JP2021029125A - Vertical hydroponic apparatus, and rail system in vertical hydroponics - Google Patents

Abstract

To provide a vertical hydroponic apparatus and a rail system in vertical hydroponics which can safely and efficiently perform harvesting work of plants.SOLUTION: A hydroponic apparatus comprises a greenhouse 1 for vertical hydroponics and an adjacent plant harvesting room 2, in which the greenhouse 1 for vertical hydroponics comprises: a plurality of vertical hydroponic apparatuses 4 including culture medium for vertical hydroponics; a nutritious liquid storage tank; nutritious liquid supply means for supplying nutritious liquid from the nutritious liquid storage tank to each culture medium for vertical hydroponics; and nutritious liquid recovery means for collecting nutritious liquid dripped from a lower part of the culture medium for vertical hydroponics, and recovering the nutritious liquid into the storage tank. Each vertical hydroponic apparatus 4 is movably provided between the greenhouse 1 for vertical hydroponics and the plant harvesting room 2 along a rail 9 provided for ceilings of the greenhouse 1 for vertical hydroponics and the plant harvesting room 2 in a suspended state to the rail 9 via a suspension tool, and the plant harvesting room 2 is provided with an air conditioner 21.SELECTED DRAWING: Figure 1

Description

The present invention relates to a vertical hydroponic cultivation apparatus and a rail system in vertical hydroponic cultivation.

As a conventional vertical hydroponic cultivation system, there is a patent described in Patent Document 1.
This patent applies to a plurality of vertical hydroponic cultivation cylinders hung on the ceiling of a greenhouse or erected on the floor, a medium that can be inserted and removed in the vertical hydroponic cultivation cylinder, and a medium from a nutrient solution storage tank. A vertical hydroponic cultivation system equipped with a nutrient solution supply means for supplying nutrient solution and a nutrient solution recovery means for collecting nutrient solution dropped from the lower part of a vertical hydroponic cultivation cylinder and collecting the nutrient solution in a nutrient solution storage tank. And
The vertical hydroponic cultivation cylinder is provided with a vertical slit on one side thereof for planting plant seedlings, and the medium is composed of a water-retaining sheet and a breathable material sandwiching both sides thereof. The upper end of the water-retaining sheet protruding from the upper end of the material is bent and placed on the upper surface of at least one of the breathable materials, and the nutrient solution is dropped onto the folded and placed water-retaining sheet from the nutrient solution supply means. Has been done.
Then, in this patent, the medium is inserted into a vertical hydroponic cultivation cylinder with a plurality of plant seedlings sandwiched between the water-retaining sheet and the breathable material, and the nutrient solution is supplied by a nutrient solution supply pump. Is dropped onto the upper end of the water-retaining sheet that is bent and placed, and the seedlings grow by absorbing the nutrient solution from the water-retaining sea.

Japanese Patent No. 6292693

However, conventionally. Harvesting plants in a greenhouse, which is hot in the summer and cold in the winter, is physically demanding, and in the vertical hydroponic cultivation equipment, each vertical hydroponic cultivation cylinder is used to improve the efficiency of plant cultivation. Because the height of the greenhouse is high and the visibility is not reachable in the house, if you fall down due to poor physical condition in the house during the harvesting work, you will not notice the fall and it is a very harsh work that is dangerous to your life. was there.

An object to be solved by the present invention is to provide a vertical hydroponic cultivation device and a rail system in vertical hydroponic cultivation capable of safely and efficiently performing a plant harvesting operation.

In order to solve the above problems, the vertical hydroponic cultivation system according to claim 1 includes a vertical hydroponic greenhouse and a plant harvesting room adjacent to the vertical hydroponic greenhouse.
The greenhouse for vertical hydroponics includes a plurality of vertical hydroponic cultivation devices equipped with a medium for vertical hydroponics, a nutrient solution storage tank, and land cultivation for each vertical hydroponic cultivation from the nutrient solution storage tank. It is provided with a nutrient solution supply means for supplying the nutrient solution to the nutrient solution and a nutrient solution recovery means for collecting the nutrient solution dropped from the lower part of the vertical hydroponic culture medium and collecting the nutrient solution in the nutrient solution storage tank.
Each of the vertical hydroponic cultivation devices is provided in a state of being hung from a rail provided on the ceiling of the vertical hydroponic greenhouse and the plant harvesting room via a hanging tool, and each vertical hydroponic cultivation device is provided. , Each hanger is connected by a wire based on a predetermined interval and is provided so that it can be moved along the rail between the vertical hydroponic greenhouse and the plant harvesting room.
The plant harvesting room is provided with an air conditioner.

