Product Description

NEMA 57 86mm Brushless DC BLDC Electric Motor withGearbox/Brake/Encoder/Controller 12V 2436V 48V 220V DC Servo Motor for Lawn Mower

Note:

The specifications can be designed according to the customer’s requirements!

Option:

Customized shaft, performance, voltage, lead wires…

Application:

swimming pool, automotive, semiconductor, chemical & medical, industrial automation, power tool, medical instrument, measuring equipment, office automation, various OEM application.

Parameter:

 

Model Rated power Rated voltage Current Number of poles Rated speed Rated torque Peek torque Moment constant Length Weight Encoder
W V A   rpm N. m N. m N. m/A mm Kg p/k
D866-07009 220 310 0.94 8 3000 0.7 2.1 0.74 71 1.85 1000
D866-14019 440 310 1.89 8 3000 1.4 4.2 0.74 100 2.6 1000
D866-21571 660 310 2.83 8 3000 2.1 6.3 0.74 125 4 1000

About Us:

I.CH motion co., LTD, headquartered in HangZhou, is a professional manufacturer and supplier of the motor. We have provided BLDC motor, BLDC Gear motor, BLDC Servo motor since 2006, which are widely used in medical equipment, automation equipment, automobile industry, and 3D printer.

As a professional manufacturer who has professional teams, we can custom according to your needs.

Certificate:

IOS9001, CE…

Service:

1, OEM & ODM service.

2, One-year guarantee.

Shipping:

1, Carton, Pallet, or what you want.

2, The Delivery time is about 30-45 days.

Customer’s Visiting:

FAQ:

1, Are you a factory?

Yes, we have been in designing and providing excellent motors for customers.

2, Can you provide a sample?

Yes.

3, How long you could prepare samples?

If customized one, about a week around.

4, If My package has missing products. What can I do?

Please contact our support team and we will confirm your order with the package contents. We apologize for any inconvenience. /* 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, Power Tools
Operating Speed: Low Speed
Function: Control, Driving
Casing Protection: Protection Type
Number of Poles: 8
Structure and Working Principle: Brushless
Customization:
Available

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brake motor

Can brake motors be adapted for use in both indoor and outdoor environments?

Brake motors can indeed be adapted for use in both indoor and outdoor environments, provided they are appropriately designed and protected against the specific conditions they will encounter. The adaptability of brake motors allows them to function effectively and safely in diverse operating environments. Here’s a detailed explanation of how brake motors can be adapted for use in both indoor and outdoor settings:

  • Indoor Adaptation: Brake motors intended for indoor use are typically designed to meet the specific requirements of indoor environments. They are often constructed with enclosures that protect the motor from dust, debris, and moisture commonly found indoors. These enclosures can be in the form of drip-proof (DP), totally enclosed fan-cooled (TEFC), or totally enclosed non-ventilated (TENV) designs. The enclosures prevent contaminants from entering the motor and ensure reliable and efficient operation in indoor settings.
  • Outdoor Adaptation: When brake motors are required for outdoor applications, they need to be adapted to withstand the challenges posed by outdoor conditions, such as temperature variations, moisture, and exposure to elements. Outdoor-rated brake motors are designed with additional protective measures to ensure their durability and performance. They may feature weatherproof enclosures, such as totally enclosed fan-cooled (TEFC) or totally enclosed non-ventilated (TENV) enclosures with added gaskets and seals to prevent water ingress. These enclosures provide effective protection against rain, snow, dust, and other outdoor elements, allowing the motor to operate reliably in outdoor environments.
  • Environmental Sealing: Brake motors can be equipped with environmental seals to further enhance their adaptability for both indoor and outdoor use. These seals provide an additional layer of protection against the entry of moisture, dust, and other contaminants. Depending on the specific application requirements, the seals can be applied to the motor’s shaft, housing, or other vulnerable areas to ensure proper sealing and prevent damage or performance degradation due to environmental factors.
  • Corrosion Resistance: In certain outdoor environments or specific indoor settings with corrosive elements, brake motors can be designed with corrosion-resistant materials and coatings. These specialized materials, such as stainless steel or epoxy coatings, provide protection against corrosion caused by exposure to moisture, chemicals, or salt air. Corrosion-resistant brake motors are essential for ensuring long-term reliability and optimal performance in corrosive environments.
  • Temperature Considerations: Brake motors must be adapted to handle the temperature ranges encountered in both indoor and outdoor environments. For indoor applications, motors may be designed to operate within a specific temperature range, ensuring reliable performance without overheating. Outdoor-rated brake motors may have additional cooling features, such as oversized cooling fans or heat sinks, to dissipate heat effectively and operate within acceptable temperature limits. Heating elements can also be incorporated to prevent condensation and maintain optimal operating temperatures in outdoor or highly humid indoor environments.
  • IP Rating: In addition to the specific adaptations mentioned above, brake motors for both indoor and outdoor use are often assigned an Ingress Protection (IP) rating. The IP rating indicates the motor’s level of protection against solid particles (first digit) and water ingress (second digit). The higher the IP rating, the greater the protection offered. IP ratings help users select brake motors that are suitable for their intended environment by considering factors such as dust resistance, water resistance, and overall environmental durability.

