Robotics firm ULC Applied sciences was contracted by Rosendin to design and develop a robotic solution for solar module installation. The robotic methods, which have already undertaken discipline trials on real-world utility-scale photo voltaic building websites, work in collaboration with expert commerce employees to speed up building timeframes, improve employee security and help the enlargement of renewable power manufacturing.
“The answer we designed and developed consists of three separate autonomous methods, a Panel Setting Robotic and two Panel Provider Robots, working collaboratively with human operators to put in photo voltaic PV panels at mid- to large-scale photo voltaic amenities,” stated Ali Asmari, Director of R&D Challenge Administration at ULC Applied sciences. “The Panel Setting Robotic is a construction-grade tracked robotic platform with an built-in robotic arm to carry out semi-autonomous set up of photo voltaic panels in collaboration with human operators. As soon as the robotic positions the panel, discipline operators can information it into place and full the set up with fastening {hardware} and electrical connections.”
The 2 Panel Provider Robots carry pallets of photo voltaic panels between the loading space and the Panel Setting Robotic’s set up location–making certain a steady feed of panels and eliminating downtime.
The photo voltaic panel set up robots have been designed to resist publicity to excessive temperatures whereas navigating a variety of building web site terrain together with deep mud, uneven surfaces and extra. This upfront work enabled ULC to quickly transfer from the conceptualization section of the undertaking to discipline trials in simply 18 months.
The robots have been extensively field-tested at utility-scale photo voltaic building websites, leading to a robotic system able to manufacturing charges of underneath one minute per panel. In a ten-hour shift, ULC estimates the robots together with a 2-person crew might set up 600 panels.
Conventional set up strategies require intensive handbook labor. Giant photo voltaic farms can have upwards of 1 milion panels that must be put in and, with every panel weighing 80 to 100 lbs, this interprets to strenuous work. As well as, the distant nature of photo voltaic websites makes it difficult for contractors to seek out sufficient expert labor to satisfy the demand.
“Working with Rosendin’s use case, we designed and developed an answer that may revolutionize photo voltaic panel set up at large-scale websites,” stated Steve Inexperienced, VP of Enterprise Growth for Location and Inspection at SPX Applied sciences, the mother or father firm of ULC Applied sciences. “Intensive discipline testing proved how the robots relieve heavy lifting from employees, supplementing their experience with a supportive instrument that helps defend employees whereas permitting them to be extra productive.”
Information merchandise from ULC Applied sciences
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