JP3653309B2 - Plant for growing natural light using plants - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a natural light utilizing plant growing apparatus using natural light (sunlight) used for agricultural research and experiments such as plant breeding or cultivation.
[0002]
[Prior art]
A natural light utilization plant growing device is a device used to grow plants using natural light in an environment where the temperature, humidity, etc., which are environmental factors of plants are artificially controlled, and is used in a growing room for accommodating plants. The temperature and humidity are controlled using an air conditioner (air conditioner) such as a cooling coil, electric heater, or humidifier placed outside the growth room, and the air controlled to the desired temperature and humidity is circulated by a blower. And is blown out from the air blowing section into the growth chamber.
[0003]
A conventional example of such a natural light utilizing plant growing apparatus will be described with reference to FIGS.
[0004]
4 is a schematic perspective view showing a conventional natural light utilizing plant growing apparatus, and FIG. 5 is a schematic longitudinal sectional view showing the conventional natural light utilizing plant growing apparatus.
[0005]
As shown in FIGS. 4 and 5, the conventional plant growing apparatus collects natural light and has a growing chamber 2 having an air outlet (not shown in FIG. 4) 1 at an upper position, and an air blowing hole 3 a (FIG. 4). Is omitted) and an air blowing chamber 4 formed by interposing the air blowing plate 3 below the growth chamber 2. The air blowing plate 3 is a floor plate of the growing room 2. The air blowing chamber 4 has an air inlet 5 on its side. In addition, this plant growing device includes an air passage 6 that connects between the air outlet 1 and the air inlet 5, a blower 7, an electric heater 8, and a cooling coil 9 that are disposed in the air passage 6, and an air blowing chamber. 4 and a centrifugal spray type humidifier 10 disposed in the vehicle.
[0006]
The front side (usually the south side) of the growth room 2, the side surfaces and the upper side of both sides (usually the east side and the west side) are configured using a transparent glass plate 11, and natural light is collected in the growth room 2. It has come to be. The rear side surface (usually the north side) of the rearing chamber 2 is configured by a partition plate between the air passage 6.
[0007]
Further, on the front side surface of the growth chamber 2, an outwardly opening-type single-open door 12 is provided over substantially half in the horizontal direction. The single door 12 is mainly composed of a glass plate 11 and a frame 13 that supports the glass plate 11. The east side portion of the frame 13 is hinged (not shown) to the frame of the growth chamber 2, and the single door 12 is rotated outward to open and close as indicated by the arrow in FIG. Can be done. Further, packing (not shown) is provided around the single door 12 so that when the single door 12 is closed, the growing chamber 2 is kept airtight with respect to the outside.
[0008]
In addition, an exhaust port 14 is provided on the south side surface of the air blowing chamber 4, and a vent port 15 that communicates the air passage 6 to the outside is provided at a position between the blower 7 and the air outlet 1.
[0009]
According to the above-described conventional plant growing apparatus, the plant and equipment are put into and out of the growing room 2 by opening the single door 12 and the single door 12 is closed during operation.
[0010]
In operation, the blower 7 sucks the air in the growth chamber 2 from the air outlet 1 into the air passage 6. At the same time, outside air is sucked into the air passage 6 from the vent 15. The sucked air is blown out from the blower 7, passes through the electric heater 8 and the cooling coil 9, and is supplied from the air inlet 5 to the air blowing chamber 4 in a state where the temperature is adjusted. The air supplied to the air blowing chamber 4 is blown out from the blowing hole 3 a of the air blowing plate 3 to the growing chamber 2 in a state where the humidity is adjusted by the humidifier 10. At this time, a part of the air in the air blowing chamber 4 is exhausted to the outside from the exhaust outlet 14 with slide. By the above operation, the pressure in the growth chamber 2 is slightly positive.
[0011]
In addition, the exhaust port 14 and the vent hole 15 are provided to introduce the outside air because the plants accommodated in the growth chamber 2 perform photosynthesis and the CO in the growth chamber 2. ₂ CO in the growth chamber 2 by absorbing gas ₂ So-called CO, where gas concentration decreases ₂ This is to prevent hunger.
