JP2020188788A - Plant cultivation greenhouse - Google Patents

Abstract

To provide a plant cultivation greenhouse in which the inside of a plant cultivation room is difficult to be affected by temperature of outside air, and carbon dioxide can be supplied into the plant cultivation room.SOLUTION: A plant cultivation greenhouse 1 comprises: a plant cultivation room 10 in which at least one of walls 11 and a roof 12 is structured by a heat shielding body 15; and carbon dioxide supply means 20 for supplying outside air containing carbon dioxide from outside the plant cultivation room 10 into the plant cultivation room 10. The heat shielding body 15 is a laminated sheet 150 in which a metal foil 142 like an aluminum foil is laminated on a sheet-like material 141.SELECTED DRAWING: Figure 1

Description

The present invention relates to a plant cultivation house for cultivating plants in a plant cultivation room.

Conventionally, various plant cultivation houses for cultivating plants such as vegetables have been provided. For example, Patent Document 1 describes a cultivation room provided with an air conditioner. In this cultivation room, a lighting device is installed on the ceiling side and a cultivation shelf is arranged on the floor side. The air conditioner includes a first exhaust device, a second exhaust device, a mixing device, and a blowing device.

The first exhaust device exhausts the air existing on the ceiling side of the cultivation room to the outside of the cultivation room. The second exhaust device exhausts the air existing on the floor side of the cultivation room to the outside of the cultivation room. The mixing device cools the air exhausted by the second exhaust device to obtain dehumidified air, and mixes this air with the air exhausted by the first exhaust device. The blowing device blows out the air mixed by the mixing device around the cultivation shelf in the cultivation room.

The air exhausted by the first exhaust device is heated to a high temperature by the lighting device installed on the ceiling side. This high-temperature air and the air exhausted and dehumidified by the second exhaust device are mixed and blown into the cultivation room by the blowing device. Therefore, the air blown out from the blowing device is set to a predetermined high temperature by utilizing the exhaust heat of the lighting device. This cultivation room can be equipped with an air conditioner to save energy.

Japanese Unexamined Patent Publication No. 2011-223892

The cultivation room described in Patent Document 1 circulates the air in the cultivation room. The plants in the cultivation room absorb carbon dioxide and release oxygen. Therefore, the carbon dioxide required for plant growth is insufficient just by circulating the air in the cultivation room. Further, even if the air blown into the cultivation room has a predetermined high temperature, if the cultivation room is a vinyl house in which the skeleton is simply covered with a vinyl sheet, the temperature outside the cultivation room is affected.

The present invention has been made in view of such a situation, and provides a plant cultivation house in which carbon dioxide can be supplied to the plant cultivation room which is not easily affected by the temperature of the outside air. The task is to do.

In order to solve the above problems, the plant cultivation house according to the present invention has a plant cultivation room in which at least one of a wall and a roof is constructed by a heat shield, and carbon dioxide from outside the plant cultivation room to the plant cultivation room. It is equipped with a carbon dioxide supply means for supplying outside air including.

In the plant cultivation house according to the present invention, the walls and roof of the plant cultivation room are constructed by the heat shield.
In the plant cultivation house according to the present invention, in the plant cultivation room, the wall and roof are constructed by attaching the heat shield to the existing wall base material and roof base material.

In the plant cultivation house according to the present invention, it is preferable that the heat shield also constructs the floor of the plant cultivation room.
In the plant cultivation house according to the present invention, the carbon dioxide supply means supplies outside air to the plant cultivation room so that the pressure in the plant cultivation room is positive.
In the plant cultivation house according to the present invention, the heat shield is preferably a laminated sheet in which an aluminum foil is laminated on a sheet-like base material.
It is preferable that the plant cultivation house according to the present invention is provided with an air conditioner for air-conditioning the plant cultivation room.

According to the present invention, it is possible to provide a plant cultivation house in which carbon dioxide can be supplied to the plant cultivation room which is not easily affected by the temperature of the outside air.

