KR101030731B1 - A unit for green wall of construction and constructing method thereof - Google Patents

Abstract

PURPOSE: A wall vegetation unit and a construction method thereof are provided to secure a vegetative area on a construction structure. CONSTITUTION: A wall vegetation unit of a construction structure comprises a support bracket(100), an exterior plate(200), a hygroscopic fabric, a water tank, a water supply pump and a water pipe. Back-end of the support bracket is extended to the front direction with fixed at the outer wall of a building. The exterior plate is separated from the outer wall of a building. The hygroscopic fabric is extended along the outer wall of a building. The water supply pump and water pipe are installed at the water tank and supplies water to top end of outer wall of a building.

Description

Wall greening unit of building structure and construction method thereof {A UNIT FOR GREEN WALL OF CONSTRUCTION AND CONSTRUCTING METHOD THEREOF}

The present invention relates to the greening of buildings, and more particularly, by installing a curved exterior plate, a support bracket, and a support anchor on the wall or fence of the building to create a planting space by filling a certain amount of soil in front of the building, The present invention relates to a wall greening unit capable of planting not only herbaceous plants but also shrubs, and a construction method thereof.

Since the Industrial Revolution, the use of fossil fuels has increased, resulting in an increase in atmospheric greenhouse gas concentrations, resulting in an increase in global average temperatures of 0.74 for the past 100 years, resulting in an increase in extreme weather events such as heat waves, droughts and floods, and a decrease in Arctic sea area. Changes are significant across the Earth's physics and ecology, including rising.

In Korea, the average annual increase of 1.5 for the past 100 years is higher than the global average, and the total damage of meteorological disasters has risen to 17.7 trillion won in recent decades due to changes in rainfall patterns. This is urgent.

According to the 4th report of the IPCC, the continuous use of fossil fuels is expected to increase global average temperatures by 6.4 and sea level by 59Cm by the end of the century.The intensity of heat waves, heat waves, heavy snowfall, and tropical cyclones According to the National Institute of Meteorological Research, Korea's temperature has risen by about 1.5 ℃ over the past 100 years (World average 0.74 ℃), and sea level has risen by 22cm over 40 years. Increased about 10% in the summer and 18% in the summer, and the sea level of about 1m increased by 2100, flooding about 300 times the area of Yeouido and forecasting 15,000 thousand people to have a livelihood.

The cause of such climate change is caused by most cities, such as the increase in urban coverage, the heat capacity of urban structures, and the excessive use of fossil energy in cities, and the damage caused by urban disasters such as floods, heat island phenomena, urban ecosystem changes, etc. It is concentrated.

Measures for urban climate change include the use of environmentally friendly energy, securing wind roads, and expanding green spaces. However, the measures that can be applied to existing cities and have a high effect are to expand green spaces.

Existing cities lack green space due to indiscriminate development, and it is difficult to expand green space because they are densely composed of buildings. However, when greening the building, the green area in the city can be secured considerably. In addition, when recording the wall surface, which is the vertical surface of the building, the green space can be expanded while maintaining the function of the city.

However, until now, the building greenery is mainly made of roof greening, such as the rooftop greening project in Seoul.Therefore, there is a limit to the expansion of the green space area in the urban space.In the case of wall greening, climbing, sewage, or modular (block, Panels, etc., but in the case of vine plants, it takes a long time (at least 4 ~ 5 years) to record the entire wall after planting. Do.

Therefore, recently, as shown in Figure 1, the potted wall recording method (Patent Publication 2010-48683) has been developed.

However, as shown, the pollen-type wall recording structure, there is a limitation of the depth of growth depending on the size of the pot (vegetation container), thereby causing a limitation of vegetation species, there is a problem that there is a limitation of the greening effect. .

In addition, since it has a continuous arrangement structure of individual vegetation vessels, since the soil does not surround the building outer wall at the contact portion of the vegetation vessels, there is a problem that the thermal insulation effect is significantly reduced.

In addition, the transport of the material is not easy, there is a risk that the concrete material is broken, the plastic material may be deformed or discolored.

