KR20220059970A - Composition method for rooftop green wetland habitat - Google Patents

Abstract

The present invention relates to a method for making a rooftop green wetland habitat, which includes the following steps of: installing a waterproof edge so as to protrude around a space for wetland formation on a making surface; performing waterproofing for wetland space formation inside the waterproof edge by fixing the edge of a waterproof sheet on the waterproof edge; forming a water storage portion for water storage inside the waterproof edge by aggregate installation on the waterproof sheet; and adjusting the water level of the water storage portion by measuring the water level of the water storage portion with a water level sensor and supplying water to the water storage portion with a pump. According to the present invention, in urban greening, diversity in terms of vegetation can be provided by realizing an aquatic biotope as well as a terrestrial biotope and it is possible to provide various eco-friendly rest areas. In addition, a reliable waterproofing method can be ensured, construction can be facilitated and performed in an economical manner, repair and maintenance can be performed with convenience, and vegetation efficiency can be maximized by providing useful vegetation data.

Description

{Composition method for rooftop green wetland habitat}

The present invention relates to a method of creating a habitat for a rooftop greening wetland, and more particularly, in urban greening, by implementing not only terrestrial biotope but also aquatic biotope, to provide diversity of vegetation or living organisms, and to provide eco-friendly and colorful rest It relates to a method for creating a habitat for a green wetland on a rooftop that provides space, secures the reliability of a waterproofing method, and provides ease of construction.

In general, three-dimensional greening is a general term for a greening method that aims to improve the environment in terms of landscape and ecology by recording artificial structures covering the roof, wall, and street of a building. This three-dimensional green system can play a major role in restoring the health of the ecosystem by forming an urban green network.

In addition, the three-dimensional greening system is a biotope, which promotes naturalness and biodiversity in the city. In particular, roof greening of buildings in urban spaces is mainly carried out. It would be desirable However, in order to create an aquatic biotope on the roof space of a building, it is necessary to develop a specialized waterproofing method.

On the other hand, as a prior art related to urban greening, "vegetation board for indoor and outdoor greening of buildings for urban greening" of Korean Patent Application Laid-Open No. 10-2015-0066500 has been proposed, which is the lower part of the vertical frame opened to the front and rear. It consists of a support frame provided with a horizontal frame open to the upper side on both sides, and a planting plate having a plurality of planting holes into which a seedling having a wick is inserted into the front and back of the vertical frame and the inside of the horizontal frame is provided, The planting plate of the vertical frame includes a wick whose end is immersed in the water supply part provided on the upper part of the vertical frame and passes through each planting hole, and the planting plate of the horizontal frame has an end in the storage tank inside the horizontal frame Includes an immersed wick.

However, this prior art has a problem in that it is impossible to apply the aquatic biotope to urban greening, which makes it unsuitable for urban greening for biodiversity enhancement.

In addition, when implementing aquatic biotope in urban greening, water leakage causes a fatal problem in the structure, so it is important to secure the reliability of the waterproofing method. However, there is a problem that significantly reduces the workability.

In order to solve the problems of the prior art as described above, the present invention provides an environment-friendly and colorful resting space by implementing not only terrestrial biotope but also aquatic biotope to provide diversity of vegetation or inhabiting organisms in urban greening. It provides the reliability of the waterproofing method, provides ease of construction, economical construction, convenience in maintenance and management, and maximizes vegetation efficiency by providing useful data on vegetation. There is a purpose.

Other objects of the present invention will be easily understood through the description of the following embodiments.

In order to achieve the object as described above, according to an aspect of the present invention, the step of installing a waterproof edge so as to protrude around the space for forming a wetland on the composition surface; By fixing the edge of the waterproof sheet on the waterproof edge, performing a waterproofing treatment for the formation of a wetland space on the inside of the waterproof edge; By installing aggregate on the waterproof sheet, forming a water storage part for water storage on the inside of the waterproof edge; and measuring the water level of the reservoir with a water level sensor and supplying water to the reservoir with a pump, thereby adjusting the water level of the reservoir.

In the step of installing the waterproof edge, the waterproof edge is made of a metal plate, and the support surface for surface contact with the composition surface is formed horizontally by bending, so that it is installed so as to be vertical from the support surface, the edge of the waterproof sheet By positioning it to protrude upward, it can have a dam function for blocking the discharge of the aggregate or water accommodated inside.

