WO2018155870A1

WO2018155870A1 - Wall surface afforesting structure using carbonized cork

Info

Publication number: WO2018155870A1
Application number: PCT/KR2018/002025
Authority: WO
Inventors: 김형준; 오동국
Original assignee: 주식회사 아시아코르크
Priority date: 2017-02-21
Filing date: 2018-02-19
Publication date: 2018-08-30
Also published as: KR101757854B1

Abstract

The present invention relates to a wall surface afforesting structure using carbonized cork having a novel structure capable of effectively afforesting a wall surface. The wall surface afforesting structure using carbonized cork, according to the present invention, comprises: a support panel (10), which is made of a carbonized cork material, is formed such that a plurality of coupling holes (11) to which flowerpots (1) are coupled penetrate the front and rear surfaces thereof, has, on an upper surface thereof, a reservoir groove (12) to which water is supplied, and has, on a rear side surface thereof, water supply grooves (13) connected to the reservoir groove (12) while vertically crossing the coupling holes (11); a blocking plate (20) coupled to the rear side surface of the support panel (10) so as to block a rear side surface of the coupling holes (11); and water supply members (30) which are inserted into the water supply grooves (13) of the support panel (10), and of which the upper ends extend to the inside of the reservoir groove (12) such that water supplied to the reservoir groove (12) is supplied to the flowerpots (1) coupled to the coupling holes (11), wherein protrusions (21) roundedly protruding to the front so as to correspond to the coupling holes (11) are formed on the front surface of the blocking plate (20), recessed grooves (3) corresponding to the protrusions (21) are formed on bottom surfaces of the flowerpots (1) and the recessed grooves (3) have water supply holes (4), and the water supply members (30) are made of a fiber material and are arranged so as to pass between the protrusions (21) and the water supply grooves (13), such that while water supplied to the reservoir groove (12) flows down to the lower side along the water supply members (30), water can be supplied to plants planted in the flowerpots (1) through the water supply holes (4) of the flowerpots (1) coupled to the coupling holes (11). Therefore, since water can be uniformly supplied to the plurality of flowerpots (1) coupled to the plurality of coupling holes (11) formed to be vertically spaced apart, management is very easily performed.

Description

Wall Recording Structure Using Carbonized Cork

The present invention relates to a wall greening structure using a carbide cork of a new structure that can effectively record the wall surface.

Recently, various methods for decorating the inner and outer wall surfaces of a building have been developed and widely used.

However, these methods have a very monotonous problem because the interior panel is attached to the interior or outdoor side wall of the building.

In recent years, a method of decorating the inner and outer wall surfaces by fixing a plurality of pots on inner and outer sides of a building has been developed, but in this case, it is very troublesome to supply water to vegetation plants in pots.

This problem occurred equally when recording all kinds of walls including retaining walls as well as inner and outer walls of a building.

Therefore, there is a need for a new method to solve this problem.

Prior documents related to the technical field of the present invention include Korean Utility Model Registration No. 20-0476518.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object thereof is to provide a wall greening structure using a carbonized cork having a new structure that enables the wall surface to be effectively recorded.

The present invention for achieving the above object, a plurality of coupling holes 11 are coupled to the flower pot 1 is formed so as to penetrate the front and rear surface and the water storage groove 12 is formed on the upper surface is formed on the rear side It is coupled to the support panel 10 of the carbonized cork material and the rear side surface of the support panel 10 formed with a water supply groove 13 connected to the water storage groove 12 to traverse the coupling hole 11 in the vertical direction. The blocking plate 20 blocking the rear side of the coupling hole 11 and the water supply groove 13 of the support panel 10 and the upper end of the coupling hole 11 are extended into the storage groove 12 so that the storage groove ( 12 is provided with a wall greening structure using a carbonized carbide, characterized in that it comprises a water supply member 30 to be supplied to the potted plant (1) coupled to the coupling hole (11).

According to another feature of the invention, the front of the blocking plate 20 is formed with a protrusion 21 protruding forward round to correspond to the coupling hole 11, the bottom surface of the pot (1) A concave groove 3 corresponding to the protrusion 21 is formed, and a water supply hole 4 is formed in the concave groove 3, and the water supply member 30 is made of a fiber material, and the protrusion 21 and the water supply It is arranged to pass between the grooves 13, the water supply hole of the potted plant (1) coupled to the coupling hole 11 while the water supplied to the reservoir groove 12 flows downward along the water supply member (30) Through (4) is provided a wall greening structure using a carbonized cork, characterized in that to supply water to the vegetation plant in the pot (1).

