KR102684202B1 - Three-dimensional Planter System with Fine Dust Reduction Function - Google Patents

Abstract

The present invention relates to a three-dimensional planter system that provides a fine dust reduction function and an air purification function, as well as an efficient greening effect within a limited space. The three-dimensional planter system according to the present invention is provided with planting modules 20 that are arranged while being stacked in the vertical direction. The planting module 20 is provided with a planting mat 22, and the planting mat 22 is arranged to be inclined at a certain inclination angle with respect to the vertical direction. A bottom irrigation part 50 for bottom irrigation is provided at the lower part of the planting mat 22, and the bottom watering part 50 is filled with a filler 26 such as orchid or bark. A first water supply pipe 27 for water supply is disposed inside the bottom water supply unit 50. In addition, a second water supply pipe 30 and a lighting module 40 are installed at the lower part of the planting module 20 to supply a light source and water to the planting module 20 disposed below.

Description

Three-dimensional Planter System with Fine Dust Reduction Function}

The present invention relates to a three-dimensional planter system that provides a fine dust reduction function and an air purification function, as well as an efficient greening effect within a limited space.

Recently, interest in the atmospheric environment is increasing as risks related to fine dust and carbon emissions are raised. The deterioration of the atmospheric environment has a lot to do with urbanization and industrialization of the residential environment. The development of the energy industry, including coal power generation, and the logistics industry using transportation means such as automobiles, ships, and aircraft are acting as major factors in deteriorating air quality. In addition, the destruction of green space due to urbanization of residential environments is also acting as a factor in increasing the risk to the atmospheric environment. As is well known, carbon emissions cause environmental disasters such as global warming. Additionally, fine dust contains harmful components such as oxides and nitrogen oxides and heavy metals such as lead and cadmium. Fine dust penetrates into the human body through the respiratory tract and accumulates, causing a decrease in immune function and various diseases, including respiratory diseases.

There have been various attempts to improve the atmospheric environment of living spaces by providing as much green space as possible in urbanized living spaces, thereby improving the quality of life. As one of these attempts, a three-dimensional planter or three-dimensional planter system is attracting attention. The three-dimensional planter system organizes the space for plant cultivation in a three-dimensional shape, creating as wide a green space as possible through limited space and providing various green effects. Regarding the planter system, for example, Republic of Korea Patent No. 10-0858993 (name: Indoor garden system for air purification using moss walls and indoor plants), Registered Patent No. 10-2114591 (name: air purification device using moss plants) , Registered Patent No. 10-2227576 (Name: Indoor moss planting natural air purification system that reduces fine dust), Public Patent No. 10-2021-0061794 (Name: Modular vertical recording device with fine dust reduction function) and Publication Patent No. 10-2019-0135717 (name: Fine dust reduction device using moss and its control method).

However, the conventional three-dimensional planter system has the following problems. First, a typical three-dimensional planter system places vegetation mats or trays vertically to secure planting space. However, when the soil for vegetation is configured in a vertical structure, the humidity of the soil is not maintained uniformly throughout, and there is a problem in that the upper part is dry and the lower part is overly humid. Non-uniformity of humidity in the soil causes many difficulties in moisture management of plants.

In addition, when trays for planting or vegetation mats are stacked in multiple stages, it is difficult to provide a green effect, and due to the structure, it is difficult to provide sufficient light to the planted plants.

In addition, the conventional three-dimensional planter system has a complex structure, requires a lot of time and cost for installation and construction, and has the disadvantage of being difficult to provide a good growth environment for planted plants.

Accordingly, the present invention was created in consideration of the above circumstances, and its main technical purpose is to provide a three-dimensional planter system that can effectively provide fine dust reduction and air purification functions within a limited space.

In addition, the present invention has another technical purpose in providing a three-dimensional planter system that has a simple structure and is easy to install and maintain.

In addition, the present invention has another technical purpose of providing a three-dimensional planter system that can provide a good growth environment for planted plants.