The present invention has been made in order to solve the conventional problems as described above, the object of the present invention is to cover the soil more than a certain thickness on the front of the building and connected without clogging from the ground to the top end to secure sufficient growth soil plants and shrubs It is to provide a wall greening unit and a construction method for planting.

It is another object of the present invention to provide flexural stiffness due to the bending of an outer plate formed of a curved metal member, and the self load of the soil is transferred to the ground to provide a structurally safe wall greening unit and a construction method.

Still another object of the present invention is to install a soil moisture sensor at a certain height and interval so that moisture does not fall below the counterfeit point of the plant during dry season, and collects rainwater on the building and the ground and stores it in the basement, and the soil moisture is constant. It is to provide a wall greening unit and a construction method that can automatically supply the pump when water is lowered below the level.

According to a feature of the present invention for achieving the above object, the present invention is a rear end portion is fixed to the outer wall of the multi-layer multi-row support bracket extending forward from the building outer wall; And an exterior plate spaced apart from the building exterior wall at predetermined intervals and provided in multiple layers from the bottom of the building exterior wall to an upper portion of the building exterior wall. So that it is curved; The upper side is fixed to the front end of the upper support bracket, and the lower side is fixed to the middle of the lower support bracket; And a wall greening unit of a building structure filled with filling soil for vegetation between the inner side of the exterior plate and the outer wall of the building.

At this time, the support bracket, the body is formed of a T-beam; A wall fixing part formed on a rear surface to fix the support bracket to the outer wall of the building; An outer plate upper fastening portion formed on the front surface to fix the lower outer plate upper portion; And it may extend to an upper portion between the wall fixing portion and the outer plate upper fastening portion, it may be configured to include an outer plate lower coupling portion for fixing the outer plate of the upper row.

In addition, an anchor hole is formed in the wall fixing part, and the support bracket is fixed to the outer wall of the building by anchor coupling.

The wall fixing part is coupled to the body at an inclination angle corresponding to the inclination angle of the outer wall of the building when the outer wall of the building forms an inclined surface.

In addition, a fastening hole is formed in the outer plate upper fastening portion, the upper hole is formed in the upper portion of the outer plate, the outer plate upper portion is coupled by the fastening bolt and the outer plate upper portion; A coupling hole is formed in the outer plate lower coupling portion, and a lower hole is formed in the lower portion of the outer plate, and the lower portion of the outer plate is coupled to the outer plate lower coupling portion by a coupling bolt.

On the other hand, the lower portion of the outer wall of the building, may be provided with a collecting tank for storing the supply water to be supplied to the filling soil.

And the present invention and the water supply pipe for providing a movement path of the feed water from the sump to the filling soil on the outer wall; It may be configured to further include a feed pump for moving the supply water through the feed pipe.

In addition, at least one of the exterior plate inside, a moisture sensor for measuring the moisture inside the filling soil is provided; The feed pump may be controlled to be driven according to the measured value of the moisture sensor.

And the outer wall of the building, the lower end may extend upward from the sump, the absorbent cloth for supplying the feed water in the sump to the filling soil may be attached.

In addition, the outer wall of the building may be formed with a waterproof layer and a weatherproof layer.

And the filling soil, and improved soil to form the growth depth of the shrub; It may be configured to include a multing material provided on the upper end of the planting.

On the other hand, the present invention, (A) the step of fixing the support bracket to the multi-layered multi-layer on the outer wall of the building; (B) fixing the first row sheathing plate by fixing an upper portion of the first row sheathing plate to the front surface of the first row of supporting brackets and bringing the lower end into contact with the ground; (C) filling and compacting the filling soil in the spaced space between the first row face plate and the outer wall of the building; (D) coupling the lower part of the outer plate to the outer plate lower coupling portion of the lower support bracket; (E) fixing the upper portion of the outer plate to the front surface of the vertical support bracket; (F) filling and compacting the filling soil in the space between the exterior plate and the building exterior wall; And (G) repeating the steps (D) to (F) to include the method for greening the wall of the building structure to be constructed.

