Tag Archives: vibration motor

China supplier 220V 380V 415V 230V 660V Mining Industry Electric External Vibration Motor for Sale vacuum pump

Product Description

 

220V 380V 415V 230V 660V mining industry electric external vibration motor for sale

The CHINAMFG vibration motor is a vibration source that combines a power source and a vibration source. The vibration motor is equipped with a set of adjustable eccentric blocks installed at both ends of the rotor shaft, and utilizes the centrifugal force generated by the high-speed rotation of the shaft and eccentric blocks to excite the vibration force. The vibration motor has high utilization rate of excitation force, low energy consumption, low noise, and long service life.

MV series vibrator motors have been developed to be used on machines like screens, feeders, extractors, separators construction works and other applications like hoppers, compactors conveyor etc.

Semi-Automatic PET Bottle Blowing Machine Bottle Making Machine Bottle Moulding Machine PET Bottle Making Machine is suitable for producing PET plastic containers and bottles in all shapes.

Advantages

Advantages of the electric vibrator motor
1.light machine weigh ,small volume ,easy construction,convenient installation and repairment
2.stable frequency ,low noise vibrating generated by stationary revolution ,swift start ,stable stoping
3.full sealed construction ,applied in any working circumstance which has no explosion-proof requirement
4.exciting force can be adjusted infinitely.
5.Multi-aspect installation for single and multi machines.

Product Parameters

 

 

Type

 

Force

 

Power

 

Efficiency

 

Current

 

Weight

 

Size

 

KG

 

KN

 

KW

 

%

 

A

 

KG

 

MVE 60/3

 

71

 

0.7

 

0.03

 

46

 

0.16

 

4.2

 

SIZE 10

 

MVE 10/3

 

99

 

1

 

0.04

 

44

 

0.19

 

4.6

 

SIZE 10

 

MVE 200/3

 

198

 

2

 

0.09

 

60

 

0.35

 

6.8

 

SIZE 20

 

MVE 300/3

 

311

 

3

 

0.16

 

64

 

0.52

 

9.8

 

SIZE 30

 

MVE 400/3

 

400

 

4

 

0.2

 

74

 

0.58

 

10.3

 

SIZE30

 

MVE 500/3

 

516

 

5

 

0.37

 

77

 

0.96

 

15.3

 

SIZE 40

 

MVE 700/3

 

750

 

7

 

0.45

 

77

 

1.25

 

16.5

 

SIZE 40

 

MVE 800/3

 

788

 

8

 

0.55

 

79

 

1.45

 

20.6

 

SIZE 50

 

MVE 1200/3

 

1018

 

10

 

0.75

 

82

 

1.85

 

21.6

 

SIZE 50

 

MVE 1300/3

 

1386

 

13

 

1.1

 

76

 

2.44

 

24.5

 

SIZE 50

 

MVE 1600/3

 

1571

 

16

 

1.25

 

81

 

2.94

 

51.6

 

SIZE 60

 

MVE 1800/3

 

1848

 

18

 

1.5

 

81

 

3.75

 

52

 

SIZE 60

 

MVE 2000/3

 

2033

 

20

 

2

 

83

 

4.07

 

51.8

 

SIZE 60

 

MVE 2200/3

 

2206

 

22

 

2

 

83

 

4.07

 

52.8

 

SIZE 60

 

MVE 2300/3

 

2310

 

23

 

2

 

83

 

4.44

 

53.6

 

SIZE 60

 

MVE 3200/3

 

3250

 

32

 

2.2

 

76

 

5.3

 

96.6

 

SIZE 75

 

MVE 4000/3

 

4030

 

40

 

2.3

 

76

 

5.3

 

107

 

SIZE 75

 

MVE 5000/3

 

5070

 

50

 

3.5

 

83

 

7.22

 

111.2

 

SIZE 75

 

MVE 6500/3

 

6500

 

65

 

4.2

 

86

 

8.2

 

228.4

 

SIZE 85

 

MVE 9000/3

 

9030

 

90

 

7.2

 

72

 

17.8

 

240.3

 

SIZE 85

 

MVE 12000/3

 

12245

 

120

 

10

 

91

 

19.0

 

280.0

 

SIZE 90

 

Company Profile

 

  /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

After-sales Service: 12 Months
Warranty: 12 Months
Type: Motor
Application: Construction Machine
Certification: CE, ISO9001: 2000
Condition: New
Samples:
US$ 73/Piece
1 Piece(Min.Order)

|

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 supplier 220V 380V 415V 230V 660V Mining Industry Electric External Vibration Motor for Sale   vacuum pump	China supplier 220V 380V 415V 230V 660V Mining Industry Electric External Vibration Motor for Sale   vacuum pump
editor by CX 2024-05-14

China manufacturer Hot Sell Electric Vibrator Cement Silo Used Mve 0.3kn 1kn 5kn 10kn External Vibration Motor vacuum pump booster

Product Description

The CHINAMFG vibration motor is a vibration source that combines a power source and a vibration source. The vibration motor is equipped with a set of adjustable eccentric blocks installed at both ends of the rotor shaft, and utilizes the centrifugal force generated by the high-speed rotation of the shaft and eccentric blocks to excite the vibration force. The vibration motor has high utilization rate of excitation force, low energy consumption, low noise, and long service life.

MV series vibrator motors have been developed to be used on machines like screens, feeders, extractors, separators construction works and other applications like hoppers, compactors conveyor etc.

Semi-Automatic PET Bottle Blowing Machine Bottle Making Machine Bottle Moulding Machine PET Bottle Making Machine is suitable for producing PET plastic containers and bottles in all shapes.

Advantages

Advantages of the electric vibrator motor
1.light machine weigh ,small volume ,easy construction,convenient installation and repairment
2.stable frequency ,low noise vibrating generated by stationary revolution ,swift start ,stable stoping
3.full sealed construction ,applied in any working circumstance which has no explosion-proof requirement
4.exciting force can be adjusted infinitely.
5.Multi-aspect installation for single and multi machines.

Product Parameters

 

 

Type

 

Force

 

Power

 

Efficiency

 

Current

 

Weight

 

Size

 

KG

 

KN

 

KW

 

%

 

A

 

KG

 

MVE 60/3

 

71

 

0.7

 

0.03

 

46

 

0.16

 

4.2

 

SIZE 10

 

MVE 10/3

 

99

 

1

 

0.04

 

44

 

0.19

 

4.6

 

SIZE 10

 

MVE 200/3

 

198

 

2

 

0.09

 

60

 

0.35

 

6.8

 

SIZE 20

 

MVE 300/3

 

311

 

3

 

0.16

 

64

 

0.52

 

9.8

 

SIZE 30

 

MVE 400/3

 

400

 

4

 

0.2

 

74

 

0.58

 

10.3

 

SIZE30

 

MVE 500/3

 

516

 

5

 

0.37

 

77

 

0.96

 

15.3

 

SIZE 40

 

MVE 700/3

 

750

 

7

 

0.45

 

77

 

1.25

 

16.5

 

SIZE 40

 

MVE 800/3

 

788

 

8

 

0.55

 

79

 

1.45

 

20.6

 

SIZE 50

 

MVE 1200/3

 

1018

 

10

 

0.75

 

82

 

1.85

 

21.6

 

SIZE 50

 

MVE 1300/3

 

1386

 

13

 

1.1

 

76

 

2.44

 

24.5

 

SIZE 50

 

