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How Test Fixtures Streamline the Robotics Repair Process

Robots are a critical part of today’s manufacturing. Keeping them running is a high priority, while minimizing downtime for repairs is essential.

In places like automotive plants, the robots can be massive, so sending them out for repair is not an option. Typically, when something goes wrong with one of these large machines, the problem can be traced back to a single component—a board or drive, a human-machine interface (HMI), a programmable logic controller (PLC) or a touchscreen, for example. Once the customer identifies the component that has failed, the next step is sending it out for repair or replacement.

Radwell International, a leader in industrial repair, distribution and surplus automation, maintains a $2-billion surplus, which is a great cost-effective alternative for a customer with a machine down. This this surplus also allows for their Engineering Department build efficient test fixtures. This huge on-site inventory of parts and robots means technicians can put the part in question through a full-load test in the same model robot as the one the customer uses. As a result, Radwell’s customers have confidence in the repairs and replacements because they know their components have been thoroughly tested. Radwell can also repair or replace teach pendants, control panels and any of the control components, as well as other parts such as servo motors.

This surplus and testing capability sets Radwell apart from its competitors and greatly enhances its capacity to quickly test components and replacement parts, so that its customers are up and running again as soon as possible. The extensive testing enables Radwell to offer its customers a two-year warranty (compared to the industry-standard of 12-18 months), and also keeps the warranty rate very low (4 percent versus the 6 percent industry average).

Watch a short video about the company’s robotic repair and test capabilities featuring the Kawasaki UX120F, a robot that improves production line efficiencies and general industry and automotive applications. The Kawasaki UC120F is just one of the many robots Radwell has available to test components.

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The Father of PLC's:How Richard Morley Revolutionised the Automation Industry

It’s been 51 years since the birth of the Programmable Logic Controller. We look back at the history of the PLC and how replacing hard wired relay systems changed the world of manufacturing.

Dick Morley, 1968

It was the year 1964 when a young cunning engineer, Dick Morley, was unemployed, had a new baby, a mortgage to pay and only $1,000 in the bank. Morley had previously worked a desk job designing atomic bombs, aeroplanes and communication systems performing the duties he was instructed to do. Morley did not enjoy his job, and, at that time, he had no plans in the pipeline to create such an influential piece of automated equipment. After finding his passion for skiing, Morely quit his job and focused on his hobby which eventually lead him to engineering ideas.

Morley eventually opened up his own professional consulting firm with friend Geogre Schwenk under the name ‘Bedford Associates’’ located in Bedford, Massachusetts, USA. Morley and Schwenk worked with local machine tool firms to help them evolve into the new, solid-state manufacturing sphere. Unfortunately, as his firm progressed, he began to notice that each project he worked on was practically the same; the manufacturing industry was using similar minicomputers and Morley found himself bored.

With his creativity and his engineering motive to ‘make things work’, Morley started to wonder if he could invent a controller which could automate industrial process with multiple input/output arrangements in real time. This would alternately replace the likes of hard wired relay control systems.

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