KR20080072235A - Apparatus for permitting culture of water curtain using subterranean water and returning for subterranean water the water - Google Patents

Abstract

Apparatus for heating cultivation facilities for cultivation of crops by spraying underground water from a water spray pipe at a roof of a plastic greenhouse(vinyl house) and recycling underground water is provided to remarkably save heating costs during the winter and prevent underground water exhaustion by recycling drained underground water. Apparatus for heating cultivation facilities for cultivation of crops by spraying underground water in a plastic greenhouse and recycling underground water comprises: a plastic greenhouse(20) having a space for cultivation of crops by spraying underground water lifted by an underwater motor pump(11) charged into an underground pore(10) from a water spray pipe(25) of the roof; a recycle channel for recycling the drained underground water to the underground pore by connecting the plastic greenhouse and the underground water pore; and a purifying device(60) installed in the middle of the recycle channel to purify underground water by filtering underground water flowing the recycle channel.

Description

Apparatus For Permitting Culture Of Water Curtain Using Subterranean Water and Returning For Subterranean Water The Water}

1 is a view showing a water film cultivation facility heating and ground water reduction device using the ground water according to the present invention,

2 is a schematic cross-sectional view of FIG. 1;

3 is an enlarged view of a portion A of FIG.

<Description of the symbols for the main parts of the drawings>

10: groundwater 11: submersible motor pump

12: groundwater pumping pipe 13: discharge induction pipe

14: flow meter 15: thermometer

17: Collection means 20: House

21: vinyl film 23: water film space

25: water film forming pipe 25a: either hole or nozzle

27: drain 31: pipe

41: water film 50: water reduction

51: flow meter 53: thermometer

55: valve or faucet 60: purifying means

61: cover

The present invention relates to a water film cultivation facility heating and ground water reduction device using ground water, and in particular, by forming a water film in the crop cultivation house using ground water, greatly reducing the heating cost in winter, and purifying the ground water used again and then reducing the ground water. The present invention relates to a water film cultivation facility heating and groundwater reduction apparatus using groundwater to prevent exhaustion.

In general, growing plants such as vegetables, fruit trees, and flowers in facilities such as plastic houses and glass greenhouses is called plant cultivation. The plant cultivation artificially creates the most suitable environment for growing crops. It is well known that it is widely used in rural areas by producing and shipping in a short period of time so that the maximum profit can be obtained and year-round cultivation is possible. However, in winter plant cultivation, maintaining the temperature necessary for crops is the most important. As the oil price rises, the burden of heating costs increases, which causes a problem that affects the entire plant cultivation.

Therefore, an object of the present invention is to solve such a problem, by forming a water film in the crop cultivation house using ground water to significantly reduce the heating cost in winter, and to increase the water film cultivation facility by purifying and reducing the ground water used again. It is to provide a water film cultivation facility heating and groundwater reduction device using the groundwater to prevent the groundwater depletion due to excessive use of groundwater.

The present invention for achieving the above object is a house for providing a space for cultivating crops while forming an insulating water film with groundwater pumped by an underwater motor pump charged into the groundwater hole; A reduction water channel for connecting the house and the groundwater hole to reduce the groundwater drained from the house back to the groundwater hole; And purification means for filtering and purifying the groundwater flowing in the reduction channel installed in the middle of the reduction channel.

The house forms a two-layer structure to form a water film space therein, and is enclosed from the ground to surround the crop, and inside the lower left and right sides, a vinyl film provided with a drain pipe connected to the reducing channel, and both ends of the water film space at the top of the water film space. It is installed along a length and connected to the groundwater hole, and the groundwater pumped from the groundwater hole flows to both left and right sides of the water film space, and any one of holes or nozzles for forming a water film is formed of a plurality of water film forming pipes along the length. This is preferred.

In addition, the drain pipe is U-shaped, it is preferable that the ground water flowing down the water film space is collected to be inclined toward the reducing channel so as to flow smoothly in the direction of the ground water hole.

