Tag Archives: linear motor

China factory Electric Linear Actuator Motor 3000n IP54 12V for Machines vacuum pump engine

Product Description

DLA-F model: internal limit switch, no feedback
DLA-FD model: internal limit switch, potentiometer feedback.
DLA-FL model: internal limit switch, brushless motor

We have very strong design ability, welcome to send inquiry to us.

Why choose us?

” QUALITY IS OUR CULTURE “
“WITH US YOUR MONEY IN SAFE YOUR BUSINESS IN SAFE” 

1.Competitive Advantage Products
2.Full REFUND in case of Bad quality OR Late Delivery
3.Payment By Paypal, Western Union, TT etc we all can accept.
4.Confidentiality Agreement ” Business Secret CONTRACT ”
5.Quality Assurance CONTRACT
6.Small Order Welcomed


If you want to got more detail parameters and drawing for this linear actuator,
please contact us freely,
we can send to you by email.

Packaging & Shipping  
 1.Export Standard packing which can withstand rough handling.
 2.Samples’ delivery time:3-5 working days after we received the deposit.
  3.Bulk quantity delivery time: according to the specific quantity.
4. Delivery term: FOB & CIF & CFR & EXW
5. Shipment: your appointed forwarder is acceptable or we send to your Chinese agent

Our Services  
 1.Customization and OEM are welcome.
2. Trade assurance orders are favored.  
3. Other service which you need.

About Us:
 
HangZhou CHINAMFG Mechanical Electronic Co.,Ltd, establish in 2011, located in  Yangtze River CHINAMFG economic
zone, HangZhou City.
We are the factory which gathers production and sales of all kind gas springs and liner actuators. Our mainly
products are all kinds of DC linear actuators, AC linear actuators, servo linear actuators, lift gas springs,
lockable gas springs etc.
Our gas springs and liner actuators are mainly used for all kinds of recliner, massage chair, beds, windows, solar
equipments, cars, buses, furnitures, boats , medical equipment, beauty chairs, aviation, many machines , agriculture
machine equipment and so on.        
CHINAMFG has strict quality control system, and full sets of advanced equipment. We have flexible mode of operation,
stable quality, complete catalog, excellent quality. CHINAMFG enjoys a good reputation in domestic and foreign market.
Our product exports to Europe, America, Southeast Asia, the Middle East, Russia, Africa and other countries.
CHINAMFG now is growing and expanding, we have customers throughout the world.
  We sincerely hope: Hand in hand, we together create a better future!

The parameters we can customized for you only if you can provide the detail info to us.
If you are interested and want to get more info, please contact me freely.
 

 
 

  /* 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: Universal, Industrial, Household Appliances, Car, Power Tools, Machines
Operating Speed: 3.5-30mm/S
Function: Control, Driving
Casing Protection: Protection Type
Structure and Working Principle: Brush
Certification: ISO9001, CCC
Samples:
US$ 58/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

electric motor

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

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

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

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

electric motor

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

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

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

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

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

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

electric motor

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 factory Electric Linear Actuator Motor 3000n IP54 12V for Machines   vacuum pump engine	China factory Electric Linear Actuator Motor 3000n IP54 12V for Machines   vacuum pump engine
editor by CX 2024-05-16

China Hot selling 12 Volt Electric Cylinder Linear Actuator Motor a/c vacuum pump

Product Description

Similar models: 
DLA-AE with encoder feedback.
DLA-APD with potentiometer feedback.
DLA-AS with stepper motor
DLA-AP max load 1500N, no position feedback.

We have very strong design ability, welcome to send inquiry to us.

Why choose us?

” QUALITY IS OUR CULTURE “
“WITH US YOUR MONEY IN SAFE YOUR BUSINESS IN SAFE” 

1.Competitive Advantage Products
2.Full REFUND in case of Bad quality OR Late Delivery
3.Payment By Paypal, Western Union, TT etc we all can accept.
4.Confidentiality Agreement ” Business Secret CONTRACT ”
5.Quality Assurance CONTRACT
6.Small Order Welcomed


If you want to got more detail parameters and drawing for this linear actuator,
please contact us freely,
we can send to you by email.

Packaging & Shipping  
 1.Export Standard packing which can withstand rough handling.
 2.Samples’ delivery time:3-5 working days after we received the deposit.
  3.Bulk quantity delivery time: according to the specific quantity.
4. Delivery term: FOB & CIF & CFR & EXW
5. Shipment: your appointed forwarder is acceptable or we send to your Chinese agent

Our Services  
 1.Customization and OEM are welcome.
2. Trade assurance orders are favored.  
3. Other service which you need.

