KR101188207B1 - Multi stage culture system of solid plant - Google Patents

Abstract

The present invention provides an irrigation function and drainage function to each of the cultivation housing as an independent individual, and the irrigation and drainage classification can be easily performed by configuring each cultivation housing to be organically connected to each other, and the user can change the individual cultivation housing as needed. The present invention relates to a three-dimensional plant cultivation system that can be landscaped according to the building characteristics of a city by arranging in a form.
The present invention comprises a cultivation housing assembly composed of a combination of independent individual housings formed with at least one plant cultivation groove in which seedlings of a unit can be planted, wherein each individual housing is mutually arranged in layers; An irrigation canal which is installed penetrating from the top of the cultivating housing assembly to the bottom of the cultivating housing, and has irrigation canals formed for each layer to introduce water necessary for plant growth provided from the water supply pipe into the plant cultivation groove of each individual cultivating housing; A drainage passage installed through the top of the cultivation housing assembly from the top to the bottom of the cultivation housing, and having a drainage hole formed at a position opposite to the cultivation groove of each individual cultivation housing; One end is connected to the irrigation canals of the irrigation canisters located on each floor to enter and exit the water, the water quantity adjusting means for controlling the amount of water fed into the plant cultivation groove side from the irrigation canals; And it is connected to the outlet hole of the water quantity control means, and provides a three-dimensional plant cultivation system comprising a water distribution means for supplying water droplets to the plant cultivation groove of each individual cultivation housing.

Description

Multi stage culture system of solid plant

The present invention relates to a three-dimensional plant cultivation system having an irrigation function and drainage function, and more particularly, to install irrigation and drainage facilities in each of the cultivation housing as an independent individual, water or nutrient solution (moisture, including nutrients) without power The present invention relates to a three-dimensional plant cultivation system that can be used as a landscaping facility for aesthetics at the right place while preventing the viral infection among individual plant plants while making the growth of independent plant plants smooth by growing them. .

In general, vegetables and flowers need a certain amount of moisture and nutrients continuously, general consumers who want to grow it is difficult to measure the amount of sunshine hours and water input, such as overdose water or nutrients, There was a problem that could not grow. In order to overcome this problem, it is necessary to observe the nutrient supply time and nutrient inputs according to certain data according to the characteristics of crops so that plants such as vegetables or flowers can be grown for a long time. However, in the case of general consumers, it takes a long time to acquire data or knowledge related to the cultivation, and even if the cultivator acquires skills about the cultivation experience, it takes a long time and a cost.

In recent years, there is a growing interest in improving the beauty of the city and promoting emotional stability through landscaping facilities for flowers. As part of this, they show their landscaping facilities through annual flower fairs. However, most of the landscaping facilities through these flower fairs were only disposable facilities for the event, so it was difficult to apply them as landscaping facilities of public housing such as parks, road railings, fences around the government offices, and apartments.

On the other hand, as a prior art that can grow plants, such as plants or vegetables in a limited space is a laminated cultivation container has been proposed in Korean Patent No. 032158, Patent No. 0500019 and the like.

As shown in FIGS. 1 and 2, the former Patent No. 0322158 maintains an interval for maintaining a gap between the aerial cultivator 110 and the aerial cultivator 110, in which cultivated plants are planted and formed upright in multiple layers. A pipe 114 having a sphere 112, a rotating support 113 for rotating a multi-layer air cultivator, a supply hose 115 for supplying nutrient liquid to the air cultivator, and an upper end of the pipe 114 Installed in the water fountain 116 for ejecting the nutrient solution, and the nutrient solution ejected from the water fountain 116 is installed in the pipe 114 position below the spacing holding 112 to the aerial cultivator 110. Diffusion pad 117 for spraying, and a nutrient solution tank 118 with a circulation pump 119 is included.

In the above configuration, the nutrient solution is pumped through the supply hose 115 of the pipe 114 from the nutrient solution tank 118 by the operation of the circulation pump 119, and is ejected through the water fountain 116. The ejected nutrient solution flows into the gap holding region 112 and is overflowed, and the overflowed nutrient solution is sprayed to the aerial cultivator 110 through the diffusion pad 117, and the nutrient solution flowing out to the lower part of the aerial cultivator is again located at the lower side. Flows into the gap maintaining region 112 '. This operation is repeated so that the nutrient solution is sprayed to the lowest air cultivator.