In addition, the groundwater hole is further provided with a means for measuring the quantity, temperature and water quality of the groundwater pumped through the submersible motor pump, the quantity, temperature and water quality of the groundwater to be reduced back to the groundwater hole in the middle of the reducing channel It is preferred that further means for measuring the pressure be provided.

The above objects, advantages and other features will become apparent from the following description with reference to the accompanying drawings.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the water film cultivation facility heating and ground water reduction apparatus using the ground water according to the present invention, Figure 2 is a schematic cross-sectional view of Figure 1, Figure 3 is an enlarged view of a portion A of FIG.

As shown in the figure, the water film cultivation facility heating and groundwater reduction apparatus using the groundwater according to the present invention is roughly divided into the groundwater hole 10, the house 20, the reduction waterway 50, the purification means (60). The groundwater hole 10 is formed by excavating the ground layer in contact with the groundwater layer, and pumps groundwater through the loaded underwater motor pump 11. Reference numeral 12 denotes a groundwater pumping pipe, and reference numeral 13 denotes a discharge guide pipe for discharging the groundwater pumped along the groundwater pumping pipe toward the side surface of the groundwater hole 10.

The house 20 is installed in a substantially U-shape from the ground to allow facility cultivation to provide a space for growing crops, and a vinyl film 21 for providing a space for growing crops, and the vinyl film. The water film forming pipe 25 for forming the water film 41 with the ground water from the groundwater hole 10 at 21 is roughly divided. The vinyl film 21 is formed of two layers of vinyl through a frame (not shown) which is installed from the ground to form a water film space 23 therein, and the water film forming pipe 25 is blocked at both ends. Is installed in the water film space 23 to form a heat insulating film 41 in the water film space (23). The vinyl film 21 is provided with a U-shaped drain pipe 27 inside the lower left and right sides to drain the groundwater that flows while forming the water film 41 to the outside, the drain pipe 27 is the water film space ( 23 is installed to be inclined toward the reduction channel 50 so as to flow smoothly in the direction of the groundwater hole 10 to facilitate the drainage of groundwater. Since the glass film can be formed in two layers and the same water film space as the water film space 23 can be formed therein, if the glass film is called a glass film, the glass film will be in line with the vinyl film 21.

The water film forming pipe 25 is connected through the ground water hole 10 and the pipe 31, and is installed along the length at the upper apex of the water film space 23 to receive the ground water pumped from the ground water hole 10. The water film 41 is formed by flowing to both left and right sides of the water film space 23. That is, the water film forming pipe 25 is provided with a plurality of holes or nozzles (25a) along the length of the ground water to be conveyed from the groundwater hole 10 through any one of the holes or nozzles (25a) By ejecting, the water film 41 is formed on both left and right sides of the water film space 23.

Groundwater maintains temperatures around 15 ° C throughout the year. Therefore, the temperature below zero in winter is blocked by the water film space 23 and the water film 41 so that the temperature of the water in the water film 41 is not directly affected by the interior of the vinyl film 21. (21) Because of the warming of the interior, this significantly reduces the heating costs for maintaining the temperature required for winter crops.

The reduction channel 50 is installed to connect the drain pipe 27 and the ground water hole 10 to each other to reduce the groundwater flowing out of the drain pipe 27 back to the ground water hole 10. . The reducing channel 50 may be to reduce the groundwater toward the side wall of the groundwater hole 10 in the state buried in the ground.

The purification means 60 is installed in the middle of the reduction channel 50 serves to filter and purify the ground water flowing through the reduction channel 50. The purifying means 60 is similar to a manhole and is buried in the ground so that only the cover 61 is exposed, and a plurality of filtering materials such as sand, gravel, dolomite, diatomite, elvan, zeolite, activated carbon, and peat moss are selected and stacked therein. Alternatively, the groundwater flowing through the reducing water passage 50 is filtered to purify the filter member in various forms.