About Us:
 
HangZhou CHINAMFG Mechanical Electronic Co.,Ltd, establish in 2011, located in  Yangtze River CHINAMFG economic
zone, HangZhou City.
We are the factory which gathers production and sales of all kind gas springs and liner actuators. Our mainly
products are all kinds of DC linear actuators, AC linear actuators, servo linear actuators, lift gas springs,
lockable gas springs etc.
Our gas springs and liner actuators are mainly used for all kinds of recliner, massage chair, beds, windows, solar
equipments, cars, buses, furnitures, boats , medical equipment, beauty chairs, aviation, many machines , agriculture
machine equipment and so on.        
CHINAMFG has strict quality control system, and full sets of advanced equipment. We have flexible mode of operation,
stable quality, complete catalog, excellent quality. CHINAMFG enjoys a good reputation in domestic and foreign market.
Our product exports to Europe, America, Southeast Asia, the Middle East, Russia, Africa and other countries.
CHINAMFG now is growing and expanding, we have customers throughout the world.
  We sincerely hope: Hand in hand, we together create a better future!

The parameters we can customized for you only if you can provide the detail info to us.
If you are interested and want to get more info, please contact me freely.
 

 
 

  /* 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: Universal, Industrial, Household Appliances, Car, Power Tools, Machines
Operating Speed: 5-40mm/S
Function: Control, Driving
Casing Protection: Protection Type
Structure and Working Principle: Brush
Certification: ISO9001, CCC
Samples:
US$ 38/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

electric motor

Can you provide examples of machinery or equipment that rely on electric motors?

Electric motors are extensively used in various machinery and equipment across different industries. They play a crucial role in converting electrical energy into mechanical energy to power a wide range of applications. Here are some examples of machinery and equipment that heavily rely on electric motors:

  • Industrial Machinery: Electric motors are found in numerous industrial machinery and equipment, such as pumps, compressors, fans, conveyors, agitators, mixers, and machine tools. These motors provide the necessary power for moving fluids, gases, and materials, as well as driving mechanical processes in manufacturing, mining, construction, and other industrial applications.
  • Electric Vehicles: Electric motors are the primary propulsion system in electric vehicles (EVs) and hybrid electric vehicles (HEVs). They provide the power needed to drive the wheels and propel the vehicle. Electric motors in EVs and HEVs offer high efficiency, instant torque, and regenerative braking capabilities, contributing to the advancement of sustainable transportation.
  • Household Appliances: Many household appliances rely on electric motors for their operation. Examples include refrigerators, air conditioners, washing machines, dishwashers, vacuum cleaners, blenders, and electric fans. Electric motors enable the movement, cooling, or mechanical functions in these appliances, enhancing convenience and efficiency in daily household tasks.
  • HVAC Systems: Heating, ventilation, and air conditioning (HVAC) systems utilize electric motors for various functions. Motors power the fans in air handling units, circulate air through ducts, and drive compressors in air conditioning and refrigeration systems. Electric motors in HVAC systems contribute to efficient temperature control and air circulation in residential, commercial, and industrial buildings.
  • Medical Equipment: Electric motors are essential components in a wide array of medical equipment. Examples include MRI machines, X-ray machines, CT scanners, surgical robots, dental drills, infusion pumps, and patient lifts. These motors enable precise movements, imaging capabilities, and mechanical functions in medical devices, supporting diagnostics, treatment, and patient care.
  • Power Tools: Electric motors are commonly used in power tools such as drills, saws, grinders, sanders, and routers. They provide the rotational force and power required for cutting, shaping, drilling, and other tasks. Electric motors in power tools offer portability, ease of use, and consistent performance for both professional and DIY applications.
  • Aircraft Systems: Electric motors are increasingly utilized in aircraft systems. They power various components, including landing gear actuation systems, fuel pumps, hydraulic systems, and cabin air circulation systems. Electric motors in aircraft contribute to weight reduction, energy efficiency, and improved reliability compared to traditional hydraulic or pneumatic systems.

These examples represent just a fraction of the machinery and equipment that rely on electric motors. From industrial applications to household appliances and transportation systems, electric motors are integral to modern technology, providing efficient and reliable mechanical power for a wide range of purposes.