As shown in FIG. 3, the latter patent No. 0500019 technology is formed so as to stand upright in a multi-layer, and maintains a gap between the air cultivator 210 arranged in a plurality of rows and the air cultivator 210. 212, a rotary support 213 for rotating the multi-layer air cultivator, a plurality of air cultivators 210 arranged side by side, a vertical pipe 214, a plurality of branch pipes are formed, A water supply pipe 215 for supplying water to the vertical pipe 214, a nozzle connected to the branch pipe of the vertical pipe 214, and a nozzle 216 for supplying water to the individual air cultivators 210, respectively; The upper and lower water circulation pipes 217 and 218 for collecting water discharged to the lower part of the air cultivator 210 and flowing back into the external water tank, and heating the water introduced through the lower water circulation pipe 218. It includes a circulation pump 219 to circulate.

When the nutrient solution, which is a mixture of nutrients and water filled in the water tank, is supplied to the vertical pipe 214 through the water supply pipe 215, each air cultivator is connected to the nozzle 216 connected to the branch pipe of the vertical pipe 214. Nutrient solution is supplied to 210. The nutrient solution discharged from the aerial cultivator 210 is collected by the lower water circulation pipe 218, is heated to a proper temperature in the circulation pump 219 is supplied to the water supply pipe again.

These structures can be cultivated vertically to increase the cultivation area and to cultivate crops efficiently by stacking planters vertically.In the case of horticulture, various kinds of flowers can be grown, Since the planting plant is arranged, it provides an advantage that can be utilized for ornamental purposes.

In addition, the above structure is provided with a separate means for supplying the nutrient solution and by separately installing a cold and hot water supply device that can supply moisture in response to the temperature change according to the season, it is possible to produce year-round due to high temperature obstacles and cold sea, Seedling transplants offer the advantage.

However, the stacked planter of the above-described structure has a simple structure of stacking the aerial cultivator upwards. In addition, there is no suitable irrigation system, so there is a problem that is not suitable as a landscaping facility for the aesthetics of the city buildings or for ornamental purposes.

Considering the above-mentioned three-dimensional plant cultivation method from an irrigation standpoint, the plant cultivation system using artificial irrigation or irrigation method, or all having a drainage pipe for each plant cultivation home, It is not possible to design natural drainage of drainage after irrigation. Thus, water flowing along the top plant cultivation groove flows to the ground through the lower plant cultivation groove. Due to this, there is a problem causing a very severe obstacle because the land of the plant located below is too humid. In addition, when the upper plants are contaminated with viruses, the plants below are also contaminated by water discharged after irrigation. In particular, the three-dimensional plant cultivation method has a problem that all irrigation facilities are exposed to the outside can be easily damaged.

Therefore, the present invention has been proposed to solve the above problems, and to provide irrigation and drainage function to each of the cultivation housing as an independent individual, and to configure each cultivation housing to be organically connected to each other irrigation and drainage The purpose is to provide a three-dimensional plant cultivation system that allows easy sorting and allows the user to arrange the individual cultivation housings in various forms and to landscape the urban buildings.

Another object of the present invention is to provide a three-dimensional plant cultivation system capable of preventing infection of viruses between plants planted in each cultivation housing by installing irrigation and drainage facilities independent of each cultivation housing. have.

In order to achieve the above object, the first embodiment of the present invention comprises a combination of independent individual housings in which at least one plant cultivation groove is formed in which seedlings of a unit can be planted, and each individual housing is arranged in layers. A cultivation housing assembly; An irrigation canal which is installed penetrating from the top of the cultivating housing assembly to the bottom of the cultivating housing, and has irrigation canals formed for each layer to introduce water necessary for plant growth provided from the water supply pipe into the plant cultivation groove of each individual cultivating housing; A drainage passage installed through the top of the cultivation housing assembly from the top to the bottom of the cultivation housing, and having a drainage hole formed at a position opposite to the cultivation groove of each individual cultivation housing; One end is connected to the irrigation canals of the irrigation canisters located on each floor to enter and exit the water, the water quantity adjusting means for controlling the amount of water fed into the plant cultivation groove side from the irrigation canals; And it is connected to the outlet hole of the water quantity control means, and provides a three-dimensional plant cultivation system comprising a water distribution means for supplying water droplets to the plant cultivation groove of each individual cultivation housing.

Here, the water quantity control means is an outer tube having a water outlet pipe on one side; An inlet pipe connected to the irrigation canal of the irrigation canal is provided on one side, and the inner pipe is fitted to the outer pipe; A plurality of partitions provided on one surface of the inner tube to form a water channel, and delaying the flow of water supplied through the inlet pipe; And a check valve installed at the water outlet pipe of the outer tube and opened only when water pressure flowing along the water channel formed by the partition wall is generated.