A three-dimensional planter system with a fine dust reduction function according to the first aspect of the present invention for realizing the above object is a planter system configured to plant and cultivate air purifying plants, and is comprised of a planter panel, , the planter panel is provided with two or more planting modules that are installed while being stacked in a vertical direction, the planting module includes a module main body and a planting mat, the module main body includes a vertical plate, and a lower part of the vertical plate. It is comprised of a horizontal plate that is coupled and a storage portion for storing the planting mat, wherein a lower end of one side of the storage portion is coupled to the vertical plate and a lower end of the other side is coupled to the horizontal plate and is disposed at an angle with respect to the module body, A bottom watering part is provided at the lower part of the receiving part while extending along the longitudinal direction of the receiving part, and the bottom watering part includes a space formed by the vertical plate, the horizontal plate, and the receiving part, and the bottom watering part has a longitudinal direction. A first water supply pipe is disposed along and filled with a filler, the first water supply pipe is provided with at least one spray nozzle, and the planting mat is provided with one or more wicks for bottom watering, and the wick is for bottom watering. It is disposed while extending inside the unit and includes a control panel including water supply means for supplying water to the first water supply pipe and control means for controlling the operation of the water supply means,
A lighting module is provided along the longitudinal direction below the horizontal plate, and the control panel controls the operation of the lighting module,
A display is additionally provided on the planter panel,
The wick provided on the planting mat is placed inside the bottom watering portion through the opening in the lower part of the storage portion,
The lighting module includes a case with an opening on one side, a substrate installed along the length inside the case, a protective window or light diffusion window is installed in the opening of the case, and the case is made of aluminum metal with excellent thermal conductivity. It provides a heat dissipation function that radiates heat generated from the lighting module to the module body,
LEDs are mounted on the board at regular intervals, and the LEDs are equipped with three-color LEDs of R (Red), G (Green), and B (Blue), providing light close to natural light for plants planted on the planting mat. , In order to provide various display effects as needed, the control device is characterized by selectively driving LEDs to provide specific patterns of figures or letters through the planter panel.

In addition, the bottom watering portion is characterized in that communication holes are provided on the upper and lower sides, respectively.

In addition, the storage portion includes a lower plate and upper and lower support plates that extend along the longitudinal direction of the lower plate and support one side and the other side of the planting mat, and the central portion of the lower plate has an opening along the longitudinal direction. It is characterized by being provided.

In addition, the lower plate of the storage unit is provided with a locking protrusion along the longitudinal direction, and the lower part of the planting mat is characterized in that a cut groove is provided along the longitudinal direction at a position corresponding to the locking protrusion.

In addition, the upper end of the lower support plate of the storage unit is characterized in that a locking protrusion is provided to prevent the planting mat from being separated.

In addition, the filler is characterized in that it contains ovules, bark, or spores.

In addition, a second water supply pipe is additionally provided along the longitudinal direction on the lower side of the horizontal plate, and the second water supply pipe is provided with one or more spray nozzles for spraying water in a downward direction, and the control panel is provided with the second water supply pipe. It is characterized by controlling water supply through a water supply pipe.

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In addition, the planter panel is characterized in that a QR code is provided.

In addition, side plates are coupled to both sides of the module body through gaskets.

