Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Green building energy-saving wall
The green building energy-saving wall comprises an outer wall layer, a middle wall layer and an inner wall layer, the outer wall layer is arranged on the face, close to the outdoor space, of the middle wall layer, the inner wall layer is arranged on the face, close to the indoor space, of the middle wall layer, ventilation holes are formed in the inner wall layer, ventilation grooves are rotationally formed in the face, away from the ground, of the middle wall layer, and wind paddles are arranged in the ventilation grooves; a partition plate is arranged in the middle wall layer and divides the interior of the middle wall layer into a first cavity and a second cavity, a first air opening is formed in the first cavity and used for communicating the first cavity with the outside, a drying pipe is arranged on the first air opening, and a second air opening is formed in the second cavity and used for communicating the second cavity with the outside. A first fan is arranged in the first cavity, a second fan is arranged in the second cavity, and the rotation directions of the first fan and the second fan are opposite. The method has the effect of reducing electric energy consumption in the indoor dehumidification process.
本申请涉及一种绿色建筑节能墙体,包括外墙层、中墙层和内墙层,外墙层设置于中墙层靠近室外的一面,内墙层设置于中墙层靠近室内的一面,内墙层上设置有通风孔,中墙层远离地面的一面转动设置有通风槽,通风槽内设置有风桨,中墙层内设置有隔板,隔板将中墙层的内部分为第一腔室和第二腔室,第一腔室上设置有第一风口,第一风口用于连通第一腔室与室外,第一风口上设置有干燥管,第二腔室上设置有第二风口,第二风口用于连通第二腔室与室外,第一腔室内设置有第一风机,第二腔室内设置有第二风机,第一风机和第二风机的旋转方向相反。本申请具有减少室内除湿过程中的电能消耗的效果。
Green building energy-saving wall
The green building energy-saving wall comprises an outer wall layer, a middle wall layer and an inner wall layer, the outer wall layer is arranged on the face, close to the outdoor space, of the middle wall layer, the inner wall layer is arranged on the face, close to the indoor space, of the middle wall layer, ventilation holes are formed in the inner wall layer, ventilation grooves are rotationally formed in the face, away from the ground, of the middle wall layer, and wind paddles are arranged in the ventilation grooves; a partition plate is arranged in the middle wall layer and divides the interior of the middle wall layer into a first cavity and a second cavity, a first air opening is formed in the first cavity and used for communicating the first cavity with the outside, a drying pipe is arranged on the first air opening, and a second air opening is formed in the second cavity and used for communicating the second cavity with the outside. A first fan is arranged in the first cavity, a second fan is arranged in the second cavity, and the rotation directions of the first fan and the second fan are opposite. The method has the effect of reducing electric energy consumption in the indoor dehumidification process.
本申请涉及一种绿色建筑节能墙体,包括外墙层、中墙层和内墙层,外墙层设置于中墙层靠近室外的一面,内墙层设置于中墙层靠近室内的一面,内墙层上设置有通风孔,中墙层远离地面的一面转动设置有通风槽,通风槽内设置有风桨,中墙层内设置有隔板,隔板将中墙层的内部分为第一腔室和第二腔室,第一腔室上设置有第一风口,第一风口用于连通第一腔室与室外,第一风口上设置有干燥管,第二腔室上设置有第二风口,第二风口用于连通第二腔室与室外,第一腔室内设置有第一风机,第二腔室内设置有第二风机,第一风机和第二风机的旋转方向相反。本申请具有减少室内除湿过程中的电能消耗的效果。
Green building energy-saving wall
一种绿色建筑节能墙体
CHEN HUAYAN (Autor:in) / LIN HAIYAN (Autor:in) / GAO YE (Autor:in)
22.11.2022
Patent
Elektronische Ressource
Chinesisch