Explosion proof cameras can be used in high-risk, flammable, and explosive environments, but not all manufacturers produce explosion-proof cameras that are qualified. They must have relevant certificates issued by national authoritative institutions in order for explosion-proof camera manufacturers to be considered legitimate. Special attention should also be paid during installation.
The inlet of explosion-proof cameras must be sealed with rubber sealing rings, and it is strictly prohibited to arbitrarily modify the structure, components, and internal wiring of explosion-proof cameras. The fastening bolts must not be arbitrarily replaced or missing. The excess elastic sealing gasket and metal gasket of the inlet and outlet must be kept in the factory sealed state, and the compression nut should be tightened to seal the inlet. It is best to use dark wires for wiring. If it is impossible to use open wires, then it is necessary to ensure that the physical protection of the circuit part is done to the best extent.
During installation, attention should be paid to avoiding strong impact on the explosion-proof infrared camera. During daily operation, maintenance, and inspection, the explosion-proof camera casing should be avoided as much as possible. If it must be opened, the power should be cut off first. Explosion proof infrared cameras rely on infrared lamps equipped with CCD to emit infrared light and reflect it onto the CCD camera lens for imaging. Therefore, when installing explosion-proof infrared cameras, it is important to avoid objects in the field of view that are completely black, open spaces, water, or other objects that absorb infrared light. If infrared light is absorbed or weakened, it will greatly reduce the effective illumination effect of the infrared lamp, thereby affecting the monitoring image effect of the explosion-proof infrared camera.
In short, special care should be taken in the installation and construction wiring of explosion-proof cameras. When encountering problems, troubleshooting methods should be used to find the cause of the malfunction and solve it. Generally speaking, the explosion-proof monitoring equipment of brand manufacturers has already been debugged before leaving the factory, and the probability of problems occurring is relatively low. But some new project clients may encounter problems when they are not very clear about it, such as during the first installation, so the main issue is still experience. After doing more, they will roughly know how to troubleshoot these faults.
In addition, explosion-proof camera manufacturers should remind that in chemical plants, there may be explosive gases and dust in certain environments. It is important not to perform maintenance directly inside, as this can easily lead to accidents. The correct approach is to remove the explosion-proof camera after power off and bring it to a safe environment for testing and maintenance.
Installation, commissioning, and maintenance of explosion-proof pan tilt cameras
With the continuous development of safety monitoring technology, explosion-proof pan tilt cameras are increasingly widely used in many fields, especially in high-risk industries such as petrochemicals and coal mines. Due to its high-definition image quality, flexible rotation, and strong explosion-proof performance, it has become an important equipment for modern security monitoring.1、 Installation and debugging1. Environmental assessment: Before installation, the installation environment should be evaluated first. Ensure that the installation site meets explosion-proof requirements, stays away from flammable and explosive materials, and considers the camera's field of view coverage and lighting conditions.2. Installation location selection: Choose a suitable installation location according to actual needs. Generally speaking, it should be installed at a height where the target area can be observed from all angles, such as wall corners, beams, or poles, to ensure that there are no blind spots in the monitoring.3. Installation and fixation: Use a dedicated installation bracket and screws to fix the camera in the selected position, ensuring a secure installation and not easy to shake. During installation, it is important to avoid damaging the explosion-proof casing and internal components of the camera.4. Power supply connection: According to the power requirements of the camera, connect a suitable power supply and ensure that the power supply voltage is stable. Meanwhile, explosion-proof power cords and junction boxes should be used to prevent electrical sparks from causing explosions.5. Network connection: Connect the camera's network cable to the switch or router in the monitoring center to ensure smooth network connectivity. During the connection process, attention should be paid to the protection and shielding of network cables to avoid electromagnetic interference.6. Software configuration: Configure the explosion-proof pan tilt camera through monitoring software, setting parameters such as image resolution, frame rate, and bitstream to meet practical needs. At the same time, adjust the angle and focus of the camera to ensure clear monitoring images.2、 Maintenance and upkeep1. Regular inspection: Regularly inspect the explosion-proof pan tilt camera, including the integrity of the casing, lens cleanliness, and the connection of power and network cables. Problems should be promptly addressed to avoid affecting monitoring effectiveness.2. Cleaning and maintenance: Regularly clean the lens and casing of the camera to maintain clarity and aesthetics. When cleaning, special cleaning cloths or cotton swabs should be used to avoid using chemical cleaners or water for direct cleaning.3. Dust and moisture prevention: In high humidity or dusty environments, dust and moisture prevention measures should be taken, such as installing protective covers or using desiccants, to prevent moisture or dust accumulation inside the camera.4. Lightning protection measures: In areas with frequent lightning strikes, corresponding lightning protection measures should be taken, such as installing lightning rods or surge protectors, to protect the camera from lightning damage.5. Software updates: Pay attention to the software updates of explosion-proof pan tilt cameras in a timely manner, and regularly upgrade the software to improve the stability and safety of the equipment.6. Backup storage: Regularly backup monitoring data to prevent data loss. At the same time, regularly check the integrity and availability of backup data to ensure timely recovery when needed.In short, the installation, debugging, and maintenance of explosion-proof pan tilt cameras are professional and meticulous tasks. Only correct installation and careful maintenance can ensure the normal operation and monitoring effect of the camera. I hope the introduction in this article can be helpful to users and provide strong support for security monitoring work.
