JP7562100B2 - Plant Factory - Google Patents

Description

The present invention relates to a plant factory in which multiple cultivation shelves are arranged in a multi-tiered manner.

Patent Document 1 discloses a plant factory in which multiple multi-tiered shelves supporting cultivation racks are arranged in a space, and the space is conditioned by an air conditioner. In this plant factory, the air conditioner is installed on the ceiling surface of the closed space.

JP 2019-062769 A

In a system in which air flows from top to bottom from an air conditioner installed on the ceiling, as in Patent Document 1, there is a large variation in temperature and airflow environment depending on the location. In particular, when multiple cultivation shelves are installed in multiple levels, one above the other, the cold air tends to accumulate at the bottom, which tends to increase the temperature difference between the upper and lower cultivation shelves, and when each cultivation shelf is elongated in one direction in the horizontal plane, it is difficult to achieve a uniform airflow environment between the cultivation shelves.

The objective of the present invention is to provide a plant factory that can realize a uniform ventilation environment with small temperature differences between cultivation shelves.

The plant factory of the present invention includes a cultivation room for plants, a cultivation shelf unit in which a plurality of cultivation shelves that are elongated in one direction in a plan view are arranged in a multi-tiered manner in the cultivation room, an air conditioner arranged in the cultivation room, and a fan group consisting of a plurality of fans arranged in the cultivation room. The air conditioner is arranged at one end side of the cultivation shelf unit in the one direction. The plurality of fans are arranged so that air discharged from the air conditioner flows outside the cultivation shelf unit from the one end side to the other end side of the cultivation shelf unit in the one direction, and then flows inside each of the cultivation shelves along the one direction from the other end side to the one end side.

Air can be circulated so that the air discharged from the air conditioner passes through each cultivation shelf and returns to the air conditioner. Therefore, even if the cultivation shelf is long in one direction and has many shelves, the temperature difference between the shelves is small, and a uniform air circulation environment can be achieved. This improves the growing environment for vegetables.

FIG. 1 is a schematic perspective view of a plant factory according to an embodiment of the present invention. FIG. 2 is a schematic plan view of the plant factory shown in FIG. 1 . FIG. 3 is a schematic cross-sectional view taken along line III-III in FIG. 2 . FIG. 3 is a schematic cross-sectional view taken along line IV-IV in FIG. 2 .

A plant factory according to one embodiment of the present invention will be described below with reference to Figs. 1 to 4. The plant factory 1 shown in Fig. 1 has a cultivation room 10 for plants. The cultivation room 10 is an enclosed space where sunlight does not reach, and the plant factory 1 is a fully artificial light type plant factory that grows vegetables using artificial light such as fluorescent lamps and LEDs.

In this embodiment, a total of eight cultivation shelf units 20 are installed in the cultivation room 10 in four rows in the left-right direction and two columns in the front-back direction. Each cultivation shelf unit 20 has a plurality of cultivation shelves 21 that are elongated in the left-right direction in a plan view in a multi-tiered manner. The eight cultivation shelf units 20 are paired with two adjacent cultivation shelf units in the left-right direction belonging to the same row. The two cultivation shelf units 20 that form a pair are arranged in a straight line so that their left-right ends face each other in the left-right direction. In addition, the four cultivation shelf units 20 that belong to the same column are arranged so that the spacing between the cultivation shelf units 20 adjacent in the front-back direction is approximately equal and the positions in the left-right direction are the same. In this embodiment, the eight cultivation shelf units 20 are installed in four rows and two columns, but the number of cultivation shelf units 20 in the cultivation room 10 can be any number of one or more.

In this embodiment, as shown in FIG. 4, the cultivation shelf unit 20 is provided with five cultivation shelves 21 arranged vertically. The number of cultivation shelves 21 may be ten or more. Each cultivation shelf 21 is composed of a space partitioned by a plurality of shelf boards 22 (which may be plates having a mesh structure or a lattice structure instead of boards) extending horizontally (left-right and front-rear directions). A cultivation case 25 for growing plants is arranged in each cultivation shelf 21. The cultivation case 25 is placed on the upper surface of the lower shelf board 22 that defines each cultivation shelf 21. The width of the cultivation case 25 in the front-rear direction is slightly smaller than that of the cultivation shelf 21. The plants to be cultivated are planted in the cultivation case 25. The cultivation case 25 may be called a cultivation bed or the like. In addition, the cultivation room 10 is provided with water supply and drainage equipment, but detailed description thereof will be omitted in this specification.

