SkyRobotic Hexacopter

SkyRobotic SR-SF6 Hexacopter

The newly developed Skyrobotic Hexacopter enables a complete array of new and improved functions that make the copter easier to control and safer.

SKU: SR-SF6 Category:

Flying a SkyRobotic drone means flying an object boron thanks to someone that take care of the whole industrial chain, from the design to system integration, right through to production of turnkey platforms that are robust, practical and effective in the field of remote sensing proximity.

Thank to 10 years of experience and innovation in the field of unmanned aircraft systems completely dedicated to industry professionals. Our software, tools and procedures support the end-user in every phase of use of the system, starting from training through the management down to all the maintenance activities.

Moreover, standard UAS performance are totally exceeded thanks to the combination of  SkyRobotic simulation software with the use of composite aeronautical materials.

Precise Control

The 6 rotors and performance engines provide a massive thrust. The copter reached a climb rate of 8 m/sec and a speed of 40 km/h. Even if one motor would fail the device has enough power to fly safely.

Ultra Lightweight Design with Collision Protection

The innovative lightweight carbon fiber casing provides protection to the propellers when the UAV is flying close to objects. Bystanders and objects protected by the case from the rotating propellers.

Programmable routes

The Hexacopter can fly programmed flight paths autonomously and independently take predefined aerial photos. The coordinates could be entered in the Software on a map. After launching the drone the software takes control and flys along the flight path automatically. With programmed routes it is possible to make Aerial photographs for land surveying, 3D models of buildings, building development, thermography images for the maintenance of solar systems, detailed aerial photos for the maintenance of power lines or wind turbines or images for the inspection of bridges. The application possibilities are almost endless.

Dynamic POI

In addition to fully autonomous waypoint flights the the device also allows the dynamic setting a waypoint during a flight. This gives pilots unprecedented opportunities for aerial survey of an object.

Camera Mount

The intuitive camera mount with automatic pitch and roll compensation provides steady and blur-free pictures and videos. You can change the settings during the flight and move from horizontal to vertical camera angle. The unit is compatible with professional SLR, thermografic, video cameras, and many others. Additionally a live stream via a small camera can be transmitted to the ground station or to the video eyeglasses.

Control Panel on Tablet PC

In addition to the RC remote control, the Hexacopter can also be controlled using a Tablet PC. Therefor no RC experience is required. Almost all of the functions of the copter can be reviewed and changed by the control panel.

Autostart and Autolanding

With the development of automated takeoff and landing process, the control of the Hexacopter is even easier. It is now possible to start the device by means of a button press and to land.

GPS Cage

At the same time can be flown in a practice mode in a virtual shelter, which the Hexacopter can not leave. This is the minimum height, always respected up and down. The crash risk has been minimized in the least. Once the copter after a car start in the air, you can take control and steer the copter.

Coming Home

In the fact that the UAV goes out of range, you can use the coming home function. After activating the UAV automatically returns to the starting position.

UAV and camera control separately
If desired, you can control the copter by two people. One person controls the UAV and the other person the camera. With this option you can make impressive shots.

Video broadcast First person View

The video broadcast can transfer the live image of the copter. It can be viewed by the ground station or by a video display goggles and can be controlled as being on board.

Collision Avoidance and Automatic Distance Control

Innovative sensor system based on methods of artificial intelligence and image processing for collision avoidance (Release Q4/2014).

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