KR20170089564A - Vinyl House heating and Cooling device By Geothermal Energy - Google Patents

Abstract

The present invention relates to a fan coil cooling and heating device using geothermal heat of a vinyl greenhouse or an indoor agriculture building. A temperature of 7-15C is maintained to ensure the growth of crops in a vinyl greenhouse or an indoor agriculture building on the basis of the area thereof at 330 m^2. Thus, a geothermal heat exchanger (7) including U-shaped geothermal heat exchange pipes (7a-7c) formed in 3 to 7 stages at a depth of underground 152 m at which geothermal heat is maintained at a temperature of 14 to 16C. The total extension length of a pipe of the geothermal heat exchanger (7) is 900 M or higher. Geothermal water passing through the inside of the geothermal exchange pipes (7a-7c) adjusts and thermokeeps an internal temperature of a vinyl greenhouse or an indoor agriculture building to 7-15C on the basis of a fan coil (3) and a circulation high pressure water pump (1). The fan coil (3) is constantly installed on a farmland on the bottom surface of a vinyl greenhouse or an indoor agriculture building to grow crops by absorbing geothermal heat which is pure new renewable energy, and emits geothermal heat absorbed by the geothermal heat exchanger (7). The rotation sped of the circulation high pressure water pump (1) increases in accordance with a direction of a thermometer disposed therein.

Description

TECHNICAL FIELD [0001] The present invention relates to a fan coil cooling / heating apparatus and a fan cooling /

To maintain the temperature of 7 ℃ -15 ℃ in which the crops can grow inside the greenhouse to grow crops on the basis of the area of the greenhouses for the cultivation of crops 330m2, the geothermal power is maintained at a temperature of 14 ℃ to 16 ℃ The geothermal heat exchanger 7 is formed of a U type geothermal heat absorbing pipe having three to seven stages installed at a depth of the geothermal heat exchanger 7. The total length of the geothermal heat exchanger 7 is 900M or more, The geothermal water passing through the inside of the heat exchangers 7a to 7c absorbs geothermal heat, which is pure renewable energy,

The geothermal water, which is the renewable energy absorbed by the geothermal power, is supplied to the fan coil 3 to which the geothermal water is supplied by the inlet pipe 2, and the fan coil 3 to which the geothermal water absorbed by the high- The indoor temperature of 15 ° C or higher is lowered to 15 ° C in the summer and the room temperature of the low temperature of the greenhouse is decreased to 10 ° C-15 ° C in the winter The fan coil 3,

Further, since the secondary vinyl roof 2P installed under the primary vinyl roof 1P for blocking the cold air outside the vinyl house performs a thermal insulation effect, the fan coil 3 (3P) installed at intervals of 3M to 10M in the longitudinal direction , The indoor temperature of the greenhouse is controlled by the fan coil 3 so as to perform a cooling action in summer and a heating action in winter based on the geothermal heat

The temperature inside the vinyl house is maintained at 7 to 12 占 폚 according to the geothermal water at the temperature of 14 to 16 占 폚. Therefore, the crop growing inside the vinyl house has a temperature of the inner part of the vinyl house And to a thermostat.

Generally, when cultivating crops grown in planted greenhouses, various kinds of cooling and heating heat exchangers (7) for maintaining the proper temperature inside the plastic house, and groundwater environments such as sunlight and carbon dioxide, , Oxygen and proper temperature maintenance are also important.

Therefore, there is a problem that the necessary amount of geothermal water for the irrigation water for the irrigation facilities, which can collect the geothermal water that maintains the proper geothermal heat, is not smooth in order to create the optimum environment for the facility crop to grow well.

 There have been many developed and used equipment for heating or cooling the interior of greenhouses for the cultivation of plant crops. However, since fossil fuels are mainly used for this purpose and all of them are dependent on imports, So the burden of farmers

Compared to the actual situation, there is insufficient development of fuel saving method and alternative energy.

Actually, as of 2002, 95% of the heating fuel of domestic horticulture is used as light oil, 4% of heavy fuel oil and 1% of others are used, and heating cost is 30 ~ 37% 20% in the Netherlands, 14 ~ 15% in the Netherlands, and 10% in Israel.

According to the 2001 Rural Development Administration statistics, most of the domestic greenhouses and vinyl vinyl houses occupy the area of 330m2, and most of the heating heat from the heating oil is used. The calorific value of heating oil differs from the actual effective calorific value, Considering loss of body, loss of exhaust gas, and other heat loss, the thermal energy that can be supplied is about 75 ~ 85%. When the amount of light oil is about 8,700 ㎉ / ℓ, the actual heat used is only 7,360 ㎉ / ℓ, to be.

