JP2019103424A - Rack for water culture planter and water culture system - Google Patents

Abstract

To provide a rack for water culture planter considering some problems of water culture.SOLUTION: A rack for water culture planter comprises two rows of planter installation spaces in a horizontal direction, and a plurality of stages of planter installation spaces in a vertical direction, the two rows are configured so that, longitudinal directions of respective planter installation spaces are arranged almost in parallel. In each stage, a space between the two rows of planter installation spaces in the horizontal direction is communicated, and in a vertical direction, the space of two rows of planter installation spaces in the horizontal direction is communicated from a contact area to an uppermost stage. One or a plurality of center struts 2a, 2b, 2c, 2d are provided in the space between the two rows of planter installation space in the horizontal direction, and a contact surface of the planter for water culture in each planter installation shelf 5 is inclined so that, the center struts 2a, 2b, 2c, 2d become high, in a vertical plane vertical to the longitudinal direction of each planter installation space.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a rack used for a hydroponic planter, and a hydroponic culture system using the same.

  In order to maximize the yield relative to the floor area, hydroponic planters used in plant factories and the like are generally stacked and installed in multiple stages. At this time, a rack for hydroponic planting is used.

  A conventional rack for hydroponic culture has a multistage shelf provided in a casing having a box-shaped outer frame, and a planter, a nutrient circulation system, lighting, and the like are arranged. The nutrient solution circulation tank and the pump are disposed at the lowermost stage, and the nutrient solution is circulated to the planters disposed in multiple stages on the upper shelf (for example, Patent Document 1).

Japanese Patent Application Laid-Open No. 2017-12115

  The hydroponic cultivation rack disclosed in Patent Document 1 has an advantage that it can be easily changed in layout and can be used for multiple purposes. However, the growth environment of the plant was not considered, and the change of nutrient solution was not considered.

  Plants are delicate and affected by temperature, humidity, carbon dioxide concentration, etc., and are prone to failures such as poor growth and chip burn due to environmental changes and deterioration. In particular, when installing hydroponic planters in multiple stages, the height changes depending on the level, so the environment slightly changes from level to level, and uniform growth and quality can not often be obtained.

Also, in recent hydroponic culture, advanced nutrient control such as replacing nutrient solution may be performed according to growth. When replacing the nutrient solution, it is desirable to completely drain the previous nutrient solution and then add fresh nutrient solution. For example, nitrate nitrogen contained in vegetables causes bitterness, and there are also concerns about adverse effects on health. In order to reduce the nitrate nitrogen, it is replaced with a nitrogen-free nutrient solution immediately before harvesting and cultivation is carried out for a predetermined number of days. However, when a small amount of nutrient solution before containing nitrogen is mixed, nitrate nitrogen is not sufficiently reduced.
Therefore, a rack that takes into consideration drainage of the nutrient solution of the hydroponic cultivation planter (fluid solution tank) is desired.

  The present invention has been made to solve the above-mentioned problems, and enables healthy growth of plants and also facilitates replacement of nutrient solution.

The hydroponic cultivation system according to the present invention is
There are space for planter installation in two rows in horizontal direction and multiple stages in vertical direction,
Each of the above-mentioned planter installation spaces includes a planter installation shelf on which a hydroponic planter can be installed at the lower part, and a light source for growing the plant at the upper part,
In the two horizontal rows, the longitudinal directions of the planter installation spaces are substantially parallel.
In each stage, the horizontal space between the two planter installation spaces is in communication with each other,
And, in the vertical direction, the horizontal space between the two planter installation spaces is in communication with the ground plane from the ground plane,
One or more central support posts are provided between the two horizontal rows of planter installation spaces,
Each of the planter installation racks is a hydroponic planter rack supported by beams supported by the central support;
And a hydroponic planter installed on each planter installation shelf,
When the hydroponic planters are installed on the respective planter installation shelves, the hydroponic planters are inclined such that the central support side becomes higher in a vertical plane perpendicular to the longitudinal direction of the respective planter installation spaces It is characterized by the fact that