In the step of performing the waterproof treatment, the fixing clip is fitted in a state where the edge of the waterproof sheet is overlaid on the top of the waterproof edge, so that the edge of the waterproof sheet is fixed to the top of the waterproof edge.

In the step of performing the waterproofing treatment, the fixing clip is formed in the form of a bar to extend along the top of the waterproof edge, so that the fixing part of the waterproof sheet by the fixing clip is moved along the top of the waterproof edge. can be extended

In the step of performing the waterproofing treatment, the fixing clip is formed to be installed in plurality at intervals along the upper end of the waterproof edge, and a cutout is formed so as to be cut from the lower end to the upper end of one side, so that the work is performed by the cutout. The elastic force of the side can be divided into a plurality and provided independently.

The step of adjusting the water level of the water storage unit may include receiving a control signal and a water level setting value for an operation provided by communication of the communication unit from a terminal, and receiving an operation corresponding to the control signal and the low water level corresponding to the water level setting value It is possible to perform a control for maintaining the water level of the water unit, and to provide information on the water level of the water storage unit and a current operation state to a terminal determined by communication of the communication unit.

After the step of adjusting the water level of the water storage part, by measuring the amount of soil moisture for the external planting part provided on the outside of the waterproof edge, and supplying moisture to the external planting part with the pump, the soil moisture amount of the external planting part It may further include the step of adjusting.

In the step of adjusting the amount of soil moisture in the external planting part, the external planting part is installed to surround the periphery of the waterproof edge, and a second pipe for supplying moisture to the external planting part from the pump is located around the waterproof edge. It is installed to extend along, and a plurality of sprinklers along the longitudinal direction of the second pipe may be installed to be spaced apart from each other.

After the step of adjusting the water level of the water reservoir, obtaining the state image of the plants vegetation on the aggregate from the CCTV, may further include the step of providing it to a terminal determined by communication of the communication unit.

After the step of adjusting the water level of the water reservoir, obtaining the growth state of a plant utilizing the spectral reflection characteristics of the plant growing on the aggregate from the NDVI sensor, and providing it to a terminal determined by communication of the communication unit. can

According to the method for creating a rooftop green wetland habitat according to the present invention, in urban greening, by implementing aquatic biotope as well as terrestrial biotope, diversity of vegetation or inhabiting organisms can be provided, and an eco-friendly and colorful resting space is provided. It can be used to secure the reliability of the waterproofing method and provide ease of construction, economical construction, maintenance and management convenience, and vegetation by providing useful data on vegetation. It has the effect of maximizing efficiency.

1 is a flowchart illustrating a method for creating a green roof wetland habitat according to an embodiment of the present invention.
2 is a plan view illustrating a habitat system created by the method for creating a habitat for a rooftop green wetland according to an embodiment of the present invention.
3 is a side view illustrating a habitat system created by the method for creating a roof green wetland habitat according to an embodiment of the present invention.
4 shows a waterproofing sheet fixing structure in a habitat system created by the method for creating a rooftop green wetland habitat according to an embodiment of the present invention.
5 is a perspective view illustrating a fixing clip according to another example for fixing a waterproof sheet in the habitat system created by the method for creating a rooftop green wetland habitat according to an embodiment of the present invention.
6 is a rear perspective view showing a fixing clip according to another example for fixing a waterproof sheet in the habitat system created by the method for creating a rooftop green wetland habitat according to an embodiment of the present invention.
7 is a perspective view showing another example of a waterproofing sheet fixing structure in the habitat system created by the method for creating a rooftop green wetland habitat according to an embodiment of the present invention.
8 to 13 are images for sequentially explaining a method of creating a green roof wetland habitat according to an embodiment of the present invention.
14 shows a monitoring main screen provided to a terminal in a habitat system created by the method for creating a roof green wetland habitat according to an embodiment of the present invention.
15 is a graph view of various data provided by the habitat system created by the method for creating a rooftop green wetland habitat according to an embodiment of the present invention.
16 is a data search and download screen in the habitat system created by the method for creating a habitat for green roof wetland according to an embodiment of the present invention.
17 is a screen for setting a target site and a project in the habitat system created by the method for creating a rooftop green wetland habitat according to an embodiment of the present invention.
18 is a configuration diagram for monitoring a habitat system created by the method for creating a rooftop green wetland habitat according to an embodiment of the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to specific embodiments, and it should be understood as including all changes, equivalents and substitutes included in the spirit and scope of the present invention, and may be modified in various other forms. and the scope of the present invention is not limited to the following examples.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings, and the same reference numbers are assigned to the same or corresponding components regardless of reference numerals, and redundant description thereof will be omitted.