In another embodiment of the present invention comprises a combination of the individual housing housing is formed with at least one plant cultivation groove in which the seedlings of the unit can be planted, the cultivation housing assembly of the housing of each independent object is arranged in combination with each other; A water purification basin provided at an upper end of the plant cultivation groove of the individual cultivation housing and having a through hole for supplying water through the plant cultivation groove; A sewage basin extending from the rear end of each plant cultivation groove to reach the drain hole of the drainage channel; A water supply pipe for supplying water to the water purification basin of the uppermost cultivation housing; Through the sewage basin from the water purification basin of each individual cultivation housing, protruding to the top of the water purification basin to overflow the water exceeding the storage capacity of the water purification basin, and the individual flow of the water passing through the overflow pipe downstream An irrigation canal provided with a supply pipe for supplying water to the water supply basin of the housing; A drainage pipe which vertically penetrates the sewage basin of the lowermost individual cultivation housing from the water supply basin of the uppermost individual cultivation housing, and is formed at a position facing each individual drainage basin to form a drainage hole for discharging water that has passed through the sewage basin; One end is connected to the water supply pipe of the irrigation canal water in and out, water quantity adjusting means for controlling the amount of water flowing into the plant cultivation groove side from the irrigation canal; And a water distribution means for supplying water droplets to the plant cultivation grooves of the cultivation housing of each independent individual, connected to the outlet hole of the water quantity control means, wherein the irrigation channel is located at a predetermined interval. It is located at intervals between the lower and lower cultivation housing to provide a three-dimensional plant cultivation system characterized in that the water flowing over from the upper water supply basin to the lower water supply basin to irrigation.

As described above, according to the present invention, the cultivation housing provided with irrigation and drainage facilities is composed of each independent individual, and the cultivation housing can be arranged in various forms so that landscaping can be made in accordance with the building characteristics of the city. In particular, since the cultivation housing of the independent object can be utilized on the wall surface, elevation, slope landscaping, etc., it is possible to improve the aesthetics of the city and to realize sound insulation or thermal insulation in terms of functionality.

In addition, the present invention can facilitate irrigation and drainage classification by allowing each cultivation housing to be individually irrigated and drained, there is another effect that can prevent the infection of viruses between each plant.

In addition, the present invention has another effect that the growth and growth, and the simple replacement of the plant cultivation container is easy to exchange soil and seedlings.

1 and 2 is a cross-sectional view showing an example of a stacked plant cultivation apparatus according to the prior art,
Figure 3 is a perspective view showing another example of the stacked plant cultivation apparatus according to the prior art,
Figure 4 is a perspective view showing the overall configuration of the three-dimensional plant cultivation system according to the present invention,
Figure 5 is an exploded perspective view showing the configuration of the main cultivation housing of the present invention,
6 is an assembled perspective view of FIG. 5;
Figure 7 is a side cross-sectional view showing a coupling configuration of the main cultivation housing of the present invention,
Figure 8 is a side cross-sectional perspective view of the three-dimensional plant cultivation system according to the present invention,
9 is a front sectional view of FIG. 4;
Figure 10 is an exploded perspective view showing the configuration of the cultivation housing having three cultivation grooves showing the configuration of the second embodiment of the present invention,
11 is a cross-sectional view of the cultivation housing assembly shown in FIG. 10;
12 is a cross-sectional view showing the construction of a water quantity control valve as a main part of a second embodiment according to the present invention;
Figure 13 is a side cross-sectional perspective view showing the configuration of a third embodiment of a three-dimensional plant cultivation system according to the present invention;
14 is a front sectional view of FIG.

The above-mentioned objects, features and advantages will become more apparent from the following detailed description in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The three-dimensional plant cultivation system according to the present invention improves the beauty of the city by arranging and arranging the plant cultivation housing of the individual to give irrigation and drainage function in various forms to improve the aesthetics of the plants, and to prevent the viral infection between the plants to grow growth It is implemented to facilitate.

Figure 4 is a perspective view showing the overall configuration of the three-dimensional plant cultivation system according to the present invention.

As shown in the figure, the present invention is composed of a combination of the cultivation housing (2) of the independent individual having at least one plant cultivation groove (2a) for accommodating the seedlings of the unit, the cultivation housing of each independent object ( 2) a plurality of cultivation housing assemblies which are mutually arranged in layers; It is installed so as to vertically penetrate from the uppermost side to the lowermost side of the cultivation housing assembly, irrigation canals (4a) for introducing water required for plant growth into the plant cultivation groove (2a) is formed for each layer, the irrigation canals (4a) An irrigation canal 4 in which each independent object cultivation housing 2 is independently connected to each plant cultivation groove 2a; A water supply pipe 6 connected to an irrigation channel 4 located at the top of the culture housing assembly to supply water; It is installed so as to vertically penetrate from the uppermost side to the lowermost side of the cultivation housing assembly, the discharge hole is provided corresponding to the cultivation groove (2a) of the individual cultivation housing (2) to drain the water leaked from the plant cultivation groove (2a) A drain channel 8 for discharging; It is installed on the lower side of the cultivation housing assembly's lowest cultivation housing (2), connecting each irrigation canal (4) by a branch pipe to the water passing through each irrigation canal (4) to a recovery tank (not shown) A return pipe 12 for inflow; And a main drain pipe 14 installed at a lower side of the lowermost cultivation housing 2 of the cultivation housing assembly and connecting each drainage channel 8 to a branch pipe to discharge water passing through each drainage channel 8. ).

