SEMEQ Invisible damage to the electric motor: how to avoid failures

Hidden electric motor damage can significantly disrupt its operation, posing a serious threat to industrial operations.

Electric motors are not just a component, but the backbone of countless industrial processes. Their efficient and safe operation is not just crucial, but a necessity to avoid costly operational disruptions.

However, many issues remain undetected until they escalate, jeopardizing the entire production line. These ‘invisible’ damages, which are not immediately apparent or visible, are silent yet highly harmful. They can include wear and tear on internal components, electrical overloads, insulation problems, and rotor imbalance. Without proper attention, these damages can bring factory operations to a standstill.

In this article, we’ll delve into the primary types of damages that affect electric motors, traditional inspection methods, and how modern technology—like SEMEQ’s smart sensors—provides a proactive approach to preventing problems before they escalate into catastrophic issues.

The Impact of Unseen Damage on Electric Motors

Hidden damage is a silent enemy of operational efficiency. The unmonitored deterioration of internal components, such as bearings and rotors, can lead to:

  • Unplanned production downtime;
  • Accelerated wear on other components;
  • Increased energy consumption due to motor inefficiency;
  • Higher risk of accidents, including severe mechanical failures or even fires;
  • Elevated costs for corrective maintenance and parts replacement.

Identifying and addressing these issues earlier is vital to avoiding total equipment failure.

Common Types of Unnoticed Damages in Electric Motors

Electric motors are prone to several types of hidden damage that, if left undetected, can lead to significant consequences. The most common include:

  • Bearing Wear: Bearings ensure the smooth rotational movement of the motor’s shaft. Wear can result from poor lubrication, contamination, misalignment, imbalance, or excessive clearances.
  • Excessive Vibration: Often a symptom of mechanical issues like misalignment, loose bearings, or rotor wear.
  • Electrical Overloads: Occur when the motor is subjected to a higher current than specified, caused by power surges, voltage spikes, or operational errors such as exceeding the motor’s capacity.
  • Insulation Problems: The insulation of the motor’s windings is critical to prevent short circuits. It can deteriorate due to aging, excessive vibration, or high temperatures.
  • Rotor Imbalance: Even slight imbalances in the rotor can cause excessive vibration, leading to undue stress on bearings and other components.

Traditional Inspection Methods

Historically, electric motor inspections have been manual and reactive, increasing the risk of unexpected failures. Common methods include:

  • Visual Inspections: Effective for identifying advanced-stage issues but limited in detecting internal or electrical problems.
  • Manual Vibration and Temperature Monitoring: While useful for early fault detection, this method requires frequent on-site inspections, increasing time and costs.
  • Electrical Testing with Devices like Megger: Measures insulation resistance but is invasive, may cause system failures, and requires halting operations, adding extra costs.

The Role of Smart Sensors in Continuous Monitoring

As technology advances, manual inspections and visual checks are no longer sufficient to ensure the health of critical electric motors. Smart sensors play a pivotal role in continuous monitoring, detecting even the slightest operational deviations that could signal the onset of a problem. This constant monitoring provides reassurance that your operations are under control.

Identifying these issues in advance makes predictive maintenance possible, a key strategy in avoiding unexpected downtime and reducing maintenance costs. Smart sensors are the enablers of this proactive approach.

Get to Know SEMEQ’s Elektron MCA 460

SEMEQ has developed a groundbreaking sensor to revolutionize electric motor monitoring: Elektron MCA 460.

What makes Elektron MCA 460 unique?

  • Constant Remote Monitoring: Detects anomalies in real-time without manual intervention.
  • Adjustable Remote Parameters: Modify configurations remotely without disrupting operations.
  • Over-the-Air Updates (OTA): Firmware upgrades are delivered remotely for continuous improvements.
  • Force Measure Button: Allows for manual measurements for greater control.
  • Easy DIN Rail Installation: Quick and seamless setup for industrial systems.

Where to Use the Elektron MCA 460

The Elektron MCA 460 is versatile and critical in industries where electric motor reliability is essential:

  • Manufacturing: Prevents motor failures that could disrupt production.
  • Processing Plants: Avoids losses from operational breakdowns.
  • HVAC Systems: Ensures reliable performance and energy efficiency.
  • Energy Sector: Stabilizes and enhances motor reliability in power networks.
  • Transport and Logistics: Maintains the continuous operation of vehicles and industrial equipment.

Protect Your Motors Today

With SEMEQ’s smart sensors, your factory uses a modern and efficient solution for continuous electric motor monitoring. These sensors detect even the slightest operational deviations, such as minor temperature increases or vibrations, that could signal the onset of a problem. By providing real-time data and enabling predictive maintenance, these sensors can prevent invisible damage and ensure maximum performance and longevity of your electric motors.

📞 Contact SEMEQ today and discover how we can make your operations safer and more efficient!

Check out other content on our blog:

Value-based maintenance (MBV): understand what it is and how to calculate it

PCM in maintenance: see what it is and how to apply it

Predictive monitoring service for industries: learn how SEMEQ helps you improve results

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