Your Professional Unmanned Aerial Vehicle Supplier
Xian Baochen Information Technology Co., Ltd. is located in high-tech Zone, Xi 'an, Shaanxi Province, China, is a focus on sensors, transmitters, inverters, power semiconductor devices and supporting instruments R & D, manufacturing, sales and service enterprises. The company invests in research and development team, cooperates with excellent universities, integrates industry resources, and provides the best quality solutions for domestic and foreign users. Enterprise mission: to meet user needs and create value for customers.
Why choose us
Sales Market
We Products are exported to Europe, America, Southeast Asia, West Asia, Central Asia and other countries around the world. Our products are well received in these markets.
Our Service
Able to quickly respond to customer needs, to provide personalized customization, timely delivery, professional technical support and perfect after-sales service.
Strict Quality Control System
Able to efficiently produce large quantities of products, advanced production processes and stable supply chains, the implementation of strict quality control system. Constantly introduce new technologies and new materials to improve product performance and production efficiency.
Wide Range of Applications
Through the EU CE, RoHs testing, products are widely used in petrochemical, water conservancy and hydrology, machinery and equipment, automobile manufacturing, industrial process control, weighing measurement, people's livelihood applications and other fields.
Unmanned Aerial Vehicle
Unmanned aerial vehicle (UAV), military aircraft that is guided autonomously, by remote control, or both and that carries sensors, target designators, offensive ordnance, or electronic transmitters designed to interfere with or destroy enemy targets. Unencumbered by crew, life-support systems, and the design-safety requirements of manned aircraft, UAVs can be remarkably efficient, offering substantially greater range and endurance than equivalent manned systems.
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Configuration |
Micro drone |
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Maximum take-off weight |
50g |
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Fuselage length |
165mm |
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Remote control distance |
2.5km |
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Flight speed |
10 m/s |
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Duration of flight |
20min |
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Noise level |
50dB(distance 3m) |
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Camera resolution |
1080*720P |
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Image transmission resolution |
640*380P |
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Classification of wind resistance |
3 degrees |
Advantages of Unmanned Aerial Vehicle
Enhanced Streamlined Operations
With UAVs, tasks can be completed faster and more efficiently than manually.It is ideal for large-scale surveys, inspections, and mapping.
01
Improved Safety
The need for human presence in risky environments like disaster zones and inspections at high altitudes has been reduced.
02
Cost-effective Solutions
Compared to the usual ways, it requires less fuel, manpower, and equipment.Ideal for budget-conscious projects with large coverage areas.
03
Smart Logistics and Delivery
Improves last-mile delivery in remote or congested areas.Improves time-sensitive operations by supporting real-time tracking.
04
Real-Time Monitoring of Data
Provides instant aerial footage and analytics.Provides a faster response time for emergency situations, logistics coordination, and resource planning.
05
Multi-Rotor: These are the ubiquitous ones and simplistic to use. These have many rotors and are perfect for picture taking, close-up work and indoor flying.
Fixed-Wing Drones: These are shaped more like traditional airplanes. They can also travel longer distances and remain in the air longer, qualities making them well-suited for surveying and mapping.
Single-Rotor Drones: These look like helicopters but are stronger than multi-rotors. They are also used for freight hauling.
Hybrid Drones (VTOL): These have the ability to take off and land in vertical flight (like a helicopter) and transition to horizontal flight (like an airplane). For missions that demand both agility and endurance, VTOL drones offer a balanced solution with advanced capabilities.
Applications of Unmanned Aerial Vehicle
Agriculture: Farmers deploy drones to monitor the health of crops, to spray fertilisers and to chart their fields with incredible precision. It helps them better manage their land and troubleshoot early.
Construction: Drones are useful on construction sites to check up on structures, monitor progress and make sure everything is being done on time without ever having to scale scaffolding or rely on crane operations.
Delivery: Some businesses are experimenting with drones carrying packages, a use that is particularly valuable in remote or hard-to-reach spots where regular delivery vehicles fail.
Mapping: Faster, safer land surveying with UAVs. They’re deployed to map terrain, inspect power lines and monitor forests or mines without putting people’s boots on the ground in risky spots.