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

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 Hot selling 12 Volt Electric Cylinder Linear Actuator Motor   a/c vacuum pump		China Hot selling 12 Volt Electric Cylinder Linear Actuator Motor   a/c vacuum pump
editor by CX 2024-05-16

China Hot selling 12V DC Linear Actuator IP66 12000n Electric Motor for Agriculture Machines with Remote Controller vacuum pump belt

Product Description

DLA-Q model: internal limit switch, no feedback
DLA-QH model: internal limit switch, hall sensor feedback.

We have very strong design ability, welcome to send inquiry to us.

Why choose us?

” QUALITY IS OUR CULTURE “
“WITH US YOUR MONEY IN SAFE YOUR BUSINESS IN SAFE” 

1.Competitive Advantage Products
2.Full REFUND in case of Bad quality OR Late Delivery
3.Payment By Paypal, Western Union, TT etc we all can accept.
4.Confidentiality Agreement ” Business Secret CONTRACT ”
5.Quality Assurance CONTRACT
6.Small Order Welcomed


If you want to got more detail parameters and drawing for this linear actuator,
please contact us freely,
we can send to you by email.

Packaging & Shipping  
 1.Export Standard packing which can withstand rough handling.
 2.Samples’ delivery time:3-5 working days after we received the deposit.
  3.Bulk quantity delivery time: according to the specific quantity.
4. Delivery term: FOB & CIF & CFR & EXW
5. Shipment: your appointed forwarder is acceptable or we send to your Chinese agent

Our Services  
 1.Customization and OEM are welcome.
2. Trade assurance orders are favored.  
3. Other service which you need.

About Us:
 
HangZhou CHINAMFG Mechanical Electronic Co.,Ltd, establish in 2011, located in  Yangtze River CHINAMFG economic
zone, HangZhou City.
We are the factory which gathers production and sales of all kind gas springs and liner actuators. Our mainly
products are all kinds of DC linear actuators, AC linear actuators, servo linear actuators, lift gas springs,
lockable gas springs etc.
Our gas springs and liner actuators are mainly used for all kinds of recliner, massage chair, beds, windows, solar
equipments, cars, buses, furnitures, boats , medical equipment, beauty chairs, aviation, many machines , agriculture
machine equipment and so on.        
CHINAMFG has strict quality control system, and full sets of advanced equipment. We have flexible mode of operation,
stable quality, complete catalog, excellent quality. CHINAMFG enjoys a good reputation in domestic and foreign market.
Our product exports to Europe, America, Southeast Asia, the Middle East, Russia, Africa and other countries.
CHINAMFG now is growing and expanding, we have customers throughout the world.
  We sincerely hope: Hand in hand, we together create a better future!

The parameters we can customized for you only if you can provide the detail info to us.
If you are interested and want to get more info, please contact me freely.
 

  /* 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: Universal, Industrial, Household Appliances, Car, Power Tools, Machines
Operating Speed: 6.5-38mm/S
Function: Control, Driving
Casing Protection: Protection Type
Structure and Working Principle: Brush
Certification: ISO9001, CCC
Samples:
US$ 188/Piece
1 Piece(Min.Order)

|

Customization:
Available

|

electric motor

Can you provide examples of machinery or equipment that rely on electric motors?

Electric motors are extensively used in various machinery and equipment across different industries. They play a crucial role in converting electrical energy into mechanical energy to power a wide range of applications. Here are some examples of machinery and equipment that heavily rely on electric motors:

  • Industrial Machinery: Electric motors are found in numerous industrial machinery and equipment, such as pumps, compressors, fans, conveyors, agitators, mixers, and machine tools. These motors provide the necessary power for moving fluids, gases, and materials, as well as driving mechanical processes in manufacturing, mining, construction, and other industrial applications.
  • Electric Vehicles: Electric motors are the primary propulsion system in electric vehicles (EVs) and hybrid electric vehicles (HEVs). They provide the power needed to drive the wheels and propel the vehicle. Electric motors in EVs and HEVs offer high efficiency, instant torque, and regenerative braking capabilities, contributing to the advancement of sustainable transportation.
  • Household Appliances: Many household appliances rely on electric motors for their operation. Examples include refrigerators, air conditioners, washing machines, dishwashers, vacuum cleaners, blenders, and electric fans. Electric motors enable the movement, cooling, or mechanical functions in these appliances, enhancing convenience and efficiency in daily household tasks.
  • HVAC Systems: Heating, ventilation, and air conditioning (HVAC) systems utilize electric motors for various functions. Motors power the fans in air handling units, circulate air through ducts, and drive compressors in air conditioning and refrigeration systems. Electric motors in HVAC systems contribute to efficient temperature control and air circulation in residential, commercial, and industrial buildings.
  • Medical Equipment: Electric motors are essential components in a wide array of medical equipment. Examples include MRI machines, X-ray machines, CT scanners, surgical robots, dental drills, infusion pumps, and patient lifts. These motors enable precise movements, imaging capabilities, and mechanical functions in medical devices, supporting diagnostics, treatment, and patient care.
  • Power Tools: Electric motors are commonly used in power tools such as drills, saws, grinders, sanders, and routers. They provide the rotational force and power required for cutting, shaping, drilling, and other tasks. Electric motors in power tools offer portability, ease of use, and consistent performance for both professional and DIY applications.
  • Aircraft Systems: Electric motors are increasingly utilized in aircraft systems. They power various components, including landing gear actuation systems, fuel pumps, hydraulic systems, and cabin air circulation systems. Electric motors in aircraft contribute to weight reduction, energy efficiency, and improved reliability compared to traditional hydraulic or pneumatic systems.

