The present invention relates to a hydroponic cultivation apparatus for cultivating plants without using soil.
In conventional hydroponic cultivation apparatuses, as described in the following Patent Literature 1, a partitioning portion that partitions an aboveground space where aboveground part of a plant grows and an underground space where underground part of the plant grows is provided in a cultivation tank. A light source is provided in the aboveground space. Therefore, light emitted by the light source is irradiated to the aboveground part of the plant, but is blocked by the partitioning portion. As a result, the light emitted by the light source does not reach the underground part of the plant.
Patent Literature 1: Japanese Unexamined Patent Application Publication No. 2010-268787
According to the conventional hydroponic cultivation apparatuses described above, after installing the partitioning member to the cultivation tank, in order to observe the underground part of the plant, it is necessary to remove the partitioning portion from the cultivation tank. Therefore, work to observe the underground part of the plant becomes complicated.
The present invention has been made in view of such conventional problems. It is an object of the present invention to provide a hydroponic cultivation apparatus which can readily perform the work of observing underground part of a plant.
A hydroponic cultivation apparatus according to an aspect of the present invention comprising: a cultivation tank that has a light shielding property and is configured to accommodate underground part of a plant; and a partitioning portion that has a light shielding property and that is provided so as to cover an opening at an upper end of the cultivation tank and partitions an underground space where the underground part of the plant grows and an aboveground space where aboveground part of the plant grows, the partitioning portion includes: a fixed member, a position of which is fixed with respect to the cultivation tank, and that has a through hole surrounding a stem of the plant and maintains a closed state where it is suppressed that light is irradiated to the underground part of the plant; and a door member that is attached to the fixed member in a state of being movable with respect to the fixed member and changes to a closed state where it is suppressed that light is irradiated to the underground part of the plant and to an open state where it is possible to view the underground part of the plant.
According to the present invention, it is possible to readily perform the work of observing underground part of a plant.
Hereinafter, a hydroponic cultivation apparatus of an embodiment will be described with reference to the drawings.
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The fixed member 123 comprises a plate like member 1, a plate like member 2 adjacent to the plate like member 1, and a plate like member 3 adjacent to the plate like member 2. The door member 4 is a plate like member adjacent to the plate like member 3.
The plate like member 1 has two through holes 1X penetrating in its thickness direction and two semicircular shapes of notches 1A that are formed on the end surface adjacent to the plate like member 2. Screws to be described below are inserted into the two through holes 1X. Arcuate shape of elastic members 5 are attached to the notches 1A.
The plate like member 2 has two through holes 2X penetrating in its thickness direction. Screws to be described below are inserted into the two through holes 2X. The plate like member 2 has two semicircular shapes of notches 2A that are formed on the end surface adjacent to the plate like member 1 and two semicircular shapes of notches 2B that are formed on the end surface adjacent to the plate like member 3. The semicircular shape of notch 1A of the plate like member 1 and the semicircular shape of notch 2A of the plate like member 2 form one circular through hole as a whole. Elastic members 5, each of which has an arcuate like shape, are attached to the notch 2A and the notch 2B, respectively.
In the plate like member 3, two through holes 3X penetrating in its thickness direction are formed. Screws to be described below are inserted into the two through holes 3X. The plate like member 3 has two semicircular shapes of notches 3A that are formed on the end surface adjacent to the plate like member 2. The semicircular shape of notch 2B of the plate like member 2 and the semicircular shape of notch 3A of the plate like member 3 form one circular through hole as a whole. The elastic member 5, which has an arcuate like shape, is attached to the notch 3A. Further, four screw holes 3C are formed in the plate like member 3. Screws to be described below are screwed into the four screw holes 3C.
As can be understood from the above, the plate like member 1 and the plate like member 2 adjacent thereto have a pair of notches 1A and 2A on a pair of opposing surfaces facing each other. The plate like member 2 and the plate like member 3 adjacent thereto have a pair of notches 2B and 3A on a pair of opposing surfaces facing each other. These pairs of notches form the aforementioned through hole as a whole.
In the door member 4, two through holes 4X and four screw holes 4C penetrating in its thickness direction are formed. Screws for temporary fixing, which will be described below, are inserted into the two through holes 4X. Screws to be described below are screwed into the tour screw holes 4C. The door member 4 constitutes the plate like member at the outermost, that is, the end portion of the plurality of plate like members arranged side by side along one direction.
