KR102570873B1 - Artificial rock structures capable of vegetation and its manufacturing method - Google Patents

Abstract

The present invention relates to an artificial rock structure that can be planted and a method for manufacturing the same, and in particular, the artificial rock structure that can be planted includes an artificial rock structure equipped with a port in which plants are planted; a planting composition panel forming a planting space between the artificial rock; culturing soil filled in the planting space and planted in the pot; It is configured to include a; water supply device for supplying water to the inside of the culture soil, and has an effect of easily planting and growing plants.

Description

Artificial rock structures capable of vegetation and its manufacturing method

The present invention relates to a plantable artificial rock structure and a manufacturing method thereof, and more particularly, to a plantable artificial rock structure capable of easily securing a planting space in which plants can be planted and grown, and a manufacturing method thereof.

In recent years, in order to feel the natural environment in the city, the improvement of the urban environment has been promoted by creating an artificial composition.

An artificial composition is not created naturally, but a person artificially creates the surface of a waterfall or artificial rock to satisfy modern people's eyesight. It is widely built around buildings or streets.

Among such artificial compositions, artificial rocks, in particular, have the same texture as natural rocks, and are similar to natural rocks to the extent that it is difficult for the general public to distinguish them in terms of color, volume, and strength.

Therefore, artificial rock is commonly used for rock climbing, such as artificial rock climbing, which has recently been in the limelight as a hobby, or artificial waterfall for improving the environment of roads, and recently, it is also widely used as an exterior material for construction.

These artificial rocks are very effective in creating a resting space for city dwellers who have difficulty in contact with nature in an urbanized society of concrete civilization, so they are rapidly spreading to zoos, fountains, swimming pools, ponds, etc. situation.

As a method for constructing the artificial rock, a method of installing an artificial rock panel on an angle installed in a structure or a method of spraying (or spraying) and curing an artificial rock constituent material by a method called spray painting is adopted.

Among them, in the method of constructing artificial rock using artificial rock panels, artificial rock is formed by assembling these artificial rock panels on site after manufacturing unit artificial rock panels through molds in a factory. Conventionally, since a port for planting is formed in an artificial rock that has been assembled in the field in this way, there is a problem in that the vegetation space is not so sufficient and the vegetation space must be formed in a limited area.

Registered Patent 10-0796241

The present invention has been made to solve the problems of the prior art, and easily secures a sufficient planting space for planting and growing plants, and artificial rock that has been previously installed or artificial rock that has been pre-manufactured and hardened at the site. An object of the present invention is to provide a plantable artificial rock structure capable of forming a planting space and a method for manufacturing the same.

Another object of the present invention is to provide a plantable artificial rock structure capable of facilitating plant management by automatically supplying water to planted plants and a manufacturing method thereof.

An artificial rock structure capable of being planted according to the present invention for solving the above problems includes an artificial rock having a port in which plants are planted; a planting composition panel forming a planting space between the artificial rock; culturing soil filled in the planting space and planted in the pot; and a water supply device for supplying water to the inside of the culturing soil, and components constituting the artificial rock include 11 to 13% by weight of water, 26 to 30% by weight of cement, 56 to 60% by weight of silicon manganese slag, and 0.05% by weight water reducing agent. to 0.5% by weight and 0.05 to 0.5% by weight of Pump Aid.

In addition, the present invention is an artificial rock provided with a pot in which plants are planted; a planting composition panel forming a planting space between the artificial rock; culturing soil filled in the planting space and planted in the pot; It may be configured to include a water supply device for supplying water to the inside of the culture soil, and the components constituting the artificial rock 10 are 11 to 13% by weight of water and 26 to 30% by weight of cement. %, silicon manganese slag 40% by weight, sand 16 to 20% by weight, water reducing agent 0.05 to 0.5% by weight and pump aid 0.05 to 0.5% by weight.

Here, the components constituting the artificial rock may further include 2% by weight of glass fibers.

In addition, loess and a coir net are attached to the inner surface of the artificial rock and the inner surface of the planting composition panel to be integrated.

