A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Stressed, efficient, heat-insulating, energy-saving, zero-carbon and passive-energy-consumption hollow air conditioner shear wall
The invention discloses a stressed, efficient, heat-insulating, energy-saving, zero-carbon and passive-energy-consumption hollow air conditioner shear wall. The hollow air conditioner shear wall is constructed by an outer leaf wall and an inner leaf wall in a spaced mode. Partition ribs can be arranged between the outer leaf wall and the inner leaf wall. Cavities are formed among the shear outer leaf wall, the inner leaf wall and the partition ribs. A beam is arranged at the position, at the elevation position of an upper floor plate, of the upper end of the hollow air-conditioning shear wall, a beam is arranged at the position, at the elevation position of a lower floor plate, of the lower end of the hollow air-conditioning shear wall, a cold air guide hole is formed in the position, away from the bottom of the beam, of the upper end of an inner leaf wall of the hollow shear wall, and a hot air guide hole is formed in the position, away from the top face of the beam, of the lower end of the inner leaf wall. And the cavity in the hollow wall is communicated with the closed space of the hollow wall through the air guide hole. Air in a cavity of the hollow wall is recycled through air conditioning equipment by utilizing kitchen waste heat, solar energy, wind energy, shallow geothermal energy, biomass energy and the like, and the temperature of a closed space is adjusted through air guide holes, so that the energy consumption of a whole building is reduced, and the use of a passive energy consumption zero-carbon building structure system constructed by the wall is realized.
本发明公开了一种可受力高效保温节能零碳被动能耗空腹空调剪力墙,其由外叶墙与内叶墙隔空构建而成。所述外叶墙与内叶墙之间可设隔肋。所述剪力外叶墙与内叶墙、隔肋之间形成空腔。所述空腹空调剪力墙的上部端在上楼层板标高处设梁,所述空腹空调剪力墙的下部端在下楼层板标高处设梁,在所述空腹剪力墙内叶墙上部端离梁底处开设冷导气孔,在内叶墙下部端离梁顶面处开设热导气孔,导气孔把空腹墙中的空腔与由此墙封闭空间连通。利用厨房余热、太阳能、风能、浅层地热能、生物质能等通过空调设备对空腹墙的空腔中空气加以循环利用,经导气孔调节封闭空间温度,从而降低整个建筑的能耗,做到由此墙构建的被动能耗的零碳建筑结构体系使用。
Stressed, efficient, heat-insulating, energy-saving, zero-carbon and passive-energy-consumption hollow air conditioner shear wall
The invention discloses a stressed, efficient, heat-insulating, energy-saving, zero-carbon and passive-energy-consumption hollow air conditioner shear wall. The hollow air conditioner shear wall is constructed by an outer leaf wall and an inner leaf wall in a spaced mode. Partition ribs can be arranged between the outer leaf wall and the inner leaf wall. Cavities are formed among the shear outer leaf wall, the inner leaf wall and the partition ribs. A beam is arranged at the position, at the elevation position of an upper floor plate, of the upper end of the hollow air-conditioning shear wall, a beam is arranged at the position, at the elevation position of a lower floor plate, of the lower end of the hollow air-conditioning shear wall, a cold air guide hole is formed in the position, away from the bottom of the beam, of the upper end of an inner leaf wall of the hollow shear wall, and a hot air guide hole is formed in the position, away from the top face of the beam, of the lower end of the inner leaf wall. And the cavity in the hollow wall is communicated with the closed space of the hollow wall through the air guide hole. Air in a cavity of the hollow wall is recycled through air conditioning equipment by utilizing kitchen waste heat, solar energy, wind energy, shallow geothermal energy, biomass energy and the like, and the temperature of a closed space is adjusted through air guide holes, so that the energy consumption of a whole building is reduced, and the use of a passive energy consumption zero-carbon building structure system constructed by the wall is realized.
本发明公开了一种可受力高效保温节能零碳被动能耗空腹空调剪力墙,其由外叶墙与内叶墙隔空构建而成。所述外叶墙与内叶墙之间可设隔肋。所述剪力外叶墙与内叶墙、隔肋之间形成空腔。所述空腹空调剪力墙的上部端在上楼层板标高处设梁,所述空腹空调剪力墙的下部端在下楼层板标高处设梁,在所述空腹剪力墙内叶墙上部端离梁底处开设冷导气孔,在内叶墙下部端离梁顶面处开设热导气孔,导气孔把空腹墙中的空腔与由此墙封闭空间连通。利用厨房余热、太阳能、风能、浅层地热能、生物质能等通过空调设备对空腹墙的空腔中空气加以循环利用,经导气孔调节封闭空间温度,从而降低整个建筑的能耗,做到由此墙构建的被动能耗的零碳建筑结构体系使用。
Stressed, efficient, heat-insulating, energy-saving, zero-carbon and passive-energy-consumption hollow air conditioner shear wall
一种可受力高效保温节能零碳被动能耗空腹空调剪力墙
HUANG SHOUYUN (author)
2022-02-25
Patent
Electronic Resource
Chinese
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