KR101517506B1 - Water curtain house - Google Patents

Abstract

The present invention provides a water-film cultivation facility, the invention comprising: an inner house (110) having an inner space (111); an outer house (120) surrounding the inner house (110) and installed spacing at regular intervals on the outside of the inner house (110) so as to form a water-film space (121); a water-film formation pipe (130) installed in the upper portion of the water-film space (121) in the longitudinal direction of the inner house (110) and injecting an underground water to the outer surface of the inner house (110) so as to form a water-film (131); an underground water supply unit (200) for supplying an underground water to the water-film formation pipe (130); and an underground water drainage unit (300) for draining an underground water injected by the water-film formation pipe (130) to a stream (2). The underground water drainage unit (300) includes infiltration holes (340) for returning the underground water, which is injected by the water-film formation pipe (130), to the underground (1), wherein the infiltration holes (340) are formed to be recessed toward the underground.

Description

{WATER CURTAIN HOUSE} with a permeable drainage line

The present invention relates to a field of agricultural technology, and more particularly, to an agricultural technology field, and more particularly, to a field of agricultural technology, in which groundwater used for forming a water film of a water culture plant is reduced to the ground through a penetration hole formed in a drainage channel, Which is a water-growing plant.

In general, the cultivation of vegetables such as vegetables, fruit trees, and flowers in facilities such as vinyl houses and glass greenhouses (hereinafter referred to as "houses") is referred to as facility cultivation. Facility cultivation artificially creates the best environment for growing crops It is well known that crops that are far superior to the main crops are produced and sold within a short period of time, so that they can obtain maximum benefits and enable cultivation throughout the year.

However, maintaining the necessary temperature for crops is the most important factor in winter plant cultivation. If the price of oil increases, the heating cost burden is increased.

In order to solve the problem of the heating cost burden, recently, a water film growing facility using ground water for raising the temperature in the house is being utilized by spraying ground water which maintains a temperature of around 15 ° C throughout the year on the outside of the house in winter.

However, in the conventional water culture facility using groundwater, the groundwater used is drained into the river through the drainage channel, which causes a problem that the amount of underground water is depleted due to excessively large amount of groundwater and the base flow rate of spring is decreased.

As a technique for solving these problems, there is a heating and underground water reduction apparatus for water film cultivation facility using ground water disclosed in Korean Patent No. 888039. This technique provides a way to prevent depletion of groundwater by reducing the groundwater used for water film formation back to the ground.

However, the above-mentioned Japanese Patent No. 888039 is configured to reduce the groundwater used for the formation of the water film by the ground water ball formed to supply the ground water. However, such a technique reduces the temperature of the groundwater used in the formation of the water film, thereby making it difficult to attain the temperature of the house interior space that the water film growing facility originally intended to achieve. In addition, this technology is configured to mix the cold underground water used in the formation of water film with the warm underground water in the underground, and thus the temperature of the groundwater used for forming the water film is not uniform. In addition, it involves a problem that excessive construction cost is required.

Disclosure of Invention Technical Problem [8] The present invention has been made in order to solve the above-mentioned problems of the conventional water film growing facility, and it is an object of the present invention to provide a water permeation type water drainage path which can reduce underground water And to suggest a water-screen cultivation facility.

Another object of the present invention is to provide a water film cultivation facility equipped with an infiltration type drainage path that does not require an excessive construction cost or a long construction period.

Another object of the present invention is to provide a water film growing facility equipped with an infiltration type drainage duct which can be formed in a conventional water film culture facility.

According to an aspect of the present invention, there is provided an air conditioner comprising: an inner house (110) having an inner space (111); An outer house 120 surrounding the inner house 110 and spaced apart from the outer side of the inner house 110 to form a water film space 121; A water film forming pipe 130 installed along the longitudinal direction of the inner house 110 at an upper portion of the water film space 121 to form a water film 131 by spraying groundwater on the outer surface of the inner house 110, ; A groundwater supply unit 200 for supplying groundwater to the water film forming pipe 130; And a groundwater drainage unit 300 for draining the groundwater sprayed from the water film forming pipe 130 to the river 2. The groundwater drainage unit 300 further includes a penetration hole 340 in which the groundwater injected from the water film forming pipe 130 is reduced to the underground 1, The water-growing plant is provided with a water-deprivation plant.