According to another feature of the invention, the water supply pipe 40 is connected to the reservoir groove 12 to supply water to the reservoir groove 12, the upper surface of the lower end of the support panel 10 and the blocking plate 20 An opening 51 is formed to be coupled thereto and a support member 50 having a water collecting portion 52 for storing water flowing down through the water supply member 30 and extending from the water collecting portion 52. And a circulation pipe 60 connected to an intermediate portion of the water supply pipe 40 and an intermediate portion of the circulation pipe 60 to store water stored in the water collecting portion 52 through the water supply pipe 40. 12) there is provided a wall greening structure using a carbonized cork, characterized in that it further comprises a circulation pump 70 for supplying.

According to another feature of the invention, the blocking plate 20 is formed so that a plurality of through-holes 22 penetrating the front and rear surface is located below the protrusion 21, the front and rear in the through-hole 22 The pressing member 81 and the pressing member 81 which protrudes forward of the blocking plate 20 to move forward and pressurize the middle part of the water supply member 30 to prevent water from flowing downward. Front and rear driving means 82 is connected to the rear end for advancing the pressing member 81 forward and backward, and the humidity measuring means (83) provided inside the pot (1) to measure the humidity of the pot (1) And control means 84 for receiving the signal of the humidity measuring means 83 and controlling the operation of the forward and backward driving means 82, the control means 84 being the humidity measuring means 83. Receiving a signal of) when the humidity inside each pot 1 is lowered below a predetermined humidity, By controlling the operation of the forward and backward driving means 82 located at the rear of the pot (1) to advance the pressing member 81, to selectively supply a large amount of water into the dried pot (1) Provided is a wall recording structure using carbonized cork.

According to the wall greening structure using the carbonized cork according to the present invention, a plurality of coupling holes (11) to which the potted plant (1) is formed so as to pass through the front and rear surfaces and the water reservoir (12) is formed on the upper surface is supplied with water The rear side surface of the support panel 10 of the carbonized cork material having a water supply groove 13 connected to the water storage groove 12 and crossing the coupling hole 11 in the vertical direction, and the rear side surface of the support panel 10. It is coupled to the blocking plate 20 to block the rear side of the coupling hole 11, and is inserted into the water supply groove 13 of the support panel 10 and the upper end is extended to the inside of the reservoir groove 12 It is composed of a water supply member 30 so that the water supplied to the reservoir groove 12 is supplied to the potted plant 1 coupled to the coupling hole 11, the coupling hole 11 on the front surface of the blocking plate (20). Protruding portion 21 protruding rounded forward to correspond to the () is formed, the protruding portion on the bottom surface of the pot (1) A concave groove 3 corresponding to the portion 21 is formed, and a water supply hole 4 is formed in the concave groove 3, and the water supply member 30 is made of a fiber material, and the protrusion 21 and the water supply It is arranged to pass between the grooves 13, the water supply hole of the potted plant (1) coupled to the coupling hole 11 while the water supplied to the reservoir groove 12 flows downward along the water supply member (30) (4) is configured to supply water to the vegetation planted in the pot (1).

Therefore, since the water can be uniformly supplied to the plurality of pots 1 coupled to the plurality of coupling holes 11 formed to be spaced apart in the vertical direction, there is an advantage that management is very easy.

1 is a perspective view showing a wall recording structure using a carbonized cork according to the present invention,

Figure 2 is an exploded perspective view showing a wall recording structure using a carbonized cork according to the present invention,

Figure 3 is a side cross-sectional view showing a wall recording structure using a carbonized cork according to the present invention,

Figure 4 is an enlarged side cross-sectional view showing the main portion of the wall recording structure using the carbonized cork according to the present invention,

Figure 5 is a side cross-sectional view showing an exploded state of the wall recording structure using the carbonized cork according to the present invention,

Figure 6 is a side cross-sectional view showing a second embodiment of the wall recording structure using the carbonized cork according to the present invention,

Figure 7 is an enlarged side cross-sectional view showing the main part of the second embodiment of the wall recording structure using the carbonized cork according to the present invention;

8 is a circuit diagram showing a second embodiment of the wall recording structure using cork carbide according to the present invention;

9 is a reference diagram showing the operation of the second embodiment of the wall recording structure using the carbonized cork according to the present invention,

10 is a reference diagram showing a modification of the wall recording structure using the carbonized cork according to the present invention.

