Infrared electromagnetic heating

    The Xuchang Infrared Technology Research Institute Co., Ltd. is located at the East of Yongxing Road, New Technology Development Zone of Xuchang, Henan (Zhongyuan Electric Valley), with its predecessor being the Xuchang Infrared Technology Research Institute. It is one of the influential infrared heating research institutions in China. Infrared electromagnetic induction heating, also known as infrared electromagnetic heating(Foreign language:Electromagnetic heatingAbbreviation:EH)Technology: The principle of infrared electromagnetic heating is through the electronic circuit board components to generate an alternating magnetic field; when an iron-containing container is placed on top, the container surface cuts through the alternating magnetic field lines, thereby generating alternating current in the metallic part at the bottom of the container.(Eddy Current)Eddy currents cause the iron atoms at the bottom of the container to move rapidly and randomly, colliding and frictioning with each other to produce thermal energy. This effectively heats the items. Since the container itself is made of iron and generates heat, the thermal conversion rate is particularly high, reaching up to95%It is a direct heating method. Current infrared electromagnetic cooktops, infrared electromagnetic stoves Infrared Electromagnetic Rice Cooker All utilize infrared electromagnetic heating technology.1Infrared electromagnetic heater:Infrared electromagnetic heater is a device that converts electrical energy into heat energy by utilizing the principle of infrared electromagnetic induction. The infrared electromagnetic heater controller is designed to...220V，50/60HZAC to DC conversion, then transforming the DC into a frequency of20-40KHZHigh-frequency, high-voltage electricity, or380v 50/60HZConvert the three-phase AC to DC, then convert the DC to10~30KHZHigh-frequency, low-voltage, high-current electrical power for industrial product heating.2Infrared electromagnetic heating coil:High-frequency, high-voltage currents passing through the coil generate rapidly changing alternating magnetic fields. When an iron-containing container is placed above it, the container's surface cuts through the alternating magnetic field lines, producing alternating currents in the metal part at the bottom of the container.(Eddy Current)Eddy currents cause the iron atoms at the bottom of the container to move rapidly and randomly, colliding and frictioning with each other to produce heat energy. This effectively heats the items. It is a heating method that converts electrical energy into magnetic energy, creating induced eddy currents on the surface of the heated steel. This method fundamentally resolves the issue of low thermal efficiency in resistive heating devices such as electric heat plates and electric heat rings, which heat through thermal conduction. Industrial infrared electromagnetic energy-saving transformations are widely applied in energy-saving transformations for plastic machinery heating, wood, construction, food, chemicals, and other industries, such as plastic injection molding machines, extruders, blowing film machines, wire drawing machines, plastic films, pipes, wires, and other machinery, food processing, textiles, dyeing and printing, metallurgy, light industry, machinery, surface heat treatment, and welding, boilers, water heaters, and other industries. It can replace resistive heating and traditional energy sources like fuel and open flames. Textile dyeing and printing :Raw materials are heated using infrared electromagnetic heating, which enhances energy utilization efficiency, accelerates heating speed, and improves temperature control accuracy.;Light Industry :Canned goods and other plastic packaging closures, etc., for the boiler industry. :Infrared electromagnetic boilers, taking advantage of their rapid heating speed, can discard the traditional method of overall heating for boilers and only heat at the outlet end of the boiler. This allows the water to be heated as it flows, resulting in fast heating and space-saving. Mechanical industry :Infrared high-frequency electromagnetic heating can be applied to metal surface heat treatment, offering significantly improved results compared to traditional methods. It is also used for various mechanical parts hardening, as well as subsequent heat treatments like tempering, annealing, and normalizing after hardening, and for pre-heating before pressure processing.;The application of infrared electromagnetic heating technology not only benefits product quality, production efficiency, energy saving, cost reduction, and cost reduction, but also enhances the technical level of equipment manufacturing enterprises, and is increasingly accepted and used in traditional industries. Xuchang Infrared Institute will continue to maintain research and development of infrared radiation heating technology to improve anqEfficiency, reliability, and system lifespan For you, providingzPure infrared heating technology solutions.