MVE 1600/3

 

1571

 

16

 

1.25

 

81

 

2.94

 

51.6

 

SIZE 60

 

MVE 1800/3

 

1848

 

18

 

1.5

 

81

 

3.75

 

52

 

SIZE 60

 

MVE 2000/3

 

2033

 

20

 

2

 

83

 

4.07

 

51.8

 

SIZE 60

 

MVE 2200/3

 

2206

 

22

 

2

 

83

 

4.07

 

52.8

 

SIZE 60

 

MVE 2300/3

 

2310

 

23

 

2

 

83

 

4.44

 

53.6

 

SIZE 60

 

MVE 3200/3

 

3250

 

32

 

2.2

 

76

 

5.3

 

96.6

 

SIZE 75

 

MVE 4000/3

 

4030

 

40

 

2.3

 

76

 

5.3

 

107

 

SIZE 75

 

MVE 5000/3

 

5070

 

50

 

3.5

 

83

 

7.22

 

111.2

 

SIZE 75

 

MVE 6500/3

 

6500

 

65

 

4.2

 

86

 

8.2

 

228.4

 

SIZE 85

 

MVE 9000/3

 

9030

 

90

 

7.2

 

72

 

17.8

 

240.3

 

SIZE 85

 

MVE 12000/3

 

12245

 

120

 

10

 

91

 

19.0

 

280.0

 

SIZE 90

 

Company Profile

 

  /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

After-sales Service: 12 Months
Warranty: 12 Months
Type: Motor
Application: Construction Machine
Certification: CE, ISO9001: 2000
Condition: New
Samples:
US$ 100/Piece
1 Piece(Min.Order)

|

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

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

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

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

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

electric motor

How do electric motors handle variations in load, speed, and torque?

Electric motors are designed to handle variations in load, speed, and torque through various control mechanisms and techniques. Here’s a detailed explanation of how electric motors handle these variations:

  1. Load Variations: Electric motors can handle variations in load by adjusting the amount of torque they produce. When the load on the motor increases, such as when additional resistance or weight is applied, the motor responds by increasing the torque output. This is achieved through the control of the motor’s input current or voltage. For example, in DC motors, increasing the current supplied to the motor can compensate for the increased load, ensuring that the motor can continue to operate at the desired speed.
  2. Speed Variations: Electric motors can handle variations in speed by adjusting the frequency of the power supply or by varying the voltage applied to the motor. In AC motors, the speed is determined by the frequency of the alternating current, so changing the frequency can alter the motor’s speed. In DC motors, the speed can be controlled by adjusting the voltage applied to the motor. This can be achieved using electronic speed controllers (ESCs) or by employing pulse width modulation (PWM) techniques to control the average voltage supplied to the motor.
  3. Torque Variations: Electric motors can handle variations in torque by adjusting the current flowing through the motor windings. The torque produced by a motor is directly proportional to the current flowing through the motor. By increasing or decreasing the current, the motor can adjust its torque output to match the requirements of the load. This can be accomplished through various control methods, such as using motor drives or controllers that regulate the current supplied to the motor based on the desired torque.
  4. Control Systems: Electric motors often incorporate control systems to handle variations in load, speed, and torque more precisely. These control systems can include feedback mechanisms, such as encoders or sensors, which provide information about the motor’s actual speed or position. The feedback signals are compared to the desired speed or position, and the control system adjusts the motor’s input parameters accordingly to maintain the desired performance. This closed-loop control allows electric motors to respond dynamically to changes in load, speed, and torque.

In summary, electric motors handle variations in load, speed, and torque through various control mechanisms. By adjusting the current, voltage, or frequency of the power supply, electric motors can accommodate changes in load and speed requirements. Additionally, control systems with feedback mechanisms enable precise regulation of motor performance, allowing the motor to respond dynamically to variations in load, speed, and torque. These control techniques ensure that electric motors can operate effectively across a range of operating conditions and adapt to the changing demands of the application.

China manufacturer Hot Sell Electric Vibrator Cement Silo Used Mve 0.3kn 1kn 5kn 10kn External Vibration Motor   vacuum pump booster	China manufacturer Hot Sell Electric Vibrator Cement Silo Used Mve 0.3kn 1kn 5kn 10kn External Vibration Motor   vacuum pump booster
editor by CX 2024-05-13

China manufacturer Factory Direct Sales Vibrtor Motor Yzs Series Electric Vibration Motor vacuum pump and compressor

Product Description

Product Description

YZS Vibration Motor

Applicable equipment: Vibrating screening equipment, vibrating conveyors, vibrating feeders, vibrating ore placing machines, vibrating drying equipment, vibrating shakeout machines, vibrating tables, silo vibration anti-blocking devices and other vibration machinery and equipment. Ideal power source and excitation source.

Product purpose and scope of use

YZS series vibration motor products are widely used in metallurgy, mining, coal, chemical industry, electric power, building materials, casting, abrasives, ceramics, glass, grain, food, medicine, light industry and other industries. They are suitable for vibrating screening equipment, vibrating conveyors, vibration It is an ideal power source and excitation source for various vibration mechanical equipment such as feeders, vibrating ore placing machines, vibrating drying equipment, vibrating shakeout machines, vibration tables, and silo vibration anti-blocking devices.
The altitude does not exceed 1000 meters, the ambient temperature does not exceed 40°C, and the relative humidity does not exceed 90% (the temperature does not exceed 25°C), otherwise the power should be reduced; the host excitation power and operating current do not exceed the nameplate values, otherwise they should be reduced Excitation force is used.
Application scope: Vibrating screening equipment, vibrating conveyors, vibrating feeders, vibrating ore placing machines, vibrating drying equipment, vibrating shakeout machines, vibration tables, silo vibration anti-blocking devices and other vibration machinery and equipment. Ideal power source and excitation source.
Product In Workshop Display
Manufacturing Process

Contact us for more information

Product Parameters

Structure and working principle

The vibration motor is composed of a special motor plus an excitation weight. When the motor is powered on and rotates, the excitation block generates excitation force, which transmits vertical and horizontal vibration to the machine through the motor feet or flange.
The special motor is composed of a special stator wire package and a rotor shaft, which can withstand high-frequency vibration; the vertical vibration motor uses 2 eccentric blocks as excitation blocks, 1 on each shaft end, the upper shaft end is a fixed eccentric block, and the lower shaft end is a fixed eccentric block. The shaft end is an adjustable eccentric block. A set of counterweight blocks are installed at the ends of the upper and lower eccentric blocks. By adjusting the number of counterweight blocks, the excitation force of the vibration motor can be adjusted in stages; the horizontal vibration motor uses 4 sector-shaped eccentric blocks as excitation blocks, and the adjustment can be performed at the same time. The angle between the 2 eccentric blocks at the shaft end can adjust the excitation force of the vibration motor from zero to maximum.