At this time, the present invention, (I) forming a water collecting tank for storing the supply water in the lower end of the building wall; (II) may be attached to the outer wall of the building to attach a moisture absorbent cloth for absorbing the supply water from the sump to supply to the filling soil.

In addition, the present invention comprises the steps of (i) forming a water collecting tank for storing the supply water in the lower end of the building exterior wall; (Ii) installing a water supply facility including a water supply pipe and a water supply pump to supply the feed water of the sump to the filling soil; (Ⅲ) may be installed further comprising the step of installing at least one moisture sensor to determine whether the water supply pump is operating.

In addition, the present invention may be constructed by further comprising the step of forming a waterproof layer and a barrier layer on the outer wall of the building.

In the wall greening unit of the building structure according to the present invention as described above, the following effects can be expected.

In other words, by covering the entire wall of the building soil to ensure sufficient depth of growth, to store the moisture to facilitate the growth of plants, and in the emergency, the moisture is maintained by the automatic moisture control device has the advantage of easy maintenance.

In addition, in the present invention, the exterior plate formed of a metal member is curved to increase the flexural rigidity, and the soil is connected to the top of the ground without being blocked, thereby transferring its own load to the ground, which is very structurally safe.

In addition, the present invention has the advantage of improving the urban ecosystem by expanding the green space without reducing or changing the flat land use in the city by creating a green space in the downtown area on the vertical plane of the building.

In addition, by storing the initial rainwater in the soil, plants and reservoirs, it is possible to prevent peak flooding by preventing peak flooding, and after the nonpoint source is filtered and adsorbed by the soil, it is extracted and decomposed by the microorganisms in the soil. There is an advantage that can be reduced.

In addition, in the present invention, by covering the front of the building with soil and vegetation, there is an economic advantage that the energy saving effect by the insulation and the lifespan according to the protection of the building is extended.

In the present invention, by suppressing the urban heat island phenomenon by absorbing heat by the soil and plants, it is possible to plant a variety of plants, such as shrubs to increase the amount of evaporation to improve the dry urban climate, absorb and store CO ₂ , and reduce the noise It has the advantage of being.

In addition, it is possible to plant a variety of species by sufficient effective soil has the effect of improving the urban landscape and seasonal aesthetics, and restore the urban ecosystem.

1 is a perspective view showing an example of a conventional wall recording structure.
Figure 2 is a side cross-sectional view showing a specific embodiment of the wall greening of the building structure according to the present invention.
Figure 3 is an exploded perspective view showing a specific embodiment of the support bracket and the exterior plate constituting the building structure wall recording unit according to the present invention.
Figures 4a to 4f is a sequence diagram showing the construction of a concrete embodiment of the building structure wall greening according to the present invention in sequence.
5 is an exemplary view showing a wall recorded by the green wall of the building structure according to the present invention.

The present invention by installing a bent exterior plate, support brackets and support anchors on the wall of the building to fill the soil in the front of the building to secure sufficient soil depth planting plants and shrubs, characterized in that plants can be planted It relates to a wall greening unit.

The construction sequence of the present invention is to install the anchor on the wall of the building to be installed, and if necessary, waterproof and waterproof layer installation (unnecessary in the case of retaining wall) after fixing the support brackets and fastening the first-stage exterior plate and the improved earth laying and compaction in the first stage Do it.

After that, the two-stage exterior plate is fastened and the two-stage improved soil is laid and compacted. The above work is repeated to the design height, and then planted. If necessary, the mulching material is laid.

When the automatic water supply and control system is introduced, water collection facilities are installed on the building and the ground, water collection tanks are installed on the foundation, water pumps and water pipes are installed, moisture absorbent cloths are installed (if necessary), and moisture sensors are automatically adjusted. It can be configured to be.

The curved exterior plate can be applied to all corrosion-resistant metal plates such as galvanized steel, color steel, aluminum, stainless steel, and the wall fixing method is to install a set anchor or chemical anchor by drilling an existing concrete wall or embedding anchor in a new building. Can be installed in advance to increase the ease of construction.

In order to fasten the outer plate, fasten the outer plate after fixing the support bracket to the anchor installed on the wall.

