JP2004154084A - Method for cultivating plant, apparatus for cultivating plant and apparatus for displaying plant - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problems wherein a conventional apparatus for HYDROPONIC CULTURE is a large-scale installation and the building is troublesome. <P>SOLUTION: The apparatus for cultivating a plant has two or more pipe-shaped horizontal passages arranged in the horizontal direction, and two or more pipe-shaped vertical passages stood upward from the horizontal passages. The lower ends of the vertical passages are communicated with the horizontal passages so that a culture liquid flowing in the horizontal passages may flow in the vertical passages, and the vertical passages have opened upper ends so that plant-cultivating tools having pipes protruded from cultivation vessel bodies may be inserted. The culture liquid is fed to the horizontal passages. The horizontal passages are horizontally arranged at an interval in the vertical direction, and the horizontal passages at the upper and lower stages are communicated by communicating passages for feeding the culture liquid from the passage at the upper stage to the passage at the lower stage. The apparatus also has a pump for circulating the culture liquid from the horizontal passages at the lowest stage to the horizontal passages at the highest stage. In another aspect, the apparatus has oblong props, the two or more layers of the cultivation vessels installed in the props, lids detachable to the cultivation vessels, feed passages for feeding the cultivation liquid from the cultivation vessels at the upper stage to the cultivation vessels at the lower stage, a pump for circulating the cultivation liquid from the lowest stage to the highest stage and a timer for regulating the pump. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a plant cultivation method using a cultivation liquid instead of soil, a plant cultivation device, and a plant display device.
[0002]
[Prior art]
As one of plant cultivation methods, there is a hydroponic cultivation method using a cultivation liquid, and there is a hydroponic cultivation apparatus for performing hydroponics.
[0003]
[Problems to be solved by the invention]
The conventional hydroponic cultivation apparatus requires large-scale facilities, and laying is troublesome.
[0004]
[Means for Solving the Problems]
INDUSTRIAL APPLICABILITY The present invention provides a plant cultivation method capable of plant cultivation by a simple method, a plant cultivation device having a simple structure and easily laid, and a plant that can be displayed at a florist or an event site while cultivating the plant. A plant display device is provided.
[0005]
In the plant cultivation method of claim 1 of the present application, pipes are formed from a cultivation container body into two or more pipe-shaped vertical passages erected from each of two or more pipe-shaped horizontal passages arranged horizontally. A plant cultivation tool that is protruded and contains a water-absorbing material inside is inserted, and the cultivation liquid in the horizontal passage or the cultivation liquid in the vertical passage is absorbed by the water-absorbing material in the plant cultivation tool. This is a method of cultivating plants by supplying them to the plants in the ingredients.
[0006]
The plant cultivation method according to claim 2 of the present application is directed to two or more pipe-shaped vertical passages erected from each of two or more pipe-shaped horizontal passages that are arranged horizontally at intervals in the vertical direction. A plant cultivation tool having a pipe protruding from the cultivation container body and containing a water-absorbing material therein is inserted thereinto, the cultivation liquid flows from the upper horizontal passage to the lower horizontal passage, and the cultivation liquid from the lowermost horizontal passage is removed. Circulating to the upper horizontal passage, the cultivation liquid in the horizontal passage or the cultivation liquid in the vertical passage is absorbed by the water absorbing material in the plant cultivation tool, and the absorbed liquid is supplied to the plant in the plant cultivation tool to convert the plant. It is a method of cultivation.
[0007]
In the plant cultivation method according to claim 3 of the present application, a pipe is protruded from a cultivation container main body to a receiving hole of a cultivation container provided in two or more vertically spaced columns in a longitudinal direction, and a water absorbing material is provided inside. Insert the plant cultivation tool containing the, the cultivation liquid is supplied from the upper cultivation container to the lower cultivation container, the cultivation liquid of the lowermost cultivation container is circulated by the motor to the uppermost cultivation container, the driving time of the motor and In this method, the driving time length is controlled by a timer, the cultivation liquid in the cultivation container is absorbed by the water-absorbing material in the plant cultivation tool, and the absorbed liquid is supplied to the plant in the plant cultivation tool to grow the plant.
[0008]
The plant cultivation method according to claim 4 of the present application is the plant cultivation method according to any one of claims 1 to 3, wherein a lower end portion of the water-absorbing material put in the plant cultivation tool projects downward from the plant cultivation tool. A method of cultivating a plant by immersing its lower end in a cultivation liquid in a horizontal passage or a cultivation liquid in a vertical passage, absorbing the cultivation liquid with a water-absorbing material, and supplying the absorbed liquid to a plant in a plant cultivation tool. It is.
