Friday, 22 April 2022

Saving time and cost for machine builders.

Innovation doesn’t always come at a price.

Simple innovations to improve existing pneumatics technology can make a real difference to the way we build and commission machines, according to industrial automation specialist Festo.

Steve Sands, Head of Product Management at Festo GB, says: “Innovation can come in many forms and isn’t restricted to technical features. Human factors like usability, convenience and safety are tangible areas for development and improvement. Overall costs, machine assembly and build times, on-site commissioning costs and maintenance times are also areas requiring innovative solutions.”

Festo cites the simple cylinder sensor switch as a prime example. These devices are mounted on most pneumatic cylinders and provide sensor feedback. They are most frequently used when the cylinder reaches its advance or retract end-positions and, less frequently, in mid-position: for example, when a cylinder movement has cleared an overlap position. Cylinder switches may appear to be an automation commodity beyond advancement – but there is room for improvement.

“Mounting a cylinder sensor on the bench is straightforward enough, but once the actuator is installed into the machine you often can’t see the end final positions,” explains Sands. “It can be even harder when access is required inside the machine guarding, at height or in difficult to reach locations. In these circumstances, accessing the sensor Allen key position adjustment or observing the indicator LED can be physically impossible.

Clearly, final setting and adjustment of cylinder sensors is problematic and time-consuming, particularly on machines with multiple cylinders, yet it can make a big difference to long-term reliability and operating lifetime. Festo has developed an innovative solution to aid the correct installation of pneumatic cylinders."

Suitable for all compatible T-slot cylinder grooves, the SDBT-MSX is the first auto-teach cylinder switch that learns the required switching position simply by cycling the machine four times during set-up. No in-situ adjustment is required: instead the switch is simply dropped into place in the approximate required position. The fitter sets the sensor up by aligning the cylinder with an integral sensor mark. Once the cylinder is fitted into position on the machine and the sensor is wired in, it’s LEDs will indicate that the switching point is not yet saved. Cycling the machine, including this actuator, just four times enables the self-teach function. The optimum switching position is learnt by the sensor and saved.

This technology has several other benefits for users going beyond the basic, standard operation. These include the ability to manually teach-in a position using the integrated capacitive teach button and the ability to re-assign the switching operation from PNP to NPN and also from Normally Open to Normally Closed operation. Even the switching window can be adjusted from the pre-set 2mm to any length up to 15mm if the application requires it. This is where purchasing, stores and maintenance can gain – one cylinder sensor for all applications.

Concludes Sands: “It is reassuring to know that even in the most commonplace areas of automation, innovation is thriving and will have a real positive impact on users. Faster assembly times, more reliable switching, plus less time stretching, going up ladders or lying under machines have got to be welcome improvements.”

And of course price is important. The SDBT-MSX is manufactured in-house by Festo at virtually the same cost as standard sensors. Innovation doesn’t always come at a price.

@FestoGB @festo_global @Publitek #PAuto #MachineBuilding

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