A three-dimensional planter system with a fine dust reduction function according to the second aspect of the present invention is a planter system configured to plant and cultivate air purifying plants, comprising a planter panel and managing and controlling the planter panel. It is composed of a control panel, and the planter panel is composed of a frame and a mounting part for mounting a planting module, and the frame includes a pair of vertical frames and a longitudinal direction at both ends of the vertical frame. It is composed of an upper and lower horizontal frame that is formed while extending, and the planter panel is provided with two or more planting modules that are installed while being stacked in a vertical direction on the mounting unit, and the planting module includes a module body and a planting mat. Provided with, the module main body includes a vertical plate, a horizontal plate coupled to the lower part of the vertical plate, and a storage portion for storing the planting mat, wherein a lower end of one side of the storage portion is coupled to the vertical plate In addition, the lower end of the other side is coupled to the horizontal plate and disposed at an angle with respect to the module body, and a bottom irrigation portion is provided at the lower part of the storage portion while extending along the longitudinal direction of the storage portion, and the bottom irrigation portion includes the vertical plate and the horizontal plate. It includes a space formed by a storage part, wherein the bottom watering part is arranged with a first water supply pipe along the longitudinal direction and is filled with a filler, the first water supply pipe is provided with at least one spray nozzle, and the planting mat is provided with one or more wicks for supplying water to the bottom, the wicks are disposed while extending inside the bottom watering unit, and the control panel includes a water supply means for supplying water to the first water supply pipe, and a driving device for the water supply means. Equipped with control means for controlling,
The planting mat is provided with one or more wicks for bottom watering,
The wick is disposed while extending inside the bottom irrigation part,
The control panel includes water supply means for supplying water to the first water supply pipe, and control means for controlling the operation of the water supply means,
A second water supply pipe and a first lighting module are provided along the longitudinal direction below the horizontal plate, and the second water supply pipe is provided with at least one nozzle for spraying water in a downward direction,
The control panel supplies water through the second water supply pipe and controls the operation of the lighting module,
A third water supply pipe and a second lighting module are provided at the lower part of the upper horizontal frame,
The wick provided on the planting mat is disposed inside the bottom watering portion through the opening in the lower part of the storage portion,
The lighting module includes a case with an opening on one side, a substrate installed along the length inside the case, a protective window or light diffusion window is installed in the opening of the case, and the case is made of aluminum metal with excellent thermal conductivity. It provides a heat dissipation function that radiates heat generated from the lighting module to the module body,
LEDs are mounted on the board at regular intervals, and the LEDs are equipped with three-color LEDs of R (Red), G (Green), and B (Blue), providing light close to natural light for plants planted on the planting mat. , In order to provide various display effects as needed, the control device is characterized by selectively driving LEDs to provide specific patterns of figures or letters through the planter panel.

In addition, the first water supply pipe is characterized in that it is connected to the water supply means through the vertical frame.

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In addition, the bottom watering portion is characterized in that communication holes are provided on the upper and lower sides, respectively.

In addition, the lower horizontal frame is provided with a drain pipe for discharge water discharged through the communication hole, and the control panel is characterized by being provided with a water reservoir for storing discharge water through the drain pipe.

According to the present invention having the above-described configuration, a planter panel configured in the shape of a wall is provided. The planter panel is equipped with a plurality of planting modules, and a planting mat arranged at an angle is installed in the planting module. Plants with air purifying and fine dust removal functions are planted on the planting mat. Moss is preferably used as a plant to be planted on the planting mat. In the present invention, the planting mat is arranged inclined at a certain angle with respect to the vertical direction, so that it is possible to secure as much green space as possible without affecting the growth of plants, and to provide a very effective green effect.

In addition, the present invention supplies water to the planting mat through bottom irrigation, and provides an environment suitable for plant growth by providing a lighting function on the upper side of the planting mat.

The attached drawings are for explaining embodiments according to the present invention. Therefore, it should be understood that some components may be omitted or exaggeratedly described in order to effectively explain the embodiments.
Figure 1 is a perspective view showing the exterior shape of a three-dimensional planter system with a fine dust reduction function according to an embodiment of the present invention.
FIG. 2 is a perspective view showing the external shape of the planting module 20 disposed on the planter panel 1 in FIG. 1.
Figure 3 is an exploded perspective view of the planting module 20 shown in Figure 2.
Figure 4 is a side view of the planting module 20 shown in Figure 2.
Figure 5 is a side cross-sectional view showing the cross-sectional configuration of the planting module 20 shown in Figure 2.
Figure 6 is a cross-sectional view showing the main sectional configuration of the planter panel 1 on which the planting module 20 is mounted.
Figure 7 is a perspective view showing the configuration of a planter system according to another embodiment of the present invention.
Figure 8 is a perspective view showing the configuration of a planter system according to another embodiment of the present invention.

Hereinafter, an embodiment according to the present invention will be described with reference to the drawings. However, the embodiments described below are illustrative examples of one preferred embodiment of the present invention, and the examples are not intended to limit the scope of the present invention. Those skilled in the art will easily understand that the present invention can be implemented with various modifications without departing from its technical spirit.

Figure 1 is a perspective view showing the exterior shape of a three-dimensional planter system with a fine dust reduction function according to an embodiment of the present invention. The planter system is comprised of a planter panel (1) and a control panel (2). The planter panel 1 consists of a plurality of planting modules 20 for growing plants arranged in a vertically stacked space in a space comprised of a frame 10. A mounting portion for mounting the planting module 20 is provided at the rear of the planter panel 1. In the drawing, the frame 10 includes a pair of vertical frames 11 and a horizontal frame 12 extending along the longitudinal direction from the upper and lower ends of the vertical frames 11, respectively, and has an overall square or rectangular shape. It is composed of a wall shape. However, in the present invention, the shapes of the planter panel 1 and the frame 10 are not specified. The planter panel 1 may be constructed of any shape, including a circular, oval or polygonal shape with a front surface shape.

