For extreme disasters such as earthquakes, floods, and wildfires, this system builds an "air-ground-space integrated" emergency rescue network. Equipped with modules for life detection, medical supply delivery, and emergency communication relay, it achieves an efficient response within the critical 72 hours after a disaster, overcoming terrain and environmental limitations, and significantly improving the accuracy of survivor location and rescue success rates.
Functional module
1.Air Base Station
Drones build temporary communication networks
2.Search for Life
Infrared thermal imaging searches for life signatures
3.Material delivery
Drones deliver medical kits and survival gear
4.3D Reconstruction
Quickly build disaster area maps and 3D models
Multi-dimensional adaptation for various loads
Coaxial intelligent flying vehicle platform
Flexible and adaptable to various mission payloads, meeting individual needs
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1.Quick interface, capable of adapting to different load devices, allowing for quick switching without wiring connections.
2.It can achieve multi-tasking in a single machine, and is compatible both during the day and at night. It is also compatible with inspection tasks and external inspection tasks.
Core functional scenarios
1. Multi-layer protective design
Precision equipment (such as radar antennas, detection systems): Utilizes a multi-layer structure consisting of "cargo-padding-inner packaging-cushioning layer-outer packaging." Inner packaging is wrapped in anti-static foam plastic or air column bags, while outer packaging consists of reinforced wooden boxes or aviation-grade containers.
Moisture-proof treatment: The inner walls of the outer packaging boxes are lined with moisture-proof materials, and seams are sealed to withstand high-humidity environments during sea transport.
2. Cushioning and Shock Absorption
Fragile components (e.g., radar displays, optical lenses) are packaged using suspension packaging or anti-inversion design. Glass components must be fully wrapped in corrugated cardboard and foam.
3. Electronic Components
High-frequency components (e.g., waveguides) must be cleaned and covered with dust-proof end caps, then sealed with moisture-proof paper.
Battery-powered devices (e.g., drone batteries, walkie-talkie batteries) are packaged separately, with battery-specific labels affixed to the outer box.
4. Large Equipment Packaging Solutions
Radar bases/drone mounting platforms: Add wooden sleepers or steel bases to the bottom.
Safety Protection (Beijing) Trading Co., Ltd.Has long been dedicated to security research in critical domains, with a particular focus on low-altitude security maintenance. As a renowned enterprise in the field of low-altitude surveillance and early-warning radars, it boasts highly mature security expertise accumulated through years of practical experience.
In response to the evolving security landscape, the company has continuously expanded its reach into the drone countermeasure systems sector. With wireless technology as its core, it delivers three-dimensional defense solutions, striving to build a full-range wireless security system that covers diverse application scenarios.
The company's main product portfolio is comprehensive and targeted, including:
Low-altitude slow-speed small target detection radars
Air-ground integrated multi-function radars
Perimeter safety detection radars
Bird detection radars
These products are designed to detect and provide early warnings for a wide range of targets, such as medium-low and ultra-low-altitude multi-rotor drones, fixed-wing drones, balloons, birds, vehicles, ships, unmanned boats, individual soldiers, and group targets. Leveraging advanced technology and rich industry experience, the company is committed to offering customers top-quality products and the most sophisticated, tailored solutions to meet their specific security needs.
For extreme disasters such as earthquakes, floods, and wildfires, this system builds an "air-ground-space integrated" emergency rescue network. Equipped with modules for life detection, medical supply delivery, and emergency communication relay, it achieves an efficient response within the critical 72 hours after a disaster, overcoming terrain and environmental limitations, and significantly improving the accuracy of survivor location and rescue success rates.
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