[0012]
[Problems to be solved by the invention]
By the way, in the plant growing apparatus using natural light, the temperature, humidity, wind speed, etc. in the growing room 2 are controlled with high precision, and therefore it is considered that the growing room 2 should be airtight with respect to the outside. As described above, the single door 12 is used for putting plants and equipment into and out of the growth chamber 2, packing is provided around the door 12, and the exhaust port 14 is provided in the air blowing chamber 4.
[0013]
However, the conventional natural light utilizing plant growing apparatus has the following disadvantages because the single door 12 is used to put in and out plants and equipment into the growing room 2.
[0014]
That is, a test object such as a plant is taken in and out of the growing room 2 on a daily basis, or equipment such as a large shelf or a soil thermostatic bath may be installed in the growing room 2, but the single door 12 is grown. Since it is provided on the south side surface of the chamber 2 over only about half of the lateral direction, if the plant near the doorway of the single door 12 is not taken out, the side where the single door 12 is not provided is provided. It is inconvenient that plants cannot be taken in and out of the area.
[0015]
In addition, there are many places where natural light utilizing plant growing devices are installed, where there are generally no obstacles around the sun, and there is a possibility that a strong wind may hit the vicinity of the doorway of the single door 12 in strong winds. When the single door 12 is opened, it is beaten by a strong wind, and it is difficult to put plants in and out of the growing room 2.
[0016]
Further, in order to widen the entrance of the growth chamber 2, it is conceivable to provide a double-open door on the south side surface of the growth chamber 2 instead of the single-open door 12, in this case, Similar to the door 12, not only is it difficult to take in and out plants and the like due to the influence of strong winds, but wind pressure loads are concentrated on the side frame to which the double doors are attached by hinges, and structural problems are likely to occur.
[0017]
By the way, in a general building, a sliding door may be used for an entrance / exit. However, since the sliding door slides, gaps are surely formed above and below the sliding door, and it is extremely difficult to keep the inside and outside of the sliding door essentially airtight. Therefore, as described above, conventionally, the growth room 2 was considered to be airtight with respect to the outside. Therefore, those skilled in the art could not conceive of adopting a sliding door in the field of plant for growing natural light using plants. Is.
[0018]
In addition, the natural light utilization plant growing apparatus uses sunlight as a light source, and the solar radiation energy occupies most of the cooling load for keeping the temperature in the growing room 2 at a set value in the daytime. In general, the part that requires sunlight is only the above-ground part of the plant to be tested, and is in the underground part of the plant such as a pot or pot (generally, the part about 30 cm above the floor of the growing room 2). Does not require sunbeams. Nevertheless, in the conventional natural light utilizing plant growing apparatus, all of the upper part from the position of the floor (the air blowing plate 3) on the south side and the east and west side surfaces of the growing room 2 is used as the light transmitting part. For this reason, in the said conventional natural light utilization plant growing apparatus, there existed a fault which a cooling load will increase unnecessarily.
[0019]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a natural light-utilizing plant growing apparatus in which a plant and the like can be easily taken in and out of a growing room and structural problems are hardly caused.
[0020]
Moreover, an object of this invention is to provide the plant growing apparatus using natural light which can aim at reduction of a cooling load.
[0021]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the natural light utilizing plant growing apparatus according to the first aspect of the present invention has a growing room that shines natural light and has an air outlet at an upper position, and an air outlet hole below the growing room. An air blowing chamber formed by interposing an air blowing plate, an air blowing chamber having an air inlet on a side portion, an air passage connecting the air outlet and the air inlet, A natural light utilizing plant comprising: a blower disposed in an air passage; and air adjusting means for adjusting air so that the adjusted air is blown from the air blowing chamber to the growing chamber through the air blowing plate. In the growing apparatus, one side of the growing room is covered with a plurality of sliding doors over substantially the entire lateral direction, and a gap is formed above and below the sliding door to communicate the growing room to the outside. The blower and the air outflow At a location between the, it is provided with a vent for communicating the air passage to the outside.
