KR20110041451A - Pagora for providing rain water to a planter using rain water and method of constructing the same as - Google Patents

Abstract

PURPOSE: A pergola for supplying rainwater to a planter and an installation method thereof are provided to supply collected water to a planter box when plants planted in the planter need moisture. CONSTITUTION: A pergola for supplying rainwater to a planter comprises a column structure body(10), a planter box(20), a circular bench(30), a roof structure(40), a rainwater supply tube(50), and a wire rope(70). The column structure body having a hollow comprises multiple fastening rings. The planter box comprises an outer side part, an inner side part, and a bottom part. The bottom part seals the bottom of the outer and inner side parts. The bottom part has multiple drain holes(21) on the surface. One or more plants are planted in an inner space of the planter box. The circular bench adheres closely along the outer side of the planter box. The roof structure is fixed to the top end of the column structure body. The roof structure is concavely formed in order to collect the rainwater. The roof structure has a through-hole(41) and multiple fastening rings. The rainwater supply tube discharges rainwater on the ground and a part of the rainwater to the inside of the planter box.

Description

Pagora for Providing Rain Water to a Planter Using Rain Water And Method of Constructing the same as}

The present invention relates to a pagora for supplying rainwater to the plant, and more particularly to a pagora for supplying rainwater to the planter to collect the rainwater falling on the roof of the pagora to be conveniently supplied to the planter box and its installation method It is about.

Pagora generally erects wood or metal poles on the yard or flat roof, secures the roof structure to block sunlight or rainwater on the top of the pole, and provides space for users to rest under the roof structure under the column. It means a structure such as sperm or terrace provided.

Such a pagora can be classified into a circular pagora, a square pagora, a pentagonal pagora, a hexagonal pagora, an octagonal pagora, and the like, and the number of columns is adjusted according to the shape of the roof of the pagora. For example, at least four columns of rectangular pagos should be used, and at least one pillar of circular pagos should be used.

Such a pagora may have additional functions depending on the installation site and installation purpose. For example, at the bottom of the roof structure of the pagora, a user may take off their shoes to rest on the floor, or install a chair or a circular bench where the user can sit while wearing shoes.

In addition, recently, environmentally friendly and environmentally friendly trends have been reflected in building facilities, and thus, planters or planters for planting plants can be placed around the pagora.

However, in order to water the plants planted in the plant where the pagora was placed, the manager had to water each plant periodically using a hose or bucket.

The present invention has been made in order to improve the disadvantages of the prior art described above, an object of the present invention is to collect rainwater falling on the roof of the pagora pagora to supply rainwater to the planter can be easily supplied to the planter box and It is to provide a method of installation thereof.

Another object of the present invention is to collect the rainwater falling on the roof of the pagora, and also to the planter that can be properly supplied to the planter box when the plants planted in the plant need moisture while storing the collected rainwater for a period of time. Pagora for supplying rain water and to provide a method of installation thereof.

The pagora for supplying rainwater to the plant according to the object of the present invention, is fixed and installed in the foundation structure constructed on the ground, the hollow portion having a predetermined diameter in the longitudinal direction therein, a plurality of radially projecting on the upper end A pillar structure 10 having two fastening rings 11 protruding therefrom; An outer side part integrally connected and formed with at least three planar or at least one curved shape side, an inner side part of a shape surrounding an outer surface of the pillar structure 10, and lower ends of the outer and inner side parts; A planter box 20 for planting one or more plants in a receiving space formed therein, the bottom portion having a plurality of drainage holes 21 for discharging rainwater on a surface thereof; A bench 30 installed on the ground to be in close contact with the outer side of the planter box 20 or installed while maintaining a uniform constant space; It is fixed and installed at the upper end of the pillar structure 10 to block sunlight, it is formed radially concave toward the inner center to collect rainwater, through-holes for discharging rainwater collected in the inner center ( 41 is formed, a plurality of fastening rings 43 protruding from the edge portion of the outer edge of the roof structure 40; Branched and extended into the inside of the planter box 20 to discharge the rainwater drained from the drain hole 41 of the roof structure 40 to the ground and to supply a portion of the rainwater into the planter box 20. A rainwater supply pipe 50 in which at least one water supply pipe 51 is formed; And a wire rope 70 for connecting and fixing the fastening ring 11 of the pair of columnar structures 10 and the fastening ring 43 of the roof structure 40 respectively positioned in a straight line.