By incorporating appropriate enclosures, environmental seals, corrosion-resistant materials, temperature management features, and IP ratings, brake motors can be successfully adapted for use in both indoor and outdoor environments. These adaptations ensure that the motors are well-protected, perform reliably, and maintain their efficiency and longevity, regardless of the operating conditions they are exposed to.

brake motor

How do manufacturers ensure the quality and reliability of brake motors?

Manufacturers employ various processes and measures to ensure the quality and reliability of brake motors. These processes involve rigorous testing, adherence to industry standards, quality control procedures, and continuous improvement initiatives. Here’s a detailed explanation of how manufacturers ensure the quality and reliability of brake motors:

  • Design and Engineering: Manufacturers invest considerable effort in the design and engineering phase of brake motors. They employ experienced engineers and designers who follow industry best practices and utilize advanced design tools to develop motors with robust and reliable braking systems. Thorough analysis, simulations, and prototyping are conducted to optimize the motor’s performance, efficiency, and safety features.
  • Material Selection: High-quality materials are chosen for the construction of brake motors. Manufacturers carefully select components such as motor windings, brake discs, brake pads, and housing materials to ensure durability, heat resistance, and optimal friction characteristics. The use of quality materials enhances the motor’s reliability and contributes to its long-term performance.
  • Manufacturing Processes: Stringent manufacturing processes are implemented to ensure consistent quality and reliability. Manufacturers employ advanced machinery and automation techniques for precision assembly and production. Strict quality control measures are applied at each stage of manufacturing to detect and rectify any defects or deviations from specifications.
  • Testing and Quality Assurance: Brake motors undergo comprehensive testing and quality assurance procedures before they are released to the market. These tests include performance testing, load testing, endurance testing, and environmental testing. Manufacturers verify that the motors meet or exceed industry standards and performance specifications. Additionally, they conduct safety tests to ensure compliance with applicable safety regulations and standards.
  • Certifications and Compliance: Manufacturers seek certifications and compliance with relevant industry standards and regulations. This may include certifications such as ISO 9001 for quality management systems or certifications specific to the motor industry, such as IEC (International Electrotechnical Commission) standards. Compliance with these standards demonstrates the manufacturer’s commitment to producing high-quality and reliable brake motors.
  • Quality Control and Inspection: Manufacturers implement robust quality control processes throughout the production cycle. This includes inspection of raw materials, in-process inspections during manufacturing, and final inspections before shipment. Quality control personnel conduct visual inspections, dimensional checks, and performance evaluations to ensure that each brake motor meets the specified quality criteria.
  • Continuous Improvement: Manufacturers prioritize continuous improvement initiatives to enhance the quality and reliability of brake motors. They actively seek customer feedback, monitor field performance, and conduct post-production evaluations to identify areas for improvement. This feedback loop helps manufacturers refine their designs, manufacturing processes, and quality control procedures, leading to increased reliability and customer satisfaction.
  • Customer Support and Warranty: Manufacturers provide comprehensive customer support and warranty programs for their brake motors. They offer technical assistance, troubleshooting guides, and maintenance recommendations to customers. Warranty coverage ensures that any manufacturing defects or malfunctions are addressed promptly, bolstering customer confidence in the quality and reliability of the brake motors.