[0022]
The natural light utilizing plant growing apparatus according to the second aspect of the present invention is the natural light utilizing plant growing apparatus according to the first aspect, wherein forced air supply means for forcibly supplying outside air from the vent into the air passage is provided. It is provided.
[0023]
The natural light utilizing plant growing apparatus according to the third aspect of the present invention is the natural light utilizing plant growing apparatus according to the first aspect, wherein forced exhaust means for forcibly exhausting the air in the air passage from the vent to the outside is provided. It is provided.
[0024]
The natural light utilizing plant growing apparatus according to the fourth aspect of the present invention is the natural light utilizing plant growing apparatus according to any one of the first to third aspects, wherein a portion about 30 cm above the floor of the sliding door is used as a light shielding part, and The light shielding portion is a portion of about 30 cm on the floor on the side surface that is not covered with the sliding door of the growth room.
[0025]
In the natural light utilizing plant growing apparatus according to the present invention, contrary to the conventional technical common sense that the growing room should be airtight with respect to the outside, a plurality of one side surface of the growing room is spread over substantially the entire lateral direction. The sliding door is covered with a built-in sliding door, and a gap is formed above and below the sliding door to communicate the growing room to the outside.
[0026]
Thus, in the present invention, since one side of the growth chamber is covered with a plurality of sliding doors over substantially the entire lateral direction, the entrance / exit of the growth chamber over almost the entire lateral direction of the side surface. Therefore, it becomes easy to take in and out plants and the like in the growing room.
[0027]
In the present invention, a sliding door is used instead of a revolving door such as a single door or a double door, so that it is not beaten by strong winds. Easy access.
[0028]
Further, in the present invention, since the sliding door is used, even if a wind pressure load due to strong wind is applied to the sliding door, the wind pressure load is dispersed through the upper and lower rails of the sliding door and transmitted to the frame, so there is a structural problem. Not likely to occur.
[0029]
In the present invention, one side of the growth chamber is covered with a plurality of sliding doors over substantially the entire lateral direction thereof, and a gap is formed above and below the sliding door to allow the growth chamber to communicate with the outside. However, it is contrary to the conventional common sense that the growing room should be airtight with respect to the outside. However, since it operates as follows, there is no problem in use.
[0030]
That is, according to the natural light utilizing plant growing apparatus according to the first aspect of the present invention, if the vent is opened to the atmosphere as it is without using forced air supply means or forced exhaust means, it is grown by a blower. Indoor air is sucked into the air passage from the air outlet and outside air is sucked into the air passage from the vent. The sucked air is blown out from the blower, adjusted by an air adjusting device, supplied from the air inlet to the air blowing chamber, and blown out from the blowing hole of the air blowing plate into the growing chamber. As described above, the air in the growth chamber is sucked into the air passage from the air outlet and part of the air is exhausted to the outside through the upper and lower gaps of the sliding door. With the above operation, the pressure in the growth chamber is close to atmospheric pressure, but is kept slightly positive, and outside air does not enter through the gap above and below the sliding door, and external pollen, insects, mites, etc. enter the growth chamber. Invasion is prevented, and it can be used in the same manner as the conventional natural light utilizing plant growing apparatus described above.
[0031]
When it is necessary to more reliably prevent the entry of external pollen, insects, mites, etc. into the breeding room, as in the second aspect of the present invention, A forced air supply means for forcibly supplying outside air may be provided. In this case, although it operates in the same manner as described above, since the outside air is forcibly supplied from the vent into the air passage, the pressure in the growth chamber can be kept at a relatively high positive pressure. Therefore, it is possible to reliably prevent external pollen, insects, mites, etc. from entering the breeding room.