The vertical hydroponic cultivation system according to claim 2 is the vertical hydroponic cultivation system according to claim 1.
The vertical hydroponic cultivation device is composed of a vertical hydroponic cultivation cylinder and a vertical hydroponic culture medium that is detachably housed in the vertical hydroponic cultivation cylinder.
The vertical hydroponic cultivation tube is provided with a vertical slit for planting plant seedlings on at least one side thereof.
The vertical hydroponic culture medium is composed of a water-retaining sheet and a breathable material sandwiching both sides thereof, and the upper end of the water-retaining sheet protruding from the upper end of the breathable material is the upper surface of at least one of the breathable materials. It is characterized in that it is bent and placed on the culture medium, and the nutrient solution is dropped onto the water-retaining sheet which is folded and placed from the nutrient solution supply means.

The vertical hydroponic cultivation system according to claim 3 is the vertical hydroponic cultivation system according to claim 1 or 2.
The hanging tool is provided with a pair of rollers at the upper end thereof that rotate along the upper surface of both opening forming walls of a rail having an opening at the center of the lower end.
Positioning recesses for both rollers are formed at predetermined intervals on the upper surface of the double opening forming wall of the rail.
It is characterized in that a nutrient solution dripper for dropping the nutrient solution from the nutrient solution supply means to each vertical hydroponic culture medium is provided at the position of each recessed portion on the rail.

The vertical hydroponic cultivation system according to claim 4 is the vertical hydroponic cultivation system according to any one of claims 1 to 3.
The rail is characterized in that it is arranged so as to circulate in the vertical hydroponic greenhouse after passing through the plant harvesting chamber from the vertical hydroponic greenhouse.

The vertical hydroponic cultivation system according to claim 5 is the vertical hydroponic cultivation system according to any one of claims 1 to 4.
The rail is characterized in that it is composed of a plurality of rows of rails in which a plurality of vertical hydroponic cultivation devices are suspended based on predetermined intervals.

The rail system for vertical hydroponics according to claim 6 includes a greenhouse for vertical hydroponics and a plant harvesting room adjacent to the greenhouse for vertical hydroponics.
The greenhouse for vertical hydroponics includes a plurality of vertical hydroponic cultivation devices equipped with a medium for vertical hydroponics, a nutrient solution storage tank, and land cultivation for each vertical hydroponic cultivation from the nutrient solution storage tank. It is provided with a nutrient solution supply means for supplying the nutrient solution to the nutrient solution and a nutrient solution recovery means for collecting the nutrient solution dropped from the lower part of the vertical hydroponic culture medium and collecting the nutrient solution in the nutrient solution storage tank.
Each of the vertical hydroponic cultivation devices is provided in a state of being hung from a rail provided on the ceiling of the vertical hydroponic greenhouse and the plant harvesting room via a hanging tool, and each vertical hydroponic cultivation device is provided. Each hanger is connected by a wire based on a predetermined interval so that it can be moved along the rail between the vertical hydroponic greenhouse and the plant harvesting room.
The plant harvesting room is provided with an air conditioner.

The rail system in vertical hydroponics according to claim 7 is the rail system in vertical hydroponics according to claim 6.
The vertical hydroponic cultivation apparatus is composed of a vertical hydroponic cultivation cylinder and a vertical hydroponic culture medium that is removably housed in the vertical hydroponic cultivation cylinder.
The vertical hydroponic cultivation tube is provided with a vertical slit for planting plant seedlings on at least one side thereof.
The medium is composed of a water-retaining sheet and a breathable material sandwiching both sides thereof, and the upper end of the water-retaining sheet protruding from the upper end of the breathable material is bent and placed on the upper surface of at least one breathable material. It is characterized in that the nutrient solution is dropped from the nutrient solution supply means onto a water-retaining sheet that is bent and placed.