Hereinafter will be described in detail with reference to the accompanying drawings a specific embodiment of the wall greening unit and the construction method of the building structure according to the present invention as described above.

Figure 2 is a side cross-sectional view showing a specific embodiment of the building structure wall greening according to the present invention, Figure 3 is an exploded view showing a specific embodiment of the support bracket and the exterior plate constituting the building structure wall greening unit according to the present invention. Perspective view.

As shown in these figures, it comprises a support bracket 100, an outer plate 200, a moisture absorbing cloth 320, a water collecting tank 310, a water supply pump 340 and a water supply pipe 330. .

First, the support bracket 100 and the exterior plate 200 will be described in detail with reference to FIG. 3.

As shown in FIG. 3, the support bracket 100 has a T-shaped beam basic shape, and a wall fixing part 110 is formed at a rear end thereof, and an upper plate fastening part 120 is formed at a front end thereof. An outer plate lower coupling part 130 extending upward between the government unit 110 and the outer plate upper fastening part 120 is formed.

An anchor hole 114 is formed on the wall fixing part 110 to fix the support bracket 100 to the building outer wall (W).

The anchor hole 114 penetrates the support anchor 112 to fix the support bracket 100 to the building outer wall (W).

At this time, as described above, the support anchor 112 may be used in a variety of anchors according to the member of the building outer wall, the shape of the construction. That is, Figure 3 shows a state in which a chemical anchor is used, various kinds of anchors such as a strong anchor, a set anchor can be applied.

In addition, a fastening hole 126 for coupling an upper portion of the lower outer sheath plate 200 is formed on an upper portion of the outer plate upper fastening portion 120, and an upper outer sheath plate 200 on the upper portion of the outer plate lower coupling portion 130. Coupling hole 136 for coupling the lower portion of the) is formed.

On the other hand, the exterior plate 200 has a lower hole 230 is formed at the bottom, is coupled to the outer plate lower coupling portion 130, the upper hole 210 is formed on the upper plate fastening portion 120 ) Is combined.

That is, the lower portion of the exterior plate 200 is coupled by a coupling bolt 132 penetrating the lower hole 230 and the coupling hole 136 and a coupling nut 134 for binding the coupling bolt 132. .

In addition, the upper portion of the outer plate 200 is coupled by a fastening bolt 122 penetrating the upper hole 210 and the fastening hole 126 and a fastening nut 124 for binding the fastening bolt 122.

On the other hand, if necessary, the outer wall surface may be formed waterproof / waterproof layer.

In addition, the front side of the waterproof / waterproof layer is provided with a hygroscopic cloth 320 is located at the bottom of the water collecting tank (310) extending along the outer wall of the building. The absorbent cloth 320 serves to supply water to the filling soil 400 of the front surface of the building by absorbing the supply water of the water collecting tank 310 and raising the upper portion, or when storing water at the top, To prevent the soil from drying out easily.

However, since the water supply by the absorbent cloth has its limitations, it is possible to adjust the installation and installation height according to the construction situation, such as the height of the outer wall of the building or the installation of the water supply pipe 330 and the type of vegetation seeds.

Meanwhile, a water collecting tank 310 for storing supply water is installed at a lower portion of the outer wall of the building, and the upper portion of the water collecting tank 310 is closed with a cover 350. The water collecting tank 310 is a portion for storing the supply water to be supplied to the filling soil 400 in front of the outer wall of the building, the supply water is basically used to store rainwater, if the rainwater supply is not smooth, water supply facilities It is desirable to connect the supply to replenish the feed water.

In addition, a water supply pump 340 and a water supply pipe 330 for supplying supply water from the water collection tank 310 to the upper end of the building outer wall are installed in the water collection tank 310, and the water supply by the water supply pump 340 is provided. Can be supplied to the filling soil 400 of the front wall of the building along the water supply pipe 330.

 On the other hand, the driving of the feed water pump 340 may be controlled by various methods.

That is, the water supply pump 340 may be manually driven or driven by a timer by time, but is preferably driven according to the dry state of the filling soil 400.