Prior to explaining the method for creating a rooftop green wetland habitat according to the present invention, a system used therefor will be described as an example.

2 is a plan view showing a habitat system created by the method for creating a habitat for greening wetlands on the roof according to an embodiment of the present invention, and FIG. A side view showing the habitat system.

2 and 3 , the habitat system 100 created by the method for creating a roof green wetland habitat according to an embodiment of the present invention includes a waterproof edge 110 , a waterproof sheet 120 , an aggregate 130 , It may include a pump 150 , a first pipe 160 , a water level sensor 170 , and a control unit 180 .

The waterproof edge 110 is installed so as to protrude around the space for the formation of wetlands at various locations, including the rooftop of various buildings such as buildings, or the plaza on the ground, on the composition surface for urban greening. In order to surround the space for the formation of wetlands, the waterproof edge 110 may form a planar straight line or a curved line or various ring shapes composed of a straight line and a curved line.

Referring to FIG. 4, the waterproof edge 110 serves as a boundary material, and is made of a metal plate such as stainless steel or aluminum to maintain the water level of the water storage unit 140 by fixing the waterproof sheet 120, and on the composition surface. The support surface 113 for surface contact is formed horizontally by bending, so that it is installed vertically from the support surface 113 so that the edge of the waterproof sheet 120 is spaced upward from the composition surface.

The waterproof edge 110 is fitted with the fixing clip 111 in a state where the edge of the waterproof sheet 120 is overlaid on the top, so that the edge of the waterproof sheet 120 is fixed to the top, as in this embodiment, The fixing clip 111 may be formed in the form of a bar to extend along the upper end of the waterproof edge 110 , thereby making it possible to firmly fix the edge of the waterproof sheet 120 . The fixing clip 111 may be made of an elastic structure or an elastic material so that the upper end of the waterproof edge 110 is fitted with the slit-shaped fitting portion 111a to have a restoring force against deformation to some extent.

5 to 7 , as another example, the fixing clip 112 may be installed in plurality at intervals along the top of the waterproof edge 110 , and as in the previous embodiment, the waterproof edge 110 of A slit-shaped fitting portion (112a) for the upper end to be fitted may be formed to have a restoring force against deformation to a certain extent, and a cutout portion (112b) cut from the lower end to the upper end of one side is formed, so that the side is the incision portion It is divided into a plurality by (112b), and by having the divided portions independently of each other have elastic force, it is possible to exert multiple fixing force.

Referring to FIG. 3 , the waterproof sheet 120 is, for example, a waterproofing material having a sheet shape such as PVC, EPDM, etc., and by fixing the edge on the waterproof edge 110 , a space to be waterproofed on the inside of the waterproof edge 110 . to form

2 and 3 , the aggregate 130 is installed on the waterproof sheet 120 to form the water storage unit 140 for water storage. Here, the water storage unit 140 may mean a waterproof space for accommodating water. Aggregate 130 is, for example, constructed to be installed only on the edge of the waterproof sheet 120, or, as another example, is installed over the entire waterproof sheet 120, and the center and the edge form a step so that the central part except for the edge forms a space. can be installed to

The reservoir 140 forms a wetland space filled with water, aggregate 130, and the like therein. In addition, the water storage unit 140 may have a drainage unit formed on one side to discharge the overflowed water of the wetland, and may overflow according to the target water level. Such a drainage part may be filled with a mineral filter medium, for example, zeolite, illite, etc. to purify and discharge contaminated water.

Aggregate 130 is a soil substitute for creating a wetland habitat, and may be a porous foamed mineral material that serves as a habitat for plants, insects and animals, such as perlite, bottom ash, fly ash, foamed ceramic, zeolite, etc. Lightweight aggregates or artificial aggregates may be used. Also, of course, the aggregate 130 may include various soils for vegetation.

