Warning Signs of a Failing Servo Motor

Whether we want to admit it or not, our entire world economy hinges on the functioning of servo motors. They remain integral components in many industrial applications, from robotics to CNC machinery. Their reliability and precision make them essential for ensuring smooth operation in automated systems. However, like anything else,servo motors can develop issues over time. This tends to lead to catastrophic failure if not addressed. Identifying early warning signs of a failing servo motor can prevent costly downtime and ensure the longevity of your equipment. Below are some of the key signs that a servo motor is about to go bad.


Signs of a Failing Servo Motor

Unusual Noises

One of the most common early indicators of a problem is abnormal noise coming from the servo motor. Servo motors typically operate quietly, but as they wear out, components may loosen or degrade, causing:

  • Grinding or clicking sounds
  • High-pitched squealing
  • Loud vibrations

These noises can be caused by worn bearings, misaligned gears, or internal mechanical friction. If you hear unusual sounds, it’s critical to investigate and address the underlying issue before it escalates.

Overheating

Servo motors are designed to dissipate heat effectively, but if a motor is consistently running hotter than normal, it could be an early sign of trouble. Overheating can stem from:

  • Poor ventilation or cooling
  • Overloading or running the motor beyond its rated capacity
  • Worn-out bearings or brushes causing friction

If you notice the motor surface temperature exceeding the manufacturer’s recommended levels, or if the motor’s thermal protection trips frequently, it’s time to assess the system for possible issues.



Erratic Movement

Servo motors are known for their precision. If you notice that the motor is no longer operating smoothly, it could indicate impending failure. Symptoms include:

  • Jerky or erratic movements
  • Delays in response time
  • Inconsistent speed or torque output
  • Inaccurate positioning or tracking

These issues could be due to encoder or feedback problems, damaged internal gears, or failing control circuitry. A motor that cannot maintain steady operation should be inspected immediately.

Increased Power Movement

A servo motor nearing failure may begin to draw more power than usual to maintain its performance. An increase in energy consumption could result from:

  • Excessive friction in the bearings or mechanical parts
  • Electrical short circuits or insulation breakdown
  • Worn-out windings requiring higher currents to produce the same output

Monitoring the power consumption of your motor can give you early insight into its health. A sudden spike in current usage often signals internal degradation.

Vibrations and Excessive Play

Vibrations are a telltale sign of wear in mechanical systems. A failing servo motor might exhibit:

  • Excessive vibrations or wobbling during operation
  • Loose or imprecise shaft movement
  • Increased backlash in the gearbox

These issues are typically caused by worn-out bearings, misaligned shafts, or damaged couplings. In some cases, vibrations can also result from imbalances in the rotor. Ignoring these warning signs can lead to more serious mechanical failures down the line.

Encoder Malfunctions

The encoder plays a critical role in providing feedback on the position, speed, and direction of the motor. If the encoder starts to malfunction, you may notice:

  • Loss of feedback signals
  • Incorrect positioning of the motor
  • Communication errors between the motor and controller

Dirty or misaligned encoders, damaged cables, or electronic component failure can all lead to encoder-related issues. Regularly inspecting and cleaning the encoder can help mitigate these risks.

Frequent Power Tripping

Servo motors are typically equipped with protective features such as thermal cutoffs, overload protection, or circuit breakers. If these devices trip more frequently than usual, it’s an indication that something is wrong with the motor. Common causes include:

  • Overheating or excessive current draw
  • Mechanical obstructions causing overloads
  • Short circuits or electrical insulation failure

Frequent tripping should never be ignored, as it indicates the motor is under stress and could fail soon.

Wear and Tear

Physical inspection of the motor can also reveal signs of impending failure. Look for:

  • Damaged or worn-out seals or housings
  • Oil or grease leaks around the bearings or seals
  • Corroded or frayed wires
  • Signs of rust or corrosion on metal components

While external wear might not always correlate directly to internal damage, it’s a good practice to maintain the motor’s appearance and prevent environmental factors from accelerating its deterioration.

Internals of a well worn servo motor are a telling indicators of a failing servo motor.

Software and Control System Errors

Servo motors often interact with control systems via software or programmable logic controllers (PLCs). If you start noticing frequent errors, alarms, or faults in the control system related to the servo motor, it could be a sign of:

  • Communication issues between the motor and the controller
  • Malfunctioning or outdated control software
  • Feedback loop problems due to encoder failure

Diagnosing these errors quickly can help you address the root cause before it leads to further damage to the motor or system.

Motor Stalling

If the servo motor stalls or fails to start under load, it could be an indication that the motor is struggling to produce the required torque. Potential causes include:

  • Mechanical binding or obstructions in the system
  • Electrical issues such as worn windings or damaged brushes
  • Degraded motor insulation or faulty wiring

A stalling motor is a serious issue that should be addressed immediately to avoid a complete motor burnout.


Conclusion

A failing servo motor can be costly, both in terms of downtime and replacement costs. By recognizing the early warning signs such as unusual noises, erratic movement, overheating, and increased power consumption, you can address minor issues before they escalate. Regular maintenance, monitoring, and timely inspections will help ensure the long-term performance and reliability of your servo motors. When in doubt, consult a professional technician to evaluate and service your motor, ensuring it continues to operate smoothly and efficiently.

