Product Description
Electric Motor Soft Starter Manufacturer Three Phase 380V 110kw Motor
Product Description
Inspection of product nameplate: Confirm whether the cargo received by you is consistent with the product ordered by you.
NOTE:
Auxiliary parts: an external keyboard is available.
Please contact us if you need customized more power soft starter.
Service conditions
Service conditions have a great influence on normal working and lifetime of the soft starter, thus the soft starter should be installed in the place with the following conditions met.
Service conditions of conventional product:
Power supply: Electric supply, self-provided power plant and diesel generating set.
Three-phase AC: 380V (-20%, +15%), 50Hz.
Applicable motor: General squirrel cage asynchronous motor (the wound-rotor motor can be negotiated).
Start frequency: The standard product is suggested to be started/stopped not more than 15 times an hour (based on load).
Cooling mode: The standard type is natural air cooling.
Protective grade: IP00.
Environmental conditions: The environment temperature is -25ºC~40ºC, and the humidity is ≤95% (20ºC±5ºC). There are indoor installation and good ventilation instead of condensation, flammable, explosive and corrosive gases and conductive dust. The vibration is less than 0.5G and the capacity should be lowered accordingly for use when the elevation exceeds 2,000 m.
Pursuant to actual rate current of the motor, rated output of soft starter should be reset at the time of use with reduced capacity to ensure accuracy of various control parameters and fault protection.
Operating principle diagram:
Typical wiring diagram of CGR series application
Wiring diagram of soft start control cabinet suitable for the power of 75kW and below
Wiring diagram of soft start control cabinet suitable for the power of 90kW -160kW
Wiring diagram of soft start control cabinet suitable for the power of 187kW and above
Protection level of thermal overload of motor
Detailed Photos
Function:
Lower starting current of the motor, reduce the power distribution capacity and avoid capacity-increase investment;
Reduce the starting stress and prolong the service life of the motor and related parts;
Various starting modes, setting of wide range of current, voltage and time and adapting to start/stop of the motor based on a variety of loads.
Our soft starter is cored on advanced dual-CPU control technology. It controls controllable thyristor module, realizes soft starting & stopping of three-phase AC induction motor, and has wide range of protection functions e.g. overload, input phase failure, output phase failure, load short-circuit, starting limiting overtime, over-voltage, and undervoltage.
Packaging & Shipping
Our Products
Our Advantages
The CGR series digital AC motor soft starter is a new type of starting device designed with power electronics technology, microprocessor technology, and modern control theory, which has reached the international advanced level. This product can effectively limit the starting current of asynchronous motors and can be widely used in loads such as fans, water pumps, conveyors, and compressors. It is an ideal replacement for traditional reduced voltage starting devices such as star/delta conversion, autotransformer voltage reduction, and magnetic control voltage reduction.
Our CGR series soft starter has significant advantages in comparison to similar products.
Starting mode based on a variety of loads is used | There are rich and diverse ways to start and convenient parameter settings, enabling the motor to achieve the best start effect based on different loads. |
High technical performance | Because the high-performance microprocessor and powerful software support functions are used, the control circuit is fully simplified and optimized and consistent and accurate operating performance can be realized without adjustment of circuit parameters. |
High reliability | All electrical elements are strictly screened and the control part of the whole machine is subject to high temperature cyclic test and vibration test which ensures high reliability of outgoing product. |
Optimized structure | Unique module structure and mode of connection entering at top and leaving at bottom are adopted, the anti-jamming technique is introduced, rational layout of control panel is conducted and the keyboard is of I2C bus with small volume. The optimized structure can facilitate integration and forming a complete set. |
Friendly human-computer interaction interface | The display content of the keyboard is rich, the operation is intuitive and convenient as well as start, stop, operation and protection parameters can be set and modified according to different loads with real-time display of various working states. The interface can facilitate inquiry of operating current based on each phase and temperature and power frequency of the machine. |
Impeccable motor protection function | Online operation ability exists, real-time monitoring of working voltage, current and temperature can be realized, perfect comprehensive protection function of the motor is provided and the moderate protection threshold can be controlled to ensure the motor works stably furthest. |
Rated output current can be reset | When the nominal power of the soft starter exceeds actual load power, actual output current of the soft starter can be modified within a certain range to make it match with actual load to ensure accuracy of starting effect and protective function of the motor by the soft starter. |
Excellent soft parking performance | After you set the work mode, the effect of soft parking arises regardless of being in the start process or under the operation status. As for different kinds of loads, smooth stopping effect, especially the load of filling line and water pump applying to the line production can be achieved by reasonable parameter setting. |
Industrial field bus is supported | 485 communication function is provided and Modbus communication protocol based on international standard is supported. |
FAQ
Q1. Are you a trading company or manufacturer?
A: We are manufacturer. Welcome to our factory for inspection.
Q2. Can I get some samples for test?
A:Yes, Sample order is available for quality check and market test.
Q3. Do you accept OEM/ODM ?
A:Yes, we accept OEM/ODM.
Q4. How long is your lead time?
A: 2-3 days for the stocks items, mass production generally needed 1-2 weeks.
Q5. What’s your warranty time?
A: 12 months
Q6. How about your payment and shipment?
A: Payment: We accept T/T, Western Union, Paypal, Cash etc.
Q7:What’s the price and MOQ?
A: MOQ is 1PC if we have it in stock. Please contact us for customization.
Q8. Is our company accept customized and OEM order ?
A: Yes. We have professional engineers and design team, please tell us your requirements.
Q9:How to ship the cargo? do you ship the goods and how long does it take to arrive?
A:We usually ship via DHL, UPS, FedEx or TNT for small order and via CHINAMFG for bulk order according to your requirement.
Q10: What your trade terms?
A4: EXW, FOB, DAP, CIF and etc can be accepted. You can choose the 1 which is the most convenient or cost effective for you.
Q11. How to ensure product quality?
A: Our production strictly follows the ISO9001 quality control system.
Quality is our culture. We have strict quality control department to supervise each link from assembling to shipping.
What we looking for are long-term partners instead of one-time business, so we will provide you high quality goods and do our best to provide you the best service
Q12. How can I trust you ?
A: CHEEGON ELECTRIC has 16 years’ experience in producing soft starter, we have passed ISO9001,ISO14001,ISO45001 management system and got CE, CCC certificates. Assessment reports can be sent anytime if you need.
Company Profile
HangZhou Cheegon Electric Co., Ltd. is a manufacturer since 2007. It is a high-tech enterprise specialized in the research, development, production, sales, and services of power electronic products. The main products include: High and low voltage industrial motor soft starters and frequency inverters, motor protection devices, high and low voltage distribution equipment.
The company has obtained various national certifications, including ISO9001 quality management system certification, ISO14001 environmental management system certification, ISO45001 occupational health and safety management system certification, CE certification, CB certification, and 3C mandatory certification. The company has been recognized as a national high-tech enterprise and a software certification enterprise. It has been awarded the title of HangZhou Famous Brand and has obtained many national-level technical patents. The “Cheegon Electric” trademark has been recognized as a famous trademark in ZheJiang Province.