The pump 150 provides a pumping force for water supply to the water storage unit 140 . In addition, a filter for removing foreign substances from the water supply may be installed at the inlet or outlet of the pump 150 .

The first pipe 160 is installed to supply water supplied from the pump 150 to the water storage unit 140 , and a first valve 161 is installed to open and close the water supply. The first valve 161 may be formed of a control valve such as a solenoid valve controlled by the controller 180 together with a second valve 211 to be described later.

The water level sensor 170 is installed in the water storage unit 140, measures the water level and outputs it as a detection signal. For example, it is configured to continuously measure the water level within the measurement range, or as another example, a can be configured to measure.

The control unit 180 receives the detection signal of the water level sensor 170 and controls the pump 150 and the first valve 161 to adjust the water level of the water storage unit 140 . That is, when the water level of the water storage unit 140 is less than a predetermined range from the detection signal of the water level sensor 170 , the control unit 180 operates the pump 150 and opens the first valve 161 to the outside. Water is supplied from the water tank to the water storage unit 140 through the first pipe 160, and when the water level of the water storage unit 140 is greater than or equal to a predetermined range from the detection signal of the water level sensor 170, the pump 150 In addition to stopping the operation, it is possible to control to block the first valve (161).

The control unit 180 receives a control signal and a water level setting value for an operation provided by communication of a communication unit (not shown) from a terminal (not shown), and receives an operation corresponding to the control signal and a water storage unit corresponding to the water level setting value. Control for maintaining the water level of 140 may be performed, and information on the water level of the water storage unit 140 and the current operating state may be provided to a terminal determined by communication of the communication unit. The communication unit performs wired or wireless communication with an external terminal, such as Wi-Fi, Bluetooth, Zigbee, RFID, UWB, WiHD, 3G, LTE, 5G, Wibro (Wireless Broadband), etc. Various communication methods may be used. As the terminal, various information processing and communication devices that perform necessary information processing by driving a program or application and perform wireless communication, such as a laptop or desktop, as well as a smartphone or tablet PC, may be used. In addition, in order to receive the service provided by the present invention, the terminal may be installed with a separately provided application or program.

The habitat system 100 created by the method for creating a roof green wetland habitat according to an embodiment of the present invention is provided on the outside of the waterproof edge 110 and includes an external planting unit 190 including soil for vegetation; A second pipe 210 installed to supply water from the pump 150 to the external planting part 190 and a second valve 211 installed to open and close the supply of water, and the soil to the external planting part 190 It may further include a soil moisture sensor 220 installed to measure the moisture of the output as a detection signal.

The control unit 180 receives the detection signal of the soil moisture sensor 220, controls the pump 150 and the second valve 211 to adjust the moisture of the external planting unit 190, the soil moisture sensor 220 ) When the moisture of the external planting part 190 measured from the insufficient range is less than the predetermined range, moisture is supplied to the external planting part 190 through the opening of the second valve 211 along with the operation of the pump 150, When the moisture in the external planting part 190 is over a predetermined range, the second valve 211 is blocked along with the stop of the pump 150 . Here, the external planting part 190 may be installed to surround the circumference of the waterproof edge 110 . Also, the second pipe 210 may be installed to extend along the periphery of the waterproof edge 110 , and a plurality of sprinklers 212 may be installed to be spaced apart from each other along the longitudinal direction. Accordingly, the second pipe 210 may allow a relatively uniform moisture supply to a wide area by the sprinkler 212 .

The habitat system 100 created by the method for creating a roof green wetland habitat according to an embodiment of the present invention may further include a CCTV 230 installed to observe the state of plants growing on the aggregate 130, It may further include an NDVI sensor 240 installed to observe the growth state of the plant and output it as a detection signal by utilizing the spectral reflection characteristics of plants planted on the aggregate 130 .

The controller 180 may provide an image obtained from the CCTV 230 to a terminal (not shown) determined by communication of a communication unit (not shown). In addition, the controller 180 or the terminal may determine the species and quantity of plants by image processing and provide them as data.

In addition, the control unit 180 may receive the detection signal of the NDVI sensor 240 and provide it to a terminal determined by communication of the communication unit. Here, the control unit 180 or the terminal may calculate the growth state of the plant according to a predetermined process from the detection signal of the NDVI 240 .

