KR101425187B1 - Green wall system - Google Patents

Abstract

A system for afforesting a stand surface comprises a planter, a support water container, water flow induction pipes, and water storage amount adjusters. In the planter, a plurality of vegetation modules are horizontally laminated, wherein each of the vegetation modules comprises: a water storing unit having a water storing space; a vegetation unit which is connected with the water storing unit in the front of the water storing unit and has a vegetation space with the top open; and a water penetrating unit which penetrates water of the water storing unit towards the vegetation unit in a position where the water storing unit and vegetation unit are connected. The support water container supports the bottom of the planter and has a water storing space. The water flow induction pipes induce water which is fed in the water storing unit on a top layer from among the water storing units to the water storing unit on an adjacent bottom layer. The water flow induction pipes also induce water which is fed in the water storing unit on the bottommost layer from the water storing units in the support water container. The water storage amount adjusters are respectively connected with the water flow induction pipes, store water which is fed in the water storing units precisely to the specified water storage levels which are respectively set in the water storing units, and discharges water exceeding the specified water storage levels through the water flow induction pipes.

Description

{Green wall system}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an elevation recording system capable of decorating a wall or an elevation of an indoor / outdoor space such as a home, an office, a business office or the like, a partition wall dividing a personal office space of an office, or an elevation structure such as a fence.

Landscaping is a collective term for various kinds of decorations that provide a friendly interior to the surrounding landscape along with various facilities. Landscape provides people with a sense of security and rest. In the case of indoor landscapes, it has the effect of purifying indoor air, supplying oxygen, absorbing and shielding a certain amount of noise. Further, it is known that it has the effect of saving energy by keeping moisture in the room and preventing the room temperature from lowering. In particular, various skin diseases such as atopy due to noxious gas generated in building materials and furniture such as sick house syndrome have recently become a problem. In the case of indoor landscapes by the function of air purification of plants, there is an excellent effect in improving such problems .

Currently, the green industry is becoming a new growth engine of the nation and its importance as a future industry. Due to the influence of narrow country, improvement of people's quality of life, green life for health and environmental concern, Its importance is growing day by day.

In general, wall surface landscaping according to the prior art is being installed by a special construction method by a specialist due to restriction of watering and drainage method and wall attachment method. In this case, construction cost is high. In the case of a professional construction method, it is common to have a fixed and semi-permanent installation form, and it is difficult to change, move or demolish a wall surface without the help of an expert. This may lead to maintenance costs and removal costs.

In addition, problems such as difficulty in connection of the water supply hose to the water supply hose and fixing work of the hose, troubles and difficulties in changing, moving, demolishing thereof, and wall damage for attaching the wall surface of the pollen for wall gardening, In the office, it is a reality that the public can not access easily.

Due to this, there may be a side effect in the home or the general office where the wall sculptures are neglected due to excessive maintenance costs or management neglect. In addition, it is desirable for the aged and young people to prefer the wall landscaping and to plant the wall by installing the wall surface landscaping for the environmental improvement and the emotional stability by the indoor air purifying function described above. However, the construction cost, The cost of dismantling, and the cost of new interiors due to demolition.

Patent Registration No. 10-1234615 (published on Feb. 20, 2013)

It is an object of the present invention to provide a water storage unit having a water storage amount adapted to the plant species planted in the vegetation part, thereby providing an optimum growth environment for planted plants, The present invention provides an elevation recording system capable of providing a stable water supply to the entire upper and lower portions of the building and facilitating installation, alteration, movement, demolition and storage without the help of a specialist and freely configuring a wall landscape space with a desired shape and size.

