The new i.Sense EC.W sensor allows cost-effective real-time condition monitoring for gliding e-chain systems
Machine failures and downtimes are among the biggest cost drivers in industry. Therefore, it is important for maintenance personnel to prevent unplanned downtime. With the new low-cost service life sensor from igus, users can make their e-chain smart from SG$470. With real-time condition monitoring, maintenance over the entire service life is easier, cheaper, and more predictable. This not only brings decisive advantages in the area of e-chains but also offers new possibilities for condition monitoring in many other wear applications.
Internet of Things, Big Data, and autonomous robots: The transition to Industry 4.0 is in full swing. This also applies to components that work in machines and have long since become smart, for example by providing data on their condition. However, the integration of smart technologies is often complex for companies and involves external installation work.
“We have also found that while online services are very popular in everyday private life, the sensitivity to external data connections is very high in the business environment. The IoT connection of a machine is often not wanted. However, the customer does not want to do without smart functionalities and the integration into existing control systems,” explained Richard Habering, head of the igus smart plastics business unit.
This is exactly where igus comes in with the new i.Sense EC.W service life sensor for gliding e-chain systems. The low-cost sensor product allows cost-effective real-time wear detection from as little as SGD 470 and with integrated potential-free contacts, can be connected directly to the PLC machine control system without an internet connection. The sensor, cable and evaluation electronics are included.
Users also have the option of connecting the sensor to a variety of networks and IoT systems via the i.Cee module, thus integrating it into a predictive maintenance concept. The service life sensor is available for the E4.32, E4.42, E4.56 and E4.80 igus e-chains — more sizes for the E4Q, E2.1, and E2/000 series are being planned.
Determine service life quickly, easily, and remotely
The basic principle of the new low-cost sensor system is simple: conductive elements are incorporated into the high-performance polymers of almost all igus products at the tribologically stressed areas. Clever geometric positioning of these elements allows clear statements to be made about the product service life in the event of an electrical interruption or a change in resistance. This information can be delivered to the operator via the system monitor and, for example, when the 25% level is reached, linked to the information about the pending chain replacement.
The i.Sense EC.W sensor offers value, particularly for harsh, dark, and dirty environments and highly frequented or hard-to-reach applications. It is mounted on the last crossbar on the fixed end side and records the current state of the chain’s side sections. The sensor measures the distance between the crossbars, which narrows in proportion to e-chain side section abrasion. The sensor can therefore be used to monitor each machine wear part remotely — which could benefit other motion plastics in the future.
Reduce costs by 80% with plannable maintenance
Condition-based alarm messages can prevent unplanned downtimes or unnecessary or premature chain replacement — which also offers an advantage in terms of sustainability. This means that e-chains are no longer replaced according to maintenance intervals, but only when necessary — ultimately reducing maintenance costs as well. Connecting the service life sensor directly to the plant control system can reduce costs by up to 80%.
To ensure the product quality, igus performs numerous tests in the test laboratory. More than three billion test cycles are recorded and analysed each year for energy chains alone. These tests are used to continuously optimise and refine igus products. For example, the development engineers have greatly reduced the size of the service life sensor to 2.5mm x 4mm so that measurements can be carried out at other points as well and clear status information generated for almost all gliding applications.