- Published 16 Oct 2023
- Last Modified 30 Nov 2023
- 6 min
Robotics in Industrial Maintenance
Robots and other forms of automation have already transformed production, but they are also having a big impact on industrial maintenance. Read our guide to learn why robots are finding favour in maintenance applications, and the different types of industries and scenarios they are used in.
Reviewed by Stephen Bettles, Technical Support Engineer (October 2023)
Industrial robotics are a key element of Industry 4.0. (Learn more about the Industrial Internet of Things (IIoT) and the fourth industrial revolution with our guide.) As part of these rapid changes, the field of robotics is advancing at the same pace. That’s also the case when it comes to robots for industrial maintenance.
These maintenance robots do everything from cleaning to detecting leaks. Benefits of using robots include not just the ability to do tasks that may be hazardous for humans, but also to achieve optimal accuracy and work consistently over long periods of time. Maintenance robots can reach the places it’s difficult, arduous or dangerous for people to reach, including high voltage overhead lines and wind turbines. Robots can also readily be reprogrammed to do new types of activity.
Remote inspections are a key area where industrial robots are used for maintenance. Remote inspections can be used for large internal tank inspections, for example, which are often difficult and time-consuming to carry out with personnel.
Robots are, of course, already widely used in manufacturing for production purposes but their flexibility, safety, accuracy, and versatility will see them adopted in ever-increasing numbers for industrial maintenance.
Read on to find out more about how and why.
How are Maintenance Robots Used?
So where are robots being used for maintenance? Industrial robotics have been used in oil and gas for several years for inspections. Shell’s Sensabot robot, launched in 2016, for example, is used for surveillance of oil and gas facilities. Sensabot can also be used in other remote or harsh environments. Shell is using ‘sniffer’ robots to target emissions of methane at its facilities and stop the greenhouse gas escaping into the atmosphere.
Also in oil and gas, Waygate Technologies, part of energy technology company Baker Hughes, offers crawler robots capable of carrying non-destructive testing payloads and inspecting confined spaces, while ExRobotics of the Netherlands produces the ExR-1, a robot designed for inspecting equipment and facilities in chemical processing plants and for oil and gas production.
In the aerospace sector, aero engine giant Rolls-Royce is developing robots for industrial maintenance, including ‘snake’ robots that work their way through a jet engine in the manner of an endoscope. Rolls-Royce is also developing swarms of tiny ‘cockroach’ robots designed to crawl around inside an engine for maintenance purposes.
To act as the eyes and ears of a maintenance team, robots use sensors, vision systems, and laser technology to engage with the environment. They are particularly suited to surveillance of hazards, checking the health of infrastructure, and detecting problems in the environment such as radiation, fire, or emissions of gas.
What Benefits can Maintenance Robots Bring?
Industrial robotics has a number of potential benefits for maintenance, including improved productivity and health and safety.
Robots may be able to carry out tasks quicker and more accurately than a person. Most importantly, they help reduce the risk of injuries in environments that are hazardous for maintenance technicians.
Let’s look at some of the benefits of robots and other forms of automation.
More Efficient Repairs
One of the benefits of robots for industrial maintenance is that they have the potential to make repairs more efficient. For example, researchers have demonstrated that a remotely located expert can guide a local technician through a repair using a handheld robot carried by the local user, improving task performance by 37% in the process. The technology can also assist surgeons teaching novice doctors.
Robot manufacturer ULC Robotics has designed a robot called Cisbot that can repair 100 metres of gas mains in a week, a fraction of the time the same job would normally take. Cisbot can even work inside live pipes, meaning less disruption to gas supply while repairs are made.
Greater Safety
Industrial robotics can be used for maintenance in places where humans simply can’t go. They are being used in nuclear applications to carry out tasks in areas of high radiation, for example. In the wake of the Fukushima nuclear disaster in Japan, robots that can climb stairs and even swim wereused in the clean-up.
Robotic maintenance equipment is also already being used in the offshore wind industry to help inspect and maintain wind turbine blades without the need for rope access by a technician, making the process much safer.
Automated Maintenance
Efficient Scheduling with CMMS
Another form of automation, a computerised maintenance management system (CMMS), allows automatic scheduling of servicing and maintenance programmes and scheduled preventative maintenance activities.
The CMMS can be used to automatically create an instruction that preventative maintenance needs to be carried out, assign the job to a team, and help ensure the technician carries out the job correctly. The CMMS can also collect and analyse data from condition monitoring sensors to help predict when machinery needs to be repaired, long before it fails.
In fact, the CMMS is one of the key drivers of greater levels of automation of predictive maintenance in industry, whether it’s used for managing workflows and assigning resources, keeping track of inventory, or acting as a repository of machine data. CMMSs are not just used in manufacturing but also energy production, power generation, and construction.
Data-Optimised Maintenance
As with other aspects of Industry 4.0 maintenance, data plays an important part in optimising and automating maintenance. For example, data is collected from:
- Work orders
- Inspections
- Sensors
Work orders generated by the CMMS provide insights into the frequency of problems with machinery, while inspections can help you determine if maintenance has been effective. Sensor data from machinery is used in condition monitoring to detect anomalies in performance that may indicate proactive maintenance is required.
Are Robots the Future of Industrial Maintenance?
Robots and automation are expected to be used for maintenance in industry more in the future. Robots’ capabilities in terms of precision, repeatability, ability to work around the clock, safety, and imperviousness to hazardous environments are all attractive to the maintenance engineer.
Will robots replace workers altogether when it comes to maintenance? It’s more likely that people will work alongside maintenance robots using AI. Despite all the advantages of automation, there are certain activities where the dexterity of people will always be needed. It's thought that collaborative robots – known as ‘co-bots’ – will play an important role.
The dream is for automation to take up a lot of the slack when it comes to maintenance that is difficult, tedious, or hazardous, freeing up engineers to do other tasks. Although robots are sometimes perceived as a threat, it is more likely that robots and people will combine their respective strengths in the years to come.
Learn more about products for industrial automation at RS here.