According to an aspect of the present invention, there is provided an elevation recording system including a water storage unit having a water storage space, a vegetation unit having a vegetation space connected to the water storage unit in front of the water storage unit, And a water permeable portion for allowing the water in the water storage portion to pass through the vegetation portion at a connection portion between the water storage portion and the vegetation portion, wherein the vegetation module is vertically stacked and connected to each other; A support basin supporting the lower side of the planter and having a water storage space; A water flow guide tube for guiding the water introduced into the water storage part of the upper layer between the water storage parts to the water storage part of the immediately adjacent lower layer and guiding the water introduced into the water storage part of the lowest water storage part among the water storage parts, ; And water flow induction pipes connected to the water flow induction pipes, respectively, wherein the water introduced into the water reservoirs is stored in the water reservoirs for a predetermined water storage amount, and water exceeding the set water storage amount is discharged through the water flow induction pipes Water reservoir regulators.

According to the present invention, each water storage portion of the vegetation modules can have a water storage amount adapted to the plant species planted in the vegetation portion, thereby providing an optimum growth environment for planted plants. According to the present invention, it is possible to supply stable water to the entire upper and lower portions of the planter without installing a separate wall watering system such as a conventional boiler piping type hose connection or installation of a water pipe, It is possible to solve the problem and difficulties. As a result, there is a useful effect that makes it possible for anyone, both young and old, to easily and freely make wall gardening activities in daily life.

According to the present invention, an elevation recording system can be freely assembled and installed in any place or on a wall surface of any structure without the help of an expert, so that a wall surface landscape space can be freely configured in a desired shape and size, Flows can be connected in mesh form.

Therefore, the vegetation modules can function as a single plant, regardless of how they are connected to the top, bottom, left, and right sides, so that it is possible to easily install, change, move, demolish and store and provide a vegetation environment suitable for plant growth. As a result, it is possible to cultivate and decorate the green plants only by installing the elevation recording system according to the present invention, anywhere in the home living room wall, the veranda wall, the kitchen wall, the office wall space, the office interior substitute, the office partition wall, And it can contribute greatly to the prevention and improvement of atopy disease, which is one of the major social problems in recent years, and has a useful effect that can greatly contribute to changes in the wall green life, green culture, and popularization.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a side cross-sectional view of an elevation recording system in accordance with an embodiment of the present invention.
FIG. 2 is a perspective view of the elevation recording system of FIG. 1; FIG.
3 is a perspective view of the elevation recording system of FIG. 1 viewed from behind; FIG.
Figure 4 is a side cross-sectional view of the vegetation module of Figure 1;
5 to 7 are views for explaining a process of controlling the water storage amount of the water storage part by the water storage amount adjuster in FIG.
FIG. 8 is a perspective view of the vegetation module of FIG. 1 as viewed from below; FIG.
Fig. 9 is a view for explaining a process in which the vegetation modules are sequentially slidably coupled to the receiving basin in Fig. 1; Fig.
FIG. 10 is a view for explaining a process in which the support basin and the vegetation modules are coupled by the first and second support bars in FIG. 1;
FIG. 11 is a view for explaining a process in which a plurality of elevation recording systems of FIG. 1 are coupled right and left. FIG.
FIG. 12 is a perspective view illustrating a state in which elevation recording systems are coupled to each other through a process shown in FIG. 11; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a side cross-sectional view of an elevation recording system according to an embodiment of the present invention. 2 is a perspective view of the elevation recording system of FIG. 1 viewed from the front. FIG. 3 is a perspective view of the elevation recording system of FIG. 1 as seen from behind; FIG. 4 is a side cross-sectional view of the vegetation module of Fig. 1;

1 to 4, the elevation recording system 100 includes a planter 110, a support basin 120, a water flow guide pipes 130, and a water reservoir adjuster 140.

The plant 110 has a structure in which a plurality of vegetation modules 111 are vertically stacked and connected. The vegetation module 111 includes a water storage portion 1110, a vegetation portion 1120, and a water permeable portion 1130. The water storage portion 1110 has a water storage space. The vegetation part 1120 has a vegetation space connected to the water storage part 1110 in front of the water storage part 1110 and opened at the upper side. The vegetation space can be filled with vegetation soil.

