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CFL construction method for explosion-proof pressure-relief outer wall
The CFL construction method comprises the following steps that a sliding rail assembly is fixed to a building, the sliding rail assembly defines a plurality of rail grooves in the building, and the rail grooves extend in the vertical direction; and all wallboards of the anti-explosion pressure relief outer wall slide into all the rail grooves in the vertical direction, pressure relief buffer spaces are formed between all the wallboards and the inner walls of the rail grooves, the splicing positions of all the wallboards and the splicing positions of the wallboards and the building are filled with soft colloid, and the anti-explosion pressure relief outer wall is formed. The outer wall has the following three levels of buffering: 1) self-buffering: the anti-explosion pressure-relief outer wall is made of light materials, so that the anti-explosion pressure-relief outer wall has stronger buffering performance; (2) space buffering: a gap is reserved between the explosion-proof pressure-relief outer wall and the inner wall of the track groove, so that the pressure-relief buffering space can be effectively increased when explosion occurs; and (3) colloid buffering: splicing glue adopts soft colloid, so that the buffering performance is well improved. The outer wall can achieve better anti-explosion and pressure relief effects.
本申请公开了一种防爆泄压外墙CFL施工工法,包括以下步骤:将滑轨组件固定在建筑物上,滑轨组件在建筑物上限定出多个轨道槽,且各轨道槽均沿竖直方向延伸。将防爆泄压外墙的各墙板均沿竖直方向滑入至各轨道槽中,各墙板与轨道槽的内壁之间具有泄压缓冲空间,且各墙板的拼接处和墙板与建筑物的拼接处填充有软质胶体,形成防爆泄压外墙。本申请的外墙存在以下三级缓冲:1)自身缓冲:防爆泄压外墙因由轻质材料构成,所以自身有较强的缓冲性。2)空间缓冲:防爆泄压外墙与轨道槽的内壁间留有缝隙,在发生爆炸时可以有效的增加泄压缓冲空间。3)胶体缓冲:拼接胶采用软质胶体,在缓冲性能上有很好的提升。本申请的外墙可实现更好的防爆泄压效果。
CFL construction method for explosion-proof pressure-relief outer wall
The CFL construction method comprises the following steps that a sliding rail assembly is fixed to a building, the sliding rail assembly defines a plurality of rail grooves in the building, and the rail grooves extend in the vertical direction; and all wallboards of the anti-explosion pressure relief outer wall slide into all the rail grooves in the vertical direction, pressure relief buffer spaces are formed between all the wallboards and the inner walls of the rail grooves, the splicing positions of all the wallboards and the splicing positions of the wallboards and the building are filled with soft colloid, and the anti-explosion pressure relief outer wall is formed. The outer wall has the following three levels of buffering: 1) self-buffering: the anti-explosion pressure-relief outer wall is made of light materials, so that the anti-explosion pressure-relief outer wall has stronger buffering performance; (2) space buffering: a gap is reserved between the explosion-proof pressure-relief outer wall and the inner wall of the track groove, so that the pressure-relief buffering space can be effectively increased when explosion occurs; and (3) colloid buffering: splicing glue adopts soft colloid, so that the buffering performance is well improved. The outer wall can achieve better anti-explosion and pressure relief effects.
本申请公开了一种防爆泄压外墙CFL施工工法,包括以下步骤:将滑轨组件固定在建筑物上,滑轨组件在建筑物上限定出多个轨道槽,且各轨道槽均沿竖直方向延伸。将防爆泄压外墙的各墙板均沿竖直方向滑入至各轨道槽中,各墙板与轨道槽的内壁之间具有泄压缓冲空间,且各墙板的拼接处和墙板与建筑物的拼接处填充有软质胶体,形成防爆泄压外墙。本申请的外墙存在以下三级缓冲:1)自身缓冲:防爆泄压外墙因由轻质材料构成,所以自身有较强的缓冲性。2)空间缓冲:防爆泄压外墙与轨道槽的内壁间留有缝隙,在发生爆炸时可以有效的增加泄压缓冲空间。3)胶体缓冲:拼接胶采用软质胶体,在缓冲性能上有很好的提升。本申请的外墙可实现更好的防爆泄压效果。
CFL construction method for explosion-proof pressure-relief outer wall
一种防爆泄压外墙CFL施工工法
SUI YADONG (author)
2023-03-28
Patent
Electronic Resource
Chinese
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