Concrete floating island with inversed hexagonal pyramid-shaped spheres in closest stacking connection

Abstract

A concrete floating island with inversed hexagonal pyramid-shaped spheres connected in a closest stacking mode comprises a framework structure 3 formed by connecting the spheres in a closest stacking mode and a shell 4 formed by pouring concrete outside, the appearance of the concrete floating island is an inversed hexagonal pyramid, a vertex 1 is arranged on the lower portion, and a bottom surface 2 is arranged on the upper portion; the shell 4 is embedded with the sphere on the outer side of the skeleton structure 3; the skeleton structure 3 is a sphere group structure 5 with an inverted hexagonal pyramid-shaped appearance, and the structure is formed by staggering, inlaying, stacking and mutually connecting N spheres with the radius of R according to the closest stacking rule of the spheres; spaces among the ball bodies are filled with materials with buoyancy or are poured by concrete; all spheres contained in the inverted hexagonal pyramid sphere group structure 5 are connected through tangent points 12 and / or connecting points 24 to form the whole concrete floating island, are fixed in the ocean through anchor chains and anchors, can help personnel live in the ocean for a long time, and can also be used as a take-off and landing platform of airplanes in the ocean.

Description

technical field [0001] The invention relates to a concrete floating island with inverted hexagonal pyramidal spheres that are most densely packed and connected, which can float on the ocean and have enough buoyancy to carry specific facilities and personnel, and can be dragged to a designated sea area, mainly used in the ocean In terms of development, such as ocean floating islands that can be used for long-term residence, and sea runways that can take off and land aircraft. Background technique [0002] With the increasing demand for ocean development, the importance of ocean floating islands is becoming more and more obvious. In the existing ocean floating island technology, metal is mostly used as the main material, which is expensive and not resistant to seawater corrosion, so it is made of metal. The marine floating islands need to invest a lot of money, and it is not easy to maintain in the later stage. The life of the metal-structured marine floating islands in sea wa...

AI Technical Summary

Problems solved by technology

[0002] With the increasing demand for ocean development, the importance of ocean floating islands is becoming more and more obvious. In the existing ocean floating island technology, metal is mostly used as the main material, which is expensive and not resistant to seawater corrosion, so it is made of metal. The marine floating islands need to invest a lot of money, and it is not easy to maintain in the later stage. The life of the metal-structured marine floating islands in sea water is short; the floating islands with metal as the main material are mostly designed in the form of structures in order to save materials. Cooperate with buoys or hollow type. When building large or super large ocean floating islands, the frame or hollow structure requires a large amount of very high-strength metal. This special metal cannot be used on ocean floating islands. Its maximum value, and if ordinary metal is used to build large or super large ocean floating islands, its firmness and safety are relatively low in harsh marine climate environments.

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