Figure 5 is an exploded perspective view showing the configuration of the cultivation housing as an independent entity, which is the main part of the present invention, Figure 6 is a coupling configuration of Figure 5, Figure 7 is a side cross-sectional view of the individual cultivation housing combined in succession.

As shown in Fig. 5, the cultivation housing 2 includes an upper body 22 having a semicircular groove 22a constituting a part of the plant cultivation groove 2a; A lower body 24 having a semicircular groove 24a constituting the remaining part of the plant cultivation groove 2a; It is provided at the upper end of the upper body 22, and the water supplied from the irrigation canal (4a) is inclined downward so as to naturally flow to the plant cultivation groove (2a) side and penetrates to the plant cultivation groove (2a) A constant basin 26 having a through hole 26b to form an irrigation canal 4a; The water is discharged from the end of the semi-circular groove (24a) of the lower body 24, the water discharged from the plant cultivation groove (2a), the excess water exceeds the storage capacity of the drainage hole of the drainage channel (8) A sewage basin 28 to be reached to the side; And a connecting member 30 including a protrusion 30a formed at the bottom of the upper body 22 and a fitting groove 30b formed at the upper end of the lower body 28.

In the present invention, the water supply basin 26 is an example of a configuration having a space capable of storing the supply water, but is not limited thereto, the supply water is not stored in the water supply basin 26, it is directly through the hole (26b) It can be composed of a water plate inclined downward so as to flow into. In addition, the sewage basin 28 may be formed to be inclined downward toward the discharge hole, in particular, the bottom surface of the sewage basin 28 is located lower than the discharge hole of the drainage pipe (8) structure that can temporarily store water It is.

The cultivation housing 2 configured as described above forms a plant cultivation groove 2a by combining the semicircular groove 22a of the upper body 22 and the semicircular groove 24a of the lower body 24. The plant cultivation groove 2a of the cultivation housing 2 thus formed has a downward inclination angle, and the opening is positioned to face upward. Accordingly, the plant cultivation groove (2a) is not only good for receiving sunlight, but also the water soaked in the plant cultivation groove (2a) can be smoothly drained to the drain basin (28) side.

The irrigation canal (4) is protruded to the upper end of the water supply basin 26 of each upper body 22, the first pipe is provided with a branch pipe (32a) for supplying water toward the water supply basin (24) 32); A first straight pipe which protrudes from the first conduit 32 to the lower end of the lower body 24 to flow water directly downward, and has a bottom connected to the first conduit 32 'of the other upper body 22'; 34).

The drainage channel 8 includes a second conduit 36 protruding to an upper end of the water supply basin 26 of each upper body 22; One end is connected to the second conduit 36 and the other end protrudes to the lower end of each lower body 24, and the protruding portion is connected to the second conduit 36 'of the other upper body 22' and drained. Water flows directly below, and includes a second straight pipe 38 having a discharge hole 38a formed at each site where the sewage basin 28 is located.

In the present invention, the first pipeline 32 and the first straight pipe 34 constituting the irrigation canal 4, the second pipeline 36 and the second straight pipe 38 constituting the drainage channel 8 are It consists of a single tube. In addition, a watertight adapter (not shown) for preventing leakage is provided at a portion connecting the first straight pipe 34 of the upper upper body 22 and the first conduit 32 'of the lower upper body 22'. It may be further included. The connection portion of the second conduit 36 and the second straight pipe 38 constituting the drainage channel 8 may also include a waterproof adapter.

The cultivation housing 2 configured as described above may be arranged vertically in combination with a plurality of walls, an elevation, a staircase, or the like, so that the building's wall surface or the ground surface or an inclined surface may be landscaped.

The operation of the present invention configured as described above will be described with reference to FIGS. 8 and 9 in conjunction with FIG.

8 is a side cross-sectional perspective view of the three-dimensional plant cultivation system according to the present invention, Figure 9 is a front sectional view of FIG.

