China wholesaler ZD Industry Used Long Life AC Brake Speed Control Gear Motor vacuum pump adapter

Product Description

Model Selection

ZD Leader has a wide range of micro motor production lines in the industry, including DC Motor, AC Motor, Brushless Motor, Planetary Gear Motor, Drum Motor, Planetary Gearbox, RV Reducer and Harmonic Gearbox etc. Through technical innovation and customization, we help you create outstanding application systems and provide flexible solutions for various industrial automation situations.

• Model Selection
Our professional sales representive and technical team will choose the right model and transmission solutions for your usage depend on your specific parameters.

• Drawing Request

If you need more product parameters, catalogues, CAD or 3D drawings, please contact us.
 

• On Your Need

We can modify standard products or customize them to meet your specific needs.

Product Parameters

Features:

1) Dimensions: 90mm
2) Power: 60, 90, 120W
3) Voltage: 110V, 220V
4) Speed:
50Hz: 90~ 1350rpm
60Hz: 90~ 1650rpm
5) Reduction ratio: 3~ 750K
 

Gearhead Model Gear Ratio
5GN *K 3,3.6,5,6,7.5,9,12.5,15,18,25,30,36,50,60,75,90,100,120,150,180,200~750
5GN10XK(Decimal gearhead)

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Company Profile

 

FAQ

Q: What’re your main products?
A: We currently produce Brushed Dc Motors, Brushed Dc Gear Motors, Planetary Dc Gear Motors, Brushless Dc Motors, Stepper motors, Ac Motors and High Precision Planetary Gear Box etc. You can check the specifications for above motors on our website and you can email us to recommend needed motors per your specification too.

Q: How to select a suitable motor?
A:If you have motor pictures or drawings to show us, or you have detailed specs like voltage, speed, torque, motor size, working mode of the motor, needed lifetime and noise level etc, please do not hesitate to let us know, then we can recommend suitable motor per your request accordingly.

Q: Do you have a customized service for your standard motors?
A: Yes, we can customize per your request for the voltage, speed, torque and shaft size/shape. If you need additional wires/cables soldered on the terminal or need to add connectors, or capacitors or EMC we can make it too.

Q: Do you have an individual design service for motors?
A: Yes, we would like to design motors individually for our customers, but it may need some mold developing cost and design charge.

Q: What’s your lead time?
A: Generally speaking, our regular standard product will need 15-30days, a bit longer for customized products. But we are very flexible on the lead time, it will depend on the specific orders.

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Application: Industrial
Speed: Variable Speed
Number of Stator: Single-Phase
Function: Control
Casing Protection: Closed Type
Number of Poles: 2
Customization:
Available

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brake motor

Are there any emerging trends in brake motor technology, such as digital control?

Yes, there are emerging trends in brake motor technology that are shaping the future of this field. One such trend is the adoption of digital control systems, which offer several advantages over traditional control methods. These advancements in digital control are revolutionizing brake motor technology and unlocking new possibilities for improved performance, efficiency, and integration within industrial processes. Here’s a detailed explanation of the emerging trends in brake motor technology, including the shift towards digital control:

