Product Background
Logistics delivery requirements: With the development of the
e-commerce industry, the "last mile" problem in logistics delivery
has attracted much attention. For remote mountainous areas, islands
and other regions with poor transportation conditions, traditional
delivery methods are inefficient and costly. The 50kg heavy-duty
unmanned aircraft frame can be used to carry goods, such as the
"Fengyi Ark 150" unmanned aircraft of SF Express, with a 50kg load
capacity and a 20km flight range, it can effectively solve the
delivery problems in these areas and improve the three-dimensional
logistics network.
Emergency rescue needs: In the event of natural disasters, such as
the flood in northern Thailand, vehicles and ships cannot enter the
disaster area. At this time, unmanned aircraft are urgently needed
to transport rescue bags, drinking water and food and other
supplies. The 50kg heavy-duty unmanned aircraft frame enables the
unmanned aircraft to carry more rescue supplies and quickly reach
the disaster area, allowing for more time for rescue efforts and
improving rescue efficiency.
Power construction and maintenance requirements: In power line
erection and other construction scenarios, especially in
mountainous and other special areas, the traditional manual pulling
method is extremely inefficient. For example, the electric eagle
EHM-2200 with a large load capacity purchased by Xinjiang
Transmission and Transformation Engineering Company can fly for 30
minutes with a 50-kilogram load, which can solve the power line
erection problems in special areas, reduce manpower input, and
improve construction efficiency.
Material and design technology progress: The application of
high-strength carbon fiber composite materials, aluminum alloys,
and titanium alloys has enabled 50-kilogram heavy-duty unmanned
aircraft to ensure strength while reducing weight. At the same
time, the application of modular design concepts makes the aircraft
easy to be quickly disassembled, assembled, and maintained,
improving operational efficiency. In addition, through CFD analysis
to optimize the wing shape, the number and angle of the propellers,
etc., in the aerodynamic optimization design, the flight resistance
is reduced, and the lift efficiency is improved.
Improvement in flight control technology: The integration of
high-precision navigation systems, such as GPS global positioning
system, INS inertial navigation system, and visual obstacle
avoidance system, enables precise positioning and automatic
obstacle avoidance. The built-in advanced flight control algorithms
support various flight modes including automatic route planning and
autonomous takeoff and landing, allowing drones to fly stably under
heavy loads and ensuring safety and efficiency during operations.
Competition and industry development: The growth rate of the
consumer-grade drone market has slowed down. Companies are
expanding into the industrial-grade drone sector, and the market
for large-load drones has become an important competitive point.
Developing a 50kg heavy-duty drone frame helps enterprises meet
more application requirements, enhance product competitiveness, and
drive the entire drone industry towards higher load capacity and
higher performance.
Product parameters
| Developed size | 1615*1615*970mm |
| Folding size | 1000*1000*970mm |
Product display
