If your electrical components overheat, then it can get damaged and incur high repair costs. In order to solve this situation, there is a need for preventive electrical maintenance. Problems need to be detected before they become big issues. One tool used to pinpoint electrical inefficiencies and worn components if thermal imaging. Thermal imaging helps a lot in determining the condition of equipment before they actually fail.
Here are some of the benefits of thermal imaging in preventive electrical maintenance.
Thermal imaging has greatly transformed the traditional approach of correcting electrical inefficiencies and failures. Thermal imaging cameras can scan and reveal when an equipment is running hot or cold.
With thermal imaging, electric maintenance professionals can be helped in several ways. They are able to check if connections are very tight or loose. Overloaded components can easily be identified. Uneven distribution of voltage can be evaluated. Failed or fatigued components are made easy to recognize. They can identify fuses that are faulty. The identification of imbalanced circuits is easier to do. And they can monitor switches that are damaged.
If thermal imaging is used for preventive maintenance, it can easily monitor equipment for high and low voltages at safe distances. Usng thermal imaging cameras give other benefits.
Thermal imaging cameras have been around for a while but before they had to hire experts or thermographers in order to evaluate the condition of electrical machinery by conducting on-site inspections. Today, however, it is easier to use thermal imaging cameras. These cameras are also more affordable now than before. Companies now own the camera and use their maintenance staff to perform routine checks more frequently.
Preventive maintenance involves checking the integrity of electrical installations to identify overheating connections and faulty components. If there are fluctuations in temperature, then this can be monitored by thermal imaging sensors. Only problems that need repair are identified by the cameras. Then if a piece of equipment is repaired, thermal imaging cameras can rescan the equipment to check if it is properly functioning.
Since thermal imaging cameras can do inspections while components are running, there is no downtime with its use. This has a significant effect on the bottom line.
Thermal imaging can prevent premature failures and give extension to equipment life. Heat it emitted by an electrical system that is on the verge of failure as a sing of resistance or excessive friction. Even before the components fail, thermal imaging cameras can identify temperature fluctuations quickly. With this, costly system interruptions, fires, or arc flashes can be prevented.
Images can be saved in some thermal imaging cameras. If someone is handling the repairs, then the saved images can help him to know exactly where the issues are and what needs to be done.