Support for seismic reinforcement and pier construction! "Temporary Closure LPF Method" *Case study collection available.
Construction is possible even below a height of 1.5m! Achieving excellent water stopping performance with simplicity and speed!
The "Temporary Closure LPF Method" is a construction method that builds temporary closures for underwater structures such as rivers, seas, and dams using liner plates. It addresses the issues of conventional closure methods and supports bridge pier reinforcement with "simplicity, speed, and excellent water-stopping ability." It can be implemented using only manual labor. This groundbreaking NETIS registered method can be used in environments with a headroom restriction of 1.5 meters or less! Please feel free to contact us for more information! *Currently, we are offering a collection of case studies featuring the construction results of the "Temporary Closure LPF Method" for free exclusively to Ipros users! 【Features】 ■ Composed of liner plates (waterproof specifications), water-stopping rubber gaskets, H-steel (reinforcement rings), and cutting beams ■ Can be implemented using only manual labor! ■ Construction is possible with a headroom restriction of about 1.5 meters! ■ Vibration-free, allowing construction close to existing structures (gas, electricity, water pipes, etc.)! ■ NETIS registered: CB-110010-VE (patent) *For more details, please refer to the catalog. Feel free to contact us with any inquiries.
basic information
【Published Examples】 For the provisional closure shape: 1) Oval shape φ5.2m L=7.5m H=5.5m 2) Circular (2 units) φ11.5m H=9.0m 3) Circular (4 units) φ9.0m H=7.0m etc... *For more details, please refer to the catalog. Feel free to contact us with any inquiries.
Price information
Please contact us.
Delivery Time
Applications/Examples of results
【Applicable Scope】 [Normal Applicable Scope] ■ Structures built in rivers, seas, dams, etc. [Particularly Effective Applicable Scope] ■ Advantages of platform (on-water) work ・Does not require long underwater construction ・Locations with fast or significantly changing flow rates: can adapt to changing flow rates ・Locations with severe water turbidity: reduced impact of turbidity due to less underwater work ■ Structural Characteristics ・Low bridge piers ・Locations where mechanical construction is not possible ・Locations where vibrations cannot be applied *For more details, please refer to the catalog or feel free to contact us.