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

1 to 5 illustrate a wall greening structure using cork carbide according to the present invention, a plurality of coupling holes 11 to which the flower pot 1 is coupled are formed to penetrate the front and rear surfaces and water is supplied to the upper surface. A support panel 10 having a reservoir 12 formed thereon and a water supply groove 13 formed at a rear side thereof, and a blocking plate coupled to a rear side of the support panel 10 to block a rear side of the coupling hole 11. 20 and water is inserted into the water supply groove 13 of the support panel 10 and the upper end extends into the water storage groove 12 so that the water supplied to the water storage groove 12 is coupled to the coupling hole 11. A water supply member 30 to be supplied to the pot 1 coupled to the water supply pipe, a water supply pipe 40 connected to the water storage groove 12 to supply water to the water storage groove 12, and an upper surface of the support panel 10. ) And an opening 51 to which the lower end of the blocking plate 20 is coupled is formed therein to store water flowing down through the water supply member 30. A support member 50 having a collecting portion 52 formed therein, a circulation pipe 60 extending from the collecting portion 52 and connected to an intermediate portion of the water supply pipe 40, and an intermediate portion of the circulation tube 60; It is composed of a circulation pump 70 for supplying the water stored in the water collecting portion 52 to the reservoir groove 12 through the water supply pipe 40.

To explain this in detail, the pollen 1 is a short orchid or the like, the vegetation member (2) is required to grow the plant inside.

The support panel 10 is made of a carbonized cork material produced by carbonizing cork.

The reservoir groove 12 is formed to be concave to open to the upper side and the rear side on the upper surface of the support panel 10.

The water supply groove 13 is formed so as to cross the rear end of the coupling hole 11 in the vertical direction, the upper end is extended to the reservoir groove 12, as shown in Figure 3 and 4, the reservoir groove The water stored in the interior of the 12 is configured to flow downward along the water supply groove (13).

The blocking plate 20 is made of a synthetic resin such as acrylic is fixed to the rear side of the support panel 10, it is configured to block the rear of the reservoir groove 12 and the water supply groove (13).

The water supply member 30 is a flexible fiber wire, the middle portion is arranged to pass through the interior of the coupling hole 11 in the vertical direction, the flow of water flowing down along the water supply groove 13 Adjust

That is, the water stored in the reservoir 12 flows downward along the water supply member 30, in which case, as will be described later, a part of the water is connected to the coupling hole 11 of the upper pot (1) And the remaining water flows downward along the water supply groove 13 to be supplied to the pot 1 formed in the lower coupling hole 11, thereby being coupled to the coupling hole 11 formed to be spaced apart in the vertical direction. The water is supplied uniformly to several pots (1).

At this time, the front of the blocking plate 20 is formed with a protrusion 21 protruding forward round so as to correspond to the coupling hole 11, the bottom surface of the pot (1) corresponds to the protrusion 21 A concave groove 3 is formed, and a plurality of water supply holes 4 are formed in the concave groove 3 so as to penetrate the inside and outside of the flower pot 1, so that the flower pot 1 is supported by the support panel 10. When coupled to the coupling hole 11, the protrusion 21 is configured to be inserted into the recessed groove (3) of the flower pot (1).

In addition, the water supply member 30 is disposed such that an intermediate portion passes between the protrusion 21 and the concave groove 3, and is in close contact with the rear side surface of the concave groove 3 by the protrusion 21. .

Accordingly, the water flowing downward along the water supply member 30 passes through the protrusion 21 and the recessed groove 3 as shown in FIGS. 3 and 4, and the protrusion 21 and the recessed groove. After flowing out the gap between (3), it is supplied to the inside of the pot 1 through the water supply hole 4 of the concave groove (3).

The water supply pipe 40 is provided with a valve 41 in the middle portion is configured to supply a predetermined level of water to the reservoir groove (12).

The support member 50 is composed of a high strength concrete or synthetic resin material, is coupled to the lower side of the support panel 10 and the blocking plate 20, to support the support panel 10 and the blocking plate 20. At the same time, the water supplied to the pot 1 in the water flowing down through the water supply member 30 and to function to store the remaining water.

Accordingly, the water supply member 30 is coupled to the water supply groove 13 of the support panel 10, and the support panel 10 is coupled to the rear surface of the support panel 10. ) And the support member 50 at the lower end of the blocking plate 20, and by fixing the assembled panel to the wall surface, it is possible to construct a wall greening structure using the carbonized cork.

At this time, the water supply member 30 by using a flexible wire, after coupling the support member 50 to the water supply groove 13, the coupling plate 20 is coupled, the blocking plate 20 The intermediate portion of the water supply member 30 protrudes forward in the form of the protruding portion 21, and is in close contact with the concave groove 3 of the flower pot 1.

Then, when water is supplied to the water storage groove 12 through the water supply pipe 40, the supplied water flows downward along the water supply member 30 and connected to each coupling hole 11 ( 1) and the remaining excess water is collected by the collecting portion 52 of the support member 50, and then circulated to the water supply groove 13 through the circulation pipe 60 and the water supply pipe 40 Recycled.