The rack for a hydroponic planter according to the present invention is
There are space for planter installation in two rows in horizontal direction and multiple stages in vertical direction,
Each of the above-mentioned planter installation spaces includes a planter installation shelf on which a hydroponic planter can be installed at the lower part, and a light source for growing the plant at the upper part,
In the two horizontal rows, the longitudinal directions of the planter installation spaces are substantially parallel.
In each stage, the horizontal space between the two planter installation spaces is in communication with each other,
And, in the vertical direction, the horizontal space between the two planter installation spaces is in communication with the ground plane from the ground plane,
One or more central support posts are provided between the two horizontal rows of planter installation spaces,
In the vertical plane perpendicular to the longitudinal direction of each of the planter installation spaces, the ground contact surface of the hydroponic planter in each of the planter installation shelves is inclined so that the central support side becomes higher. It is a thing.

The present invention is a rack for hydroponic cultivation planters which takes into consideration several problems of hydroponic cultivation.
The first problem is the non-uniformity in the height direction of the environment, which becomes a problem when hydroponics planters are installed in multiple stages. The most important environmental factor is carbon dioxide concentration. Carbon dioxide is an essential substance when plants carry out photosynthesis, and its concentration control is extremely important. However, since carbon dioxide is heavier than air, its concentration near the floor is high, and sufficient concentration can not be obtained at high positions. As a result, non-uniform growth occurs in the plants of each row, or non-uniformities in quality occur such that failures such as chip burn occur in the upper row.

In the present invention, the carbon dioxide amount can be made uniform in the vertical direction by placing a heat source such as a power source for a light source in the vicinity of the ground plane and near the center in the plane of the rack.
In addition, since the light source can be installed at a position where the power source and the like can be easily handled, another merit such as facilitation of operation at the time of installation and facilitation of operation and maintenance of the power source also occurs.

  The second problem is that residual nutrient solution is generated in advanced nutrient solution control such as replacing nutrient solution according to growth, which has been performed in recent hydroponic culture. In the present invention, since the central support serves as a support for the hydroponic planter, the weight of the hydroponic planter deflects the beam, and the hydroponic planter is naturally inclined although it is slightly. As a result, nutrient fluid remaining at the time of drainage is significantly reduced, contamination with new nutrient fluid is reduced, and it becomes easy to perform high concentration control of nutrient fluid.

The third issue is equipment cost and workability. Because agriculture is a low-interest, high-selling business, cost reduction and improvement of productivity are essential, except for some special and expensive agricultural products.
The planting rack for hydroponic culture of the present invention can be manufactured with a simple framework, so that equipment investment can be reduced. In addition, since it is not necessary to provide an appropriate inclination to the bottom of the hydroponic planter, the ability to use a box-type inexpensive common nutrient solution tank also contributes to a reduction in capital investment.

  Moreover, since it is comprised only by the simple frame, it is easy to do various work to the planter for hydroponic cultivation, and workability | operativity improves. It is easy to set up and take out the cultivation plate in the hydroponic planter. Also, the visibility is high and the growth of plants is easy to see.

It is a perspective view of a rack for hydroponic cultivation planters concerning the present invention. It is a side view of a rack for hydroponics planters concerning the present invention. It is a partial side view of a rack for hydroponic cultivation according to the present invention, wherein (a) is before installation of the hydroponic planter and (b) is after installation. It is a partial side view of another rack for hydroponic cultivation according to the present invention, and (b) is a partially enlarged view of (a). It is a partial side view of the rack for hydroponics planters according to the present invention.

  With regard to the rack for hydroponic cultivation planter according to the present invention and the hydroponic cultivation system, the configuration, usage, and the like will be described using the drawings. The following description discloses a good example of the present invention, and the present invention is not limited to the embodiment.

Embodiment.
<Configuration>
The configuration of the hydroponic planter rack of the present embodiment will be described using FIGS. 1 and 2.
FIG. 1 is a perspective view of a hydroponic planter rack. FIG. 2 is a side view of FIG. 1 as viewed from the left side of the paper surface.