On the other hand, the water supply device includes a humidity sensor installed inside the culture soil; a water supply line formed with a plurality of spray holes for spraying water into the culture soil; a control unit that receives the humidity value inside the culture soil measured by the humidity sensor; It is configured to include; a solenoid valve that opens and closes the water supply line according to a signal from the control unit.

In addition, the water supply device further includes a water tank installed inside the culture soil, receiving water from the water supply line, and immersing a portion of the coir net in the supplied water.

In addition, an overflow pipe is provided at an upper end of the water tank to discharge the water stored in the water tank out of the artificial rock and the planting composition panel.

In addition, a lower water tank is further provided at the lower end of the artificial rock and the planting composition panel.

In addition, the planting composition panel is a panel made of FRP material to which both ends are fixed by bolting to the artificial rock.

In addition, the planting composition panel is an artificial rock panel made of cement mortar in which reinforcing bars are embedded.

On the other hand, the method for manufacturing an artificial rock structure capable of being planted according to the present invention contains 11 to 13 wt% of water, 26 to 30 wt% of cement, 56 to 60 wt% of silicon manganese slag, 0.05 to 0.5 wt% of water reducing agent, and 0.05 to 0.5 wt% of pump aid. making artificial rock using a mortar composed of % and 2% by weight of glass fibers; connecting a planting composition panel to the artificial rock to form a planting space between the artificial rock; Installing a water supply device for supplying water into the planting space; It is configured to include; filling the culture soil in the planting space.

In addition, the present invention contains 11 to 13% by weight of water, 26 to 30% by weight of cement, 40% by weight of silicon manganese slag, 14 to 20% by weight of sand, 0.05 to 0.5% by weight of water reducing agent, 0.05 to 0.5% by weight of pump aid and glass fiber. making artificial rock using mortar composed of 2% by weight; connecting a planting composition panel to the artificial rock to form a planting space between the artificial rock; Installing a water supply device for supplying water into the planting space; It may be configured to include; filling the culture soil in the planting space.

The plantable artificial rock structure of the present invention configured as described above has the advantage of easily securing a sufficient space for planting and growing plants by forming a wide planting space by connecting a planting composition panel to the artificial rock.

In addition, since a planting space can be formed using artificial rocks such as landscape stones that have been previously installed without removing them, there is an advantage in that resources can be reused, which is environmentally friendly and construction costs can be reduced.

In addition, since water can be automatically supplied to the culture soil through the watering device, there is an advantage in making it easier to manage the growth of plants planted in the pot.

1 is a view showing an embodiment of an artificial rock structure that can be planted according to the present invention.
2a to 2c are top views of other embodiments of a plantable artificial rock structure according to the present invention.
Figures 3a to 3c is a view showing the appearance of removing the reinforcing bars in Figures 2a to 2c.
4 is a block diagram simply showing the relationship between a humidity sensor, a control unit and a solenoid valve of an artificial rock structure that can be planted according to the present invention.

Hereinafter, an embodiment of an artificial rock structure capable of being planted according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing an embodiment of an artificial rock structure capable of being planted according to the present invention.

And, FIGS. 2A to 2C are views showing other embodiments of the plantable artificial rock structure according to the present invention from above, and FIGS. 3A to 3C are views showing the state in which the reinforcing bars are removed from FIGS. 2A to 2C.

4 is a block diagram simply showing the relationship between a humidity sensor, a control unit, and a solenoid valve of an artificial rock structure that can be planted according to the present invention.

An artificial rock structure capable of being planted according to the present invention includes an artificial rock 10, a planting composition panel 20 forming a planting space A between the artificial rock 10, and the inside of the planting space A. It is configured to include culture soil 30 filled in, and a water supply device 40 for supplying water to the inside of the culture soil 30.