The groundwater supply unit 200 includes pumping means 220 for pumping groundwater in the pumping water 210; And a groundwater supply pipe (230) for transferring groundwater pumped by the pumping means (220) to the water film forming pipe (130).

The groundwater drainage unit 300 includes a groundwater recovery unit 310 formed on the lower outer side of the inner house 110, along the longitudinal direction of the inner house 110; And a groundwater discharge pipe 320 for transferring the groundwater collected by the groundwater collection unit 310 to a drainage path 330 connected to the river 2. The penetration hole 340 is connected to the drainage path 330, And a water-growing plant.

In addition, the infiltration holes 340 may be formed in a plurality of along the longitudinal direction of the drainage channel 330.

And a beam (350) formed at an end of the drain passage (330) to prevent groundwater flowing through the drain passage (330) from being discharged to the river (2) at a predetermined level or lower. It may be a cultivation facility.

And a cutoff filter 341 disposed on the infiltration hole 340 and blocking inflow of contaminants contained in groundwater flowing through the infiltration hole 330 into the infiltration hole 340 It can be a water-screen cultivation facility which is characterized by.

The base blocking filter 341 further includes a side filter 342 surrounding the periphery of the upper surface of the penetrating hole 340; And a top filter (343) supported by the side filter (342) and spaced from the top surface of the infiltration hole (340) by a predetermined distance.

The blocking filter 341 may surround the inner surface of the penetrating hole 340 in correspondence with the shape of the inner surface of the penetrating hole 340.

Also, the drainage path 330 may be formed of a porous concrete.

The infiltration hole (340) is formed by a plurality of holes perforated along the longitudinal direction of the drainage (330).

According to the present invention, there is an effect that groundwater used in a water film growing facility can be reduced to underground so as to prevent depletion of underground water.

According to the present invention, it is possible to install a water film cultivation facility equipped with an infiltration type drainage channel without requiring an excessive construction cost or a long construction period.

1 is a perspective view of a water film growing facility according to an embodiment of the present invention;
2 is a cross-sectional view of a water film growing facility according to an embodiment of the present invention.
3 is a cross-sectional view of a drainage line at full water level according to an embodiment of the present invention.
FIG. 4 is a sectional view of a drainage line in heavy water according to an embodiment of the present invention. FIG.
5 is a sectional view of a drainage line at low water level according to an embodiment of the present invention;
6 shows a cut-off filter according to an embodiment of the invention.
Figure 7 illustrates a cut-off filter according to another embodiment of the present invention.

The embodiments of a water film cultivation facility having an infiltration type drainage channel according to the present invention will be described in detail with reference to the accompanying drawings, wherein like or corresponding elements are denoted by the same reference numerals And redundant explanations thereof will be omitted.

It is also to be understood that the terms first, second, etc. used hereinafter are merely reference numerals for distinguishing between identical or corresponding components, and the same or corresponding components are defined by terms such as first, second, no.

In addition, the term " coupled " is used not only in the case of direct physical contact between the respective constituent elements in the contact relation between the constituent elements, but also means that other constituent elements are interposed between the constituent elements, Use them as a concept to cover each contact.

The water film cultivation facility according to an embodiment of the present invention basically includes an inner house 110 having an inner space 111 and an outer side of the inner house 110 so as to surround the inner house 110, An outer house 120 spaced apart from the inner house 110 by a predetermined distance and a water film 131 installed at the upper part of the water film space 121 along the longitudinal direction of the inner house 110 to spray groundwater on the outer surface of the inner house 110, A groundwater supply unit 200 for supplying groundwater to the water film forming pipe 130 and a groundwater drainage for discharging the ground water injected from the water film forming pipe 130 to the river 2, (Fig. 1, Fig. 2).

Since the groundwater maintains a temperature of about 15 캜 throughout the year, it is possible to maintain a temperature higher than the external temperature in the winter inner space 111 by forming a water film with groundwater.