A lighting unit 26 is arranged in the upper space within each cultivation shelf 21. The lighting unit 26 is supported on the underside of the upper shelf board 22 that defines each cultivation shelf 21. The lighting unit 26 has approximately the same length in the left-right direction as the cultivation unit 20. The lighting unit 26 has a light source such as an LED or fluorescent lamp that irradiates light onto the plants in the cultivation case 25, and a reflector (both not shown) that improves the efficiency of irradiating the plants with light. In addition, fans (e.g. 40e1 on the top shelf and 40e5 on the bottom shelf) described later are arranged near the center in the left-right direction of each cultivation shelf 21. The fans 40e1 to 40e5 blow air in the direction from the back to the front of the paper in FIG. 4 (from right to left).

Eight air conditioners (indoor units) 30 are arranged in the cultivation room 10. The air conditioners 30 blow out conditioned air to keep the temperature in the cultivation room 10 at about 18 to 25°C, which is suitable for vegetable cultivation. The air conditioners 30 are so-called floor-mounted types, sucking in air from the lower front and blowing out conditioned cool air (or hot air) from the upper end. The air conditioners 30 are connected to an outdoor unit (not shown) by piping. In this embodiment, four of the eight air conditioners 30 are arranged in the front-rear direction close to the left side wall 10a of the cultivation room 10, and the remaining four are arranged in the front-rear direction close to the right side wall 10b of the cultivation room 10. The front-rear positions of the air conditioners 30 correspond to the cultivation units 20. In the present invention, the number of air conditioners 30 does not need to match the number of cultivation units 20, and the front-rear positions of the air conditioners 30 do not need to match the cultivation units 20.

Eight fan groups 40 are arranged in the cultivation room 10. One cultivation unit 20 corresponds to one fan group 40.

The fan group 40 includes three fans 40a, 40b, and 40c arranged in a row in the left-right direction near the ceiling wall 10c of the cultivation room 10. These three fans 40a, 40b, and 40c form the first partial fan group of the fan group 40. Furthermore, the front-to-rear positions of these three fans 40a, 40b, and 40c are the same as those of the corresponding cultivation units 20.

The airflow direction of fan 40a is toward fan 40b, which is located above and near the center of the left-right direction of cultivation unit 20. Fan 40a redirects the air blown upward from air conditioner 30 near the ceiling so that it flows from one end side (the end side closer to air conditioner 30 in this embodiment) in the longitudinal direction of cultivation unit 20 to the other end side. Therefore, the wind from fan 40a flows toward fan 40b.

The airflow direction of fan 40b is toward fan 40c. Fan 40c is located above the midpoint between the two paired cultivation units 20. Fan 40b sends the air delivered from fan 40a toward fan 40c without changing its direction.

The airflow direction of fan 40c is downward at the midpoint between the two paired cultivation units 20. Fan 40c redirects the air delivered by fan 40b so that it flows downward. In this way, the three fans 40a, 40b, and 40c belonging to the first partial fan group are arranged in series. Fan 40c is also shared by the two paired cultivation units 20.

The fan group 40 includes five fans 40d1-40d5 arranged outside the cultivation unit 20 on the other end side of the cultivation unit 20, and five fans 40e1-40e5 arranged near the center of the cultivation unit 20 in the left-right direction. The five fans 40d1-40d5 are arranged vertically close to the other end of the cultivation unit 20 at a height corresponding to each cultivation shelf 21 of the cultivation unit 20. The five fans 40e1-40e5 are arranged vertically within each cultivation shelf 21 of the cultivation unit 20. These ten fans 40d1-40d5, 40e1-40e5 form the second partial fan group of the fan group 40.

