JP6506457B1 - Air conditioning system and method in vertical hydroponic cultivation house - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent rise in nutrient solution temperature in summer of a vertical water culture culture house, and to obtain a heating or cooling effect without affecting the humidity in the vertical water culture culture house. Providing air conditioning system and method in vertical hydroponic cultivation house. SOLUTION: A plurality of vertical hydroponic culture cylinders 4 are provided in a semi-closed type house 1 covered with a material transparent to sunlight, such as vinyl, plastic, glass, etc., and the plurality of vertical hydroponic culture cylinders 4 The suspension pump 3 is suspended from a steel suspension pipe 3 disposed on the gantry 2 and supplies the nutrient solution 10 from the liquid feed pump 9 to the culture medium 5 in each vertical hydroponic culture cylinder 4 along the suspension pipe 3 A nutrient solution tube 8 is disposed, and hot water or cold water is supplied into the suspension pipe 8. [Selected figure] Figure 2

Description

  The present invention relates to an air conditioning system and an air conditioning method in a semi-closed type solar light vertical hydroponic culture house covered with a material transparent to sunlight, such as vinyl, plastic, and glass.

DESCRIPTION OF RELATED ART Conventionally, the thing of patent document 1 is known as an air conditioning system in the water culture cultivation house of a semi-closed type using sunlight.
The air conditioning system in the conventional hydroponic cultivation house is provided with an air conditioner (heat exchanger) in the enclosed space provided with the hydroponic cultivation facility to perform temperature adjustment in the nutrient solution and the enclosed space. ing.

JP, 2016-140304, A

However, in a semi-closed type vinyl house that has introduced a vertical hydroponic culture system, by relying on the air conditioner (heat exchanger) to control the temperature in the house, it will result in a huge cost of electrical energy, Problem of getting worse.
In addition, install a nutrient solution tube that supplies nutrient solution to each vertical hydroponic plant along the suspended pipes for hanging a large number of vertical hydroponic plants installed at a high position on the gantry. So, in the summer season, since the hanging pipe has heat by sunlight, the nutrient solution is warmed more than necessary, causing problems in plant cultivation.
Also in general soil cultivation, in general, heavy oil and kerosene are burned and warm air is sent by performing air conditioning-type room temperature adjustment in winter, but by doing so, the interior of the house is extremely dried. Photosynthesis of cultivated crops is no longer promoted, and there are frequent negative effects such as developmental disorders. In addition, there are also harmful effects from the exhaust gas generated by the combustion of heavy oil or kerosene.
Moreover, in general soil cultivation, although there also existed what air-conditions the inside of a house by supplying warm water or cold water in the pipe arrange | positioned along soil, the soil is warmed or cooled. Since moisture is generated, the humidity in the house rises, causing mold growth and causing diseases.

  The problem to be solved by the present invention is to prevent the rise of the nutrient solution temperature in the summer of the vertical hydroponic culture house, and to perform heating or without affecting the humidity in the vertical hydroponic culture house. An object of the present invention is to provide an air conditioning system and an air conditioning method in a vertical hydroponic cultivation house capable of obtaining a cooling effect.

Air conditioning system in a vertical hydroponic cultivation house according to claim 1, wherein for solving the above problems, vinyl, plastic, a plurality of vertical hydroponic the covered hydroponics in house a material which transmits sunlight, such as glass Equipped with cultivation facilities,
The plurality of vertical hydroponic plants are suspended on a steel suspension pipe disposed on a rack,
A nutrient solution tube for supplying nutrient solution from nutrient solution supply means to each vertical hydroponic cultivation facility is arranged along the steel suspension pipe,
It is characterized in that hot water or cold water is supplied in the suspension pipe.

The air conditioning system in the vertical type hydroponic cultivation house according to claim 2 is the air conditioning system in the hydroponic cultivation house according to claim 1,
A chiller for controlling the temperature of the hot water or cold water is interposed in a circulation passage of the hot water or cold water supplied into the suspension pipe.

The air conditioning system in the vertical type hydroponic cultivation house according to claim 3 is the air conditioning system in the vertical type hydroponic cultivation house according to claim 1 or 2,
The vertical hydroponic cultivation facility includes a plurality of vertical hydroponic cultivation cylinders provided with vertical slits or openings for planting a plant seedling on at least one side of a vertically long cylinder containing a culture medium therein. It is characterized by being composed of

The air conditioning system in the vertical type hydroponic cultivation house according to claim 4 is the air conditioning system in the vertical type hydroponic cultivation house according to claim 3.
In the vertical hydroponic culture house, a nutrient solution storage tank, nutrient solution supply means for supplying nutrient solution to the culture medium from the nutrient solution storage tank through the nutrient solution tube, and nutrient solution supplied to the culture medium are provided. And a nutrient solution collecting means for collecting the nutrient solution in the nutrient solution storage tank.

