relatively low and the motor is not used frequently. If you need a very high torque output, a planetary motor may be the better option.
Planetary gear units are a good choice for applications requiring high precision, high dynamics, and high torque density. They can be designed and built using TwinCAT and TC Motion Designer, and are delivered as complete motor and gear unit assemblies. In a few simple steps, you can calculate the torque required and compare the costs of different planetary gear units. You can then choose the best model for your application. And because planetary gear units are so efficient, they are a great option for high-end industrial applications.


There are several different applications of the planetary motor. One such application is in motion control. Planetary gearboxes have many benefits, including high torque, low backlash, and torsional stiffness. They also have an extremely compact design, and can be used for a variety of applications, from rack and pinion drives to delta robotics. In many cases, they are less expensive to manufacture and use than other types of motors.
Another application for planetary gear units is in rotary tables. These machines require high precision and low backlash for their precise positioning. Planetary gears are also necessary for noise reduction, which is a common feature in rotary tables. High precision planetary gears can make the height adjustment of OP tables a breeze. And because they are extremely durable and require low noise, they are a great choice for this application. In this case, the planetary gear is matched with an AM8000 series servomotor, which gives a wide range of choices.
The planetary gear transmission is also widely used in helicopters, automobiles, and marine applications. It is more advanced than a countershaft drive, and is capable of higher torque to weight ratios. Other advantages include its compact design and reduced noise. A key concern in the development of this type of transmission is to minimize vibration. If the output of a planetary gear transmission system is loud, the vibration caused by this type of drive system may be too loud for comfort.

China wholesaler 10 hp 15 hp single phase electric motor 1500 rpm electric motor 110v 15kw electric motors  with Free Design CustomChina wholesaler 10 hp 15 hp single phase electric motor 1500 rpm electric motor 110v 15kw electric motors  with Free Design Custom

China wholesaler Aluminum Three Phase Asynchronous Small Electric 0.5 HP Motor with high quality

Product Description

Aluminum 3 section asynchronous tiny electrical .5 hp motor



Q: What is your MOQ of this item?
A: 5PCS.
     For the initial time cooperation, we take trial sample get.
Q: What’s your payment terms?
A: thirty% T/T deposit, 70% stability prior to shipment or L/C at sight.
Q: What is actually the shipping time?

Two kinds of AC motors contain: Synchronous: The fact that a synchronous motor rotates at the same fee as the frequency of the mains present gives the motor its identify. A synchronous motor consists of a stator and a rotor. Synchronous motors have a wide variety of apps. Induction: Induction motors are the most basic and strongest motors offered. These AC motors consist of two electrical elements: a wound stator and rotor assembly. The recent required to switch the rotor is produced by the electromagnetic induction designed by the stator windings. Induction motors are one of the most commonly utilized varieties of motors in the globe.
Solitary-phase motors have a stator. They do not have the rotating magnetic subject characteristics of polyphase or polyphase motors. The magnetic field made by the stator windings is pulsating, not rotating. When the rotor is stationary, the expansion and contraction of the stator’s magnetic field generate an electrical existing in the rotor. The existing produces the rotor magnetic subject with the reverse polarity to the stator magnetic field. The opposite polarity applies rotational force to the upper and reduced areas of the rotor. Considering that this power passes via the heart of the rotor, it continues to be equal in every direction, retaining the rotor stationary. If the rotor starts to switch, it carries on to turn in the course it started out, simply because the rotor’s momentum produces a rotational drive in that course. Solitary-stage motors are utilised in lower-electricity purposes these kinds of as ceiling followers, mixer grinders, and family appliances such as transportable power tools.

China wholesaler Aluminum Three Phase Asynchronous Small Electric 0.5 HP Motor     with substantial good quality

China supplier 1200RPM 3 phase 20 hp ac induction electric motor near me supplier

Solution Description

Solution Description
1200RPM 3 phase twenty hp ac induction electric powered motor

These series motors have a lot of virtues, such as stunning profile, high effectiveness and energy preserving, course F insulated, the protecting class is IP55, minimal sounds, little vibration and managing efficiently.
Apps: Vitality saving programs the place steady of recurrent obligation is needed, this kind of as supporters, pumps,etc.

Terms of employing:
1, Altitude: up to 1000m
two, Ambient temperature: -fifteen~40°C
three, Operation obligation: S1
4, Rated Voltage 380V, Rated frequency 50HZ
5, Encloseure defense: IP55(IEC34-5)
6, CZPT strategy: IC411(IEC34-6)

Packaging And Shipping

Cartoon containers on EU pallet

Minimum Order Amount


Supply Time



Induction motors, also identified as asynchronous motors, use the electromagnetic induction generated by the magnetic area of the stator to generate recent in the rotor, thereby creating torque. These motors do not operate at a pace in sync with the existing, hence the title. They use the phenomenon of electromagnetic induction to transform electrical power into mechanical energy. Induction motor rotors are the most frequent type of AC motor discovered in pumps, compressors, and other devices of all varieties.
DC motors use vitality from batteries or other producing resources that provide a continual voltage. A DC motor is composed of a number of areas, the most well-known of which incorporate bearings, shafts, and gearboxes or gears. DC motors offer much better velocity variation and management and generate more torque than AC motors. The two varieties of DC motors contain Brushed motors: Brushed motors are one particular of the oldest varieties and are internally commutated motors driven by DC existing. A brushed motor consists of a rotor, brushes, and a shaft. The demand and polarity of the brushes management the path and velocity of the motor. Brushless Motors: In current years, brushless motors have become popular for a lot of applications, primarily due to the fact of their effectiveness. Brushless motors are constructed in the exact same way as brushed motors, minus the brushes of system. Brushless motors also include committed circuitry to manage velocity and course. In brushless motors, magnets are mounted around the rotor, an performance-boosting configuration.

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