      Therefore, since it is unreasonable for anyone to use fossil fuels to cultivate pollution-free agricultural products, it is necessary to use pollution-free natural alternative energy, but there is no special substitute product yet and it is used as an auxiliary heat source by utilizing solar, wind, It is a reality to the degree.

   Therefore, it is urgently required to develop a method of using geothermal energy, which is no pollution-free ceiling energy, as a supplementary heat source, and as a 100% main heat source as renewable energy.

In KR-Y1-20-0196080, the temperature regulating device 20 includes a conventional cooling unit 21 for cooling the geothermal water to be sprayed;

A storage tank 22 for temporarily storing the geothermal water cooled by the cooling unit 21;

A circulation pump 23 which is installed between the cooling unit 21 and the storage tank 22 to supply geothermal water in the storage tank 22 to the cooling unit 21 for re- ; The cooling unit 21 and the storage tank 22 are formed on the ground so that the geothermal heat is not utilized any more because the geothermal water is cooled or re-cooled to adjust the temperature of the jasmine However, since it consumes industrial electric energy, there is a problem that it can not be utilized efficiently.

The KR-Y1-0371813 is installed in the underground rock layer 100 so that the geothermal water W is drilled and the geothermal water W is supplied to one point inside the vessel 110 where the upper part is sealed by the pipe head 111 A pipe (12) having a pump (130) for lifting and forming a number of through holes (121)

0 and the geothermal feeding and discharging outlet 200 associated with the pump 130 in the pipe 120 is connected to the circulating pipe 210 for circulating the circulating water W ' Although the suction hole 121 is opened at the end of the collecting pipe 120, since the geothermal heat can not be utilized as it is and the heat exchanger 150 is used, the heat exchanger 150), there is a problem that the geothermal heat can not be utilized as it is,

In addition, since the position of the collecting part is disposed on the ground surface close to the ground, there is a problem that the geothermal heat can not be utilized and thus it can not be utilized efficiently.

In addition, referring to the points described in KR-B1-10-139243,

A sewage pipe through which water flowing from the inner vinyl house flows by self weight;

A water tank embedded in the ground to collect water through the sewage pipe;

A pump for raising water in the water tank to be supplied to the inner vinyl house;

The water drawn by the pump is sprayed onto the lower vinyl cover of the inner vinyl house

 And the water tank is installed at a depth of 2m or less under the water tank. Since the boiler is used, there is a problem that the water tank can not be utilized effectively,

This is because the water tank is buried in the basement at 2 m, which is a freezing depth of the ground surface, so that the normal underground heat can not be efficiently utilized.

KR-Y1-20-0371813 KR-Y1-20-0196080 KR-B1-10-1392430

In order to maintain the temperature of 7 ℃ -15 ℃, which can grow in greenhouses or indoor farm buildings for the cultivation of crops on the basis of the area of 330m2 of greenhouses or indoor agricultural buildings for crops cultivation, The geothermal heat exchanger 7 is provided with ∪ -type geothermal exchange pipes 7a-7c formed at a depth of 152m underground to hold the geothermal heat exchanger 7, The geothermal water passing through the inside of the geothermal exchange pipes 7a to 7c is uniformly installed on the foundation of the cultivated land on the floor of the vinyl house or the indoor agricultural building in order to absorb the geothermal heat of pure and renewable energy and to grow the crop A fan coil 3 for radiating the geothermal heat absorbed by the geothermal exchanger 7 to the room on the basis of the fan coils, (1) and a fan coil (3) for circulation, the rotation speed of which is increased or decreased in accordance with the instruction of a thermometer provided in the interior of a vinyl house or an indoor farming building on the basis of an internal area of 330 square meters, It is a cooling and heating device that regulates and maintains the temperature inside the agricultural building to 7 ℃ ~ 15 ℃. Therefore, it is aimed to cultivate the crops based on the geothermal heat of new and renewable energy.

Facilities To grow crops on the basis of an area of greenhouses or indoor agricultural buildings for cultivation of crops 330 sq. M. To maintain a suitable temperature of 14 ° C to 16 ° C to grow in greenhouses or indoor agricultural buildings, The geothermal heat exchanger 7 is formed of 형-type geothermal exchange pipes 7a-7c having seven to seven stages. The total length of the geothermal exchanger 7 is 900M or more, 7a - 7c), the geothermal water passing through the inside is absorbed by the geothermal heat, which is pure and renewable energy, and is fed to the geothermal exchanger (7) by the fan coils installed on the foundation of the cultivating area (3) for radiating the absorbed geothermal heat to the room, a greenhouse or a greenhouse which becomes geothermal due to the fan coil (3) (1) and fan coils (3) for circulation, the rotating speed of which increases or decreases according to the instructions of the thermometer installed in the interior of the building, Is controlled by the temperature of 7 [deg.] C to 15 [deg.] C and is kept warm.

