Abstract
Tripod is a common support structure. The key to tripod design is to accurately analyze the force, select appropriate materials, and design the angle according to the size of the axial force. To study the stress condition and application performance of a tripod, this paper takes any tripod in space as the research object, through the combination of mathematics and mechanics, establishes a space rectangular coordinate system, solves the internal force of the tripod member, and verifies the correctness of the solution results. The evolution from arbitrary tripod structure to special tripod structure demonstrates the correctness of the reasoning method from general to special. An arbitrary space tripod is a common engineering application structure. Taking it as the research object, mechanical analysis has certain practical significance.
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