The groundwater drainage unit 300 further includes a penetration hole 340 in which the groundwater injected from the water film forming pipe 130 is reduced to the underground 1, (Fig. 2).

That is, compared with the case where the ground water having the water film formed is flowed directly into the river, the present invention is characterized in that the infiltration hole 340 is formed in the drainage part 300, which is a passage for draining the groundwater into the river, By allowing the groundwater to be injected, the groundwater can be naturally reduced to the ground (1).

That is, the groundwater remains in the penetration hole 340 for a predetermined period of time while being absorbed through the inner surface of the penetration hole 340 and reduced to the ground 1.

In order to increase the water absorption rate of the groundwater, the inner surface of the penetration hole 340 is preferably made of a porous material. Typically, the infiltration hole is preferably formed of porous concrete.

In this case, all groundwater used in the water film growing facility is not dumped into the river (2) but all or some water is returned to the underground (1). Therefore, underground water It is possible to solve the exhaustion problem.

In addition, since it is possible to reduce the groundwater only by forming the penetration hole 340, an effect of not requiring an excessive construction cost and a long construction period is added.

Further, there is an effect that the effect of the present invention can be achieved by merely forming the penetrating hole 340 in the drainage facility of the existing water film growing system.

The shape of the penetration hole 340 may be any shape, but it is preferable that the penetration hole 340 has a cylindrical shape in terms of ease of construction and ease of maintenance.

The groundwater supply unit 200 includes a pumping means 220 for pumping groundwater in the pumping cell 210 and a groundwater supply pipe 230 for transferring groundwater pumped by the pumping means 220 to the water film forming pipe 130 (Figs. 1 and 2).

The groundwater drainage unit 300 includes a groundwater collection unit 310 formed along the longitudinal direction of the inner house 110 at the outer lower portion of the inner house 110 and groundwater collected by the groundwater collection unit 310 to the river 2 (See FIG. 1 and FIG. 2).

Here, although the penetrating hole 340 can be formed in a section after the water film forming section by the groundwater, it is preferable that the penetrating hole 340 is formed in the drainage passage 330 from the viewpoints of permeation efficiency and easiness of construction.

The penetration hole 340 may be formed in plural along the longitudinal direction of the drainage passage 330 (Figs. 1 and 2), and the diameter and the depth may be different from each other.

The infiltration hole 340 may be formed by a mold corresponding to the shape of the infiltration hole 340 when the concrete of the inflow passage 330 is poured in the forming step of the drainage path 330, Or by punching them using a perforating machine.

A beam 350 may be formed at an end of the drainage channel 330 of the water film growing facility according to an embodiment of the present invention so that the groundwater flowing through the drainage channel 330 is not discharged to the river 2 at a predetermined level or lower 1 and 2).

That is, when the water level of the drainage channel is high due to a large amount of groundwater, the groundwater is discharged to the river 2 (FIG. 3). However, when the amount of ground water is small, the groundwater is not discharged to the river 2, and the groundwater is reduced to the ground 1 through the inner surface of the penetration hole 340 or the lower surface of the drainage path 330 5), it is preferable to form the beam 350 at the end of the drainage passage 330. [

The water film cultivation facility according to one embodiment of the present invention is installed in an upper part of the infiltration hole 340 and includes a cutoff filter 340 for blocking contaminants contained in groundwater flowing in the drainage path 330 from entering the infiltration hole 340 341) (Figs. 3, 4, 5).

The cutoff filter 341 may have any shape as long as it surrounds the penetrating hole 340.

According to one embodiment of the present invention, the blocking filter 341 is supported by the side filter 342 and the side filter 342 surrounding the periphery of the upper surface of the penetrating hole 340, Spaced top filter 343 (Figure 6). When the upper surface filter 343 is not spaced apart from the upper surface of the infiltration hole 340 by a predetermined distance, foreign matter deposited on the lower surface of the drainage path 330 is separated from the upper surface filter 343, Thereby preventing the groundwater from flowing into the penetration hole 340.