The elastic member 5 described above is elastically deformed according to a shape of a stem of a plant. Each of the plurality of elastic members 5 is preferably a member having flexibility and is, more preferably, a member such as a urethane sponge (urethane foam), or a rubber sponge, for example. The elastic member 5 is preferably black which absorbs light. In this case, the opposing two of elastic members 5 cooperatively plug the gaps between each of the notches 1A, 2A, 2B, 3A, and 313 and the stem as the aboveground part 11 while deforming elastically. Therefore, at the same time at which the partitioning portion 50 is installed, it is possible to close the gaps between the openings and the sterns.
Since the partitioning portion 50 is for suppressing the arrival of light to the underground parts 12, it is desirable that the partitioning portion 50 has a color that absorbs light such as black. Even if there is a small gap between the plate like members 1, 2, or 3 or between the plate like member 3 and the door member 4, since the black absorbs the light, it is possible to keep the underground space in a dark state.
In the present embodiment, as described above, the notches of plate like members of the partitioning portion 50, which are mutually opposing, as a whole form a circular opening through which the stem of the plant penetrates. However, the notch constituting the opening through which the stem of the plant penetrates may be provided only in one plate like member. Further, the shape of the opening need not be circular as long as the stem of the plant 10 is not damaged. Furthermore, for example, if the diameter of a circular opening formed by a pair of semicircular notches is about 4 cm, in some cases, it is suitable for bunching about four stems. The gap between the circular opening and the stem may be covered with a flexible light shielding sheet that covers the entire of the partitioning portion 50 but has holes through which only a plurality of stems penetrates.
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The underground part 12 of the plant 10 is positioned on a wire net 9 so that the of the plant 10 comes into contact with the elastic member 5 of an arced shape. The aboveground part 11 of the plant 10 protrudes upward from the partitioning portion 50. As for
The cultivation tank 80 accommodates the underground part 12 of the plant 10. In the cultivation tank 80, the wire net 9 is provided. The underground part 12 of the plant 10 is placed on the wire net 9. The wire net 9 is fixed to the four pillar portions 72. Roots 13 extending from the underground part 12 of the plant 10 penetrate the meshes of the wire net 9 and are immersed in a nutrient solution 81 stored at the bottom of the cultivation tank 80 below the wire net 9. The plant 10 absorbs the nutrient solution 81 from the roots 13 and grows.
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Two screws 6 for temporary fixing are respectively inserted into the two through holes 51A4 of the door light shielding member 51A and the two through holes 4X of the door member 4 corresponding thereto. Further, the two screws 6 for temporary fixing are respectively inserted into the two through holes 4X of the door member 4 and the two through holes 71A of the frame portion 71 corresponding thereto. The through holes 71A of the frame portion 71 corresponding to the through holes 4X of the door member 4 do not have female screw portions. Therefore, since the two screws 6 for temporary fixing described above are not screw-fixed, they move together with the door member 4 depending on the opening and closing operation of the door member 4.
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According to the above-described configuration, even if air is allowed to flow naturally between the inner space of the cultivation tank 80 and the outer space of the cultivation tank 80 via the flow path 20 of air, the light shielding member 51 suppresses light from entering the inside of the cultivation tank 80 from the lateral position of the cultivation tank 80 via the flow path 20 of air. In addition, the breeder of the plant 10 can readily open the door member 4 together with the light shielding member 51, when viewing the space inside the cultivation tank 80.
In the present embodiment, the supporting portion 70 has a framework structure, and the gap between the cultivation tank 80 and the frame portion 71 constitutes the flow path 20 of air. However, the hydroponic cultivation apparatus 100 may not have the supporting portion 70 in a case where the flow path 20 of air is not required or in a case where a vending air opening is provided in the cultivation tank 80. In these cases, each of the plate like members 1, 2, and 3 may be fixed directly to the upper end of the cultivation tank 80.
The hydroponic cultivation apparatus 100 is provided with a fixing screw 61 for fixing the supporting portion 70, in particular, the frame portion 71 and each of the plate members 1, 2, and 3. The supporting portion 70 is fixed to the cultivation tank 80, and the plate like members 1, 2, and 3 are indirectly fixed to the cultivation tank 80 via the supporting portion 70. The plate like members 1, 2, and 3 may be fixed to the supporting portion 70 by means of nail, adhesive, cellophane tape, hook-and-loop fastener (Velcro tape (registered trademark)) or the like, instead of the screws 6. According to this, the positions of the plate like members 1, 2, and 3 with respect to the cultivation tank 80 can be fixed. Therefore, it is possible to suppress the stems of the plants 10 from damaging due to the movement of the partitioning portion 50.
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Hereinafter, the characteristic configurations of the hydroponic cultivation apparatus 100 according to the embodiment and the effects obtained thereby will be described.