[0032]
On the other hand, in order to test the influence of pollution gas, it is used as a so-called pollution gas exposure device that fills the growth chamber with the gas, or plants that have been genetically manipulated by biotechnology are grown in the growth chamber and pollen of the plant, etc. When using as a so-called biohazard countermeasure device for preventing the plant pollen and the like from scattering to the outside so as not to affect external plants etc., as in the third aspect of the present invention, A forced exhaust means for forcibly exhausting the air in the air passage from the vent to the outside may be provided.
[0033]
In this case, the air in the growth chamber is sucked into the air passage from the air outlet by the blower and the forced exhaust means. Part of the air sucked into the air passage is exhausted to the outside from the vent hole by the forced exhaust means. The remaining air sucked into the air passage is blown out from the blower, adjusted by an air conditioner, supplied from the air inlet to the air blowing chamber, and blown out from the blowing hole of the air blowing plate to the growth chamber. . Further, since the growth chamber is attracted by negative pressure by the forced exhaust means, outside air is sucked into the growth chamber from the upper and lower gaps of the sliding door. With the above operation, the pressure in the growth chamber is maintained at a negative pressure, air in the growth chamber does not leak to the outside through the gap above and below the sliding door, and pollutant gas and pollen of plants in the growth chamber are scattered outside There is no.
[0034]
And in this invention, since it is not necessary to provide in particular the thing corresponded to the exhaust port 14 in the conventional natural light utilization plant growing apparatus mentioned above, manufacture can be made correspondingly and it can provide cheaply.
[0035]
Moreover, according to the natural light utilization plant growing apparatus by the 4th aspect of this invention, while using the part of about 30 cm on the floor of a sliding door as a light-shielding part, about 30 cm on the floor of the side surface which is not covered with the said sliding door of the said growth room. Since the part is a light-shielding part, solar light that was unnecessary for plant growth and unnecessarily increased the cooling load is blocked by the light-shielding part, so that the cooling load can be reduced and not only energy saving but also resource saving It is also useful.
[0036]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a natural light utilization plant growing apparatus according to an embodiment of the present invention will be described with reference to FIGS. 1 to 3.
[0037]
FIG. 1 is a schematic perspective view showing a natural light utilizing plant growing apparatus according to an embodiment of the present invention, FIG. 2 is a schematic longitudinal sectional view showing the natural light utilizing plant growing apparatus, and FIG. FIG.
[0038]
As shown in FIGS. 1 and 2, the natural light utilizing plant growing apparatus according to the present embodiment collects natural light and has a growing chamber 22 having an air outlet (not shown in FIG. 1) 21 at an upper position, and an air blowing hole. An air blowing plate 23 having 23a (not shown in FIG. 1) and an air blowing chamber 24 formed by interposing the air blowing plate 23 below the growth chamber 22 are provided. In the present embodiment, the air blowing plate 23 is also used as a floor plate of the growing chamber 22. The air blowing chamber 24 has an air inlet 25 on its side. In addition, this plant growing device includes an air passage 26 connecting the air outlet 21 and the air inlet 25, a blower 27, an electric heater 28 and a cooling coil 29 disposed in the air passage 26, and an air blowing chamber. And a centrifugal spray type humidifier 30 arranged at 24. The air outlet 21 is provided with a filter (not shown) as necessary.
[0039]
In the present embodiment, the electric heater 28, the cooling coil 29, and the humidifier 30 adjust the air so that the adjusted air is blown out from the air blowing chamber 24 through the air blowing plate 23 to the growing chamber 22. Adjusting means is configured. However, in the present invention, the configuration of the air adjusting means is not limited to such a configuration. Further, the humidifier 30 may be disposed below the cooling coil 29 in the air passage 26, or any humidifier such as a steam humidifier or an ultrasonic humidifier may be employed.
[0040]
In addition, as shown in FIG. 2, a vent hole 35 that communicates the air passage 26 with the outside is provided at a position between the blower 27 and the air outlet 21.
[0041]
The front side (usually the south side) of the growth room 22, the side surfaces and the upper side of both sides (usually the east side and the west side) are configured using a transparent glass plate 31, and natural light is collected in the growth room 22. It has come to be. A rear side surface (usually the north side) of the rearing chamber 22 is configured by a partition plate between the air passage 26 and the rear side surface.
