wall body meaning in English
壁体
Examples
- The production reason and precautionary measures of temperature crack in the wall body that built with the brick
砖砌墙体温度裂缝的产生原因及预防措施 - Widely used for large area suspended ceiling and separation of steel structure workshop , suspended ceiling , wall body and air purification room
广泛适用于钢结构厂房、吊顶、墙体、空气洁净室的大面积吊顶与隔断。 - Set inside floor area is included set inside wall body area , so although same a building , cover identically inside floor area is not meant certainly cover identically inside usable floor area
套内建筑面积包含套内墙体面积,所以即使同一幢楼,相同的套内建筑面积不一定意味着相同的套内使用面积。 - To the house of bricky structure , rock - bottom wall body area is large , the wall body area of superstratum is small , so similar unit , upstairs and downstair cover inside practical area or meeting discriminating ; same layer will tell , although be covered identically inside floor area , cover the unit of the unit inter of horn that compare clip inside usable floor area also is met a few smaller
对砖结构的房子来说,底层的墙体面积厚,上层的墙体面积薄,所以同样的单元,楼上楼下的套内实用面积还是会有差别的;同一层来讲,即使相同的套内建筑面积,把角的单元比夹在中间的单元套内使用面积也会小一些。 - Through the analysis and studying of this subject , we can make conclusion as followed : during the whole heating season , the change law of the energy consumption of the thermal bridge is with the change law of the meteorological condition inside and outside the room : when airs temperatures indoor is steady , thermal bridge energy consumption increases with reducing of air temperature outside the room , reduce oppositely . the different position and the different structure patterns of the thermal bridges , even under the same meteorological condition inside and outside of the room , energy consumption of the building is different , and impact on heating energy consumption is different , this is mainly caused by the difference of the constructs thermal bridge and different influence in term of out wall , which lead to total mean heat - transfer coefficient different , when the heat - transfer coefficient is relatively small of outer wall , the impact of wall body is more obvious on heat - transfer coefficient of the thermal bridge
然后确立了在节能建筑中热桥耗热量与室内外气象参数和热桥构造型式的关系,分析与研究并得出:在整个采暖季节中,热桥的能耗随着室内外气象条件的变化规律是:在室内空气温度一定时,热桥能耗随着室外空气温度的降低而增大,相反减小;不同部位的热桥,其构造型式不同,即使在相同的室内外气象条件下,产生的能耗也是不同的,并且对采暖能耗的影响也不同,这主要是由于不同构造的热桥对外墙的总平均传热系数的影响不同所造成的,并且当外墙主体的传热系数较小时,热桥对墙体的传热系数的影响更加明显。