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Touch Probes Speed Machining Process of Induction Cookware

KUKMARA in Russia began producing cookware for induction stoves in 2017. When turning the bottoms of products containing stainless steel induction discs, the KUKMARA specialists came across a problem – the casting technology used at the company meant that the thickness of the bottoms of the products was inconsistent, which, with the adopted scheme of locating and fixing them onto the machine, did not make it possible to ensure that the machined surface would be in a repeatable position relative to the cutting tool.

Machined casting with stainless steel induction disc

The discrepancy could have been as much as 2–3 mm, increasing the risk of the casting turning on the faceplate and getting damaged, as well as damage to the cutter or the faceplate itself. What’s more, three to four runs were needed to achieve the required machining quality and ensure sufficient thickness of the remaining disc. The repetitive operations took up more time and increased the cost of the operation.

Denis Alekseev, Chief of Engineering at KUKMARA said, “When machining a product, we either had to make several runs with a small allowance to get the desired result or do one run with a large removal of metal and risk rotating the product on the faceplate and damaging it. Each run of the product on the lathe takes about one minute. To avoid the risk of a product rotating, we had to perform up to three to four runs, and that is an extra three to four minutes per product operation.”

The company’s engineers set about finding the best solution. One suggestion was to equip the lathes with touch probes in order to measure the actual position of the surface to be machined. The KUKMARA specialists had already seen Renishaw’s touch probes in action at a Czech cookware manufacturing company. The decision was made to learn from the experience of their colleagues overseas.

The KUKMARA engineers installed their first Renishaw touch probe on a lathe. The OLP40 touch probe measures the actual position of the surface being machined to ensure the allowance being removed is consistent. The probe’s flexible measuring technology ensures a high degree of accuracy in production, reducing lead times and the amount of scrap.

“Using the OLP40 probe has allowed us to ensure consistent metal removal. Before each run we take measurements, adjust the tool offset, and achieve removal of a fixed allowance. As a result, we have ensured the accuracy and stability of this manufacturing operation, as well as the safety and preservation of the tool, since there is now no risk of the product rotating and coming off the faceplate,” Denis Alekseev added.

The KUKMARA engineers have appreciated the simple set-up of the touch probe: no complicated maneuvers or additional employee training has been necessary during set-up and installation. The contractor’s specialists quickly connected the probe, set up the CNC system, issued commands, and set up the equipment.

Denis Alexeev concluded, “Thanks to the high accuracy of Renishaw’s probes, we avoided having to repeat the operation and therefore managed to reduce the cost of disc machining several-fold. As a result of the turning process, we get a perfectly smooth disc with gloss and minimal roughness. This is exactly the visual effect we were aiming for. Thousands of customers are already appreciating the benefits of our partnership with Renishaw.”

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