The artificial rock 10 is made by assembling a plurality of artificial rock panels made in a factory, and is manufactured in a form in which grid-shaped reinforcing bars 12 are embedded in the cement mortar 11 and hardened. The artificial rock 10 is made in the form of a landscape stone such as a rock or a cliff at a construction site. Here, it has been described that the reinforcing bars 12 in the form of a grid are embedded in the cement mortar 11 to construct and reinforce the artificial rock panel (see FIGS. 2A to 2C), but in the present invention, the reinforcing bars 12 are not buried and An artificial rock panel may be constructed only with cement mortar (see FIGS. 3A to 3C).

In addition, the artificial rock 10 is provided with pots 10a in which plants such as trees, flowers, and grass are planted. The port 10a serves as a space in which plants are planted, but also serves as a passage through which rainwater may flow into the culture soil 30 when it rains.

On the other hand, the components constituting the artificial rock 10 are 11 to 13% by weight of water, 26 to 30% by weight of cement, 56 to 60% by weight of silicon manganese slag, 0.05 to 0.5% by weight of water reducing agent, and 0.05 to 0.5% by weight of pump aid. can be configured. Here, the artificial rock 10 has a bending strength of 10 MPa or more and a compressive strength of 35 MPa or more by curing the above composition for 28 days. In addition, 2% by weight of glass fiber may be further included in the components constituting the artificial rock 10 to reinforce strength.

In addition, the components constituting the artificial rock 10 include 11 to 13% by weight of water, 26 to 30% by weight of cement, 40% by weight of silicon manganese slag, 16 to 20% by weight of sand, 0.05 to 0.5% by weight of water reducing agent, and 0.05% by weight of pump aid. to 0.5% by weight. That is, the artificial rock 10 may be manufactured by slightly reducing the mixing amount of silicon manganese slag and mixing sand corresponding to the reduced amount. Even here, strength may be reinforced by further including 2% by weight of glass fiber in the components constituting the artificial rock 10 .

The planting composition panel 20 forms a space necessary for planting plants by forming a certain space, that is, a planting space A, between the artificial rock 10 and the artificial rock 10 .

Here, the planting composition panel 20 is an artificial rock panel constituting a landscape stone that has been previously installed, and may be composed of an FRP material panel or an artificial rock panel made of a cement mortar material in which reinforcing bars are embedded. .

When the planting composition panel 20 is made of FRP material, both ends of the planting composition panel 20 are fixed to the artificial rock 10 by bolting, as shown in FIG. 2B.

In addition, when the planting composition panel 20 is made of a cement mortar material in which grid-shaped reinforcing bars are embedded, as shown in FIG. 2A, when the artificial rock 10 is manufactured, it is integrally connected with the artificial rock 10 from the beginning. It is also possible to configure it in the form of connecting the artificial rock 10 and the planting composition panel 20 by connecting the reinforcing bars embedded in the cement mortar to the reinforcing bars provided in the artificial rock 10, as shown in FIG. 2c. It is also possible.

Meanwhile, the loess 21 and the coir net 22 may be attached to the inner surface of the artificial rock 10 and the inner surface of the planting composition panel 20 to be integrated.

That is, before filling the culture soil 30 in the planting space A between the artificial rock 10 and the planting composition panel 20, on the inner surface of the artificial rock 10 and the inner surface of the planting composition panel 20, ocher ( 21) is applied, the coir net 22 is installed on the loess surface, and then the culture soil 30 is put into the planting space A.

Here, the coir net 22 is first installed on the inner surface of the artificial rock 10 and the inner surface of the planting composition panel 20, then the loess 21 is applied, and then the culture soil 30 is applied to the planting space A It is also possible to fill the

The culture soil 30 is filled in the planting space A between the artificial rock 10 and the planting composition panel 20, and plants planted in the pot 10a are rooted.

That is, since the port 10a formed in the artificial rock 10 and the planting space A communicate with each other, the roots of the plant planted in the pot 10a receive various nutrients including water from the culture soil 30 to grow. .

The water supply device 40 supplies water to the inside of the culture soil 30 to help the plant planted in the pot 10a grow.

The water supply device 40 includes a humidity sensor 41, a water supply line 42, a controller 43, a solenoid valve 44, and a water tank 45.