In 2017, the company, as the primary drafter, formulated and passed 2 national standards: “Xihu (West Lake) Dis.line for the Application of High-voltage Motor Soft Starting Device” (No. GB/T37404-2019) and “High-voltage Thyristor Phase-controlled Voltage Regulator Soft Starting Device” (No. GB/T37405-2019).
/* 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
Certification: | ISO9001, CCC, ISO14000 |
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Protection: | Shock Resistance |
Installation: | Hanging |
Housing: | Plastic/Metal |
OEM/ODM: | Yes |
Input Frequency: | 50/60Hz |
Customization: |
Available
|
|
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How does an electric motor ensure efficient energy conversion?
An electric motor ensures efficient energy conversion by employing various design features and principles that minimize energy losses and maximize the conversion of electrical energy into mechanical energy. Here’s a detailed explanation of how electric motors achieve efficient energy conversion:
- Efficient Motor Design: Electric motors are designed with careful consideration given to their construction and materials. High-quality magnetic materials, such as laminated iron cores and permanent magnets, are used to reduce magnetic losses and maximize magnetic field strength. Additionally, the motor’s windings are designed with low-resistance conductors to minimize electrical losses. By optimizing the motor’s design, manufacturers can improve its overall efficiency.
- Reducing Friction and Mechanical Losses: Electric motors are designed to minimize friction and mechanical losses. This is achieved through the use of high-quality bearings and lubrication systems that reduce friction between moving parts. By reducing friction, the motor can operate more efficiently, translating more of the input energy into useful mechanical work rather than dissipating it as heat.
- Efficient Control and Power Electronics: Electric motors employ advanced control techniques and power electronics to enhance energy conversion efficiency. Variable frequency drives (VFDs) are commonly used to control motor speed and torque, allowing the motor to operate at optimal efficiency levels under varying load conditions. Power electronics devices, such as insulated gate bipolar transistors (IGBTs) and MOSFETs, minimize switching losses and optimize power flow within the motor.
- Regenerative Braking and Energy Recovery: Some electric motors, particularly those used in hybrid electric vehicles (HEVs) and electric trains, incorporate regenerative braking systems. These systems convert the kinetic energy of the moving vehicle back into electrical energy, which can be stored and reused. By capturing and reusing energy that would otherwise be wasted as heat during braking, regenerative braking significantly improves overall energy efficiency.
- Efficient Cooling and Thermal Management: Electric motors generate heat during operation, and excessive heat can lead to energy losses and reduced efficiency. To mitigate this, motors are designed with efficient cooling systems such as fans, heat sinks, or liquid cooling methods. Proper thermal management ensures that the motor operates within the optimal temperature range, reducing losses and improving overall efficiency.
- High-Efficiency Standards and Regulations: Governments and organizations have established energy efficiency standards and regulations for electric motors. These standards encourage manufacturers to produce motors with higher efficiency ratings. Compliance with these standards ensures that motors meet certain efficiency criteria, resulting in improved energy conversion and reduced energy consumption.
By incorporating these design features, control techniques, and efficiency measures, electric motors achieve efficient energy conversion. They minimize energy losses due to factors such as resistance, friction, and heat dissipation, ensuring that a significant portion of the input electrical energy is converted into useful mechanical work. The continuous advancements in motor design, materials, and control technologies further contribute to improving the overall energy efficiency of electric motors.
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:
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
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:
- 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.
- 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.
- 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.
- 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.
- 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.
editor by CX 2024-04-24
China Best Sales DC Motor Motorized Tricycles Electric Bicycle Graders Electric Scooter Controller Hub Stepper Outboard Gas Bike Stainless Steel Starter Single Phase Servo Motor with Great quality
Product Description
dc motor motorized tricycles electric bicycle graders electric scooter controller hub stepper outboard gas bike stainless steel starter single phase servo motor
Application of dc motor
DC motors are used in a wide variety of applications, including:
- Electric vehicles: DC motors are used in the drive trains of electric cars, trucks, and buses.
- Industrial machinery: DC motors are used in a variety of industrial machinery, such as conveyors, robots, and machine tools.
- Household appliances: DC motors are used in a variety of household appliances, such as vacuum cleaners, fans, and blenders.
- Power tools: DC motors are used in a variety of power tools, such as drills, saws, and sanders.
- Toys: DC motors are used in a variety of toys, such as cars, trains, and airplanes.
DC motors are also used in a variety of other applications, such as:
- Medical equipment: DC motors are used in medical equipment, such as X-ray machines and MRI machines.
- Scientific equipment: DC motors are used in scientific equipment, such as particle accelerators and telescopes.
DC motors are a versatile and reliable type of motor that can be used in a wide variety of applications. They are known for their high efficiency, low maintenance, and long lifespan.
/* 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 |
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Speed: | High Speed |
Number of Stator: | Three-Phase |
Function: | Driving, Control |
Casing Protection: | Open Type |
Number of Poles: | 6 |
Samples: |
US$ 9999/Piece
1 Piece(Min.Order) | |
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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:
- 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.
- 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.
- 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.
- 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.
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:
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
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:
- 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.
- 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.
- 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.
- 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.
- 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.
editor by CX 2024-04-16
China factory 12V 24V 1.5KW 2KW hydraulic DC dump truck motor electric starter motor for tricycle tipper truck with high quality
Model Number: MDN114-1-12v dc motor
Usage: BOAT, Car, Electric Bicycle, FAN, Home Appliance, high rpm 12v dc motor for battery dump truck
Type: high rpm 12v dc motor for battery dump truck
Torque: ≥5.4N.m, ≥5.4N.m
Construction: Shunt Wound
Commutation: Brush
Protect Feature: Drip-proof
Speed(RPM): 3000RPM
Continuous Current(A): 136A
Efficiency: IE 1
Rated Voltage: 12V
Power: 1.5KW
Rated Current: ≤200A
Rotation Speed: ≥2670rpm
Rotation Direction: CW
name: 12V 24V 1.5KW 2KW hydraulic DC dump truck motor
hydraulic DC dump truck motor: Using 12V 24V 1.5KW 2KW hydraulic DC dump truck motor
Sample Time: 3 Days-12V 24V 1.5KW 2KW hydraulic DC dump truck motorruck
package: Corrugated boxes 12V 24V 1.5KW 2KW hydraulic DC dump truck motor
Certification: ISO 9001
Packaging Details: 12V 24V 1.5KW 2KW hydraulic DC dump truck motor electric starter motor for tricycle tipper truck;carton package
12V 24V 1.5KW 2KW hydraulic DC dump truck motor electric starter motor for tricycle tipper truck
TYPERATED VOLTAGENOMINAL POWER RATED CURRENT ROTATION SPEED TORQUE ROTATION DIRECTION SURFACE COLOR MDN114-112V1.5KW ≤200A≥ 2670rpm≥5.4N·mCWGOLDEN
MORE PRODUCTS
High efficiency DC motors type MD serve to drive hydraulic pumps, automotive power winch and different other drives.
