The EXO harness has been developed to optimize load distribution and thus prevent the rider from having misplaced pressure points. This is why we worked with a human kinetic science lab to help us on this project.
Their scientific approach and knowledge of human morphology enabled us to create a harness providing a level of comfort that was previously nonexistent.
Energy Dispersion Frame
The EDF is a hexagonal structure with varying degrees of thickness. It is directly connected to the spreader bar through the straps and buckles.
Thanks to its shape and structure, the pressure is spread over a much wider area of the back and responds better, continuously, and more smoothly.
By being less concentrated on a small area of the back, the EDF protects the user and avoids any unwanted muscular effort to offset the bad traction.
Ballistic nylon
This material has been developed to be integrated into body armors designed by the Royal Air Force for its pilots.
This material is made out of thick nylon threads assembled in a very tight way, it offers outstanding abrasion resistance and extreme durability. This innovation extends the lifetime of the MANERA harnesses.
Single Foam
Comfort is paramount in any harness; the UNION uses a single injection mould to make a one-piece foam backing. This makes it exceedingly durable, as there are less parts to be glued or stitched together. It absorbs far less water and is much lighter than the multiple foam layups used in some harnesses.
Down hold system
Because there’s nothing worse than a harness that rides up during your sessions, we developed the DOWN HOLD SYSTEM, an asymmetrical attachment that distributes the forces downward.
Secured in its original position, the hook does not ride back up.
Manera leash release
Two leash releases are integrated into the EXO harness, allowing you to trigger your leash easily whether you are right or left handed. The leash can also be loose and slidable, or clamped between the two rings.
Spreader bar system
We wanted to avoid unpleasant lateral contraction of the harness on the chest, which is why we adapt our spreader bar to harness sizes.
A well suited spreader bar will pull along both sides of the harness, while a spreader bar that is too small will pull with an acute angle, putting pressure on the rider an