Some aspects had to be changed on-the-fly but the majority of the design remained the same throughout. The remainder of the project consisted of manufacturing, assembling, and testing. At this stage, the design was presented to the sponsor and advisors to begin manufacturing. This included looking at all aspects of the system from motor torque requirements to strength and material properties. The next third of the year was dedicated to detailed analysis and proving that the design would work as intended. At this point, Team Dynalux came up with a preliminary design that met all the design constraints. Many of the available options were too complicated or expensive and this reiterated that a cheaper and easier system was needed. The team compared commercial and industry options to determine the best practices and designs. The first third of the year was spent in research and development. The process by which they completed those steps is written in detail within this report. Over the course of one year, the Dynalux team researched, designed, and built a solution to CCAT’s problem. Doing this required a method for remotely controlling and actuating the angular position of each spotlight in two axes. This project sought to remedy those issues by mounting a pair of newer LED spotlights inside the theater. This trapped a lot of heat in the room and involved some risk with climbing into and out of the attic room. The sound created by the fans, along with the sheer size of the spotlight, required that it be housed in an attic room above the theater and shined through a closed window. When this project began, The Cambria Center for the Arts Theater used a manually-operated spotlight.
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