According to the different requirements of customers, our DC motors have been broadly used in the fork-lift, container van tail-board, van door system, jumping car, snow-sweeper, etc.
Motor’ type can be divided into 12V,24V voltage system.
Output power ranges from 0.5 KW-4.5 KW.
Outside diameter covers 3 inch, 4.5 inch ,5 inch.
Motors have different adaptor to match various of pump connectors.
Motors’ surface treatment can be chosen by customer, and we have the technique method such as zinc plated, chromium plated, powder coated with different color (e.g. black, red, grey) on heavy duty motors.
DESCRIPTION:
1Material:100%2Color:Any partone or multi-colors can be customized.3Size:Customized size4Logo:Your Brand Prints5MOQ:20pcs6Samples Time:(1)3-5 days – if you want to customize your logo.
(2)1 day- For our existing samples for reference.
7OEM accepted:Yes.8Certification available:Yes.9Packing Details:N.w.: 2.5KGS-3 inch; 7KGS-4.5 inch.10Production capacity:10000 per month11 Pay time:(1) L/C.T/T.D/P.D/A.PAYPAL WESTERN UNION MONEY GRAM
(2)We also can provide a month’s statsment payment service.
Our Services
One year warranty
1DC motor for Pump2DC motor for power unit3DC motor for oil pump4DC motor for Automation5DC motor for Agricultural Machinery/Farm machinery6DC motor for Lift7DC motor for Dump Truck/Tipper/tip truck8DC motor for Hydraulic9DC motor for hospital bed/hospital cot10DC motor for garbage truck/dustbin lorry/waste collection vehicle /refuse collection vehicle11 DC motor for liftgate/tail lift/Tailgate12DC motor for Forklift truck/lift truck/fork truck/forklift13DC motor for truck/Lorry14DC motor for winter service vehicle/snow removal vehicle15DC motor for Tractor16DC motor for Oil Pressure17DC motor for Mechanical equipment18DC motor for Industrial Machinery19DC motor for Lifting Equipment20DC motor for Construction21DC motor for Muck truck22DC motor for Jack
12V 24V 1.5KW 2KW hydraulic DC dump truck motor electric starter motor for tricycle tipper truck
1.reliable quality2.12V hydraulic unit use3.motor used in hydraulic unit4.dc motor
The Basics of a Gear Motor
The basic mechanism behind the gear motor is the principle of conservation of angular momentum. The smaller the gear, the more RPM it covers and the larger the gear, the more torque it produces. The ratio of angular velocity of two gears is called the gear ratio. Moreover, the same principle applies to multiple gears. This means that the direction of rotation of each adjacent gear is always the opposite of the one it is attached to.
Induction worm gear motor
If you’re looking for an electric motor that can deliver high torque, an Induction worm gear motor might be the right choice. This type of motor utilizes a worm gear attached to the motor to rotate a main gear. Because this type of motor is more efficient than other types of motors, it can be used in applications requiring massive reduction ratios, as it is able to provide more torque at a lower speed.
The worm gear motor is designed with a spiral shaft that is set into splines in another gear. The speed at which the worm gear rotates is dependent on the torque produced by the main gear. Induction worm gear motors are best suited for use in low-voltage applications such as electric cars, renewable energy systems, and industrial equipment. They come with a wide range of power-supply options, including twelve-volt, 24-volt, and 36-volt AC power supplies.
These types of motors can be used in many industrial settings, including elevators, airport equipment, food packaging facilities, and more. They also produce less noise than other types of motors, which makes them a popular choice for manufacturers with limited space. The efficiency of worm gearmotors makes them an excellent choice for applications where noise is an issue. Induction worm gear motors can be compact and extremely high-torque.
While the Induction worm gear motor is most widely used in industrial applications, there are other kinds of gearmotors available. Some types are more efficient than others, and some are more expensive than others. For your application, choosing the correct motor and gearbox combination is crucial to achieving the desired result. You’ll find that the Induction worm gear motor is an excellent choice for many applications. The benefits of an Induction worm gear motor can’t be overstated.
The DC gear motor is an excellent choice for high-end industrial applications. This type of gearmotor is smaller and lighter than a standard AC motor and can deliver up to 200 watts of torque. A gear ratio of three to two can be found in these motors, which makes them ideal for a wide range of applications. A high-quality DC gear motor is a great choice for many industrial applications, as they can be highly efficient and provide a high level of reliability.
Electric gear motors are a versatile and widely used type of electric motor. Nevertheless, there are some applications that don’t benefit from them, such as applications with high shaft speed and low torque. Applications such as fan motors, pump and scanning machines are examples of such high-speed and high-torque demands. The most important consideration when choosing a gearmotor is its efficiency. Choosing the right size will ensure the motor runs efficiently at peak efficiency and will last for years.
Parallel shaft helical gear motor
The FC series parallel shaft helical gearmotor is a compact, lightweight, and high-performance unit that utilizes a parallel shaft structure. Its compact design is complemented by high transmission efficiency and high carrying capacity. The motor’s material is 20CrMnTi alloy steel. The unit comes with either a flanged input or bolt-on feet for installation. Its low noise and compact design make it an ideal choice for a variety of applications.
The helical gears are usually arranged in two rows of one another. Each row contains one or more rows of teeth. The parallel row has the teeth in a helical pattern, while the helical rows are lined up parallelly. In addition to this, the cross helical gears have a point contact design and do not overlap. They can be either parallel or crossed. The helical gear motors can have any number of helical pairs, each with a different pitch circle diameter.
The benefits of the Parallel Shaft Helical Gearbox include high temperature and pressure handling. It is produced by skilled professionals using cutting-edge technology, and is widely recognized for its high performance. It is available in a range of technical specifications and is custom-made to suit individual requirements. These gearboxes are durable and low-noise and feature high reliability. You can expect to save up to 40% of your energy by using them.
The parallel shaft helical gear motors are designed to reduce the speed of a rotating part. The nodular cast iron housing helps make the unit robust in difficult environments, while the precision-machined gears provide quiet, vibration-free operation. These motors are available in double reduction, triple reduction, and quadruple reduction. The capacity ranges from 0.12 kW to 45 kW. You can choose from a wide variety of capacities, depending on the size of your gearing needs.
The SEW-EURODRIVE parallel shaft helical gearmotor is a convenient solution for space-constrained applications. The machine’s modular design allows for easy mounting and a wide range of ambient temperatures. They are ideal for a variety of mechanical applications, including conveyors, augers, and more. If you want a small footprint, the SEW-EURODRIVE parallel shaft helical gear motor is the best solution for you.
The parallel shaft helical gears are advantageous for both high and low speed applications. Parallel helical gears are also suitable for low speed and low duty applications. A good example of a cross-helix gear is the oil pump of an internal combustion engine. Both types of helical gears are highly reliable and offer vibration-free operation. They are more costly than conventional gear motors, but offer more durability and efficiency.
