Your Professional Pure Electric Agricultural UAV 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.
Pure Electric Agricultural UAV
Agriculture spraying drone have a low operating height, less drift, and can hover in the air, without the need for a dedicated take-off and landing airport. The downward airflow generated by the rotor helps to increase the penetration of the fog flow to crops, with high control effect and long-distance remote control operation. , spraying operators avoid the danger of exposure to pesticides, improve the safety of spraying operations and many other advantages. In addition, the electric unmanned helicopter spraying technology can save at least 50% of the pesticide use and 90% of the water consumption by spraying, which will greatly reduce the cost of resources. The method of spraying with drones greatly reduces the risk of exposure caused by people gathering. Compared with oil-powered drones, electric drones have small overall size, light weight, lower depreciation rate, low labor cost per unit operation, and easy maintenance.
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A410 A416 A422 |
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Type |
A410 |
A416 |
A422 |
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Picture |
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Wheelbase |
1400mm |
1500mm |
1500mm |
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Cabinet capacity |
10L |
16L |
22L |
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Maximum take-off weight |
26kg |
38kg |
52kg |
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Full load flight time |
8min |
8min |
8min |
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Empty flight time |
20min |
20min |
20min |
Advantages of Pure Electric Agricultural UAV
Save time and labor
There are plenty of use cases for drones in precision agriculture, as they fly over farm fields in a variety of roles, serving as the farmers' " skyline eyes" and in some ways replacing people directly involved in the operation. From pre-planning of field exploration to spraying of pesticides, a huge amount of labor and time is saved.
Accurate analysis and monitor
One of the biggest uses of plant protection drones is to monitor plant health, with a configuration called the Normalized Difference Vegetation Index (NDVI), which allows the drone to use different colors or marker information to indicate plant health, the results are presented to serve as a monitor, then enable farmers to control the growth of their crops at a glance.
Improve crop yield
Drones/UAVs/eVTOLs can obtain crop data more quickly and frequently, which allows farmers to get a quicker handle on issues such as irrigation, soil problems, and plant diseases, and act promptly to put plants in optimal growing conditions to meet expected crop yields.
Precise and safe spraying
Spraying is a relatively large part of agricultural activities, manual spraying is very time-consuming and labor-intensive, with chemicals that can be hazardous to health in some way. Using drones to heal infected plants is more precise than manual labor.
Fixed-Wing Drones
Fixed-wing drones are well-suited for large-scale farming operations. They efficiently cover extensive areas in a single flight, making them ideal for surveying vast farmlands. Their longer flight times compared to multirotor drones enable them to complete more comprehensive mapping and surveying tasks before needing to recharge or replace batteries.
Multirotor Drones
Multirotor drones, such as quadcopters and hexacopters, excel in maneuverability. They can hover, change direction rapidly, and fly at low altitudes, making them ideal for close inspection of crops and precise applications.
VTOL (Vertical Takeoff and Landing) Drones
VTOL drones combine the advantages of both fixed-wing and multirotor drones. They can take off and land vertically like multi-rotors and transition to fixed-wing flight for efficient long-distance coverage.
Applications of Pure Electric Agricultural UAV
Aerial Spraying
Drones for spraying farms fly over fields at high speeds, covering wide swathes of land in a fraction of the time it would take using traditional ground-based methods – the likes of boom sprayers mounted tractors, or you walking around with a knapsack sprayer on your back. Such methods can be slow and require multiple passes over the field to ensure full coverage. The rapid coverage with drone sprayers is also beneficial during narrow windows occasioned by weather conditions and crop growth stages.
Livestock Management
Every farmer appreciates the value of being able to observe the health and behavior of your livestock without the need for frequent ground inspections – and even detect things that wouldn’t have been visible to the naked eye. That way you can find, isolate and treat sick animals quickly, preventing the spread of disease.
