A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention belongs to the technical field of comprehensive pipe galleries, and particularly relates to a BIM-based pipe gallery building comprehensive structure which comprises a structure body, awall, a ventilation cavity and side cabins. The middle of the structure body is fixedly connected with the wall, the peripheral outer wall of the wall is connected with the peripheral outer wall of the structure body, the middle of the top of the wall is fixedly connected with a large cabin, the peripheral outer wall of the large cabin is connected with the inner wall of the inner side of the middle of the top of the wall body, and the side cabins are fixedly connected to the two sides of the wall body; and when hot air is exhausted from the interiors of the side cabins, the ventilation cavityenables an air guide fan to rotate through an internal motor, so that the air guide fan has the effect of guiding external air into the ventilation cavity; the hot air can be counteracted by air flowintroduced by the air guide fan, so that the hot air is rapidly cooled; and the ventilation cavity is formed in the middle, so that the condition that the cooling speed is reduced due to the fact that the exhausted hot air is not concentrated is avoided, and the cooling effect of the structure body is greatly improved.
本发明属于综合管廊技术领域,具体为一种基于BIM的管廊建筑综合结构,包括结构主体、墙体、通气腔和边舱室,结构主体的中间固定连接有墙体,墙体的外围外壁与结构主体的外围外壁相连,墙体的顶部中间固定连接有大舱室,大舱室的外围外壁与墙体的顶部中间内侧内壁相连,墙体的两侧固定连接有边舱室,边舱室内部的排出的热气体时,通气腔会通过内部的电机将导风扇进行旋转,使得导风扇起到了将外部空气引入到通气腔内部的效果,而热气体会被导风扇所以引入的气流进行相互抵消,从而使得热气体起到了快速降温的情况,而且将通气腔设置在中间,避免了所排出的热气流不集中导致降温速度变慢的情况,从而也大大提高了结构主体的降温效果。
The invention belongs to the technical field of comprehensive pipe galleries, and particularly relates to a BIM-based pipe gallery building comprehensive structure which comprises a structure body, awall, a ventilation cavity and side cabins. The middle of the structure body is fixedly connected with the wall, the peripheral outer wall of the wall is connected with the peripheral outer wall of the structure body, the middle of the top of the wall is fixedly connected with a large cabin, the peripheral outer wall of the large cabin is connected with the inner wall of the inner side of the middle of the top of the wall body, and the side cabins are fixedly connected to the two sides of the wall body; and when hot air is exhausted from the interiors of the side cabins, the ventilation cavityenables an air guide fan to rotate through an internal motor, so that the air guide fan has the effect of guiding external air into the ventilation cavity; the hot air can be counteracted by air flowintroduced by the air guide fan, so that the hot air is rapidly cooled; and the ventilation cavity is formed in the middle, so that the condition that the cooling speed is reduced due to the fact that the exhausted hot air is not concentrated is avoided, and the cooling effect of the structure body is greatly improved.
本发明属于综合管廊技术领域,具体为一种基于BIM的管廊建筑综合结构,包括结构主体、墙体、通气腔和边舱室,结构主体的中间固定连接有墙体,墙体的外围外壁与结构主体的外围外壁相连,墙体的顶部中间固定连接有大舱室,大舱室的外围外壁与墙体的顶部中间内侧内壁相连,墙体的两侧固定连接有边舱室,边舱室内部的排出的热气体时,通气腔会通过内部的电机将导风扇进行旋转,使得导风扇起到了将外部空气引入到通气腔内部的效果,而热气体会被导风扇所以引入的气流进行相互抵消,从而使得热气体起到了快速降温的情况,而且将通气腔设置在中间,避免了所排出的热气流不集中导致降温速度变慢的情况,从而也大大提高了结构主体的降温效果。
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