A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Building thermal insulation wall
The invention belongs to the technical field of engineering construction, and discloses a building heat preservation wall which comprises a mounting shell, an evaporation cavity is formed in the left side of the middle of the mounting shell, and a plurality of mounting holes are fixedly formed in the bottom of the left side face of the mounting shell at equal intervals. Air between the bottom of the pressing plug mechanism and the bottom of the pressing shell inner cavity middle block is pushed by the pressing plug mechanism to be compressed to release heat, and the air compression ratio is further increased through the self-sealing mechanism; at the moment, air between the bottom of a compression cavity inner cavity pressing plug mechanism and the bottom of a pressing shell inner cavity middle block is compressed to release heat, the heat is released outwards through a first heat dissipation plate and a second heat dissipation plate, finally, compressed air flows into a third flow cavity inner cavity through a self-sealing mechanism and then flows into a room through an air hole, and the compressed air flowing into the room expands to absorb heat; therefore, the problems that an existing building heat preservation wall is simple in structure and function, poor in heat preservation effect and large in energy consumption due to the fact that the existing building heat preservation wall depends on refrigeration and heating of equipment such as an air conditioner and the like extremely are solved.
本发明属于工程建设技术领域,且公开了一种建筑保温墙体,包括安装壳,安装壳中部的左侧开设有蒸发腔,安装壳左侧面的底部等距固定安装有多个安装孔。通过压塞机构推动压缩腔内腔压塞机构底部至压壳内腔中块底部之间的空气受到压缩释放热量,并通过自封机构进一步增加空气压缩比,此时压缩腔内腔压塞机构底部至压壳内腔中块底部之间的空气压缩释放热量通过第一散热板和第二散热板向外释放,最终压缩空气通过自封机构流向第三流腔内腔后从气孔流进室内,流进室内的压缩空气膨胀吸热,从而使室内的温度降低,从而解决现有建筑保温墙体结构简单,功能简单,保温效果差,和极度依赖空调等设备制冷制热,造成能源消耗大的问题。
Building thermal insulation wall
The invention belongs to the technical field of engineering construction, and discloses a building heat preservation wall which comprises a mounting shell, an evaporation cavity is formed in the left side of the middle of the mounting shell, and a plurality of mounting holes are fixedly formed in the bottom of the left side face of the mounting shell at equal intervals. Air between the bottom of the pressing plug mechanism and the bottom of the pressing shell inner cavity middle block is pushed by the pressing plug mechanism to be compressed to release heat, and the air compression ratio is further increased through the self-sealing mechanism; at the moment, air between the bottom of a compression cavity inner cavity pressing plug mechanism and the bottom of a pressing shell inner cavity middle block is compressed to release heat, the heat is released outwards through a first heat dissipation plate and a second heat dissipation plate, finally, compressed air flows into a third flow cavity inner cavity through a self-sealing mechanism and then flows into a room through an air hole, and the compressed air flowing into the room expands to absorb heat; therefore, the problems that an existing building heat preservation wall is simple in structure and function, poor in heat preservation effect and large in energy consumption due to the fact that the existing building heat preservation wall depends on refrigeration and heating of equipment such as an air conditioner and the like extremely are solved.
本发明属于工程建设技术领域,且公开了一种建筑保温墙体,包括安装壳,安装壳中部的左侧开设有蒸发腔,安装壳左侧面的底部等距固定安装有多个安装孔。通过压塞机构推动压缩腔内腔压塞机构底部至压壳内腔中块底部之间的空气受到压缩释放热量,并通过自封机构进一步增加空气压缩比,此时压缩腔内腔压塞机构底部至压壳内腔中块底部之间的空气压缩释放热量通过第一散热板和第二散热板向外释放,最终压缩空气通过自封机构流向第三流腔内腔后从气孔流进室内,流进室内的压缩空气膨胀吸热,从而使室内的温度降低,从而解决现有建筑保温墙体结构简单,功能简单,保温效果差,和极度依赖空调等设备制冷制热,造成能源消耗大的问题。
Building thermal insulation wall
一种建筑保温墙体
MA XINHUA (author) / LIU XUDONG (author) / FAN CHEN (author) / ZHAO YATING (author)
2024-07-26
Patent
Electronic Resource
Chinese
THERMAL INSULATION WALL STRUCTURE OF BUILDING AND BUILDING WITH THERMAL INSULATION WALL STRUCTURE
| European Patent Office | 2018