Explosion proof gimbal - Encyclopedia
With the continuous progress of technology and the increasing demand for security, explosion-proof gimbals, as an important safety protection equipment, are increasingly widely used in various fields. Explosion proof gimbal not only needs to have explosion-proof function, but also needs to maintain stable performance in various harsh environmental conditions, which puts higher requirements on its weather resistance performance.1、 The importance of weather resistance performanceWeather resistance refers to the ability of a product to maintain its original performance in various natural environments, such as high temperature, low temperature, humid heat, salt spray, sand and dust. For explosion-proof gimbals, the importance of weather resistance is self-evident. In practical applications, it may face various challenges such as extreme weather conditions, complex natural environments, and human factors. If its weather resistance performance is poor, it may lead to equipment failure, thereby threatening people's life and property safety.2、 The main influencing factors of weather resistance performance1. Material selection: Materials are the key factor affecting the weather resistance performance of products. The material of explosion-proof PTZ shall have good corrosion resistance, aging resistance and stability to ensure its original performance in various environments.2. Structural design: Reasonable structural design can improve the weather resistance performance of products. For example, a reasonable sealing design can prevent the intrusion of moisture and sand, improving the waterproof and dustproof ability of the product.3. Process control: The control of production processes is also an important factor affecting weather resistance performance. Through strict process control, the quality and performance stability of the product can be ensured.3、 Testing methods for weather resistance performance1. High temperature test: Place the explosion-proof pan tilt in a high-temperature environment and observe its performance changes. Through high-temperature testing, the stability and reliability of products under high temperature conditions can be evaluated.2. Low temperature test: Place the explosion-proof pan tilt in a low temperature environment and check its working condition under low temperature conditions. Low temperature testing helps to understand the performance of products in cold environments.3. Damp heat testing: conducted in a humid and hot environment to simulate the climatic conditions of tropical and subtropical regions. Wet heat testing can evaluate the corrosion resistance and aging resistance of products in humid environments.4. Salt spray testing: Conduct salt spray corrosion testing by simulating the marine environment. Salt spray testing helps to understand the corrosion resistance of products in marine environments.5. Sand and dust testing: conducted in a sand and dust environment to evaluate its protective ability in harsh weather conditions such as sandstorms.4、 ConclusionThe weather resistance performance of explosion-proof pan tilt is crucial for its stability and reliability in practical applications. Through reasonable material selection, structural design, and process control, as well as strict weather resistance testing, it can be ensured that its original performance can be maintained in various harsh environments, providing a solid guarantee for the security industry. With the continuous advancement of technology and the continuous improvement of testing methods, the weather resistance performance of explosion-proof gimbals will be further improved, contributing greater strength to the harmony and stability of society.