In addition, the pagora for supplying rainwater to the plant, fixed and installed in the foundation structure constructed on the ground, the hollow portion having a predetermined diameter in the longitudinal direction is formed therein, a plurality of fastening rings 111 protruding radially on the upper end A protruding pillar structure 110; Side surfaces of at least three or more plane shapes or one or more curved shapes are integrally connected and formed, and an outer side portion at which one or more level control holes 121 are formed at a first height, and an outer surface of the pillar structure 110. A planter case (120) formed of an inner side portion having a wrapping shape and a bottom portion sealing the lower end portions of the outer and inner side portions to form an accommodation space therein; The inner side portion, the outer side portion and the bottom portion are formed in a similar shape of a relatively smaller size than the planter case 120 to be inserted and seated in the receiving space of the planter case 120, the plurality of perforations 131 are formed. At least one planter box (130) for planting at least one plant in an accommodation space consisting of inner and outer side portions and a bottom portion; A bench 140 installed on the ground to be in close contact with the outer side of the planter box 130 or installed while maintaining a uniform constant space; It is fixed and installed at the upper end of the pillar structure 110 to block the sunlight, it is formed radially concave toward the inner center to collect rainwater, through-holes for discharging rainwater collected in the inner center ( 151 is formed, and the roof structure 150 having a plurality of fastening rings 153 protruding from the edge portion of the outer edge; The planter box 130 may discharge rainwater drained from the drain hole 151 of the roof structure 150 to the inside of the planter case 120 and simultaneously supply a portion of the rainwater to the inside of the planter box 130. A rainwater supply pipe 160 formed with at least one water supply pipe 161 branched and extended into the interior of the water supply pipe 160; A wire rope 180 connecting and fixing the fastening ring 111 of the pair of columnar structures 110 and the fastening ring 153 of the roof structure 150 respectively positioned in a straight line; It is fixed to the bottom of the planter box 130 includes a water absorbing member 190 to absorb the rain water stored in the inside of the planter case 120 to supply to the inside of the planter box (130).

In addition, the installation method of the pagora for supplying rainwater to the plant for achieving the object of the present invention, the step of placing the planter box on the top of the base concrete; Connecting and fixing the roof structure to the top of the column structure using a wire rope; Positioning the column structure on which the roof structure is fixed to an upper portion of the foundation concrete through an inside from an upper portion of the planter box; Fixing the lower end of the pillar structure to the upper end of the foundation concrete in a state in which the planter box is raised and temporarily fixed along the pillar structure to an upper predetermined position; Fixing and assembling the inner side portion and the bottom plate to be integral with the outer side portion of the planter box in a state in which the temporarily fixed planter box is laid down and supported on the ground; Installing an end of a branch and an extended water supply pipe in the rainwater supply pipe extending from the roof structure to face the inside of the planter box; Planting one or more plants inside the planter box; And installing the circular circular bench to be in close contact with the outer circumferential surface of the planter box or to maintain a uniform distance.

When rainwater falls on the roof structure, the rainwater is collected and discharged to the ground, and a portion of the rainwater is supplied to the inside of the planter box in which the plant is planted.

In addition, the installation method of the pagora for supplying rainwater to the planter, the method comprising the steps of placing the planter case on the upper portion of the base concrete; Connecting and fixing the roof structure to the top of the column structure using a wire rope; Positioning the column structure on which the roof structure is fixed to an upper portion of the foundation concrete through an inside from an upper portion of the plant case; Fixing the planter case to an upper end of the foundation concrete while the planter case is raised and temporarily fixed to an upper predetermined position along the column structure; Fixing and assembling the inner side portion and the bottom plate to be integral with the outer side portion of the planter case while the temporarily fixed planter case is laid down and supported on the ground; Inserting one or more planter boxes for planting plants into the inside of the planter case; Installing an end of a branch and an extended water supply pipe in the rainwater supply pipe extending from the roof structure to face the inside of the planter box through the plant case; Planting at least one plant inside the at least one planter box; And installing the circular circular bench to be in close contact with the outer circumferential surface of the planter box or to maintain a uniform distance.