First, when a plurality of independent cultivation housings 2 are combined to form an assembly, the first duct 32 and the first direct pipe 34 and the second duct of the individual cultivation housing 2 stacked vertically ( 36 and the second water pipe 38 are interconnected to provide an irrigation canal 4 and a drain canal 8 that vertically penetrate the cultivation housing assembly. When water is supplied to the first conduit 32 of the uppermost cultivation housing 2 through the water supply pipe 6 located at the top of the cultivation housing assembly, the water flows downward through the first direct pipe 34. . Then, the water in the water purification basin 26 of the cultivation housing (2) located in each of the floors collectively through the branch pipe (32a) of the first pipeline 32 provided for each floor of the irrigation canal (4). Is supplied. The water stored in the water purification basin 26 is directly introduced into each plant cultivation groove 2a through the through hole 26b and used as nutrients for plant growth.

The water penetrated into the plant cultivation groove (2a) is used as nutrients, and then leaks to the lower side of the plant cultivation groove (2a) and accumulates in the sewer basin (28). When the water accumulated in the sewage basin 28 is partially filled, it is drained through the discharge hole 38a formed in the second straight pipe 38 of each drainage channel 8.

Water passing through the first straight pipe 34 of the irrigation canal 4 is collected in the recovery tank through the circulating pipe 12. The water collected in the recovery tank is again supplied to the water supply pipe (6). Water passing through the second straight pipe 38 of the drain channel 8 is drained through the main drain pipe 14 to another path such as a sewer.

According to the above configuration, the water supplied to the water supply basin 26 of each cultivation housing 2 forms an irrigation system system having a structure that is discharged to the sewage basin 28 after being used as nutrients necessary for plant growth. Therefore, after the irrigation of each cultivation housing (2) is to be made naturally. In addition, since the soil in the cultivation housing (2) located in the lower layer is prevented from being excessively wet, it is possible to maintain appropriate humidity to promote growth.

Plants planted in the plant cultivation groove (2a) of each of the cultivation housing (2) grow independently, so that the virus of the upper plant is not transmitted to the plant below, it is possible to manage individual plants. In addition, since the cultivation housing (2) is independently present, the cultivation housing (2) of the individual can be arranged and combined with landscaping according to the characteristics or design required by a specific building.

Next, a second embodiment of the present invention will be described with reference to Figs.

FIG. 10 is an exploded perspective view showing the configuration of a cultivation housing having three cultivation grooves showing the construction of a second embodiment of the present invention, and FIG. 11 is a front sectional view of an assembly in which the individual cultivation housings shown in FIG. 10 are assembled; Fig. 12 is a sectional view showing the construction of a water quantity regulating valve, which is a main part of a second embodiment according to the present invention.

The second embodiment of the present invention shows a configuration of a cultivation housing in which three cultivation grooves are formed. The same configuration as that of the first embodiment described above will be denoted by the same reference numerals, and detailed description thereof will be omitted.

10 and 11, each of the cultivation housing (2) is connected to the branch pipe (32a) of the first conduit 32 and the quantity for controlling the amount of water flowing into the plant cultivation groove (2a) side A control valve 40; It is connected to the water quantity control valve 40, and further comprises a water distribution pipe (42) for supplying water droplets to the plant cultivation groove (2a) of the individual cultivation housing (2).

In the assembly of the cultivation housing 2 of the above configuration, the uppermost part of the cultivation housing may further include a space for planting separate plants.

The water quantity control valve 40, as shown in Figure 12 and the outer pipe body 43 is provided with a water outlet pipe 43a on one side; An inner pipe 44 provided on one side of the first pipe 32 connected to the branch pipe 32a of the first pipe 32 and fitted to the outer pipe 43; A plurality of partition walls 45 provided on one surface of the inner tube body 44 so as to form a water channel 47, and for delaying the flow of water supplied through the inlet pipe 44a; And installed in the water outlet pipe (43a) of the outer tubular body 43, is opened only when the pressure of the water flowing along the water channel formed by the partition wall 45 of the inner tubular body 44 to check for draining water Valve 46 is included.

Here, the partition wall 45 installed in the inner tube 44 is formed in a sawtooth form to form a water channel 47, the water flows along the sawtooth-shaped partition wall so that the water flows out of the water outlet pipe (43a) This will delay the discharge time. Therefore, by adjusting the number of the teeth to increase or decrease the time the water flows to adjust the discharge of the enemy.

