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Fabricated ultralow-energy-consumption nano-composite cavity plate wall system for building
The invention discloses a nano-composite cavity plate wall body system for an assembly type ultra-low energy consumption building, relates to the technical field of assembly type building wall bodies, and solves the problems that a traditional wall body is heavy, large in heat transfer coefficient, poor in heat preservation and heat insulation, poor in fireproof aging and high in transportation and high-rise hoisting construction difficulty and cost. The invention provides a wall body system with five heat transfer coefficients and five combination sequences, which is scientifically demonstrated as follows: an outer single-cavity nano composite cavity plate with the thickness of 5cm and a light steel anti-seismic structure with the thickness of 9cm, a middle double-cavity nano composite cavity plate with the thickness of 5cm and a light steel anti-seismic structure with the thickness of 9cm and an inner single-cavity nano composite cavity plate with the thickness of 2cm are optimally combined in sequence, and the total thickness of the combined wall body is 30cm. The heat transfer coefficient K value of the wall is measured to be 0.11 W/m < 2 >. K through the national detection center. The wall system is an ultra-low energy consumption wall system which is heat-insulating, sound-insulating, fire-resistant, waterproof, anti-seismic, industrially produced, constructed in a standardized manner, recyclable and capable of saving energy and contributing to more than 90%.
装配式超低能耗建筑用纳米复合空腔板墙体系统,涉及装配式建筑墙体技术领域,克服传统墙体自身重、传热系数大、保温隔热差、防火时效差、运输与高层吊装施工难度及成本高之问题。本发明提供一种传热系数及组合次序五排列的墙体系统,经科学实证为最佳组合依次是:外层厚5cm单腔纳米复合空腔板、厚9cm轻钢抗震结构、中间层厚5cm双腔纳米复合空腔板、厚9cm轻钢抗震结构、内层厚2cm单腔纳米复合空腔板,此组合墙体总厚度为30cm,经国家检测中心测定墙体传热系数K值为0.11W/m2·K,是保温、隔声、耐火、防水、抗震、工业化生产、标准化施工、可回收再循环使用的节能贡献率超90%的超低能耗墙体系统。
Fabricated ultralow-energy-consumption nano-composite cavity plate wall system for building
The invention discloses a nano-composite cavity plate wall body system for an assembly type ultra-low energy consumption building, relates to the technical field of assembly type building wall bodies, and solves the problems that a traditional wall body is heavy, large in heat transfer coefficient, poor in heat preservation and heat insulation, poor in fireproof aging and high in transportation and high-rise hoisting construction difficulty and cost. The invention provides a wall body system with five heat transfer coefficients and five combination sequences, which is scientifically demonstrated as follows: an outer single-cavity nano composite cavity plate with the thickness of 5cm and a light steel anti-seismic structure with the thickness of 9cm, a middle double-cavity nano composite cavity plate with the thickness of 5cm and a light steel anti-seismic structure with the thickness of 9cm and an inner single-cavity nano composite cavity plate with the thickness of 2cm are optimally combined in sequence, and the total thickness of the combined wall body is 30cm. The heat transfer coefficient K value of the wall is measured to be 0.11 W/m < 2 >. K through the national detection center. The wall system is an ultra-low energy consumption wall system which is heat-insulating, sound-insulating, fire-resistant, waterproof, anti-seismic, industrially produced, constructed in a standardized manner, recyclable and capable of saving energy and contributing to more than 90%.
装配式超低能耗建筑用纳米复合空腔板墙体系统,涉及装配式建筑墙体技术领域,克服传统墙体自身重、传热系数大、保温隔热差、防火时效差、运输与高层吊装施工难度及成本高之问题。本发明提供一种传热系数及组合次序五排列的墙体系统,经科学实证为最佳组合依次是:外层厚5cm单腔纳米复合空腔板、厚9cm轻钢抗震结构、中间层厚5cm双腔纳米复合空腔板、厚9cm轻钢抗震结构、内层厚2cm单腔纳米复合空腔板,此组合墙体总厚度为30cm,经国家检测中心测定墙体传热系数K值为0.11W/m2·K,是保温、隔声、耐火、防水、抗震、工业化生产、标准化施工、可回收再循环使用的节能贡献率超90%的超低能耗墙体系统。
Fabricated ultralow-energy-consumption nano-composite cavity plate wall system for building
装配式超低能耗建筑用纳米复合空腔板墙体系统
YANG YI (author) / WANG JIANZHI (author)
2023-06-02
Patent
Electronic Resource
Chinese
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