1 is a flowchart illustrating a method for forming a green roof wetland habitat according to an embodiment of the present invention. On the other hand, in the method for creating a habitat for greening wetlands on the roof according to an embodiment of the present invention, the reference numerals of the habitat system 100 described above will be used. Also, the operation performed in the present invention may be performed under the control of the controller 180 .

Referring to FIG. 1 , in the method for creating a green wetland habitat for rooftops according to an embodiment of the present invention, first, as in FIG. 8 , a waterproof edge 110 is installed on the composition surface to protrude around the space for wetland formation (S11). ). In this case, it is possible to install a functional sheet for the realization of a desired function in advance on the composition side.

In the step (S11) of installing the waterproof edge 110, the waterproof edge 110 may be made of a metal plate, and the support surface 113 (refer to FIG. 4) for surface contact with the composition surface is formed horizontally by bending, thereby supporting It is installed so as to be vertical from the surface 113, and by positioning the edge of the waterproof sheet 120 to protrude upward, it can have a dam function for blocking the discharge of aggregate 130 or water accommodated inside.

Then, as in FIG. 9, by fixing the edge of the waterproof sheet 120 on the waterproof edge 110, a waterproof treatment for the formation of a wetland space on the inside of the waterproof edge 110 is performed (S12) ).

In the step (S12) of performing the waterproof treatment, the waterproof edge 110 is fitted with the fixing clip 111 (refer to FIG. 4) in a state in which the edge of the waterproof sheet 120 is spanned on the top, so that the upper end of the waterproof edge 110 is inserted. The edge of the waterproof sheet 120 can be fixed to the , where the fixing clip 111 is formed in the form of a bar to extend along the top of the waterproof edge 110, so that by the fixing clip 111 The fixing portion of the waterproof sheet 120 may be extended along the upper end of the waterproof edge 110 , thereby allowing the waterproof sheet 120 to be widely and firmly fixed.

In the step (S12) of performing the waterproofing treatment, the fixing clip 112 (refer to FIGS. 5 to 7) according to another example may be formed to be installed in plurality at intervals along the upper end of the waterproof edge 110, one The cutout 112b is formed so as to be cut from the bottom to the top of the side, so that the elastic force of one side is divided into a plurality by the cutout 112b and provided independently, and multiple fixing to the waterproof sheet 110 can make this happen.

When the waterproofing treatment is finished, as in FIGS. 10 to 13, by installing the aggregate 130 on the waterproof sheet 120, the water storage unit 140 for water storage is formed on the inside of the waterproof edge 110 ( S13). In this process, as in FIG. 10 , after cleaning the floor for the water storage unit 140 , as in FIG. 11 , the revetment construction by the installation of the aggregate 130 is performed, and as in FIG. 12 , the water storage unit By performing the waterproof test for 140 , as shown in FIG. 13 , the composition of the water storage unit 140 is completed.

And, by measuring the water level of the water storage unit 140 with the water level sensor 170, and opening the first valve 161 together with the pumping of the pump 150 to the water storage unit 140, the first pipe 160 By supplying water through the water, the water level of the water storage unit 140 is adjusted (S14).

In the step (S14) of adjusting the water level of the water storage unit, the control signal and the water level setting value for the operation provided by the communication of the communication unit (not shown) are received from the terminal (not shown), and the operation and water level corresponding to the control signal are received. It is possible to perform control to maintain the water level of the water storage unit 140 corresponding to the set value, and to provide information on the water level of the water storage unit 140 and the current operating state to a terminal determined by communication of the communication unit. can

After the step (S14) of adjusting the water level of the water storage unit 140, the amount of soil moisture for the external planting part 190 provided on the outside of the waterproof edge 110 is measured, and the external planting part 190 is pumped 150. ) by supplying moisture, it is possible to adjust the amount of soil moisture of the external planting unit 190 (S15). Here, the external planting part 190 may be installed to surround the circumference of the waterproof edge 110 , and the second pipe 210 for supplying moisture from the pump 150 to the external planting part 190 is the waterproof edge. It may be installed to extend along the periphery of 110 , and a plurality of sprinklers 212 along the longitudinal direction of the second pipe 210 may be installed to be spaced apart from each other.

After the step (S14) of adjusting the water level of the water storage unit 140, the state image of the plants vegetation on the aggregate 130 may be obtained from the CCTV 230 and provided to a terminal determined by communication of the communication unit (S16). ).

