Mechanical Door Repairers

Install, service, or repair automatic door mechanisms and hydraulic doors. Includes garage door mechanics.

The occupation of "Mechanical Door Repairers" has an automation risk of 21.7%, which is very close to its base risk of 22.0%. This relatively low automation risk signals that, although some tasks involved can be automated, many of the job's core responsibilities still require significant human intervention. The tasks range from manual installations to nuanced adjustments, making straightforward automation challenging. The complexity and variability encountered at different sites further inhibit the deployment of generic automated solutions. As such, while certain repetitive or physically demanding steps may become more mechanized over time, the overall job remains resistant to full automation. Examining the most automatable tasks provides insight into where automation could make the greatest inroads. Tasks like "Winding large springs with upward motion of arm," "Adjusting doors to open or close with the correct amount of effort, or making simple adjustments to electric openers," and "Carrying springs to tops of doors, using ladders or scaffolding, and attaching springs to tracks to install spring systems," are all fundamentally physical and repetitive. These duties involve consistent actions, straightforward mechanics, or routine adjustments that machines, robotics, or power tools could potentially replicate or assist with. However, the need to navigate variable site conditions or to safely handle heavy components can still present notable obstacles for automation technologies. On the other hand, the most automation-resistant tasks demonstrate why automation remains limited. Tasks such as "Cleaning door closer parts using caustic soda, rotary brushes, or grinding wheels," "Boring or cutting holes in flooring as required for installation, using hand or power tools," and "Covering treadles with carpeting or other floor covering materials, and testing systems by operating treadles," require flexibility, tactile skill, and situational judgment. These actions often demand adaptability, pattern recognition, and fine manual dexterity—qualities that current automation or robotics technologies struggle to replicate. Bottleneck skills like Originality, cited at levels of 2.6% and 2.1%, also play a significant role; the need to improvise solutions on-site, respond to unique mechanical problems, and execute custom adjustments demands human creativity and adaptive thinking, thereby keeping automation risk relatively low.