The rail system in vertical hydroponics according to claim 8 is the rail system in vertical hydroponics according to claim 6 or 7.
The hanging tool is provided with a pair of rollers at the upper end thereof that rotate along the upper surface of both opening forming walls of a rail having an opening at the center of the lower end.
Positioning recesses for both rollers are formed at predetermined intervals on the upper surface of the double opening forming wall of the rail.
It is characterized in that a nutrient solution dripper for dropping the nutrient solution from the nutrient solution supply means to each vertical hydroponic culture medium is provided at the position of each recessed portion on the rail.

The rail system in vertical hydroponics according to claim 9 is the rail system in vertical hydroponics according to any one of claims 6 to 8.
The rail is characterized in that it is arranged so as to circulate in the vertical hydroponic greenhouse after passing through the plant harvesting chamber from the vertical hydroponic greenhouse.

The rail system in vertical hydroponics according to claim 10 is the rail system in vertical hydroponics according to any one of claims 6 to 9.
The rail is characterized in that it is composed of a plurality of rows of rails in which a plurality of vertical hydroponic cultivation devices are suspended based on predetermined intervals.

In the present invention, as described above, a vertical hydroponic greenhouse and a plant harvesting chamber adjacent to the vertical hydroponic greenhouse are provided.
Each of the vertical hydroponic cultivation devices is provided in a state of being hung from a rail provided on the ceiling of the vertical hydroponic greenhouse and the plant harvesting room via a hanging tool, and each vertical hydroponic cultivation device is provided. , Each hanger is connected by a wire based on a predetermined interval so that it can be moved between the vertical hydroponic greenhouse and the plant harvesting room along the rail, and the plant harvesting room is equipped with an air conditioner. After growing plants in a vertical hydroponic greenhouse, the vertical hydroponic equipment is moved along the rails to the adjacent plant harvesting room, and the plants are equipped with an air conditioner. Plants can be harvested in the containment chamber.
Therefore, it is possible to obtain the effect that the plant harvesting work can be safely and efficiently performed in a comfortable environment.

Further, the hanging tool is provided with a pair of rollers rotating along the upper surface of both opening forming walls of the rail having an opening at the center of the lower end at the upper end thereof, and is provided on the upper surface of both opening forming walls of the rail at predetermined intervals. The positioning recesses of both rollers are formed in the rail, and each vertical type is provided with a nutrient solution dripper that drops the nutrient solution from the nutrient solution supply means to each vertical hydroponic culture medium at the position of each recess on the rail. The nutrient solution can be reliably supplied to the hydroponic culture medium.

Further, the rails are arranged so as to circulate in the vertical hydroponic greenhouse after passing through the plant harvesting chamber from the vertical hydroponic greenhouse, so that a plurality of vertical hydroponics can be cultivated. By simply moving the cultivation medium along the rail in one direction, it is possible to circulate between the vertical hydroponic greenhouse and the plant harvesting room.

Further, since the rail is composed of a plurality of rows of rails in which a plurality of vertical hydroponic cultivation devices are suspended, a plurality of vertical hydroponic cultivation devices can be moved into the plant harvesting room for each row, which is comfortable. Plants can be harvested safely and efficiently based on the environment.

It is a top view which shows the vertical hydroponic cultivation system of Example 1. FIG. It is a side view which shows the vertical hydroponic cultivation apparatus in a vertical hydroponic cultivation house. It is a front view which shows the vertical hydroponic cultivation apparatus in a vertical hydroponic cultivation house. FIG. 5 is an enlarged cross-sectional plan view taken along the line AA of FIG. It is a main part enlarged front view which shows the culture medium for vertical hydroponics.

Examples of the present invention will be described below with reference to the drawings.

First, the vertical hydroponic cultivation system of Example 1 will be described with reference to the drawings.
As shown in FIG. 1, the vertical hydroponic cultivation system of the first embodiment includes a vertical hydroponic greenhouse 1 and a plant harvesting chamber 2 adjacent to the vertical hydroponic greenhouse 1. ing.

More specifically, as shown in FIGS. 2 to 5, the vertical hydroponic greenhouse 1 includes a plurality of vertical hydroponic cultivation devices 4 provided with a vertical hydroponic medium 3 and a nutrient solution. The storage tank 5, the nutrient solution supply means 7 for supplying the nutrient solution 6 from the nutrient solution storage tank 5 to each vertical hydroponic cultivation site 3, and the nutrient solution 6 dropped from the lower part of the vertical hydroponic cultivation medium 3. The medium is provided with a nutrient solution collecting means 7 for collecting and collecting the medium in the nutrient solution storage tank 5.