After the step (S14) of adjusting the water level of the reservoir, the growth state of the plant using the spectral reflection characteristics of the plant vegetation on the aggregate 130 is obtained from the NDVI sensor 240, and the terminal determined by the communication of the communication unit. can be provided (S17).

Here, the step of adjusting the soil moisture content of the external planting unit 190 (S15), the step of providing a state image of the plant to the terminal (S16), and the step of providing the growth state of the plant to the terminal (S17) are the It is of course not necessary to limit the before and after order as in FIG. 1 , and may be configured to be different or performed at the same time as necessary.

14 is a monitoring main screen of a terminal provided by the present invention, which is connected to a web server by a sensor data collection and communication device to be described later and includes input of ID and password, mobile phone authentication, card authentication, certificate authentication, etc. It may be a screen provided to a terminal that has completed user authentication. Here, ① is a list of projects, allowing you to select a project registered in the corresponding login account. ② indicates the location of the site, and the location of the site is indicated on the map. ③ is an item-sensor, and displays the name and current status of the item (sensor) registered in the project. ④ is an item-actuator, and displays the name of the item (actuator) registered in the project and the operating environment. ⑤ is the actuator control, allowing mode (auto/manual) change and operation control to be operated. ⑥ is a VMS, which is a real-time on-site monitor through the CCTV 230. ⑦ is a ring roll-over menu, which displays a menu that can be accessed when the mouse is over. ⑧ is the alarm history, and the status (operation, error) of the item is expressed. ⑨ indicates logout, indicating logout of the account.

15 is a graph view of various data provided in the monitoring screen of the terminal provided by the present invention, FIG. 16 is a screen for data search and download in the monitoring screen of the terminal provided by the present invention, and FIG. is a screen for setting a target site and a project in the monitoring screen of the terminal provided by the present invention.

Referring to FIG. 18 , in the method for creating a green wetland habitat for rooftops according to an embodiment of the present invention, after the step (S14) of adjusting the water level of the water storage unit 140 (S14), the water level sensor 180, the waterproof edge 110 A soil moisture sensor 220 installed to measure the soil moisture in the external planting unit 190 provided for vegetation on the outside and output as a detection signal, a fine dust sensor for measuring fine dust around the waterproof edge 110 , CCTV 230 installed to observe the state of plants planted on the aggregate 130 and the spectral reflection characteristics of plants planted on the aggregate 130 are used to observe the growth state of the plant and output it as a detection signal. By providing the detection signal and image collected by the sensor data collection and communication device that collects the detection signal and image obtained from the NDVI sensor 240 to be provided to the web server through the data server, it is provided to the terminal connected to the web server, , when the sensor data collection and communication device receives the control signal provided from the terminal and transmits it to the control unit 180, allowing the control unit 180 to perform a control operation corresponding to the control signal. there is. The step of providing such a detection signal and image to the terminal and performing a control operation corresponding to the control signal is the step of providing the above-described state image of the plant to the terminal (S16), and the growth state of the plant to the terminal It may be configured to replace the providing step (S17).

According to the method for creating a rooftop greening wetland habitat according to the present invention as described above, in urban greening, it is possible to provide not only terrestrial biotope but also aquatic biotope to provide diversity of vegetation vegetation, and to provide an eco-friendly and colorful resting space can do.

In addition, according to the present invention, it is possible to provide the reliability of the waterproofing method and provide the ease of construction, economical construction can be made, the convenience of maintenance and management can be provided, and the provision of useful data for vegetation can be provided. This can be done to maximize vegetation efficiency.

As described above, the present invention has been described with reference to the accompanying drawings, but it goes without saying that various modifications and variations can be made within the scope without departing from the technical spirit of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims described below as well as those claims and equivalents.