These examples represent just a fraction of the machinery and equipment that rely on electric motors. From industrial applications to household appliances and transportation systems, electric motors are integral to modern technology, providing efficient and reliable mechanical power for a wide range of purposes.

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

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 Hot selling 12V DC Linear Actuator IP66 12000n Electric Motor for Agriculture Machines with Remote Controller   vacuum pump belt	China Hot selling 12V DC Linear Actuator IP66 12000n Electric Motor for Agriculture Machines with Remote Controller   vacuum pump belt
editor by CX 2024-05-14

China Good quality Linear Vibrating Screen Electric Vibrator Motor vacuum pump ac system

Product Description

ZheJiang Yuanben Intelligent Technology Co., Ltd. (hereinafter referred to as Yuanben) is a specialized manufacturer that focuses on designing and manufacturing intelligent vibrating screening equipment. The company is committed to the processing, production, research& development and design of new intelligent vibrating screen. Yuanben is located in the national center city, HangZhou, it owns more than 20 technical engineers, and cooperates deeply all along with ZheJiang Xihu (West Lake) Dis.an Mining Machinery Co., Ltd. which has years of dedicated production experience, in addition, Yuanben has its own processing research and development base.
”Build industry with wisdom, create value with wisdom”, under the promotion of “Internet+” concept, Yuanben will deeply integrate ”intelligence + digitalization” to build an intelligent workshop and realize the intelligence of overall process. While strengthening its own equipment automation intelligence, driving the transformation and upgrading of screening industry, the industry intelligent development should be also jointly promoted.
 

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High frequency vibration motor for sieve

Introduction
Vibration motor is equipped with a set of adjustable eccentric blocks at both ends of the rotor shaft,utilizing the centrifugal force generated by the high-speed rotation of the shaft and the eccentric block,thus the exciting force is obtained.It offer exciting vibration source for all kinds of vibrating machines such as vibrating screen, vibrating feeder, vibrating conveyor, vibrating flask shaker, vibrating crusher, vibrating molding machine, vibrating sand mixer, vibrating buffing machine, vibrating test-bed, etc.in power plant, building materials, grain, coal, mine, metallurgy, chemical industry, light industry, casting, railway, port and other industries. 

Features
1.Joint utilization of motors can be adopted to the synchronization of complete and different technological requirements.
2.The exciting force direction can be changed according to the installation of vibration motor.
3.Exciting force can be adjusted continuously by changing the angle of the eccentric block
4.Fully enclosed structure,dust-proof and water-proof,it can work under high requirement environment.
5.Large vibration force, light body weight, small volume,low mechanical noise,stable vibrating frequency.
6.Vibration frequency and amplitude can be customized according to different uses.
7.Complete ranges of specification to meet the needs of various types of vibration machinery.

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IP Grade
IP (INGRESS PROTECTION) grade system is drafted by IEC (INTERNATIONAL ELECTROTECHNICAL COMMISSION ).IP grade is composed of 2 numbers, the first number represents for anti-invasion grade of external objects and dust, the second number shows the sealing degree of anti- invasion of moisture and water, if the number is greater, the degree of protection will be higher.