  • Digital Control Systems: Digital control systems are becoming increasingly prevalent in brake motor technology. These systems utilize advanced microprocessors, sensors, and software algorithms to provide precise control, monitoring, and diagnostics. Digital control enables enhanced motor performance, optimized energy efficiency, and improved operational flexibility. It allows for seamless integration with other digital systems, such as programmable logic controllers (PLCs) or industrial automation networks, facilitating intelligent and interconnected manufacturing processes.
  • Intelligent Motor Control: The integration of digital control systems with brake motors enables intelligent motor control capabilities. These systems use sensor feedback and real-time data analysis to dynamically adjust motor parameters, such as speed, torque, and braking force, based on the changing operating conditions. Intelligent motor control optimizes motor performance, minimizes energy consumption, and enhances overall system efficiency. It also enables predictive maintenance by continuously monitoring motor health and providing early warnings for potential faults or failures.
  • Network Connectivity and Industry 4.0: Brake motors are increasingly designed to be part of interconnected networks in line with the principles of Industry 4.0. With digital control systems, brake motors can be connected to industrial networks, enabling real-time data exchange, remote monitoring, and control. This connectivity facilitates centralized monitoring and management of multiple brake motors, improves system coordination, and enables predictive analytics for proactive decision-making. It also allows for seamless integration with other smart devices and systems, paving the way for advanced automation and optimization in manufacturing processes.
  • Condition Monitoring and Predictive Maintenance: Digital control systems in brake motors enable advanced condition monitoring and predictive maintenance capabilities. Sensors integrated into the motor can collect data on parameters such as temperature, vibration, and load conditions. This data is processed and analyzed in real-time, allowing for early detection of potential issues or performance deviations. By implementing predictive maintenance strategies, manufacturers can schedule maintenance activities more efficiently, reduce unplanned downtime, and optimize the lifespan and reliability of brake motors.
  • Energy Efficiency Optimization: Digital control systems provide enhanced opportunities for optimizing energy efficiency in brake motors. These systems can intelligently adjust motor parameters based on load demand, operating conditions, and energy consumption patterns. Advanced algorithms and control techniques optimize the motor’s energy usage, reducing power wastage and maximizing overall energy efficiency. Digital control also enables integration with energy management systems, allowing for better monitoring and control of energy consumption across the entire manufacturing process.
  • Data Analytics and Machine Learning: The integration of digital control systems with brake motors opens up possibilities for leveraging data analytics and machine learning techniques. By collecting and analyzing large volumes of motor performance data, manufacturers can gain valuable insights into process optimization, fault detection, and performance trends. Machine learning algorithms can be applied to identify patterns, predict motor behavior, and optimize control strategies. This data-driven approach enhances decision-making, improves productivity, and enables continuous improvement in manufacturing processes.

In summary, emerging trends in brake motor technology include the adoption of digital control systems, intelligent motor control, network connectivity, condition monitoring, predictive maintenance, energy efficiency optimization, and data analytics. These trends are driving innovation in brake motor technology, improving performance, efficiency, and integration within manufacturing processes. As digital control becomes more prevalent, brake motors are poised to play a vital role in the era of smart manufacturing and industrial automation.

brake motor

What maintenance practices are essential for extending the lifespan of a brake motor?

Maintaining a brake motor properly is crucial for extending its lifespan and ensuring optimal performance. Regular maintenance practices help prevent premature wear, identify potential issues, and address them promptly. Here are some essential maintenance practices for extending the lifespan of a brake motor:

  • Cleanliness: Keeping the brake motor clean is important to prevent the accumulation of dirt, dust, or debris that can affect its performance. Regularly inspect the motor and clean it using appropriate cleaning methods and materials, ensuring that the power is disconnected before performing any cleaning tasks.
  • Lubrication: Proper lubrication of the brake motor’s moving parts is essential to minimize friction and reduce wear and tear. Follow the manufacturer’s recommendations regarding the type of lubricant to use and the frequency of lubrication. Ensure that the lubrication points are accessible and apply the lubricant in the recommended amounts.
  • Inspection: Regular visual inspections of the brake motor are necessary to identify any signs of damage, loose connections, or abnormal wear. Check for any loose or damaged components, such as bolts, cables, or connectors. Inspect the brake pads or discs for wear and ensure they are properly aligned. If any issues are detected, take appropriate action to address them promptly.
  • Brake Adjustment: Periodically check and adjust the brake mechanism of the motor to ensure it maintains proper braking performance. This may involve adjusting the brake pads, ensuring proper clearance, and verifying that the braking force is sufficient. Improper brake adjustment can lead to excessive wear, reduced stopping power, or safety hazards.
  • Temperature Monitoring: Monitoring the operating temperature of the brake motor is important to prevent overheating and thermal damage. Ensure that the motor is not subjected to excessive ambient temperatures or overloaded conditions. If the motor becomes excessively hot, investigate the cause and take corrective measures, such as improving ventilation or reducing the load.
  • Vibration Analysis: Periodic vibration analysis can help detect early signs of mechanical problems or misalignment in the brake motor. Using specialized equipment or vibration monitoring systems, measure and analyze the motor’s vibration levels. If abnormal vibrations are detected, investigate and address the underlying issues to prevent further damage.
  • Electrical Connections: Regularly inspect the electrical connections of the brake motor to ensure they are secure and free from corrosion. Loose or faulty connections can lead to power issues, motor malfunctions, or electrical hazards. Tighten any loose connections and clean any corrosion using appropriate methods and materials.
  • Testing and Calibration: Perform periodic testing and calibration of the brake motor to verify its performance and ensure it operates within the specified parameters. This may involve conducting load tests, verifying braking force, or checking the motor’s speed and torque. Follow the manufacturer’s guidelines or consult with qualified technicians for proper testing and calibration procedures.
  • Documentation and Record-keeping: Maintain a record of all maintenance activities, inspections, repairs, and any relevant information related to the brake motor. This documentation helps track the maintenance history, identify recurring issues, and plan future maintenance tasks effectively. It also serves as a reference for warranty claims or troubleshooting purposes.
  • Professional Servicing: In addition to regular maintenance tasks, consider scheduling professional servicing and inspections by qualified technicians. They can perform comprehensive checks, identify potential issues, and perform specialized maintenance procedures that require expertise or specialized tools. Professional servicing can help ensure thorough maintenance and maximize the lifespan of the brake motor.