The air conditioning system in the vertical type hydroponic cultivation house according to claim 5 is the air conditioning system in the vertical type hydroponic cultivation house according to claim 3 or 4,
The culture medium is composed of a water-retaining sheet and a breathable material sandwiching both sides thereof, and is accommodated in the vertical hydroponic culture cylinder so as to be able to be removed and removed.

The air conditioning method in the vertical type hydroponic cultivation house according to claim 6 comprises a plurality of vertical type hydroponic cultivation facilities in the hydroponic cultivation house covered with a material transparent to sunlight, such as vinyl, plastic, glass, etc.
The plurality of vertical hydroponic plants are suspended from a steel suspension pipe disposed on a rack,
The nutrient solution tube which supplies nutrient solution to each vertical water culture equipment is arranged along the above-mentioned steel suspension pipe,
Hot water or cold water may be supplied into the suspension pipe.

The air conditioning system in the vertical type hydroponic culture house according to claim 7 is a multistage rack hydroponic plant requiring height in a semi-closed type house covered with a material transparent to sunlight such as vinyl, plastic, glass and the like. Equipped with
Hot or cold water is supplied in tubes disposed along the top of the multistage rack hydroponic installation facility,
A nutrient solution tube for feeding nutrient solution from a nutrient solution supply means to a multistage rack hydroponic cultivation facility is disposed along the tube.

The air conditioning method in the vertical type water culture cultivation house according to claim 8 comprises a plurality of vertical type water culture requiring height in a semi-closed type house covered with a material transparent to sunlight such as vinyl, plastic, glass and the like. Equipped with cultivation facilities,
The plurality of vertical hydroponic cultivation facilities are suspended on a hanging pipe disposed on a gantry,
A nutrient solution tube is provided to supply nutrient solution to each vertical hydroponic facility along the hanging pipe,
Hot water or cold water may be supplied into the suspension pipe.

The air conditioning method in the vertical type hydroponic cultivation house according to claim 9 is the air conditioning method in the vertical type hydroponic cultivation house according to claim 8.
A chiller for controlling the temperature of the hot water or cold water is interposed in a circulation passage of hot water or cold water supplied into the suspension pipe.

The air conditioning method in the vertical type hydroponic cultivation house according to claim 10 is the air conditioning method in the vertical type hydroponic cultivation house according to claim 8 or 9,
The vertical hydroponic cultivation facility includes a plurality of vertical hydroponic cultivation cylinders provided with vertical slits or openings for planting a plant seedling on at least one side of a vertically long cylinder containing a culture medium therein. It is characterized by comprising.

The air conditioning method in the vertical type hydroponic cultivation house according to claim 11 is the air conditioning method in the vertical type hydroponic cultivation house according to claim 10,
In the vertical hydroponic culture house, a nutrient solution storage tank, nutrient solution supply means for supplying nutrient solution to the culture medium from the nutrient solution storage tank through the nutrient solution tube, and nutrient solution supplied to the culture medium are provided. And a nutrient solution collecting means for collecting the nutrient solution in the nutrient solution storage tank.

The air conditioning method in the vertical type hydroponic cultivation house according to claim 12 is the air conditioning method in the vertical type hydroponic cultivation house according to claim 10 or 11,
The culture medium 5 is composed of a water-retaining sheet and a breathable material sandwiching both sides thereof, and is accommodated in the vertical hydroponic culture cylinder so as to be able to be pulled out and removed.

The air conditioning method in the vertical type hydroponic cultivation house according to claim 13 includes a plurality of vertical type requiring heights on a floor surface of a semi-closed type house covered with a material transparent to sunlight, such as vinyl, plastic, and glass. Equipped with hydroponic cultivation facilities,
Supplying hot or cold water into a tube disposed along the top of the vertical hydroponic equipment;
It is characterized by arrange | positioning the nutrient solution tube which supplies a nutrient solution from a nutrient solution supply means to a vertical type hydroponic cultivation installation along the said tube.

The air conditioning method in the vertical type hydroponic culture house according to claim 14 is a multistage rack hydroponic installation apparatus requiring height in a semi-closed type house covered with a material transparent to sunlight such as vinyl, plastic, glass and the like. Equipped with
Supplying hot or cold water into a tube disposed along the top of the multistage rack hydroponic installation facility,
It is characterized by arrange | positioning the nutrient solution tube which supplies a nutrient solution from a nutrient solution supply means to a multistage rack hydroponic cultivation installation along the said tube.