According to the second embodiment configured as described above, the water supplied through the branch pipe 32a of the first pipe line 32 flows through the water channel 47 of the water quantity control valve 40. Water reaching the end of the water channel is not discharged to the water outlet pipe 43a of the outer pipe 43 by the operation of the check valve 46. However, when the water flowing into the water channel 47 is increased to a predetermined pressure or more, the check valve 46 is opened by the water pressure and is discharged to the water outlet pipe 43a of the outer tube 43. Water passing through the water outlet pipe (43a) is introduced into the water distribution pipe line 42, the water passing through the water distribution pipe line 42 to the through hole (26b) of the water purification basin 26 in the form of water droplets. It is supplied to flow into the plant cultivation groove (2a). By this action, the plants planted in the plant cultivation groove 2a are supplied with an excessive amount of water.

FIG. 13 is a side sectional perspective view showing the configuration of the third embodiment of a three-dimensional plant cultivation system according to the present invention, and FIG. 14 is a front sectional view of FIG.

In the third embodiment of the present invention, since the basic structure is the same as the first embodiment described above, the same reference numerals are given to the same components as the first embodiment. However, in the first embodiment described above, while the water supplied to the water purification basin 26 is introduced to the plant, the irrigation system is discharged to the sewage basin, whereas in the third embodiment of the present invention, the water purification basin 26 The irrigation canal installed in) is separated by each layer, and the water stored in the water purification basin 26 is overflowed to the upper end of the individual irrigation canal separated by each layer.

That is, according to the third embodiment of the present invention, as shown in the drawing, a cultivation housing in which the cultivation housings 2 of the independent individuals in which at least one plant cultivation groove 2a for cultivating a plant of the unit is formed are arranged and combined. An assembly; A water purification basin 26 provided at an upper end of the plant cultivation groove 2a of the individual cultivation housing 2 and having a through hole for supplying water through the plant cultivation groove 2a; A sewage basin 28 extending from the rear end of each plant cultivation groove 2a and allowing the water discharged from the plant cultivation groove 2a to reach the discharge hole of the drainage channel 8; A water supply pipe 6 for supplying water to the water purification basin 26 of the uppermost cultivation housing 2; It vertically penetrates the sewage basin 28 from the water supply basin 26 of the individual cultivation housing 2 and protrudes to the upper end of the water supply basin 26 to overflow the water exceeding the storage capacity of the water supply basin 26. Irrigation canal 52 is provided with a water supply hole 52a for supplying the upstream hole 52a for supplying water and the water passing through the overflow hole 52a to the water supply basin 26 'of the lower individual cultivation housing 2'. )Wow; Vertically penetrates through the lowermost sewer basin 28 from the water purification basin 26 of the uppermost individual cultivation housing 2, and is located at each rear end of the individual sewer basin 28 to discharge the water that has passed through the sewer basin 28. A drainage channel 8 in which a discharge hole is formed; It is installed at the lower end of the cultivation housing (2), connecting each irrigation canal (52) by branch pipes for the flow of water passing through each irrigation canal (52) into a recovery tank (not shown) (12); And a main drain pipe 14 installed at the lowermost cultivation housing 2 of the cultivation housing and connecting each drainage channel 8 to a branch pipe to discharge water passing through each drainage channel 8. do.

In the third embodiment of the present invention, the water supply basin 26 has a bottom surface inclined downward so that water supplied from the irrigation canal 52 naturally flows toward the plant cultivation groove 2a, and the sewage basin 28 ) Has a bottom surface inclined downward toward the drainage channel 8, the bottom surface is lower than the discharge hole.

The main feature of the third embodiment is a structure in which the irrigation canal 52 is installed separately for each floor.

In addition, the supply pipe 52a of the irrigation canal 52 provided in each of the water supply basins 26 is provided with a water supply control valve 40 and an integral water distribution pipe 42 according to the second embodiment. Water is supplied to the plant cultivation groove (2a).

In the third embodiment of the present invention having the above-described configuration, the water supplied from the water supply pipe 6 through the irrigation canal 4 is stored in the water supply basin 26 of each cultivation housing 2 of the uppermost layer. The water of the water purification basin 26 is introduced into the plant cultivation groove 2a through the through hole 26a. Water exceeding the storage capacity of the water supply basin 26 passes through the overflow hole 52a of the irrigation canal 52 to the lower part of the direct pipe, and the lower cultivation housing 2 'through the lower end supply pipe 52b. The constant basin 26 of is supplied. By repeating the process of storing water in the water supply basin 26 for each layer by the above procedure, water is supplied to the plant cultivation groove 2a of the cultivation housing 2 of each layer. Since the drainage process thereafter is the same as the first embodiment described above, a detailed description thereof will be omitted.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and will be apparent to those skilled in the art without departing from the technical spirit of the present invention.