It is a schematic perspective view which shows one Embodiment of the plant cultivation house which concerns on this invention. It is a schematic sectional front view which shows one Embodiment of the plant cultivation house which concerns on this invention. It is an enlarged sectional view which shows one Embodiment of the heat shield which constitutes the house for plant cultivation which concerns on this invention. It is an exploded perspective view which shows the other embodiment of the heat shield which constitutes the house for plant cultivation which concerns on this invention.

An embodiment of a plant cultivation house according to the present invention will be described with reference to FIGS. 1 to 3. FIG. 1 is a schematic perspective view showing an embodiment of a plant cultivation house according to the present invention. FIG. 2 is a schematic cross-sectional front view showing an embodiment of a plant cultivation house according to the present invention. FIG. 3 is an enlarged cross-sectional view showing an embodiment of a heat shield constituting the plant cultivation house according to the present invention. As shown in FIGS. 1 and 2, the plant cultivation house 1 includes a plant cultivation room 10 and a carbon dioxide supply means 20.

The plant cultivation room 10 is surrounded by a wall 11, a roof 12, and a floor 13. The wall 11 of the illustrated plant cultivation room 10 has a gable side wall 11a and a flat side wall 11b. The gable side wall 11a or the flat side wall 11b is provided with an entrance / exit with a door (not shown). The roof 12 of the illustrated plant cultivation room 10 is a gable, but it may have any style. Such a wall 11, a roof 12, and a floor 13 are constructed by a heat shield 15. The heat shield 15 is attached to a skeleton 14 installed on the ground.

The skeleton 14 is assembled with a skeleton material made of metal (for example, stainless steel). The skeleton material may be a pipe or a bar material. The skeleton 14 is composed of a plurality of columns, beams, etc. (without numbering) and is installed on the ground. The wall 11 is formed by the heat shield 15 bridged between the adjacent pillars. The roof 12 is formed by the heat shield 15 spanning the adjacent beams and the beams. The floor 13 is formed by a heat shield 15 placed directly on the ground or a heat shield 15 laid on a floor plate (not shown) on a floor support (bundle) (not shown) installed on the ground. Will be done.

The heat shield 15 is composed of a laminated sheet 150 as shown in FIG. The laminated sheet 150 is a laminated body in which the sheet-like material 151 is used as a core material and metal foil 152 is coated on both sides of the sheet-like material 151. As the sheet-like material 151, a glass cloth, a cloth-like material, or the like is used. As the metal foil 152, an aluminum foil, a steel foil, or the like is used. The laminated sheet 150 in which aluminum foil is coated on the sheet-shaped material 151 has better heat insulating properties than the laminated sheet 150 in which aluminum is vapor-deposited on the sheet-shaped material 151. The laminated sheet 150 is made to have water resistance, waterproofness, rust prevention, etc. by coating the metal foil 152 with an electrolytic corrosion inhibitor.

An air supply hole 16 is formed in one of the flat side walls 11b. An exhaust hole 17 is formed in the other flat side wall 11b. The air supply hole 16 and the exhaust hole 17 shown in FIG. 2 are each formed at one place, but may be formed at a plurality of places. Although not shown, the air supply hole 16 and the exhaust hole 17 may be formed on the gable side wall 11a. Since the specific gravity of carbon dioxide is 1.5, it is preferable that the carbon dioxide supplied into the plant cultivation room 10 is formed on the wall 11 near the roof 12 so that the carbon dioxide is not easily exhausted. The exhaust hole 17 is preferably provided with a shutter capable of adjusting the opening amount.

A carbon dioxide supply means 20 is connected to the air supply hole 16. The carbon dioxide supply means 20 supplies outside air containing carbon dioxide from outside the plant cultivation room 10 into the plant cultivation room 10. That is, the carbon dioxide supply means 20 supplies air containing nitrogen, oxygen, and the like in addition to carbon dioxide into the plant cultivation room 10. The carbon dioxide supply means 20 includes a filter (not shown) for preventing insects and pathogens in the outside air from entering the plant cultivation room 10.