  In the present invention, as described above, a nutrient solution tube for supplying nutrient solution to each vertical hydroponic facility along a hanging pipe disposed on a gantry is disposed, and hot water or water in the hanging pipe is provided. By supplying cold water, it is possible to prevent the rise in temperature of the suspension pipe in the summer, and thereby to prevent the rise in nutrient temperature in the nutrient solution tube disposed along the suspension pipe.

  Also, by supplying hot or cold water to the hanging pipe located at a high position in the house, it does not affect the humidity in the house as compared to the case where it is placed along the soil as before. The heating or cooling effect can be obtained.

First, an air conditioning system in the vertical hydroponic cultivation house 1 of the first embodiment will be described based on the drawings.
As shown in FIGS. 1 to 5, the vertical type hydroponic culture house 1 in the first embodiment includes a plurality of vertical type hydroponic culture houses 1 covered with a material that transmits sunlight, such as vinyl, plastic, and glass. It is equipped with hydroponic cultivation equipment.
The plurality of vertical hydroponic cultivation facilities are provided in a suspended state at a predetermined distance from a steel suspension pipe 3 disposed on a gantry 2 in the house 1 via a suspension tool 3a. .

  Further, compared to warm air caused by the combustion of heavy oil or kerosene, the interior of the house is not extremely dried, and no harmful effect is caused by the exhaust gas generated.

FIG. 2 is a cross-sectional plan view showing the air conditioning system in the vertical hydroponic cultivation house of the first embodiment. It is an expansion longitudinal cross-sectional view in the AA of FIG. It is an expansion longitudinal cross-sectional view in the BB line of FIG. It is the C section enlarged view of FIG. It is a principal part enlarged view of FIG. It is a conceptual diagram which shows the nutrient solution supply circulation circuit to the culture medium of a vertical hydroponic culture cylinder. It is an expansion longitudinal cross-sectional view in the DD line of FIG.

  Embodiments of the present invention will be described below based on the drawings.

First, an air conditioning system in the vertical hydroponic cultivation house 1 of the first embodiment will be described based on the drawings.
As shown in FIGS. 1 to 5, the vertical hydroponic cultivation house 1 in the first embodiment has a height in a semi-closed house 1 covered with a material that transmits sunlight, such as vinyl, plastic, and glass. It is equipped with several vertical type hydroponic cultivation facilities that are required.
The plurality of vertical hydroponic cultivation facilities are provided in a suspended state at a predetermined distance from a steel suspension pipe 3 disposed on a gantry 2 in the house 1 via a suspension tool 3a. There is.

In the first embodiment, as shown in FIGS. 6 and 7, the vertical type hydroponic cultivation facility is a vertical type for planting seedlings 6 of a plant on at least one side of a vertically long cylinder housing the culture medium 5 therein. It is comprised by the vertical hydroponic cultivation cylinder 4 provided with the slit 4a or opening part of the direction.
The culture medium 5 is composed of a water-retaining sheet 5a and an air-permeable material 5b sandwiching the both surfaces thereof, and is accommodated in the vertical hydroponic culture cylinder 4 so as to be able to be pulled out and removed. In addition, on the upper surface of the culture medium 5, a water retention sheet 5c is placed which is in contact with the upper end surface of the water retention sheet 5a.

In the house 1, a nutrient solution storage tank 7 and a feed pump for supplying a nutrient solution 10 to the culture medium 5 of each vertical hydroponic culture cylinder 4 from the nutrient solution storage tank 7 via a nutrient solution tube 8 ( A nutrient solution dripping from the lower end of the culture medium 5 is provided with a nutrient solution supply means) 9 and a water collecting basin (nutritional fluid collection means) 11 for collecting the nutrient solution 10 supplied to the culture medium 5 into the nutrient solution storage tank 7. 10 is received by the water collecting basin 11, and the nutrient solution 10 accumulated in the water collecting basin 11 is collected into the nutrient solution storage tank 7 via the water collecting circulation path 13.
In the first embodiment, the nutrient solution storage tank 7 is installed at a position lower than the water collecting basin 11, and the nutrient solution 10 in the water collecting basin 11 is dropped by the head through the water collecting circulation path 13. To be collected.