2: cultivation housing 2a: plant cultivation home
4: irrigation canal 4a: irrigation canal
6: water supply pipe 8: drainage channel
12: flow pipe 14: main drain pipe
22: upper body 24: lower body
26: drinking water basin 28: sewage basin
30: connecting member 32: first protrusion pipe
34: 1st direct pipe 36: 2nd protrusion pipe
38: second direct pipe

Claims (22)

A cultivation housing assembly comprising a combination of independent individual housings having at least one plant cultivation groove in which seedlings of a unit may be planted, wherein each individual housing is mutually arranged in layers;
It is installed penetrating from the top to the bottom of the cultivation housing assembly, a plurality of communication with the plant cultivation groove of each of the individual housings located in each layer to introduce the water for plant growth provided from the water supply pipe into each plant cultivation groove Irrigation canals having irrigation canals;
A drainage passage installed to penetrate from the top end of the cultivation housing assembly to the bottom end and having a discharge hole formed at a position opposite to the cultivation groove of each individual cultivation housing to drain water leaked from the plant cultivation groove;
One end is connected to each of the irrigation canals of the irrigation canisters located on each floor to enter and exit the water, the water quantity adjusting means for controlling the amount of water flowing into the plant cultivation groove side from the irrigation canals; And
Water distribution means connected to the outlet hole of the water quantity control means, for supplying in the form of water droplets to the plant cultivation groove of each individual cultivation housing
Three-dimensional plant cultivation system comprising a.
The method of claim 1,
The quantity adjusting means
An outer tube having a water outlet pipe on one side;
An inlet pipe connected to the irrigation canal of the irrigation canal is provided on one side, and the inner pipe is fitted to the outer pipe;
A plurality of partitions provided on one surface of the inner tube to form a water channel, and delaying the flow of water supplied through the inlet pipe; And
It is installed in the water outlet pipe of the outer pipe, the check valve for discharging the water is opened only when the pressure of the water flowing along the waterway formed by the partition wall is generated
Three-dimensional plant cultivation system comprising a.
The method of claim 1,
The cultivation housing
Upper body formed with a semi-circular groove forming a part of the plant cultivation groove;
Lower body formed with a semi-circular groove forming a portion of the plant cultivation groove;
It is provided at the top of the plant cultivation groove, the water supply plate is formed with a through hole penetrated through the bottom surface and the plant cultivation groove inclined downward so that the water supplied from the irrigation canal to the natural cultivation groove side; And
Sewage plate extending inclined downward from the rear end of the plant cultivation groove to reach the discharge hole side of the drainage channel water leaked from the plant cultivation groove
Three-dimensional plant cultivation system comprising a.
The method of claim 1,
The cultivation housing
Upper body formed with a semi-circular groove forming a part of the plant cultivation groove;
Lower body formed with a semi-circular groove forming a portion of the plant cultivation groove;
A water supply basin provided at an upper end to store water supplied through an irrigation canal in an irrigation canal, and having a through hole formed through the plant cultivation groove side; And
Sewage basin extends inclined downward from the rear end of the plant cultivation groove to store the water discharged from the plant cultivation groove, and discharges excess water exceeding the storage capacity to the discharge hole side of the drainage channel.
Three-dimensional plant cultivation system comprising a.
The method of claim 4, wherein
The water purification basin has a three-dimensional plant cultivation system, characterized in that it has a bottom surface inclined downward so that the water supplied from the irrigation canopy flows naturally to the plant cultivation groove side.
The method according to claim 4 or 5,
The irrigation canal
A first conduit projecting from an upper end of each cultivation housing and having a water supply pipe branched toward a water treatment basin;
A first direct pipe connected at one end to the first conduit and the other end to protrude to the lower end of the cultivation housing to flow water downward, and a bottom part connected to the first duct of another cultivation housing;
Three-dimensional plant cultivation system comprising a.
The method according to claim 6,
And a first adapter connecting the first direct pipe of the upper side cultivation housing and the first conduit of the lower side cultivation housing.
The method according to claim 4 or 5,
The drain channel
A second conduit protruding from an upper end of each cultivation housing; And
One end is connected to the second conduit and the other end is protruded to the lower end of each cultivation housing, the protruding portion is connected to the second duct of the other cultivation housing to flow the drained water downward, and each sewage basin is located Second straight pipe with discharge hole for each part
Three-dimensional plant cultivation system comprising a.
The method of claim 8,
The discharge hole of the drainage channel is a three-dimensional plant cultivation system, characterized in that it is located higher than the bottom surface of the drainage basin so that only the water exceeding the storage capacity of the drainage basin.
The method of claim 8,
And a second adapter connecting the second direct pipe of the upper side cultivation housing and the second conduit of the lower side cultivation housing.
The method of claim 1,
