Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Ultra-deep diving pool and construction method thereof
The invention provides an ultra-deep diving pool and a construction method thereof. The ultra-deep diving pool comprises a first-layer diving area, a second-layer diving area and a third-layer diving area, wherein the first-layer diving area, the second-layer diving area and the third-layer diving area are communicated with one another from shallow to deep, and the cross section areas of the diving areas decrease progressively; wherein the cross section of the first-layer diving area is similar to a square, the cross section of the second-layer diving area is square, the cross section of the third-layer diving area is circular, and the cross section of a junction area between the second-layer diving area and the third-layer diving area is in a shape combining a square and a circle. The ultra-deep diving pool is designed into different layers of diving areas which are communicated with one another from shallow to deep and have gradually-decreased cross section areas, the deeper the diving areas are, the smaller the cross section areas are, and the bearable water pressure per unit area is increased, so that the water pressure increased along with the increase of the water depth of the diving pool is effectively borne; and meanwhile, the requirement of a deep diving area for construction materials is reduced, the engineering cost of overall construction is reduced, and wide application prospects and economic benefits are achieved.
本发明提供了一种超深潜水池及其施工方法,所述超深潜水池包括:自浅至深相互连通且横截面面积递减的第一层潜水区域、第二层潜水区域及第三层潜水区域;其中,第一层潜水区域的横截面为类方形,第二层潜水区域的横截面为正方形,第三层潜水区域的横截面为圆形,第二层潜水区域与第三层潜水区域之间交接区域的横截面为正方形与圆形结合的形状。通过将超深潜水池设计为自浅至深相互连通且横截面面积递减的不同层潜水区,越深横截面面积越小,单位面积可承受水压压力变大,从而有效承载符随着潜水池的水深的增加所增加水压力,同时还降低了深层潜水区对于施工材料的需求,降低了整体施工的工程成本,具有广泛的应用前景和经济效益。
Ultra-deep diving pool and construction method thereof
The invention provides an ultra-deep diving pool and a construction method thereof. The ultra-deep diving pool comprises a first-layer diving area, a second-layer diving area and a third-layer diving area, wherein the first-layer diving area, the second-layer diving area and the third-layer diving area are communicated with one another from shallow to deep, and the cross section areas of the diving areas decrease progressively; wherein the cross section of the first-layer diving area is similar to a square, the cross section of the second-layer diving area is square, the cross section of the third-layer diving area is circular, and the cross section of a junction area between the second-layer diving area and the third-layer diving area is in a shape combining a square and a circle. The ultra-deep diving pool is designed into different layers of diving areas which are communicated with one another from shallow to deep and have gradually-decreased cross section areas, the deeper the diving areas are, the smaller the cross section areas are, and the bearable water pressure per unit area is increased, so that the water pressure increased along with the increase of the water depth of the diving pool is effectively borne; and meanwhile, the requirement of a deep diving area for construction materials is reduced, the engineering cost of overall construction is reduced, and wide application prospects and economic benefits are achieved.
本发明提供了一种超深潜水池及其施工方法,所述超深潜水池包括:自浅至深相互连通且横截面面积递减的第一层潜水区域、第二层潜水区域及第三层潜水区域;其中,第一层潜水区域的横截面为类方形,第二层潜水区域的横截面为正方形,第三层潜水区域的横截面为圆形,第二层潜水区域与第三层潜水区域之间交接区域的横截面为正方形与圆形结合的形状。通过将超深潜水池设计为自浅至深相互连通且横截面面积递减的不同层潜水区,越深横截面面积越小,单位面积可承受水压压力变大,从而有效承载符随着潜水池的水深的增加所增加水压力,同时还降低了深层潜水区对于施工材料的需求,降低了整体施工的工程成本,具有广泛的应用前景和经济效益。
Ultra-deep diving pool and construction method thereof
超深潜水池及其施工方法
ZHOU XINQING (Autor:in) / ZHOU ZONGBO (Autor:in) / YAN HAO (Autor:in) / LIN YUHANG (Autor:in)
12.04.2024
Patent
Elektronische Ressource
Chinesisch