  The hydroponic planter rack according to the present embodiment has planter installation spaces in two rows in the horizontal direction and a plurality of stages in the vertical direction, and the above-mentioned planter installation spaces are for hydroponic culture in the lower part. The planter installation shelf 5 which can install a planter, and the light source 6 for plant growth on the upper part are provided. And as for two rows of horizontal directions, the longitudinal direction of each planter installation space is located in a line in parallel. In each row, the two horizontal rows of planter installation spaces are in communication, and in the vertical direction, the two horizontal rows of planter installation spaces are in communication from the ground plane to the uppermost row There are one or more central columns 2a, 2b, 2c, 2d between the horizontal row of planter installation spaces, and the ground plane of the hydroponic planter in each planter installation shelf 5 is the above-mentioned individual planter In the vertical plane perpendicular to the longitudinal direction of the installation space 5, the central support side is inclined so as to be high.

  In the figure, a rack for hydroponic cultivation in two rows and five stages is shown as an example. There are space for planter installation of 2 rows of right and left in each stage of H1 to H5. In the present embodiment, the number of stages in the vertical direction is five, but any number of stages may be used as long as there are a plurality of stages.

<Space for installing planters>
In the rack for hydroponic cultivation in the figure, a total of 10 planter installation spaces are provided in two rows and five steps. At the lower part of each planter installation space, a planter installation shelf 5 is provided, and at the upper part, a light source 6 for plant growth is provided. Then, in each planter installation space, electricity is supplied to the light source 6 (not shown) from the piping 10 for circulating the nutrient solution by the nutrient solution tank 7 placed near the ground contact surface, and a power supply (not shown). Wires etc. are drawn.
In addition, in order to avoid that a figure becomes complicated in the figure, although the symbol is attached only to the space for planter installation of H5 step of the left side, it is the same structure also in the space for other planter installation.

  Moreover, the planter for hydroponic cultivation is a substantially rectangular parallelepiped shape except for a very special thing. The planter installation shelf 5 is substantially rectangular so that a general substantially rectangular parallelepiped hydroponic planter can be placed. And as for two rows of horizontal directions, the longitudinal direction of each planter installation space is located in a line in parallel.

<Central support>
The center posts 2a, 2b, 2c, 2d are posts provided near the center of the rack in the side view of FIG. That is, it is provided between two horizontal rows of planter installation spaces. "Between two horizontal rows of planter installation spaces" means approximately between two horizontal row of planter installation spaces, and it is slightly applied to the space between two rows of planter installation spaces It may be
In the figure, the four center columns 2a, 2b, 2c and 2d are provided on the grounding frame 1, but the number and the shape thereof are not particularly limited. For example, only one thick support may be set at the center of the rack.

<Framework structure>
As shown in FIG. 1, the front and rear beams 3a are provided between the central support columns 2a and 2c, and the front and rear beams 3b are provided between the central support columns 2b and 2d. The left and right beams 4a, 4b, 4c are fixed substantially perpendicularly to the front and rear beams 3a, 3b.
The planter installation rack 5 is fixed to the upper side of the three left and right beams 4a, 4b and 4c, and the light source 6 is fixed to the upper side.
The front and rear beams 3a and 3b and the left and right beams 4a, 4b and 4c are merely examples, and any structure may be used as long as it is a beam structure supported by a part or all of the central columns 2a, 2b, 2c and 2d. .
And each planter installation shelf 5 is supported in a substantially in-plane direction by this beam structure.

  Moreover, you may provide the shelf reinforcing tool 8 shown in FIG. 2 as needed. Although the shelf reinforcing tool 8 is not an essential structure, it may be provided according to the weight of the hydroponic planter to be installed.

As described above, since the frame structure of the rack is formed by the beam structure such as the central support columns 2a, 2b, 2c, 2d and the front and rear beams 3a, 3b and the left and right beams 4a, 4b, 4c, horizontal in each step The planter installation spaces in the two rows are in communication with each other, and in the vertical direction, the planter installation spaces in the horizontal direction are in communication from the ground plane to the uppermost stage.
Here, the “communication state” is a state in which the gap is sufficiently open, and the gas can freely pass in any place, and the stagnation and the like can hardly be performed.

<How to use>
Next, the method of use will be described.
First, the nutrient solution tank 7 is installed in the vicinity of the ground contact surface, and is connected to the pipe 10 and the circulation pump.
Next, a hydroponic planter is installed on each planter installation shelf 5 of each planter installation space. Piping 10 for circulating a nutrient solution is connected to each hydroponic planter, and a wire etc. which supply electricity to light source 6 from a power supply are wired.