When rainwater falls on the roof structure, the rainwater is collected and stored in the plant case, and a portion of the rainwater is supplied into the planter box in which the plant is planted, and the rainwater stored in the plant case is preset. When stored up to the height it is characterized in that further rain water is discharged to the ground.

The pagora for supplying rainwater to the plant described above and its installation method has the following effects.

First, rainwater falling on the roof of the pagora during the rainy season or rainy days can be easily supplied to the planter box located at the bottom of the roof of the pagora.

Therefore, the manager of the planter box will not have to water the plants planted in the planter box provided in the pagora during the rainy season.

Second, collect rainwater that falls on the roof of the pagora during the rainy season or rainy days, and store rainwater at the bottom of the planter box for a period of time, so that when planted in the planter box needs moisture, Can supply

Thus, the planter box manager will not have to water the planter planted plant for a period of time once it rains.

In addition, the user can remove the planter box planted with the plant from the planter case and move it conveniently as needed, so that it can be easily exposed to sunlight, and can be easily worked in a convenient place when planting the plant again. have.

1 is a perspective view of a pagora for supplying rainwater to the plant according to the first embodiment of the present invention.
2 is a cross-sectional view of a pagora for supplying rainwater to the plant according to the first embodiment of the present invention.
3 is a control flowchart illustrating an installation procedure of a pagora for supplying rainwater to the plant according to the first embodiment of the present invention.
4 is a perspective view of a pagora for supplying rainwater to the plant according to the second embodiment of the present invention.
5 is a cross-sectional view of the pagora supplying rainwater to the plant according to the second embodiment of the present invention and a cross-sectional view of the plant case and planter box.
6 is a control flowchart illustrating an installation procedure of a pagora for supplying rainwater to a plant according to a second embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, it will be described the configuration of the pagora supplying water to plants planted in the plant utilizing the rainwater according to the present invention and its installation procedure.

First embodiment

1 is a perspective view of a pagora for supplying rainwater to the plant according to the first embodiment of the present invention, Figure 2 is a cross-sectional view of a pagora for supplying rainwater to the plant according to the first embodiment of the present invention.

1 and 2, the pagora for supplying water to the plant planted in the plant utilizing the rainwater according to the present invention, is fixed and installed in the foundation structure constructed on the ground, the predetermined diameter in the longitudinal direction therein The hollow portion is formed, the outer structure in which the column structure 10 is formed with a plurality of fastening ring 11 protruding radially on the upper end and the side of the planar shape or at least one curved shape of at least three or more surfaces integrally connected and formed It consists of a side portion, the inner side portion of the shape surrounding the outer surface of the pillar structure 10, and the bottom portion sealing the lower end of the outer and inner side portion, the bottom portion formed with a plurality of drain holes 21 for discharging rainwater on the surface, Planter box 20 for planting one or more plants in the formed receiving space, and is installed on the ground to be in close contact along the outer side of the planter box 20, The bench 30 is installed while maintaining a certain space, and is fixed and installed at the upper end of the column structure 10 to block the sunlight, it is formed radially concave toward the inner center to collect rainwater, A through hole 41 for discharging rainwater collected in the inner center is formed, and a roof structure 40 having a plurality of fastening rings 43 protruding from an edge portion of the outer edge thereof, and a drain hole of the roof structure 40 ( Rainwater drained at 41 and discharged to the ground at the same time the rainwater is formed with at least one water supply pipe 51 branched and extended into the inside of the planter box 20 to supply a portion of the rainwater into the planter box 20 It consists of a supply pipe 50 and a wire rope 70 for connecting and fixing the fastening ring 11 of the pair of columnar structures 10 and the fastening ring 43 of the roof structure 40 respectively located in a straight line. .