The control panel (2) is for managing the planter panel (1). The operation of the control panel 2 will be described in more detail later. Additionally, the drawing shows that the control panel 2 is installed below the planter panel 1, but the structure of the control panel 2 and its installation location are not specified. The control panel 1 may be installed on the left or right side of the planter panel 10 or on the rear of the planter panel 10. In addition, although the planter panel 1 and the control panel 2 are shown as separate structures in the drawing, the planter panel 1 and the control panel 2 may be integrated.

FIG. 2 is a perspective view showing the external shape of the planting module 20 disposed on the planter panel 1, and FIG. 3 is an exploded perspective view of the planting module 20. 4 is a side view of the planting module 20. In the figure, the planting module 20 includes a module main body 21 and a planting mat 22 mounted on the upper part of the module main body 21. Although not specifically shown in the drawing, the planting mat 22 includes a planting mat and air purifying plants planted on the planting mat. In addition, wicks 222 for bottom irrigation are arranged at regular intervals on the planting mat. Here, the planting mat is not specified. In a preferred embodiment, the planting mat is formed by firing and foaming a resin such as urethane and soil. Additionally, in another preferred embodiment, a plant tray filled with soil is used as a planting mat. Additionally, as plants for air purification, bryophytes such as moss are preferably used. Moss grows using nutrients and moisture in the air as nourishment, and during this growth process, it absorbs fine dust and harmful substances in the air and purifies the air. Of course, in the present invention, plants for air purification are not specified, and other suitable plants with air purification functions and fine dust removal functions can be preferably employed.

The module body 21 is comprised of a vertical plate 211, a horizontal plate 212, and a storage portion 213 extending along the longitudinal direction. They are made of a metal material, such as aluminum, and are integrally molded, for example, through extrusion molding. The storage portion 213 is for mounting the planting mat 22. The storage unit 213 includes a lower plate 2311 for supporting the lower surface of the planting mat 22, and support plates 2312 and 2313 for supporting the upper and lower sides of the planting mat 22, respectively. The receiving portion 213 has one lower end, that is, the joint portion of the lower plate 2311 and the support plate 2312, supported and coupled to the inner surface of the vertical plate 211, and the other lower end, that is, the lower plate 2311 and the support plate 2312. The coupling portion is supported and coupled to the upper side of the horizontal plate 212 and is inclined at a certain inclination angle with respect to the vertical plate 211. Accordingly, the planting mat 22 is inclined to have a constant inclination angle with respect to the vertical direction from the ground.

In the above structure, the space surrounded by the vertical plate 211, the horizontal plate 212, and the lower plate 2311 of the storage portion 213 constitutes a bottom irrigation portion 50 for the planting mat 22. The bottom irrigation unit 50 is installed at the lower part of the storage unit 213 while extending along its longitudinal direction. As can be understood from Figure 5, the bottom watering part 50 is filled with a filler 26, and a water supply pipe 27 for water supply is disposed extending along the longitudinal direction. And communication holes (28, 29) are provided at regular intervals in the upper and lower parts of the bottom watering portion (50). The communication holes (28, 29) are for water supply and drainage to the bottom irrigation unit (50).

The receiving portion 213 is provided with an opening 213a and a locking protrusion 213b along the longitudinal direction in the central portion of the lower plate 2311. In addition, a cut groove 221 is formed in the lower part of the planting mat 22 along the longitudinal direction corresponding to the stopping protrusion 213b. The locking protrusion 213b and the cut groove 221 are for stably maintaining the planting mat 22 on the storage portion 213. And the opening 213a is for bottom irrigation of the planting mat 22. The wick 222 provided on the planting mat 22 is drawn out to the lower bottom irrigation part 50 through this opening 213a. In addition, a locking protrusion 213c is provided at the upper end of the lower support plate 2313 of the storage unit 213 to prevent the planting mat 22 from being separated from the storage unit 213.