Referring back to FIGS. 1 to 5, the nutrient solution tube 8 is disposed along the steel suspension pipe 3, and each of the nutrient pipes 8 a branches from the nutrient solution tube 8 toward the respective vertical hydroponic culture cylinders 4. The nutrient solution 10 is supplied to the culture medium 5.
The spoiled tip of the branch pipe 8a is first disposed on the water retaining sheet 5c on the upper surface of the culture medium 5, as shown in FIG. 4, and the nutrient solution 10 is dropped onto the water retaining sheet 5c to form the water retaining sheet 5c. The dripping nutrient solution 10 is supplied to the water retention sheet 5a.

  In the first embodiment, a submersible pump is used as the liquid supply pump (liquid nutrient solution supplying means) 9 so as to function for supplying the liquid nutrient 10 and for stirring the liquid nutrient in the nutrient liquid storage tank 7. ing.

  In the air conditioning system in the vertical type hydroponic cultivation house 1 of the first embodiment, the inside of the house 1 is air-conditioned by the supply of hot water or cold water in the suspension pipe 3.

  In the figure, 14 is a passage, 15 is a connection pipe for connecting a plurality of hanging pipes 3 and 3, 16 is a heat retention curtain, 17 is a ventilating fan, 18 is an intake shutter, 19 is a nutrient solution adjuster, and 20 is a nutrient solution regulator. The liquid management apparatus, 21 is a mist generating apparatus, 22 is a control panel.

Next, the operation and effect of the first embodiment will be described.
In the first embodiment of the present invention, as described above, the nutrient solution tubes 8 for supplying the nutrient solution to the vertical water culture equipment along the steel suspension pipes 3 disposed on the gantry 2 are disposed. By supplying cold water into the suspension pipe 3 to prevent the temperature rise of the suspension pipe 3 in the summer, thereby raising the temperature of the nutrient solution in the nutrient solution tube 8 disposed along the suspension pipe 3 Can be prevented.

  In addition, by supplying hot or cold water to the hanging pipe 3 disposed at a high position in the house 1, the humidity in the house 1 is affected as compared with the case where it is disposed along the soil as in the conventional case. It becomes possible to obtain the heating or cooling effect without any problems.

  In addition, since hot water uses waste heat and geothermal heat left in the incinerator, and cold water can use underground water, the running cost is greatly reduced compared to the case where temperature control inside the house 1 is performed with an air conditioner (heat exchanger). Be able to

  Further, compared to warm air caused by the combustion of heavy oil or kerosene, the inside of the house 1 is not extremely dried, and no harmful effect is caused by the exhaust gas generated.

  Further, the temperature of the hot water or cold water can be controlled by interposing the chiller in the circulation flow path of the hot water or cold water supplied into the suspension pipe 3.

  Although the embodiments of the invention have been described above, the present invention is not limited to the above-described embodiments, and design changes and the like within the scope of the present invention are included in the present invention.

  For example, in the first embodiment, the boiler 12 is used as a heat source of hot water, but waste heat and geothermal heat remaining in the incinerator can be used.

  Further, in the first embodiment, a steel pipe has been described as an example of the hanging pipe 3, but it may be other than steel, and the effect can be obtained with a material having particularly high thermal conductivity.

Moreover, in Example 1, although the submersible pump was used as the liquid supply pump (fluid supply means) 9, you may provide a liquid supply pump in the middle of the nutrient solution tube 8,
In the first embodiment, the nutrient solution storage tank 7 is installed at a position lower than the water collection basin 11, and the nutrient solution 10 in the water collection basin 11 is collected into the nutrient solution storage tank 7 by a head. However, the nutrient solution storage tank 7 may be installed at a position higher than the water collection basin 11, and the nutrient solution 10 accumulated in the water collection basin 11 may be collected in the nutrient solution storage tank 7 using a circulation pump.

  In Example 1, the semi-closed type house is provided with a plurality of vertical hydroponic equipment requiring height, and the plurality of vertical hydroponic equipment are suspended pipes disposed on a gantry. An example of hanging on the floor is shown, but vertical hydroponic cultivation equipment may be erected on the floor of the house.

  In Example 1, the semi-closed type house is provided with a plurality of vertical hydroponic equipment requiring height, and the plurality of vertical hydroponic equipment are suspended pipes disposed on a gantry. Suspended in the vertical column, and made up of a plurality of vertical hydroponics cylinders 4 with vertical slits or openings for planting the seedlings of plants on at least one side of the longitudinal cylinder containing the culture medium inside In the example described above, hot or cold water is supplied into a tube placed along the top of a multistage rack hydroponic installation installed in a semi-closed house, and the multistage rack is placed along the tube A nutrient solution tube for feeding nutrient solution from the nutrient solution supply means may be disposed in the hydroponic equipment.