Specifications Rated excitation force (kN) Rated power
(kW)
Speed
(r.p.m)
Installation size (mm) Dimensions (mm) Weight
(kg)
A B K G AB BB H HD L
YZS-1.5-2 1.5 0.12 3000 130 80 12 19 170 118 80 200 245 13
YZS-2.5-2 2.5 0.22 130 80 12 19 170 118 80 200 245 13
YZS-3-2 3 0.25 150 90 14 21 185 124 90 220 270 18
YZS-5-2 5 0.37 150 90 14 21 185 124 90 220 270 19
YZS-10-2 10 0.75 180 110 18 27 225 155 112 238 330 30.5
YZS-15-2 15 1.1 220 140 22 32 272 190 125 265 385 47
YZS-20-2 20 1.5 260 150 26 42 344 234 140 320 452 91
YZS-30-2 30 2.2 310 170 33 57 400 270 170 365 505 125
YZS-1.0-4 1 0.09 1500 130 80 12 19 170 118 80 200 245 13
YZS-1.5-4 1.5 0.12 130 80 12 19 170 118 80 200 245 13
YZS-3-4 3 0.18 150 90 14 21 185 124 90 220 270 20
YZS-5-4 5 0.25 180 110 18 27 225 155 112 238 335 32
YZS-10-4 10 0.55 220 140 22 32 272 190 125 265 385 50
YZS-15-4 15 0.75 260 150 26 42 344 234 140 320 452 92
YZS-20-4 20 1.1 260 150 26 42 344 234 140 320 452 93
YZS-30-4 30 1.5 310 170 33 57 400 270 170 365 505 117
YZS-50-4 50 2.2 350 220 39 52 450 313 200 425 600 213
YZS-75-4 75 3.7 380 250 45 67 480 350 220 465 670 348
YZS-100-4 100 6.3 440 140 45 65 530 435 240 520 750 432
YZS-3-6 3 0.25 1000 180 110 18 27 225 155 112 238 335 35
YZS-5-6 5 0.37 220 140 22 32 272 190 125 265 385 51
YZS-10-6 10 0.75 260 150 26 42 344 234 140 320 452 98
YZS-15-6 15 1.1 310 170 33 57 400 270 170 365 505 129
YZS-20-6 20 1.5 310 170 33 57 400 270 170 365 505 130
YZS-30-6 30 2.2 350 220 39 52 450 313 200 425 600 235
YZS-50-6 50 3.7 380 250 45 67 480 350 220 465 670 350
YZS-75-6 75 5.5 440 280 52 47 570 410 240 500 730 435
YZS-100-6 100 7.5 440 140 45 65 570 420 260 580 850  
YZS-10-8 10 0.75 750 310 170 33 57 400 270 170 365 505 143
YZS-20-8 20 1.5 350 220 39 52 450 313 200 425 600 242
YZS-30-8 30 2.2 380 250 45 67 480 350 220 465 670 354
YZS-50-8 50 3.7 440 280 52 47 570 410 240 500 730 436
YZS-75-8 75 5.5 440 140 45 65 570 420 260 580 850  

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Certifications

The company has passed the ISO9001:2008, CE, BV certification.

Company Profile

HangZhou Gaofu Machinery Co., LTD was founded in 1982, the company made shareholding reform in 2015,and was listed on the New OTC (stock code: 836946)on March 25, 2016.The company covers an area of 60,000 square meters, and a building area of 46,000 square meters,registered capital of Chinese Yuan 51.46 million and 400 employees.

In 2017, the company brand”GAOFU “is identifed as”China CHINAMFG trademark”by the Trademark Offce of The State Administration For Industry and Commerce. Gaofu company also owns three”ZheJiang Province Famous Trademark”, is a provincial “High Technology Expertise”,”ZheJiang Technical Small and Medium Enterprises”,”Enterprise of Observing Contract and Value Credit”. The company has science and technology achievement award issued by the Ministry of Industry and Information Technology of The Republic of China, and hundreds of various patents.
Gaofu has”China CHINAMFG trademark”,”high-tech enterprise”,and hundreds of technological innovation, the products are sold well in the greater China region, exported to Germany, Japan, Canada, the United States and other 128 countries and regions

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Our Team & Service

Basis service

    1.Your sample material can be free analysis in our laboratory.

    2.24 hours a week online & quick response within 12 hours.

    3.Booking hotel and ticket for customers and Free transportation during visit our factory.

    4. Production lead time and delivery time guaranteed.

Customized services

    1.Professional R & D team to develop the new products as you requirements.

    2.Help high-end customers to develop the local market

    3.All packing and shipping can customized as per your requirements.

After-sale services

 After customers received the goods,if have any questions or quality problems, Our customer service Dept. will be always available.Our customers came from different countries every year.

Click Here to Fill Out Your Inquiry in The Text Box to Get The Latest Quotation

FAQ

1. who are we?

We are based in ZheJiang , China, start from 2000,sell to Southeast Asia(40.00%),Domestic Market(27.00%),South America(10.00%),Eastern Europe(8.00%),Oceania(3.00%),North America(2.00%),Western Europe(2.00%),Africa(2.00%),South Asia(1.00%),Eastern Asia(1.00%),Southern Europe(1.00%),Central America(1.00%),Northern Europe(1.00%),Mid East(1.00%). There are total about 301-500 people in our office.

2. how can we guarantee quality?
Always a pre-production sample before mass production;
Always final Inspection before shipment;

3.what can you buy from us?
Vibrating Screen Equipment, Crusher, Conveying Equipment, Mixer, Food Feeding And Screening System

4. why should you buy from us not from other suppliers?
Gaofu company founded in 1982, 20 years screening experience, the company covers an area of 50800 square meters.we posses the independent management right of importing and exporting, our products are spread all over the country, sold in faraway market area

5. what services can we provide?
Accepted Delivery Terms: FOB,CFR,CIF,EXW,FAS,CIP,FCA;
Accepted Payment Currency:USD,EUR,CNY;
Accepted Payment Type: T/T,L/C;
Language Spoken:English,Chinese

Contact Us

Tell me the following questions, Then I can send you accurate quotation soon, including additional discount!

Your email addressand telephone will not be shared or published!
1. Power : _____kw,_____rpm,
2. Voltage:______V, Frequency:______HZ, 3phase
3.What material the vibration motor apply to ____.

You can copy the above options and click here to select your specific requirements for the
product to send to us

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Power Source: Vibration Motor
Starting Mode: Other
Speed: as Per Model
Samples:
US$ 600/Piece
1 Piece(Min.Order)

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Customization:
Available

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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

What safety precautions should be followed when working with electric motors?

Working with electric motors requires adherence to specific safety precautions to ensure the well-being of individuals and prevent accidents. Electric motors involve electrical hazards that can cause electric shock, burns, or other injuries if proper safety measures are not followed. Here’s a detailed explanation of the safety precautions that should be followed when working with electric motors:

  1. Qualified Personnel: It is important to assign work on electric motors to qualified personnel who have the necessary knowledge, training, and experience in electrical systems and motor operation. Qualified electricians or technicians should handle installation, maintenance, and repairs involving electric motors.
  2. De-Energization and Lockout/Tagout: Before performing any work on electric motors, they should be de-energized, and appropriate lockout/tagout procedures should be followed. This involves isolating the motor from the power source, ensuring that it cannot be energized accidentally. Lockout/tagout procedures help prevent unexpected startup and protect workers from electrical hazards.
  3. Personal Protective Equipment (PPE): When working with electric motors, appropriate personal protective equipment should be worn. This may include insulated gloves, safety glasses, protective clothing, and footwear with electrical insulation. PPE helps protect against potential electrical shocks, burns, and other physical hazards.
  4. Inspection and Maintenance: Regular inspection and maintenance of electric motors are essential to identify potential issues or defects that could compromise safety. This includes checking for loose connections, damaged insulation, worn-out components, or overheating. Any defects or abnormalities should be addressed promptly by qualified personnel.
  5. Proper Grounding: Electric motors should be properly grounded to prevent electrical shock hazards. Grounding ensures that any fault currents are redirected safely to the ground, reducing the risk of electric shock to individuals working on or around the motor.
  6. Avoiding Wet Conditions: Electric motors should not be operated or worked on in wet or damp conditions unless they are specifically designed for such environments. Water or moisture increases the risk of electrical shock. If working in wet conditions is necessary, appropriate safety measures and equipment, such as waterproof PPE, should be used.
  7. Safe Electrical Connections: When connecting or disconnecting electric motors, proper electrical connections should be made. This includes ensuring that power is completely switched off, using appropriate tools and techniques for making connections, and tightening electrical terminals securely. Loose or faulty connections can lead to electrical hazards, overheating, or equipment failure.
  8. Awareness of Capacitors: Some electric motors contain capacitors that store electrical energy even when the motor is de-energized. These capacitors can discharge unexpectedly and cause electric shock. Therefore, it is important to discharge capacitors safely before working on the motor and to be cautious of potential residual energy even after de-energization.
  9. Training and Knowledge: Individuals working with electric motors should receive proper training and have a good understanding of electrical safety practices and procedures. They should be knowledgeable about the potential hazards associated with electric motors and know how to respond to emergencies, such as electrical shocks or fires.
  10. Adherence to Regulations and Standards: Safety precautions should align with relevant regulations, codes, and standards specific to electrical work and motor operation. These may include local electrical codes, occupational safety guidelines, and industry-specific standards. Compliance with these regulations helps ensure a safe working environment.

It is crucial to prioritize safety when working with electric motors. Following these safety precautions, along with any additional guidelines provided by equipment manufacturers or local regulations, helps minimize the risk of electrical accidents, injuries, and property damage. Regular training, awareness, and a safety-focused mindset contribute to a safer working environment when dealing with electric motors.

electric motor

What industries and applications commonly use electric motors?

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

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

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

China manufacturer Factory Direct Sales Vibrtor Motor Yzs Series Electric Vibration Motor   vacuum pump and compressor	China manufacturer Factory Direct Sales Vibrtor Motor Yzs Series Electric Vibration Motor   vacuum pump and compressor
editor by CX 2024-04-26

China best Tianfeng Top Three Phase Induction AC Electric Vibration Motor vacuum pump electric

Product Description

 

Product Description

High Frequency Three Phase Induction AC Electric Vibration Motor

Product classification: accessories series

YZO vibration motor is an exciting source that combines power source and vibration source. A group of adjustable eccentric blocks are installed at both ends of the rotor shaft, and the exciting force is obtained by using the centrifugal force generated by the high-speed rotation of the shaft and eccentric block.
 

Product introduction

YZO vibration motor is an exciting source integrating power source and vibration source. A group of adjustable eccentric blocks are installed at both ends of the rotor shaft to obtain the exciting force by using the centrifugal force generated by the high-speed rotation of the shaft and eccentric block.
YZO vibration motor has high utilization rate of exciting force, low energy consumption, low noise and long service life. The exciting force of the vibration motor can be adjusted steplessly, which is convenient to use. It can be applied to general vibration machinery, such as: vibration crusher, vibration screening machine, vibration packer, vibration molding machine, vibration pile driver, vibration elevator, vibration filling machine, vibration CHINAMFG breaking anti blocking device of silo, etc.

Features of YZO Series Vibration Motor

1. The vibrating force and output are properly matched, the exciting force is large, the body weight is light, and the mechanical noise is low.
2. Strong resistance vibration with stable amplitude is adopted.
3. The exciting force is less affected by the fluctuation of power supply and voltage.
4. Closed design, can work in the environment without explosion-proof requirements.
5. The direction of exciting force can be changed according to the installation mode of vibration motor.
6. The exciting force and amplitude can be adjusted steplessly by adjusting the included angle of the eccentric block.

Installation Drawing of YZO Series Vibration Motor

JZO/YZO series vibration motor

Model Exciting force
(N)
Power
(Kw)
Current
(A)
Main structural dimensions(mm) Weight
(kg)
A B H K AB BB HD G L
YZ O-1.5-2 1.5 0.15 0.38 180 124 82 10 220 155 205 25 300 19
YZ O-2.5-2 2.5 0.25 0.58 180 150 82 12 220 180 200 25 330 24
YZ O-5-2 5 0.4 1.15 220 176 91 14 280 210 220 35 365 37
YZ O-8-2 8 0.75 1.84 236 180 142 18 295 250 305 30 430 53
YZ O-16-2 16 1.5 3.48 236 200 142 18 295 270 305 30 470 75
YZ O-2.5-4 2.5 0.25 0.58 180 150 82 12 220 180 200 25 330 27
YZ O-5-4 5 0.4 1.15 220 176 91 14 280 210 220 35 390 43
YZ O-8-4 8 0.75 1.84 236 180 142 18 295 250 305 30 440 61
YZ O-10-4 10 1 2.3 236 180 142 18 295 250 305 30 440 75
YZ O-16-4 16 1.5 3.48 270 224 163 20 330 300 365 30 538 107
YZ O-17-4 17 0.75 1.8 260 150 140 27 350 240 320 42 455 78
YZ O-20-4 20 2 4.1 270 224 163 20 330 300 370 30 550 135
YZ O-30-4 30 2.5 5.75 326 184 195 30 405 315 425 35 560 168
YZ O-50-4 50 3.7 7.4 326 184 195 30 405 315 425 35 560 180
YZ O-75-4 75 5.5 11 440 248 240 36 540 400 515 37 670 350
YZ O-5-6 5 0.4 1.15 220 176 91 14 280 216 220 35 390 48
YZ O-8-6 8 0.75 1.84 236 180 142 18 295 250 305 30 495 65
YZ O-10-6 10 1 2.3 236 180 142 18 295 250 305 30 495 80
YZ O-12-6 12 1 2.1 260 150 140 27 350 240 320 42 455 82
YZ O-20-6 20 2 4.1 270 224 163 20 330 300 370 30 550 142
YZ O-30-6 30 2.5 5.75 326 184 195 30 405 315 425 35 560 180
YZ O-50-6 50 3.7 7.4 326 184 195 30 405 315 425 35 560 200
YZ O-75-6 75 5.5 11 440 248 240 36 540 400 515 37 670 370
Note: The vibrating motor is used in the environment below 1000 CHINAMFG above sea level

Applicable industries

       Chemical industry: resin powder, pigment, washing powder, micro powder, paint, soda ash, lemon powder, rubber, plastic, etc.
       Abrasives, ceramic industry: alumina, quartz sand, mud, sprayed soil particles, etc.
       Food industry: sugar, salt, alkali, monosodium glutamate, milk powder, soy milk, yeast, fruit juice, soy sauce, vinegar, etc.
       Paper industry: coating paint, clay mud, black and white liquid, waste liquid, papermaking liquid, wastewater recycling, etc.
       Metallurgical industry: titanium oxide, zinc oxide, electromagnetic materials, metal powder, electrode powder, etc.
       Pharmaceutical industry: Chinese medicine powder, Chinese medicine liquid, Western medicine powder, Western medicine liquid, Chinese and Western medicine granules, etc.
       Environmental protection: garbage, human and animal excrement, urine, waste oil, food wastewater, wastewater processing, etc.