Meanwhile, a reinforcing portion 211a is provided on the upper part of the vertical plate 211 in the module body 21 to enhance the mechanical strength of the vertical plate 211 by increasing the thickness of the vertical plate 211. This reinforcement portion 211a is for firmly fixing the module body 21 to the planter panel 1. The module body 21 is fixedly coupled to the planter panel 1 by fastening a fastening member such as a screw to the planter panel 1 through the reinforcement portion 211a.

In addition, the lower part of the horizontal plate 212 in the module body 21 is provided with an installation groove 214 for installing a water supply pipe and a coupling groove 215 for installing a lighting module such as an LED. The installation groove 214 and the coupling groove 215 are formed while extending along the longitudinal direction of the module body 21. Additionally, a fastening hole 21a for fastening the side plate 23a is provided at an appropriate position on the side of the module body 21.

2 and 3, side plates 23a and 23b are coupled to both sides of the module body 21 through gas cats 24, respectively. The side plates 23a and 23b have substantially the same configuration. A fastening hole 231 is formed in the side plates 23a and 23b at a position corresponding to the fastening hole 21a of the module body 21, and a cut is made at a position corresponding to the installation groove 214 of the module body 21. A groove 233 is formed. The cut groove 233 is for introducing the water supply pipe installed in the module body 21 and the electric line for the lighting module into the module body 21. Additionally, in another modified example of the present invention, the side plates 23a and 23b may be separately provided with communication holes for introducing an electric line for the lighting module into the module body 21.

The gas cat 24 is used to prevent water leakage from the module body 21 by sealing the space between the module body 21 and the side plates 23a and 23b. The gas cat 24 is made of an elastic material such as rubber or synthetic resin. In addition, in the gas cat 24, like the side plates 23a and 23b, a fastening hole 241 is formed at a position corresponding to the fastening hole 21a of the module body 21, and an installation groove of the module body 21 A cut groove 243 is formed at a position corresponding to (214).

In addition, through holes 232 and 242 are installed in the side plates 23a and 23b and the gas cat 24 at corresponding positions. The through holes 232 and 242 are for the water supply pipe 27 (FIG. 5) installed in the bottom water supply unit 50.

Figure 5 is a side cross-sectional view showing the cross-sectional configuration of the planting module 20. The planting module 20 is installed with the planting mat 22 seated in the receiving portion 213 of the module main body 21. The wick 222 provided on the planting mat 22 is appropriately disposed inside the bottom watering portion 50 through the opening 213a in the lower portion of the storage portion 213. As described above, a water supply pipe 27 for water supply is installed along the longitudinal direction of the bottom water supply unit 50 and is filled with a filler 26. Preferably, the water supply pipe 27 is provided with spray nozzles at regular intervals to supply water to the bottom watering unit 50. The filler 26 is not specified, and a material with good water absorption may be preferably used. In a preferred embodiment, the filler 26 is made of a material with excellent breathability, such as orchid, bark, and sorghum. In another preferred embodiment of the present invention, the bottom irrigation part 50 is used as soil for rooting of rooted plants. The roots of the root plant will grow from the planting mat 22 through the opening 213a towards the bottom irrigation part 50 and become attached to the filler 26.

In addition, the water supply pipe 30 and the lighting module 40 are respectively coupled to the installation groove 214 and the coupling groove 215 provided in the lower part of the module body 21. Here, the water supply pipe 30 and the lighting module 40 are for another planting module disposed below the main planting module 20. Although not specifically shown in the drawing, a plurality of nozzles are provided in the water supply pipe 30 at regular intervals. The nozzle is installed to spray water in a downward direction. In the present invention, water is supplied to the planting mat 22 through bottom irrigation. Accordingly, the water supply pipe 30 can be selectively utilized or removed as needed.

The lighting module 40 includes a case 41 having an opening on one side, and a substrate 42 installed along the longitudinal direction inside the case 41. And a protective window or light diffusion window 43 is installed in the opening of the case 41. In a preferred embodiment, the case 41 is made of a metal material such as aluminum with excellent thermal conductivity, and provides a heat dissipation function by dissipating heat generated in the lighting module 40 toward the module body 20.

