High-Strength Structure and Harsh Environment Adaptability: Adopts a rugged design with a stainless steel movement only 59mm in diameter, paired with a stainless steel protective sleeve with purging and cooling functions. The sealing components are made of high-temperature resistant rubber, with an IP65 protection rating, capable of withstanding harsh conditions such as dust, vibration, and temperature differences in industrial scenarios, ensuring long-term stable operation.
Superior Anti-Interference and Accurate Temperature Measurement: Based on the dual-color infrared detection principle, it possesses excellent anti-interference capabilities. Even in complex environments with water vapor, heavy dust, dynamic changes in target size, partial occlusion, or emissivity fluctuations, the temperature measurement results remain accurate and stable without any impact, even if the detection signal is attenuated by 95%.
High-Sensitivity Signal Processing: The software and hardware systems are professionally optimized to support precise processing of signals ranging up to several hundred thousand times, effectively filtering noise interference. This ensures the instrument maintains excellent measurement accuracy and repeatability under various working conditions, meeting the high-standard requirements for temperature detection in industrial production.
Industrial-Grade Reliable Operation Guarantee: With the dual support of protective design and signal processing technology, it features wide temperature adaptability, pollution resistance, and attenuation resistance. It requires no frequent maintenance or calibration, adapting to the continuous operation needs of industrial scenarios and reducing operation and maintenance costs.
Application Scenarios
Thanks to its strong environmental adaptability and high-precision temperature measurement advantages, the dual-color infrared thermometer is widely used in various complex industrial production scenarios, with core fields including:
Metallurgy and Steel Industry: Suitable for blast furnaces, converters, continuous casters, hot rolling production lines and other links. It performs non-contact temperature measurement on high-temperature metal workpieces such as molten steel, billets, and steel strips. Even under conditions of furnace dust, steam interference, or partial occlusion of workpieces by slag, it can accurately feed back temperature data, providing a reliable basis for smelting and rolling process regulation.
Power Energy Industry: Used in scenarios such as boiler furnace flame temperature monitoring, steam turbine blade temperature detection, and temperature measurement of key components of generator sets. It can penetrate interfering media such as flue gas and dust, stably output temperature data, and ensure the safe and efficient operation of power generation equipment.
Machinery Manufacturing and Heat Treatment Industry: Adaptable to production links such as forging, casting, and heat treatment furnaces. It conducts real-time temperature monitoring of high-temperature workpieces during processing, coping with working conditions such as changes in workpiece size, surface oxidation, and partial occlusion, assisting in process optimization and product quality control.
Building Materials and Chemical Industry: Applied in scenarios such as cement rotary kiln clinker temperature detection, glass melting furnace temperature monitoring, and temperature measurement of high-temperature components in chemical reactors. It can withstand harsh environments such as high temperatures, dust, and water vapor, ensuring precise control of temperature parameters during production and guaranteeing product quality and production safety.
Other Industrial Scenarios: Including non-ferrous metal smelting, waste incinerator temperature monitoring and other fields that require high-precision non-contact temperature measurement in complex interfering environments, providing key temperature data support for industrial automation control.
