As a vital component in the field of power transmission and distribution, bus ducts play a crucial role in industrial and commercial sectors. With the rapid advancement of technology and the increasing emphasis on sustainable development, bus ducts are encountering numerous new opportunities and challenges.

      As a critical component in power transmission, enhancing energy efficiency in bus ducts holds immense significance for energy conservation and carbon emission reduction, aligning with the principles of sustainable development. The development and utilization of environmentally friendly materials for energy-saving and consumption-reducing bus duct designs can effectively mitigate natural resource consumption and environmental pollution.

        In the production and utilization of bus ducts, significant emphasis is placed on recycling, minimizing environmental impact, and advocating the implementation of sustainable development principles. This involves the development and application of high-temperature resistant materials suitable for industrial environments, thereby enhancing the heat resistance and electrical performance of bus ducts and ensuring the stability of power transmission.

       Ohory specializes in epoxy resin insulated bus duct technology. The epoxy resin bus ducts produced by Ohory Technology exhibit excellent insulation performance. They are not only waterproof and dustproof but also provide complete coverage to the conductors, ensuring a flat and seamless insulation layer in contact with the conductors' surface. Additionally, during the electrification process, the busbar trunking is submerged in a fish tank. Even with water entering the insulation conductors from various angles, the bus duct can still maintain normal electrical functionality. Remarkably, the fish in the tank remain alive! These bus ducts possess exceptional pressure resistance and fire resistance, being the only insulation type that remains undamaged for 10 seconds under flame grilling at temperatures as high as 1300°C. Furthermore, they dissipate heat rapidly and pose no harm if touched by the skin. The epoxy coating also provides strong resistance against oxidation and salt spray. By completely eliminating contact between conductors and air, the insulation layer remains undamaged even after undergoing 1800 hours of salt spray testing. These bus ducts exhibit remarkable toughness and strength, allowing them to withstand the rigors of thermal cycling without damage.

       This insulation technology has undergone rigorous evaluation by the environmental protection department, ensuring its compliance with environmental standards. Its high-temperature conduction and short endurance characteristics effectively reduce losses and save on electricity expenses. The process is fully automated with PLC control, resulting in an extremely smooth, uniform, and aesthetically pleasing surface finish. As temperature influences the resistance of conductors, the use of epoxy resin with low resistance and excellent heat dissipation properties helps reduce electricity consumption, promoting energy conservation. The efficient and automated vulcanization production line, along with the physical operations involved in the pre-treatment process, contribute to sustainability. The vulcanization layer can be reused while maintaining the same current load, allowing for the reduction of conductor size and minimizing the demand for copper mining. These benefits collectively emphasize energy conservation and environmental protection.

        Driven by the application of new technologies, sustainable development, and innovative design, bus ducts have promising development prospects. In the future, with the continued advancement of technologies and ongoing material innovations, bus ducts will further adapt to the evolving demands of industrial and commercial sectors. They will inject new vigor into power transmission by offering higher efficiency and enhanced reliability.