Air sent downward from fan 40c is sucked into each of the five fans 40d1 to 40d5 and flows through each cultivation shelf 21 from the other end to one end in the longitudinal direction of the cultivation unit 20. The airflow direction of the five fans 40d1 to 40d5 is toward the five fans 40e1 to 40e5, respectively.

The five fans 40e1 to 40e5 send the air delivered from the five fans 40d1 to 40d5 toward one end of the longitudinal direction of the cultivation unit 20 without changing the direction. Then, the air discharged from one end of each cultivation shelf 21 of the cultivation unit 20 is sucked in through the intake port of the air conditioner 30.

In this way, in this embodiment, the fans 40a, 40b, 40c, 40d1 to 40d5, 40e1 to 40e5 belonging to the fan group 40 are arranged so that the air blown upward from the air conditioner 30 flows from one end side to the other end side along the longitudinal direction of the cultivation unit 20 outside the cultivation unit 20, and then flows from the other end side to the one end side along the longitudinal direction of each cultivation shelf 21. Therefore, the air exhausted from the air conditioner 30 can be circulated so that it passes through each cultivation shelf 21 and returns to the air conditioner 30. Therefore, even if the cultivation shelves 21 are long in one direction and have many stages, as in the case of large-scale plant factories in recent years, the temperature difference between the upper and lower cultivation shelves 21 is small, and a uniform air supply environment can be realized between the cultivation shelves 21. Therefore, the growth environment of vegetables can be improved.

In addition, this embodiment uses a completely ductless system in which no duct is placed between two adjacent fans. Ducts are susceptible to corrosion and the growth of mold and bacteria inside, and are therefore not particularly desirable in plant factories where a hygienic environment must be maintained. This embodiment does not use a duct and instead uses two adjacent fans to blow air in sequence, which has the advantages of being hygienic, low-cost, and eliminating the need to replace ducts.

Furthermore, in this embodiment, one fan group 40 is configured so that another fan is arranged in the direction of airflow from an upstream fan. In this way, airflow efficiency can be improved.

In addition, in this embodiment, the three fans 40a, 40b, and 40c belonging to the first partial fan group are arranged in series, and further, fans belonging to the second partial fan group are arranged downstream of the fan 40c, which is the most downstream fan of the first partial fan group, corresponding to each of the five cultivation shelves 21, thereby generating an air flow in each cultivation shelf 21 that runs from the other end side to the one end side along the longitudinal direction of the cultivation unit 20. Therefore, air can be efficiently sent into each cultivation shelf 21.

In addition, in this embodiment, the air discharged from the air conditioner 30 flows upward, then flows near the ceiling of the cultivation room 10 along the longitudinal direction of the cultivation unit 20 from one end to the other end, and then changes direction downward at the other end before entering each of the multiple cultivation shelves 21 from their respective other ends and flowing along the longitudinal direction of the cultivation unit 20 to the one end. This reduces the temperature difference between the cultivation shelves 21 and creates a more uniform air flow environment.

Furthermore, in this embodiment, fans 40a, 40c, and 40d1 to 40d5 are positioned at points where the air flow direction changes. Therefore, the airflow direction can be changed efficiently.

The wind speed of each fan in the fan group 40 can be changed as appropriate. For example, by blowing stronger air, it is possible to promote evaporation of the vegetables and shorten the cultivation period. In addition, carbon dioxide gas can be introduced into the cultivation chamber 10 from a carbon dioxide gas supply device (not shown) and supplied to the vegetables by the wind from the fans, thereby promoting the growth of the vegetables.

Next, a modification of the above-described embodiment will be described.
- As long as the air exhausted from the air conditioner is made to flow outside the cultivation shelf unit, it may flow near the side walls parallel to the left and right directions, rather than near the ceiling.
- The air conditioner and the fan may be located in different positions in the front and rear directions.
One air conditioner may correspond to two or more cultivation shelf units.
Although the above-described embodiment is a completely ductless system, a duct may be used in part.
The number of fans in a fan group may be changed as appropriate depending on the length and number of stages of the cultivation shelf unit.

