Pin Foundation Method: Examples of Construction in Areas Where We Want to Protect the Natural Environment
Simple foundation construction method for NETIS registration! Introducing examples of construction in areas where we want to protect the natural environment.
This is an example of the pin foundation method used in places where we want to protect the natural environment. In the case of conventional concrete foundations, significant natural destruction occurs due to the need to create access roads to the construction site, which involves cutting down trees and excavating the ground. However, with our method, all transportation of materials and foundation installation can be done manually, minimizing environmental damage. [Example] ■ Matsuda Mega Cave (Okinawa Prefecture) ■ Structure: Effective width 1.5m, column pitch 2.5m ■ Materials used: - Handrails/Floorboards/Structural materials: FRP ■ Foundation type: DP-75 For more details, please refer to the catalog or feel free to contact us.
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[Other Examples] ■ Iriomote Hinaigawa District Promenade (Okinawa Prefecture) ■ Yanagimizu Spring Park (Kumamoto Prefecture) ■ Mangrove Park (Roadside Station Amami City Sumiyo) (Kagoshima Prefecture) *For more details, please refer to the catalog or feel free to contact us.*
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For more details, please refer to the catalog or feel free to contact us.
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■FRP materials that are lightweight, have high strength per unit weight, are corrosion-resistant, and are strong against salt damage. ■Pin foundation bases that do not require heavy machinery and do not need excavation of the ground surface. Our company has introduced these two technologies ahead of other companies in Japan and boasts a wealth of construction achievements. We are involved in the design and construction of bridges, decks, boardwalks, and piers in national parks and theme parks that are well-known to everyone. By partnering with a Dutch company and introducing new technology using FRP materials, we have made it possible to construct long-span FRP bridges, which were previously difficult to achieve. Furthermore, a durability of over 60 years is expected, making this a technology that can open up new markets in the future.