[0042]
Then, as shown in FIGS. 1 to 3, the front side surface of the growth chamber 22 is covered with two-storied sliding doors 40 and 41 (that is, both sliding doors) over substantially the entire lateral direction, and the sliding door 40 , 41 are formed with gaps A and B that allow the growth chamber 22 to communicate with the outside.
[0043]
As shown in FIG. 3, a sliding door upper rail 52 is fixed to the lower part of the eaves frame (beam) 51 on the south side to which the roof frame 50 is fixed, and an L-shaped attachment member fixed to the floor frame 53 on the south side. A sliding door lower rail 55 is fixed on 54, and sliding doors 40 and 41 are slidably provided between the sliding door upper rail 52 and the sliding door lower rail 55. The upper frames 60 and 61 of the sliding doors 40 and 41 are respectively engaged with the adjacent rail portions of the sliding door upper rail 52, and the door wheels 64 and 65 rotatably provided on the lower frames 62 and 63 of the sliding doors 40 and 41 are below the sliding door. The rails 55 are respectively engaged with adjacent rail portions. Glass plates 31 and 31 are sandwiched between the upper frames 60 and 61 and the intermediate frames 66 and 67 of the sliding doors 40 and 41 via elastic members 68 and 69 and elastic members 70 and 71, respectively. Aluminum panels 76 and 77 are sandwiched between the intermediate frames 66 and 67 and the lower frames 62 and 63 via elastic members 72 and 73 and elastic members 74 and 75, respectively. From the lower side of the sliding doors 40 and 41 to the intermediate frames 66 and 67 is a light shielding part, and the height from the floor plate (air blowing plate) 23 to the intermediate frames 66 and 67 is about 30 cm. The gap A is formed between the upper frames 60, 61 of the sliding doors 40, 41 and the sliding door upper rail 52, and the gap B is formed between the sliding door lower rail 55 and the lower frames 62, 63 of the sliding doors 40, 41. Has been.
[0044]
In FIG. 3, reference numeral 80 denotes a base channel, and 81 denotes an aluminum panel that defines the air blowing chamber 26.
[0045]
Moreover, in this Embodiment, similarly to the sliding doors 40 and 41, the aluminum panel 100 is used for the lower part of the side of the east side and the west side of the cultivation room 22, and it is about 30 cm from the floor board (air blowing board) 23. The part is a light shielding part.
[0046]
In the natural light utilization plant growing apparatus, the south side of the growing room 22 is covered with the two-storied sliding doors 40 and 41 over substantially the entire lateral direction thereof, so that it covers almost the entire lateral side of the south side. Thus, it can be used as the entrance / exit of the growing room 22, and therefore, the plant can be easily taken in and out of the growing room 22.
[0047]
Moreover, in the said natural light utilization plant growing apparatus, since it is not a revolving door like a single door or a double door, and the sliding doors 40 and 41 are used, it is not beaten by a strong wind, From this point, It is easy to put and remove plants and the like into the growing room 22.
[0048]
Furthermore, since the natural light utilizing plant growing apparatus uses the sliding doors 40 and 41, even if a wind pressure load due to strong wind is applied to the sliding doors 40 and 41, the wind pressure load is applied to the upper and lower rails 52 and 55 of the sliding doors 40 and 41. Therefore, structural problems are unlikely to occur.
[0049]
And in the said natural light utilization plant growing apparatus, the south side surface of the growing room 22 is covered with the two-storied sliding doors 40 and 41 over the whole of the horizontal direction, and the growing room 22 is installed on the upper and lower sides of the sliding doors 40 and 41 outside. The gaps A and B communicated with each other are formed, and it is contrary to the conventional technical common sense that the growth chamber 22 should be airtight with respect to the outside, but actually operates as follows. So there is no problem in use.