 

Product process

 

Production workshop

  PACKAGING AND SHIPPING 

After you place the order and pay the deposit, we will start to arrange the production and contact the CHINAMFG freight transportation agency to reserve the position. Two days before the end of production, you need to complete the final payment. Then, we inform the CHINAMFG cargo transportation agent company that it is ready to come to the factory to pull the goods to the port. On the day of delivery, we will send the customer the factory video and pictures, and mark the corresponding English name of each product and product parts with a marker to prevent the customer from not knowing what each part is after receiving the goods. At the same time, we will put the English version of the product instructions in the cargo box. We generally select freight forwarders with preferential prices for customers to deliver goods for you. The shipping method can be FOB or CIF. You can also choose EXW, and then contact the goods agent company yourself.

Customer visits

Company profile

Certifications

FAQ

1. Who are we?
Our headquarters is located in ZheJiang , China, and our factory was established in 2002. At present, there are more than 100 workers, technical engineers, foreign trade sales personnel, and administrative personnel. The factory covers an area of more than 2000 square kilometers and is mainly engaged in vibrating screening and conveying and feeding equipment.

2. How do we guarantee the quality?

Always provide pre-production samples before mass production; Always carry out a final inspection before shipment.
3. What can you buy from us?

You can purchase a vibrating screen, roller screens, rotary screens, vacuum conveyors, mixers, and customized vibrating machinery and conveying equipment in our factory.

4. What are our strengths?

As 1 of the old enterprises in the screening industry, Tianfeng has provided many screening equipment and systems at home and abroad. Mass production, rapid delivery, stable quality, affordable price, and excellent after-sales service have become the symbols of Tianfeng.

5. What services can we provide?

Accepted delivery conditions: FOB, CFR, CIF, EXW, CIP, FCA, CPT, DDP, express;
Accepted payment currency: USD, EUR, RMB;
Type of payment accepted: telegraphic transfer, letter of credit, express remittance, credit card, PayPal, Western Union remittance, cash, custody;
Oral: English, Chinese, French.

6. What information do we need to help you choose a perfect machine?

-Name and characteristics of raw materials.
-Purpose of use: remove impurities, filter, and grade.
-Processing capacity: kg/h, L/h.
-Raw material size: (mesh or mm).
-How many floors do you need?
-Voltage, frequency, phase (single-phase or three-phase) Note: You’d better send us the relevant pictures or materials you want to filter, which can ensure that we recommend the appropriate machine for you.
 

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Industrial
Speed: High Speed
Number of Stator: Three-Phase
Function: Driving
Casing Protection: Explosion-Proof Type
Number of Poles: 2
Customization:
Available

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electric motor

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

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

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

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

electric motor

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 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 best Tianfeng Top Three Phase Induction AC Electric Vibration Motor   vacuum pump electricChina best Tianfeng Top Three Phase Induction AC Electric Vibration Motor   vacuum pump electric
editor by CX 2024-04-25

China OEM High Speed 612 Electric Vibration Coreless Brush DC Micro Motor with Good quality

Product Description

 

6B Series  φ6mm x L12.2   Precious Metal Brushes  

Motor Paramter Motor Model
Values at nominal voltage 6B3-
5711
6B1NA-57111 6B3NA-5711    
  1 Rated voltage V 1.3 2.4 3.7    
Free Load 2 No load speed rpm 13500 33000 34400    
3 No load current mA 18 35 159    
At Max. Efficiency 4 Max. efficiency % 42.92% 43.60% 48.83%    
5 Speed rpm 9960 24706 26483    
6 Current mA 51 103.7 98.3    
7 Torque g.cm 0.28 0.66 0.65    
At Max. Output 8 Max. output W 0.04 0.17 0.18    
9 Speed rpm 6699 16545 17230    
10 Current mA 82.7 170 178    
11 Torque g.cm 0.54 1.3 1.4    
At Stall 12 Stall current A 0.15 0.3 0.32    
13 Stall torque g.cm 1.08 2.61 2.82    
Motor Constants
  14 Teminal resistance Ω 7.8 6.9 10.8    
  15 Torque constant g.cm/A 8.337 9.639 9.514    
  16 Speed  constant rpm/V 11704 10112 15713    
  17 Speed/Torque constant rpm/g.cm 12348.6 12692.5 12210.8    

Motor Characteristic Typical Performance
Thermal parameters  

18 Ambient temperature -20~+65 ºC
19 Max. permissible winding temperature                                 85 ºC
Mechanical parameters
20 Max. penmissible No-load speed 55000 rpm
21 Max. axial load(dynamic) 0.15 N
Other parameters
22 Number of pole pairs 1  
23 Number of commutator segments 3~5  
24 Weight 1.4 g
Remarks  
1 Rotation direction, wire specification and performance parameters can be
made according to customer’s requirement.
2 Motor can be mounted with various shapes and sizes of eccentric weight which
is made of iron, brass or ferro-alloy to become vibration motor.
3 Dimension with “*” in the drawing can be adjusted according to customer’s requirement.
       1g=0.035oz    1inch=25.4mm    1g.cm=0.098mN.m     1oz=28.35g     1mm=0. 0571 inch     1mN.m=10.2g.cm

Company & Factory

 

 

 
     
     

Appliance
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Application: Automation Equipment, Moving Machinery, Wearable Device, Electrical Shavers
Operating Speed: High Speed
Power Source: DC Motor
Samples:
US$ 0/Piece
1 Piece(Min.Order)

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about shipping cost and estimated delivery time.
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Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

electric motor

Can electric motors be adapted for use in both residential and industrial settings?

Yes, electric motors can be adapted for use in both residential and industrial settings. Their versatility, efficiency, and wide range of power options make them suitable for various applications in both environments. Here’s a detailed explanation of how electric motors can be adapted for use in residential and industrial settings:

  1. Residential Applications: Electric motors find numerous applications in residential settings, where their compact size, quiet operation, and energy efficiency are highly valued. Some common residential uses of electric motors include:
    • Home Appliances: Electric motors power a wide range of home appliances such as refrigerators, washing machines, dishwashers, vacuum cleaners, fans, and air conditioners. These motors are designed to provide efficient and reliable operation while minimizing noise and energy consumption.
    • Garage Door Openers: Electric motors are commonly used in residential garage door openers, providing convenient and automated access to the garage.
    • HVAC Systems: Electric motors drive the fans and compressors in heating, ventilation, and air conditioning (HVAC) systems, contributing to efficient climate control and indoor comfort.
    • Pool Pumps: Electric motors power pool pumps, circulating water and maintaining water quality in residential swimming pools.
    • Power Tools: Electric motors are integral components of various power tools used in residential settings, including drills, saws, and trimmers.
  2. Industrial Applications: Electric motors are extensively used in industrial settings due to their reliability, controllability, and adaptability to various industrial processes. Some common industrial applications of electric motors include:
    • Manufacturing Machinery: Electric motors drive a wide range of manufacturing machinery, including conveyor systems, pumps, compressors, mixers, and agitators. These motors are capable of providing precise speed and torque control, enhancing productivity and process efficiency.
    • Industrial Fans and Blowers: Electric motors power fans and blowers for ventilation, cooling, and air circulation in industrial facilities, contributing to a comfortable and safe working environment.
    • Machine Tools: Electric motors drive machine tools such as lathes, milling machines, and grinders, enabling precision machining operations in industrial manufacturing processes.
    • Material Handling Equipment: Electric motors are widely used in material handling equipment such as forklifts, conveyor systems, and hoists, facilitating efficient movement and transportation of goods within industrial facilities.
    • Pumps and Compressors: Electric motors power pumps and compressors in industrial applications, such as water supply systems, HVAC systems, and pneumatic systems.
  3. Adaptability and Customization: Electric motors can be adapted and customized to meet specific requirements in both residential and industrial settings. They are available in a wide range of sizes, power ratings, and configurations to accommodate diverse applications. Motors can be designed for different voltages, frequencies, and environmental conditions, allowing for seamless integration into various systems and equipment. Additionally, advancements in motor control technologies, such as variable frequency drives (VFDs), enable precise speed and torque control, making electric motors highly versatile and adaptable to different operational needs.
  4. Energy Efficiency and Environmental Benefits: The use of electric motors in both residential and industrial settings offers significant energy efficiency advantages. Electric motors have higher efficiency compared to other types of motors, resulting in reduced energy consumption and operational costs. Furthermore, electric motors produce zero direct emissions at the point of use, contributing to a cleaner and more sustainable environment. In residential settings, energy-efficient electric motors in appliances and HVAC systems help homeowners reduce their energy bills and minimize their carbon footprint. In industrial applications, the adoption of electric motors supports energy conservation initiatives and aligns with sustainability goals.