The carbon dioxide supply means 20 has an air conditioning function for preventing the temperature and humidity in the plant cultivation room 10 from changing due to the air supplied from the outside of the plant cultivation room 10 into the plant cultivation room 10. The carbon dioxide supply means 20 having this air conditioning function is, for example, a fluid tank that seals a fluid to be cooled or heated, a pipe that penetrates the fluid tank, and a pipe through which air flows, and humidifies the air in the pipe. It is equipped with a humidity control means for cooling and dehumidifying. The pipe flows in the outside air and discharges it into the plant cultivation room 10.

In summer, the fluid in the fluid tank is cooled. The air that has flowed into the pipe is cooled by passing through the fluid in the fluid tank through the pipe, is humidity-controlled by the humidity control means, and is discharged into the plant cultivation room 10. Therefore, the temperature inside the plant cultivation room 10 does not rise and the humidity does not change due to the supply of outside air. In winter, the fluid in the fluid tank is heated. The air that has flowed into the pipe is heated by passing through the fluid in the fluid tank through the pipe, and is regulated by the humidity control means. Therefore, the temperature inside the plant cultivation room 10 does not decrease due to the supply of outside air, and the humidity does not change.

Since the exhaust hole 17 is formed in the other flat side wall 11b, the outside air can be supplied to the plant cultivation room 10 without filling the plant cultivation room 10 with air. By forming the air supply hole 16 and the exhaust hole 17 on the wall 11 facing each other, an air flow in one direction is generated.

The air discharged from the plant cultivation room 10 is slightly less than the air supplied to the plant cultivation room 10, and the pressure inside the plant cultivation room 10 is positive (if the outside of the plant cultivation room 10 is 1 atm, the plant cultivation room). The exhaust hole 17 is provided in a size such that the pressure inside 10 is larger than 1 atm). As a result, even if there is a gap between the wall 11 and the roof 12, insects and pathogens can be prevented from entering the plant cultivation room 10 through the gap.

The plant cultivation house 1 is provided with an air conditioner 30 for adjusting the temperature and humidity in the plant cultivation room 10. The air conditioner 30 has an indoor unit (not numbered) and an outdoor unit (not shown). The indoor unit is fixed to the indoor surface of the wall 11 (the gable side wall 11a in the drawing, but the flat side wall 11b may also be used). In the drawing, two air conditioners 30 are shown on the gable side wall 11a on the back side, but they may be installed on the gable side wall 11a on the front side. The air conditioner 30 may be installed outside the plant cultivation house 1 and the temperature and humidity in the plant cultivation room 10 may be adjusted by a duct or the like (not shown). In any case, the air conditioner 30 circulates the air in the plant cultivation room 10.

The temperature and humidity in the plant cultivation room 10 set by the air conditioning equipment 30 and the temperature and humidity of the air adjusted by the carbon dioxide supply means 20 and supplied into the plant cultivation room 10 are related. For example, the temperature and humidity of the carbon dioxide supply means 20 are set so as to be the same as the temperature and humidity set by the air conditioner 30. On the contrary, the air conditioning equipment 30 may be set so that the temperature and humidity are the same as the temperature and humidity set by the carbon dioxide supply means 20. Alternatively, when there are a plurality of types of plants placed in the plant cultivation room 10, different types of plants are placed near the air supply hole 16 and the air conditioner 30 to create an atmosphere of temperature and humidity suitable for each plant. As such, air having different temperatures and humidity may be emitted from the carbon dioxide supply means 20 and the air conditioning installation unit 30.

In the plant cultivation room 10, a shelf 40 for arranging plants 2 such as vegetables is stored. The shelf 40 is installed on the floor 13. The illustrated shelves 40 are arranged in a plurality of rows, but may be in one row. The shelves 40 in each row shown in the figure are stacked in a plurality of stages, but may be one stage. The floor 13 is constructed by a heat shield 15 so that the temperature of the ground does not affect the inside of the plant cultivation room 10. Although not shown, a lighting device is provided near the ceiling (without numbering) of the plant cultivation room 10.