As shown in FIG. 3, the nutrient solution supply means 7 is provided with a nutrient solution supply pump 71, and is provided from the nutrient solution storage tank 5 to the upper end of the water-retaining sheet 31a which is bent and placed in the vertical hydroponic culture medium 3. The nutrient solution 5 is dropped.

The nutrient solution recovery means 8 includes a drain pan 81 for receiving the nutrient solution 5 dropped from the lower end of the water retention sheet 31 and a nutrient solution recovery pump 82, and collects the nutrient solution 5 accumulated in the drain pan 81 with a nutrient solution recovery circulation pump. At 82, it is collected and circulated in the nutrient solution storage tank 5.

Further, the plant harvesting room 2 is provided with an air conditioner 21 for controlling the indoor environment.

The vertical hydroponic cultivation device 4 is composed of a vertical hydroponic cultivation cylinder 41 and a vertical hydroponic cultivation medium 3 removably housed in the vertical hydroponic cultivation cylinder 41, and is composed of vertical water. The hydroponic cylinder 41 is provided with a vertical slit 41a for planting a plant seedling 11 on at least one side surface thereof.

The vertical hydroponic culture medium 3 is composed of a water-retaining sheet 31 and breathable materials 32 and 33 sandwiching both sides thereof, and at least the upper end of the water-retaining sheet protruding from the upper ends of the breathable materials 32 and 33 is at least. It is configured to be bent and placed on the upper surface of one of the breathable materials 33, and the nutrient solution 6 is dropped from the nutrient solution supply means 7 onto the water-retaining sheet 31a which is bent and placed.

Each of the vertical hydroponic cultivation devices 4 is provided in a state of being suspended from a rail 9 provided on the ceiling of the vertical hydroponic greenhouse 1 and the plant harvesting room 2 via a hanging tool 10, and each vertical type. In the hydroponic cultivation device 4, the hanging tools 10 and 10 are connected to each other by wires-12 at predetermined intervals, and the vertical hydroponic greenhouse 1 and the plant harvesting chamber 2 are connected to each other along the rail 9. Is equipped to be movable.

The hanging tool 10 is provided with a pair of rollers 10a and 10a rotating along the upper surfaces of the rail 9 having both opening forming walls 9a and 9a having an opening at the center of the lower end at the upper end thereof, and the rail 9 having both opening forming walls. Positioning recesses 91 and 91 of both rollers 10a and 10a are formed on the upper surfaces of the 9a and 9a at predetermined intervals.
Further, at the position of each recess 91 on the rail 9, a nutrient solution dripper 72 for dropping the nutrient solution 6 from the nutrient solution supply means 7 onto each vertical hydroponic culture medium 3 is provided.

As shown in FIG. 1, the rails 9 in the vertical hydroponic greenhouse 1 are formed from a plurality of rows (N) of rails in which a plurality of vertical hydroponic cultivation devices 4 are suspended at predetermined intervals. Each rail 9 is arranged so as to circulate in the vertical hydroponic greenhouse 1 after passing through the plant harvesting chamber 2 from the vertical hydroponic greenhouse 1.
The plurality of vertical hydroponic cultivation devices 4 in each row can be circulated and moved between the vertical hydroponic greenhouse 1 and the plant harvesting chamber 2 by the motors 12a and 12a for driving the wires 12.

Next, the action / effect of Example 1 will be described.
In the first embodiment, as described above, each vertical hydroponic cultivation apparatus is provided with a vertical hydroponic greenhouse 1 and a plant harvesting chamber 2 adjacent to the vertical hydroponic greenhouse 1. 4 is provided in a state of being suspended from a rail 9 provided on the ceiling of the vertical hydroponic greenhouse 1 and the plant harvesting room 2 via a hanging tool 10, and each vertical hydroponic cultivation device 4 is provided. The hanging tools 10 and 10 are connected by wires 12 at predetermined intervals, and can be moved between the vertical hydroponic greenhouse 1 and the plant harvesting chamber 2 along the rail 9. The plant harvesting chamber. Since the air conditioner 21 is provided in 2, the plant is first grown in the vertical hydroponic greenhouse 1 and then the vertical hydroponic cultivation device 4 is placed in the adjacent plant harvesting chamber 2 along the rail 9. The plant can be harvested in the plant storage room 2 equipped with the air conditioner 21.
Therefore, it is possible to obtain the effect that the plant harvesting work can be safely and efficiently performed in a comfortable environment.