Selection Conditions

♦What equipment does it work with,vibrating feeder, ♦Insulation grade:_________
vibrating screen,hopper wall vibrator,etc.?________ ♦Explosion-proof is required or not:_________
♦Rotation speed:________rpm (Ps. Yes or No)
♦Exciting force:_________KN ♦Working power supply: __V__HZ
♦Protection level:_________  

 Technical Parameter:
 

Model Excitation Force(kN) Power(kW) Electricity(A) Weight (kg)
XV-1.5-2 1.5 0.15 0.38 19
XV 2.5-2 2.5 0.25 0.58 24
XV  5-2 5 0.4 1.15 37
XV  8-2 8 0.75 1.84 53
XV 16-2 16 1.5 3.48 75
XV 2.5-4 2.5 0.25 0.58 27
XV 5-4 5 0.4 1.15 43
XV 8-4 8 0.75 1.84 61
XV 10-4 10 1 2.3 75
XV 16-4 16 1.5 3.48 107
XV 17-4 17 0.75 1.8 28
XV 20-4 20 2 4.1 135
XV 30-4 30 2.5 5.75 168
XV 50-4 50 3.7 7.4 168
XV 5-6 5 0.4 1.15 48
XV  8-6 8 0.75 1.84 65
XV 10-6 10 1 2.3 65
XV 12-6 12 1 2.1 82
XV 20-6 20 2 4.1 142
XV 30-6 30 2.5 5.75 180
XV 50-6 50 3.7 7.4 200
XV 75-6 75 5.5 11 370

About our factory:
In the situation of global economic integration and large and fierce competition international market, ZheJiang Xihu (West Lake) Dis.an Mining Machinery Co., Ltd (PK Machinery) takes the goal of creating a global strategy, and actively promotes technological and management innovation, as well as improves overseas business model, thus cultivates an highly qualified and inter-disciplinary talent team to adapt international market changes and overseas business development. In this case, PK Machinery can constantly enhance its international competitiveness so that could participate in  international competition and cooperation at a higher level and broader area as well as more ranges, meanwhile to lead the national industry realizing leap-forward development.

It is a information explosion century in 21st century. With the development of high-tech products and its widely application, the speed of global communication and integration has been accelerated. As a high-end mining equipment manufacturer, our company attaches great importance to technology exchange and strategic cooperation with other countries. What’s more, we actively expend overseas markets by mature products and perfect service systems. By the end of 2015, our products have been successfully exported to over 60 countries and regions, such as the United States, Canada, Brazil, Chile, Peru, the United Kingdom, Germany, Italy, Russia, Ukraine, Kazakhstan, Iran, Saudi Arabia, India, Pakistan, Malaysia, Thailand, South Africa, Ethiopia, Australia,etc.

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Application: Industrial
Speed: Variable Speed
Number of Stator: Three-Phase
Function: Driving, Control
Casing Protection: Closed Type
Number of Poles: 2/4/6/8
Samples:
US$ 200/Set
1 Set(Min.Order)

|

Customization:
Available

|

electric motor

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

When selecting the right electric motor for a task, several factors need to be considered to ensure optimal performance and compatibility. Here’s a detailed overview of the factors that should be taken into account:

  1. Load Requirements: The first consideration is understanding the specific load requirements of the task. This includes factors such as the torque or force needed to drive the load, the speed range required, and any variations in load that may occur. By accurately assessing the load requirements, you can determine the appropriate motor type, size, and characteristics needed to handle the task effectively.
  2. Motor Type: Different motor types are suited for specific applications. Common motor types include AC induction motors, brushless DC motors, brushed DC motors, and stepper motors. Each type has its own advantages and limitations in terms of speed range, torque characteristics, efficiency, control requirements, and cost. Choosing the right motor type depends on the task’s specific requirements and the desired performance.
  3. Power Supply: Consider the available power supply for the motor. Determine whether the application requires AC or DC power and the voltage and frequency range of the power source. Ensure that the motor’s power requirements align with the available power supply to avoid compatibility issues.
  4. Efficiency and Energy Consumption: Efficiency is an important factor to consider, especially for applications where energy consumption is a concern. Higher motor efficiency translates to lower energy losses and reduced operating costs over the motor’s lifetime. Look for motors with high efficiency ratings to minimize energy consumption and improve overall system efficiency.
  5. Environmental Factors: Assess the environmental conditions in which the motor will operate. Consider factors such as temperature, humidity, dust, and vibration. Some motors are specifically designed to withstand harsh environmental conditions, while others may require additional protection or enclosures. Choosing a motor that is suitable for the intended environment will ensure reliable and long-lasting operation.
  6. Control and Feedback Requirements: Determine whether the application requires precise control over motor speed, position, or torque. Some tasks may benefit from closed-loop control systems that incorporate feedback devices like encoders or sensors to provide accurate motor control. Evaluate the control and feedback requirements of the task and select a motor that is compatible with the desired control mechanism.
  7. Physical Constraints: Consider any physical constraints or limitations that may impact motor selection. These constraints may include space restrictions, weight limitations, mounting options, and mechanical compatibility with other components or equipment. Ensure that the chosen motor can physically fit and integrate into the system without compromising performance or functionality.
  8. Cost and Budget: Finally, consider the budget and cost constraints associated with the motor selection. Evaluate the initial purchase cost of the motor as well as the long-term operating costs, including maintenance and energy consumption. Strive to strike a balance between performance and cost-effectiveness to ensure the best value for your specific application.

