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Hexagonal building group system with rain collecting and greening functions

A hexagonal, building complex technology, applied in buildings, waterway systems, sustainable buildings, etc., can solve the problems of lack of rainwater collection means, single utilization method, low utilization rate, etc., to achieve a wide range of uses and convenience, and low water quality requirements. , the effect of increasing the water content of the foundation

Pending Publication Date: 2019-04-16
TIANJIN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Moreover, the current rainwater collection methods for urban buildings are relatively scarce, the utilization rate is low, and the utilization method is single and inefficient.

Method used

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  • Hexagonal building group system with rain collecting and greening functions
  • Hexagonal building group system with rain collecting and greening functions
  • Hexagonal building group system with rain collecting and greening functions

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0032] Such as Figure 1-Figure 4 As shown, a hexagonal building group system with rain-collecting and greening functions, including several groups of buildings, rain-collecting and greening storage tank 2 and central underground storage tank 3;

[0033] The group of buildings is composed of 3-5 buildings with the same cross-sectional shape and a regular hexagonal cross-section. The buildings 1 are connected to form a C shape with adjacent sides. The group of buildings is arranged on a concentric circle and C The opening of the shape points to the center of the circle, and the rainwater collection green storage tank is set at the opening of the building group and the building is critical, and the central underground water storage tank is set at the center of the circle formed by the building group. The rainwater collection and greening reservoir is connected to the central underground reservoir through an overflow pipe 5; a comprehensive water area 4 is set on the ground verti...

Embodiment 2

[0044] 1. Hexagonal prefabricated building

[0045] The basic unit architecture mode is a steel structure frame plus skin filling with different functions. The structural system and various functional skins are refined into different types of modules, and each module can be industrialized and standardized. Users can choose modules to structure the unit according to their needs. Then through the horizontal juxtaposition and vertical superposition of the units, the entire building volume is generated. For the more detailed structure and functions of the hexagonal prefabricated building, please refer to the patent No. 2017106531050, which is a modular intelligent heat insulation roof, and the patent No. 2017110136209, which is a hexagonal prefabricated building structure.

[0046] When assembling the building, the basic modules are spliced ​​horizontally and superimposed vertically, and multiple structural modules are connected through metal components to form the entire buildi...

Embodiment 3

[0065] The operation of a hexagonal building complex system with rainwater collection and greening functions:

[0066] Scenario 1: Rainy day

[0067] 1. Preliminary collection process

[0068] The rainwater that falls on the roof is collected by the roof gutter and flows into a drainage pipe fixed to the building at the center of the building. Subsequently, the rainwater flows into the central rainwater collection green pond. At the same time, part of the rainwater directly falls into the rainwater collection green pool. This enables rainwater to be initially collected in the green pond.

[0069] 2. Transit process

[0070] After the rainwater is initially collected in the water storage layer in the rainwater harvesting green pond, it reaches the covering layer and the planting soil layer. In this layer, the rainwater is initially purified, and at the same time, the water needs of plants are met. Then the rainwater is filtered again in the sand layer and gravel layer, an...

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Abstract

The invention discloses a hexagonal building group system with rain collecting and greening functions. The system comprises a plurality of building groups, a rainwater collecting and greening reservoir and a central underground reservoir. Solar photovoltaic panels are installed at the tops of buildings made of a regular hexagon basic material, and the utilization rate of solar energy is increasedthrough modification of a regular hexagon; the efficiency of rainwater collection is effectively improved through the hexagonal buildings, and the collected rainwater is reasonably developed and utilized, so that ingenious combination of solar energy utilization on sunny days and rainwater collection on rainy days is achieved.

Description

technical field [0001] The invention belongs to the technical field of buildings, and in particular relates to a hexagonal building group system with rain-collecting and greening functions. Background technique [0002] In recent years, with the frequent occurrence of extreme weather, some cities have been frequently hit by heavy rainstorms. With the advancement of urbanization, the land has gradually been replaced by cement floor, which reduces the penetration of rainwater and is vulnerable to extreme weather. Severe urban flooding. Among the cities where waterlogging occurred, 74.6% of the cities had the maximum accumulated water depth of more than 50cm, and as many as 90% had the depth of more than 15cm. Moreover, the current means of collecting rainwater for buildings in the city is relatively scarce, the utilization rate is low, and the utilization method is single and inefficient. On the other hand, my country's urban water shortage problem is becoming more and more ...

Claims

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Application Information

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IPC IPC(8): E04B1/00E03B3/02E03F5/10E03F5/22F21S9/03E04D13/064
CPCF21S9/03E03B3/02E03F5/10E03F5/22E04B1/00E04D13/064Y02A20/108Y02B10/10
Inventor 庄哲明吕玮韩天成朱涛任汉杰
Owner TIANJIN UNIV
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