Microarchitecture formed by splicing telescopic standard pyrometric cones

A triangular cone and architectural technology, applied in the direction of architecture and building structure, can solve the problems of architectural limitation, single shape, lack of artistic expression, etc., and achieve the effect of strong artistic expression and flexible and changeable shape.

Active Publication Date: 2018-11-30
CHINA UNIV OF MINING & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Most of the existing splicing units are rectangular plates, and the assembled buildings are limited to cuboid shapes, so they are only suitable for places with small site constraints, and cannot be used when site constraints are large
In addition, the building made of rectangular splicing panels is square and square, with a single shape and lack of artistic expression, so it is difficult to apply to artistic buildings with changeable lines

Method used

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  • Microarchitecture formed by splicing telescopic standard pyrometric cones
  • Microarchitecture formed by splicing telescopic standard pyrometric cones
  • Microarchitecture formed by splicing telescopic standard pyrometric cones

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0021] Such as figure 1 As shown, a micro-architecture spliced ​​with telescopic triangular pyramids includes a splicing unit. The splicing unit includes a tetrahedral frame and a skin 3. The tetrahedral frame is composed of 3 bottom rods 1 and 3 side rods 2. The skin 3 covers the tetrahedral frame. On the 3 triangular sides, the side of the epidermis 3 is fixed on the side bar 2. The three sides of the tetrahedron are isosceles triangles, and the epidermis 3 is divided into two pieces along the center line of the isosceles triangle, and the two epidermis on both sides of the three side rods 2 are respectively hinged by hinges.

[0022] Such as figure 2 As shown, the above-mentioned hinge is a hinge 5, and the hinge 5 is fixed on the side bar 2. There is a fastening bolt 501 at the shaft core of the hinge 5. When the fastening bolt 501 is tightened, the hinge 5 can be locked. When the bolt 501 was loosened, the skins on both sides of the hinge 5 could rotate around the shaf...

Embodiment 2

[0026] When using the splicing units in Embodiment 1 to build a building, the shapes of the splicing units at different positions of the building are simulated first based on site conditions. In the factory, according to the simulation results, the telescopic rods are adjusted to the appropriate length and the matching skin is made, and then the triangular pyramid units are assembled into splicing units and grouped. Transport the grouped splicing units from the factory to the construction site for hoisting or build an installation platform for assembly.

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Abstract

A microarchitecture formed by splicing telescopic standard pyrometric cones comprises a splicing unit, and the splicing unit comprises a tetrahedron frame and a skin. The tetrahedron frame is composedof three bottom rods and three side rods, connectors are arranged at the two ends of each bottom rod and the two ends of each side rod, the skin covers three triangular side faces of the tetrahedronframe, the sides of the skin are fixed to the side rods, and the bottom rods and the side rods are telescopic rods. The telescopic rods comprise sleeves and inner pipes, the tail ends of the inner pipes are inserted into the sleeves, and locking mechanisms are arranged on the side walls of the front ends of the sleeves. According to the microarchitecture formed by splicing the telescopic standardpyrometric cones, a tetrahedron with six adjustable ridges is adopted as the frame, the side faces are covered with the skin to form the splicing unit, and the style is flexible and changeable. The microarchitecture can adapt to the situations with large site constraint conditions; due to the flexibility and variability of the microarchitecture, the microarchitecture can be used for splicing an artistic building, the foldable skin can be combined to form various styles, and the artistic expressive force is high.

Description

technical field [0001] The invention relates to a spliced ​​building, in particular to a micro-building spliced ​​by telescopic triangular pyramids. Background technique [0002] A tiled building consists of prefabricated tiled units. Most of the existing splicing units are rectangular plates, and the assembled buildings are limited to cuboid shapes, so they are only suitable for places with small site constraints, and cannot be used when site constraints are large. In addition, the building made of rectangular splicing panels is square and square, with a single shape and lack of artistic expression, so it is difficult to apply to artistic buildings with changeable lines. Contents of the invention [0003] The first object of the present invention is to provide a micro-building spliced ​​by telescopic triangular pyramids, which can be used even when site constraints are relatively large, and can be used for splicing art buildings. [0004] For realizing above object of t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04B1/343E04B1/00
CPCE04B1/00E04B1/34305E04B2001/0069
Inventor 韩晨平甄梓童巩永康宋晗张振
Owner CHINA UNIV OF MINING & TECH
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