The ultra-low-volume spraying by drones is significantly better than traditional control methods in most cases, and the efficiency is significantly improved. Compared with traditional manual sprayer operations, the efficiency can be up to more than twice that of traditional control methods. Vertical take-off and landing of UAVs does not require a dedicated take-off and landing site. It operates at low altitudes and is not subject to aviation control. It has irreplaceable advantages in pesticide application of rice and high-stem crops that are inaccessible to ground aircraft. It is not only suitable for cultivated land with complex geographical conditions such as hills and mountains. Moreover, the separation of man and machine greatly reduces the risk of pesticide poisoning for workers. Technical parameters ---:r >
Technical indicators
Overall dimensions length*width*height---:r >
Aircraft self-weight---:r >
Maximum take-off weight ---:r >
Pesticide container capacity ---:r >
(-)
Body material ---:r >
Carbon fiber aluminum alloy
Charging Device ---:r >
High-power lithium battery balancing charging equipment
Spraying system ---:r >
Medicine box, dispersion spray system, booster pump set
Operating temperature---:r >
-℃-℃
Lithium battery life---:r >
-Charge and discharge
Maximum payload---:r >
(-)(%)
Lithium polymer power battery---:r >
. Battery life
Operating speed---:r >
~ / (Wind speed ~ level)
Relative flight altitude ---:r >
Distance to crops ~ . meters
Spray width (./minute nozzles, . meters long spray pipe) -- -:r >
~meter (headwind or tailwind, wind speed ~ level)
Spray flow rate ---:r >
-./(nozzles)
High concentration pesticide consumption ---:r >
.-./mu (depending on different crops)
Single-machine spraying efficiency ---:r >
Mu/day (see the actual operation of the flyer)< br/>
Improved version of plant protection machine, who knows who uses it