Additionally, LEDs are mounted on the board 42 at regular intervals. The LED is preferably provided with three color LEDs: R (Red), G (Green), and B (Blue). This is to provide light close to natural light to the plants planted on the planting mat 22 and to provide various display effects as needed. For example, the control device can selectively drive the LED to provide a specific pattern of figures or letters through the planter panel 1.

Figure 6 is a cross-sectional view showing the main sectional configuration of the planter panel 1 on which the planting module 20 is mounted. As described above, a mounting portion 15 for installing the planting module 20 is provided at the rear of the planter panel 1. In this embodiment, the mounting unit 15 is made of a metal plate having the same size and shape as the frame 10. However, the structure of the mounting unit 15 and the connection method with the planting module 20 are not specified. The mounting unit 15 may be composed of other suitable horizontal frames coupled between the vertical frames 11.

In the drawing, the planting module 20 is coupled to the mounting unit 15 by attaching the reinforcing part 211a provided on the top of the planting module 20 to the mounting unit 15 using a fastening member such as a screw, as described above. ) is executed by concluding. The planting module 20 has a structural feature in which the width and weight monotonically increase as it goes downward. Accordingly, the lower part of the planting module 20 is subjected to a pressure of a certain amount or more toward the inner surface of the planting panel 1, that is, toward the mounting portion 15. Accordingly, the planting module 20 is stably mounted and coupled to the mounting portion 50 by coupling its upper portion to the mounting portion 15 .

When the planting module 20 is mounted on the mounting unit 15, the lower part of the planting module 20 is preferably placed in contact with the upper part of another planting module 20 located below. In this way, the gap between the lower end of the planting mat 22 located at the top and the upper end of the planting mat 22 located at the bottom is minimized, making it possible to provide a very effective green effect in all directions.

In FIGS. 1 and 4 , a plurality of planting modules 20 are connected to each other and are mounted step by step in the space formed by the frame 10 on the front of the planter panel 1. In addition, although not specifically shown in the drawing, the lower side of the horizontal frame 12 located at the top of the planter panel 1 is provided with a water supply pipe 30 and a lighting module 40 through the same structure as the lower part of the planting module 20. ) is installed. These are for the planting module 20 which is placed at the top of the planter panel 1. In addition, although not specifically shown in the drawing, the horizontal frame 11 located at the bottom of the planter panel 1 allows discharge water discharged through the communication hole 29 of the bottom watering unit 50 to flow to the bottom of the control panel 2. A drain pipe for recovery to the water part (not shown) is installed. A plurality of bottom water water parts 50 arranged along the vertical direction in the planter panel 1 are provided with drainage channels through communication holes 28 and 29. . The discharged water, which is gradually discharged from the top to the bottom through the communication holes 28 and 29, is recovered into the reservoir through a drain pipe provided in the lower horizontal frame 11.

In addition, although not specifically shown in the drawing, a water supply pipe is disposed extending from the control panel 10 in the inner space of the vertical frame 11, and this water supply pipe is connected to the water supply pipes 27 and 30 disposed in each planting module 20. do. Additionally, the lighting module 40 is electrically coupled to the control panel 10 through the internal space of the vertical frame 11. Inside the control panel 10, a water supply motor for water supply, a water storage unit, a power supply unit, and a control device are provided. Additionally, a network connection means such as the Internet may be preferably provided inside the control panel 10. Additionally, the planter panel 1 or the control panel 2 may be provided with an illumination sensor or a humidity sensor for measuring the humidity of the planting mat 22 at an appropriate location. The control and management operations in which the control device drives the water pump and lighting module 40 based on detection signals from the humidity sensor or illuminance sensor, or manages the plant system according to control commands through the network, do not require specific skills. Since this is a general matter, the specific configuration and operation description will be omitted.

Figure 7 is a perspective view showing the configuration of a planter system according to another embodiment of the present invention. In this embodiment, the display 100 is installed on the planter panel 1. The display 100 is driven by the control panel 10. In this embodiment, it is possible to provide various information images as well as a green vision effect through the planter system. Additionally, in this embodiment, the control panel 10 may provide a user interface through the display 100. That is, the display 100 is equipped with a touch panel, and the control panel 10 provides various selection menus through the display 100, so that the user or manager controls the operation of the planter system viewed through the display 100. Alternatively, it provides a function to view the information screen you want.