In summary, electric motors are adaptable for use in both residential and industrial settings. Their compact size, energy efficiency, controllability, and versatility make them suitable for a wide range of applications, from home appliances and garage door openers to manufacturing machinery and material handling equipment. The use of electric motors brings benefits such as improved energy efficiency, reduced emissions, quieter operation, and enhanced control, contributing to the efficiency and sustainability of residential and industrial operations.

electric motor

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

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

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

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

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

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

electric motor

Can you explain the basic principles of electric motor operation?

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

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

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

China OEM High Speed 612 Electric Vibration Coreless Brush DC Micro Motor   with Good quality China OEM High Speed 612 Electric Vibration Coreless Brush DC Micro Motor   with Good quality
editor by CX 2024-04-22

China Standard 100W-3700W High Power Low Noise Low Vibration Horizontal Mounted Three Phase Small AC Electric Gear Motor for Thailand Vietnam Equipment CHINAMFG CH CV Type wholesaler

Product Description

Taibang gear motor is ideal drive for all kinds of industrial automation products for both industrial and commercial application.
What you can be provided by us is steady quality products(quite and efficient performance gear motor) and engineering solution.

The main products is induction motor, reversible motor, DC brush gear motor, DC brushless gear motor, CH/CV medium gear motors, Planetary gear motor,Worm gear motor,Right angle CHINAMFG and hollow shaft gear motor, etc, which used widely in various fields of manufacturing pipelining, transportation, food, medicine, printing, fabric, packing, office, apparatus, entertainment etc, and is the preferred and matched product for automatic machine. 
Motor Model Instruction
 

Frame Type Output Shaft Diameter Power Gear Ratio Motor Type
CH:Horizontal
CV:Vertical
18,22,28,32,40,50 1/8HP=0.1KW
1/4HP=0.2KW
1/2HP=0.4KW
1HP=0.75KW
2HP=1500W
3HP=2200W
5HP=3700W
15 means 1:15 A:Single Phase
S:Three Phase
L:DC motor

Motor Specification
 

  Three Phase Gear Motor Single Phase Gear Motor
Gear Motor Gear All internal gears are made of high precision special alloy steel and treated by carburzing and quenching
Gearbox Material Aluminum alloy die casting(Shaft diameter 18,22,28)           Iron casting(Shaft diameter 32,40,50)
Lubricating Oil The body is added with advanced lubricating oil before delivery.And no need to lubricate for maintenance
Motor Power 220/380V 110/220V
Frequency 50/60Hz
Cooling Method Fully closed external fan
Starting Mode Direct-on-line starting Capacitor starting
Housing Material Advanced aluminum alloy
Insulation Grade B grade
Protection Grade Aluminum housing junction box IP54,Iron junction box IP20
Brake Action Mode No exciting brake(Power off brake)
Voltage DC90-110V,with rectifier AC110V/220V
Enviroment Temperature -10ºC~40ºC
  Humidity Below 90%(noncondensing)
  Use Occasion Indoor,Below 1000 metres

Should you any questions,please feel free to contact Ms Susan Liu directly.
Please leave me message or send me inquiry.I will be back to you asap.
  /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Feeding Machine/Conveyor/Crop Grain Elevator
Speed: Constant Speed
Number of Stator: Three-Phase
Function: Driving, Control
Number of Poles: 4
Starting Mode: Direct on-line Starting
Samples:
US$ 999/Piece
1 Piece(Min.Order)

|

Customization:
Available

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electric motor

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

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

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

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

electric motor

How do electric motors handle variations in voltage and frequency?

Electric motors are designed to handle variations in voltage and frequency to ensure proper operation and performance. The ability of electric motors to adapt to different voltage and frequency conditions depends on their design characteristics and the presence of additional control devices. Here’s a detailed explanation of how electric motors handle variations in voltage and frequency:

  1. Voltage Variations: Electric motors can handle certain variations in voltage without significant issues. The motor’s design factors in a voltage tolerance range to accommodate fluctuations in the power supply. However, excessive voltage variations beyond the motor’s tolerance can affect its performance and lead to problems such as overheating, increased energy consumption, and premature failure. To mitigate the impact of voltage variations, electric motors may incorporate the following features:
    • Voltage Regulation: Some electric motors, especially those used in industrial applications, may include voltage regulation mechanisms. These mechanisms help stabilize the motor’s voltage, compensating for slight voltage fluctuations and maintaining a relatively steady supply.
    • Voltage Protection Devices: Motor control circuits often incorporate protective devices such as voltage surge suppressors and voltage regulators. These devices help prevent voltage spikes and transient voltage variations from reaching the motor, safeguarding it against potential damage.
    • Voltage Monitoring: In certain applications, voltage monitoring systems may be employed to continuously monitor the motor’s supply voltage. If voltage variations exceed acceptable limits, the monitoring system can trigger alarms or take corrective actions, such as shutting down the motor to prevent damage.
  2. Frequency Variations: Electric motors are designed to operate at a specific frequency, typically 50 or 60 Hz, depending on the region. However, variations in the power system frequency can occur due to factors such as grid conditions or the use of frequency converters. Electric motors handle frequency variations in the following ways:
    • Constant Speed Motors: Most standard electric motors are designed for operation at a fixed speed corresponding to the rated frequency. When the frequency deviates from the rated value, the motor’s rotational speed changes proportionally. This can affect the motor’s performance, especially in applications where precise speed control is required.
    • Variable Frequency Drives (VFDs): Variable frequency drives are electronic devices that control the speed of an electric motor by varying the supplied frequency and voltage. VFDs allow electric motors to operate at different speeds and handle frequency variations effectively. By adjusting the frequency and voltage output, VFDs enable precise control of motor speed and torque, making them ideal for applications where speed control and energy efficiency are critical.
    • Inverter Duty Motors: Inverter duty motors are specifically designed to handle the frequency variations encountered when operated with VFDs. These motors feature improved insulation systems and robust designs to withstand the harmonic distortions and voltage spikes associated with VFD operation.
  3. Motor Protection: Electric motors may incorporate protective features to safeguard against adverse effects caused by voltage and frequency variations. These protection mechanisms include:
    • Thermal Protection: Motors often include built-in thermal protection devices such as thermal switches or sensors. These devices monitor the motor’s temperature and can automatically shut it down if it exceeds safe limits due to voltage or frequency variations that lead to excessive heating.
    • Overload Protection: Overload protection devices, such as overload relays, are employed to detect excessive currents drawn by the motor. If voltage or frequency variations cause the motor to draw abnormal currents, the overload protection device can interrupt the power supply to prevent damage.
    • Voltage/Frequency Monitoring: Advanced motor control systems may incorporate voltage and frequency monitoring capabilities. These systems continuously measure and analyze the motor’s supply voltage and frequency, providing real-time feedback on any deviations. If voltage or frequency variations exceed predetermined thresholds, the monitoring system can activate protective actions or trigger alarms for further investigation.