DESCRIPTION OF SYMBOLS 1 house 2 mount frame 3 hanging pipe 3a hanging tool 4 vertical water culture cylinder 4a slit 5 culture medium 5a water retaining sheet 5b air permeable material 5c water retaining sheet 6 plant seedling 7 nutrient solution storage tank 8 nutrient solution tube 8a branch Pipe 9 Feed pump (nutrient feed means)
10 nutrient solution 11 water collecting basin (nutrient recovery means)
12 boiler (hot water heat source)
13 water collection circuit 14 passage 15 connection pipe 16 heat retention curtain 17 ventilation fan 18 air intake shutter 19 nutrient solution regulator 20 nutrient solution control device 21 mist generator 22 control panel

Claims (10)

Several vertical type hydroponic cultivation facilities are provided in a hydroponic cultivation house covered with a material transparent to sunlight, such as vinyl, plastic, glass, etc.
The plurality of vertical hydroponic plants are suspended on a steel suspension pipe disposed on a rack,
A nutrient solution tube for supplying nutrient solution from nutrient solution supply means to each vertical hydroponic cultivation facility is arranged along the steel suspension pipe,
An air conditioning system in a vertical hydroponic cultivation house, wherein hot water or cold water is supplied into the suspended pipe. In the air conditioning system in the vertical hydroponic cultivation house according to claim 1,
An air conditioning system in a vertical hydroponic cultivation house, wherein a chiller for controlling the temperature of hot water or cold water is inserted in a circulation flow path of hot water or cold water supplied into the suspension pipe. In the air conditioning system in the vertical hydroponic cultivation house according to claim 1 or 2,
The vertical hydroponic cultivation facility comprises a plurality of vertical hydroponics tubes provided with vertical slits or openings for planting seedlings of plants on at least one side of a vertically long cylinder containing a culture medium inside. An air conditioning system in a vertical hydroponic cultivation house characterized by comprising. In the air conditioning system in the vertical hydroponic cultivation house according to claim 3,
In the vertical hydroponic culture house, a nutrient solution storage tank, nutrient solution supply means for supplying nutrient solution to the culture medium from the nutrient solution storage tank through the nutrient solution tube, and nutrient solution supplied to the culture medium are provided. An air conditioning system in a vertical hydroponic cultivation house, comprising: nutrient solution recovery means for recovering into a nutrient solution storage tank. The air conditioning system in the vertical hydroponic cultivation house according to claim 3 or 4
The air conditioning in a vertical type hydroponic culture house characterized in that the culture medium is composed of a water retaining sheet and a breathable material sandwiching both sides thereof, and is removably accommodated in the vertical type hydroponic culture cylinder. system. Several vertical type hydroponic cultivation facilities are provided in a hydroponic cultivation house covered with a material transparent to sunlight, such as vinyl, plastic, glass, etc.
The plurality of vertical hydroponic plants are suspended from a steel suspension pipe disposed on a rack,
The nutrient solution tube which supplies nutrient solution to each vertical water culture equipment is arranged along the above-mentioned steel suspension pipe,
An air conditioning method in a vertical water culture culture house, characterized in that hot water or cold water is supplied into the suspended pipe. In the air conditioning method in the vertical type hydroponic cultivation house according to claim 6,
A method of air conditioning in a vertical hydroponic cultivation house, comprising inserting a chiller for controlling the temperature of hot water or cold water in a circulation flow path of hot water or cold water supplied into the suspension pipe. In the air conditioning method in the vertical type hydroponic cultivation house according to claim 6 or 7,
The vertical hydroponic cultivation facility comprises a plurality of vertical hydroponics tubes provided with vertical slits or openings for planting seedlings of plants on at least one side of a vertically long cylinder containing a culture medium inside. An air conditioning method in a vertical hydroponic cultivation house characterized by comprising. In the air conditioning method in the vertical type hydroponic cultivation house according to claim 8,
In the vertical hydroponic culture house, a nutrient solution storage tank, nutrient solution supply means for supplying nutrient solution to the culture medium from the nutrient solution storage tank through the nutrient solution tube, and nutrient solution supplied to the culture medium are provided. A method of air conditioning in a vertical hydroponic culture house, comprising: a nutrient solution recovery means for recovering the nutrient solution storage tank. In the air conditioning method in the vertical type hydroponic cultivation house according to claim 8 or 9,
The culture medium 5 is composed of a water-retaining sheet and an air-permeable material sandwiching both sides thereof, and the air-conditioning method in a vertical type hydroponic culture house is characterized in that the vertical type hydroponic culture cylinder is removably received. .

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