摘要
介绍了超低能耗建筑发展趋势和地产关注点,以地产的角度从技术和经济层面分析了阳台和女儿墙部位优化的必要性。以超低能耗建筑女儿墙和阳台部位典型设计为基准,采用COMSOL为工具量化了女儿墙不同优化方式导致的增量线性热桥,量化了不同结构板宽度阳台在端部保温取消后的增量线性热桥。结果表明,女儿墙可以通过减小整体或局部结构层厚度、调整女儿墙结构形式等方法控制线性热桥增量在较小范围内,以实现取消女儿墙保温压顶的设计;阳台端部取消保温层后增量线性热桥与阳台宽度有关。
The development trend of ultra-low energy consumption buildings and the focus of production on products are briefly introduced. From the point of view of real estate,the necessity of optimizing balcony and parapet wall is analyzed from the technical and economic aspects. Based on the typical design of parapet wall and balcony of ultra-low energy consumption build-ing,the incremental linear thermal bridge caused by different optimization methods of parapet wall was quantified by COMSOL,and the incremental linear thermal bridge of balcony with different width of structural plate was quantified after the end insulation was cancelled. The research shows that the increment of linear thermal bridge can be controlled in a small range by reducing the thickness of the whole or local structural layer and adjusting the structural form of the parapet wall so as to cancel the design of thermal insulation and roof-pressing of the parapet wall. Incremental linear thermal bridge at balcony is related to balcony width when the insulation layer of the end of balcony is removed.
作者
吴自敏
楚洪亮
李晓晨
尹述伟
朱清宇
李丛笑
WU Zimin;CHU Hongliang;LI Xiaochen;YIN Shuwei;ZHU Qingyu;LI Congxiao(Guangdong Boyi Architectural Design Institute Co.Ltd.,Foshan 528000,China;China Construction Engineering Research Institute Co.Ltd.,Beijing 101300,China;China Construction Science and Technology Group Co援Ltd.,Shenzhen 518118,China)
出处
《新型建筑材料》
北大核心
2020年第9期15-19,共5页
New Building Materials
基金
“十三五”国家重点研发计划项目(2017YFC0702600)。
关键词
超低能耗建筑
施工图优化
女儿墙
阳台
ultra-low energy consumption building
construction drawing optimization
parapet wall
balcony
