In response to the current situation where the production demands for advanced complex electronic equipment in the military industry are highly variable, with rapid turnover of product types and diverse testing requirements, and where there is a high demand for testing personnel skills, coupled with persistently high production costs, research has been conducted on the flexible and labor-minimized testing of advanced electronic equipment for military applications. The objectives are to reduce the labor hours and instrument resources required for the tested products, to ensure compatibility with a variety of products, and to automatically adapt to the changing test tasks. By integrating automatic testing technology, mechanical transmission technology, interface adaptation technology, and automatic distribution algorithms, a flexible testing system has been designed. In practical applications, the system operates with half the original testing instrument resources, is capable of handling the production testing for six different product types, reduces labor hours by over 80%, and quadruples production capacity under limited resource conditions. The system can automatically distribute tests in the most optimal manner in response to random changes in the types and quantities of tested products, thereby satisfying the complex and diverse testing needs of military equipment.