KR20160061928A

KR20160061928A - Building Installed Inside Terraced Field

Info

Publication number: KR20160061928A
Application number: KR1020160057901A
Authority: KR
Inventors: 변효창; 이상호
Original assignee: 변효창; 이상호
Priority date: 2016-05-12
Filing date: 2016-05-12
Publication date: 2016-06-01

Abstract

The present invention can be applied to a building in which a trench garden is installed in a room, a ceiling and an outer wall are formed of a transparent material so that natural light can be seen toward a trench garden, a vegetable can be cultivated indoors, to provide
The indoor trench garden of the present invention is installed in a multi-tiered arrangement in a room, and the trench garden where the soil is filled in so that the plant can be planted, and the trench garden, all or part of which is made of transparent material An outer wall to be formed, and a ceiling which is made of a transparent material to partially allow natural light to the trench garden, and a drain pipe installed on the bottom surface of the trench garden.

Description

{Building Installed Inside Terraced Field}

More particularly, the present invention relates to an indoor trench garden construction in which a trench garden is installed in a room and a ceiling and an outer wall are made of a transparent material so that natural light can be seen toward the trench garden.

Generally, in buildings such as houses and offices, pollen and flower beds are installed to plant plants for air purification and aesthetics.

Pollen and flower beds to be installed indoors can only be installed on the porch or limited indoor plants indoors because of problems such as size and drainage.

Korean Patent Publication Nos. 10-1516584, 10-1270267, 10-1070331, 10-2015-0078931, and Published Utility Model Publication No. 20-2012-005788, A variety of techniques for prefabricated flower beds and small flower beds are disclosed.

Conventionally, in the case of a prefabricated flower bed or a small flower bed, there is a limitation in planting various plants indoors and it is not enough to improve the living room environment.

Especially in the case of general houses, most of them are not installed in the living room, and they are only used for a short time during the day.

The present invention has been made in view of the above points, and it is possible to cultivate indoor vegetables by forming a roof tile garden in a room and forming a ceiling and an outer wall in a transparent material so that natural light can be seen toward a tile garden. It is an object of the present invention to provide an indoor trench gardening building capable of greatly increasing its height.

An indoor trench garden according to an embodiment of the present invention includes a trench garden where trenches are filled with soil so that the trench garden can be planted in a multi-tier arrangement arranged in a tiered manner in a room, And a drain pipe provided on the bottom surface of the trench garden field. The drainage pipe is formed on the bottom surface of the trench garden field.

The water supply nozzle for supplying water to the upper part of the trotter garden is installed.

A water storage tank for storing and purifying rainwater is provided on the outer wall or the outside of the ceiling, and water in the water storage tank is supplied to the water supply nozzle.

The drain pipe is provided with a purifying filter for purifying discharged water discharged.

In accordance with the embodiment of the present invention, according to the installation of the tulangi garden, since the tulip garden is installed in the room, it is possible to eat the fresh, pollution-free organic vegetables by farming the field in the four seasons (including winter) have.

In addition, according to the embodiment of the present invention, it is possible to supply moisture by natural evaporation through the trowel garden or to absorb moisture and reduce it, so that it does not require a humidifier and a dehumidifier, It is possible to maintain fresh air by purifying the air in the room by supplying oxygen and adjusting the temperature and humidity of the room.

According to the indoor trench garden construction of the present invention, it is possible to maintain the clean indoor space by facilitating the water and sewage facilities and partial soil removal of the trench garden that is installed in the indoor space.

According to the building of the indoor trench garden of the present invention, sunlight enters the interior through the outer wall and the ceiling made of transparent material throughout the four seasons, and it is also possible to observe the stars and the night view through the transparent ceiling at night.

Further, according to the indoor trench garden of the present invention, it is possible for the children to experience the natural learning easily at any time in the trench garden that is installed in the room, and it is possible to freely grow desired plants.

According to the indoor trench garden of the present invention, since it is located at a close distance from the kitchen and the trench garden, it is possible to harvest fresh vegetables and eat them right next to them.

INDUSTRIAL APPLICABILITY According to the indoor trench garden setting structure of the present invention, it is possible to utilize the living room which is not normally used empty and useful for 24 hours, and it is possible to freely change the interior landscape as desired.

1 is a perspective view illustrating an indoor trench garden in accordance with an embodiment of the present invention.
2 is a cross-sectional view illustrating an indoor trench garden in accordance with an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, preferred embodiments of an indoor trench garden according to the present invention will be described in detail with reference to the drawings.

The present invention can be embodied in various forms and is not limited to the embodiments described below.

Hereinafter, for the purpose of clearly illustrating the present invention, a detailed description of parts that are not closely related to the present invention is omitted, and the same or similar components are denoted by the same reference numerals throughout the entire description of the present invention, .

1 and 2, an indoor trench garden structure according to an embodiment of the present invention includes a trench garden 50, an outer wall 20, a ceiling 30, a drain pipe 70, .

The trottery garden (50) is arranged in a multi-tier arrangement in a room.

As described above, if the trowel garden 50 is installed in multiple tiers, the trench garden 50 can be arranged on the lower or upper end depending on the height and type of the planting plant, and it is possible to effectively manage the overall landscape and environment.

Since different types of flowers or vegetables can be planted at each end of the trotter garden 50, it is possible to classify various plants according to their types.

