NEW GENERATION SUNKEN LANDING PIT WITH FOAM CUBES (*)
This traditional pit system provides effective shock absorption for landings. - A new generation pit system approved by more than 80 makings already- Quick and easy setup by a small team within 2 days.- A unique and fully covered landing area under t…
This traditional pit system provides effective shock absorption for landings.
- A new generation pit system approved by more than 80 makings already - Quick and easy setup by a small team within 2 days. - A unique and fully covered landing area under the cubes, very flexible and good durability, provides a constantly safe, soft and long-lasting base. - A fully foam base design, optimizing air ventilation and shock absorption, offers the fastest learning conditions. - A flexible base area contributing to a constant and natural mixing of foam cubes ensures the most even absorption possible. - Bottom and sides of the pit always and entirely protected. Even without foam cubes, the pit fully meets the highest possible safety requirements. - Bi-density foam protective pads for maximal safety for the gymnasts reducing their apprehension. - Multiple foam cube shapes and sizes available increasing the random placement of cubes in the pit.
1/ LOWER BLOC: - 60 cm thick criss-cross monobloc alveolar foam blocks with a light weight density of 17 kg/m3 for optimal kinetic behaviour. - Upper ventilation grid material for optimal decompression when landing
2/ TOP MAT: - 20 cm thick - Top covering in stretch et breathing jersey cloth material with class M1 fire rating - Side covering in class M2 fire rating, 1000 deniers and phthalate free vinyl.
3/ EDGE GUARDS: - 10cm thick dual-density foam: PE foam top of 4cm and PU foam bottom of 6cm. - Vinyl cover, 1000 deniers, class M2 fire rating and phthalate free. - Full protection of the concrete sides, edges and corners. -Removable edge guards to easy set-up and maintenance.
4/ FOAM CUBES: - Class M4 fire rating. - Soft and flexible foam with high level of resistance to tearing. - 3 different sizes