The water permeable portion 1130 transmits the water in the water storage portion 1110 to the vegetated portion 1120 at the connection portion between the water storage portion 1110 and the vegetation portion 1120. If the water stored in the water storage part 1110 is directly introduced into the vegetated soil of the vegetation part 1120, temporary excessive water supply to the vegetated soil, resulting in poor vegetation environment and adverse effects may be caused. However, the water stored in the water storage part 1110 can permeate the vegetated soil naturally by the water permeable part 1130 for a long time and slowly. Therefore, the above-mentioned problem is solved and an optimum vegetation environment can be realized.

The support basin 120 supports the lower side of the planter 110 and has a water storage space. For example, the support basin 120 may include a bucket case 121 having an upper opening and an inner space, and a bucket cover 126 covering the upper opening of the bucket case 121. The water bottle cover 126 can be locked or unlocked by the unlocking mechanism to the water bottle case 121. A water inlet 127 may be formed on the upper surface of the water bottle cover 126. A height adjusting foot 122 may be mounted on the bottom of the water tub case 121.

The water flow induction pipes 130 guide the water flowing into the upper water storage portion 1110 between the water storage portions 1110 to the immediately adjacent water storage portion 1110 of the lower layer, 1110 into the receiving container 120. The water reservoir regulators 140 are connected to the water flow induction pipes 130, respectively. The water reservoir regulators 140 store the water introduced into the water reservoirs 1110 as much as the water reservoirs set in the water reservoirs 1110 and supply the water exceeding the set reservoir amount to the water flow induction pipes 130 Lt; / RTI >

That is, the water reservoir regulators 140 store the required amount of water in each water reservoir 1110 and discharge an excess amount of water exceeding the required reservoir volume through the water flow induction pipes 130. Accordingly, each of the vegetation modules 111 can have a water storage amount adapted to the plant species to be planted in the corresponding vegetation part 1120, Can be implemented. If it is necessary to replenish a larger amount of water than the amount of water supplied to the water storage part 1110, it may be replenished through a water replenishment port formed at the upper left and right sides of the water storage part 1110.

An example of the operation of the elevation recording system 100 having the above-described configuration will be described with reference to FIG. In Fig. 1, a solid line arrow indicates direct water flow, and a dashed arrow indicates permeated water flow.

The water flowing into the uppermost water storage portion 1110 is stored only by the amount of storage of the uppermost water storage portion 1110 controlled by the water storage amount controller 140. After that, And flows into the water reservoir 1110 of the upper layer through the water flow induction pipe 130 connected to the water pipe 140. Subsequently, the water introduced into the upper water storage portion 1110 of the upper tank is stored only by the amount of water stored in the upper water storage portion 1110 controlled by the water storage amount controller 140, And is introduced into the lowest water reservoir 1110 through the water flow induction pipe 130 connected to the water reservoir regulator 140. Subsequently, the water flowing into the lowest water storage portion 1110 is stored only by the amount of storage of the lowest water storage portion 1110 controlled by the water storage amount controller 140, and surplus water exceeding the storage amount is stored in the water storage portion 1110 And is discharged to the receiving container 120 through the water flow induction pipe 130 connected to the storage amount controller 140.

Through this process, water is sequentially stored in all of the water storage units 1110 from the uppermost water storage unit 1110 to the lowest water storage unit 110, and then the surplus water is stored in the water storage unit 120 ). ≪ / RTI > Meanwhile, the water stored in the water storage units 1110 for each set storage amount is supplied to the vegetation units 1120 through the water permeable units 1130. Therefore, the plants cultivated in the vegetation parts 1120 can be well grown by receiving proper water for each kind.

The permeable portion 1130 may be formed in a form in which a plurality of holes are drilled in the plate-shaped member. In this case, the diameter of the hole may be 0.5 mm or less. The reason for this is that when the diameter of the hole is 0.5 mm or less, the water can be gradually supplied to the vegetated soil at a rate of 2 drops / sec most suitably, and the flow of water stored in the water storage units 1110 Because. As another example, the permeable portion 1130 may be formed of a porous material such as a sponge, or may be configured such that a wick made of a permeable material is inserted into a plurality of holes, respectively.