Connected to the bottom of the irrigation canal further comprising a flow pipe for introducing the water passing through the irrigation canal to the recovery tank.
The method according to any one of claims 2 to 5,
The plant cultivation groove of the cultivation housing has a predetermined inclination angle, the three-dimensional plant cultivation system, characterized in that the opening is positioned to face upward.
The method according to any one of claims 1 to 5,
The cultivation housing is a three-dimensional plant cultivation system, characterized in that constituting any one of the wall, elevation, inclined three-dimensional surface.
A cultivation housing in which at least one plant cultivation groove is formed for cultivating a plant of the unit;
A water fountain provided at an upper end of the plant cultivation groove of the cultivation housing and having a through hole for supplying water in communication with the plant cultivation groove;
A sewage basin extending from the rear end of the plant cultivation groove and allowing the water discharged from the plant cultivation groove to reach the discharge hole side of the drainage channel;
Irrigation canal provided with a water supply pipe for supplying water to the water purification basin;
A drainage channel connected to a rear end of the sewage basin and having a discharge hole for draining water passing through the sewage basin;
One end is connected to the water supply pipe of the irrigation canal water in and out, water quantity adjusting means for controlling the amount of water flowing into the plant cultivation groove side from the irrigation canal; And
Water distribution means connected to the outlet hole of the water quantity control means, for supplying in the form of water droplets to the plant cultivation groove of the cultivation housing of each independent object
Three-dimensional plant cultivation system comprising a.
15. The method of claim 14,
The irrigation canal and the drainage channel is a three-dimensional plant cultivation system, characterized in that it is formed as an integral pipe passing through the water supply basin and the sewage basin of the cultivation housing.
15. The method of claim 14,
Three-dimensional plant cultivation system further comprising a flow pipe connected to the bottom of the irrigation canal, and the main drain pipe connected to the bottom of the drain.
The method according to any one of claims 14 to 16,
The water purification plant is a three-dimensional plant cultivation system, characterized in that it has a bottom surface inclined downward toward the plant cultivation groove side.
The method according to any one of claims 14 to 16,
The sewage basin has a bottom surface inclined downward toward the drainage channel side, wherein the bottom surface is three-dimensional plant cultivation system, characterized in that located below the drain hole of the drainage channel.
A cultivation housing assembly comprising a combination of independent individual housings having at least one plant cultivation groove in which seedlings of a unit may be planted, the housings of each independent individual being arranged in a layer-by-layer arrangement;
A water purification basin provided at an upper end of the plant cultivation groove of the individual cultivation housing and having a through hole for supplying water in communication with the plant cultivation groove;
A sewage basin extending from the rear end of each plant cultivation groove and allowing the water leaked from the plant cultivation groove to reach the discharge hole side of the drainage channel;
A water supply pipe for supplying water to the water purification basin of the uppermost cultivation housing;
Through the sewage basin from the water purification basin of each individual cultivation housing, protruding to the top of the water purification basin to overflow the water exceeding the storage capacity of the water purification basin, and the individual flow of the water passing through the overflow pipe downstream An irrigation canal provided with a supply pipe for supplying water to the water supply basin of the housing;
A drainage passage that vertically penetrates the sewage basin of the lowermost individual cultivation housing from the water supply basin of the uppermost individual cultivation housing, and is formed at a position opposite to each individual sewage basin and has a discharge hole for discharging water passing through the sewage basin;
One end is connected to the water supply pipe of the irrigation canal water in and out, water quantity adjusting means for controlling the amount of water flowing into the plant cultivation groove side from the irrigation canal; And
It is connected to the outlet hole of the water quantity control means, and includes a water distribution means for supplying water droplets to the plant cultivation groove of the cultivation housing of each independent object,
The irrigation canal is located in a space between the upper and lower cultivation housing at a predetermined interval spaced apart three-dimensional plant cultivation system characterized in that the water flowing over from the upper water purification basin to the lower water purification basin irrigation.
The method of claim 19,
The water purification basin has a bottom surface inclined downward so that water supplied from the irrigation water naturally flows to the plant cultivation groove side,
The sewage basin has a bottom surface inclined downward toward the drainage channel, the three-dimensional plant cultivation system, characterized in that the bottom surface is located lower than the discharge hole.
21. The method according to claim 19 or 20,
Three-dimensional plant cultivation system further comprising a flow pipe connected to the bottom of the irrigation canal, and the main drain pipe connected to the bottom of the drain.
21. The method according to claim 19 or 20,
The cultivation housing is a three-dimensional plant cultivation system, characterized in that constituting any one of the wall, elevation, inclined three-dimensional surface.

Images