In addition, although not specifically shown in the drawing, in another modified example of this embodiment, a camera module is installed in the planter system at an appropriate location, and the control module 2 allows the user to view his or her image through the camera module and display 100. It is possible to provide a function for capturing images. In addition, at this time, the control module 2 can provide various display effects by driving the lighting module 40 provided in the planter panel 1.

Additionally, Figure 8 is a perspective view showing the configuration of a planter system according to another embodiment of the present invention. In this embodiment, a QR code is placed on the planter panel 10 so that the planter current system can be used for various purposes. In this embodiment, the QR code may include various information. For example, a QR code may include link information to guide users to a specific promotional screen or information screen. Additionally, the QR code may include identification information related to this planter system. This identification information can be useful in managing the planter system. For example, when the manager enters QR code information using a smartphone, the server provides a menu screen that allows the manager to manage and control the planter system on the manager's smartphone. It is also possible to configure it so that it can be controlled effectively.

As described in FIG. 2, the planter system according to the present invention allows the planter panel 1 to be constructed through a simple task of assembling the planting module 20 composed of modules. In addition, the planting module 20 can be produced with the module body 21 constituting it through a single extrusion process, and the planting module 20 of the desired size can be manufactured by cutting it appropriately as needed. . That is, it is possible to manufacture planting modules 20 of various sizes through the same manufacturing process and process without any additional processes. Therefore, in the present invention, it is possible to easily implement a planter system with various forms and functions as shown in FIGS. 7 and 8.

Above, embodiments according to the present invention have been described. However, the present invention is not limited to the above-described embodiments and can be implemented with various modifications without departing from the technical spirit of the present invention.

1: Planter panel, 2: Control panel,
10: frame, 11: vertical frame,
12: horizontal frame, 20: planting module.

Claims (17)