The permeable portion 1130 may be inclined in such a manner that the upper end protrudes forward than the lower end. The water storage portion 1110 may have a shape in which the opened portion surrounds the periphery of the water receiving portion 1130. The water storage portion 1110 may have a vertical surface on the rear surface and both surfaces. Therefore, the upper and lower stacked water reservoirs 1110 can stably support the planter 110 by contacting each of the rear surfaces of the water reservoirs 1110 to a vertical wall surface or an elevation surface. The water storage part 1110 may be formed in such a manner that the front surface of the water storage part 1110 forms a sloped surface. The water storage part 1110 may have a water inlet 1111 formed on the upper surface thereof and a water outlet 1112 formed on the rear surface thereof.

The vegetation part 1120 may have first and second partitions 1121 and 1122 and left and right side walls 1123. The lower end of the first partition 1121 is inclined in a manner protruding forward from the upper end, and the upper end of the first partition 1121 is connected to the lower end of the permeable portion 1130. The second barrier ribs 1122 are inclined in such a manner that the upper end protrudes forward from the lower end and the lower end is connected to the lower end of the first barrier rib 1121. That is, the first and second barrier ribs 1121 and 1122 may be formed to have a U-shaped longitudinal cross-section inclined at approximately 45 degrees with the inlet facing upward along with the permeable portion 1130. Therefore, the soil layer of the vegetated soil stored in the vegetation part 1120 can be prevented from collapsing and flowing down due to gravity, and the vegetation soil can be stably stored in the vegetation part 1120.

The left and right barrier ribs 1123 are formed to cover the left and right portions of the vegetation portion 1120. The left and right partition walls 1123 can be coupled with the water storage portion 1110 in a state where the water permeable portion 1130 is fixed with the first partition 1121 and the water storage portion 1110. The second partition 1122 may be formed with an excess water outlet 1122a for dropping the excess water supplied to the vegetation portion 1120 into the adjacent lower vegetation portion 1120 and discharging the water. Therefore, it is possible to prevent the corruption of the vegetation soil and to provide the optimum water supply environment for the vegetation environment by, for example, watering in the vegetation part 1120.

The water flow induction pipes 130 are installed to penetrate the water storage part 110 and the receiving water bottle 120 except the uppermost water storage part 1110 among the water storage parts 1110. The water flow induction pipe 130 installed in the water storage part 1110 is arranged in a substantially vertical state so that the lower opening end is fitted into the water inlet 1111 of the water storage part 1110 and the upper opening end is exposed . The water flow induction pipe 130 installed in the receiving water bottle 120 may also be arranged so that the lower opening end thereof is fitted into the inlet 127 of the receiving water bottle 120 and the upper opening end of the water flow inducing pipe 130 is exposed to the outside have.

4, the water storage amount controller 140 may include a water storage amount control tube 141 and an adjustment lever 142. [ The water storage amount control tube 141 may be formed in a bent shape in the center portion, for example, a shape bent in a b shape. The water storage amount control tube 141 is located in the water storage part 1110 together with the open end at the bent central part. The other end of the water storage amount control tube 141 is horizontally inserted through the water outlet 1112 of the water storage part 1110 and is coaxially rotatably coupled to the inlet means of the water flow induction pipe 130. When the water storage amount adjusting pipe 141 is rotated, the height of one opening end of the water storage amount adjusting pipe 141 is adjusted according to the rotation position, so that the water storage amount stored in the water storage unit 1110 can be adjusted .

In other words, when the water level in the water storage portion 1110 is higher than the height of the opening end of the water storage amount control pipe 141, water flows into the opening end of the water storage amount control pipe 141. In the state where the water level in the water storage portion 1110 is equal to or less than the height of the opening end of the water storage amount control pipe 141, water does not flow through the opening end of the water storage amount control pipe 141. Accordingly, when the height of one opening end of the water storage amount adjusting pipe 141 is adjusted, the amount of water stored in the water storage part 1110 can be adjusted.