Mining explosion-proof camera manufacturer | Product Encyclopedia
Exd Ⅱ CT6 Gb/Ex tD A20 T80 ℃ explosion-proof certificate number: CNEx17.0052X ? Intelligent fire point detection function multi-level fire point detection, efficient detection, reducing false alarms, visible light linkage doubling, viewing surrounding conditions ? Perceived intelligent rules, supporting area intrusion, boundary crossing, entry/exit area detection ? Excellent thermal imaging image effect, 384 x 288 resolution ? Maximum temperature cross positioning, supporting 1 line temperature measurement, 10 box temperature measurement, and 10 point temperature measurement, with 100 associated temperature measurement preset positions ? Temperature measurement range: -40 ℃ to 550 ℃, temperature measurement accuracy: ± 2 degrees (or ± 2% of the range) ? Temperature abnormal alarm ? Precision motor drive, reaction Sensitivity, smooth operation, accuracy deviation less than 0.1 degrees, no image shake at any speed ? Supports power-off state memory function, After power on, it automatically returns to the pan tilt and lens state before power off. It supports lightning protection, surge protection, and surge protection. Mechanical indicators: stainless steel 316L. Protection level: IP68. Inner chamber size of the protective cover for use: 220 (L) x 80 (W) x 70 (H) mm. Horizontal rotation: 360 °. Vertical rotation:+90 °~-90 °. Horizontal rotation speed: 0.1-40 °/S. Vertical rotation speed: 0.1-40 °/S. Unit weight: 32Kg. Transportation weight: 35Kg. Installation method: fixed bracket, base, and column. Electrical indicators: Input voltage: 220VAC DC24V. Input voltage range: ± 10%. Working current: < 500mA (220VAC). Power consumption: about 100W. Communication method: RS-485 Communication speed: Adaptive communication protocol: PELCO-D/P ONVIF2.0 Infrared distance: 50, 80, 100 meters Number of preset positions: 256 Precision of preset positions: ≤ 0.1 ° Electrical connection: 3-core cable connected to power supply, 2-core shielded cable connection control signal, coaxial cable output video signal or RJ45 infrared thermal imager detector type non cooled focal plane micro thermal pixel 384 × 288 pixel spacing 17 μ Working wavelength of 7.5-14 μ M thermal sensitivity < 0.04 ℃ @ 30 ℃ Lens parameters Lens types 19mm, 25mm, 35mm, 50mm, 75mm heat dissipation differential lenses 15mm, 25mm, 35mm, 50mm, 75mm Electric lenses focal length 25mm/F=1 field of view 24 ° x 18 ° frame rate 50HZ Focused electric, supporting automatic focusing Clear imaging range 0.3m~∞ Temperature measurement performance Temperature measurement range -20 ℃~+150 ℃ (standard),+180 ℃~+600 ℃ (optional) Temperature measurement accuracy ± 2 ℃ or ± 2%, whichever is larger, display enhanced automatic stretching, DDE digital image details enhanced emissivity black background temperature calibration automatically corrects based on input emissivity and background temperature, Emissivity 0.01~1 adjustable filter or window transmittance correction automatically corrects atmospheric transmittance correction based on input transmittance. Automatically calculates atmospheric transmittance and corrects temperature based on meteorological parameters. Real time display of high-temperature point position and temperature is tracked by the highest temperature. Color palettes in gray, color, and iron red are used for electronic zoom 2 x, 4 x cameras 2 million 20 times 2.1 million 1/2.8 "CMOS ICR day night network high-definition all-in-one machine Sensor type: 1/2.8" Progressive Scan CMOS signal system: PAL/NTSC day night conversion mode: ICR infrared filter type signal-to-noise ratio: greater than 52dB. Electronic shutter: 1/1 second~1/30000 seconds Resolution: 50Hz: 25fp s (1920x1080) 60HZ: 30fps (1920x1080) 50HZ: 25fps (1280x720) 60HZ: 30fps (1280x720) Minimum illumination: Color: 0.05Lux @ (F1.6, AGC ON) Black and White: 0.01Lux @ (F1.6, AGC ON) White Balance: Auto 1/Auto 2/Indoor/Outdoor/Manual/Sodium/Fluorescent 3D Noise Reduction: Supports Focal Length: 4.7-94mm, 20x Optical Aperture: F1.6-F3.5 Horizontal Angle: 61.4-2.9 degrees (Wide Angle - Telescopic) Close Range: 10-1500mm (Wide Angle - Telescopic) Multiplying Speed: Approximately 2.7 seconds (Optical, Wide Angle - Telescopic) Exposure Mode: Auto Exposure/Aperture Priority/Shutter Priority/Manual Exposure Focus Mode: Auto Focus/One Time Focus/Manual Focus Wide Dynamic: Off/On, 4-level Adjustable Video Compression Standard: H.26mm 4/MJPEG compression output bit rate: 32 Kbps~16Mbps Image settings: saturation, brightness, contrast can be adjusted through the client or IE browser Storage function: supports micro SD intelligent alarm: movement detection, occlusion alarm, memory full, memory error Support protocols: TCP/IP, HTTP DHCP, DNS, DDNS, RTP, RTSP, PPPoE, SMTP, NTP, UPnP, SNMP, FTP, 802.1x, QoS, HTTPS, IPv6 (SIP, SRTP, optional) General functions: dual stream, heartbeat, password protection Communication interface: 1 RJ45 10M/100M adaptive Ethernet port, 1 RS-485 interface Protocol: ONVIF, PSIA, CGI
Changzhou DERKE Mechanical Equipment Co., Ltd
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