REFERENCE SIGNS LIST 1 Plant factory 10 Cultivation room 20 Cultivation shelf unit 21 Cultivation shelf 22 Shelf 25 Cultivation case 26 Illumination unit 30 Air conditioner (indoor unit)
40 Fan group 40a, 40b, 40c Fans 40d1 to 40d5 Fans 40e1 to 40e5 Fans

Claims (10)

A plant growing room,
A cultivation shelf unit in which a plurality of cultivation shelves elongated in one direction in a plan view are provided in a multi-tiered manner in the cultivation room;
An air conditioner disposed in the cultivation room;
A fan group consisting of a plurality of fans arranged within the cultivation room,
The air conditioner is disposed on one end side of the cultivation shelf unit in the one direction,
The plurality of fans are arranged such that air discharged from the air conditioner flows outside the cultivation shelf unit from the one end side to the other end side in the one direction of the cultivation shelf unit, and then flows inside each of the cultivation shelves along the one direction from the other end side to the one end side ,
A plant factory characterized in that no duct is arranged between any two adjacent fans . 2 . The plant factory according to claim 1 , wherein the plurality of fans include a first fan and a second fan arranged in a direction in which air is blown from the first fan. the fan group includes a first partial fan group consisting of two or more fans including the first fan and the second fan, the fans in the first partial fan group being arranged in series such that an adjacent fan is located downstream of a given fan in a direction of air blowing from the given fan,
The plant factory described in claim 2, characterized in that a plurality of fans in the fan group that do not belong to the first partial fan group but belong to the second partial fan group correspond to at least one of the plurality of cultivation shelves downstream of the most downstream fan of the first partial fan group, and flow air from the other end side to the one end side along the one direction. A plant growing room,
A cultivation shelf unit in which a plurality of cultivation shelves elongated in one direction in a plan view are provided in a multi-tiered manner in the cultivation room;
An air conditioner disposed in the cultivation room;
A fan group consisting of a plurality of fans arranged within the cultivation room,
The air conditioner is disposed on one end side of the cultivation shelf unit in the one direction,
The plurality of fans are arranged such that air discharged from the air conditioner flows outside the cultivation shelf unit from the one end side to the other end side in the one direction of the cultivation shelf unit, and then flows inside each of the cultivation shelves along the one direction from the other end side to the one end side ,
the fan group includes a second partial fan group consisting of two or more fans,
A plant factory characterized in that the multiple fans belonging to the second partial fan group are arranged so that at least one corresponds to each of the multiple cultivation shelves, and flow air from the other end side to the one end side along the one direction . the fan group includes a first partial fan group consisting of two or more fans, the fans in the first partial fan group being arranged in series such that an adjacent fan is located downstream of a given fan in a direction of air blowing from the given fan,
The plant factory described in claim 4, characterized in that a plurality of fans belonging to the second partial fan group do not belong to the first partial fan group in the fan group and are arranged downstream of the most downstream fan of the first partial fan group. The plant factory according to claim 4 or 5 , wherein no duct is arranged between two adjacent fans. A plant factory as described in any one of claims 3 to 6, characterized in that the air discharged from the air conditioner flows upward, then flows along the one direction near the ceiling of the cultivation room from the one end side to the other end side, and then changes direction downward at the other end side of the multiple cultivation shelves relative to the one direction, before entering each cultivation shelf from the other end of each of the multiple cultivation shelves and flowing along the one direction toward the one end side. 8. The plant factory according to claim 7 , wherein the fan is disposed at a point where the direction of air flow changes. A plurality of the cultivation shelf units, the fan groups, and the air conditioners are arranged in the cultivation room,
One of the cultivating shelf units corresponds to one of the fan groups,
The plant factory according to any one of claims 1 to 8 , characterized in that the plurality of cultivation shelf units are arranged such that two pairs of the cultivation shelf units have their other ends facing each other in the one direction. The plant factory according to claim 9 , characterized in that the two fan groups corresponding to the two paired cultivation shelf units share the fan arranged near the other end.

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