That is, as shown in FIG. 5, when the height of one opening end of the water storage amount control pipe 141 is adjusted to the highest, the water storage amount stored in the water storage unit 1110 can be set to the maximum. As shown in FIG. 6, when the height of one opening end of the water storage amount control pipe 141 is adjusted to the lowest, the water storage amount stored in the water storage unit 1110 can be set to the minimum. As shown in FIG. 7, when the height of one opening end of the water storage amount control pipe 141 is adjusted to a medium level, the amount of water stored in the water storage unit 1110 may be set to a medium level. The water storage amount adjusting pipe 141 may be installed to be sealed by the packing in the water storage part 1110 and the water flow induction pipe 130.

The adjustment lever 142 is formed to rotate together with the water storage amount adjusting pipe 141 outside the water storage part 1110. The control lever 142 may be formed coaxially with the water storage volume control pipe 141. The adjustment lever 142 adjusts the height of one opening end of the water storage amount control pipe 141 according to the rotation position, thereby adjusting the water storage amount of the water storage unit 1110. The water storage unit 1110 may be provided with a mark indicating the amount of water stored in the water storage unit 1110 according to the rotation position of the control lever 142 in a stepwise manner. The water storage part 1110 may be formed in a recessed shape where the adjustment lever 142 is located so that the adjustment lever 142 does not protrude from the rear surface of the water storage part 1110.

The vegetation modules 111 may be configured to be fitted in a sliding manner in a concavo-convex form. 8 and 9, each of the vegetation modules 111 is formed with fitting protrusions 1113 extending in the forward and backward direction on the upper inclined surface of the water storage part 1110, The first rib 1121 may be provided with fitting grooves 1124 for fitting the fitting protrusions 1113 in a sliding manner. When the lower part of the vegetation modules 111 has a V-shaped vertical section, the upper part of the receiving pot 120 is formed with V-shaped concave grooves 128 along the left and right direction so as to insert the lower part of the vegetation module 111 Lt; / RTI > Here, the V-shaped concave groove 128 of the receiving tube 120 may be formed with fitting protrusions 129 such as the fitting protrusions 1113 of the water storage portion 1110.

The vegetation module 111 on the support basin 120 is slidably fitted to the other vegetation module 111 by slidingly inserting one vegetation module 111 into the support basin 120 by a sliding method, The vegetation modules 111 can be easily stacked on the receiving basin 120. Therefore, if the vegetation modules 111 are connected and stacked from the bottom to the top of the support basin 120 placed on the ground, the wall surface space can be realized without any damage or work on the wall surface, Can be freely implemented.

10, the water storage portions 1110 may be formed with first strut support grooves 1114 on both rear sides thereof. The first struts 151 are vertically fitted and connected to the upper and lower adjacent first strut supporting grooves 1114 of the water storage portions 1110 so that the water storage portions 1110 can be fixed to each other. Also, the support column 120 may be provided with second strut support grooves 123. The first support bars 151 can be connected up and down by the connecting members. The second strut 152 is supported by the first strut support groove 1114 of the lowest water storage portion 1110 and the second strut support groove 123 of the support tube 120 among the water storage portions 1110, So that the lowest water storage portion 1110 and the bottom water storage portion 120 can be fixed to each other. Therefore, the vegetation modules 111 can be more stably mutually supported on the receiving basin 120. The second strut 152 may be vertically connected to the first strut 151 by a connecting member.

