RU2612698C2 - Modular construction system for green roof - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: green roof modules, intended for filling with substrate and vegetable layer, connected to the green roof modules intended for filling with water, are installed in horizontal and vertical positions and form a single coating system, assuming rational space filling with modules, different in diameter and height.

EFFECT: reduced labour consumption of installation works.

3 cl, 3 dwg

Description

The invention relates to the field of construction, namely to the constructive solution of the coating, and can be used when arranging coatings with the landscaping system of residential, public and industrial buildings, sports facilities, indoor parking lots, coatings of gas stations, terrace and other coatings.

A roof covering with landscaping is known (patent for the invention WO No. 2007/112145 A2, A01G 9/02, 04/10/2007). The connecting elements of the modules of this system do not allow the integration of devices that accumulate and convert energy.

Another analogue is a modular roofing system with landscaping (patent for invention US No. 2009/0320364 A1, A01G 9/02, 12/31/2009). The roofing system with landscaping does not provide for the possibility of installing a system of vertical landscaping and the integration of elements of water-irrigation control.

Closest to the proposed solution is a modular roof covering with landscaping (patent for invention WO No. 2010/040701 A1, E04F 15/024, 04/15/2010). However, when installing these modular structures of certain sizes, a problem arises related to the appearance of part of the uncovered area, for example, of a complex configuration, which leads to an increase in the laboriousness of work and irrational consumption of structural materials. In addition, significant disadvantages of such a solution include restrictions on the placement and use of devices that accumulate and convert energy, and elements of water-irrigation control, as well as the inability to use such modular structures as vertical landscaping systems.

The technical result of the proposed solution is to reduce the complexity of the work, the ability to place and use devices that accumulate and convert energy, elements of water-irrigation control, as well as the design provides a system of vertical landscaping.

The technical result is achieved by the fact that space-planning schemes for the mutual arrangement of green roof modules of various sizes allow us to find a solution for the optimal filling of the coating space. Thus, the problem of non-waste installation of structures is solved, since there are no labor-intensive work associated with cutting products.

The presence of holes in the connecting elements and the shape of the green roof modules tapering downward, forming a technical space between them and the base of the coating, provide engineering communications and the location of the support installations of devices that accumulate and convert energy, elements of water-irrigation control.

The calibrated openings of rectangular and circular cross-section inside the green roof modules and openings of circular cross-section of the connecting elements allow the modules to be mounted on top of each other in a vertical position, which characterizes the versatility of the system and allows for the implementation of a volumetric-modular design solution for the vertical gardening system.

Elements of the modular constructive system of the green roof are made of plastic and have a collapsible nature.

In FIG. 1 presents a three-dimensional model of a modular structural system of a green roof, which depicts modules of a green roof with different contents. The green roof modules intended for filling with the substrate and the vegetable layer 7, connected to the green roof modules intended for filling with water 2, are installed in horizontal and vertical positions and form a single coating system. In the connecting elements of the modular constructive system of the green roof there are openings for the installation of support devices 9, accumulating and converting energy: solar panels 1, LED lights 6; and elements of a water-irrigation control system: sprinklers 5, drip irrigation systems 4 and other devices. The green roof modules intended for filling with water 2 have circular openings in the side surface of module 3 for the functioning of the system of elements of water-irrigation control and a convexity of circular cross section in the central part of their bottom for installing the modules in a vertical position. The green roof modules are installed directly on the base of the coating or on the slatted floor 10, the technical space between the modules formed is intended for laying utilities 8 and other elements.

In FIG. 2 presents a three-dimensional model of a modular constructive system of a green roof, consisting of three green roof modules intended for filling with a substrate and a vegetable layer 7, interconnected by a connecting element with an opening 13 for devices that accumulate and convert energy, and elements of water-irrigation control. The green roof modules 2, 7 have the dimensions of the upper diameter: 250 mm, 500 mm, 1000 mm; lower diameter: 150 mm, 400 mm, 900 mm; heights: 100 mm, 200 mm, 400 mm. The multiplicity of dimensional characteristics of the modules allows you to create a rational structure of the mutual arrangement of volume-modular structures in space. For reliable fixation, the connecting elements of the green roof modules 2, 7 are mounted using a special rim 14, which is located inside the modules. The green roof module, intended for filling with the substrate and the vegetable layer 7, has openings of rectangular cross section 12 and openings of circular cross section 11 in the lower surface of the module (at the bottom) for fixing elements 15 and for ensuring the operation of the drainage system.

In FIG. 3 is a plan that schematically shows an installation option for green roof modules. The complex configuration of the roofing involves the rational filling of the space with modules of different diameters and heights 16 according to certain device schemes, taking into account the dimensional characteristics of the modules. The ergonomics of the architectural and planning solution is achieved through the integration of solar panels 1, a drip irrigation system 4 and other devices that accumulate and convert energy, and elements of water-irrigation control, which are integrated into the modular structural system of the green roof, 2, as well as the use of green roof modules with different fillings 2, 7.

This invention is a rational constructive solution to the coating, which reduces the complexity of the work due to non-waste installation of structures when filling the green roof covering space and the collapsible nature of all elements of the system with the possibility of integrating devices that accumulate and convert energy, and elements of water-irrigation control. The technical solution provides for the installation of volumetric-modular structures as a system of vertical landscaping. The versatility of the system, low structural weight and quick installation of the coating create optimal conditions for technological processes. Also, this modular constructive system of the green roof is an environmentally effective solution in the field of green construction and sustainable development, which is most relevant in our time.

Claims (3)

1. The modular structural system of the green roof is a constructive coating solution with a landscaping system and built-in devices that accumulate and convert energy, and elements of water-irrigation control, consisting of plastic modules of the green roof intended for filling with a substrate and a vegetative layer, and plastic modules of green roofs intended for filling with water, installed on the base of the coating, characterized in that the green roof modules are represented by elements to cross-section with a tapering downward shape for free laying of utilities and various devices installed in an adjoining manner on surfaces of various configurations, are interconnected by connecting elements adapted for the installation of devices that accumulate and convert energy, water-irrigation control elements, as well as vertical landscaping systems . 2. The modular structural system of the green roof according to claim 1, characterized in that the green roof modules have different dimensional characteristics of height and diameter. 3. The modular structural system of the green roof according to paragraphs. 1 and 2, characterized in that the connecting elements that interconnect the green roof modules have different dimensional characteristics and configuration depending on the installation scheme of the modules.

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