[0050]
That is, according to the natural light utilizing plant growing apparatus, as shown in FIG. 2A, if the vent hole 35 is opened to the atmosphere as it is without using the forced air supply means or the forced exhaust means, the blower 27 is used. As a result, air in the growth chamber 22 is sucked into the air passage 26 from the air outlet 21, and outside air is sucked into the air passage 26 from the vent 26. The sucked air is blown out from the blower 27, then passes through the electric heater 28 and the cooling coil 29, and is supplied from the air inlet 25 to the air blowing chamber 24 in a state where the temperature is adjusted. The air supplied to the air blowing chamber 24 is blown out from the blowing hole 23 a of the air blowing plate 23 to the growing chamber 22 in a state where the humidity is adjusted by the humidifier 30. The air in the growth chamber 22 is sucked into the air passage 26 from the air outlet 21 as described above, and a part of the air is exhausted to the outside through the gaps A and B above and below the sliding doors 40 and 41. With the above operation, the pressure in the growth chamber 22 is kept close to atmospheric pressure but slightly positive, and external air does not enter through the upper and lower gaps A and B of the sliding doors 40 and 41. Intrusion of mites and the like into the growing room 22 is prevented, and can be used in the same manner as the conventional natural light utilizing plant growing apparatus described above.
[0051]
When it is necessary to more reliably prevent the entry of external pollen, insects, mites, etc. into the breeding chamber 22, as shown in FIG. A forced air supply means for forcibly supplying outside air may be provided. In the example shown in FIG. 2B, the blowout side of the blower 90 having static pressure is connected to the vent hole 35, the suction side of the blower 90 is connected to the outlet side of the filter 91 that purifies the air, and the inlet side of the filter 91 is the external side. Has been released. That is, in this example, the blower 90 is adopted as the forced air supply means. In the case shown in FIG. 2B, the operation is substantially the same as described above, but the outside air is forcibly supplied from the vent hole 35 into the air passage 26 through the filter 91 by the blower 90. Since the pressure in the chamber 22 can be kept at a relatively high positive pressure, it is possible to reliably prevent the entry of external pollen, insects, mites and the like into the growing chamber 22.
[0052]
On the other hand, when used as a pollution gas exposure device or a biohazard countermeasure device, as shown in FIG. 2C, forced exhaust means for forcibly exhausting the air in the air passage 26 from the vent 35 to the outside. Should be provided. In the example shown in FIG. 2C, the suction side of the blower 92 having static pressure is connected to the vent 35, the blowout side of the blower 92 is connected to the inlet side of the filter 93 that purifies the air, and the outlet side of the filter 93 is the outside. Has been released. That is, in this example, the blower 92 is employed as the forced exhaust means.
[0053]
In the case shown in FIG. 2C, the air in the growth chamber 22 is drawn into the air passage 26 from the air outlet 21 by the blowers 27 and 92. A part of the air sucked into the air passage 26 is exhausted to the outside from the vent hole 35 through the filter 93 by the blower 92. The remainder of the air sucked into the air passage 26 is blown out from the blower 27, then passes through the electric heater 28 and the cooling coil 29, and the temperature is adjusted, and then the air flows from the air inlet 25 to the air blowing chamber 24. Supplied. The air supplied to the air blowing chamber 24 is blown out from the blowing hole 23 a of the air blowing plate 23 to the growing chamber 22 in a state where the humidity is adjusted by the humidifier 30. Further, since the inside of the growth chamber 22 is drawn by the negative pressure by the blower 90, outside air is sucked into the growth chamber 22 from the upper and lower gaps A and B of the sliding doors 40 and 41. With the above operation, the pressure in the growth chamber 22 is maintained at a negative pressure, and the air in the growth chamber 22 does not leak to the outside from the gaps A and B above and below the sliding doors 40 and 41. The pollen of the plant is not scattered outside.
[0054]
And in the said natural light utilization plant growing apparatus, since it is not necessary to provide in particular the thing corresponded to the exhaust port 14 in the conventional natural light utilization plant growing apparatus shown in FIG.4 and FIG.5 mentioned above, manufacture becomes easy and inexpensive. Can be provided.
