A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Cooling tower and construction method of cooling tower
The invention belongs to the technical field of industrial buildings, and provides a cooling tower and a construction method of the cooling tower, the outer side face of the cooling tower is in a hyperbolic paraboloid shape, a multi-layer annular triangular grid structure is formed in the axial direction, the cooling tower comprises a plurality of assembly units, each assembly unit comprises a transverse rod piece and two inclined rod pieces, and the transverse rod pieces and the two inclined rod pieces are arranged in parallel. The transverse rod piece and the two inclined rod pieces are connected into a triangular structure through a connecting frame, at least one end of the transverse rod piece is provided with a connecting node, and each connecting node at least comprises six connecting parts, so that the multiple assembling units are detachably connected into a multi-layer annular triangular grid structure. And the plurality of transverse rod pieces in each layer of triangular grid structure are connected through a plurality of connecting nodes to form an annular rod piece. The inclined rod pieces, the transverse rod pieces and the connecting nodes are assembled into the assembly units, and when the cooling tower is installed, each layer of grid structure can be sequentially assembled in a hoisting mode, so that the assembly efficiency of the cooling tower is improved.
本发明属于工业建筑技术领域,提供了一种冷却塔和冷却塔的施工方法,冷却塔的外侧面呈双曲抛物面状,且沿轴向形成有多层环状的三角形网格结构,冷却塔包括多个装配单元,装配单元包括横向杆件和两个斜向杆件,横向杆件与两个斜向杆件通过连接架连接成三角形结构,横向杆件的至少一端部设有一个连接节点,每个连接节点至少包括六个连接部,以使得多个装配单元可拆卸地连接成多层环状的三角形网格结构,其中,每一层的三角形网格结构中的多个横向杆件通过多个连接节点连接形成环形杆件。通过将斜向杆件、横向杆件和连接节点组装成装配单元,在安装冷却塔时,可以通过吊装的方式,依次组装成每层网格结构,从而提高了冷却塔的装配效率。
Cooling tower and construction method of cooling tower
The invention belongs to the technical field of industrial buildings, and provides a cooling tower and a construction method of the cooling tower, the outer side face of the cooling tower is in a hyperbolic paraboloid shape, a multi-layer annular triangular grid structure is formed in the axial direction, the cooling tower comprises a plurality of assembly units, each assembly unit comprises a transverse rod piece and two inclined rod pieces, and the transverse rod pieces and the two inclined rod pieces are arranged in parallel. The transverse rod piece and the two inclined rod pieces are connected into a triangular structure through a connecting frame, at least one end of the transverse rod piece is provided with a connecting node, and each connecting node at least comprises six connecting parts, so that the multiple assembling units are detachably connected into a multi-layer annular triangular grid structure. And the plurality of transverse rod pieces in each layer of triangular grid structure are connected through a plurality of connecting nodes to form an annular rod piece. The inclined rod pieces, the transverse rod pieces and the connecting nodes are assembled into the assembly units, and when the cooling tower is installed, each layer of grid structure can be sequentially assembled in a hoisting mode, so that the assembly efficiency of the cooling tower is improved.
本发明属于工业建筑技术领域,提供了一种冷却塔和冷却塔的施工方法,冷却塔的外侧面呈双曲抛物面状,且沿轴向形成有多层环状的三角形网格结构,冷却塔包括多个装配单元,装配单元包括横向杆件和两个斜向杆件,横向杆件与两个斜向杆件通过连接架连接成三角形结构,横向杆件的至少一端部设有一个连接节点,每个连接节点至少包括六个连接部,以使得多个装配单元可拆卸地连接成多层环状的三角形网格结构,其中,每一层的三角形网格结构中的多个横向杆件通过多个连接节点连接形成环形杆件。通过将斜向杆件、横向杆件和连接节点组装成装配单元,在安装冷却塔时,可以通过吊装的方式,依次组装成每层网格结构,从而提高了冷却塔的装配效率。
Cooling tower and construction method of cooling tower
冷却塔和冷却塔的施工方法
HOU YAWEI (author) / SHI BINGCHENG (author) / SHI XIN (author) / CHEN YOUZHI (author) / MA KAIBIN (author) / SU HAILI (author) / ZHANG XINCHUN (author)
2024-04-19
Patent
Electronic Resource
Chinese
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