Crop Monitoring & Health Assessment
Drones with advanced imaging technologies like RGB and multispectral sensors capture data across various light spectra, including the near-infrared, which helps in assessing plant health and spotting stress early before it becomes visible to the naked eye. That way farmers to pinpoint areas of a field that may be under stress due to pests, diseases, or insufficient nutrients, enabling timely intervention to mitigate damage.
Soil and Field Analysis
When a farmer uses a drone for soil analysis, the goal is to gather detailed information that can help optimize agricultural practices. Take the moisture levels for instance. Drone drones for farming with thermal cameras can show areas of the field where there are inconsistent heat signatures. Contrast this with the multispectral imagery that shows which crops are struggling, and you will be able to readjust irrigation plans as needed. This is because soil temperature and local microclimatic conditions have a significant impact on seed germination, plant growth, and pest dynamics.
Precision Mapping and Surveying
Combine drone tech like high-resolution cameras, RTK (Real-Time Kinematic) GPS, and sensors such as LiDAR (Light Detection and Ranging) or photogrammetry payloads, and you can generate detailed terrain models with accurate measurements. Drone agriculture mapping can be in 2D or 3D, depending on the kinds of sensor and data processing software used.
Planting and Seeding
Relying heavily on manual labor or mechanical seeders pulled by tractors costs you a lot. Such methods come with logistical challenges, with more time and physical effort being required. They are also less precise, causing issues like uneven seed distribution, wasted seeds, and ultimately, suboptimal crop yields. Not while you can quickly load the seeds onto a drone and send it flying over your farm, ensuring that the seeds are evenly distributed with optimal spacing. It costs way less, and gets the task done much faster.
Frame
The frame of an Pure Electric Agricultural UAV as its structural backbone. It is typically made from lightweight materials such as carbon fiber or aluminum to keep the drone agile and aerodynamic while ensuring durability.
Motors
Motors are the powerhouse of Pure Electric Agricultural UAV. These electric motors generate the necessary thrust to lift the drone off the ground and keep it airborne.
Electronic Speed Control (ESC)
Electronic Speed Control (ESC) for drones is a crucial electronic device that manages the speed and direction of each motor in the drone.
Flight Control Board
The flight control board, often referred to as the "brain" of the drone, is responsible for processing data from various sensors and sending commands to the motors and ESCs.
Radio Receiver
The radio receiver receives signals from the drone operator's transmitter, translating them into commands that the flight control board can execute.
Propellers
Propellers are responsible for generating the thrust required to lift and propel the drone. Pure Electric Agricultural UAV often use specially designed propellers optimized for efficiency and stability during aerial operations.
Sensors
Sensors constitute the sensory array of Pure Electric Agricultural UAV,each tailored to specific functions.
Equipment Inspection and Maintenance
Pre-flight Inspection
Visual Inspection: Verify that the aircraft is structurally stable, the propellers are free of cracks or looseness, the motors are free of abnormal noise, and the camera and radar are unobstructed.
System Inspection: Perform an idle test using the accompanying app (such as XAG Agricultural Services) to ensure proper motor rotation and stable positioning system (such as RTK) signals.
Battery and Battery Level: Verify that the battery is sufficiently charged to prevent a crash due to low battery. Clean the battery connector with a cotton swab dipped in alcohol to prevent corrosion.
Regular Maintenance
Cleaning and Maintenance: Clean the aircraft and spray system with clean water after each operation to prevent pesticide residue from corroding the equipment. Disassemble and clean internal components (such as the power distribution board) every six months.
Component Replacement: Replace damaged propellers in pairs. Motor failure or swollen batteries should be immediately removed from service and repaired.
Professional Maintenance: Perform professional maintenance after a certain number of flights or every few months to inspect the motor, circuitry, and control system.
Long-Term Storage
Store the battery in a cool, dry place, maintain a charge between 20% and 50%, and charge and discharge it every three months to prevent capacity loss. The drone should be folded and stored away from direct sunlight and humid environments.
FAQ
As one of the leading pure electric agricultural uav manufacturers and suppliers in China, we warmly welcome you to wholesale cheap pure electric agricultural uav in stock here from our factory. All customized products are with high quality and competitive price.
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