[0055]
Moreover, according to the said natural light utilization plant growing apparatus, while the part of about 30 cm on the floor of the sliding doors 40 and 41 is made into a light shielding part, the part about 30 cm on the floor of the east side and west side of the growing room 22 is made into a light shielding part. Since the sun rays that are unnecessarily necessary for plant growth and have increased the cooling load unnecessarily are blocked by the light shielding portion, the cooling load can be reduced, and the circulation air volume, the capacity of the cooling coil 29, etc. can be reduced. This is useful not only for energy conservation but also for resource conservation. However, in the present invention, it is not always necessary to use a portion about 30 cm above the floors of the sliding doors 40 and 41 as a light shielding portion, or a portion about 30 cm above the floor on the east and west sides of the growing room 22 as a light shielding portion.
[0056]
Although one embodiment of the present invention has been described above, the present invention is not limited to this embodiment.
[0057]
For example, in the above-described embodiment, the south side surface of the growing room 22 is covered with the two-story sliding doors 40 and 41, but it may be covered with three or more sliding doors, or the east side or the west side of the growing room 22 It is also possible to cover the side with a sliding door and use that side as an entrance. Moreover, in the said embodiment, although the whole of the up-down direction of the south side surface of the cultivation room 22 is covered with the sliding doors 40 and 41, only the middle of the upper direction is covered with the sliding doors 40 and 41, and the rest is what is called fitting and killing. The height of the lower part of the sliding doors 40 and 41 is not necessarily matched with the position of the floor board (air blowing board) 23.
[0058]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, the plant growing apparatus using natural light which can take in and out of the plant etc. to a breeding room easily and does not produce a problem structurally can be provided.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view showing a natural light utilizing plant growing apparatus according to an embodiment of the present invention.
FIG. 2 is a schematic longitudinal sectional view showing a natural light utilizing plant growing apparatus according to an embodiment of the present invention.
FIG. 3 is an enlarged cross-sectional view of a main part of a natural light utilizing plant growing apparatus according to an embodiment of the present invention.
FIG. 4 is a schematic perspective view showing a conventional natural light utilizing plant growing apparatus.
FIG. 5 is a schematic longitudinal sectional view showing a conventional plant for growing natural light using plants.
[Explanation of symbols]
21 Air outlet
22 Training room
23 Air outlet plate
23a Air outlet
24 Air blowing chamber
25 Air inlet
26 Air passage
27 Blower
28 Electric heater
29 Cooling coil
30 Humidifier
31 glass plate
40, 41 sliding door
A, B gap

Claims (4)

An air blowing chamber formed by interposing an air blowing plate having an air outlet at an upper position and an air blowing plate having an air blowing hole below the growing chamber. An air blowing chamber having an inlet, an air passage connecting the air outlet and the air inlet, a blower disposed in the air passage, and the air blowing plate from the air blowing chamber through the air blowing plate. In a natural light utilizing plant growing apparatus, comprising an air adjusting means for adjusting the air so that the adjusted air is blown into the growing room,
One side surface of the growing chamber is covered with a plurality of sliding doors over substantially the entire lateral direction, and a gap is formed above and below the sliding door to allow the growing chamber to communicate with the outside. A natural light utilizing plant growing apparatus, characterized in that a vent hole for communicating the air passage with the outside is provided at a position between the air outlet and the air outlet. 2. The plant for growing natural light using plants according to claim 1, further comprising forced air supply means for forcibly supplying outside air from the vent into the air passage. 2. The natural light utilizing plant growing device according to claim 1, further comprising forced exhaust means for forcibly exhausting the air in the air passage from the vent to the outside. The portion of about 30 cm above the floor of the sliding door is used as a light-shielding portion, and the portion of the side of the breeding room that is not covered with the sliding door is about 30 cm above the floor as a light-shielding portion. The natural light utilization plant cultivation apparatus of crab.

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