Further, the suspending tool 10 is provided with a pair of rollers 10a and 10a rotating along the upper surfaces of both opening forming walls 9a and 9a of the rail 9 having an opening at the center of the lower end at the upper end portion thereof, and both of the rails 9. Positioning recesses 91 and 91 of both rollers 10a and 10a are formed on the upper surfaces of the opening forming walls 9a and 9a at predetermined intervals, and the nutrient solution supply means 7 at the positions of the recesses 91 and 91 on the rail 9 respectively. By providing the nutrient solution dripper 72 for dropping the nutrient solution 6 onto the vertical hydroponic cultivation medium 3, the nutrient solution 6 can be reliably supplied to each vertical hydroponic cultivation medium 3.

Further, the rails 9 are arranged so as to circulate in the vertical hydroponic greenhouse 1 after passing through the plant harvesting chamber 2 from the vertical hydroponic greenhouse 1. By simply moving the vertical hydroponic culture medium 3 in one direction along the rail 9, it is possible to circulate between the vertical hydroponic greenhouse 1 and the plant harvesting chamber 2.

Further, since the rail 9 is composed of a plurality of rows of rails in which a plurality of vertical hydroponic cultivation devices 4 are suspended, a plurality of vertical hydroponic cultivation devices 4 are installed in the plant harvesting chamber 2 for each row. It can be moved and harvested safely and efficiently in a comfortable environment.

Although examples of the present invention have been described above, the present invention is not limited to the above-mentioned examples, and even if there is a design change or the like within a range that does not deviate from the gist of the present invention, the present invention is included in the present invention.

For example, in the examples, an example of the vertical hydroponic cultivation device is shown, but a vertical hydroponic cultivation device having all other structures can be used.

Further, in the embodiment, the rail 9 is arranged so as to circulate in the vertical hydroponic greenhouse 1 after passing through the plant harvesting chamber 2 from the vertical hydroponic greenhouse 1. As shown, the vertical hydroponic greenhouse 1 and the plant harvesting chamber 2 may be reciprocated.

1 Vertical hydroponic greenhouse 2 Plant harvesting room 21 Air conditioner 3 Vertical hydroponic medium 31 Water-retaining sheet 31a Folded water-retaining sheet 32 Water-permeable material 33 Water-permeable material 4 Vertical hydroponic Cultivation equipment 41 Vertical hydroponic cultivation cylinder 41a Slit 5 Nutrient solution storage tank 6 Nutrient solution 7 Nutrient solution supply means 71 Nutrient solution supply pump 72 Nutrient solution dripper 8 Nutrient solution recovery means 81 Drain pan 82 Nutrient solution recovery pump 9 Rail 9a Opening Wall 91 Recess 10 Hanging tool 10a Roller
11 seedlings 12 wires 12a motor

Claims (10)

