Explosion-Proof Firefighting Robots for Oil & Gas Fields
Product Description
Firefighter Robot Battery Intelligent Driven Remote Control Robotics Fire Fighting Robot RXR-MC80BD
Product Overview
RXR-MC80BD
is designed and produced according to GB3836-2010 explosion-proof standard.
It can replace fire and rescue personnel to enter the scene of inflammable, toxic, hypoxia, smoke and other dangerous disasters and accidents for fire fighting, effectively solve the personal safety of fire personnel in the above places. Simple body design, more stable, with high power DC deceleration motor to make obstacles become particularly simple.
The benefits of explosion-proof firefighting robots in oil and gas fields are significant:
Enhanced Safety: Oil and gas fields are inherently hazardous environments with the potential for explosive atmospheres. Explosion-proof firefighting robots are designed to operate safely in these conditions, reducing the risk of igniting secondary explosions during firefighting operations. By eliminating the need for human presence in these dangerous areas, the robots protect firefighting personnel from potential harm.
Efficient Fire Suppression: Explosion-proof firefighting robots are equipped with specialized materials and components to prevent sparks or ignition sources, ensuring they can safely work near flammable materials and volatile gases. This capability allows them to swiftly and effectively suppress fires in hazardous locations, minimizing fire damage and reducing the duration of fire incidents.
Real-time Monitoring: These robots are equipped with advanced sensors that can continuously monitor the environment for changes in temperature, gas concentrations, and other critical parameters. Real-time data transmission enables fire commanders to make informed decisions and adjust firefighting strategies accordingly.
Remote Operation: Explosion-proof firefighting robots can be remotely controlled, allowing operators to guide them from a safe distance. This remote operation capability is particularly crucial in oil and gas fields, where immediate access might be restricted due to the presence of hazardous materials or ongoing fire incidents.
Versatility: Explosion-proof firefighting robots are designed to handle various types of fire emergencies and are equipped with multiple firefighting tools such as high-pressure water jets, foam dispensers, and dry chemical agents. Their adaptability enables them to respond effectively to different fire scenarios in the oil and gas industry.
Increased Accessibility: Oil and gas facilities often have complex structures, including narrow passages and confined spaces. Explosion-proof firefighting robots are built to navigate through such challenging environments, allowing them to reach fire sources that may be difficult for human firefighters to access.
Minimized Business Interruption: Quick and efficient fire suppression provided by these robots can significantly reduce downtime and production losses in oil and gas operations. By promptly controlling fires, the robots help minimize disruptions and maintain the continuity of critical processes.
In summary, explosion-proof firefighting robots play a vital role in fire safety within oil and gas fields by offering enhanced safety, efficient fire suppression, real-time monitoring, and the ability to operate in hazardous environments. Their deployment in the industry enhances overall safety measures and protects valuable assets while ensuring continuous operations.
Product Equipments
Thermal Infrared Image Camera
TFT Fire Monitor: 80L/S flow, water/foam dual-purpose, range 80 meters
Gas collection: The collection of six gases around the robot body
Lighting: double LED strong lightAcoustic-optic
Alarm: the robot sends out acoustic-optic alarm under the running state of the robot body
Automatic obstacle avoidance: always detect obstacles in front to avoid collision
Spray cooling: water curtain spray cooling
Application Sites
Product Parameter
| Chassis configuration parameters | |||
| Dimension | 1612*910*1427mm | Weight quality | 726kg |
| Max obstacle height | 》220mm | Climbing ability | >70% |
| Direct run deviation volume | 《5.1% | Speed | >1.5m/s |
| Infrared thermal imager | Yes | Braking distance | <0.15m |
| Anti-collision function | yes | Spray cooling device | yes |
| Lighting | yes | Acoustic-optical alarm function | yes |
| Wading depth | 400mm | Water-proof function | IP67, top IP65 |
| Drag water belt ability | 2pcs80water belt 100M | Working time | 5h |
| Remote distance | 1000m | Speed control way | Wireless control |
| Gas collection | O2/CO2/CO/H2S/CH4/NH3 6kinds of toxic and combustible gases | ||
| Fire water cannon configuration parameters | |||
| Working pressure | 1.0MPA | Flow | 80L/s |
| Fire range | Water>85M, foam>80M | Pitching angle | -18~90 degree |
| Rotary | -45 ~ +45 degree | ||
| Control box configuration parameters | |||
| Dimension | 467*366*188mm | Weight | <10kg |
| Display size | 15inch | Working pressure | 24VDC/12VDC |
| Digital transmission frequency | 902-928MHZ | Format | Portable |
| Camera configuration parameters | |||
| Working temperature | DC12V | Signal system | PAL or webcam |
| Average relative humidity | <95%(+25degree) | Cloud platfrom performance | initial height>1430mm, lift up the rear height>1940mm |
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