Therefore, by causing the top filter 343 to be spaced apart by the side filter 342 at a constant interval, the occurrence of the above-described problem can be prevented. When the side filter 342 is formed of the same material as the upper filter 343, the inflow of the groundwater through the side filter 342 can be induced. Therefore, even when the water level is low, the groundwater flows into the infiltration hole 340 So that it has a possible effect.

According to another embodiment of the present invention, the blocking filter 341 may have a shape that surrounds the inner surface of the penetrating hole 340, corresponding to the shape of the inner surface of the penetrating hole 340 (FIG. 7).

When this shape is taken, it is possible to easily perform the cleaning work for removing the contaminants accumulated in the blocking filter 341 by easily installing and separating the blocking filter 341.

The flow of the groundwater according to an embodiment of the present invention will be described below.

According to one embodiment of the present invention, the groundwater is drawn from the underground 1 into the pumping cell 210 and then pumped by the pumping grains 220 and transferred to the water film forming pipe 130 through the groundwater supply pipe 230.

The groundwater transferred to the water film forming pipe 130 flows through the outer surface of the inner house 110 in the water film space 121 to form the water film 131 and is collected by the groundwater collecting unit 310.

The groundwater recovered to the groundwater circulation unit 310 is transferred to the drainage channel 330 through the groundwater drainage pipe 320 and stored in the penetration hole 340 formed in the drainage channel 330 to be absorbed into the penetration hole 340 And returned to the basement (1).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

1: Basement
2: Stream
110: Inner house
120: outer house
130: Pipe for forming a water film
200: Groundwater supply part
300: Groundwater drainage

Claims (10)

An inner house (110) having an inner space (111);
An outer house 120 surrounding the inner house 110 and spaced apart from the outer side of the inner house 110 to form a water film space 121;
A water film forming pipe 130 installed along the longitudinal direction of the inner house 110 at an upper portion of the water film space 121 to form a water film 131 by spraying groundwater on the outer surface of the inner house 110, ;
A groundwater supply unit 200 for supplying groundwater to the water film forming pipe 130; And
And a groundwater drainage unit 300 for draining the groundwater injected from the water film forming pipe 130 to the river 2,
The groundwater drainage unit 300 includes:
And a penetration hole (340) in which the ground water injected from the water film forming pipe (130) is reduced to the underground (1)
The penetration hole 340 is recessed toward the underground 1,
The groundwater drainage unit 300 includes:
A groundwater recovery unit 310 formed at an outer lower portion of the inner house 110 along the longitudinal direction of the inner house 110; And
And a groundwater drain pipe (320) for transferring the ground water collected by the groundwater collection unit (310) to a drain water path (330) connected to the river (2)
The infiltration hole (340)
And is formed in the drain passage 330,
The infiltration holes 340 are formed in a plurality of along the longitudinal direction of the drainage passage 330,
And a beam 350 formed at an end of the drainage path 330 to prevent groundwater flowing through the drainage path 330 from flowing into the river 2 at a predetermined level or lower,
And a cutoff filter 341 disposed on the infiltration hole 340 and blocking inflow of contaminants contained in the groundwater flowing through the infiltration hole 330 into the penetration hole 340 Water film plant.
The method according to claim 1,
The groundwater supply unit (200)
Pumping means 220 for pumping groundwater in the pumping cell 210; And
A groundwater supply pipe 230 for transferring groundwater pumped by the pumping means 220 to the water film forming pipe 130;
And a water-growing plant.
The method according to claim 1,
The blocking filter (341)
A side filter 342 surrounding the periphery of the upper surface of the penetration hole 340; And
A top filter 343 supported by the side filter 342 and spaced apart from the top surface of the infiltrating hole 340 by a predetermined distance;
And a water-growing plant.
The method according to claim 1,
The blocking filter (341)
And the inner surface of the penetrating hole (340) is surrounded by the inner surface of the penetrating hole (340).
The method according to claim 1,
The drainage channel (330) is formed of porous concrete.
The method according to claim 1,
Wherein the penetration hole (340) is formed by a plurality of holes perforated along the longitudinal direction of the drainage channel (330).
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