Abstract: The structure of glass engineering melting furnaces is complex, with factors such as side wall reinforcement in pit foundations, gas pipelines, and process equipment influencing the routing of electrical lines. Based on electrical modeling within a digital twin collaborative design platform, this study designs power distribution cable trays through three-dimensional linked models and progressive three-dimensional resource scheduling. By conducting collision analysis, the optimal path is identified, enabling parameterization of equipment and resolving interactive collisions between cable trays, ducts, and gas pipelines. According to the process control requirements for furnace fans and electric valves, a remote interlock control system is proposed to achieve remote monitoring, start-stop control, data acquisition, and energy-saving functions. The design of electrical cabinet terminal block layouts and cable conduit sizing enhances the safety and stability of the electrical system, aligning with the intelligent and digital development requirements of glass plants.