In addition to recognizing a failing servo motor, taking steps to maintain and prolong the life of your servo motor is also important. Luckily, we have an article explaining things you can do to prolong the longevity of your servo motor. Feel free to read about it here.


Is Your Servo Motor Breaking?

If you have a servo motor going bad, our team of experts are ready to help you ensure that your business is back up and running in no time. Our customer service team can be reached by email: sales@mroelectric.com or by phone: (800) 691-8511.



Updated on September 25, 2024 by Ken Cheng

Most Common Used PLC’s in Industrialized Countries

Programmable Logic Controllers (PLCs) plays a critical role in controlling machinery and processes in various industries. Despite PLC functions remaining consistent across the globe. The choice of specific PLC brands and models varies by region due to varying factors. These factors include: local industry demands, availability, historical preferences, and regulatory standards. This article explores the most commonly used PLCs in five industrialized countries: the United States, the United Kingdom, Mexico, China, and Japan.

Countries

United States

In the United States, several key players dominate the automation industry. Allen-Bradley and Schneider Electric make up the two biggest domestic manufacturers. Additionally, factories across the US use Germany’s Siemens.

Manufacturers

  • Allen-Bradley: One of the most widely used domestic brands, Allen-Bradley provides a range of products across industries. This can range anywhere from industrial to food processing . The integration of Allen-Bradley PLCs with Rockwell’s FactoryTalk software suite offers a comprehensive solution for American manufacturers.
  • Siemens: Although a German brand, Siemens’ SIMATIC PLCs (especially the S7 series) are also popular in the U.S. This is particularly true in industries with a strong focus on integration and advanced networking capabilities.
  • Schneider Electric: The Modicon PLC series from Schneider Electric is another strong contender in the U.S. market. Especially in sectors like energy and infrastructure.

United Kingdom

The UK’s industrial sector reflects a mix of international and European influences. Primarily the Germany company, Siemens leads the market with Allen-Bradley and Mitsubishi Electric also widely used.

Manufacturers

  • Siemens: The SIMATIC S7 series remains the most widely used PLC in the UK. Its flexibility, scalability, and robust performance in various industrial environments make it a preferred choice across different sectors.
  • Allen-Bradley: Allen-Bradley PLCs are also popular in the UK’s automotive and manufacturing industries where there is a strong U.S. influence.
  • Mitsubishi Electric: Known for their reliability and cost-effectiveness, Mitsubishi Electric’s FX and Q series PLCs see the most usage in small to medium-sized enterprises.

Mexico

Mexico’s proximity to the United States plays a heavy influence its automation sector. Both companies share a robust industrial automation industry.

Manufacturers

  • Allen-Bradley: Given the close economic ties with the U.S., Allen-Bradley PLCs are predominant in Mexico, especially in the automotive, electronics, and consumer goods sectors.
  • Siemens: Siemens PLC’s popularity exists in specific industries require high precision and advanced automation. Food processing and automotive manufacturing being two prominent ones.
  • OMRON: OMRON’s PLCs, especially the CP1 and CJ series, are also gaining traction in Mexico, particularly in the electronics and packaging industries due to their compact size and ease of integration.

China

China’s massive industrial base has led to a diverse market for PLCs, with both domestic and international brands competing for dominance.

Manufacturers

  • Siemens: Siemens’ SIMATIC S7 series is the most widely used PLC in China, particularly in high-tech manufacturing and large-scale industrial projects. Its extensive support network in China also contributes to its popularity.
  • Mitsubishi Electric: The FX and Q series from Mitsubishi Electric are highly popular in China, especially in the automotive, electronics, and machinery manufacturing sectors. Their affordability and reliability are key factors driving their adoption.
  • Delta Electronics: A leading domestic brand, Delta Electronics’ DVP series PLCs are commonly used in China, especially in applications requiring compact and cost-effective solutions.

Japan

Japan’s industrial automation sector is characterized by high precision and efficiency, with a strong preference for domestic brands.

Manufacturers

  • Mitsubishi Electric: As the dominant player in Japan, Mitsubishi Electric’s PLCs, particularly the MELSEC series, are used extensively across various industries, including automotive, electronics, and robotics.
  • OMRON: OMRON is another key player in the Japanese market, with its CP1 and CJ series PLCs being widely adopted in sectors requiring compact and reliable control solutions.
  • Keyence: Known for its high-performance and user-friendly interface, Keyence PLCs are also prevalent in Japan, particularly in high-tech and automated manufacturing processes.

Conclusion

The choice of PLCs across different countries remains influenced by a combination of factors including local market preferences, availability, and industry requirements. In the United States and Mexico, Allen-Bradley PLCs dominate due to strong ties with U.S. industries. In contrast, Siemens’ SIMATIC series leads in the UK and China, with Mitsubishi Electric playing a significant role in Japan and China. Understanding these regional preferences can help multinational companies make informed decisions when planning and implementing automation projects in different parts of the world.

In Need of a PLC?

Reach out to our team by phone: (800) 691-8511 or by email: sales@mroelectric.com. Check out our website www.mroelectric.com for more information on other products.

Updated on September 10, 2024 by Ken Cheng