The power source for the light source 6 is preferably located near the ground plane and near the center in the plane of the rack.
Since the light source 6 for plant growth is to substitute for sunlight, very high illuminance is required. Therefore, the power supply that supplies power to the plurality of light sources 6 is a large capacity power supply, and the amount of heat generation is also large. Usually, the temperature around the power supply rises to about 50 ° C., causing condensation. Because condensation is a hotbed of bacteria, the power supply is often installed at a distance from the hydroponic planter or near the ceiling. However, it is inconvenient for daily operation and maintenance when installed at a position away from the hydroponic planter or near the ceiling.

  In the case of the hydroponic planter rack according to the present embodiment, the space between the planter installation spaces in the horizontal two rows in the vertical direction is in communication with the ground plane from the ground plane, so the heat generated by the power supply is Because there is no need to worry about condensation, as it rises toward the ceiling through the center of the rack.

In addition, since the heat generated by the power supply causes an updraft in the vicinity of the center of the rack, it has an effect of transporting carbon dioxide accumulated near the floor surface to the upper part of the rack. Thus, carbon dioxide can be supplied to the hydroponic planters in the upper row of the rack.
As described above, by placing a heat source such as a power source for the light source 6 in the vicinity of the ground plane and near the center in the plane of the rack, the carbon dioxide amount can be made uniform in the vertical direction (each stage).

  The heat generated by the power supply is sufficiently dispersed, so there is little concern that condensation will occur, but even if a desiccant is provided on the ceiling surface above the rack or on the top of the rack, just in case good.

About the planter for hydroponic cultivation, it is desirable to provide a drainage ditch and a drainage stopper in the bottom part of a nutrient solution tank, and the end of the transversal direction.
As shown in FIG. 3, when the hydroponic planter 9 is installed on the planter installation shelf 5, the beam 4 a supporting the planter installation shelf 5 is bent by the weight of the hydroponic planter 9, and the planter installation shelf 5 and The hydroponic planter 9 is inclined so that the rack center side in the short direction is high.

If the nutrient solution is drained while the hydroponic planter 9 is inclined in this manner, the nutrient solution flows on the lower side in the short direction immediately before the end of the drainage. Therefore, the amount of nutrient solution remaining in the bottom center and the like of the nutrient solution tank of the hydroponic planter 9 is small, and drainage of the nutrient solution is sufficiently performed. Therefore, when new and different nutrient solutions are introduced, the contamination of the previous residual nutrient solution can be minimized.
As described above, when the hydroponic planters are installed on each planter installation shelf 5, the hydroponic planters are on the central support side in a vertical plane perpendicular to the longitudinal direction of each planter installation space. By tilting so as to be higher, it is possible to easily drain the nutrient solution.

  In addition, as shown to Fig.4 (a), you may make it the planter for hydroponics incline by inclining the beam 40a beforehand. The inclination angle A of the beam 40a shown in FIG. 4B is preferably 0.5 ° to 2 °. At the time of drainage, the nutrient solution is not inclined at the center of the bottom of the nutrient solution tank or the like, and at the same time, the inclination of the top surface of the nutrient solution with respect to the plant is hardly generated.

Also, as shown in FIGS. 5 (a) and 5 (b), as in FIG. 3, the beam 4a is made horizontal, and an inclined plate is placed in the planter installation rack 5 (FIG. 5 (a)). Etc. may be arranged (FIG. 5 (b)). Even in this case, the hydroponic planter tilts.
As described above, the ground contact surface of the hydroponic planters in each planter installation shelf is inclined so that the central support side becomes higher in the vertical plane perpendicular to the longitudinal direction of each planter installation space You should do it.

<Summary of the Invention>
The present invention is a rack for hydroponic cultivation planters which takes into consideration several problems of hydroponic cultivation.
The first problem is the non-uniformity in the height direction of the environment, which becomes a problem when hydroponics planters are installed in multiple stages. The most important environmental factor is carbon dioxide concentration. Carbon dioxide is an essential substance when plants carry out photosynthesis, and its concentration control is extremely important. However, since carbon dioxide is heavier than air, its concentration near the floor is high, and sufficient concentration can not be obtained at high positions. As a result, non-uniform growth occurs in the plants of each row, or non-uniformities in quality occur such that failures such as chip burn occur in the upper row.