By following these essential maintenance practices, brake motor owners can enhance the lifespan of the motor, reduce the risk of unexpected failures, and maintain its optimal performance. Regular maintenance not only extends the motor’s lifespan but also contributes to safe operation, energy efficiency, and overall reliability.

brake motor

What are the key components of a typical brake motor system?

A typical brake motor system consists of several key components that work together to provide controlled stopping and holding capabilities. These components are carefully designed and integrated to ensure the efficient operation of the brake motor. Here’s a detailed explanation of the key components of a typical brake motor system:

1. Electric Motor: The electric motor is the primary component of the brake motor system. It converts electrical energy into mechanical energy to drive the rotation of the equipment. The motor provides the necessary power and torque to perform the desired work. It can be an AC (alternating current) motor or a DC (direct current) motor, depending on the specific application requirements.

2. Braking Mechanism: The braking mechanism is a crucial component of the brake motor system that enables controlled stopping of the rotating equipment. It consists of various types of brakes, such as electromagnetic brakes or spring-loaded brakes. The braking mechanism engages when the power to the motor is cut off or the motor is de-energized, creating friction or applying pressure to halt the rotation.

3. Brake Coil or Actuator: In brake motors with electromagnetic brakes, a brake coil or actuator is employed. The coil generates a magnetic field when an electrical current passes through it, attracting the brake disc or plate and creating braking force. The coil is energized when the motor is powered, and it de-energizes when the power is cut off, allowing the brake to engage and stop the rotation.

4. Brake Disc or Plate: The brake disc or plate is a key component of the braking mechanism. It is attached to the motor shaft and rotates with it. When the brake engages, the disc or plate is pressed against a stationary surface, creating friction and stopping the rotation of the motor shaft. The material composition and design of the brake disc or plate are optimized for efficient braking performance.

5. Control System: Brake motor systems often incorporate a control system that enables precise control over the braking process. The control system allows for adjustable braking torque, response time, and braking profiles. It may include control devices such as switches, relays, or electronic control units (ECUs). The control system ensures the desired level of control and facilitates the integration of the brake motor system with other machinery or automation systems.

6. Power Supply: A reliable power supply is essential for the operation of the brake motor system. The power supply provides electrical energy to the motor and the brake mechanism. It can be a mains power supply or a dedicated power source, depending on the specific requirements of the application and the motor’s power rating.

7. Mounting and Housing: Brake motors are typically housed in a sturdy enclosure that protects the components from environmental factors, such as dust, moisture, or vibration. The housing also provides mounting points for the motor and facilitates the connection of external devices or machinery. The design of the mounting and housing ensures the stability and safety of the brake motor system.

8. Optional Accessories: Depending on the application, a brake motor system may include optional accessories such as temperature sensors, shaft encoders, or position sensors. These accessories provide additional functionality and feedback, allowing for advanced control and monitoring of the brake motor system.

These are the key components of a typical brake motor system. The integration and interaction of these components ensure controlled stopping, load holding, and precise positioning capabilities, making brake motors suitable for a wide range of industrial applications.

China wholesaler ZD Industry Used Long Life AC Brake Speed Control Gear Motor   vacuum pump adapter	China wholesaler ZD Industry Used Long Life AC Brake Speed Control Gear Motor   vacuum pump adapter
editor by CX 2024-04-17