DRIVES, MOTORS & CONTROLS TOP TIPS TO IMPROVE ELECTRIC DRIVE PERFORMANCE


Festo has compiled a list of the errors that can be made when designing electric automation systems. Here, the company shares the top three – you can discover the rest by downloading the free guide


lectric automation can deliver enhanced efficiency, consistency and precision over traditional pneumatics in many industrial automation applications. However, simple oversights during design and specification can cause serious problems, turning your electric automation dream into the ‘axis of all evil’, according to industrial automation specialist Festo.


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“Mistakes we commonly see include undersized motors on vertical axes, incorrect gear ratios,


shorter actual life time than predicted, based on your chosen power and torque. More accurate predictions of component lifetime can be achieved by applying a specific factor to the load, as a function of the expected vibration, during the


In such cases, an extended stroke, or “lubrication stroke”, should be made periodically. Ideally, this action would be programmed into the machine software: for instance at the end of every shift or every production series. Lubrication requirements must be considered during the design phase to ensure that a movement over a longer stroke length is possible. 3. Thermal performance


calculations. This and a failure to align


the guides correctly — all causing sub-optimal machine performance and


premature component failure,” said Ben Lloyd, EA Product Manager at Festo. The knock- on effects for end users can include higher energy consumption, increased maintenance costs, and lower productivity. Based on the findings from investigations into premature component failure, Festo has compiled 10 Most Commonly Made Errors With Electric Axes, a free-to-download guide that identifies common errors and offers best practice advice for optimising electric automation system performance. Festo’s top tips include:


1. Factor in vibration


When selecting a linear axis, specifiers rightly refer to the manufacturer’s datasheet to obtain information regarding the correct power and torque parameters. However, environmental conditions such as vibrations must also be factored in to ensure that the desired lifetime is achieved. Failure to consider environmental conditions can result in a much


32 MAY 2025 | PROCESS & CONTROL


factor lies between 1³ and 2³ and indicates the strength of the impact of the vibrations on the lifetime. The datasheet for each component will state how the impact of vibrations on the service life can be calculated.


2. Ensure full lubrication


Electric automation components are sometimes required to make repeated very short and precise movements. This can pose problems with effective lubrication, which leads to components sticking or failing. For example, a ball screw drive has a grease reservoir that ensures the drive is continuously lubricated during operation. In applications in which only a very limited stroke length is used, the balls in the ball screw assembly hardly move at all and so are not coated with any new grease.


The thermal model of the motor and drive plays an important role in correct drive selection. Heating and cooling cycles are typically influenced by whether the application requires the electric drive to operate continuously or intermittently. In applications with intermittent operation, the components have time to cool down. This has a positive impact on their service life, which means it is often possible to select a less powerful version than for continuous operation. Festo’s Electric Motion Sizing tool helps


specifiers and machine builders to factor this in. Users simply enter the dwell times between the movements alongside other typical application requirements such as motion, mass and speed. The online tool provides additional helpful manufacturer-independent tips for consideration in new machine designs. Considering vibration, lubrication and thermal performance are just three ways to improve your electronic drive’s performance and life cycle. However, for a broader overview Festo has gathered more tips and compiled them into a free-to-download guide. Festo’s 10 Most Commonly Made Errors With Electric Axes can be downloaded here: www.festo.com/common_errors_electric_ axis


Festo www.festo.co.uk


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