(1) The hydroponic cultivation apparatus 100 is provided with the cultivation tank 80 that has a light shielding property and the partitioning portion 50 that has a light shielding property. The cultivation tank 80 is configured to accommodate the underground part 12 of the plant 10. The partitioning portion 50, which has a light shielding property, is provided so as to cover the opening at the upper end of the cultivation tank 80, and partitions the underground space 12A where the underground part 12 of the plant 10 grows and the aboveground space 11A where the aboveground part 11 of the plant 10 grows. The partitioning portion 50 includes the fixed member 123 and the door member 4. The position of the fixed member 123 with respect to the cultivation tank 80 is fixed, and the fixed member 123 has the through hole surrounding the stem of the plant 10, and maintains the closed state that suppresses light irradiation to the underground part 12 of the plant 10. The door member 4 is attached to the fixed member 123 in the state of being movable with respect to the fixed member 123, and changes to the closed state where it is suppressed that light is irradiated to the underground part 12 of the plant 10 and to the open state where it is possible to view the underground part 12 of the plant 10.
According to the above configuration, the breeder of the plant 10 can view the underground part 12 of the plant 10 in the space inside the cultivation tank 80 from above the cultivation tank 80 by opening the door member 4.
(2) The door member 4 may be a hinged door attached to the fixed member 123 via the hinge 60 and rotatable about the rotation axis of the hinge 60 with respect to the fixed member 123. In this case, it is preferable that the hydroponic cultivation apparatus 100 further comprises the light shielding member 7. The light shielding member 7 is provided so as to cover the gap between the door member 4 and the fixed member 123, and can be bended along the rotational axis of the hinge 60 when the door member 4 is opened.
According to the above configuration, it is possible that the light shielding member 7 suppresses light from entering the cultivation tank 80 from the gap between the door member 4 and the fixed member 123, without hindering the opening and closing operation of the door member 4.
(3) The door member 4 preferably constitutes the end portion of the partitioning portion 50. According to this, it is possible to readily open the door member 4 without providing a handle on the door member 4.
(4) The hydroponic cultivation apparatus 100 may further comprise the support portion 70 and the light shielding member 51. In this case, the supporting portion 70 is installed to the cultivation tank 80, and supports the partitioning portion 50 above the upper end portion of the cultivation tank 80 so that the flow path 20 of air is formed between the cultivation tank 80 and the partitioning portion 50. The light shielding member 51 surrounds the side surfaces of the cultivation tank 80 in a plan view and hangs down from the outer periphery of the partitioning portion 50 so that the flow path 20 of air extends downward along the side surfaces of the cultivation tank 80. The light shielding member 51 includes the fixed light shielding member 51B that is attached to the fixed member 123 and the door light shielding member 51A that is attached to the door member 4 and is separated from the fixed light shielding member 51B.
According to the above configuration, even if air is allowed to flow naturally between the inner space of the cultivation tank 80 and the outer space of the cultivation tank 80 via the flow path 20 of air, the light shielding member 51 can suppresses light from entering the cultivation tank 80 from a lateral position via the flow path 20 of air. In addition, when viewing the interior of the cultivation tank 80, it is possible to readily open the door member 4 together with the light shielding member 51.
(5) The fixed member 123 may include the adjacent plate like members 1, 2, and 3. In this case, the through hole is formed by a notch that is formed in the end surface of one of the adjacent plate like members 1, 2, and 3 or a pair of notches 1A, 2A, 2B and 3A that is formed on a pair of opposing surfaces of the adjacent plate like members 1, 2, and 3. According to this, it is possible to readily install the partitioning portion 50.
(6) It is preferable that the elastic member 5, which closes the gap between the stem of the plant 10 and the notch, and elastically deforms depending on the shape of the stem is attached to the inner surface of the notch 1A, 2A, 2B, or 3A. According to this, it is suppressed that light is irradiated to the underground part 12 of the plant 10 through the gap between the stem of the plant 10 and the notch.
(7) It is preferable to further comprise the light shielding member 7 that covers a gap between the adjacent plate like members 1, 2, and 3. According to this, it is suppressed that light is irradiated to the underground part 12 of the plant 10 through the gap between the stem of the plant 10 and the notch.
This application claims the priority based on Japanese Patent Application No. 2016-021862, which was filed on Feb. 8, 2016, and its entire content is herein incorporated by reference.
Number | Date | Country | Kind |
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2016-021862 | Feb 2016 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2016/005091 | 12/9/2016 | WO | 00 |