TF1000H

TF1000H HEAVY-DUTY UNMANNED HELICOPTER

Superior Value, Maximum Uptime, and Mission Reliability

The "TF1000H" is the first tonnage heavy-duty unmanned helicopter from Camel Aviation Technology.It is equipped with efficient heavy oil engines, has shipborne operation capabilities,and a dual redundant flight control system. It supports fully autonomous takeoff and landing, aerial hovering, precise delivery, and emergency return, helping to efficiently execute heavy-duty tasks in complex environments and leading the industry's technological level.

TF1000H

Maximum Takeoff Weight

1400kg
Total Load（Fuel Weight+Payload）

650kg
Endurance

600kg-1h，500kg-3h
External Power Supply Module: Supported

28V，3.0kw/5kw
Std Comm Link Range

30 km（Std），100 km（Opt）
Maximum Usable Fuel Capacity

200 L
Maximum Hover Ceiling

6500 m
Cruise Speed

80-100 km/h
Velocity Never Exceed

160 km/h
Flight Management System Mode

Auto-Land / Takeoff, Cruise, Hover, Return to Base,Waypoint Navigation, Emergency Return.
Global Navigation Satellite System

GPS/BDS，INS
Wind Limit

Takeoff/Land≤ Beaufort 6，Cruise≤ Beaufort 8
Operating Temperature Range

-20 ℃~55 °C
Fuselage Dimensions(Length, Width, Height)

4.65 m * 1.7 m * 1.9 m

Environmental Suitability

Highlands, Snowfields, Gobi Deserts, Sandy Plains, Grasslands, Woodlands, Mountainous Terrain, Maritime Areas, and Riverine Zones

Application Fields

Cargo Transportation, Fire & Rescue, Wildland Firefighting, Medical Evacuation (MEDEVAC), Communications Relay, Power Grid Infrastructure, Geological Surveying, and Mineral Exploration & Prospecting.

System Composition
- Integrated Support Command Vehicle
- Operational Team (2-3 Personnel)
- Data Link
- Ground Control Station (GCS)
- EO/IR Gimbal Pod
Available Payloads
- (EO/IR Gimbal Pod
- Aerial Delivery & Hoist Mechanism
- Hoist Cable
- Cargo Nets & Bulk Bags
- Firefighting Payloads & Bambi Bucket
- Communications Relay Equipment
- Satellite Communication Terminal
- Medical Evacuation Pod (MEDEVAC)

Technological Advancement

High-Reliability & High Environmental Adaptability Platform Technology — Fully Independently Developed System & Environmentally Adaptive Design

01

Tandem Helicopter Overall Technology

Adopting a tandem dual-rotor layout design, the front and rear rotors are arranged longitudinally to maintain fuselage stability, simplify structure, and reduce weight. The dual-rotor layout provides stronger aerodynamic stability; the increased rotor area enhances lift, and its wind resistance performance is superior to that of conventional single-rotor helicopters.
02

Flexible Rotor Hub Technology

Integrated with elastic bearings, it realizes flexible flapping and lead-lag movements of the rotor blades, significantly reducing the number of mechanical components. The flexible rotor hub design lowers structural complexity; elastic materials can absorb high-frequency vibrations during rotor movement to achieve vibration suppression. Its rigid connection feature enables more direct transmission of blade pitch commands, reducing control delay and improving maneuverability.
03

High-Efficiency Rotor Technology

The rotor system adopts lightweight design technology, integrating the advantages of no tail transmission, no need for tail reducer and tail rotor. It avoids the risk of tail rotor failure, improves maneuverability, increases hover efficiency by 10%~15%, and features a compact structure and small overall size, adapting to shipboard environments with limited space.
04

Long-Distance High-Power Transmission Technology

It adopts high-torque brushless motors combined with high-power ESCs to achieve linear control of power output; the dual-motor redundant architecture can still maintain stable power output in case of failure; the lightweight transmission structure reduces aircraft weight and enhances transmission strength.
05

Airframe Lightweight Technology

Composite materials are used as the main load-bearing structure, reducing weight while improving strength; the modular design facilitates rapid replacement of mission modules and reduces the weight of redundant structures.
06

Power Adaptability Modification Technology

Equipped with dual-rotor power redundancy configuration, it can automatically redistribute power when a single motor fails, maintaining more than 80% of the load capacity, which is suitable for high-reliability scenarios such as material transportation.

High-Safety Intelligent Flight Control Technology

Fully Independently Developed System & Military-Grade Redundancy

The dual-redundancy flight control system has a hot-switching time of <100ms between the main and backup flight control computers, and can still maintain more than 80% of the control capability when a single system fails; power system fault tolerance: the tandem dual-rotor design allows automatic adjustment of power distribution when a single rotor fails to maintain hover stability. It supports autonomous mission execution, integrates core flight control technology, and enables fully autonomous takeoff and landing, precise fixed-point delivery, and emergency return.