In order to maintain the temperature of 7 ℃ -15 ℃, which can grow in greenhouses or indoor farm buildings for the cultivation of crops on the basis of the area of 330m2 of greenhouses or indoor agricultural buildings for crops cultivation, The geothermal heat exchanger 7 is provided with ∪ -type geothermal exchange pipes 7a-7c formed at a depth of 152m underground to hold the geothermal heat exchanger 7, The geothermal water passing through the inside of the geothermal exchange pipes 7a to 7c is uniformly installed on the foundation of the cultivated land on the floor of the vinyl house or the indoor agricultural building in order to absorb the geothermal heat of pure and renewable energy and to grow the crop A fan coil 3 for radiating the geothermal heat absorbed by the geothermal exchanger 7 to the room on the basis of the fan coils, (1) and a fan coil (3) for circulation, the rotation speed of which is increased or decreased in accordance with the instruction of a thermometer provided in the interior of a vinyl house or an indoor farming building on the basis of an internal area of 330 square meters, Since the inside and the outside of the agricultural building are controlled by the temperature of 7 ° C to 15 ° C, it is effective to cultivate crops based on the geothermal heat of the renewable energy.

1 is a longitudinal sectional view of a greenhouse according to the present invention,

The features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It must be interpreted in terms of meaning and concept.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

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.

In order to maintain the temperature of 7 ° C-15 ° C, which can grow in greenhouses or indoor agricultural buildings, for the cultivation of crops based on the area of 330m 2 of the greenhouses or indoor farming buildings for crops cultivation, A geothermal heat exchanger 7 is provided to connect the geothermal heat exchange pipes 7a-7c and the geothermal water pipe 2, which are installed at a depth of 152m below the ground,

Since the total length of the pipe of the geothermal heat exchanger 7 is 900M or more, the circulation high-pressure water pump 1 for supplying geothermal water passing through the inside of the geothermal exchange pipes 7a to 7c, 1), in order to grow crops by warming up according to geothermal heat, which is pure renewable energy, there are provided a fan coil 3, which is installed on a foundation of a cultivated area on the floor of a vinyl house or an indoor agricultural building, The geothermal heat absorbed by the geothermal heat exchanger 7 is radiated to the interior of the greenhouse or indoor farming building by the rotary vane 3b provided inside the safety guard 3b formed on the front surface of the roof 3,

A circulating high-pressure water pump 1 in which the rotational speed is increased or decreased in accordance with an instruction from a thermometer provided in the interior of the vinyl house or indoor agricultural building on the basis of the internal area of 330 square meters, where the geothermal heat is radiated by the fan coil 3, And the fan coils (3), the temperature of the interior of the greenhouse or indoor farming building is controlled and maintained at 7 ° C to 15 ° C.

In order to maintain the room temperature in winter, the rotational speed of the circulation high-pressure water pump (1) is increased and the supply of geothermal water is increased The rotational speed of the fan coil 3 is reduced so that the room temperature is maintained at 7-10 ° C or higher,

In the summer, the temperature of the interior of the greenhouse or the indoor farming building is controlled by reducing the rotation speed of the circulation high-pressure water pump 1 to reduce the flow of the geothermal water, increasing the rotation speed of the fan coil 3, Keep it at 10 ℃ -15 ℃.

In addition, in the interior of the greenhouses for cultivating crops or indoor farming buildings, a heat exchange hole 7d formed on the basis of an area of 330㎡ of the vinyl house for indoor cultivation or the indoor agricultural building corresponding to the heat capacity for maintaining the temperature of 10 ° C, (Not shown) for excavating the heat exchange holes 7d, and is excavated at a depth of 0.15 m and a depth of 150 m under the condition of one to three holes or more,

 A geothermal exchange pipe 7a-7c installed in a U-shape in the inner cavity of the heat exchange hole 7d and the geothermal exchange pipe 7a-7c having a diameter of 0,03M to 0.05M, The geothermal exchange pipes 7a to 7c are formed to have a length of 900M or more so that the geothermal cooling water passing through the inside of the geothermal exchange pipes 7a to 7c is purely renewable According to the geothermal energy, the indoor temperature of the vinyl house for greenhouse cultivation or the indoor agricultural building is controlled to 7 ° C to 15 ° C and maintained at a constant temperature by the heat exchange method.

