XHTV-A oilfield heating furnace flame television monitoring system
Introduction: The XHTV-A oilfield heating furnace flame television monitoring system is a high-temperature endoscopic industrial television monitoring system specially designed for oilfield heating furnaces. Insert a specially designed endoscopic high-temperature resistant mirror tube into the furnace through the observation hole on the furnace wall, and use the high-temperature resistant imaging lens at the front end of the mirror tube to image the combustion situation of the burner in the furnace. The image is then transmitted to the camera target at the back end of the mirror tube through an optical conversion lens group, which is then converted into a video signal through CCD and transmitted to the monitor in the control room through a coaxial cable, It can enable the operator to see the real image of flame combustion in the furnace on the monitor screen in the control room. Through this device, the entire process from ignition of the burner to full load operation can be monitored. When the burner experiences abnormal combustion or fire extinguishing faults, an alarm signal can be automatically sent out, and the fuel supply valve can be automatically controlled to close, reducing the occurrence of safety accidents and providing strong support for the safe and efficient operation of the heating furnace. According to the monitored combustion situation in the furnace, the fuel supply can be adjusted reasonably to ensure the scientific, efficient, and energy-saving operation of the heating furnace. At the same time, it reduces the labor intensity of operators and eliminates the need for them to frequently inspect the combustion situation inside the furnace on site. The product adopts structural optimization design, which has the advantages of small volume, light weight, beautiful appearance, high temperature resistance, and easy installation. Features: 1. The periscope tube is made of high-temperature resistant materials, which are resistant to high temperatures. Corrosion resistance, no ash ingress, no sintering 2. The lens is made of high-temperature resistant materials, which are resistant to burning and can operate at a maximum temperature of 500 ℃. 3. The mirror tube is designed with a natural ventilation cooling structure, which can automatically introduce natural air to cool the mirror tube during negative pressure combustion. 4. Multiple head and one tail monitoring methods can be adopted, where the monitoring images of multiple heating furnaces can be displayed on one monitor through a screen splitter. 5. Monitoring can be carried out by switching the display of individual screens and soul rings, and multiple screens can be displayed on the same screen. Technical parameters: Observation field angle: 10-90 °; Lens heat-resistant temperature: ≤ 500 ℃ (in an unprotected wind state); Working power supply: 220V, 50Hz, 500W; Output frequency: 1.0Vp-p/75 Ω; Resolution: 420TVL;
Introduction: The XHTV-A oilfield heating furnace flame television monitoring system is a high-temperature endoscopic industrial television monitoring system specially designed for oilfield heating furnaces. Insert a specially designed endoscopic high-temperature resistant mirror tube into the furnace through the observation hole on the furnace wall, and use the high-temperature resistant imaging lens at the front end of the mirror tube to image the combustion situation of the burner in the furnace. The image is then transmitted to the camera target at the back end of the mirror tube through an optical conversion lens group, which is then converted into a video signal through CCD and transmitted to the monitor in the control room through a coaxial cable, It can enable the operator to see the real image of flame combustion in the furnace on the monitor screen in the control room. Through this device, the entire process from ignition of the burner to full load operation can be monitored. When the burner experiences abnormal combustion or fire extinguishing faults, an alarm signal can be automatically sent out, and the fuel supply valve can be automatically controlled to close, reducing the occurrence of safety accidents and providing strong support for the safe and efficient operation of the heating furnace. According to the monitored combustion situation in the furnace, the fuel supply can be adjusted reasonably to ensure the scientific, efficient, and energy-saving operation of the heating furnace. At the same time, it reduces the labor intensity of operators and eliminates the need for them to frequently inspect the combustion situation inside the furnace on site. The product adopts structural optimization design, which has the advantages of small volume, light weight, beautiful appearance, high temperature resistance, and easy installation.
