Surface treatment in the production process of insert radiator
Driven by the increasing consumer demand in my country's fin radiator market, fin radiator manufacturers have made outstanding contributions to the progress of my country’s fin radiator manufacturing technology through technological innovation of the fin radiator production.
The problems of energy consumption and pollution in the production process of insert radiators have emerged. In the casting process, how to strengthen the management of high-energy-consumption and high-polluting processes, and what standards to achieve, so as to achieve the purpose of reducing energy consumption and pollution. The internal anti-corrosion coatings, external spraying powder coatings, pre-treatment waste liquid, and unreasonable welding equipment of the insert radiator are all sources of energy consumption and pollution. What should we do in this regard?
First of all, the production of fin heat sinks should shift to technology-intensive. The key to energy saving is to use the fewest people to form a larger-scale production capacity, improve product quality, and concentrate surface treatment. Yuanpu electronic insert radiator is a kind of assembled radiator. The profiles and buckle covers used can be surface treated (electrophoresis, oxidation coloring, etc.) in the raw material production plant before producing radiators. It avoids the environmental pollution and energy consumption caused by the separate surface treatment of the insert radiator manufacturers.
In addition, welding is not required during the assembly process, and there is no overheating effect on the surface of the insert radiator, which saves a lot of manpower and energy.
With the continuous progress in the manufacturing process of the insert radiator, it has made outstanding contributions to the development of energy conservation and environmental protection, so that the modern insert radiator production technology continuously meets the needs of modern market development and promotes rapid economic growth.