KR101419123B1 - Hydroponic Roof Planting System - Google Patents

Abstract

The rooftop greening apparatus using hydroponics according to the present invention is characterized in that it comprises a cultivation tank in which a culture medium is placed and plants are planted and a drainage hole for passing water and air therethrough and a bottom at the bottom of the cultivation tank, A float valve for supplying the nutrient solution from the outside to the nutrient solution tank, a floating valve provided at the end of the nutrient solution tank in the nutrient solution tank to keep the nutrient solution level of the nutrient solution tank constant, The bottom of the wick is connected to the nutrient solution through the bottom to form a 'U' shaped top to prevent rainwater or plant roots from entering the nutrient solution through the wick. And has a wick guide portion formed integrally.
According to the present invention, the concentration of the nutrient solution is kept constant because the cultivation tank is overflowed or the nutrient solution is not diluted, and the rainwater is drained through the drainage hole on the side of the cultivation tank through the culture medium, , The rooftop sunlight and the nutrient solution of appropriate concentration can be continuously supplied to provide optimum conditions for plant growth.
Therefore, although the size of the device is not so large, the plant grows quickly and can supply the necessary moisture and nutrients continuously. Therefore, it is possible to grow plants with larger or larger sizes such as tomatoes, amber and ivy, have. In addition, when planting annual plants such as amber, it grows in the hottest July to August when planting seedlings that are grown early in the spring. Therefore, it is the original purpose of rooftop greening which cuts off the sunlight on the roof in hot summer, It is advantageous to be faithful to.
Also, since the weight of the device is light, it is possible to install it on the roof of an old building or a small residential building where the maximum allowable load is not large.
In addition, when the facilities of the building are changed or demolished, no separate power source is required, and the existing rooftop greening means become waste which can not be recycled. However, the rooftop greening device according to the present invention can be easily removed and newly installed on the roof of another building It is 100% recyclable, which means it is more environmentally friendly.

Description

{Hydroponic Roof Planting System}

The present invention relates to a device for growing plants using hydroponic cultivation on a rooftop, which is lighter than a brick and soil flower bed, provides an optimal condition for plant growth, and is more environmentally friendly, .

When plants grow on the rooftops, the leaves cut off the sunlight and reduce the temperature of the rooftop through the process of evaporation, which reduces the cooling cost of the building, improves the aesthetics of the building and provides space for people to relax . In the city, the larger the area of the rooftop where the plant grows, the lower the temperature of the city, which mitigates the phenomenon of heat-exchange, improves cityscape and protects the diversity of biodiversity.

Since the rooftop greening has such wide and diverse advantages, local governments in each region are encouraging the greening of the rooftop by providing subsidies and bylaws, and it is expected that the importance of rooftop greening will continue to grow in the future.

Conventional rooftop greening methods have created relatively shallow vegetation layers consisting of several layers with the function of planting deep trees and filling them with general soil or artificial soil and then planting trees or functioning to drain, support, and store water There is a method of planting a covered plant such as grass after it.

These rooftop greening means do not require special care once installed and have a little warming effect even in winter. However, these conventional roof greening means have a disadvantage in that it is difficult to install in a building having a small maximum permissible load due to the weight of soil and moisture combined, installation cost is high, a lot of waste materials are removed at the time of demolition, and restoration is difficult.

On the other hand, there are various types of hydroponic cultivation devices, but there is no particular device that can be used for rooftop greening. When rain water is used in a backyard irrigation system or an E & F (Ebb & Flow) system having a wide rearrangement tank, rainwater is introduced into the cultivation tank and it is difficult to dilute the nutrient solution. NFT (Nutrient Film Technique), which uses a pipe-type regrowth, has a drawback in that it can not be used for a large amount of rainwater but it can not grow large plants and the installation cost is high.

Accordingly, the problem to be solved by the present invention is to provide a plant which can be installed in a building having a small maximum permissible load by using a principle of hydroponic cultivation, which is simple in installation, high in installation cost and light in weight, And to provide an eco - friendly rooftop greening device that can recycle materials during demolition.