Here, a mode of use of the plant cultivation house 1 will be described. The plants 2 such as vegetables arranged on the shelves 40 in the plant cultivation room 10 are placed in an atmosphere of optimum temperature and humidity for growth by the air conditioning equipment 30. The plant 2 is irradiated with light at an optimum amount of light for an optimum time by an illumination device.

Moreover, since the walls 11 and the roof 12 of the plant cultivation room 10 are constructed by the heat shield 15 composed of the laminated sheet 150, the hot and cold air outside the plant cultivation room 10 is blocked, and the outside of the plant cultivation room 10 is blocked. Regardless of whether the temperature is high or low, the temperature inside the plant cultivation room 10 is the desired temperature atmosphere. Further, since the laminated sheet 150 is not a mere sheet but a laminated one, the wall 11 and the roof 12 constructed by the heat shield 15 can be prevented from condensing in winter.

Air containing carbon dioxide is supplied from the carbon dioxide supply means 20 into the plant cultivation room 10 in such an atmosphere. Carbon dioxide is distributed all over the plant cultivation room 10 by the air flow flowing from the air supply hole 16 to the exhaust hole 17 and the air flow from the air conditioner 30. By providing the carbon dioxide supply means 20 with an air conditioning function, the inside of the plant cultivation room 10 maintains the desired temperature and humidity without being affected by the outside air.

The plant 2 in the plant cultivation room 10 grows by absorbing carbon dioxide and releasing oxygen. By supplying carbon dioxide into the plant cultivation room 10, the plant cultivation room 10 does not become short of carbon dioxide. Therefore, the plant 2 in the plant cultivation room 10 sufficiently absorbs carbon dioxide and grows.

The oxygen-containing air discharged from the plant 2 is exhausted from the exhaust hole 17 to the outside of the plant cultivation room 10. Further, since the pressure inside the plant cultivation room 10 is positive, insects and pathogens do not enter the plant cultivation room 10 through the exhaust hole 17.

As described above, in the plant cultivation house 1, the plant 2 placed in the plant cultivation room 10 having the desired temperature and humidity atmosphere by the heat shield 15 is brought into the plant cultivation room 10 by the carbon dioxide supply means 20. It can be grown by carbon dioxide supplied from the outside into the plant cultivation room 10.

Although the plant cultivation house 1 of the present invention has been described above, the present invention is not limited to the above-described embodiment, and changes and improvements within the range that can solve the problems of the present invention are included in the present invention. Is done.

For example, the heat shield 15 may be configured by the heat shield panel 160 as shown in FIG. 4 instead of the laminated sheet 150. FIG. 4 is an exploded perspective view showing another embodiment of the heat shield 15.

The heat shield 15 is a heat shield panel 160, and includes a pair of sheets 161, 161 facing each other at intervals, and a closed space 162 provided between the pair of sheets 161, 161. is there. The closed space 162 is provided by the honeycomb structure 163. In this closed space 162, for example, air is sealed so as not to flow. Aluminum foil or steel foil is used as the pair of sheets 161, 161. Such a heat shield panel 160 exhibits heat insulating properties by the closed space 162, and the inside of the plant cultivation room 10 can have an atmosphere of a desired temperature.

In the plant cultivation room 10, the laminated sheet 150 and the heat shield panel are attached to the wall base material and the roof base material of the existing vinyl house and various huts without constructing the wall 11 and the roof 12 by the heat shield 15. May be good. The wall 11 and roof 12 of the plant cultivation room 10 have a heat shield 15 attached to the wall base material and the roof base material. Further, depending on the environment in which the plant cultivation house 1 is installed, the floor 13 may not be constructed by the heat shield 15, or the floor 13 may not be provided in the first place. Further, both the wall 11 and the roof 12 may not be constructed by the heat shield 15, but only one may be constructed by the heat shield 15.