According to the wall greening structure using the carbonized cork constructed as described above, a plurality of coupling holes 11 to which the flower pot 1 is coupled are formed to penetrate the front and rear surfaces, and the water storage groove 12 is formed on the upper surface thereof. The support panel 10 of the carbonized cork material having the water supply groove 13 connected to the water storage groove 12 and crossing the coupling hole 11 in the up and down direction, and on the rear side of the support panel 10. It is coupled to the blocking plate 20 to block the rear side of the coupling hole 11, and is inserted into the water supply groove 13 of the support panel 10 and the upper end is extended to the interior of the reservoir groove 12 to the It is composed of a water supply member 30 so that the water supplied to the male groove 12 is supplied to the potted plant 1 coupled to the coupling hole 11, the coupling hole 11 on the front surface of the blocking plate (20). Protruding portion 21 is formed to protrude roundly forward to correspond to the bottom surface of the pot (1) A concave groove 3 corresponding to the outlet 21 is formed, and a water supply hole 4 is formed in the concave groove 3, and the water supply member 30 is made of a fiber material, and the protrusion 21 and the water supply It is arranged to pass between the grooves 13, the water supply hole of the potted plant (1) coupled to the coupling hole 11 while the water supplied to the reservoir groove 12 flows downward along the water supply member (30) (4) is configured to supply water to the vegetation planted in the pot (1).

In addition, the water supply pipe 40 is connected to the reservoir groove 12 to supply water to the reservoir groove 12, the upper surface of the opening 51 is coupled to the lower end of the support panel 10 and the blocking plate 20. Is formed and a support member 50 having a water collecting portion 52 for storing water flowing down through the water supply member 30 therein, and extending from the water collecting portion 52, A circulation pump 60 connected to an intermediate portion and a circulation pump provided in an intermediate portion of the circulation tube 60 to supply water stored in the water collecting portion 52 to the reservoir groove 12 through the water supply pipe 40. By further including 70, there is an advantage that can be recycled without wasting the water flowing down through the support member 50 without wasting.

6 to 9 illustrate another embodiment according to the present invention. In the blocking plate 20, a plurality of through holes 22 penetrating the front and rear surfaces are formed to be positioned below the protrusion 21. The pressing member 81 is coupled to the through hole 22 so as to be moved forward and backward and protrudes forward of the blocking plate 20 to move forward to press the middle portion of the water supply member 30 to prevent water from flowing downward. And, connected to the rear end of the pressing member 81, the forward and backward driving means 82 for advancing the pressing member 81 back and forth, and the inside of the flower pot (1) is provided with a humidity inside the plant pot (1) Humidity measuring means 83 for measuring the, and the control means 84 for receiving the signal of the humidity measuring means 83 and controlling the operation of the forward and backward driving means 82 is further provided.

In detail, the through holes 22 are formed at the bottom of the protruding portion 21, respectively, and the rear side of the through hole 22 is provided with an extension tube 23 extending rearward.

The pressing member 81 extends in the front-rear direction and has a width configured in a plate shape configured to correspond to the width of the water supply groove 13. As shown in FIG. 9, when the front portion is advanced to the front, the water supply groove ( 13) is inserted into the intermediate portion of the water supply member 30 is configured to press forward.

As such, when the middle portion of the water supply member 30 is pressed by the pressure member 81, the flow of water flowing downward along the water supply member 30 is blocked, and thus, along the water supply member 30. Water flowing down to the lower side is accumulated and stored above the water supply member 30, so that water is quickly supplied to the pot (1) located in the upper front of the advanced water supply member (30).

That is, when the pressing member 81 is advanced to press the middle portion of the water supply member 30 so that water does not flow downward, the water flowing downward along the water supply member 30 is supplied to the water supply groove ( After filling the inside of the 13) is introduced into the inside of the coupling hole 11, it is supplied to the potted plant 1 coupled to the coupling hole 11, so that the humidity of the potted plant (1) is quickly increased.

The front and rear vibration driving means 82 is fixed to the rear end of the extension pipe 23 and using a solenoid device connected to the pressing member 81, in the state that the pressing member 81 is retracted backward, the control When the control signal of the means 84 is input, it is activated to advance the pressing member 81.

The humidity measuring means 83 is to use a general humidity sensor, it is provided inside each pot (1) to measure the humidity of the vegetation member (2) filled in the pot 1, the humidity of the vegetation member (2) is It is configured to output a signal when the temperature drops below the set humidity.