Helical gear unit
This helical gear unit is designed to operate under a variety of demanding conditions and can be used in a wide range of applications. Designed for long life and high torque density, this gear unit is available in a variety of torques and gear ratios. Its design and construction make it compatible with a wide range of critical mechanical systems. Common applications include conveyors, material handling, steel mills, and paper mills.
Designed for high-performance applications, the Heidrive helical gear unit provides superior performance and value. Its innovative design allows it to function well under a wide range of operating conditions and is highly resistant to damage. These gear motors can be easily combined with a helical gear unit. Their combined power output is 100 Nm, and they have a high efficiency of up to 90%. For more information about the helical gear motor, contact a Heidrive representative.
A helical gear unit can be classified by its reference section in the standard plane or the turning plane. Its center gap is the same as that of a spur gear, and its number of teeth is the same. In addition to this, the helical gear has a low axial thrust, which is another important characteristic. The helical gear unit is more efficient at transferring torque than a spur gear, and it is quieter, too.
These units are designed to handle large loads. Whether you are using them for conveyors, augers, or for any other application that involves high-speed motion, a helical gear unit will deliver maximum performance. A helical gear unit from Flender can handle 400,000 tasks with a high degree of reliability. Its high efficiency and high resistance to load ensures high plant availability. These gear motors are available in a variety of sizes, from single-speed to multi-speed.
PEC geared motors benefit from decades of design experience and high quality materials. They are robust, quiet, and offer excellent performance. They are available in multiple configurations and are dimensionally interchangeable with other major brands. The gear motors are manufactured as modular kits to minimize inventory. They can be fitted with additional components, such as backstops and fans. This makes it easy to customize your gear motors and save money while reducing costs.
Another type of helical gears is the double helical gear. The double helical gear unit has two helical faces with a gap between them. They are better for enclosed gear systems as they provide greater tooth overlap and smoother performance. Compared to double helical gears, they are smaller and more flexible than the Herringbone type. So, if you’re looking for a gear motor, a helical gear unit may be perfect for you.
China Hot selling Auto Starter Motor 24V 7.5kw 12 Teeh Cw for Mercedes Benz Trucks 0051516401, 0061511501, 0061516901 M009t84771, M9t80471, M9t80472 Auto Spare Part CZPT with high quality
Merchandise Description
OEM No.:
AS S0842S, UD16923S
Cargo 113851
CAS CST10676AS, CST10676ES, CST11613GS
Delco 19011501, 1957109, 82571, 82571
HC-Areas CS1463
KRAUF STD1463MH, STD1463NB, STD1463NL, STD1463WD, STM1463BA, STM1463MH, STM1463NB, STM1463UL, STM1463YN, STM1463ZL, STM9463UL, STM9463WD
Messmer 22571
Motorherz STB1463RB, STD1463WA, STM1463RB, STM1463WA, STM9463WA
PA PA510079, PA510131
Unipoint STR4394, STR4396, STR7953
WPS 30111NDR, 6857N
ZAUFER 300N10164Z
Fits FOR
The rotor of a reluctance motor is composed of a sound solid steel part with a convex toothed rack. Their starting up process is related to an induction motor, but it operates like a synchronous motor. Normally, their rotors have much less poles than stators, which minimizes torque ripple and stops perfect pole alignment, as no torque is made in that place. Reluctance motors variety in power ratings from a few watts to about 22 kilowatts.
These NEMA c-airplane reducers are gear energy, servicing-totally free, and can be mounted in any orientation with a slip suit “O” ring design and style. Available in reduced to higher reduction ratios, flange mount or base mount variations, appropriate angle or hollow shaft correct angle versions. Put in NEMA C-Confront 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 Gear Reducers Correct Angle Hypoid Equipment Reducers
China Standard 12V 9t 0.7kw Car Starter Motor for Vl Lester 31143 D7e1 Starter Parts near me factory
Item Description
Merchandise Parameters
12V 9t .7kw Car Starter Motor for Vl Lester 31143 D7e1 starter areas
House | Price |
Model | VL |
Voltage (V) | 12 |
Kilowatt (kW) | .7 |
Enamel | 9 |
Rotation | CW |
Flange Diameter (mm) | 63.five |
OEM | OEM Reference |
BOS | 1116001 |
BOS | 986017840 |
BOS | 1784 |
LUCAS | LRT00143 |
LUCAS | LRT143 |
RENAU | 77 4608 |
RENAU | 77 4608A |
RENAU | 77 5213 |
RENAU | 7701499651 |
VL | 455722 |
VL | D7E1 |
VL | D7E39 |
VL | TS8E6 |
VL | 8111840 |
LESTER | 31143 |
Relevant types
Make | Model | Sort | Calendar year | Details |
DACIA | LOGAN | one.2 | 2012 – | 1149cc, 4cyl, 75HP |
DACIA | LOGAN | one.2 | 2013 – | 1149cc, 4cyl, 75HP |
DACIA | LOGAN | one.2 | 2015 – | 1149cc, 4cyl, 73HP |
DACIA | LOGAN | 1.2 16V | 2006 – | 1149cc, 4cyl, 75HP |
DACIA | LOGAN | one.2 16V LPG | 2006 – | 1149cc, 4cyl, 75HP |