By employing robust design and engineering processes, meticulous material selection, stringent manufacturing processes, comprehensive testing and quality assurance procedures, certifications and compliance with industry standards, rigorous quality control and inspection measures, continuous improvement initiatives, and dedicated customer support and warranty programs, manufacturers ensure the quality and reliability of brake motors. These measures contribute to the production of high-performance motors that meet the safety, durability, and performance requirements of industrial and manufacturing applications.

brake motor

How do brake motors handle variations in load and stopping requirements?

Brake motors are designed to handle variations in load and stopping requirements by incorporating specific features and mechanisms that allow for flexibility and adaptability. These features enable brake motors to effectively respond to changes in load conditions and meet the diverse stopping requirements of different applications. Here’s a detailed explanation of how brake motors handle variations in load and stopping requirements:

1. Adjustable Braking Torque: Brake motors often have adjustable braking torque, allowing operators to modify the stopping force according to the specific load requirements. By adjusting the braking torque, brake motors can accommodate variations in load size, weight, and inertia. Higher braking torque can be set for heavier loads, while lower braking torque can be selected for lighter loads, ensuring optimal stopping performance and preventing excessive wear or damage to the braking system.

2. Controlled Response Time: Brake motors provide controlled response times, allowing for precise and efficient stopping according to the application requirements. The response time refers to the duration between the command to stop and the actual cessation of rotation. Brake motors can be designed with adjustable response times, enabling operators to set the desired stopping speed based on the load characteristics and safety considerations. This flexibility ensures that the braking action is appropriately matched to the load and stopping requirements.

3. Dynamic Braking: Dynamic braking is a feature found in some brake motors that helps handle variations in load and stopping requirements. When the motor is de-energized, dynamic braking converts the kinetic energy of the rotating load into electrical energy, which is dissipated as heat through a resistor or regenerative braking system. This braking mechanism allows brake motors to handle different load conditions and varying stopping requirements, dissipating excess energy and bringing the rotating equipment to a controlled stop.

4. Integrated Control Systems: Brake motors often come equipped with integrated control systems that allow for customized programming and adjustment of the braking parameters. These control systems enable operators to adapt the braking performance based on the load characteristics and stopping requirements. By adjusting parameters such as braking torque, response time, and braking profiles, brake motors can handle variations in load and achieve the desired stopping performance for different applications.

5. Monitoring and Feedback: Some brake motor systems incorporate monitoring and feedback mechanisms to provide real-time information about the load conditions and stopping performance. This feedback can include data on motor temperature, current consumption, or position feedback from encoders or sensors. By continuously monitoring these parameters, brake motors can dynamically adjust their braking action to accommodate variations in load and ensure optimal stopping performance.

6. Adaptable Brake Design: Brake motors are designed with consideration for load variations and stopping requirements. The brake design takes into account factors such as braking surface area, material composition, and cooling methods. These design features allow brake motors to handle different load conditions effectively and provide consistent and reliable stopping performance under varying circumstances.

By incorporating adjustable braking torque, controlled response time, dynamic braking, integrated control systems, monitoring and feedback mechanisms, and adaptable brake designs, brake motors can handle variations in load and stopping requirements. These features enhance the versatility and performance of brake motors, making them suitable for a wide range of applications across different industries.

China Custom NEMA17 23 34 42 57 86mm Brushless DC BLDC Electric Motor Withgearbox/Brake/Encoder/Controller 12V 2436V 48V 220V DC Servo Motor for Lawn Mower   vacuum pump connector	China Custom NEMA17 23 34 42 57 86mm Brushless DC BLDC Electric Motor Withgearbox/Brake/Encoder/Controller 12V 2436V 48V 220V DC Servo Motor for Lawn Mower   vacuum pump connector
editor by CX 2024-05-10