In order to achieve the above-mentioned object, the present invention provides a method of manufacturing a plant, comprising: a cultivation tank in which a culture medium is placed and plants are planted; a drainage hole provided at the lower end of the cultivation tank for passing water and air therethrough, A floating valve provided at an end of the liquid level pipe in the nutrient solution tank for maintaining a constant level of the nutrient solution in the nutrient solution tank; A core inserted into the culture medium and passing through the lower end of the culture tank and connected to the culture medium of the nutrient solution, and a 'U' shaped upper end inverted to prevent the roots of rainwater or vegetation from entering the nutrient solution vessel, ≪ / RTI > and a lower end formed integrally with the bottom of the cultivation tank, The proposed device.

According to the present invention, since the rainwater does not flow into the nutrient solution due to a lot of rain, the nutrient solution is not diluted so that the concentration of the nutrient solution is kept constant and the rainwater is drained through the drainage hole on the side of the re- And it is possible to provide optimal conditions for plant growth by continuously providing the rooftop sunlight and the nutrient solution of appropriate concentration.

Therefore, although the size of the device is not so large, the plant grows quickly and can supply the necessary moisture and nutrients continuously. Therefore, it is possible to grow plants with larger or larger sizes such as tomatoes, amber and ivy, have. In addition, when planting annual plants such as amber, it grows in the hottest July to August when planting seedlings that are grown early in the spring. Therefore, it is the original purpose of rooftop greening which cuts off the sunlight on the roof in hot summer, It is advantageous to be faithful to.

Also, since the weight of the device is light, it is possible to install it on the roof of an old building or a small residential building where the maximum allowable load is not large.

In addition, when the facilities of the building are changed or demolished, no separate power source is required, and the existing rooftop greening means become waste which can not be recycled. However, the rooftop greening device according to the present invention can be easily removed and newly installed on the roof of another building It is 100% recyclable, which means it is more environmentally friendly.

1 is a partially cutaway perspective view for explaining a rooftop greening device according to a first embodiment of the present invention.
2 is a front cross-sectional view for explaining a rooftop greening device according to the first embodiment of the present invention.
3 is a front cross-sectional view for explaining a rooftop greening apparatus according to a second embodiment of the present invention.
4 is a front cross-sectional view for explaining a rooftop greening device according to a third embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

FIG. 1 is a partially cutaway perspective view for explaining a rooftop greening apparatus according to a first embodiment of the present invention, and FIG. 2 is a front cross-sectional view for explaining a rooftop greening apparatus according to a first embodiment of the present invention.

Referring to the drawing, the rooftop greening device according to the present embodiment is provided with a cultivation tank, a nutrient solution tank, and a nutrient solution tank.

Inside the cultivation tank 10, a wick guide portion 14 and a wick 13 are provided, and a culture medium 11 is placed thereon. When the plant material is mixed with a mixture of pearlite and vermiculite at a ratio of about 6 to 4, the medium 11 is circulated well to the root, and a proper amount of the nutrient solution can be absorbed from the wick (13) It can provide a good condition for growth. The wick 13 is made of a felt and serves to raise the nutrient solution 21 in the nutrient solution tank 20 at the bottom of the cultivation tank 10 by the capillary phenomenon and deliver it to the medium 11. As the plant absorbs the nutrient solution or evaporates by the climate, the wick (13) lifts the nutrient solution and transfers it to the medium (11), so that the plant can continuously supply necessary nutrient solution. The wick 13 is connected to the culture medium 11 by a wick guide portion 14 integrated at the bottom of the remirror 10. The core induction portion 14 receives the wick 13 therein and allows the wick 13 to connect the nutrient solution 20 and the medium 11 so that the wick 13 can be positioned in the middle of the medium 11. [ do. The lower end of the core inducing portion 14 is hermetically fixed to the floor of the remirror 10 to prevent rainwater or roots of the plant from flowing into the nutrient solution 20. [ Since the roots of the plant inducing portion 14 have a positive roughening property, the roots are formed into an inverted 'U' shape to prevent roots from riding on the wick 13 and reaching the nutrient solution 20, And has an upward section 15 of a predetermined length in a direction opposite to the direction of the gravitational force. Even if the upper end of the wick guide portion 14 is formed in a straight line, even if the amount of the rainwater flowing into the nutrient solution tank 20 is small and the roots of the plant are extended to the nutrient solution tank 20, The operation of the floating valve 22 may be disturbed.