By considering these factors, you can make an informed decision when selecting the right electric motor for a task. It is crucial to thoroughly analyze the requirements and match them with the motor’s specifications to achieve optimal performance, reliability, and efficiency.

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 Good quality Linear Vibrating Screen Electric Vibrator Motor   vacuum pump ac system	China Good quality Linear Vibrating Screen Electric Vibrator Motor   vacuum pump ac system
editor by CX 2024-04-03

China Best Sales 2020 Factory Direct Sales 8nm 2phase NEMA34 Close Loop Stepper Motor, Stepper Motor Driver, Linear Stepper Motor, Electrical Motor for Laser Cutting Machine near me supplier

Solution Description

two Period 8.2Nm  Nema 34 Closed Loop Stepper Motor and driver for CNC device

Item Description

——————————————————————————————————————————————–

Product No Inductance
/Phase
Recent
/Stage
Resistance
/Phase
Rated torque Rotor Inertia weight Size
  mh A       Ω Nm g-cm2  kg  mm
86HS2100-05 .6 five .4 4.four 1600 2.8 100
86HS2140-06 .seven 6 .five 8.2 3200 four.2 140
86HS2180-06 .8 6 .6 12 4800 5.8 180


FAQ

1. How can we know the item top quality?

A1: We advise you to buy a sample. Also, you can deliver us email for depth photos for examining if you can not get sufficient details in the product webpage.

 

two. How can we get your catalog?

A2: Please go to underneath website url to obtain it .-http://sihengmotor

 

3. Can we have cost-free sample?

A3: Sorry good friend,you should pay out the sample price,but we can use the price cut for you.

4. Is this your closing value? May possibly i have the price cut?

A4: Our cost is the manufacturing facility price tag, and if your quantity is more substantial, we will enable the low cost for you.

 

5.Is there low-cost delivery cost to import to our country?A5: Sure, we have our normal shipping business, they have extremely great price tag.

 

six. Can we go to your manufacturing facility?

A6: Of course welcome warmly. 

 

seven.What is the Warranty for your merchandise?

A7: One year warranty for all digital products. If any top quality problems on our aspect occured in this period, we will get on the shipping cost and substitution.

DC motors use vitality from batteries or other generating sources that supply a continuous voltage. A DC motor is composed of a number of elements, the most well-known of which contain bearings, shafts, and gearboxes or gears. DC motors give far better velocity variation and control and create more torque than AC motors. The two kinds of DC motors consist of Brushed motors: Brushed motors are 1 of the oldest kinds and are internally commutated motors pushed by DC existing. A brushed motor is composed of a rotor, brushes, and a shaft. The demand and polarity of the brushes handle the direction and velocity of the motor. Brushless Motors: In modern several years, brushless motors have turn into common for numerous applications, primarily because of their effectiveness. Brushless motors are made in the same way as brushed motors, minus the brushes of program. Brushless motors also consist of focused circuitry to handle speed and course. In brushless motors, magnets are mounted close to the rotor, an efficiency-boosting configuration.
An AC motor is a kind of motor that makes use of the phenomenon of electromagnetic induction. AC electricity drives the motor. It is a current that periodically reverses path and changes its magnitude of the recent over time. This current is the opposite of a direct present or “DC” which flows in only one route. AC motors can provide a relatively successful way to produce mechanical strength from a basic electrical input signal.

China Best Sales 2020 Factory Direct Sales 8nm 2phase NEMA34 Close Loop Stepper Motor, Stepper Motor Driver, Linear Stepper Motor, Electrical Motor for Laser Cutting Machine     near me supplier

China Hot selling Industrial Lead Screw 2 Phase NEMA 8 Electric Linear Stepper Motor, CNC Servo Motor, DC Motor for Medical Machine near me factory

Item Description

Note:

The specs can be created in accordance to the customer’s demands!

Programs:

Equipment vision inspection tools, Health-related tools, Semiconductor processing device, Industrial automation, ad instrument, and many others.