To this end, a moisture sensor may be provided inside the exterior plate 200 of a specific layer, and drive the water supply pump 340 according to the measured value of the humidity sensor to supply supply water to the filling soil 400. You can do that.

At this time, the installation position and the number of the moisture sensor may be variously modified according to the construction state.

Hereinafter will be described in detail with the accompanying drawings the wall greening construction method of the building structure according to the present invention.

4A to 4F are construction sequence diagrams sequentially showing a state in which a specific embodiment of the wall greening of a building structure according to the present invention is constructed.

In order to construct the green wall of the building structure according to the present invention, first, as shown in FIG. Fix it. In this case, as described above, the second half of the support bracket 100 is fixed to the outer wall of the building through the support anchor 112.

Of course, when waterproofing is required on the outer wall of the building, the waterproof / waterproof layer may be constructed on the outer wall of the building in a conventional manner.

Then, as shown in Figure 4b, the moisture absorbing cloth 320 is attached to the outer wall of the building.

At this time, the absorbent cloth 320 is installed so that the lower end is located in the water collecting tank 310, the upper end is extended to the required height.

As shown in FIG. 4C, a water supply pump 340 is installed in the water collecting tank 310 and connected to the water supply pump 340 to supply water to the upper portion of the outer wall of the building from the water collecting tank 310. Pipe.

Then, as shown in Figure 4d, by installing the cover 350 on the water collecting tank 310, the installation for water supply is finished.

Next, as shown in FIG. 4E, the outermost layer 200 is coupled to the lowermost support bracket 100 to form a lowermost layer.

In this case, the outermost outer plate 200 is shielded at the lower end (including the drain hole is formed so that the filling soil is not lost) to be in contact with the ground.

Of course, unlike the illustrated, when the water collecting tank 310 is buried underground, and the soil layer is formed on the water collecting tank 310, the bottom of the exterior plate 200 may be opened to be in contact with the ground layer.

Thereafter, as shown in FIG. 4F, the exterior plate 200 is coupled to the uppermost support bracket 100 to complete wall greening of the building structure according to the present invention.

Of course, after the outer plate 200 of each layer is combined, each layer is filled with a filling soil 400, and compacted to form a vegetation soil layer.

At this time, the filling soil 400 may be used in various types of soil according to the type and design load of the vegetation seeds, preferably an improved soil containing a foliar soil, etc., preferably mulching on the surface layer of the vegetation seeds Ash is filled

5 is a view that the shrub is planted inside the upper surface of each exterior plate 200, the building wall is green.

The main feature of the greening wall structure of the building structure according to the present invention, the filling soil 400 of the outer wall of the building forms a soil layer from the bottom to the top, and the roots of the vegetation seeds are extended to perform structural behavior to stabilize the structure To form a wall fill layer.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

For example, when recording the outer wall, retaining wall, and the like having a non-vertical acute inclination, the outer wall having the inclined surface may be recorded in the same manner if the engagement angle of the wall fixing part is equal to the inclination of the outer wall.

The present invention is to install the exterior plate formed by the curved metal member, the exterior plate connecting device formed by the metal member and the fixing anchor on the wall of the building to fill the soil in the front of the building to secure sufficient soil depth to plant plants and shrubs According to the present invention, by attaching a certain amount of soil to the front surface of the building, according to the present invention, the effect of extending the life of the building according to the reduction of erosion and temperature change, insulation and Energy saving effect by thermal insulation, microclimate control effect such as heat reduction of urban heat island and prevention of drying, CO ₂ absorption and storage effect by photosynthesis of planted plants, ecological restoration effect such as Biotop and Stepping Eco-corridor, urban aesthetics and landscape It provides an improvement effect, and has the advantage of providing a natural circulation function to secure the ecological area ratio.