In a planter system configured to plant and cultivate air purifying plants,
It is composed of a planter panel,
The planter panel includes two or more planting modules that are installed while being stacked in a vertical direction,
The planting module includes a module body and a planting mat,
The module main body includes a vertical plate, a horizontal plate coupled to the lower part of the vertical plate, and a storage portion for storing the planting mat,
The storage unit is disposed at an angle with respect to the module body by having one lower end coupled to the vertical plate and the other lower end coupled to the horizontal plate,
A bottom watering portion is provided at the lower part of the receiving portion while extending along the longitudinal direction of the receiving portion,
The bottom irrigation portion includes a space formed by the vertical plate, the horizontal plate, and the storage portion,
A first water supply pipe is disposed along the longitudinal direction of the bottom water supply unit and is filled with a filler material,
The first water supply pipe is provided with at least one spray nozzle,
The planting mat is provided with one or more wicks for bottom watering,
The wick is disposed while extending inside the bottom irrigation part,
It is configured to include a control panel including water supply means for supplying water to the first water supply pipe and control means for controlling the operation of the water supply means,
A lighting module is provided along the longitudinal direction below the horizontal plate, and the control panel controls the operation of the lighting module,
A display is additionally provided on the planter panel,
The wick provided on the planting mat is disposed inside the bottom watering portion through the opening in the lower part of the storage portion,
The lighting module includes a case with an opening on one side, a substrate installed along the length inside the case, a protective window or light diffusion window is installed in the opening of the case, and the case is made of aluminum metal with excellent thermal conductivity. It provides a heat dissipation function that radiates heat generated from the lighting module to the module body,
LEDs are mounted on the board at regular intervals, and the LEDs are equipped with three-color LEDs of R (Red), G (Green), and B (Blue), providing light close to natural light for plants planted on the planting mat. , In order to provide various display effects as needed, the control device selectively drives LEDs to provide specific patterns of shapes or letters through the planter panel. A three-dimensional planter system with a fine dust reduction function. . According to paragraph 1,
A three-dimensional planter system with a fine dust reduction function, characterized in that communication holes are provided on the upper and lower sides of the bottom irrigation part, respectively. According to paragraph 1,
The storage portion is comprised of a lower plate and upper and lower support plates that extend along the longitudinal direction of the lower plate and support one side and the other side of the planting mat,
A three-dimensional planter system with a fine dust reduction function, characterized in that an opening is provided along the longitudinal direction in the central part of the lower plate. According to paragraph 3,
A locking protrusion is provided on the lower plate of the storage unit along the longitudinal direction,
A three-dimensional planter system with a fine dust reduction function, characterized in that the lower part of the planting mat is provided with a cut groove along the longitudinal direction at a position corresponding to the catching protrusion. According to paragraph 3,
A three-dimensional planter system with a fine dust reduction function, characterized in that the upper part of the lower support plate of the storage unit is provided with a locking protrusion to prevent the planting mat from coming off. According to paragraph 1,
The filler is a three-dimensional planter system with a fine dust reduction function, characterized in that it includes orchids, bark, or sorghum. According to paragraph 1,
A second water supply pipe is additionally provided along the longitudinal direction on the lower side of the horizontal plate, and the second water supply pipe is provided with one or more spray nozzles for spraying water in a downward direction, and the control panel controls the second water supply pipe. A three-dimensional planter system with a fine dust reduction function, characterized by controlling the water supply through the water supply. delete delete According to paragraph 1,
A three-dimensional planter system with a fine dust reduction function, characterized in that the planter panel is equipped with a QR code. According to paragraph 1,
A three-dimensional planter system with a fine dust reduction function, characterized in that side plates are coupled to both sides of the module body through gaskets. In a planter system configured to plant and cultivate air purifying plants,
Planter panel and
It is composed of a control panel that manages and controls the plant panel,
The planter panel is composed of a frame and a mounting part for mounting the planting module,
The frame is comprised of a pair of vertical frames and upper and lower horizontal frames extending along the longitudinal direction from both ends of the vertical frames,
The planter panel includes two or more planting modules installed in a vertical direction on the mounting unit,
The planting module includes a module body and a planting mat,
The module main body includes a vertical plate, a horizontal plate coupled to the lower part of the vertical plate, and a storage portion for storing the planting mat,
The storage unit is disposed at an angle with respect to the module body by having one lower end coupled to the vertical plate and the other lower end coupled to the horizontal plate,
A bottom watering portion is provided at the lower part of the receiving portion while extending along the longitudinal direction of the receiving portion,
The bottom irrigation portion includes a space formed by the vertical plate, the horizontal plate, and the storage portion,
In the bottom water supply part, a first water supply pipe is disposed along the longitudinal direction and is filled with a filler,
The first water supply pipe is provided with at least one spray nozzle,
The planting mat is provided with one or more wicks for bottom watering,
The wick is disposed while extending inside the bottom irrigation part,
The control panel includes water supply means for supplying water to the first water supply pipe, and control means for controlling the operation of the water supply means,
A second water supply pipe and a first lighting module are provided along the longitudinal direction below the horizontal plate, and the second water supply pipe is provided with at least one nozzle for spraying water in a downward direction,
The control panel supplies water through the second water supply pipe and controls the operation of the lighting module,
A third water supply pipe and a second lighting module are provided at the lower part of the upper horizontal frame,
The wick provided on the planting mat is disposed inside the bottom watering portion through the opening in the lower part of the storage portion,
The lighting module includes a case with an opening on one side, a substrate installed along the length inside the case, a protective window or light diffusion window is installed in the opening of the case, and the case is made of aluminum metal with excellent thermal conductivity. It provides a heat dissipation function that radiates heat generated from the lighting module to the module body,
LEDs are mounted on the board at regular intervals, and the LEDs are equipped with three-color LEDs of R (Red), G (Green), and B (Blue), providing light close to natural light for plants planted on the planting mat. , In order to provide various display effects as needed, the control device selectively drives LEDs to provide specific patterns of shapes or letters through the planter panel. A three-dimensional planter system with a fine dust reduction function. . According to clause 12,
A three-dimensional planter system with a fine dust reduction function, wherein the first water supply pipe is connected to a water supply means through the vertical frame. delete delete According to clause 12,
A three-dimensional planter system with a fine dust reduction function, characterized in that communication holes are provided on the upper and lower sides of the bottom irrigation part, respectively. According to clause 16,
The lower horizontal frame is provided with a drain pipe for discharged water discharged through the communication hole, and the control panel is provided with a water reservoir for storing discharged water through the drain pipe. A three-dimensional planter with a fine dust reduction function. system.