In summary, electric motors handle variations in voltage and frequency through design considerations, additional control devices, and protective mechanisms. Voltage variations are managed through voltage regulation, protective devices, and monitoring systems. Frequency variations can be accommodated by using variable frequency drives (VFDs) or employing inverter duty motors. Motor protection features, such as thermal protection and overload relays, help safeguard the motor against adverse effects caused by voltage and frequency variations. These measures ensure the reliable and efficient operation of electric motors under different voltage and frequency conditions.

electric motor

What industries and applications commonly use electric motors?

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

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

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

China Standard 100W-3700W High Power Low Noise Low Vibration Horizontal Mounted Three Phase Small AC Electric Gear Motor for Thailand Vietnam Equipment CHINAMFG CH CV Type   wholesaler China Standard 100W-3700W High Power Low Noise Low Vibration Horizontal Mounted Three Phase Small AC Electric Gear Motor for Thailand Vietnam Equipment CHINAMFG CH CV Type   wholesaler
editor by CX 2024-04-04

China best Vibrator Motor 1.5kw 2.2kw 3kw 2HP 3HP 4HP 110V 220V 60Hz Industrial Vibration Motor near me manufacturer

Merchandise Description

Solution Description
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Electrical concrete vibrator, driven by a motor, transmitted by a versatile shaft, development by planetary bodies, obtains high-frequency vibration to improve efficiency.
Merged with the use of plug-in vibrator, concrete vibrator is a type of mechanized tools to
tamp concrete.
Bubbles must be excluded when concrete mixing device blended the concrete pouring members, to tamp them tough.
Concrete vibrator can dense concrete firmly and remove phenomena of Honeycomb, to make sure the toughness and high quality of concrete constructions.

Item parameters
——————————————————————————————————————Why pick us
——————————————————————————————————————

Buying info of floor variety concrete vibrator
——————————————————————————————————————

About Solution:

You should tell us the subsequent data for the purpose of servicing you far better!

one. Product Design.

two. Motor Power.

three. Voltage.

4. Vibration Frequency.

About Supply: 15 times following getting your deposit and right after the order confirmed.

About Payment: L/C, T/T or other people you like.
 

Our Provider:                                                                                  

one.All goods will be properly packed just before delivery.

two.All products have 12 months warranty and we positive the goods will free of charge from maintenance in warranty period of time.

3.Reply your inquiry in 24 functioning hours.

4.Customized design is obtainable.

five.Distinctive and CZPT answer can be provided to our consumer by our effectively-trained and professional engineers.

6.As an CZPT vendor,we often use high high quality materials,superior devices,experienced experts to make sure top quality.

7.Have our owm engineer team,each equipment is layout as customer’s specfic necessity,the overall performance is higher 20%~forty% than other manufacturing unit with very same price.
Business Profile
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Opinions
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AC motors are also various from DC motors because most AC motors do not consist of brushes. This implies that routine maintenance and elements substitute requirements for AC motors have a tendency to be considerably reduced, with most consumers generally expecting a longer average lifespan. As opposed to DC motors, the output speed of several sorts of AC motors is frequently identified by inverter control – yet again, we are going to briefly outline a variety of prospective variations on the simple AC motor model.
These NEMA c-aircraft reducers are gear power, routine maintenance-cost-free, and can be put in in any orientation with a slip match “O” ring design and style. Obtainable in minimal to substantial reduction ratios, flange mount or foundation mount designs, appropriate angle or hollow shaft appropriate angle variations. Install NEMA C-Encounter AC motors, brushless DC motors, and brushed DC motors. For 1/2 HP to 3 HP Motors NEMA 56C, 140TC, and 180TC Input Flange Inline Helical Equipment Reducers Appropriate Angle Hypoid Gear Reducers

China best Vibrator Motor 1.5kw 2.2kw 3kw 2HP 3HP 4HP 110V 220V 60Hz Industrial Vibration Motor     close to me company

China Hot selling 0614 Mini Electric Motor 3V Used in RC Plane Vibration Motor with Hot selling

Item Description

1) Technological requirements

one. Rated Voltage: 3.0V DC

2. No Load Velocity: 10000rpm±20%

3. No Load Recent: 80mA max

four. Starting Voltage: 2.0V DC max

5. Beginning Present: 280mA max

2) Outline Drawing

Organization Data:

Producing all kinds of CZPT motor for above 10 several years.  These motors are broadly used in telecommunication units and overall health-care items, health-related devices and robotic merchandise. Monthly capacity over 15 million motors.We have been making the best endeavours to become 1 of the major CZPT motor producers in this market. By investing 10 per cent of our yearly income into R&D as effectively as innovative services, we carry on to increase stably.Our mission is to generate expense powerful goods with excellent quality to satisfy our buyers throughout the world. This is the focus on we goal at now and permanently……

     
one) Aggressive Rewards

  • Knowledgeable Workers: average 7-year expertise in R&D 
  • Competitive Price
  • Large Item Functionality: Reduced sound, High effectiveness, Prolonged lifespan
  • Little Orders Accepted
  • Short Guide Time 2-3 Weeks 
  • Worldwide Approvals: ROHS/ISO9001:2015, ISO14001:2015, OHSAS18001:2011

two) Production 

3) Screening equipments

four) Exhibition

5) Packaging & Shipping

 Packing Details

100pcs per tray, twenty trays for every carton, 2000 pcs for each carton
Carton dimension: 34cm*34cm*21cm
Gross weight: .5kgs/ carton
Interior box bubble, then carton. And then r7einforced with plastic pallet for outer packing. Or according to client’s prerequisite. 

Transport Information

Samples Can be delivered in 10 days.

Mass production buy major time according to the genuine predicament.

FAQ:
Q1.Do you provide the samples?
A:Yes! We offer free samples with transport and taxes compensated by the customer.
Q2.Do you have MOQ necessity?
A:We don’t have MOQ restrict,small orders accepted.
  usually more than 1000pcs and the more you requested the better value you get.
Q3. Do you have the item in stock?
A:I am sorry we never have the product in inventory, All items are made with orders.
This autumn. Do you provide technologies support?
A:Yes.we have strong R&D capability, we can give engineering assistance if you need to have.
Q5. Do you take a look at all your goods before supply?
A: Yes, we have 100% check ahead of supply.

Speak to Data:
HangZhou CZPT Technological innovation CO., LTD.
 