100: support bracket 110: wall fixing
112: support anchor 114: anchor ball
120: fastening portion of the outer plate 122: fastening bolt
124; Tightening nut 126; Fastener
130: outer plate coupling portion 132: coupling bolt
134: coupling nut 136: coupling hole
200: exterior plate 210: upper hole
220: bolt cover 230: lower hole
310: sump tank 320: hygroscopic cloth
330: water supply pipe 340: water supply pump
350: cover 400: filled soil
W: outer wall

Claims (12)

A multi-tier multi-row support bracket having a rear end fixed to the building outer wall and extending forward from the building outer wall;
A metal sheathing plate spaced apart from the building exterior wall at predetermined intervals and provided in multiple layers from the bottom to the top of the building exterior wall:
The exterior plate,
A distance from the outer wall of the building is formed to be bent to be wider than a distance from the bottom;
The upper side is fixed to the front end of the upper support bracket, and the lower side is fixed to the middle of the lower support bracket;
Filling soil for vegetation is filled between the inner side of the exterior plate and the outer wall of the building, the filling soil is filled with a predetermined thickness to cover the outer side of the lower portion of the upper layer exterior plate wall building unit of the building structure.
The method of claim 1,
The support bracket,
A body formed of a T-beam;
A wall fixing part formed on a rear surface to fix the support bracket to the outer wall of the building;
An outer plate upper fastening portion formed on the front surface to fix the lower outer plate upper portion; And
The wall greening unit of the building structure, characterized in that it comprises an outer plate lower coupling portion for fixing the lower portion of the upper plate to extend between the wall fixing portion and the outer plate upper fastening portion.
The method of claim 2,
An anchor hole is formed in the wall fixing part, and the support bracket is fixed to the outer wall of the building by anchor coupling.
The method of claim 3, wherein
The wall fixing section,
When the outer wall of the building forms an inclined surface,
Wall greening unit of the building structure, characterized in that coupled to the body at an inclination angle corresponding to the inclination angle of the outer wall of the building.
The method of claim 3, wherein
A fastening hole is formed in the outer plate upper fastening portion, and an upper hole is formed in the upper portion of the outer plate, and the upper portion of the outer plate is coupled to the outer plate upper fastening portion by a fastening bolt;
A coupling hole is formed in the outer plate lower coupling portion, and a lower hole is formed in the lower portion of the outer plate, and the lower side of the outer plate is coupled to the outer plate lower coupling portion by a coupling bolt.
6. The method according to any one of claims 1 to 5,
Under the outer wall of the building,
Walling unit of the building structure, characterized in that the collection tank for storing the supply water to be supplied to the filling soil.
The method according to claim 6,
A water supply pipe providing a movement path of the supply water from a sump to a filling soil in an upper portion of the outer wall;
And a water supply pump configured to move the supply water through the water supply pipe.
The method of claim 7, wherein
At least one inner plate inside,
A moisture sensor for measuring humidity inside the filling soil is provided;
The feed water pump,
The driving unit is controlled according to the measured value of the humidity sensor wall recording unit of the building structure.
The method of claim 8,
On the outer wall of the building,
A lower end extends upwardly from the sump, and a hygroscopic cloth is attached to provide the feed water in the sump to the filling soil.
(A) fixing the support bracket in a multi-tiered row on the outer wall of the building;
(B) fixing the first row sheathing plate by fixing an upper portion of the first row sheathing plate to the front surface of the first row of supporting brackets and bringing the lower end into contact with the ground;
(C) filling and compacting the filling soil in the spaced space between the first row face plate and the outer wall of the building;
(D) coupling the lower part of the outer plate to the outer plate lower coupling portion of the lower support bracket;
(E) fixing the upper portion of the outer plate to the front surface of the vertical support bracket;
(F) filling and compacting the filling soil in the space between the exterior plate and the building exterior wall; And
(G) a method for greening the wall of a building structure, comprising the steps of repeating the steps (D) to (F).
The method of claim 10,
Before the construction of the first step (A),
(I) forming a water collecting tank for storing the supply water in the lower end of the building exterior wall;
(II) further comprising the step of attaching a hygroscopic cloth for absorbing the feed water from the sump to supply to the filling soil on the outer wall of the building.
The method of claim 10,
Before the construction of the first step (A),
(Iii) forming a sump for storing the feed water at the lower end of the building exterior wall;
And (ii) installing a water supply facility including a water supply pipe and a water supply pump to supply the feed water of the sump to the filling soil.

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