One or more humidity sensors 41 are installed inside the culture soil 30 to measure the amount of moisture contained in the culture soil 30.

A plurality of spray holes 42a for spraying water into the culture soil 30 are formed in the water supply line 42 . Although this water supply line 42 may be installed outside the planting space A, it is inside the planting space A in that it smoothly supplies water to the inside of the culture soil 30 and facilitates the installation of the water supply line 42. It is desirable to install

The controller 43 is electrically connected to the humidity sensor 41 and receives the humidity value measured by the humidity sensor 41 inside the culture soil 30 .

The solenoid valve 44 is installed in the water supply line 42 and opens and closes the water supply line 42 according to a signal from the controller 43. That is, the control unit 43 has the water supply line 42 sealed when the humidity of the culture soil 30 is above a certain value, and opened to supply water to the inside of the culture soil 30 by opening the water supply line 42 when the humidity of the culture soil 30 is less than a certain value. are doing

Therefore, when the humidity value received from the humidity sensor 41 by the control unit 43 is equal to or greater than a predetermined value, the control unit 43 opens the solenoid valve 44 to supply water through the injection hole 42a of the water supply line 42. let it spray

The water tank 45 is installed inside the culture soil 30 and receives water from the water supply line 42 . That is, the water tank 45 is installed inside the planting space A, and the culture soil 30 surrounds the water tank 45.

The water tank 45 includes an outer tank 45a made of cement mortar, an inner tank 45b made of FRP installed on the inner surface of the outer tank 45a to store water, and the outer tank 45a and the inner tank 45b. It is composed of a grating cover 45c covering the open upper surface of the tank 45b.

A portion of the coir net 22 is immersed in the water supplied and stored inside the water tank 45. Since the coir net 22 is immersed in water, the water permeates the coir net 22, and the water permeated in this way is supplied to the culture soil 30 in contact with the coir net 22 to be used for plant growth.

Meanwhile, an overflow pipe 45d is provided at the upper end of the water tank 45 to discharge water stored in the water tank 45 out of the artificial rock 10 and the planting composition panel 20 .

If the water supplied to the water tank 45 through the water supply line 42 is more than necessary, the growth of plants may be hindered by the water, and the water overflowing the water tank 45 is inside the culture soil 30. Since it permeates too much and deteriorates the soil homogeneity of the culture soil 30 and can elute nutrients contained in the culture soil 30, when a lot of water is supplied into the water tank 45 to overflow the water tank 45 Through the overflow pipe 45d, water can be discharged to the outside of the artificial rock 10 and the planting composition panel 20, that is, to the outside of the planting space A.

Meanwhile, the water supply device 40 may further include a lower water tank 46 and an auxiliary water tank 47.

The lower water tank 46 is provided at the bottom of the artificial rock 10 and the planting composition panel 20, and stores water supplied through the water supply line 42 or rainwater supplied through the port 10a. Since the lower part of the coir net 22 is immersed in the lower water tank 46, water can permeate the coir net 22 and supply water to the culture soil 30.

The auxiliary water tank 47 is provided outside the planting space A, and receives and stores water through a branched line from the water supply line 42.

The manufacturing method of the plantable artificial rock structure configured as described above contains 11 to 13% by weight of water, 26 to 30% by weight of cement, 56 to 60% by weight of silicon manganese slag, 0.05 to 0.5% by weight of water reducing agent, and 0.05 to 0.5% by weight of pump aid. Making an artificial rock (10) using a mortar composed of % and 2% by weight of glass fiber, and integrating it by attaching a loess (21) and a coir net (22) to the inner surface of the artificial rock (10); The planting composition panel 20 is connected to the artificial rock 10 so that a planting space A is formed between the artificial rock 10, but the loess 21 and the coir net 22 are attached to the inner surface to integrate it It is configured to include a step of doing, installing a water supply device 40 for supplying water into the planting space (A), and filling the culture soil 30 into the planting space (A).