 
China Business office:Area 4-1904, Yuan Meng Ya Ju, Zongbu third Road, Xihu (West Lake) Dis.hu North Hi-Tech Park, HangZhou, ZheJiang 523808, China
Internet: ineed-motor
  
 

AC motors are also distinct from DC motors due to the fact most AC motors do not consist of brushes. This indicates that servicing and components replacement requirements for AC motors are inclined to be drastically lowered, with most users normally anticipating a longer average lifespan. Unlike DC motors, the output pace of several kinds of AC motors is typically established by inverter control – again, we are going to briefly outline a assortment of likely variants on the simple AC motor design.
AC motors are also various from DC motors due to the fact most AC motors do not contain brushes. This signifies that servicing and parts substitute needs for AC motors are inclined to be considerably diminished, with most users generally expecting a longer average lifespan. As opposed to DC motors, the output velocity of a lot of varieties of AC motors is frequently established by inverter handle – again, we’ll briefly outline a variety of possible variations on the basic AC motor model.

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China OEM Customized 12V DC Eccentric Vibration Motor for Beauty Products with Free Design Custom

Merchandise Description

Solution Description

customized 12V dc eccentric vibration motor for elegance merchandise

Notice: The data sheet is only for reference, the motor data could be personalized accord customer request.
Welcome to make contact with us for more info!

Application Fields

Manufacturing unit data

Packing & Transport

FAQ
Q1: Can I get a free of charge sample?
A1: We can offer the current objects samples cost-free in freight gathered. If there is any specific samples need, please speak to us for more particulars.
Q2: How could I spend?
A2: We choose T/T or L/C at sight. If you prefer other payment terms, remember to make contact with us freely.
Q3: What is your packing way? Can I have the tailored package?
A3: We have the normal export deal. For more particulars about the tailored package, remember to contact us.
This fall: What is the supply guide time?
A4: It is dependent on the get quantities. The mass generation direct time is about 21-forty nine times following receipt of the deposit.
Q5: Are you a factory or a buying and selling organization?
A5: We are a manufacturing facility. We offer all varieties of OEM/ODM companies for clients close to the world.
Q6: The place is your primary industry?
A6: We export to the North The us, South The united states,Southeast Asia, Europe, Korea, Japan, and other international locations.

Our Solutions
one. Professional QC and QA staff to make sure all items certified ahead of shipping and delivery.
two. Competitive value
three .Common package deal to make certain the secure transportation.
four. Specialist provider

Why select us?
one. Production
    Experienced production, competitive value, skilled services.
two. Technology
    Specialist R& D group
three. Gear
    With completive tests gear.
4. Quality
    RoHS/ Get to/ISO9001/ISO14001/IATF16949 certificate.

The rotor of a reluctance motor is composed of a reliable cast steel part with a convex toothed rack. Their starting method is equivalent to an induction motor, but it operates like a synchronous motor. Usually, their rotors have much less poles than stators, which minimizes torque ripple and stops best pole alignment, as no torque is produced in that area. Reluctance motors variety in electrical power scores from a handful of watts to about 22 kilowatts.
AC motors are also distinct from DC motors simply because most AC motors do not incorporate brushes. This implies that maintenance and elements substitution wants for AC motors have a tendency to be drastically diminished, with most customers usually anticipating a longer typical lifespan. Not like DC motors, the output velocity of numerous sorts of AC motors is often decided by inverter management – yet again, we’ll briefly define a selection of potential variants on the simple AC motor design.

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Solution Description

Complex data:

Motor product motor size (mm) Rated voltage Rated speed Rated existing Stall present Starting voltage Working voltage   
Height of motor entire body Width of motor body All round length V DC rpm mA mA V DC V DC
IND-SMD-002 three.four 4.four 12.two 3. twelve,000±2,five hundred ≤85mA ≤100mA ≤2.3 two.3-3.6

  Product Drawing:  

This vibration motor have the shortest entire body lengths, with SMD kind reflow solderable contacts,
widely used in assembly in the working environments as higher as 250 ºC.

You could discover the proper haptic solution with our beneath various vibrators:
seven-10mm diameter coin sort brushed vibration motors.
three-4mm top reflow solderable SMD kind vibration motors
4-7mm diameter cylinder variety brushed vibration motors.
5-9 diameter coin type brushless vibration motors.
These BLDC Motors have much lengthier life span than the regular brush sort motors. At the test manner of .5s On .5s Off as 1 cycle, the complete life span can be 1 million cycles. 
8-9 diameter coin type linear vibration motors. 
Vibrating in route Z, vibration drive at its peak acceleration worth about 1.8G, significantly more robust than other normal brush kind coin motors at .6-.8G normally.

Company data

Manufacturing all kinds of micro motor for over ten years.  These motors are widely used intelecommunication devices and health care products, medical devices and robotic goods.
Monthly capacity over 15 million motors.We have been making the best efforts tobecome one of the leading micro motor manufacturers in this industry. By investing ten percent of our annual revenue into R&D as well as advanced facilities, we continue to grow stably.Our mission is to produce cost effective products with good quality to satisfy ourcustomers worldwide. This is the target we aim at now and forever.


one) Aggressive Positive aspects

  • Skilled Personnel: regular 7-12 months encounter in R&D 
  • Competitive Price
  • Substantial Product Performance: Low noise, Large efficiency, Extended lifespan
  • Small Orders Recognized
  • Short Lead Time 2-3 Weeks 
  • International Approvals: ROHS/ISO9001:2015, ISO14001:2015, OHSAS18001:2011

two) Manufacturing workshop (Portion)

                               Worshop web site 1                                                                           Worshop website 2       
three) Screening equipments

4) Certificate

5) Exhibition
6) Packaging & Delivery

 Packing Specifics

1000pcs for every tray, 5 trays for each carton, 5000 pcs for every carton
Carton measurement: 36cm*36cm*21.5cm
Gross fat: 5.5kgs/ carton
Interior box bubble, then carton. And then strengthened with plastic pallet for outer packing. Or according to client’s prerequisite. 

Shipping Particulars

Samples Can be delivered in 10 days.

Mass production order major time in accordance to the actual scenario.

FAQ:
Q1.Do you give the samples?
A:Of course! We offer you free of charge samples with delivery and taxes compensated by the consumer.
Q2.Do you have MOQ necessity?
A:We do not have MOQ limit,small orders accepted.
  usually a lot more than 1000pcs and the more you requested the much better value you get.
Q3. Do you have the item in stock?
A:I am sorry we do not have the merchandise in inventory, All products are made with orders.
Q4. Do you supply technologies help?
A:Indeed.we have robust R&D capacity, we can offer engineering support if you require.
Q5. Do you take a look at all your items prior to shipping and delivery?
A: Indeed, we have a hundred% test just before supply.

Contact Details:

HangZhou CZPT Technology CO., LTD.

China Business office:Place 4-1904, Yuan Meng Ya Ju, Zongbu third Street, Xihu (West Lake) Dis.hu North Hi-Tech Park, HangZhou, ZheJiang 523808, China
Internet: ineed-motor
  
 

AC motors are also different from DC motors because most AC motors do not incorporate brushes. This signifies that upkeep and elements substitution requirements for AC motors are likely to be drastically lowered, with most customers typically expecting a longer average lifespan. As opposed to DC motors, the output velocity of numerous kinds of AC motors is usually decided by inverter control – once again, we’ll briefly outline a assortment of potential variations on the standard AC motor model.
An AC motor is a kind of motor that utilizes the phenomenon of electromagnetic induction. AC power drives the motor. It is a recent that periodically reverses path and adjustments its magnitude of the existing above time. This recent is the opposite of a direct current or “DC” which flows in only 1 path. AC motors can give a relatively productive way to produce mechanical strength from a simple electrical enter sign.

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