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A platform for research: civil engineering, architecture and urbanism
Energy-saving ventilation structure
According to the energy-saving ventilation structure, through the adoption of structures such as a hole passing pipe joint, a self-adaptive layer and a test fitting strip, when a gap between a ventilation pipeline and a wall hole is blocked, cement paste can be directly introduced into the self-adaptive layer, so that the self-adaptive layer expands and is gradually fitted to the inner wall of the wall hole, the strength after blocking can be effectively guaranteed, and the sealing performance of the ventilation pipeline is improved; meanwhile, it is effectively guaranteed that a gap between the hole passing pipe joint and the inner wall of the wall hole is fully plugged, the gap is not prone to occurring, the plugging effect is better, in addition, in cooperation with the arrangement of a testing attaching strip, whether the expanded self-adaptive layer makes full contact with the inner wall of the wall or not can be judged according to whether the testing attaching strip enables a circuit to be connected or not in the cement slurry filling process, and the plugging effect is better. Compared with the prior art, the plugging compactness of the gap between the inner wall of the wall hole and the ventilation pipeline can be effectively improved, and the plugging effect is further improved.
本发明涉及一种节能通风结构,通过采用过洞管节、自适应层以及测贴合条等结构,在对通风管道与墙洞之间空隙进行封堵时,可直接将水泥浆通入自适应层内,使其膨胀并逐渐贴合墙洞内壁,既能有效保证封堵后的强度,同时有效保证过洞管节与墙洞内壁之间空隙封堵的充分,不易出现空隙,使封堵效果更好,另外配合测贴合条的设置,在充入水泥浆料的过程中,可根据测贴合条是否能使电路导通,判断膨胀的自适应层是否与墙动内壁充分接触,相较于现有技术,可有效提高墙洞内壁与通风管道之间空隙封堵的密实性,使封堵效果得到进一步的提高。
Energy-saving ventilation structure
According to the energy-saving ventilation structure, through the adoption of structures such as a hole passing pipe joint, a self-adaptive layer and a test fitting strip, when a gap between a ventilation pipeline and a wall hole is blocked, cement paste can be directly introduced into the self-adaptive layer, so that the self-adaptive layer expands and is gradually fitted to the inner wall of the wall hole, the strength after blocking can be effectively guaranteed, and the sealing performance of the ventilation pipeline is improved; meanwhile, it is effectively guaranteed that a gap between the hole passing pipe joint and the inner wall of the wall hole is fully plugged, the gap is not prone to occurring, the plugging effect is better, in addition, in cooperation with the arrangement of a testing attaching strip, whether the expanded self-adaptive layer makes full contact with the inner wall of the wall or not can be judged according to whether the testing attaching strip enables a circuit to be connected or not in the cement slurry filling process, and the plugging effect is better. Compared with the prior art, the plugging compactness of the gap between the inner wall of the wall hole and the ventilation pipeline can be effectively improved, and the plugging effect is further improved.
本发明涉及一种节能通风结构,通过采用过洞管节、自适应层以及测贴合条等结构,在对通风管道与墙洞之间空隙进行封堵时,可直接将水泥浆通入自适应层内,使其膨胀并逐渐贴合墙洞内壁,既能有效保证封堵后的强度,同时有效保证过洞管节与墙洞内壁之间空隙封堵的充分,不易出现空隙,使封堵效果更好,另外配合测贴合条的设置,在充入水泥浆料的过程中,可根据测贴合条是否能使电路导通,判断膨胀的自适应层是否与墙动内壁充分接触,相较于现有技术,可有效提高墙洞内壁与通风管道之间空隙封堵的密实性,使封堵效果得到进一步的提高。
Energy-saving ventilation structure
一种节能通风结构
WANG MENG (author) / FU WEIFEI (author) / ZHANG HONGLEI (author) / LU WENQIAN (author) / LU ZHENGJUN (author) / LIU NA (author)
2023-08-15
Patent
Electronic Resource
Chinese
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