A construction method that allows for flexible expansion of existing roofs. Achieving an all-weather loading area!
We would like to introduce a case where First Plus Co., Ltd. adopted the "Big Roof Method." A customer wished to extend an existing 10m eave by an additional 7m and to enclose the entire loading area indoors to allow for work without getting wet in the rain. In response, we developed a structural plan that combined the Big Loop Method with the Cover Build Method, constructing a new frame that covers both the extension area and the existing loading eave area. We have achieved an all-weather loading area that integrates seamlessly with the existing building while expanding the work area and maintaining operations during construction. [Challenges] ■ Extend the existing 10m eave by an additional 7m ■ Enclose the entire loading area indoors to allow for work without getting wet in the rain *For more details, please refer to the PDF document or feel free to contact us.
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【Result】 ■Achieved an all-weather loading dock that is completely integrated with the existing buildings in appearance. *For more details, please refer to the PDF document or feel free to contact us.
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For more details, please refer to the PDF document or feel free to contact us.
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Yoshizawa Architectural Structural Design Co., Ltd. is a comprehensive design office that consistently handles everything from planning and design to construction and after-sales service for factory rebuilding and renewal in-house. There are various reasons for wanting to renew an aging factory or introduce new equipment, but the current situation is that production cannot be halted, and moving to a temporary factory incurs costs, leading to a decrease in productivity, among other challenges. Our company avoids a decline in operational rates associated with rebuilding by using methods such as "Cover Build," which involves constructing steel frames over the existing factory while keeping the production equipment in place, and "Separate," which divides the construction period into phases like Phase 1 and Phase 2. Additionally, to understand the potential damage a building may suffer during an earthquake, we conduct various seismic surveys, including crack investigations, concrete strength assessments, and rebar layout measurements. Based on the survey results, we propose seismic reinforcement plans. We support the preservation of a company's assets, including buildings, machinery, materials, and products. Furthermore, we ensure the prompt recovery and continuity of operations. Our goal at "Yoshizawa" is to provide total support from seismic diagnosis to reinforcement.