With three-dimensional curves, reshape the dialogue between the snowboard and the terrain
3D curve mapping technology-let every section of terrain become a stage for snowboard to respond accurately.
Technology Demystified (How Curves Intelligently Map Terrain)
The core of 3D curve mapping technology is to transform the interaction between snowboard and terrain into optimized dynamic parameters through big data simulation and bionics design:
When the snowboard learns to "read" The terrain, gliding is no longer a confrontation, but a dance.
Traditional snowboard design relies on fixed side-cutting curves, which always require artificial adjustment in the face of changing terrain. 3D curve mapping technology breaks through the two-dimensional limitation, and through multi-dimensional surface modeling and dynamic pressure distribution analysis, the contour of each inch from the head to the tail of the snowboard can be intelligently adapted to the terrain change. This is not only an optimization of the geometry,What's more, it gives the snowboard the "intuition" of dynamic response, allowing the control to return to instinct.
● Accurate control of terrain adaptation: no matter hard snow, powder snow or ice, the outline of the snowboard always fits the snow condition, reducing adjustment actions.
● Seamless curve transition: Multi-radius composite curve design, so that the transition into the bend, Bend center, out of the bend as natural as running water.
● Maximize all-terrain performance: A single snowboard can handle complex mountain environments without compromising flexibility and stability
● For the pursuit of smooth engraving you:
Multi-Section side cutting makes cornering as precise as a track, without deliberately adjusting the center of gravity, and the snowboard naturally guides to the optimal route.
● For those of you who are keen on wild snow exploration:
Three-dimensional stiffness distribution helps to easily cope with snow and steep slopes, and the plate head adaptive buoyancy design significantly improves the powder snow passability.
● For those of you who focus on technology improvement:
Intuitive feedback and lower control threshold help you quickly break through bottlenecks and unlock higher-level glide performance.
|
Technical dimension
|
Limitations of Traditional Snowboard
|
Breakthrough in 3D Curve Mapping Technology
|
|---|---|---|
|
Multi-section composite side cutting
|
A single fixed radius makes it difficult to balance low-speed flexibility and high-speed stability.
|
The plate head, plate waist and plate tail are optimized in sections: the plate head adopts a gentle radius to facilitate bending, the plate waist radical radius enhances grip, and the plate tail gradual radius enhances bending control.
|
|
Dynamic terrain fit
|
Static curve can not adapt to complex snow surface undulation, easy to produce control fault.
|
Real-time pressure distribution mapping: dynamically adjust the radian of the plate according to the terrain pressure point to ensure that the edge always bites the snow surface efficiently.
|
|
Torsion and Bending Synergy
|
The rigid distribution of the Board body is single, which makes it difficult to cope with multi-dimensional terrain challenges.
|
Three-dimensional stiffness gradient design: While maintaining longitudinal elasticity, optimize lateral torsional stiffness to improve cornering stability and passability.
|