In the present invention, the carbon dioxide amount can be made uniform in the vertical direction by placing a heat source such as a power source for a light source in the vicinity of the ground plane and near the center in the plane of the rack.
In addition, since the light source can be installed at a position where the power source and the like can be easily handled, another merit such as facilitation of operation at the time of installation and facilitation of operation and maintenance of the power source also occurs.

  The second problem is that residual nutrient solution is generated in advanced nutrient solution control such as replacing nutrient solution according to growth, which has been performed in recent hydroponic culture. In the present invention, since the central support serves as a support for the hydroponic planter, the weight of the hydroponic planter deflects the beam, and the hydroponic planter is naturally inclined although it is slightly. As a result, nutrient fluid remaining at the time of drainage is significantly reduced, contamination with new nutrient fluid is reduced, and it becomes easy to perform high concentration control of nutrient fluid.

The third issue is equipment cost and workability. Because agriculture is a low-interest, high-selling business, cost reduction and improvement of productivity are essential, except for some special and expensive agricultural products.
The planting rack for hydroponic culture of the present invention can be manufactured with a simple framework, so that equipment investment can be reduced. In addition, since it is not necessary to provide an appropriate inclination to the bottom of the hydroponic planter, the ability to use a box-type inexpensive common nutrient solution tank also contributes to a reduction in capital investment.

  Moreover, since it is comprised only by the simple frame, it is easy to do various work to the planter for hydroponic cultivation, and workability | operativity improves. It is easy to set up and take out the cultivation plate in the hydroponic planter. Also, the visibility is high and the growth of plants is easy to see.

DESCRIPTION OF SYMBOLS 1 Frames 2a-2d for grounding Central post 3a, 3b Back and forth beams 4a to 4c, 40a Left and right beams 5 Shelf for planter grounding 6 Light source 7 Nutrient tank 9 Planter for water culture 10 Piping

Claims (5)

There are space for planter installation in two rows in horizontal direction and multiple stages in vertical direction,
Each of the above-mentioned planter installation spaces includes a planter installation shelf on which a hydroponic planter can be installed at the lower part, and a light source for growing the plant at the upper part,
In the two horizontal rows, the longitudinal directions of the planter installation spaces are substantially parallel.
In each stage, the horizontal space between the two planter installation spaces is in communication with each other,
And, in the vertical direction, the horizontal space between the two planter installation spaces is in communication with the ground plane from the ground plane,
One or more central support posts are provided between the two horizontal rows of planter installation spaces,
Each of the planter installation racks is a hydroponic planter rack supported by beams supported by the central support;
And a hydroponic planter installed on each planter installation shelf,
When the hydroponic planters are installed on the respective planter installation shelves, the hydroponic planters are inclined such that the central support side becomes higher in a vertical plane perpendicular to the longitudinal direction of the respective planter installation spaces A hydroponic cultivation system characterized by The water culture system according to claim 1, characterized in that a heat source having a temperature higher than the environmental temperature is installed in the vicinity of the ground contact surface of the rack for water culture culture. The said heat source is a power supply of the light source for plant growth. The hydroponic cultivation system of Claim 2 characterized by the above-mentioned. 4. A hydroponic cultivation system according to any one of claims 1 to 3, characterized in that a desiccant is installed on the uppermost stage of the hydroponic planter rack or the ceiling surface above the hydroponic planter rack. system. There are space for planter installation in two rows in horizontal direction and multiple stages in vertical direction,
Each of the above-mentioned planter installation spaces includes a planter installation shelf on which a hydroponic planter can be installed at the lower part, and a light source for growing the plant at the upper part,
In the two horizontal rows, the longitudinal directions of the planter installation spaces are substantially parallel.
In each stage, the horizontal space between the two planter installation spaces is in communication with each other,
And, in the vertical direction, the horizontal space between the two planter installation spaces is in communication with the ground plane from the ground plane,
One or more central support posts are provided between the two horizontal rows of planter installation spaces,
In the vertical plane perpendicular to the longitudinal direction of each of the planter installation spaces, the ground contact surface of the hydroponic planter in each of the planter installation shelves is inclined so that the central support side becomes higher. Rack for hydroponic planters.