Do you work in the field of aerospace engineering? If so, you’re probably well aware of the physical hurdles associated with lifting, transporting and manipulating components of aircraft and spacecraft. While no two pieces are the same, components use in this industry are often heavy and awkwardly shaped, making them difficult if not impossible for workers to move by themselves. But investing in lifting solutions such as those offered here at EngineeredErgonomics.com can break down the barriers and allow workers to move aerospace components.
There are actually different sub-field of aerospace engineering: aeronautics and astronautics. Aeronautics involves the design, development, construction, testing and technology of aircraft that flies within the Earth’s atmosphere, whereas astronautics deals with spacecraft that operates outside of the Earth’s atmosphere. Regardless of which field your work involves, however, lifting solutions will almost certainly prove beneficial.
It’s not uncommon for a typical aircraft fuselage to weigh tens of thousands of pounds. Again, the exact weight varies depending on the manufacturer’s design, aircraft being built, and other factors. The fact remains, though, that fuselage and even fuselage panels are incredibly heavy – too heavy for any worker or group of workers to safely lift. So, how are you supposed to manipulate it into the correct position when constructing an aircraft? This is where lifting solutions come into play. Featuring long, fully controllable mechanical arms, workers can use them to pick up, move and manipulate heavy aerospace components into the desired area.
There’s some initial investment required when purchasing a lifting solution, but it will pay off in the form of increased productivity. When workers can move and manipulate heavy aerospace components in less time, the company benefits from greater work output.
Aside from boosting productivity, using lifting solutions within the aerospace engineering will also reduce work-related injuries and fatalities. According to the Bureau of Labor Statistics (BLS), 4,585 workers were killed while working on the job during the 2013, which translates into a rate of approximately 3.3 per 100,000 full-time workers. While rates of work-related fatalities have declined every since the Occupational Safety and Health Administration (OSHA) was first created, it remains a top concern among officials. Implementing heavy lifting solutions into the workplace will reduce the numbers, protecting workers from serious injury and fatality.