Stepping away from the applications within a Smart Factory for this week’s newsletter, this application looks at automating the spot-welding of aluminium assemblies.

Stepping away from the applications within a Smart Factory for this week’s newsletter, this application looks at automating the spot-welding of aluminium assemblies.

To prevent the misalignment of welded aluminium parts, a manufacturer of valves wanted to automate the process. An inductive proximity sensor would be used to ensure the presence and position of an aluminium tube, but it needed to be able to withstand the electromagnetic interference created by the exceptionally high currents used in the spot welding process.



Resistance spot-welding is utilised across many industries, including automotive, aerospace, electronics and white goods, because of its speed and low cost. The high volumes and high-quality requirements of the automotive supply chain tend to make its use of automated welding more common than in other industries.

Contrinex’s ‘600 Series’ Weld-Immune inductive sensors bring weld immunity to a new lower price point. Whilst they do not provide the unique robustness that the ‘700 Series’ sensors are renowned for, they do provide a highly reliable, cost-effective solution, with best-in-class service life.

Another important aspect of the ‘600’ and ‘700 Series’ weld-immune sensors is that their sensing performance of steel and aluminium targets is the same. This is commonly referred to as being ‘Factor 1’, because their performance on steel is scaled by a Factor of 1.0 for aluminium, whereas some sensors might only provide 85% of the sensing range on aluminium that it provides on steel, and would be described as having a ‘correction factor’ of 0.85.

The sensor has to reliably detect the presence of the aluminium tube and withstand the harsh environment of being located near 50Hz AC-welding equipment, where field strengths may reach 40mT. The lower electrical resistance of aluminium requires welding currents two to three times higher than for steel, so medium-frequency (MF) resistance welding can use currents as high as 15 kA, requiring an inductive sensor with exceptional high-strength weld-field interference immunity.



The welding cell was designed with a high-speed robot gripper loading an aluminium tube and valve body into an assembly jig, where a small pneumatic cylinder positions it longitudinally. A small inductive sensor is located beside the lower welding electrode to confirm the body is correctly positioned before it initiates the welding sequence.

Contrinex’s Weld-Immune inductive sensors have long been trusted to not malfunction or fail, even when directly exposed to strong electromagnetic fields. The new ’600 Series’ weld-immune inductive sensor was a perfect fit for the application, offering weld-immunity, long-sensing range and Factor 1 sensing on steel and aluminium, to give a cost-effective solution, with best-in-class service life.

The M8-diameter sensor’s rugged construction includes a metal housing and a temperature-resistant sensing face in a high-strength PEEK polymer. Its sensing range of up to 2 mm is more than adequate for the process, reducing the chance of accidental impacts during assembly.

Contrinex’s ‘600 Series’ of weld-immune inductive sensors offer Factor 1 sensing of steel and aluminium targets up to 8mm in an M18 sensor. The ‘700 Series’ offers sensing up to 10 mm from an M18, or 16mm from an M30 sensor. All PNP versions include the IO-Link communication protocol so that parameters can be auto-updated from the PLC to a new sensor when it is installed. IO-Link is also ideal for implementing the sensors into Industrial IoT (IIoT) and Industry 4 systems.


Contrinex also offers its uniquely robust ‘700 Series’ of weld-immune inductive sensors for even more challenging environments. They feature a front face and cylindrical housing which is machined from a single piece of stainless steel, providing a thick front face and extraordinary abrasion resistance. The sensor’s unique technology gives it unmatched abilities to resist shock and impact damage, which is typically demonstrated by showing a sensor survive being used to hammer nails into a wooden block.


For applications directly exposed to weld spatter, sensors are available with an ACTIVSTONE® coating, a high-performance ceramic layer that is especially resistant to weld spatter. All external surfaces of the sensor, including fixing nuts and mounting brackets, are protected, preventing the accumulation of spatter. Heavy-duty PUR cables and optional high-temperature-rated spatter-resistant cable shrouds are also available to provide robust sensor systems.


Combining exceptional durability in harsh environments with extended working life, Contrinex’s Weld-Immune sensor range is a highly affordable, risk-free option for systems integrators and equipment designers in diverse industries, including automotive, aerospace, electronics and white goods.


💰 Low-cost 600 Series – All-metal housing & PEEK polymer sensing face
🔨 Uniquely robust 700 Series – One-piece stainless-steel (V2A /AISI 303) housing and sensing face
📏 Long sensing distances for steel & aluminium targets – Factor 1
🧥ACTIVSTONE™ coating option resists weld spatter in Spot, MIG & MAG welding
💪 Robust & reliable in demanding conditions
🌡️ Excellent temperature stability & temperature-resistant
✨ Immune to electromagnetic interference from 50Hz and Medium-Frequency weld fields
🧲 Resists magnetic interference
🐁 Excellent sensing of small & thin targets
🕵🏽 Fast and reliable detection (15 Hz)
🎛️ IO-Link – Ideal for Industry 4 and offering Plug and Play swap-out

Click to download the Weld-immune Inductive Sensor brochure, or Click to download Contrinex’s Product Overview brochure to find out more.

Call 0121 58 222 58 or email to discuss how PLUS Automation can help you #MakeSenseofSensors using Inductive, Machine Safety, Photoelectric, Pressure, Process, RFID and Ultrasonic sensors from CONTRINEX, ReeR & SATRON. Over 2,000 sensors are held in UK stock.


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