Introduction: The FTV-A electric furnace flame monitoring device uses a motor as the power source to drive gear and rack transmission, and the operator can control the forward and backward movement of the optical image transmission mechanism in the central control room or on-site control cabinet. This type of device has a self-protection function, that is, when the periscope tube loses air cooling protection or exceeds the temperature, the optical imaging mechanism will automatically exit the furnace, thereby protecting the safe operation of the device. In addition, this device can be connected to the entire plant's closed-loop monitoring system and DCS control system, and the operator can also monitor and control it through the above two systems. The FTV-A electric furnace flame monitoring device has the advantages of clear imaging, reliable operation, convenient installation and maintenance, and is widely used in fields such as petrochemicals and power. Technical parameters: Observation field range: 50 °, 90 °, 105 °, 120 °; Lens angle: 0 ° (direct view), 45 °, 60 °; Protective cover working environment: -40 ℃~70 ℃; Lens heat-resistant temperature: ≤ 2000 ℃; Required air source parameters for the device: Wind source pressure ≥ 0.3Mpa; Wind source flow rate ≥ 0.3m3/min; Wind temperature ≤ 40 ℃, dust particle size ≤ 10 μ M; Oil content ≤ 10mg/m3; Working power supply: AC 220V, 50Hz, 300W; Forward and backward mode: electric forward and backward; Automatic exit conditions; When the wind pressure at the protective air inlet of the periscope tube is lower than 0.04MPa, the imaging system will automatically exit the working site; When the temperature inside the protective cover exceeds 70 ℃, the imaging system automatically exits the working site; Overall weight: 43.5kg (on-site probe section). Installation method: welding;
Introduction: The FTV-A electric furnace flame monitoring device uses a motor as the power source to drive gear and rack transmission, and the operator can control the forward and backward movement of the optical image transmission mechanism in the central control room or on-site control cabinet. This type of device has a self-protection function, that is, when the periscope tube loses air cooling protection or exceeds the temperature, the optical imaging mechanism will automatically exit the furnace, thereby protecting the safe operation of the device. In addition, this device can be connected to the entire plant's closed-loop monitoring system and DCS control system, and the operator can also monitor and control it through the above two systems. The FTV-A electric furnace flame monitoring device has the advantages of clear imaging, reliable operation, convenient installation and maintenance, and is widely used in fields such as petrochemicals and power.