10: installation surface 110: waterproof edge
111, 112: fixing clip 111a: fitting part
112a: fitting portion 112b: cutout
113: support surface 120: waterproof sheet
130: aggregate 140: reservoir
150: pump 160: first pipe
161: first valve 170: water level sensor
180: control unit 190: external planting unit
210: second pipe 211: second valve
212: sprinkler 220: soil moisture sensor
230: CCTV 240: NDVI sensor

Claims (11)

Installing a waterproof edge so as to protrude around the space for forming a wetland on the composition surface;
By fixing the edge of the waterproof sheet on the waterproof edge, performing a waterproofing treatment for the formation of a wetland space on the inside of the waterproof edge;
By installing aggregate on the waterproof sheet, forming a water storage unit for water storage on the inside of the waterproof edge; and
measuring the water level of the water reservoir with a water level sensor and supplying water to the water reservoir with a pump, thereby adjusting the water level of the water reservoir;
A method of creating a habitat for a rooftop green wetland, including. The method according to claim 1,
The step of installing the waterproof edge is,
The waterproof edge is made of a metal plate, and the support surface for surface contact with the composition surface is formed horizontally by bending, so that it is installed so as to be vertical from the support surface, and received inside by positioning the edge of the waterproof sheet to protrude upward To have a dam function to block the discharge of the aggregates or water, which is a method for creating a habitat for a rooftop green wetland. The method according to claim 1,
The step of performing the waterproofing treatment is,
By inserting a fixing clip in a state in which the edge of the waterproof sheet is spread over the top of the waterproof edge, the edge of the waterproof sheet is fixed to the top of the waterproof edge. 4. The method according to claim 3,
The step of performing the waterproofing treatment is,
By forming the fixing clip in the form of a bar to extend along the top of the waterproof edge, the fixing part of the waterproof sheet is extended along the top of the waterproofing edge by the fixing clip. . 4. The method according to claim 3,
The step of performing the waterproofing treatment is,
The fixing clip is formed to be installed in plurality at intervals along the upper end of the waterproof edge, and an incision is formed so as to be cut from the lower end to the upper end of one side, so that the elastic force of one side is divided into a plurality by the incision and is independent A method of creating a rooftop green wetland habitat. The method according to claim 1,
The step of adjusting the water level of the reservoir is,
Receives a control signal and a water level setting value for an operation provided by communication of the communication unit from the terminal, and performs an operation corresponding to the control signal and control for maintaining the water level of the water storage unit corresponding to the water level setting value, , to provide information on the water level of the reservoir and the current operating state to a terminal determined by communication of the communication unit, a method for creating a habitat for greening wetlands on a rooftop. 7. The method according to any one of claims 1 to 6,
After the step of adjusting the water level of the water storage part, by measuring the amount of soil moisture for the external planting part provided on the outside of the waterproof edge, and supplying moisture with the pump to the external planting part, the soil moisture amount of the external planting part A method for creating a rooftop green wetland habitat, further comprising the step of adjusting. 8. The method of claim 7,
The step of adjusting the soil moisture content of the external planting part,
The external planting part is installed to surround the perimeter of the waterproof edge, and a second pipe for supplying moisture to the external planting part from the pump is installed to extend along the periphery of the waterproof edge, and the length of the second pipe A method of creating a habitat for greening wetlands on a rooftop, in which sprinklers are installed to be spaced apart from each other in multiple numbers along the direction. 7. The method according to any one of claims 1 to 6,
After the step of adjusting the water level of the reservoir, obtaining an image of the state of the plants growing on the aggregate from CCTV, further comprising the step of providing it to a terminal determined by communication of the communication unit, the method for creating a green wetland habitat. 7. The method according to any one of claims 1 to 6,
After the step of adjusting the water level of the reservoir, obtaining the growth state of a plant utilizing the spectral reflection characteristics of the plant vegetation on the aggregate from the NDVI sensor, further comprising the step of providing to a terminal determined by communication of the communication unit , How to create a rooftop green wetland habitat. The method according to any one of claims 1 to 6, after the step of adjusting the water level of the water storage unit, the water level sensor, the detection signal by measuring the moisture of the soil in the external planting unit provided for vegetation on the outside of the waterproof edge Soil moisture sensor installed to output to, fine dust sensor for measuring fine dust around the waterproof edge, CCTV installed to observe the state of plants vegetation on the aggregate, and spectral reflection characteristics of plants vegetation on the aggregate The sensor data collection and communication device that collects the detection signals and images respectively acquired from the NDVI sensors installed to observe the growth state of plants and output them as detection signals by utilizing the web server through the data server by providing to the terminal connected to the web server, and when the sensor data collection and communication device receives the control signal provided from the terminal from the web server and transmits it to the control unit, the control unit corresponds to the control signal The method further comprising the step of performing a control operation to:

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