Underwater Robot Rescue Solution
Background and Requirements
Drowning accidents occur throughout the year. The river section is silted up with silt, resulting in low water quality and poor visibility. To respond quickly to rescue operations, obtain more effective underwater information, and carry out rescue operations in emergency situations, underwater robots provide underwater search and rescue application solutions for this issue.
Solution application and advantages
Make up for the shortcomings of the traditional frogman search and rescue range
Make up for the shortcomings of the traditional frogman search and rescue range, improving search and rescue efficiency
Work uninterrupted for a long time
Work uninterrupted for a long time without being affected by the external environment
Provide image-based terrain exploration
Provide image-based terrain exploration and environmental judgment to provide more effective information for decision-making
Save search and rescue labor costs
Save search and rescue labor costs, and bring lower risk for underwater operations
Application Scenarios
Large-scale search and rescue operations
When an accident occurs and we need to search and rescue in a vast expanse of water, time-consuming things may arise. In this situation, rescue teams can operate and command from fixed points along the shore and achieve large-scale coverage through the search and salvage work of underwater robots.
The endurance of frogmen and the limitations of oxygen tanks
Generally speaking, the physical strength of frogmen varies due to the influence of the external environment. Meanwhile, a regular oxygen cylinder is 12 liters, but it can only support divers for 40 to 1 hour of work. The underwater robot is equipped with a large-capacity battery that can work continuously and supports battery replacement, which can indefinitely extend the search and rescue time and solve the problem of search and rescue mission interruption caused by limited oxygen cylinder manpower.
Strive for more decision-making time
When reaching a certain water area, the danger in some places where the accident occurred does exist to a certain extent. The underwater robot is equipped with built-in sensors and anti-shake lenses, which can take high-definition pictures of the underwater situation and accurately record the underwater terrain environment and the location of the accident in advance, thus buying more decision-making time for rescue personnel before operation.
Save costs
Labor costs typically include long-term high-cost investments such as training and work. Robots can be used for operations at any time, saving the cost of manual salvage.
Technical characteristics
High-performance propulsion system
Advanced propulsion technology is adopted to ensure stability and maneuverability in underwater environments.
High-definition camera system
Equipped with a high-definition camera, it provides clear underwater image and video recording functions.
Remote control and communication
Supports remote control and real-time transmission of data and video signals.
Long-lasting battery
The large-capacity battery design supports long-term underwater operations.
Precision sensor
Integrate multiple sensors to accurately perceive underwater environmental parameters.
Sturdy and durable structure
Made of corrosion-resistant materials, it is suitable for various underwater environmental conditions.