DACIA | LOGAN | 1.2 LPG | 2012 – | 1149cc, 4cyl, 75HP |
DACIA | LOGAN | 1.2 LPG | 2013 – | 1149cc, 4cyl, 75HP |
DACIA | SANDERO | one.2 | 2012 – | 1149cc, 4cyl, 75HP |
DACIA | SANDERO | one.two | 2015 – | 1149cc, 4cyl, 73HP |
DACIA | SANDERO | 1.2 16V | 2008 – | 1149cc, 4cyl, 75HP |
DACIA | SANDERO | 1.2 16V LPG | 2008 – | 1149cc, 4cyl, 75HP |
DACIA | SANDERO | one.2 LPG | 2012 – | 1149cc, 4cyl, 75HP |
NISSAN | KUBISTAR | one.two | 2003 – 2009 | 1149cc, 4cyl, 60HP |
NISSAN | KUBISTAR | 1.2 | 2003 – | 1149cc, 4cyl, 60HP |
NISSAN | KUBISTAR | one.2 16V | 2006 – 2009 | 1149cc, 4cyl, 75HP |
NISSAN | KUBISTAR | 1.2 16V | 2006 – | 1149cc, 4cyl, 75HP |
PEUG | 206 | one | 2001 – 2005 | 999cc, 4cyl, 70HP |
PEUG | CLIO | 1 | 1999 – 2006 | 998cc, 4cyl, 58HP |
PEUG | CLIO | one | 2000 – 2001 | 998cc, 4cyl, 54HP |
PEUG | CLIO | one | 2001 – 2005 | 999cc, 4cyl, 71HP |
PEUG | CLIO | one.0 Flex | 2005 – | 999cc, 4cyl, 76HP |
RENAU | CLIO | one.1 (SB0A | – | |
RENAU | CLIO | one.two | 1991 – 1998 | 1171cc, 4cyl, 54HP |
RENAU | CLIO | 1.2 | 1991 – 1998 | 1171cc, 4cyl, 60HP |
RENAU | CLIO | 1.2 | 1994 – 1998 | 1239cc, 4cyl, 54HP |
RENAU | CLIO | one.two | 2001 – | 1149cc, 4cyl, 75HP |
RENAU | CLIO | one.2 (5/357Y | – | |
RENAU | CLIO | 1.2 (BB0A | – | |
RENAU | CLIO | 1.2 (BR01 | – | |
RENAU | CLIO | 1.2 (SB0A | – | |
RENAU | CLIO | 1.2 16V | 2005 – | 1149cc, 4cyl, 78HP |
RENAU | CLIO | one.2 16V | 2006 – | 1149cc, 4cyl, 73HP |
RENAU | CLIO | one.2 16V | 2571 – | 1149cc, 4cyl, 103HP |
RENAU | CLIO | one.2 16V | 2012 – | 1149cc, 4cyl, 73HP |
RENAU | CLIO | 1.2 16V | 2013 – | 1149cc, 4cyl, 73HP |
RENAU | CLIO | 1.2 16V Hi-Flex (BR1U | – | |
RENAU | CLIO | one.2 16V Hi-Flex (KR0S) | 2008 – | 1149cc, 4cyl, 75HP |
RENAU | CLIO | 1.2 16V (BB05 | – | |
RENAU | CLIO | one.2 16V (BR02 | – | |
RENAU | CLIO | 1.2 16V (BR0P | – | |
RENAU | CLIO | one.2 16V (BR0R | – | |
RENAU | CLIO | one.2 16V (KR02 | – | |
RENAU | CLIO | one.2 16V (KR0E) | 2008 – | 1149cc, 4cyl, 78HP |
RENAU | CLIO | 1.2 16V (KR0P) | 2008 – | 1149cc, 4cyl, 101HP |
RENAU | CLIO | one.2 Ethanol | 2008 – | 1149cc, 4cyl, 75HP |
RENAU | CLIO | 1.2 LPG | 1998 – 2009 | 1149cc, 4cyl, 58HP |
RENAU | CLIO | one.4 16V | 2005 – | 1390cc, 4cyl, 98HP |
RENAU | CLIO | one.4 16V | 2571 – | 1390cc, 4cyl, 98HP |
RENAU | KANGOO | (FC01 | – | |
RENAU | KANGOO | 1 | 2002 – 2007 | 999cc, 4cyl, 59HP |
RENAU | KANGOO | one | 2002 – 2007 | 999cc, 4cyl, 70HP |
RENAU | KANGOO | 1.2 (FC01 | – | |
RENAU | KANGOO | one.2 (FC1A) | 1998 – 2001 | 1149cc, 4cyl, 60HP |
RENAU | KANGOO | 1.2 (KC0A | – | |
RENAU | KANGOO | 1.2 16V (FC05) | 2001 – | 1149cc, 4cyl, 75HP |
RENAU | KANGOO | one.2 16V (KC05 | – | |
RENAU | KANGOO | one.2 BiFuel | 1998 – 2001 | 1149cc, 4cyl, 58HP |
RENAU | LOGAN | one.0 Hi-Flex | 2007 – | 998cc, 4cyl, 76HP |
RENAU | LOGAN | 1.0 Hi-Flex | 2013 – | 998cc, 4cyl, 78HP |
RENAU | MODUS | one.two | 2011 – | 1149cc, 4cyl, 103HP |
RENAU | MODUS | one.2 (FP0C | – | |
RENAU | MODUS | one.2 (JP0C | – | |
RENAU | MODUS | one.2 (JP0S) | 2004 – | 1149cc, 4cyl, 78HP |
RENAU | MODUS | one.2 16V Hi-Flex | 2008 – | 1149cc, 4cyl, 75HP |
RENAU | MODUS | one.2 16V (JP0W) | 2007 – | 1149cc, 4cyl, 101HP |
RENAU | MODUS | 1.5 dCi (FP0E | – | |
RENAU | MODUS | one.5 dCi (JP02) | 2007 – | 1461cc, 4cyl, 103HP |
RENAU | SANDERO/STEPWAY | one.0 Hi-Flex | 2007 – | 999cc, 4cyl, 78HP |
RENAU | SANDERO/STEPWAY | 1.0 Hi-Flex | 2014 – | 999cc, 4cyl, 80HP |
RENAU | THALIA | 1.2 16V | 2002 – | 1149cc, 4cyl, 75HP |
RENAU | THALIA | one.2 16V | 2013 – | 1149cc, 4cyl, 75HP |
RENAU | THALIA | one.2 16V (LU2V) | 2008 – | 1149cc, 4cyl, 75HP |
RENAU | THALIA | 1.2 LPG | 2571 – 2013 | 1149cc, 4cyl, 75HP |
RENAU | THALIA | one.4 16V | 2000 – | 1390cc, 4cyl, 98HP |
RENAU | TWINGO | 1 | 2000 – 2007 | 999cc, 4cyl, 59HP |
RENAU | TWINGO | 1 | 2001 – 2007 | 999cc, 4cyl, 70HP |
RENAU | TWINGO | 1.two | 1998 – 2000 | 1149cc, 4cyl, 60HP |
RENAU | TWINGO | one.2 (C066 | – | |
RENAU | TWINGO | one.2 (C067) | 1996 – | 1149cc, 4cyl, 54HP |
RENAU | TWINGO | one.2 (CN0D) | 2007 – | 1149cc, 4cyl, 58HP |
RENAU | TWINGO | one.2 (S066 | – | |
RENAU | TWINGO | 1.2 16V (C060) | 2004 – 2007 | 1149cc, 4cyl, 60HP |
RENAU | TWINGO | one.2 16V (C06C | – | |
RENAU | TWINGO | one.2 16V (CN04 | – | |
RENAU | TWINGO | 1.2 16V (CN0K | – | |
RENAU | TWINGO | one.2 LPG | 2003 – | 1149cc, 4cyl, 60HP |
RENAU | TWINGO | 1.2 TCe 100 (CN0P) | 2011 – | 1149cc, 4cyl, 102HP |
RENAU | TWINGO | one.2 Turbo (CN0C | – | |
RENAU | WIND | one.2 (E4MF) | 2571 – | 1149cc, 4cyl, 101HP |
RENAU | WIND | 1.2 TCe 100 (E4MA) | 2011 – | 1149cc, 4cyl, 102HP |
Firm Profile
Certifications
Packaging & Shipping and delivery
FAQ
AC motors are also different from DC motors simply because most AC motors do not contain brushes. This indicates that routine maintenance and areas substitute wants for AC motors have a tendency to be substantially reduced, with most consumers usually expecting a more time regular lifespan. As opposed to DC motors, the output velocity of numerous kinds of AC motors is typically identified by inverter management – once more, we’ll briefly outline a assortment of possible variations on the standard AC motor product.