The geothermal heat absorbed by the geothermal water inside the geothermal exchange pipes 7a-7c is supplied to the inside of the fan coil 3 installed in the cultivation area of the facility crop cultivation by the circulation high-pressure water pump 1, A discharge pipe 4 for discharging the waste heat from which the geothermal heat having passed through the heat exchanger 7 and the fan coil 3 is discharged and the discharge water discharged to the discharge pipe 4 is discharged to the disinfection tank 5 The geothermal heat exchange pipe 7a-7c and the geothermal water pipe 2 are connected to each other by the geothermal exchange pipe 7a-7c and the geothermal water pipe 2 because the natural reduction of the geothermal water passing through the heat exchanger is supplemented. The geothermal heat of the water storage tank 6 is supplied to the inside of the geothermal heat exchange pipes 7a-7c to absorb the geothermal heat so that the water level of the geothermal water does not decrease.

The low water level sensor 6a for measuring the water level of the water reservoir 6 senses the water level drop of the water level in the water level sensor 6a that senses the water level of the water level, And the replenishment water tank 12 detects the level of the water in the replenishment water level sensor 13 that senses the water level of the replenishment water tank 12, The replenishment water replenishing water pipe 9 and the groundwater replenishing water in the replenishing water pipe 9 are pumped by the replenishing pipe 11 to the replenishing water tank 12 ). ≪ / RTI >

An inner house roof (1P) connected to the outdoor air forming the air layer is connected to the inner house roof (1P) to connect the inner wall of the vinyl house (2P) to form an intermediate air layer, so that it maintains the temperature of the room because it functions as a heat reservoir in the intermediate air layer.

The present invention relates to a geothermal heat generation system for a geothermal power generation system, which comprises a geothermal heat of 14 ° C to 16 ° C, which is a renewable energy that is keeping warm in a vinyl house, a fan coil for heat- It is possible to utilize geothermal heat as natural and friendly renewable energy as geothermal heat from 14 ℃ to 16 ℃ according to geothermal water heat exchanged at 150M or less because it is utilized as an initial heat source of 14 ℃ -16 ℃. It is possible to carry out the initial cooling and heating advantageously based on inexpensive new renewable energy.

One ; High pressure water pump 2 for circulation; Water pipe 3; A fan coil 4; Discharge pipe
5; Disinfection tank 6; Water tank 7; Geothermal exchanger
8 ; A temperature sensing sensor 9; Supplementary receptions 10; Groundwater replenishment water pump

Claims (3)

In order to maintain the temperature of 7 ° C-15 ° C, which can grow in greenhouses or indoor agricultural buildings, for the cultivation of crops based on the area of 330m 2 of the greenhouses or indoor farming buildings for crops cultivation, A geothermal heat exchanger 7 having 형-shaped geothermal heat exchange pipes 7a-7c formed at a depth of 152m underneath and having three to seventh stages,
Since the total length of the pipes of the geothermal heat exchanger 7 forms 900M of the geothermal heat exchange pipes 7a to 7c, the geothermal water passing through the inside of the geothermal heat exchange pipes 7a to 7c is absorbed by the geothermal heat A fan coil 3 provided on the foundation of the cultivating area on the bottom of the vinyl house or indoor farm building for cultivating the crops and a rotary guard 3b provided inside the safety guard 3b formed on the front face of the fan coil 3, The geothermal heat absorbed by the geothermal heat exchanger 7 is diverted into the room by the indoor heat exchanger 3b,
A circulating high-pressure water pump 1 for increasing or decreasing the rotational speed of the greenhouse or the indoor farming building based on the fan coil 3 according to an instruction from a thermometer provided in the interior with an internal area of 330 square meters Wherein the temperature of the interior of the greenhouse or the indoor agricultural building is controlled and maintained at 7 ° C to 15 ° C by means of the fan coil (3), by means of the geothermal heat of the fan house. The method according to claim 1,
(Not shown) for excavating the heat exchange holes 7d, a heat exchange hole 7d formed in correspondence to the amount of heat and the heat capacity consumed to maintain the temperature of 10 ° C, Wherein the excavation is performed at a depth of 0.15 m and a depth of 150 m under the condition of 1 to 3 holes or more. 3. The method according to claim 1 or 2,
In order to maintain the room temperature in winter, the rotational speed of the circulation high-pressure water pump (1) is increased and the supply of geothermal water is increased The rotational speed of the fan coil 3 is reduced so that the room temperature is maintained at 7-10 ° C or higher,
In the summer, the temperature of the interior of the greenhouse or the indoor farming building is controlled by reducing the rotation speed of the circulation high-pressure water pump 1 to reduce the flow of the geothermal water, increasing the rotation speed of the fan coil 3, To 10 < 0 > C to 15 < 0 > C or less.

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