Parameters:

 Electrical Specifications
 

Sequence
Design
 
Rated
Current
(A)
Phase
Resistance
(Ω)
Phase
Inductance
(mH)
Guide
Wire
(No.)
Holding
Torque
(N.cm)
L
Motor
Length L
(mm)
Step
Angle
(°)
HL206-5712 .2 23 7.two 4 one.eight 28 1.8
HL206-5712 .two twenty five eight.4 four two. 34
HL206-00302 .two 32 eight.eight 4 3. 40
HL206-00306 .6 five.eight one.6

Screw Specification
 

Code Diameter  ΦD Linear vacation for each step Stage
351 Φ3.5 .005 1
The shaft length can be custom-created.

About Us:

As a manufacturer and Provider, headquartered in HangZhou, I.CH is engaged in studying and establishing different sorts of Servo motor, apart from for Hybrid Stepper Servo Motor, linear stepper motor, we also create Brushless DC Servo Motor, AGV Servo Motor and so forth.very last but not least, we can style tailored Servo Motor for Client’s need to have.

Certification:

Customer’s Going to:

Provider:

1, We only ship to your verified tackle. You should make sure your transport handle is correct prior to obtain.
2, The shipping time is about thirty-45 days.
3, A single-year guarantee.
4, Technological help.

Perform-stream:

Deal:

Within: Higher-density foam box
outside: hardboard carton box

FAQ:

1, How can we know the solution quality?
We can supply some samples for you.

2, Manufacturing unit or trader?
We have a manufacturing facility and have a expert R&D crew.

three, What is your after-product sales providers?
Professional remedies in set up and upkeep.
A single-yr Warranty.

four, Do you have the appropriate certification?
All items are produced in accordance to ISO9001, CE demands.

five, Is there low-cost shipping and delivery expense to import to our nation?
Sure, we have some partners.

6, Can I check out your manufacturing facility?
Yes, happy to see you.
 

Two varieties of AC motors incorporate: Synchronous: The simple fact that a synchronous motor rotates at the exact same fee as the frequency of the mains present provides the motor its identify. A synchronous motor is made up of a stator and a rotor. Synchronous motors have a broad selection of apps. Induction: Induction motors are the most straightforward and strongest motors accessible. These AC motors consist of two electrical parts: a wound stator and rotor assembly. The present needed to switch the rotor is created by the electromagnetic induction produced by the stator windings. Induction motors are a single of the most commonly employed kinds of motors in the world.
Two kinds of AC motors contain: Synchronous: The fact that a synchronous motor rotates at the very same rate as the frequency of the mains present offers the motor its name. A synchronous motor is made up of a stator and a rotor. Synchronous motors have a broad variety of applications. Induction: Induction motors are the most straightforward and strongest motors offered. These AC motors consist of two electrical parts: a wound stator and rotor assembly. The current necessary to change the rotor is generated by the electromagnetic induction created by the stator windings. Induction motors are one of the most generally employed varieties of motors in the globe.

China Hot selling Industrial Lead Screw 2 Stage NEMA 8 Electric powered Linear Stepper Motor, CNC Servo Motor, DC Motor for Health care Equipment     close to me manufacturing unit

China Professional Industrial Lead Screw 2 Phase NEMA 8 Linear Stepper Motor, CNC Servo Motor, DC Motor for Medical Machine near me manufacturer

Item Description

Hybrid Stepping Motor Linear Actuators for 3D Printers

Complex Parameters
 

 Step Angle Accuracy ±5%
Resistance Precision ±10%
Inductance Precision ±20%
Temperature Increase 80ºCMax.
Ambient Temperature  -10ºC-+50ºC
Insulation Resistance 100MΩMin.500 VDC
Dielectric Power 500VAC 
Shaft Radial Perform .06Max.(450 g-load)
Shaft Axial Engage in .08Max.(450 g-load)
 Insulation Class  Class B 130°

Specs

Model No Rated Voltage Current
/Phase
Resistance
/Section
Inductance
/Period
Holding Torque #of Prospects Rotor Inertia Fat Duration
One shaft Double Shaft V A Ω mH Oz-in kg-cm   g-cm² Kg mm
20BYGH28-5714A 20BYGH28-5714B 4.eight .two 24 eight two.2 .sixteen four one.8 .05 28
20BYGH30-0506A 20BYGH30-0506B five.seventy five .5 eleven.5 one.7 two.5 .eighteen 6 two .06 thirty
20BYGH33-0604A 20BYGH33-0604B 3.nine .6 six.5 2.two 2.8 .two four 2 .07 33
20BYGH38-0604A 20BYGH38-0604B 10 .6 10 5.five 5.6 .4 four three.5 .08 38

Screw Rod Specification

Screw Diameter
(inch)
Screw Diameter
(mm)
Guide
(inch)
Lead
(mm)
Travel For every Stage
(mm)
.187 4.76 .0014 .635 .0032
.197 five. .079 two .01
.138 three.five .079 2 .01
.138 three.5 .158 four .02

FAQ

one. Do you have on-line make contact with details?