Here, the pillar structure 10 is preferably fastened and fixed with bolts to anchors fixed to the concrete structure constructed on the ground, as shown in Figs.

In addition, the roof structure 40 is installed in a state in which a predetermined length is inserted into the upper end of the column structure 10 to block sunlight and rain water, as shown in Figure 1 and 2, Since the inner center is concave, the rainwater falling to the outside of the roof structure 40 can be easily collected, and the rainwater collected in the roof structure 40 is an excellent supply pipe through the through hole 41 of the roof structure 40. It is discharged to the ground through 50.

At this time, it is preferable that the filter 53 for filtering foreign matter or solid matter contained in the rainwater is installed at the lower end of the through-hole 41 of the roof structure 40.

In addition, the stems of plants planted in the planter box 20 are fixed and supported on the outer circumferential surface of the pillar structure 10 and the bottom surface of the planter box 20 respectively corresponding to the upper end of the planter box 20. The supporting vine plant trellis 60 is fixed.

1 and 2, the planter box 20 is preferably formed in a shape corresponding to the shape of the roof structure 40, and in one embodiment of the present invention, the shape of the roof structure 40 Since it is circular, it is preferable that the shape of the planter box 20 is also made from a circular structure.

Circular circular bench 30 is closely attached along the outer side of the planter box 20 to allow users to sit looking outwards so that the planter box 20 is positioned behind the back, as shown in FIGS. 1 and 2. Can be installed. Reference numeral 31 in the drawings is a handle fixed to the top of the circular circular bench (30).

In addition, on the contrary, it may be installed on the ground while maintaining a uniform constant distance from the plant box 20 so that users can sit while looking at the plant box 20.

In addition, the rainwater supply pipe 50 is extended to the ground to discharge the rainwater drained from the through-hole 41 of the roof structure 40 to the ground, as shown in Figure 2 and at the same time corresponding to the planter box 20 One or more water supply pipes 51 branch and extend from the rainwater supply pipe 50 to supply a portion of the rainwater to the inside of the planter box 20 in position.

However, in the first embodiment of the present invention, but the end portion of the rain water supply pipe 50 is formed to extend only to the planter box 20, it will be preferable to be formed to be discharged to the ground and the inside of the planter box 20 at the same time.

The number and diameter of the water supply pipe 51 and the branch angle may be adjusted according to the amount of rainwater supplied to the inside of the planter box 20.

In the first embodiment of the present invention, the roof structure 40, the planter box 20 and the circular circular bench 30 are all formed as a circular structure, and only one column structure 10 supporting the roof structure 40 is also present. Was used.

However, if the shape of the roof structure is changed to square, pentagonal, hexagonal or octagonal, it will be desirable to change the shape of the planter box and the circular circular bench.

Hereinafter, with reference to the accompanying drawings will be described the installation procedure of the pagora for supplying rainwater to the plant according to the first embodiment of the present invention.

First, the worker performs the digging work at the place to install the pagora (S11). The area and depth of the trench are preferably performed in consideration of the size of the pagora to be installed and the weight of the column structure.

Subsequently, the worker constructs a water pipe and a drainage facility in the place where the excavation work is completed (S12).

Subsequently, the worker pours the foundation concrete on top of the soil compacted through the digging operation (S13). At this time, a plurality of anchors (not shown) are inserted and fixed to a predetermined depth in the upper portion of the foundation concrete.

Subsequently, the worker places the circular planter box 20 on the top of the foundation concrete (S14). At this time, the planter box 20 is not a completed state, only the inner side of the cylindrical shape and the outer side of the cylindrical shape that is not fixed to the bottom plate is a single piece.

Subsequently, the worker wires a pair of rings in which a plurality of rings 43 protruding from the upper portion of the roof structure 40 and a plurality of rings 11 protruding and fixed to the top of the pillar structure 10 are formed in a straight line. The ropes 70 are connected and fixed respectively (S15).

Subsequently, the worker places the pillar structure 10 to which the roof structure 40 is connected and fixed to the upper portion of the foundation concrete through the inside of the planter box 20 (S16).