A number of drainage holes 12 are formed at the bottom of the side surface of the cultivation tank 10, each of which has a number of holes smaller than the particle size of the medium 11 in an area of about 1 square centimeter. The rainwater flowing into the cultivation tank 10 through the culture medium 11 when the rain is heavy causes the accumulated salt accumulated in the culture medium 11 to be dissolved and discharged through the drainage hole 12. The accumulation of salts in the medium (11) can injure the roots of plants and cause an imbalance of nutrients, thereby inhibiting the growth of the plants. However, once they are in the rain, the accumulation of salts can be eliminated and the growth of the plants can be maintained normally .

A predetermined amount of the nutrient solution (21) is received in the nutrient solution tank (20), and the nutrient solution is supplied to the nutrient solution through the wick (13). In order to keep the level of the nutrient solution 21 in the nutrient solution tank 20 constant, the nutrient solution tank 20 is provided with a liquid feed pipe 23 for continuously supplying nutrient solution from the outside and a floating valve 22 are installed. When the amount of the nutrient solution 21 is reduced by consuming the nutrient solution or by natural drying, the floating valve 22 is opened and when the nutrient solution is supplied to the nutrient solution tank 20 and the level of the nutrient solution 21 is increased, The supply of the nutrient solution is shut off and the level of the nutrient solution 21 in the nutrient solution tank 20 is always kept constant.

Nutrients necessary for plant growth are diluted and stored in the nutrient bottle 30 and supplied to the nutrient solution tank 20 through the liquid-feeding pipe 23. If the capacity of the nutrient solution bottle 30 is small, the nutrient solution 30 should be replenished as often as possible. If the capacity of the nutrient solution bottle 30 is large, the cycle of replenishing the nutrient solution becomes long.

3 is a front cross-sectional view for explaining a rooftop greening apparatus according to a second embodiment of the present invention. The same components as those of the first embodiment are denoted by the same reference numerals, and a description thereof will be omitted.

In this embodiment, in order to supply the nutrient solution 21 into the nutrient solution tank 20 and maintain the level of the nutrient solution 21, the nutrient solution tank 30, the liquid-supply pipe 23, A liquid bottle 40 equipped with a touch valve 41 at its inlet is provided instead of the valve 22. The nutrient bottle 40 is made of a material having a predetermined strength or more so that the inside thereof is sealed and can withstand negative pressure by the nutrient solution 42 in the nutrient bottle 40. The touch valve 41 is made of a material, The touch valve 41 is shut off so that the nutrient solution 42 is prevented from flowing out and the touch valve 41 is opened when the nut 43 is positioned on the inner surface 43 of the nutrient solution tank 20 so that the nutrient solution 42 To flow at a constant height so that the nutrient solution in the nutrient solution tank 20 can be maintained at a constant height.

4 is a front cross-sectional view for explaining a rooftop greening device according to a third embodiment of the present invention. The same components as those of the first embodiment are denoted by the same reference numerals, and a description thereof will be omitted.

As shown in the drawing, in this embodiment, even when the nutrient solution is not continuously supplied from the outside as in the first embodiment, the capacity of the nutrient solution is sufficient and the nutrient solution can be supplied to the plant for a long time. However, since there is a limitation on the height of the wick that can raise the nutrient solution by the capillary phenomenon, the capacity of the nutrient solution is limited. Therefore, it is suitable for growing a small plant with little or no consumption of nutrient solution. Can be used as a flower pot.

10: Cultivation group 11: Badge
12: Drain hole 13: Wick
14: wick guide portion 15: upward section
20: nutrient solution 21: nutrient solution
22: Floating valve 23: Liquid supply pipe
30: Nutrient reservoir 40: Nutrient reservoir
41: touch valve 42: nutrient solution
43:

Claims (4)

A cultivation tank in which a medium is placed and plants are planted; A small drainage hole for passing water and air therethrough, a nutrient solution provided at a lower end of the redistricting tank, and a bottom surface of the bottom of the redistricling tank, And a wick guiding part which receives the wick and is integrated with the bottom of the cultivation ward. [2] The planting apparatus according to claim 1, wherein the upper end of the wick guide portion is formed in an inverted 'U' shape, and has an upward section of a predetermined length in a direction opposite to the direction of gravity extending from the roots of the plants planted in the medium . delete delete

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