On the other hand, the manufacturing method of the plantable artificial rock structure according to the present invention contains 11 to 13% by weight of water, 26 to 30% by weight of cement, 40% by weight of silicon manganese slag, 14 to 20% by weight of sand, 0.05 to 0.5% by weight of water reducing agent, An artificial rock (10) is made using a mortar composed of 0.05 to 0.5% by weight of pump aid and 2% by weight of glass fiber, and ocher (21) and a coir net (22) are attached to the inner surface of the artificial rock (10). In the step of integrating, the planting composition panel 20 is connected to the artificial rock 10 so that a planting space A is formed between the artificial rock 10, but the loess 21 and the coir net ( 22), including the step of attaching and integrating the planting space (A), installing the water supply device (40) for supplying water into the planting space (A), and filling the planting space (A) with culture soil (30) may be configured.

As mentioned above, the present invention can easily secure a sufficient space for planting and growing plants by forming a planting space A having a sufficient area between the artificial rock 10 and the planting composition panel 20. .
On the other hand, the water supply device 40 used in the artificial rock structure manufacturing methods of the present invention as described above includes a humidity sensor 41 installed inside the culture soil 30 and a plurality of spraying water into the culture soil 30. According to the water supply line 42 having the spray hole 42a formed therein, the controller 43 receiving the humidity value inside the culture soil 30 measured by the humidity sensor 41, and the signal of the controller 43 A solenoid valve 44 that opens and closes the water supply line 42, and water is supplied from the water supply line 42 while being installed inside the culture soil 30, and a part of the coir net 22 is immersed in the supplied water It is configured to include a water tank 45 to be.

10: artificial rock 10a: port
11: cement mortar 12: reinforcing bar
20: planting composition panel 21: loess
22: coir net 30: culture soil
40: water supply device 41: humidity sensor
42: water supply line 42a: injection hole
43: control unit 44: solenoid valve
45: water tank 45a: external tank
45b: inner tank 45c: grating cover
45d: wolryuwan 46: lower tank
47: auxiliary tank A: planting space

Claims (12)