Subsequently, the worker lifts the planter box 20 along the columnar structure 10 to a predetermined position in the upper part and temporarily fixes the lower part of the columnar structure 10. Fixed using (S17).

Subsequently, the worker puts down the temporarily fixed planter box 20 to be seated and supported on the ground, and assembles using a welding technique so that the inner side portion and the bottom plate are integral with the outer side portion (S18).

The inner side portion is formed with a through hole for penetrating through the water supply pipe 51 branched from the rainwater supply pipe 50 at a corresponding height of the planter box 20.

Accordingly, the operator of the water supply pipe 51 branched and extended from the rainwater supply pipe 50 inserted and fixed to the hollow formed in the pillar structure 10 through the through hole formed in the inner side portion of the planter box 20. The end portion is installed to face the inside of the planter box 20 (S19).

Subsequently, the worker lays a drain board funnel and a nonwoven fabric inside the planter box 20 and fills soil suitable for the growth of the plant to be planted and simultaneously plant one or more plants (S20).

Subsequently, the worker installs the circular circular circular bench 30 to be in close contact with the outer circumferential surface of the printer box 20 or uniformly maintains the predetermined distance (S21).

According to the first embodiment of the present invention described above, it is understood that rainwater dropped on the roof of the pagora is easily collected by the roof structure, is discharged to the ground through the rainwater supply pipe, and a part thereof is easily supplied to the planter box. Can be.

Second embodiment

4 is a perspective view of a pagora for supplying rainwater to the plant according to the second embodiment of the present invention, Figure 5 is a cross-sectional view and a plant case of a pagora for supplying rainwater to the plant according to the second embodiment of the present invention And sectional view of the planter box.

4 and 5, the pagora for supplying rainwater to the plant according to the second embodiment of the present invention, is fixed and installed on the foundation structure constructed on the ground, the hollow portion having a predetermined diameter in the longitudinal direction therein Is formed, the pillar structure 110 is formed with a plurality of fastening ring 111 protruding radially on the upper end, and at least three or more plane shape or one or more sides of the curved surface is integrally connected and formed, the first height The outer side portion is formed in the at least one water level control hole 121, the inner side portion of the shape surrounding the outer surface of the columnar structure 110, and the lower end of the outer and inner side portion plan to form a receiving space therein It is formed in a similar shape of a relatively smaller size than the planter case 120 to be inserted and seated in the rotor case 120 and the receiving space of the planter case 120, At least one planter box 130 having an inner side portion, an outer side portion, and a bottom portion having a perforated hole 131 formed therein for planting at least one or more plants in a receiving space consisting of inner and outer side portions and a bottom portion; It is installed on the ground to be in close contact with the outer side of the box 130 or the bench 140 is installed while maintaining a uniform constant space, and fixed and installed on the upper end of the column structure 110 to block sunlight, It is formed radially concave toward the inner center to collect rainwater, the through-hole 151 for discharging the rainwater collected in the inner center is formed, a plurality of fastening rings 153 on the edge of the outer edge The projected roof structure 150 and the rainwater drained from the drain hole 151 of the roof structure 150 are discharged into the plant case 120 and at the same time, Rainwater supply pipe 160 formed with one or more water supply pipes 161 branched and extended to the inside of the planter box 130 to supply a portion to the inside of the planter box 130, and a pair of pillar structures positioned in a straight line. A wire rope 180 for connecting and fixing the fastening ring 111 of the 110 and the fastening ring 153 of the roof structure 150, respectively, and is fixed to the bottom surface of the planter box 130 to be planter case 120. It consists of a moisture absorbing member 190 to absorb the rain water stored in the inside of the plant box 130 to supply.

Here, the pillar structure 110 is preferably fastened and fixed with bolts to anchors fixed to concrete structures constructed on the ground, as shown in FIGS.

In addition, the roof structure 150 is installed in the state inserted into the upper end of the column structure 110 to block sunlight and rain water, as shown in Figures 4 and 5, the inner center of the roof structure 150 Has a concave shape, it is possible to easily collect rainwater falling to the outside of the roof structure 150, rainwater collected in the roof structure 150 is rainwater supply pipe 160 through the through-hole 151 of the roof structure 150 Through) is discharged into the inside of the planter case 120.

