Application and Market Development Plan of Composite Fine Porcelain Instant Heating Module
1: Special composite precision ceramics (such as 99 aluminum oxide, aluminum nitride, silicon nitride, and other elements added) are made into ultra-thin walled pipes, and ceramic resistors are made of alloy resistance wire winding. The cleverly designed structure is used to make a liquid heater, which can heat faster, withstand impact, and sudden cooling and heating, with smaller volume and higher thermal efficiency.
2: The thermal expansion coefficient, thermal conductivity, and flexural strength are all improved compared to traditional ones, with an expansion coefficient of 5-6.5; Heat conduction: 18-20; Bending strength ≥ 300. Low coefficient of thermal expansion, able to withstand sudden cooling and heating environments; High thermal conductivity and better thermal efficiency; Ceramics have high strength and can withstand greater water pressure.
3: Ceramic surface wire winding technology uses rectangular cross-section resistance wires to increase the contact area with ceramics and achieve good conductivity efficiency; Adding a spring spiral body inside the ceramic to increase the heat exchange area; The overall heating efficiency is higher.
4: Adopting an aluminum alloy shell, it is sturdy and durable. Two temperature sensors are designed for precise temperature control in both water inlet and outlet. In terms of safety, a dual temperature controller scheme is designed to ensure timely power outage in abnormal situations (electronic board failure and water shortage), ensuring safety
