The Cabrio is our first design originally dedicated for paramotor tandems, especially heavier two-seater trikes (PPGG). Earlier we were simply adjusting already existing wings for heavier loads, resulting in "Cabrio" versions of the original designs. Now, seeing the ever growing number of paramotor tandem enthusiasts, we've created the real CABRIO - not an add-on for other designs, but a truly uncompromising paraglider, from the onset created to fulfill specific needs of the PL2 pilots.
The outline of the Cabrio is similar to our regular tandem paraglider, the Orca 4. Strengthened structure and rigging allow for optimal load distribution along the entire wingspan.
The FlexiEdge stiffeners, inner reinforcements and mini-ribs make sure the profile is exactly reproduced and stabilized. Mini-ribs on the trailing edge also allow it to be slender and reduce ballooning, thus significantly improving the airflow.
Based on the DRA (Dudek Reflex Airfoil) technology, the Cabrio aerodynamic profile is additionally equipped with shark-nose, thanks to which the pressure inside the canopy is higher and more stable over a wide speed range.
Variable profile geometry managed by trimmers allows you to adjust the profile to the current flight status, so that you can have a slow wing with much of lift during takeoff and landing, while enjoying good speed and stability in accelerated flight.
During launch the Cabrio fills up very well and rises with no tendency to fall behind or overtake the pilot. Thanks to the use of an additional delta on the "A" risers (a feature known from our earlier designs, including Nucleon Cabrio), pilot has the option of connecting assisting tapes or lines for the launch, so that only the main control handles remain in his hands, facilitatings full control over the wing.
The entire launch procedure is done over short distance, at slow speed and does not require much power.
The dual control system used in Cabrio is well known from our previous models. The wing is equipped with both main control and small TST handles, mainly used in accelerated flight (open trimmers). Such a system makes it easier for the pilot to control the wing and increases the effectiveness of turning without putting a lot of effort into it. TST lines pass through the TEA cleats, so it is possible to counteract the turning moment of the propeller (through earlier tying a knot at the appropriate height on the TST line, blocking it in the cleat slit).
By using the trim system, the pilot can accurately control both speed and direction of flight, through their partially asymmetrical positioning. On the landing approach a relatively small pull of the brakes is enough to considerably reduce speed and land smoothly.
Our efforts of developing the new Cabrio resulted in a coherent and stable structure offering much lift. All parameters are combined so as to maintain the right proportions of passive safety, performance, ease and precision of control.
In turbulence, the wing behaves predictably and confidently, absorbing both fore and aft or side to side swinging.
Ultimately, the Cabrio will be available in four sizes to meet all expectations of the PPG and PPGG market as of size selection.
Due to very diverse systems of connection, control and trimmers operation existing in PPGG, it is possible to order extended control lines to adapt the wing to specific requirements. However, it should be remembered that using non-standard regulations and adjustments is a personal responsibility of the pilot.
The canopy has been designed in our CSG system (Canopy Shape Guard), which consists of several subsystems guaranteeing exceptional coherence of the canopy shape and its extended durability.
Cabrio has an elliptic shape with slightly back-swept wingtips. The canopy is made of doubled cells, with ribs supported by VSS (V-Shaped Supports) system. Such design guarantees that the upper surface is smooth, featuring correctly reproduced aerofoil, better load distribution and few suspension points.
Inside the canopy there is an RSS (Reinforcing Strap System) applied on the lower surface. This system is ballooning-independent, effectively reinforcing and stabilizing the entire canopy.
Adjustable reflex airfoil of the paraglider is based on our flagship DRA concept (Dudek Reflex Airfoil), duly optimized using special CFD software.
The intakes of Shark-nose technology are a solution based on the use of a concave shape in the front, reinforced part of the profile (the name comes from the shape of this fragment, resembling a shark's head). This arrangement of the intakes means that they can be much smaller and located further from the leading edge, leaving it in an uninterrupted airflow over as many states of flight as possible. The pressure inside the wing is higher and more stable over a wide range of speeds (angles of attack). In practice, this gives better glide ratio, greater resistance to stalling (e.g. when circling in thermals) and frontal collapses at high speeds.
The Cabrio is made with the Flexi-Egde technology - the precise shape of the leading edge is kept with laminated cloth reinforcements, incorporating synthetic rods. These rods considerably improve launch quality, as well as keep deformations away at high speeds.
The suspension points areas are reinforced with laminated fabric so that loads are equally distributed on three planes: vertically (through the ribs), diagonally (through VSS system) and level through RSS.
All crossports have been prepared with application of the OCD (Optimised Crossports Design). Carefully designed shapes of the openings and their optimal placement between stress lines guarantee efficient pressure distribution within canopy and its quick inflation. These openings are scaled together with the ribs, so that their replicability and shape is flawless, do not disturbing the aerofoil in any way.
The wingtips additionally feature the ACS (Auto Cleaning Slots) – as the name suggests, these are dedicated openings automatically removing dirt from inside the canopy.
Careful selection of modern fabrics and design solutions brings about maximum reliability, strength and durability. All materials come from numbered production batches, and each production step can be verified down to identification of specific worker and controller.
The Cabrio is manufactured in technology utilizing precision of the laser cutter. All stages of production process take place in Poland under strict supervision of the designer himself, thus ensuring highest European quality.