At this time, it is preferable that a filter 163 for filtering foreign matter or solid matter contained in rainwater is installed at the lower end of the through-hole 151 of the roof structure 150.

In addition, the outer circumferential surface of the column structure 110 and the bottom of the planter case 120 corresponding to the upper end of the planter case 120 are fixed and supported, respectively, to support the stems of plants planted in the planter case 120. The vine plant trellis 170 is fixed.

4 and 5, the planter case 120 and the planter box 130 are preferably formed in a shape corresponding to the shape of the roof structure 150, and in one embodiment of the present invention, Since the shape of the roof structure 150 is circular, it is preferable that each shape of the planter case 120 and the planter box 130 is also made of a circular structure.

The planter case 120 is formed of both the inner and outer side portions and the bottom portion are assembled in a sealed type, and the water level adjusting hole 121 for forcibly discharging rainwater at a predetermined height of the outer surface of the planter case 120 is formed. Therefore, when rainwater is continuously introduced through the rainwater supply pipe 160, rainwater introduced into the plant case 120 is stored only up to the height of the water level adjusting hole 121, and more is discharged to the ground.

However, in the second embodiment of the present invention, but the end portion of the rain water supply pipe 160 is formed to extend only to the planter case 120, it may be preferably formed to be discharged to the ground and the inside of the planter case 120 at the same time.

Therefore, when the humidity of the soil in the inside of the planter box 130 is relatively dry, the rain water stored in the planter case 120 through the water absorbing member 190 fixed to the bottom of the planter box 130 It may be absorbed into the planter box 130.

In the second embodiment of the present invention, the moisture absorbing member 190 may use any material capable of sucking moisture such as a nonwoven fabric, a cloth, or the like.

Circular circular bench 140 is in close contact with the outer side of the planter case 120 so that users can sit looking outward to position the planter case 120 behind, as shown in FIGS. 4 and 5. Can be installed. In the drawings, reference numeral 131 denotes a handle fixed to an upper portion of the circular circular bench 130.

In addition, on the contrary, it may be installed on the ground while maintaining a uniform constant distance from the plant case 120 so that users can sit while looking at the plant case 120.

In addition, as shown in FIG. 5, the rainwater supply pipe 160 extends to the ground to discharge the rainwater drained from the through hole 151 of the roof structure 150 to the ground and corresponds to the planter box 130. One or more water supply pipes 161 branch and extend from the rainwater supply pipe 160 to supply a portion of the rainwater into the planter box 130 at a location.

In the second embodiment of the present invention, the roof structure 150, the planter case 120, the planter box 130, and the circular bench 140 are all formed of a circular structure, and the pillar supporting the roof structure 150. Only one structure 110 was used.

However, if the shape of the roof structure is changed to square, pentagonal, hexagonal or octagonal, it will be desirable to change the shape of the planter box and the circular bench.

Hereinafter, with reference to the accompanying drawings will be described the installation procedure of the pagora for supplying rainwater to the plant according to the second embodiment of the present invention.

First, the worker performs the digging work at the place to install the pagora (S111). The area and depth of the trench are preferably performed in consideration of the size of the pagora to be installed and the weight of the column structure.

Subsequently, the worker constructs a water pipe and a drainage facility in the place where the excavation work is completed (S112).

Subsequently, the worker pours the foundation concrete on the top of the soil compacted through the digging operation (S113). At this time, a plurality of anchors (not shown) are inserted and fixed to a predetermined depth in the upper portion of the foundation concrete.

Subsequently, the worker places the circular plant case 120 on the top of the foundation concrete (S114). At this time, the planter case 120 is not a completed state, only the inner side of the cylindrical shape and the outer side of the cylindrical shape that is not fixed to the bottom plate is a single piece form.

Subsequently, the worker wires a pair of rings in which a plurality of rings 153 protruding from the upper portion of the roof structure 150 and a plurality of rings 111 protruding and fixed to the top of the pillar structure 110 form a straight line. The ropes 180 are connected and fixed, respectively (S115).