Meanwhile, as shown in FIGS. 11 and 12, a plurality of elevation recording systems 100 may be provided and may be connected laterally. That is, the plurality of the planters 110 are connected to the right and left, and the support baskets 120 are provided so as to support the planters 110 and can be connected to the right and left. The water storage portions 1110 may have water flow connectors 1115 formed on the left and right sides thereof. In addition, the support baskets 120 may have water flow connectors 124 formed on the left and right sides thereof. The water storage portions 1110 are arranged in the left-right direction, and the water flow connectors 1115 on the opposite sides of the water storage portions 1110 are connected to each other, so that the water storage portions 1110 can have mutually natural water flow. Likewise, the support baskets 120 are arranged in the left-right direction, and the water flow connectors 124 on the opposite sides of the support baskets 120 are connected to each other, so that the support baskets 120 can have mutually natural water flow. The water flow ports (1115) and (124) may be connected by a hose or the like in the longitudinally contractible or stretchable form.

The water flow ports 1115 located on the outer side of the outermost water reservoirs 1110 among the water reservoirs 1110 and the water outflow ports 1115 located on the outer side of the outermost water reservoirs 120 The located water flow connectors 124 may be sealed by plugs, seals, and the like. Accordingly, water can be distributed to all the elevation recording systems 100 regardless of how many of the elevation recording system 100 are connected to the left and right, and the entire system can function as one elevation recording system.

In this way, the user can easily connect the planter 110 with the support baskets 120 without the help of an expert, so that the planters 110 can be freely arranged in a desired shape, It can be installed as simple as the elevation recording system. In addition, whatever the shape of the wall surface landscape space is formed by connecting the planters 110 vertically and horizontally, all the landscape spaces can have a mesh-like water supply structure. Therefore, stable water supply can be expected for all the landscaping spaces, and an optimum vegetation environment can be realized.

In addition, since it is not necessary to install a separate wall watering system such as a conventional boiler piping type hose connection or water pipe installation to individually supply water to the water storage portions 1110 of the planters 110, And it is possible to solve troubles and difficulties. As a result, there is a useful effect that enables easy access for all aged men and women to freely make wall gardening activities in daily life.

Referring again to FIG. 1, the elevation recording system 100 may include an automatic watering device for more convenient and useful use. The automatic water supply device may include a water supply pipe 161, a pumping water pump 162, and a water level controller 163. The water supply pipe 161 connects the water storage space of the uppermost water storage unit 1110 and the water storage space of the support tank 120. In this case, as shown in FIG. 3, a fixing groove 1116 can be formed on each of the rear surfaces of the water storage portions 1110 to fix the water supply pipe 161 therebetween and to treat it neatly.

The water pump 162 discharges the water supplied from the external water supply source 10 to the water receiving container 120 through the water supply pipe 161 to the water storage portion 1110 at the uppermost level. The water pump 162 is provided at one side of the water supply pipe 1110 to supply the water in the water supply pipe 120 to the uppermost water storage unit 1110 through the other open end of the water supply pipe 161 . The amphibious pump 162 may be disposed in the receiving container 120.

The water level controller 163 cuts off the water supply by the external water source 10 when the water level of the receiving water tank 120 reaches the set height. For example, the level controller 163 may include a ball tip 164 and a ball tip hose 165. The water supplied from the external water source 10 is stored in the receiving container 120 through the ball top hose 165. The ball tower 164 is installed in the ball tower hose 165. When the water level in the receiving water tank 120 is lower than the set water level, the ball tower 164 opens the valve so that water is supplied into the receiving water tank 120 through the ball hose 165. Then, when the water level in the receiving tank 120 reaches the set water level, the ball tow 164 closes the valve so that water is no longer supplied into the receiving tank 120. On the other hand, the pumping water pump 162 is controlled to stop at a time set by the timer to supply water to the vegetation parts 1120, thereby increasing the usability of the elevation recording system 100.