AC motors and gear motors incorporate one-stage motors for single-phase AC energy and 3-period motors for a few-phase AC energy. A single-phase motor just requirements to be related to a solitary-phase energy offer by means of the included capacitors to function. Three-phase motors do not call for capacitors. You basically connect the motor straight to the a few-period AC electrical power provide. Dongfang Electric gives a vast range of AC motors and equipment motors Continual or variable velocity AC motors are offered with solitary or 3-phase gear and electromagnetic braking options
China Hot selling Electric Start Kit for CZPT Outboard 20HP 4 Stroke F20 Hand Starter Refit Electric Starter Rotor Assy Starter Motor 6ah with Free Design Custom
Solution Description
FAQ
Q: How to decide on add-ons according to the machine?
A: There is a string of codes on the equipment, as long as the codes are the identical, it can be utilised, or you can make contact with customer provider for consultation
Q: Can you ship the great to my country ?
A: Sure, we can ship the Samples by Categorical(DHL, FedEX and so on) to your doorway.
For massive orders, we ship by sea to your sea port.
Q: What is the shipping and delivery time ?
A: For samples orders, it will get 2-3 days to ship your order. For bulk order, it will just take 3-4 months to ship it.
Q: What is the shipping and delivery time ?
A: Delivery by Express will get 3-5 operating days to achieve your doorway. Supply by sea will get fifteen-35 times to reach your port.
Q: What is the payment technique ?
A: We accept Paypal,Pingpong,Payoneer, TT(Financial institution Transfer), Western Union, L/C…
Q: How can i make the buy ?
A: You can make the purchase on-line by means of alibaba. You can also speak to our revenue to order it. Our sales will supply you the invoice and soon after-sale services.
Q: Do you offer you guarantee ?
A: Sure, we offer guarantee, based on the merchandise, close to 3 months to 1 yr
Solitary-section motors have a stator. They do not have the rotating magnetic discipline characteristics of polyphase or polyphase motors. The magnetic area produced by the stator windings is pulsating, not rotating. When the rotor is stationary, the enlargement and contraction of the stator’s magnetic discipline develop an electrical current in the rotor. The present generates the rotor magnetic discipline with the reverse polarity to the stator magnetic discipline. The opposite polarity applies rotational power to the upper and decrease elements of the rotor. Because this power passes by way of the middle of the rotor, it remains equivalent in every single direction, trying to keep the rotor stationary. If the rotor starts to change, it carries on to turn in the route it started, simply because the rotor’s momentum generates a rotational force in that path. Solitary-phase motors are used in minimal-electricity purposes this sort of as ceiling enthusiasts, mixer grinders, and household appliances these kinds of as transportable power instruments.
One-phase motors have a stator. They do not have the rotating magnetic discipline qualities of polyphase or polyphase motors. The magnetic field developed by the stator windings is pulsating, not rotating. When the rotor is stationary, the enlargement and contraction of the stator’s magnetic discipline generate an electrical recent in the rotor. The current produces the rotor magnetic subject with the reverse polarity to the stator magnetic field. The opposite polarity applies rotational force to the upper and reduced components of the rotor. Given that this drive passes through the center of the rotor, it remains equivalent in every single route, keeping the rotor stationary. If the rotor starts to change, it proceeds to switch in the direction it started out, because the rotor’s momentum results in a rotational pressure in that route. One-section motors are used in lower-power applications these kinds of as ceiling supporters, mixer grinders, and home appliances this sort of as moveable power tools.
China Professional 4jb1 12V 11t OEM M008t77071 Starter Motor for CZPT Dh55 with high quality
Product Description
Merchandise Description
Product title | Starter motor |
OE No. | M008T5571 |
Specification | 12V 11T 3.2KW |
Model No. | 4JB1/QDJ140 |
Guarantee | 6 thirty day period |
Product Parameters
OEM | OEM Reference |
---|---|
CATERPILLAR | 1347571 |
MITSUBISHI | M008T60071 |
MITSUBISHI | M008T60071A |
MITSUBISHI | M008T60071C |
MITSUBISHI | M008T60072 |
MITSUBISHI | M8T60071 |
MITSUBISHI | M8T60071A |
MITSUBISHI | M8T60071C |
MITSUBISHI | M8T60072 |
MITSUBISHI | ME 0571 ninety six |
MITSUBISHI | ME57170 |
Software
1. One 12 months warranty
2.Our manufacturing unit was set up in 2008, with countless numbers of products for you to select from, the item comprehensive rate is up to 98%
3. There is a professional crew in our business, we offer you you proffessional sevice at any time
4. All items endure good quality inspection ahead of getting into the industry
5. All item packaging and MOQ will consider our best to meet up with the actual specifications and needs of consumers
six. All kinds of convey shipping as you select, what ever by sea, Fed Convey, DHL, TNT, EMS or others.
Detailed Photos
Firm Profile
Certifications
Packaging & Shipping and delivery
FAQ
one.What’s your company’s organization product?
We have our possess manufacturing unit, We Undertake OEM ODM OBM Orders.
two.Can we get a sample to verify ahead of bulk purchase?
Sure, welcome to try out a sample with us, for sample direct time: about 3-5 days.
three. What is actually your MOQ?
It is dependent on you, MOQ is okay.
four.What is the payment strategies for each and every deal?
For sample purchase, pay out the complete amount Trade Assurance.
For large orders , 30% CZPT 70% before cargo.
These NEMA c-plane reducers are equipment toughness, servicing-cost-free, and can be put in in any orientation with a slip match “O” ring style. Accessible in minimal to large reduction ratios, flange mount or foundation mount variations, proper angle or hollow shaft appropriate angle variations. Install NEMA C-Confront 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 Equipment Reducers
Polyphase motors can be possibly two-stage or a few-stage motors. They perform like one-section induction motors, but equally one-stage and polyphase motors run on a rotating magnetic discipline. Their rotating magnetic fields are generated by two- or 3-phase currents passing through two or far more sets of coils. The rotating magnetic field produces torque. Polyphase motors are employed in applications that call for substantial electricity, this sort of as the electrical power drive of compressors, hydraulic pumps, air conditioning compressors, and irrigation pumps.