Subsequently, the worker places the pillar structure 110 to which the roof structure 150 is connected and fixed to the upper portion of the foundation concrete through the inside of the planter case 120 (S116).

Subsequently, the worker raises the planter case 120 along the column structure 110 to a predetermined position in the upper part and temporarily fixes the lower part of the column structure 110 with an anchor and bolt protruding from the upper part of the foundation concrete. Fixed using (S117).

Subsequently, the worker puts down the temporarily fixed planter case 120 to be seated and supported on the ground, and assembles using a welding technique to integrate the inner side portion and the bottom plate in the outer side portion (S118).

Subsequently, the worker inserts one or more planter boxes 130 into the planter case 120 (S119). At this time, since the support-type protrusions 132 protrude downwardly from the bottom of the planter box 130, the planter box 130 maintains a constant distance from the bottom of the planter case 120.

At this time, the water supply pipe 161 branched and extended from the rainwater supply pipe 160 at a corresponding height of the plant case 120 at a predetermined position of each inner side of the planter case 120 and the planter box 130. Through holes for penetrating are formed, respectively.

Therefore, the worker in the rainwater supply pipe 160 is inserted and fixed to the hollow formed in the interior of the pillar structure 110 through the through holes formed in the inner side of each of the planter case 120 and the planter box 130 The end of the branch and the extended water supply pipe 161 is installed to face the inside of the planter box 120 through the planter case 130 (S120).

Subsequently, the worker installs the circular circular bench 30 to be in close contact with the outer circumferential surface of the printer case 120 or installs to maintain a uniform distance apart (S121).

According to the second embodiment of the present invention described above, rainwater dropped on the roof of the pagora is easily collected by the roof structure, and is stored up to a height at which the discharge hole is formed in the planter case through the rainwater supply pipe, and a part of the planter is stored. It is easily supplied to the box, and when a larger amount of rainwater is introduced than the height of the discharge hole, the rainwater is not stored and is discharged to the ground through the discharge hole.

10, 110: columnar structure
20, 130: Planter Box
120: planter case
30, 140: round bench
40, 150: roof structure
50, 160: rainwater supply pipe
60, 170: Vine Plant Support
70, 180: wire rope
190: water supply pipe
200: moisture absorbing member

Claims (4)