Search and Rescue: Whether someone is lost in a forest or in the aftermath of a disaster, drones help emergency crews cover more ground, faster, even in harsh weather or difficult terrain.
Military and Defence: The military uses UAVs on missions of border security, surveillance, and occasionally for support during combat. Their risk is minimized and they are very much on the ground in real time.
Logistics: Both the military and commercial companies rely on UAVs for logistics tasks, such as to carry medical supplies, tools, or replacement parts between bases, warehouses or remote sites. In defense, that means advancing troops through difficult terrain. In business, it might refer to quick delivery within extensive industrial parks or among facilities.
Cinematography: Drones have transformed the way motion pictures, documentaries and commercials are filmed, delivering seamless shots from aloft that once required helicopters, cranes or planes.
Working Principle of Unmanned Aerial Vehicle
Components and Structure
Airframe: The structural framework of the UAV, which can be fixed-wing or rotary-wing (e.g., quadcopters).
Propulsion System: Includes motors and propellers that generate thrust to lift the UAV and control its movement.
Power Source: Usually a battery or, in some larger UAVs, a fuel-powered engine.
Sensors and Cameras: Used for navigation, obstacle detection, and data collection, including cameras, GPS, accelerometers, gyroscopes, and more.
Flight Control System
Autopilot: An onboard computer system that manages the UAV’s flight path, speed, and altitude. It processes input from various sensors to maintain stable flight.
Remote Control: A ground-based controller that sends commands to the UAV. This can be a dedicated remote control unit or a mobile device with a control app.
Communication Systems
Data Link: A communication link that allows the UAV to send data to and receive commands from the ground control station. This can include real-time video feed, telemetry data, and control signals.
GPS Navigation: Utilizes global positioning system satellites to determine the UAV’s precise location and assist in autonomous navigation.
Operational Phases
Takeoff:The UAV can be launched manually by the operator or autonomously using pre-programmed flight plans.
Flight: During flight, the UAV follows the programmed route or responds to real-time commands from the operator. The flight control system ensures stability and corrects any deviations.
Data Collection: Depending on its purpose, the UAV may collect various types of data using onboard sensors and cameras. This data can be transmitted back to the ground station in real-time.
Landing: The UAV can return to a predefined landing point autonomously or be guided manually by the operator for a safe landing.
Maintenance of Unmanned Aerial Vehicle
Pre-Flight Checks
Visual Inspection
Along with inspecting your drone’s physical condition, a visual check is imperative before takeoff. Look for any signs of damage, loose parts, or debris that could interfere with your flight. Pay special attention to propellers, motors, and the body of the drone to ensure everything is intact and functioning as it should.
Functional Tests
Inspection of your drone’s various functions is equally important. You should check the remote controller, GPS signals, and battery status to verify that everything is operating correctly. This step helps to identify any malfunctioning components that may not be visible during visual inspection.
In-Flight Maintenance
Monitoring Systems
Across your drone’s flight, it is vital to utilize on-board monitoring systems that keep track of critical parameters, such as battery health and system performance. These systems provide real-time data that can help you evaluate your drone’s operational status, allowing for timely interventions before issues escalate.
Responding To Alerts
Along with monitoring systems, being responsive to alerts is necessary for maintaining your drone’s integrity during flight. When an alert indicates a potential issue, quick and decisive actions can prevent further complications and ensure a safer flying experience.
Post-Flight Maintenance
Cleaning Procedures
By maintaining a regular cleaning routine, you can prevent dirt and debris from affecting your drone’s performance. Use a soft brush or cloth to wipe down the body, propellers, and camera lenses, ensuring that all components are free from dust and particles that may interfere with flight operations.
Battery Care
On every flight, your drone’s battery is put to the test, so proper care is vital for its longevity. Always store batteries in a cool, dry place and avoid exposing them to extreme temperatures. Ideally, charge your battery only when it drops to around 20-30% capacity to preserve its lifespan.
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As one of the leading unmanned aerial vehicle manufacturers and suppliers in China, we warmly welcome you to wholesale cheap unmanned aerial vehicle in stock here from our factory. All customized products are with high quality and competitive price.
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