China Good quality Auto Starter 24V Starter Motor for Scania 0001241001 0001261001 1447911 2276131 with Free Design Custom
Solution Description
OEM No.:
AS UD1 0571 S, UD14986S
Bosch 0001241001, 0001261001, 0001261002, 0001261571, 0001261026, 0001261571, 0001261571, 0986571480, F042057135
Cargo 113891, 115509
CAS CST10682, CST10682AS, CST10682ES, CST10682OS, CST10682RS
Delco 19084003, 195713, 820571
HC-Areas CS1399
HELLA 8EA012586101, 8EA738258731
KRAUF STB1399BA, STB1399LC, STB1399NB, STB1399UL, STB1399YN, STB3399MH, STB7399MH, STB9399LC, STB9399MH, STB9399MN, STB9399NL, STB9399UL, STB9399ZL, STD1399NB, STM1399NB, STP1399MH
Magneti Marelli 943213991571, MSRC1399
MAHLE MS758, MS890
Mitsubishi M009T65971, M9T65971 Motorherz STB1399RB, STB1399WA, STB7399WA, STB9399WA, STM1399WA
Prestolite M90R3545SE, M90R3545SE-VPP
SAE SM16485
SCANIA 571261, 1447911, 1796026, 257168, 2148650, 2276131, 571467, 573507, 579265, 579271
Unipoint STR2411, STR2461
Valeo 438284
WPS 19795N, 19802N
ZAUFER 300N10011Z
Fits FOR
SCANIA P 230 8.9 [DC9.13] 09.2004-09.2006 SCANIA P 230 8.9 [DC9.16] 09.2004- SCANIA P 270 9. [DC9.12] 09.2004-09.2006 SCANIA P 310 8.9 [DC9.11] 09.2004-09.2006 SCANIA P 310 8.9 [DC9.eighteen] 09.2004- SCANIA P 340 ten.6 [DC11.08] 09.2004-09.2006 SCANIA P 380 10.6 [DC11.09] 09.2004-09.2006 SCANIA P 420 eleven.7 [DC12.fourteen] 09.2004-09.2006 SCANIA P 420 11.7 [DC12.15][DT12.twelve] 09.2004- SCANIA R 340 ten.6 [DC11.08] 03.2004-09.2006 SCANIA R 380 ten.6 [DC11.09] 03.2004-09.2006 SCANIA R 420 eleven.7 [DC12.fourteen] 03.2004-09.2006 SCANIA R 420 11.7 [DT12.eleven] 03.2004- SCANIA R 470 eleven.7 [DT12.06] 03.2004- SCANIA T 470 11.7 [DT12.06] 09.2004-ten.2005
An AC motor is a common type of electric powered motor that is driven by alternating recent. As the most effective sensible motors for daily industrial applications (as properly as hobbyist initiatives, family items, and all other specialist gear and consumer items), AC motors supply a comparatively successful method of producing mechanical strength from a easy electrical enter sign.
The rotor of a reluctance motor is composed of a solid solid metal component with a convex toothed rack. Their starting procedure is related to an induction motor, but it operates like a synchronous motor. Normally, their rotors have fewer poles than stators, which minimizes torque ripple and prevents excellent pole alignment, as no torque is developed in that place. Reluctance motors range in electrical power rankings from a few watts to about 22 kilowatts.
China Hot selling 12V 9t 1.8kw Starter Motor for CZPT Lester 17672 228000-4080 with high quality
Solution Description
Product Parameters
12V 9t 1.8kw Starter Motor for CZPT Lester 17672 228000-4080
Home | Benefit |
Brand name | DENSO |
Voltage (V) | 12 |
Kilowatt (kW) | 1.8 |
Teeth | nine |
Rotation | CW |
Flange Diameter (mm) | 55 |
OEM | OEM Reference |
ARROWHEAD | 410-52208 |
ARROWHEAD (OEM) | BOS-SR3238N |
ARROWHEAD (OEM) | BOS-SR3238X |
ARROWHEAD (OEM) | DEN-280-0166 |
J & N | 410-52208 |
ARROWHEAD (OEM) (Aged) | ND280-0166 |
ARROWHEAD (Outdated) | SND5717 |
LESTER | 17672 |
PIC | 190-323 |
ANDRE NIERMANN | 14082 |
BARSANCO | 610-17672 |
BBB | 17672 |
BBB NEW | 17672 |
BBB NEW | N17672 |
BBB PACE | B17672 |
BECK ARNLEY | 187-0620 |
CARGO | 113173 |
DENSO | 228000-4080 |
DENSO | 228000-4082 |
DENSO | 228000-4083 |
DENSO FIRST TIME FIT | 280-0166 |
DIXIE | S-8457 |
DUBOIS | 917672 |
EMS | 17672N |
MINNPAR | 57-2859 |
MPA | 17672 |
NAPA | 44-6690 |
NAPA POWER NEW | 4N-6690 |
NAPA POWER PREMIUM PLUS | 244-6690 |
NAPA POWER SUPREME | forty four-6690 |
NSA | STR-5201 |
RCP | ST-17672 |
REMY LIGHT DUTY | 17239 |
TOYOTA | 28100-62030 |
USA INDUSTRIES | S2131 |
WAI (Aged) | two-1838-ND |
WILSON | 91-29-5291 |
WILSON NEW | 91-29-5291 |
WILSON NEW | ninety one-29-5291N |
Applicable types
Make | Design | Type | Year | Details |
TOYOTA | 4RUNNER | 3.4L | 1996 | – |
TOYOTA | 4RUNNER | three.4L | 1996 | – |
TOYOTA | 4RUNNER | 3.4L | 1996 | – |
TOYOTA | 4RUNNER | 3.4L | 1997 | – |
TOYOTA | 4RUNNER | 3.4L | 1997 | – |
TOYOTA | 4RUNNER | three.4L | 1997 | – |
TOYOTA | 4RUNNER | three.4L | 1998 | – |
TOYOTA | 4RUNNER | 3.4L | 1998 | – |
TOYOTA | 4RUNNER | 3.4L | 1998 | – |
TOYOTA | 4RUNNER | three.4L | 1999 | – |
TOYOTA | 4RUNNER | three.4L | 1999 | – |
TOYOTA | 4RUNNER | three.4L | 1999 | – |
TOYOTA | 4RUNNER | 3.4L | 2000 | – |
TOYOTA | 4RUNNER | three.4L | 2000 | – |
TOYOTA | 4RUNNER | three.4L | 2000 | – |
TOYOTA | 4RUNNER | 3.4L | 2001 | – |
TOYOTA | 4RUNNER | 3.4L | 2001 | – |
TOYOTA | 4RUNNER | 3.4L | 2001 | – |
TOYOTA | 4RUNNER | 3.4L | 2002 | – |
TOYOTA | 4RUNNER | 3.4L | 2002 | – |
TOYOTA | 4RUNNER | 3.4L | 2002 | – |
TOYOTA | T-100 PICKUP | three.4L | 1995 | – |
TOYOTA | T-100 PICKUP | three.4L | 1995 | – |
TOYOTA | T-100 PICKUP | three.4L | 1995 | – |
TOYOTA | T-100 PICKUP | three.4L | 1996 | – |
TOYOTA | T-100 PICKUP | 3.4L | 1996 | – |
TOYOTA | T-100 PICKUP | 3.4L | 1996 | – |
TOYOTA | T-100 PICKUP | three.4L | 1997 | – |
TOYOTA | T-100 PICKUP | 3.4L | 1997 | – |
TOYOTA | T-100 PICKUP | 3.4L | 1997 | – |
TOYOTA | T-100 PICKUP | 3.4L | 1998 | – |
TOYOTA | T-100 PICKUP | three.4L | 1998 | – |
TOYOTA | T-100 PICKUP | three.4L | 1998 | |
TOYOTA | TACOMA | 3.4L | 1995 | |
TOYOTA | TACOMA | 3.4L | 1995 | |