[0009]
The plant cultivation apparatus according to claim 5 of the present application includes two or more pipe-shaped lateral passages arranged in a horizontal direction and two or more pipe-shaped vertical passages erected upward from each of the horizontal passages. The lower end of the vertical passage is communicated with the horizontal passage so that the cultivation liquid flowing in the horizontal passage flows into the vertical passage, and the upper end of the vertical passage is inserted so that a plant cultivation tool having a pipe protruding from the cultivation container body can be inserted. The cultivation liquid was supplied to the open side and the lateral passage.
[0010]
The plant cultivation apparatus according to claim 6 of the present application has two or more horizontal passages that are horizontally arranged at intervals in the vertical direction of the frame, and is erected vertically or obliquely vertically from each of the horizontal passages. It has two or more vertical passages, and the upper horizontal passage and the lower horizontal passage are communicated by a communication passage that supplies the cultivation liquid of the upper horizontal passage to the lower horizontal passage, and the vertical passage is a pipe from the cultivation container main body. Is provided at the upper opening so that the projecting plant cultivation tool can be inserted therein, and has a pump for circulating the cultivation liquid from the lowermost horizontal passage to the uppermost horizontal passage.
[0011]
The plant cultivation apparatus according to claim 7 of the present application includes a vertically long column, a cultivation container provided with two or more stages at intervals in the vertically long column, a lid detachable from the cultivation container, and a lower tier from the upper cultivation container. A supply path for supplying the cultivation liquid to the cultivation container, a pump for circulating the cultivation liquid in the lowermost cultivation container to the uppermost cultivation container, and a timer for controlling a driving time and a driving time length of the pump. is there.
[0012]
The plant cultivation apparatus according to claim 8 of the present application has two or more horizontal passages that are horizontally arranged at intervals in the vertical direction of the frame, and is erected vertically or obliquely vertically from each of the horizontal passages. It has two or more vertical passages, and the upper horizontal passage and the lower horizontal passage are communicated with a communication passage that supplies the cultivation liquid of the upper horizontal passage to the lower horizontal passage, and the vertical passage is a pipe from the container body. A pump is formed in the upper opening so that the protruding plant cultivation tool can be inserted therein and circulates the cultivation liquid from the lowermost horizontal passage to the uppermost horizontal passage.
[0013]
The plant cultivation apparatus according to claim 9 of the present application has a vertically long column, a cultivation container provided with two or more stages at intervals between the vertically long columns, a lid detachable from the cultivation container, and a lower tier from the upper cultivation container. A supply path for supplying the cultivation liquid to the cultivation container, a motor for circulating the cultivation liquid in the lowermost cultivation container to the uppermost cultivation container, and a timer for controlling a driving time and a driving time length of the motor. is there.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
(Embodiment 1)
An example of an embodiment of a plant cultivation method and a plant cultivation apparatus of the present invention will be described with reference to FIGS. The cultivation apparatus of FIG. 1 includes two or more pipe-shaped horizontal passages 1 arranged horizontally, and two or more pipe-shaped vertical passages 2 erected upward from each of the horizontal passages 1. The lower end of the passage 2 is communicated with the horizontal passage 1 so that the cultivation liquid flowing through the horizontal passage 1 flows into the vertical passage 2, and the vertical passage 2 can insert a plant cultivation tool 5 having a pipe 4 protruding from the container body 3. The upper end is open.
[0015]
Each of the horizontal passages 1 in FIG. 1 is formed by connecting a number of straight pipes 6 with a connecting pipe 7, and the horizontal passages 1 are arranged in parallel in a horizontal direction. The upstream side of these lateral passages 1 is connected to a supply path (not shown), so that the cultivation liquid is supplied from the supply path constantly or as needed. The downstream side of the horizontal passage 1 is collected in a collection path, so that the cultivation liquid flowing through the horizontal passage 1 is collected in a tank, and the cultivation liquid in the tank is supplied to the supply path by a pump, and from there, It is designed to be circulated through each lateral passage 1.
[0016]
The connecting pipe 7 shown in FIG. 1 has a connecting portion 9 having a diameter larger than that of the central portion 8 at both ends, and an abutting portion 14 formed inside the connecting portion 9. The straight pipe 6 is inserted into the connecting portion 9, and is inserted until the tip of the straight pipe 6 abuts on the abutting portion 14 and is fixed with an adhesive. Many long lateral passages 1 are formed by repeating insertion of the straight pipe 6 into the connecting pipe 7 and bonding. As shown in FIG. 2, a vertical connecting portion 15 having a diameter larger than that of the central portion 8 is also formed at a central portion 8 of the connecting pipe 7, and a butting portion 16 is formed inside the vertical connecting portion. The straight pipe 6 is inserted into the connecting portion 9, and is inserted until the tip of the straight pipe 6 abuts on the abutting portion 14 and is fixed with an adhesive to form the vertical passage 2. The upper end of the vertical passage 2 opens to form an insertion port 12.