Therefore, the groundwater from which the water film 41 is formed is purified by the purification means 60 and then reduced to the groundwater hole 10 again to deplete the groundwater, which can only be accompanied by an increase in the water film cultivation means 20. This is avoided.

On the other hand, the groundwater hole 10 is provided with a means for measuring the quantity, temperature and water quality of the ground water pumped through the submersible motor pump 11, the groundwater hole in the middle of the reducing channel 50 Means for measuring the quantity, temperature and water quality of the groundwater returned to (10) are provided. Means for measuring the quantity, temperature and water quality installed in the reducing channel 50 is preferably installed in the discharge end of the reducing channel 50 located inside the purification means 60, the measurement is The cover 61 of the purifying means 60 may be made in a lifted state or may be made by a method of automatically measuring by installing a measuring sensor. Therefore, it is possible to precisely measure the change in the groundwater, that is, quantitative loss, temperature change, water quality change, etc. according to the formation of the water film 41.

The amount of water in the groundwater hole 10 is measured through a flow meter 14 installed in the groundwater pumping pipe 12, and the temperature is measured by a thermometer 15 installed in the groundwater pumping pipe 12. The display of the quantity and temperature is displayed on the digital display panel P installed on the ground and connected to the flowmeter 14 and the thermometer 15 by wires. And the sample for measuring the water quality is connected to the inside of the discharge induction pipe 13 and is installed on the outer surface of the ground water hole 10 to be connected to the pipe body 17a and the pipe body 17a that is placed on the upper side of the pipe body The water is collected by the sample collecting means 17, which is composed of discharge means 17b such as a faucet for discharging the groundwater coming up through 17a to the outside.

The quantity of water in the reduction channel 50 is measured through a flow meter 51 installed in the reduction channel 50, and the temperature is also measured by a thermometer 53 installed in the reduction channel 50. And the sample for measuring the water quality is collected through the valve or the faucet 55 is installed in the reducing channel 50.

As described above, according to the present invention, by using a groundwater that maintains the temperature of about 15 ℃ all year round to form a water film for blocking the sub-zero temperature in winter in the crop cultivation house to significantly reduce winter heating costs and use Purifying the groundwater and reducing it back to the groundwater prevents the depletion of groundwater, which may be accompanied by an increase in the water film cultivation facility.

Claims (4)

A house for providing a space for cultivating crops while forming an insulating water film with groundwater pumped by an underwater motor pump charged into the groundwater hole; A reduction water channel for connecting the house and the groundwater hole to reduce the groundwater drained from the house back to the groundwater hole; And A water film cultivation facility heating and groundwater reduction apparatus using groundwater, which is installed in the middle of the reduction channel and includes a purifying means for filtering and purifying the groundwater flowing through the reduction channel. According to claim 1, wherein the house has a two-layer structure forming a water film space therein is enclosed from the ground to surround the crop and the inside of the lower left and right both sides of the vinyl film is provided with a drain pipe connected to the reducing channel, and both ends are blocked One of the holes or nozzles formed along the length of the water film space and connected to the ground water hole and flowing the ground water pumped from the ground water hole to the left and right sides of the water film space to form a water film is formed along the length. Water film cultivation facility heating and ground water reduction device using ground water, characterized in that consisting of the installed water film forming pipe. The method of claim 2, wherein the drainage pipe is U-shaped, the groundwater flowing down the water film space is collected inclined toward the reduction channel so as to flow smoothly in the direction of the ground water hole, the water film cultivation facilities heating and ground water using groundwater Reduction device. The groundwater hole is further provided with means for measuring the quantity, temperature and water quality of the groundwater pumped through the submersible motor pump, the number of groundwater to be reduced back to the groundwater hole in the middle of the reducing channel , Heating and groundwater reduction device for water film cultivation facility using groundwater, characterized in that the means for measuring the temperature and water quality is further installed.

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