It has a vertical hydroponic greenhouse and a plant harvesting room adjacent to the vertical hydroponic greenhouse.
The greenhouse for vertical hydroponics includes a plurality of vertical hydroponic cultivation devices equipped with a medium for vertical hydroponics, a nutrient solution storage tank, and land cultivation for each vertical hydroponic cultivation from the nutrient solution storage tank. It is provided with a nutrient solution supply means for supplying the nutrient solution to the nutrient solution and a nutrient solution recovery means for collecting the nutrient solution dropped from the lower part of the vertical hydroponic culture medium and collecting the nutrient solution in the nutrient solution storage tank.
Each of the vertical hydroponic cultivation devices is provided in a state of being hung from a rail provided on the ceiling of the vertical hydroponic greenhouse and the plant harvesting room via a hanging tool, and each vertical hydroponic cultivation device is provided. , Each hanger is connected by a wire based on a predetermined interval and is provided so that it can be moved along the rail between the vertical hydroponic greenhouse and the plant harvesting room.
A vertical hydroponic cultivation system characterized in that the plant harvesting room is equipped with an air conditioner. In the vertical hydroponic cultivation system according to claim 1,
The vertical hydroponic cultivation device is composed of a vertical hydroponic cultivation cylinder and a vertical hydroponic culture medium that is detachably housed in the vertical hydroponic cultivation cylinder.
The vertical hydroponic cultivation tube is provided with a vertical slit for planting plant seedlings on at least one side thereof.
The vertical hydroponic culture medium is composed of a water-retaining sheet and a breathable material sandwiching both sides thereof, and the upper end of the water-retaining sheet protruding from the upper end of the breathable material is the upper surface of at least one of the breathable materials. A vertical hydroponic cultivation system characterized in that the nutrient solution is bent and placed on the water-retaining sheet and the nutrient solution is dropped onto the water-retaining sheet which is folded and placed. In the vertical hydroponic cultivation system according to claim 1 or 2.
The hanging tool is provided with a pair of rollers at the upper end thereof that rotate along the upper surface of both opening forming walls of a rail having an opening at the center of the lower end.
Positioning recesses for both rollers are formed at predetermined intervals on the upper surface of the double opening forming wall of the rail.
A vertical hydroponic cultivation system characterized in that a nutrient solution dripper for dropping a nutrient solution from the nutrient solution supply means onto each vertical hydroponic culture medium is provided at a position of each recess on the rail. In the vertical hydroponic cultivation system according to any one of claims 1 to 3,
The rail is arranged so as to circulate in the vertical hydroponic greenhouse after passing through the plant harvesting chamber from the vertical hydroponic greenhouse. system. In the vertical hydroponic cultivation system according to any one of claims 1 to 4,
The rail is a vertical hydroponic cultivation system characterized in that it is composed of a plurality of rows of rails in which a plurality of vertical hydroponic cultivation devices are suspended at predetermined intervals. It has a vertical hydroponic greenhouse and a plant harvesting room adjacent to the vertical hydroponic greenhouse.
The greenhouse for vertical hydroponics includes a plurality of vertical hydroponic cultivation devices equipped with a medium for vertical hydroponics, a nutrient solution storage tank, and land cultivation for each vertical hydroponic cultivation from the nutrient solution storage tank. It is provided with a nutrient solution supply means for supplying the nutrient solution to the nutrient solution and a nutrient solution recovery means for collecting the nutrient solution dropped from the lower part of the vertical hydroponic culture medium and collecting the nutrient solution in the nutrient solution storage tank.
Each of the vertical hydroponic cultivation devices is provided in a state of being hung from a rail provided on the ceiling of the vertical hydroponic greenhouse and the plant harvesting room via a hanging tool, and each vertical hydroponic cultivation device is provided. Each hanger is connected by a wire based on a predetermined interval so that it can be moved along the rail between the vertical hydroponic greenhouse and the plant harvesting room.
A rail system for vertical hydroponics, wherein the plant harvesting room is equipped with an air conditioner. In the rail system in vertical hydroponics according to claim 6.
The vertical hydroponic cultivation apparatus is composed of a vertical hydroponic cultivation cylinder and a vertical hydroponic culture medium that is removably housed in the vertical hydroponic cultivation cylinder.
The vertical hydroponic cultivation tube is provided with a vertical slit for planting plant seedlings on at least one side thereof.
The medium is composed of a water-retaining sheet and a breathable material sandwiching both sides thereof, and the upper end of the water-retaining sheet protruding from the upper end of the breathable material is bent and placed on the upper surface of at least one of the breathable materials. A rail system in vertical hydroponics, characterized in that the nutrient solution is dropped from the nutrient solution supply means onto a water-retaining sheet that is bent and placed. In the rail system in vertical hydroponics according to claim 6 or 7.
The hanging tool is provided with a pair of rollers at the upper end thereof that rotate along the upper surface of both opening forming walls of a rail having an opening at the center of the lower end.
Positioning recesses for both rollers are formed at predetermined intervals on the upper surface of the double opening forming wall of the rail.
A rail system for vertical hydroponics, characterized in that a nutrient solution dripper for dropping a nutrient solution from the nutrient solution supply means onto each vertical hydroponic culture medium is provided at a position of each recess in the rail. In the rail system in vertical hydroponics according to any one of claims 6 to 8.
The rail is arranged so as to circulate in the vertical hydroponic greenhouse after passing through the plant harvesting chamber from the vertical hydroponic greenhouse. system. In the rail system in vertical hydroponics according to any one of claims 6 to 9,
The rail is a rail system in vertical hydroponics, which comprises a plurality of rows of rails in which a plurality of vertical hydroponic cultivation devices are suspended at predetermined intervals.

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