The control means 84 receives the signal of the humidity sensor provided in each flower pot 1, when the signal is output from the humidity measuring means 83 provided in the ash of one side, the flower pot (1) output the signal By controlling the operation of the forward and backward driving means 82 provided in the rear lower side of the advance the pressing member 81, so that a large amount of water is selectively supplied into the dried pollen (1).

According to the wall recording structure using the carbonized cork configured as described above, the blocking plate 20 is formed such that a plurality of through holes 22 penetrating the front and rear surfaces are located below the protrusion 21, and the through holes ( 22 and a pressing member 81 which protrudes forward and backward and protrudes forward of the blocking plate 20 so as to press the middle portion of the water supply member 30 to prevent water from flowing downward. Front and rear driving means 82 connected to the rear end of the 81 for advancing the pressing member 81 forward and backward, and the humidity measurement for measuring the humidity inside the pot (1) is provided inside the pot (1) Means 83 and control means 84 for receiving the signal of the humidity measuring means 83 and controlling the operation of the forward and backward driving means 82 are further provided to concentrate on the pot 1 having low humidity. Since water can be supplied, the humidity management of the pot 1 becomes easier There is an advantage.

In the above-described embodiment, the coupling hole 11 is illustrated to extend in the horizontal direction, but as shown in FIG. 10, the coupling hole 11 is formed so that a front end thereof faces upward, and the coupling hole is formed. It is also possible to make the front end of the pot 1 coupled to (11) face upward.

Claims

A plurality of coupling holes 11 to which the flower pot 1 is coupled are formed to penetrate the front and rear surfaces, and a water storage groove 12 is formed on the upper surface thereof, and the coupling hole 11 is horizontally transversely formed on the rear surface. A support panel 10 made of carbonized cork material having a water supply groove 13 connected to the water storage groove 12;

A blocking plate 20 coupled to the rear side of the support panel 10 and blocking the rear side of the coupling hole 11;

The pot is inserted into the water supply groove 13 of the support panel 10 and the upper end extends into the water storage groove 12 so that the water supplied to the water storage groove 12 is coupled to the coupling hole 11. 1) Wall greening structure using a carbonized cork, characterized in that it comprises a water supply member 30 to be supplied to.
The method of claim 1,

The front of the blocking plate 20 is formed with a protrusion 21 protruding forward round to correspond to the coupling hole 11,

A concave groove 3 corresponding to the protrusion 21 is formed on the bottom surface of the flower pot 1, and a water supply hole 4 is formed in the concave groove 3.

The water supply member 30 is made of a fiber material and is disposed to pass between the protrusion 21 and the water supply groove 13,

Water supplied to the reservoir groove 12 flows downward along the water supply member 30 and is vegetated in the flower pot 1 through the water supply hole 4 of the flower pot 1 coupled to the coupling hole 11. Wall greening structure using cork carbide, characterized in that to be able to supply water to the plant.
The method of claim 2,

A water supply pipe 40 connected to the reservoir groove 12 to supply water to the reservoir groove 12;

The upper surface is formed with an opening 51 which is coupled to the lower end of the support panel 10 and the blocking plate 20 and the water collecting portion 52 for storing the water flowing down through the water supply member 30 therein Formed support member 50,

A circulation pipe 60 extending from the water collecting portion 52 and connected to an intermediate portion of the water supply pipe 40;

It is provided in the middle of the circulation pipe 60 is further provided with a circulation pump 70 for supplying the water stored in the water collecting portion 52 to the reservoir groove 12 through the water supply pipe 40 Wall greening structure using cork carbide.
The method of claim 3, wherein

The blocking plate 20 is formed so that a plurality of through holes 22 penetrating the front and rear surfaces to be located below the protrusion 21,

The pressing member 81 is coupled to the through-hole 22 so as to be able to move forward and backward and protrudes forward of the blocking plate 20 so as to press the middle portion of the water supply member 30 to prevent water from flowing downward. ,

Forward and backward driving means 82 connected to the rear end of the pressing member 81 to advance the pressing member 81 back and forth;

A humidity measuring means (83) provided inside the pot (1) and measuring humidity inside the pot (1);

It further comprises a control means for receiving the signal of the humidity measuring means 83 and controlling the operation of the forward and backward driving means 82,

The control means 84 receives the signal of the humidity measuring means 83 and when the humidity inside the respective pots 1 is lowered below a preset humidity, forward and backward driving located behind the corresponding pots 1. By controlling the operation of the means (82) by advancing the pressing member 81, the wall recording structure using the carbonized cork, characterized in that a large amount of water is selectively supplied to the interior of the dried pot (1).