Industrial Grade Construction

A state of the art unmanned aerial system starts with the building materials. If you are interested in the best unmanned aerial systems you can start by looking at what we are made of.

Gryphon Dynamics utilises state of the art carbon fibre weave and fabrication techniques to make the industrial grade carbon fibre parts. Many of these techniques were developed and perfected in-house by our engineers. Where many other UAV companies will outsource every aspect of either the design and manufacturing Gryphon Dynamics takes a vertically integrated approach to design, fabrication, and construction to allow for a seamless airframe with a solid construction and clean design. Gryphon Dynamic frames are built to industrial grade standards to ensure that our hardware will out compete the elements our clients operate in every day. An example is their octagonal boom design which is far stronger than typical round boom, this ensure no flex in the booms when handling heavy payload or whilst operating in high dynamic loads such as in tight banked curves.

Safety

When operating any unmanned aerial system safety should be the foremost concern. Operators must take into account how their equipment can reduce risk to personnel and payloads. The design of the airframe can play a big role in reducing risk to mechanical and electrical failures. Gryphon Frames are at the forefront with a sturdy but configurable construction, octagonal booms ensure precision control but also offer less vibration and thus less wear and tear on the aircraft during flight.

Our redundant power systems ensure your payloads stay safe and in control in the event of a motor or battery loss. Aircraft grade aluminium (AL7075) and reinforced motor mounts stand up to the test of repeated use and outperform lighter plastic joints and locking mechanisms.

Integrated Electronics

Gryphon Dynamics frames are designed with the electronics and wiring needs in mind. The frames will accept a variety of different types of flight controllers, ESCs and motors depending on your payload requirements however still allow for these components to seamless integrate into the frame components.

Our power distribution and dual BEC boards keep wiring minimal but organised and professional. Having a clean setup makes maintaining your aircraft through visual inspections more effective and therefore helps increase your performance and safety. The dual BEC is adjustable for supplying power to accessories such as LEDs, retractable landing legs, sensor packages, video transmitters and is adaptable for any number of mission requirements. It's position in the frame makes adjusting voltage settings quick and easy. The PDB which works with the BEC or on its own will handle upto 1000 amps, and if more power is needed can be used with a multiple PDB to spread the load. The integrated electrical design makes swapping components outs quick and does not require a full tear down of the airframe.

Modular Design

One of the hardest parts of picking a unmanned aerial system is making sure you are getting the right platform for the mission requirements of today and of the future. Gryphon frames feature a modular based design which makes the airframe adaptable, portable, as well as future proof.

Adaptable: different environments or payloads call for different UAS configurations. With the modular based arm design the Gryphon Dynamics the operator can swap from one propulsion configuration to another in minutes, or change motor specs from power house to endurance profiles.

Portable: Arms can be removed from center hub for easy transport. The arms use aircraft grade aluminium joints to lock together with incredible rigidness and strength so the frame does not need to make any compromises in strength for portability. When lifting heavy high value payloads, this is an absolute must.

Future Proof: Everyone who uses electronics knows that the rate of advancement is happening faster every day. With Gryphon Dynamics systems their modular design in both the arms and center frame there is a clear and easy way to upgrade your hardware with the next advancement in motor, ESC, or other yet to be dreamed of electronics. You can rest easy knowing your frame will live up to today's mission requirement, and still be relevant for future mission requirements as the UAS community continues to push the limits of what's possible.

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Construction

Performance

Dimensions

Weights

Typical Propulsion

Flight Times