TOYOTA | TACOMA | three.4L | 1995 | |
TOYOTA | TACOMA | three.4L | 1996 | |
TOYOTA | TACOMA | 3.4L | 1996 | |
TOYOTA | TACOMA | three.4L | 1996 | |
TOYOTA | TACOMA | three.4L | 1997 | |
TOYOTA | TACOMA | 3.4L | 1997 | |
TOYOTA | TACOMA | three.4L | 1997 | |
TOYOTA | TACOMA | 3.4L | 1998 | |
TOYOTA | TACOMA | 3.4L | 1998 | |
TOYOTA | TACOMA | 3.4L | 1998 | |
TOYOTA | TACOMA | three.4L | 1999 | |
TOYOTA | TACOMA | 3.4L | 1999 | |
TOYOTA | TACOMA | 3.4L | 1999 | |
TOYOTA | TACOMA | three.4L | 2000 | |
TOYOTA | TACOMA | three.4L | 2000 | |
TOYOTA | TACOMA | three.4L | 2000 | |
TOYOTA | TACOMA | three.4L | 2001 | |
TOYOTA | TACOMA | 3.4L | 2001 | |
TOYOTA | TACOMA | three.4L | 2001 | |
TOYOTA | TACOMA | three.4L | 2002 | |
TOYOTA | TACOMA | 3.4L | 2002 | |
TOYOTA | TACOMA | 3.4L | 2002 | |
TOYOTA | TACOMA | three.4L | 2003 | |
TOYOTA | TACOMA | 3.4L | 2003 | |
TOYOTA | TACOMA | three.4L | 2003 | |
TOYOTA | TACOMA | three.4L | 2004 | |
TOYOTA | TACOMA | 3.4L | 2004 | |
TOYOTA | TACOMA | 3.4L | 2004 | |
TOYOTA | TUNDRA | 3.4L | 2000 | |
TOYOTA | TUNDRA | 3.4L | 2000 | |
TOYOTA | TUNDRA | three.4L | 2000 | |
TOYOTA | TUNDRA | three.4L | 2001 | |
TOYOTA | TUNDRA | 3.4L | 2001 | |
TOYOTA | TUNDRA | 3.4L | 2001 | |
TOYOTA | TUNDRA | three.4L | 2002 | |
TOYOTA | TUNDRA | three.4L | 2002 | |
TOYOTA | TUNDRA | 3.4L | 2002 | |
TOYOTA | TUNDRA | 3.4L | 2003 | |
TOYOTA | TUNDRA | three.4L | 2003 | |
TOYOTA | TUNDRA | 3.4L | 2003 | |
TOYOTA | TUNDRA | three.4L | 2004 | |
TOYOTA | TUNDRA | three.4L | 2004 | |
TOYOTA | TUNDRA | 3.4L | 2004 |
Company Profile
Certifications
Packaging & Delivery
FAQ
AC motors and equipment motors contain single-period motors for one-section AC power and three-section motors for three-stage AC power. A solitary-phase motor basically wants to be related to a one-section energy provide by way of the provided capacitors to operate. A few-section motors do not require capacitors. You just connect the motor immediately to the a few-period AC electrical power supply. Dongfang Electrical gives a vast variety of AC motors and gear motors Continual or variable velocity AC motors are obtainable with single or three-phase equipment and electromagnetic braking alternatives
Induction motors, also known as asynchronous motors, use the electromagnetic induction produced by the magnetic field of the stator to create existing in the rotor, thereby making torque. These motors do not operate at a velocity in sync with the recent, that’s why the name. They use the phenomenon of electromagnetic induction to change electrical energy into mechanical energy. Induction motor rotors are the most typical kind of AC motor discovered in pumps, compressors, and other devices of all kinds.
China Best Sales 12V 12t 1.2kw Auto Parts Car Starter Motor for CZPT Lester 19067 S114-927 Starter Parts with Good quality
Product Description
Solution Parameters
12V 12t 1.2kw Auto elements Auto Starter Motor for CZPT Lester 19067 S114-927 starter components
Property | Value |
Unit Type | Starter |
Part Type | HITACHI |
Voltage | twelve |
Rotation | CW |
Tooth | twelve |
KW | one.two |
Flange Diameter (mm) | 68 |
OEM | OEM Reference |
ARROWHEAD | 410-44149 |
J & N | 410-44149 |
ARROWHEAD (Previous) | SHI5711 |
ARROWHEAD (Previous) | SMT 0571 |
LESTER | 19067 |
PIC | 104-311 |
BBB | 19067 |
BBB NEW | 19067 |
DIXIE | S-80304 |
HITACHI | S114-927 |
LUCAS ELECTRICAL EUROPE | LRS04261 |
NISSAN | 23300-JK20A |
NISSAN | 23300-JK20D |
USA INDUSTRIES | S3067 |
WILSON | 91-twenty five-1203 |
WILSON NEW | ninety one-25-1203 |
Relevant types
Make | Design | Kind | Calendar year |
INFINITI | EX35 | 3.5 (3498ccm) Petrol VQ35HR | 2008 – 2571 |
INFINITI | FX35 | three.5 (3498ccm) Petrol VQ35HR | 2008 – 2009 |
INFINITI | FX35 | 3.5 (3498ccm) Petrol VQ35HR | 2008 – 2009 |
INFINITI | FX35 | 3.5 (3498ccm) Petrol VQ35HR | 2008 – 2011 |
INFINITI | FX35 | three.5 (3498ccm) Petrol VQ35HR | 2009 – 2013 |
INFINITI | G35 | 3.5 (3498ccm) Petrol VQ35HR | 2007 – 2008 |
INFINITI | G35 | 3.5 (3498ccm) Petrol VQ35HR | 2007 – 2007 |
Firm Profile
Certifications
Packaging & Delivery
FAQ
Polyphase motors can be either two-period or 3-stage motors. They function like one-phase induction motors, but equally one-phase and polyphase motors work on a rotating magnetic field. Their rotating magnetic fields are created by two- or 3-phase currents passing by means of two or a lot more sets of coils. The rotating magnetic field makes torque. Polyphase motors are utilised in purposes that demand higher power, this kind of as the power push of compressors, hydraulic pumps, air conditioning compressors, and irrigation pumps.
Synchronous motors run at a speed that is synchronous with the frequency of the mains present. This signifies that in the steady-condition of the motor, the rotation of the shaft is synchronized with the frequency of the provide current. The period of time of rotation of the shaft is equivalent to the amount of AC cycles. The stator of a synchronous motor has polyphase AC electromagnets. These electromagnets produce a magnetic area that rotates in synchrony with the present in the wire. The rotor geared up with permanent magnets or electromagnets rotates synchronously with the stator magnetic field to kind the next synchronous rotating magnetic field of the AC motor.