An artificial rock 10 having a port 10a in which plants are planted and having a loess 21 and a coir net 22 attached to the inner surface thereof to be integrated; a planting composition panel 20 that forms a planting space A between the artificial rock 10 and is integrated with the loess 21 and the coir net 22 attached to the inner surface; culturing soil 30 filled in the planting space A and planted in the pot 10a; It is configured to include; a water supply device 40 for supplying water to the inside of the culture soil 30,
The water supply device 40 includes a humidity sensor 41 installed inside the culture soil 30; a water supply line 42 having a plurality of spray holes 42a for spraying water into the culture soil 30; a control unit 43 that receives the humidity value inside the culture soil 30 measured by the humidity sensor 41; a solenoid valve 44 that opens and closes the water supply line 42 according to a signal from the controller 43; It is configured to include; a water tank 45 installed inside the culture soil 30 to receive water from the water supply line 42 and to immerse a portion of the coir net 22 in the supplied water,
Components constituting the artificial rock 10 are composed of 11 to 13% by weight of water, 26 to 30% by weight of cement, 56 to 60% by weight of silicon manganese slag, 0.05 to 0.5% by weight of water reducing agent, and 0.05 to 0.5% by weight of pump aid. Plantable artificial rock structure, characterized in that.
An artificial rock 10 having a port 10a in which plants are planted and having a loess 21 and a coir net 22 attached to the inner surface thereof to be integrated; a planting composition panel 20 that forms a planting space A between the artificial rock 10 and is integrated with the loess 21 and the coir net 22 attached to the inner surface; culturing soil 30 filled in the planting space A and planted in the pot 10a; It is configured to include; a water supply device 40 for supplying water to the inside of the culture soil 30,
The water supply device 40 includes a humidity sensor 41 installed inside the culture soil 30; a water supply line 42 having a plurality of spray holes 42a for spraying water into the culture soil 30; a control unit 43 that receives the humidity value inside the culture soil 30 measured by the humidity sensor 41; a solenoid valve 44 that opens and closes the water supply line 42 according to a signal from the controller 43; It is configured to include; a water tank 45 installed inside the culture soil 30 to receive water from the water supply line 42 and to immerse a portion of the coir net 22 in the supplied water,
Components constituting the artificial rock 10 include 11 to 13 wt% of water, 26 to 30 wt% of cement, 40 wt% of silicon manganese slag, 16 to 20 wt% of sand, 0.05 to 0.5 wt% of water reducing agent, and 0.05 to 0.05 to 0.05 wt% of pump aid. Plantable artificial rock structure, characterized in that consisting of 0.5% by weight.
According to claim 1 or claim 2,
The plantable artificial rock structure, characterized in that the components constituting the artificial rock (10) may further include 2% by weight of glass fiber.
delete delete delete According to claim 1 or claim 2,
An artificial rock structure capable of being planted, characterized in that an overflow pipe 45d is provided at the upper end of the water tank 45 to discharge the water stored in the water tank 45 out of the artificial rock 10 and the planting composition panel 20.
According to claim 1 or claim 2,
An artificial rock structure capable of being planted, characterized in that a lower water tank 46 is further provided at the lower end of the artificial rock 10 and the planting composition panel 20.
According to claim 1 or claim 2,
The planting composition panel (20) is a plantable artificial rock structure, characterized in that both ends are a panel of FRP material fixed by bolting to the artificial rock (10).
According to claim 1 or claim 2,
The planting composition panel 20 is an artificial rock structure capable of being planted, characterized in that the artificial rock panel made of cement mortar in which reinforcing bars are embedded.
11 to 13% by weight of water, 26 to 30% by weight of cement, 56 to 60% by weight of silicon manganese slag, 0.05 to 0.5% by weight of water reducing agent, 0.05 to 0.5% by weight of pump aid, and 2% by weight of glass fiber. making an arm 10 and integrating it by attaching a loess 21 and a coir net 22 to the inner surface of the artificial rock 10; The planting composition panel 20 is connected to the artificial rock 10 so that a planting space A is formed between the artificial rock 10, but the loess 21 and the coir net 22 are attached to the inner surface and integrating; Installing a water supply device 40 for supplying water into the planting space (A); It is configured to include; filling the culture soil 30 in the planting space (A)
The water supply device 40 includes a humidity sensor 41 installed inside the culture soil 30; a water supply line 42 having a plurality of spray holes 42a for spraying water into the culture soil 30; a control unit 43 that receives the humidity value inside the culture soil 30 measured by the humidity sensor 41; a solenoid valve 44 that opens and closes the water supply line 42 according to a signal from the controller 43; A water tank 45 installed inside the culture soil 30 to receive water from the water supply line 42 and to immerse a part of the coir net 22 in the supplied water; Characterized in that it is configured to include Plantable artificial rock structure manufacturing method.
11 to 13% by weight of water, 26 to 30% by weight of cement, 40% by weight of silicon manganese slag, 14 to 20% by weight of sand, 0.05 to 0.5% by weight water reducing agent, 0.05 to 0.5% by weight of pump aid and 2% by weight of glass fiber. making an artificial rock 10 using mortar and integrating it by attaching a loess 21 and a coir net 22 to the inner surface of the artificial rock 10; The planting composition panel 20 is connected to the artificial rock 10 so that a planting space A is formed between the artificial rock 10, but the loess 21 and the coir net 22 are attached to the inner surface and integrating; Installing a water supply device 40 for supplying water into the planting space (A); It is configured to include; filling the culture soil 30 in the planting space (A);
The water supply device 40 includes a humidity sensor 41 installed inside the culture soil 30; a water supply line 42 having a plurality of spray holes 42a for spraying water into the culture soil 30; a control unit 43 that receives the humidity value inside the culture soil 30 measured by the humidity sensor 41; a solenoid valve 44 that opens and closes the water supply line 42 according to a signal from the controller 43; A water tank 45 installed inside the culture soil 30 to receive water from the water supply line 42 and to immerse a part of the coir net 22 in the supplied water; Characterized in that it is configured to include Plantable artificial rock structure manufacturing method.

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