Such an automatic water supply device can work as follows. First, when it becomes necessary to supply water to the elevation recording system 100, the user supplies water to the receiving container 120 by the external water source 10. When the water level in the receiving tank 120 reaches the set water level, the ball tower 164 cuts off the water supply from the external water source 10. In this state, when the user turns on the amphibious pump 162, the water in the receiving tank 120 is supplied to the uppermost water storage portion 1110 by the amphibious pump 162. When water is stored in the water storage units 1110 of the vegetation module 111 as much as the set storage amount and the water level in the receiving water tank 120 reaches the set water level again, . Thereafter, when it becomes necessary to supply water to the elevation recording system 100 again, water can be automatically supplied to the elevation recording system 100 by the above-described process.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation and that those skilled in the art will recognize that various modifications and equivalent arrangements may be made therein. It will be possible. Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

110 .. Plants 111 .. Vegetation modules
1110 .. Water storage part 1120 .. Vegetation part
1130 .. Pitching part 120 .. Supporting bucket
130 .. Water flow induction pipe 140 .. Water flow regulator
141 .. Water storage tank 142 .. Adjustment lever

Claims (6)

A vegetation part having a water storage space, a vegetation part connected to the water storage part at the front of the water storage part and having an open upper side, and a vegetation part at a connection part between the water storage part and the vegetation part, A plant connected vertically with a plurality of vegetation modules having a water permeable portion for allowing water to pass through the vegetation portion;
A support basin supporting the lower side of the planter and having a water storage space;
A water storage portion of the uppermost water storage portion of the water storage portion and a water receiving portion of the water storage portion of the uppermost layer among the water storage portions and guides the water introduced into the water storage portion of the upper layer between the water storage portions, Water flow induction pipes for guiding the water introduced into the lowest water storage portion among the water storage portions to the support water reservoir; And
And water discharge regulators for storing water flowing into the water reservoirs as much as the water reservoirs respectively set in the water reservoirs and discharging water exceeding the set reservoir amount through the water flow induction pipes,
Wherein each of the water reservoir regulators comprises:
And a central portion bent in the central portion is positioned in the water storage portion together with one opening end and the other opening end is horizontally passed through the water storage portion and coaxially rotated to the inlet means of the water flow induction pipe Possibly a combined water reservoir, and
And a control lever which is formed to rotate together with the water storage amount control tube at the outside of the water storage part and adjusts the height of the opening end of the water storage amount control tube according to the rotation position to adjust the water storage amount of the water storage part Wherein said system comprises: delete The method according to claim 1,
The water-
Wherein a plurality of holes are perforated, a porous material is formed, and a wick made of a water-permeable material is inserted into the plurality of holes, respectively. The method according to claim 1,
The water-
The upper end is inclined in a form projecting forward than the lower end;
In the vegetation part,
A first partition wall having a lower end inclined forwardly projecting from the upper end thereof and an upper end connected to a lower end of the pervious portion, an upper end inclined forwardly from the lower end, and a lower end connected to a lower end of the first partition, A second bulkhead having excess water outlets for discharging over-supplied water to the vegetation part of an adjacent lower layer and discharging the excess water, and left and right side walls formed to cover left and right portions of the vegetation part system. The method according to claim 1,
Wherein the plurality of the planters are provided so as to be laterally connected to each other, and the support basin is provided with a plurality of left and right support members for supporting the planters, and the water storage ports and the support bases are formed with water flow connection ports The water flow connectors being configured to have a mutual water flow as they are connected;
The water storage parts are formed with first strut-to-support grooves on both rear sides of the water storage part, and the second strut-to-bead support grooves are formed in the water storage part, and the upper and lower adjacent first strut- And the first and second support columns of the water storage part of the lowest water storage part of the water storage part and the second support support grooves of the support water bottle are provided in the water storage part, And a second support bar for fixing the water storage part of the lowermost layer and the support barrel as being connected to the first support bar. The method according to claim 1,
A water supply pipe connecting the water storage space of the uppermost water storage part of the water storage part and the water storage space of the support water bottle,
A water pump for sending the water supplied from the external water source to the bottom water reservoir through the water supply pipe to the uppermost water reservoir,
And a water level controller for shutting off water supply by the external water source when the water level of the water tank reaches the set height.

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