 

 

2. How can we know the merchandise high quality?

A2: We suggest you to order a sample. Also, you can send us email for element pictures for examining if you can not get enough info in the product webpage.

 

three. How can we get your catalog?

A3: Make sure you go to underneath website hyperlink to download it .-http://sihengmotor

 

four. Can we have free sample?

A4: Yes certain, but remember to shell out the delivery price by youself.

 

five. Is this your final price? Could i have the low cost?

A5: Our price is the manufacturing facility cost, and if your quantity is larger, we will let the low cost for you.

 

6.Is there low-cost shipping and delivery cost to import to our place?

A6: Of course, we have our regular shipping business, they have very very good value.

 

seven. Can we check out your manufacturing facility?

A7: Indeed welcome warmly. Our handle is Floor 3,B creating,No 388,Songhuang Highway, Xihu (West Lake) Dis. District, ZheJiang City, China.

 

 8.What is the Guarantee for your goods?

A8: 1 yr warranty for all electronic merchandise. If any top quality troubles on our side occured in this interval, we will just take on the shipping and delivery expense and substitution.

 

 

DC motors use vitality from batteries or other creating sources that give a continual voltage. A DC motor is made up of numerous elements, the most popular of which contain bearings, shafts, and gearboxes or gears. DC motors supply greater speed variation and handle and create far more torque than AC motors. The two varieties of DC motors contain Brushed motors: Brushed motors are 1 of the oldest sorts and are internally commutated motors driven by DC present. A brushed motor is made up of a rotor, brushes, and a shaft. The cost and polarity of the brushes control the direction and speed of the motor. Brushless Motors: In latest years, brushless motors have turn into well-known for many purposes, largely because of their performance. Brushless motors are made in the exact same way as brushed motors, minus the brushes of training course. Brushless motors also contain focused circuitry to handle speed and direction. In brushless motors, magnets are mounted about the rotor, an effectiveness-boosting configuration.
Induction motors, also recognized as asynchronous motors, use the electromagnetic induction produced by the magnetic field of the stator to generate present in the rotor, thus producing torque. These motors do not run at a pace in sync with the current, that’s why the identify. They use the phenomenon of electromagnetic induction to convert electrical energy into mechanical strength. Induction motor rotors are the most widespread type of AC motor identified in pumps, compressors, and other equipment of all kinds.

China Professional Industrial Lead Screw 2 Period NEMA 8 Linear Stepper Motor, CNC Servo Motor, DC Motor for Health-related Machine     in close proximity to me manufacturer

China factory Hot China Products Wholesale High Speed Linear Actuator Brushless Permanent CZPT DC Motor Electric Motor with Free Design Custom

Item Description

Quiet stable and dependable for prolonged existence procedure

one.Diameters: 57mm
two.Lengths: 56mm76mm96mm
three.Continuous torques: .11Nm0.22Nm0.32Nm
4.Energy: 46W92W134W
five.Speeds up to 4000rpm4000rpm4000rpm
six.Environmental situations: -10~+40°C
seven.Variety of poles/stage:4/3
8.Mangnet material:Bonded NdFeB
9.Insulation course:B
10.Optional: electronic drivers, encoders and gearheads, as well as Hall impact resolver and sensorless suggestions
11.We can layout the special voltage and shaft and so on

AC motors differ from a lot of other kinds of motors, specially some of the far more acquainted DC (immediate recent) motors, by many crucial requirements. The most basic of these is the simple fact that an AC motor relies entirely on the alternating existing around its circuit to produce powerful mechanical strength. We are going to talk about this special procedure in a lot more depth in the pursuing sections of this guidebook.
These NEMA c-plane reducers are equipment energy, servicing-totally free, and can be set up in any orientation with a slip fit “O” ring layout. Obtainable in minimal to substantial reduction ratios, flange mount or foundation mount variations, appropriate angle or hollow shaft correct angle variations. Install NEMA C-Face 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 factory Hot China Products Wholesale High Speed Linear Actuator Brushless Permanent CZPT DC Motor Electric Motor     with Free Design Custom