The carbon dioxide supply means 20 supplies air containing carbon dioxide from outside the plant cultivation room 10 into the plant cultivation room 10, but supplies only carbon dioxide adjusted to an arbitrary concentration into the plant cultivation room 10. You may try to do so. In this case, the plant cultivation room 10 is entered after the safety of the concentrations of carbon dioxide and oxygen is verified.

The exhaust hole 17 is provided on the wall 11, but if there is a gap in the wall 11 or if there is a gap between the door of the doorway and the wall 11, this gap is provided. Is the exhaust hole 17, so it is not necessary to separately provide the exhaust hole 17.

Summarizing the above, in the plant cultivation house 1 to which the present invention is applied, from the plant cultivation room 10 in which at least one of the wall 11 and the roof 12 is constructed by the heat shield 15, and the outside of the plant cultivation room 10. A carbon dioxide supply means 20 for supplying outside air containing carbon dioxide is provided in the plant cultivation room 10.

According to the plant cultivation house 1, at least one of the wall 11 and the roof 12 of the plant cultivation room 10 is constructed by the heat shield 15, so that the temperature and humidity inside the plant cultivation room 10 are set outside the plant cultivation room 10. It is possible to prevent the influence of the temperature and humidity of the plant, and by supplying outside air containing carbon dioxide from the outside of the plant cultivation room 10 into the plant cultivation room 10, carbon dioxide is supplied into the plant cultivation room 10. It is possible to promote the growth of the plant 2 placed in the plant cultivation room 10 so as not to run short.

As one aspect of the plant cultivation house 1 to which the present invention is applied, the wall 11 and the roof 12 of the plant cultivation room 10 are constructed by the heat shield 15. According to this plant cultivation house, the plant cultivation room 10 can newly construct at least one of a wall and a roof by the heat shield 15.

As another aspect of the plant cultivation house 1 to which the present invention is applied, the heat shield 15 is attached to the existing wall base material and roof base material to construct the wall 11 and the roof 12. According to this plant cultivation house, the plant cultivation room 10 can be constructed by attaching the heat shield 15 to the wall base material and the roof base material of the existing vinyl house and various huts.

In the above aspect of the plant cultivation house 1 to which the present invention is applied, the heat shield 15 also constructs the floor 13 of the plant cultivation room 10. According to the plant cultivation house 1, since the floor 13 is also constructed by the heat shield 15, the temperature of the ground can be prevented from affecting the inside of the plant cultivation room 10.

As another aspect of the plant cultivation house 1 to which the present invention is applied, the carbon dioxide supply means supplies outside air to the plant cultivation room so as to have a positive pressure in the plant cultivation room. According to this plant cultivation house 1, the air pressure inside the plant cultivation room becomes higher than the air pressure outside the plant cultivation room, so that insects and pathogens do not enter the plant cultivation room through gaps in the plant cultivation room. Can be done.

As another aspect of the plant cultivation house 1 to which the present invention is applied, the heat shield 15 is a laminated sheet 150 in which an aluminum foil is laminated on a sheet-like base material. According to the plant cultivation house 1, the heat shield 15 is a laminated sheet 150 in which an aluminum foil is laminated on a sheet material, so that the wall 11 and the roof 12 are made of a heat shield 15 having high heat shield while being inexpensive. Can be built.

As another aspect of the plant cultivation house 1 to which the present invention is applied, an air conditioner 30 for air-conditioning the inside of the plant cultivation room 10 is provided. According to this plant cultivation house 1, the growth of the plant 2 can be promoted by creating an atmosphere of the optimum temperature and humidity for the plant 2 in the plant cultivation room 10.

1 ... Plant cultivation house 2 ... Plant 10 ... Plant cultivation room 11 ... Wall 12 ... Roof 13 ... Floor 15 ... Heat shield 151 ... Sheet-like material 152・ ・ ・ Metal foil (aluminum foil)
20 ... Carbon dioxide supply means 30 ... Air conditioning equipment

Claims (1)

The invention described herein.