A pillar structure 10 fixed and installed on a foundation structure constructed on the ground, and having a hollow portion having a predetermined diameter in the longitudinal direction, and having a plurality of fastening rings 11 protruding radially from the upper end thereof;
An outer side part integrally connected and formed with at least three planar or at least one curved shape side, an inner side part of a shape surrounding an outer surface of the pillar structure 10, and lower ends of the outer and inner side parts; A planter box 20 for planting one or more plants in a receiving space formed therein, the bottom portion having a plurality of drainage holes 21 for discharging rainwater on a surface thereof;
A circular bench 30 installed on the ground to be in close contact with the outer side of the planter box 20 or installed while maintaining a uniform constant space;
It is fixed and installed at the upper end of the pillar structure 10 to block sunlight, it is formed radially concave toward the inner center to collect rainwater, through-holes for discharging rainwater collected in the inner center ( 41 is formed, a plurality of fastening rings 43 protruding from the edge portion of the outer edge of the roof structure 40;
Branched and extended into the inside of the planter box 20 to discharge the rainwater drained from the drain hole 41 of the roof structure 40 to the ground and to supply a portion of the rainwater into the planter box 20. A rainwater supply pipe 50 in which at least one water supply pipe 51 is formed;
The plan characterized in that it comprises a wire rope 70 for connecting and fixing the fastening ring 11 of the pair of columnar structure 10 and the fastening ring 43 of the roof structure 40 positioned in a straight line, respectively. Pagoda to supply rainwater to the site. A pillar structure 110 fixed and installed on the foundation structure installed on the ground, and having a hollow portion having a predetermined diameter in the longitudinal direction, and having a plurality of fastening rings 111 protruding radially from the upper end thereof;
Side surfaces of at least three or more plane shapes or one or more curved shapes are integrally connected and formed, and an outer side portion at which one or more level control holes 121 are formed at a first height, and an outer surface of the pillar structure 110. A planter case (120) formed of an inner side portion having a wrapping shape and a bottom portion sealing the lower end portions of the outer and inner side portions to form an accommodation space therein;
The inner side portion, the outer side portion and the bottom portion are formed in a similar shape of a relatively smaller size than the planter case 120 to be inserted and seated in the receiving space of the planter case 120, the plurality of perforations 131 are formed. At least one planter box (130) for planting at least one plant in an accommodation space consisting of inner and outer side portions and a bottom portion;
A bench 140 installed on the ground to be in close contact with the outer side of the planter box 130 or installed while maintaining a uniform constant space;
It is fixed and installed at the upper end of the pillar structure 110 to block the sunlight, it is formed radially concave toward the inner center to collect rainwater, through-holes for discharging rainwater collected in the inner center ( 151 is formed, and the roof structure 150 having a plurality of fastening rings 153 protruding from the edge portion of the outer edge;
The planter box 130 may discharge rainwater drained from the drain hole 151 of the roof structure 150 to the inside of the planter case 120 and simultaneously supply a portion of the rainwater to the inside of the planter box 130. A rainwater supply pipe 160 formed with at least one water supply pipe 161 branched and extended into the interior of the water supply pipe 160;
A wire rope 180 connecting and fixing the fastening ring 111 of the pair of columnar structures 110 and the fastening ring 153 of the roof structure 150 respectively positioned in a straight line;
It is fixed to the bottom of the planter box 130, characterized in that it comprises a moisture absorbing member 190 to absorb the rain water stored in the inside of the planter case 120 to supply to the inside of the planter box (130) Pagora to supply rainwater to the planter. Placing the planter box on top of the foundation concrete;
Connecting and fixing the roof structure to the top of the column structure using a wire rope;
Positioning the column structure on which the roof structure is fixed to an upper portion of the foundation concrete through an inside from an upper portion of the planter box;
Fixing the lower end of the pillar structure to the upper end of the foundation concrete in a state in which the planter box is raised and temporarily fixed along the pillar structure to an upper predetermined position;
Fixing and assembling the inner side portion and the bottom plate to be integral with the outer side portion of the planter box in a state in which the temporarily fixed planter box is laid down and supported on the ground;
Installing an end of a branch and an extended water supply pipe in the rainwater supply pipe extending from the roof structure to face the inside of the planter box;
Planting one or more plants inside the planter box;
And installing the circular bench to be in close contact with the outer circumferential surface of the planter box or to maintain a uniform distance apart.
When rainwater falls on the roof structure, the method of installing a pagora for supplying rainwater to the plant, characterized in that the rainwater is collected and discharged to the ground and at the same time a portion of the rainwater is supplied into the planter box planted with plants. . Placing the planter case on top of the foundation concrete;
Connecting and fixing the roof structure to the top of the column structure using a wire rope;
Positioning the column structure on which the roof structure is fixed to an upper portion of the foundation concrete through an inside from an upper portion of the plant case;
Fixing the planter case to an upper end of the foundation concrete while the planter case is raised and temporarily fixed to an upper predetermined position along the column structure;
Fixing and assembling the inner side portion and the bottom plate to be integral with the outer side portion of the planter case while the temporarily fixed planter case is laid down and supported on the ground;
Inserting one or more planter boxes for planting plants into the inside of the planter case;
Installing an end of a branch and an extended water supply pipe in the rainwater supply pipe extending from the roof structure to face the inside of the planter box through the plant case;
Planting at least one plant inside the at least one planter box;
And installing the circular bench to be in close contact with the outer circumferential surface of the planter box or to maintain a uniform distance apart.
When rainwater falls on the roof structure, the rainwater is collected and stored in the plant case, and a portion of the rainwater is supplied into the planter box in which the plant is planted, and the rainwater stored in the plant case is preset. The method of installing a pagora for supplying rainwater to the plant, characterized in that when the rain is stored up to the higher rainwater is discharged to the ground.

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