KR101153863B1 - Structure for planting in building - Google Patents

Abstract

The present invention is a drainage layer 20 formed on top of the slab (10); A filtration layer 100 formed on the upper portion of the drainage layer 20 by an inorganic material; By presenting the greening structure of the building, characterized in that it comprises a; the growth layer 200 formed by mixing the inorganic and organic to allow vegetation on top of the filter layer 100, environmental pollution by the discharge of organic matter in rainy weather Prevent nutrients and provide efficient nutrients for vegetation.

Description

Green structure of building {STRUCTURE FOR PLANTING IN BUILDING}

The present invention relates to the field of environment and civil engineering, and more particularly, to a greening structure of a building.

Green buildings are disappearing as the buildings become more and more crowded. As a solution, greening methods for creating green spaces on the roofs and verandas of buildings are in the spotlight.

For the efficient operation of the greening structure of these buildings, basically, the water discharged from the green area should not penetrate into the building (waterproof), or the damage of the building by roots of plants (root) is required.

On the other hand, the soil layer formed so that the vegetation is not only inorganic, but also mixed with various organic materials for supplying nutrients to the plant.

However, problems such as environmental pollution occurs because such organic matter is discharged to the outside of the building with rainwater during rainy weather, and nutrients necessary for vegetation are insufficient due to the departure of organic matter.

The present invention was derived to solve the above problems, to provide a greening structure of the building to prevent the environmental pollution caused by the discharge of organic matter during rain, and to efficiently supply nutrients for vegetation. For that purpose.

The present invention in order to achieve the above object, the drainage layer 20 formed on the top of the slab 10; A filtration layer 100 formed on an upper portion of the drainage layer 20 by an inorganic material; Presenting the greening structure of the building comprising a; on the upper portion of the filter layer 100, the growth layer 200 formed by mixing of inorganic and organic materials to enable vegetation.

The filtration layer 100 is made by the installation of the filtration mat 110 on the upper portion of the drainage layer 20, the filtration mat 110 is formed of a fiber material, the inorganic material is filled therein Is preferred.

The growth layer 200 is made by the installation of the mat for mat 210 for the upper portion of the filtering mat 110, the mat for mat 210 is formed of a fiber material, the inorganic material and It is preferred that the mixture of organics is filled.

The drainage layer 20 is preferably made by the installation of a drain plate 21 is formed with a gap for drainage.

It is preferable that the secondary filtration layer 120 made of a fiber material is formed between the drainage layer 20 and the filtration layer 100.

It is preferable that the waterproof / proof layer 11 is formed between the slab 10 and the drainage layer 20.

It is preferable that the heat insulation layer 12 is formed between the waterproof / proof layer 11 and the drainage layer 20.

The present invention provides a greening structure of the building to prevent the environmental pollution by the discharge of organic matter during rainy weather, and to efficiently supply nutrients for vegetation.

Figure 1 below shows an embodiment of the present invention,
1 is a sectional view of a first embodiment.
Figure 2 is a perspective view of the mat for filtration and mat for growth.
3 is a sectional view of a second embodiment;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1 below, the greening structure of the building according to the present invention basically, a drainage layer 20 formed on top of the slab (10); A filtration layer 100 formed on the upper portion of the drainage layer 20 by an inorganic material; It comprises a; growth layer 200 formed on the upper portion of the filtration layer 100 by mixing the inorganic and organic materials to enable vegetation.

In this regard, the inorganic material refers to a material that forms (artificial) soil, such as vermiculite and pearlite, and the organic material refers to a material for supplying nutrients to plants such as peat moss and coconut peat.

The conventional greening structure is composed only of the soil layer (cultivation layer) and drainage layer formed by the mixing of inorganic and organic materials, the organic structure is discharged with rainwater in rainy weather as compared to the greening structure according to the present invention is organic matter By additionally forming a separate filtration layer 100 formed only by the inorganic material under the growing layer 200, the rainwater containing organic matter is filtered while passing through the filtration layer 100, the filtered water drainage layer It is to be discharged through (20).

Therefore, the present invention obtains the following effects.

First, the organic matter discharged from the growth layer 200 during rainy weather is filtered by the filtration layer 100 and then discharged through the drainage layer 20, thereby preventing environmental pollution.

Second, since the organic matter discharged from the growth layer 200 is deposited in the filtration layer 100, when the root of the plant reaches the filtration layer 100 by the passage of time, the organic matter thus deposited may be used as nutrients again. .

The filtration layer 100 may be formed only by the installation of an inorganic material, but is formed of a fiber material, and is formed by installing the filtration mat 110 filled with the inorganic material on the upper portion of the drainage layer 20. It is more preferable for the convenience of construction and the superiority of the filtration function (FIG. 2).

The growth layer 200 may also be formed by laying a mixture of inorganic and organic materials on the upper filtration layer 100 (filtration layer or filtering mat 110 by laying), but is formed of a fiber material, and inorganic and organic materials therein. It is more preferable that the mixture is filled by the mat for growth 210 is installed on the upper portion of the filter layer 100 for the convenience of construction and the excellence of the vegetation function (Fig. 2).

Although the drainage layer 20 may be formed by various structures, it is more preferable to ensure excellent waterproof and waterproof function by the installation of the drainage plate 21 in which voids for drainage are formed.

When the secondary filtration layer 120 made of a fiber material such as a nonwoven fabric is formed between the drainage layer 20 and the filtration layer 100, the organic material and the fine powder that have passed through the filtration layer 100 are filtered again to ensure more reliable purification. The effect that becomes possible is added (FIG. 3).

When the waterproof / proof layer 11 is formed between the slab 10 and the drainage layer 20 by applying a specific material or installing a sheet, the penetration of moisture and plant roots into the building can be more reliably prevented. Effect is added (FIG. 3).

When the heat insulation layer 12 is formed between the waterproof / corrosive layer 11 and the drainage layer 20, the effect of blocking the heat transfer inside and outside the building to perform the heating and cooling of the building more efficiently is added (FIG. 3). .

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

10: slab 11: waterproof / waterproof layer
12: heat insulation layer 20: drainage layer
21: drain plate 100: filter layer
110: mat for filtration 120: secondary filtration layer
200: growth layer 210: mat for growth

Claims (7)

delete A drainage layer 20 formed on the top of the slab 10;
A filtration layer 100 formed on an upper portion of the drainage layer 20 by an inorganic material;
And a growth layer 200 formed on the upper portion of the filtration layer 100 by mixing inorganic materials and organic materials to enable vegetation.
The filtration layer 100 is made by the installation of a filtering mat 110 for the upper portion of the drainage layer 20,
The filtering mat 110 is formed of a fiber material, the greening structure of a building, characterized in that the inorganic material is filled therein. The method of claim 2,
The growth layer 200 is made by the installation of the mat for mat 210 for the upper portion of the filtering mat 110,
The mat for mating 210 is formed of a fiber material, the greening structure of a building, characterized in that the mixture of the inorganic and organic material is filled therein. The method of claim 3,
The drainage layer 20 is the greening structure of the building, characterized in that made by the installation of a drain plate 21 is formed with a gap for drainage. The method of claim 4, wherein
Greening structure of the building, characterized in that the secondary filtration layer 120 is formed between the drainage layer 20 and the filtration layer 100 by a fiber material. The method of claim 5,
Greening structure of a building, characterized in that the waterproof / waterproof layer (11) is formed between the slab (10) and the drainage layer (20). The method of claim 6,
Greening structure of a building, characterized in that the insulating layer 12 is formed between the waterproof / waterproof layer (11) and the drainage layer (20).

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