The interior of the trotter garden 50 is filled with soil for planting.

For example, the inner lower layer of each trough garden 50 is filled with gravel to form a gravel layer 62, the middle layer is filled with a masato to form a masato layer 64, and the upper layer is filled with soil or artificial soil, 66 are formed.

It is also possible to provide a non-woven fabric or a net sash to the bottom of the gravel layer 62 to prevent the outflow of the gravel.

It is preferable to set the thickness of the topsoak layer 66 and the matatto layer 64 according to the characteristics of the plant to be planted in the soil filled in each end of the trottery garden 50.

For example, when plants planting roots deep in the ground are planted, they are planted at the upper part, and the thickness of the topsoil 66 and the mass layer 64 is thickened.

On the other hand, in the case of planting a plant in which the roots do not extend deeply, the thickness of the topsoil layer 66 and the soap layer 64 may be made shallow.

In the case of the above-mentioned masato layer 64, it is preferable that the height is set so as to appropriately maintain the water dropout, and the thickness is shallower than the topsoil layer 66.

The trowel garden 50 can be constructed by assembling the wall body 52 in a prefabricated manner.

For example, it is also possible to construct the wall body 52 so as to be assembled using a brick having a lego structure.

It is also possible to form the wall 52 of the trotter garden 50 by combining red bricks.

The wall 52 of the trowel garden 50 may be formed using cement bricks, artificial stone panels, or the like, or may be formed using bricks or panels made of synthetic resin.

In addition, a water supply nozzle 80 for supplying water may be provided above the trottery garden 50.

The water supply nozzle 80 may be constructed by a sprinkler system.

Preferably, the water supply nozzle 80 is installed by adjusting the injection pressure and the injection direction so that the water to be sprayed does not protrude to the outside of the trowage garden 50.

The water supply nozzle 80 may be formed by a drop nozzle provided on the top surface of the top soil layer 66 of the trowel.

The outer wall 20 is formed of a transparent material so that all or a part of the outer wall 20 can be natural-lighted toward the trowel garden 50.

For example, the outer wall 20 may include an opaque wall 24 formed using an opaque material such as stone, cement, concrete, wood, synthetic resin, etc., and a transparent wall (not shown) formed using glass, 22).

The transparent wall 22 is formed on all or a part of the wall of the south side and the east side or the west side so that natural light is made to the trowel garden 50 for more than five hours a day.

The ceiling (30) is made of a transparent material so that natural light can be directed towards the trench (50).

For example, a transparent ceiling 32 is formed on a part of the ceiling 30 by using glass or synthetic resin, which is transparent material, above the portion where the trowelling garden 50 is located.

The transparent ceiling 32 may be constructed to be openable and closable so that it can be opened and closed as needed.

The ceiling 30 may be provided with a solar energy absorbing panel 38 for using sunlight or solar heat as needed.

The drain pipe (70) is installed on the bottom surface of the trench (50).

The drain pipe 70 may be connected to a drain pipe installed on the bottom surface of the building.

The drain pipe (70) may be provided with a purifying filter (72) for purifying the discharged water.

A water storage tank 90 for storing and supplying rainwater is installed on the outside of the outer wall 20 or the ceiling 30 so that water in the water storage tank 90 is supplied to the water supply nozzle 80 As shown in FIG.

The water supply nozzle 80 may be connected to a water pipe or a ground water supply pipe.

The water supplied through the water supply nozzle 80 passes through the topsoil layer 66, the soap layer 64, and the gravel layer 66, as shown in FIG. And then discharged through the drain pipe (70). Accordingly, it is possible to prevent the water from flowing or overflowing to the inside of the room, and the drainage is not proper, so that the water is excessively stored in the topsoil layer 66, thereby preventing the root of the plant from being rotten.

The bottom surface of the portion where the trowel hut 50 is installed is formed to be inclined toward the drain pipe 70 so that the drain water is collected and discharged naturally as it flows toward the drain pipe 70.

While the present invention has been described with reference to the preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, , Which are also within the scope of the present invention.

20 - outer wall, 22 - transparent wall, 24 - opaque wall, 30 - ceiling, 32 - transparent ceiling
38 - Solar energy absorption panel, 50 - Tribal garden, 52 - Walls, 62 - Gravel layer
64 - Masato layer, 66 - Surface layer, 70 - Drain pipe, 72 - Purification filter, 80 - Water nozzle
90 - Reservoir tank

Claims

It is a multi-tiered arrangement in the interior of the tent garden, which is filled with soil for planting,
An outer wall which is made of a transparent material so that all or a part thereof can be natural lighted toward the trench garden,
A ceiling which is made of a transparent material so that natural light can be sunk toward the trench garden,
An indoor trench garden building including a drain pipe installed on the bottom surface of the trench garden.

The method according to claim 1,
The above-mentioned trench garden is an indoor trench garden building constructed by assembling the wall.

The method according to claim 1 or 2,
A water supply nozzle for supplying water is installed above the trench garden,
A water storage tank for storing and purifying rainwater is provided outside the outer wall or ceiling,
And water in the water storage tank is supplied to the water supply nozzle.

The method of claim 3,
The drainage pipe is provided with a purification filter for purifying the discharged water discharged from the drainage pipe.