[0017]
One example of the plant cultivation method of the present invention cultivates a plant using the plant cultivation apparatus of FIG. Is the way. In this case, as shown in FIG. 1, the plant cultivation tool 5 is inserted into the insertion port 12 at the upper end of the vertical passage 2 as shown in FIG. The plant cultivation tool 5 includes a cultivation container body 3 having a shape of a flower pot or a pot and a pipe 4. The cultivation container main body 3 has a peripheral wall formed so as to expand outward toward the upper side, an upper surface is opened, a communication hole 13 is opened in the center of the bottom surface, and a pipe 4 projects from the communication hole 13 downward. The lower portion of the peripheral wall of the cultivation container body 3 has a diameter smaller than the diameter of the vertical passage 2 so as to be inserted into the vertical passage 2. It is larger than the diameter. Therefore, as shown in FIG. 2, the cultivation container body 3 is configured such that the step 10 is supported by the upper edge of the opening of the vertical passage 2.
[0018]
In the plant cultivation tool of FIG. 3, the cultivation container body 3 and the pipe 4 are integrally formed, but both are separately molded so that the pipe 4 is inserted into the communication hole 14 at the bottom of the cultivation container body 3. Is also good. In this case, the desired number of pipes 4 can be connected, and the length and thickness of each connected pipe 4 can be arbitrarily set. The materials of the container body 3 and the pipe 4 are not particularly limited, but if they are made of hard resin, they are easy to mold.
[0019]
In the plant cultivation method shown in FIG. 1, as shown in FIG. 3 (b), a water-absorbing material 11 such as rock wool or urethane is put into the pipe 4 from the container body 3, and the lower end of the water-absorbing material 11 is placed. The part is protruded below the lower end of the pipe 4, a plant is cultivated in the water absorbing material 11, and the plant cultivation tool 5 is inserted from the insertion port 12 of the vertical passage 2 as shown in FIG. The lower end of the water-absorbing material 11 is inserted into the horizontal passage 1 so that the cultivation liquid flowing in the horizontal passage 1 is absorbed from the lower end and supplied to the plants.
[0020]
In FIG. 4, the lower end of the water-absorbing material 11 is inserted to the horizontal passage 1, but the lower end is not inserted to the horizontal passage 1 but to the lower end in the vertical passage 2. The cultivation liquid can be absorbed from the lower end by increasing the height to the inside of the vertical passage 2.
[0021]
(Embodiment 2)
A second embodiment of the plant cultivation method and the plant cultivation apparatus according to the present invention will be described with reference to FIG. In the plant cultivation apparatus of FIG. 5, two front frames 21 whose upper ends are inclined rearward, and two rear frames 22 whose upper ends are inclined forward are combined so that the side surface shape becomes V-shaped. A vertically elongated frame 23 that can be set up vertically is formed, and two or more pipe-shaped horizontal passages 1 are arranged in front of the front frame 21 at an interval vertically and horizontally, and each of the horizontal passages 1 extends upward from each of the horizontal passages 1. Two or more vertical passages 2 are provided upright. The lower end of each vertical passage 2 is communicated with the horizontal passage 1 so that the cultivation liquid flowing through the horizontal passage 1 flows into the vertical passage 2. The upper end of the vertical passage 2 is opened as an insertion port 12 into which a plant cultivation tool can be inserted.
[0022]
In the plant cultivation apparatus of FIG. 5, the vertical passage 2 at the downstream end of the upper horizontal passage 1 and the vertical passage 2 at the upstream end of the lower horizontal passage 1 are communicated by a U-shaped communication passage 24, and the upper horizontal passage 1 is connected. The liquid flowing into the vertical passage 2 at the downstream end of the passage 1 automatically flows into the vertical passage 2 at the upstream end of the lower horizontal passage 1. By this repetition, the liquid automatically flows from the uppermost horizontal passage 1 to the lowermost horizontal passage 1. The liquid that has flowed to the lowermost horizontal passage 1 is stored in a container (not shown) from the terminal outlet of the horizontal passage 1, and is supplied from the container to the inlet of the uppermost horizontal passage 1 and circulated by a pump. . If the plant cultivation device of FIG. 5 is installed at a florist or an entrance of an event venue, the plant cultivation device can be used as a plant display device while cultivating a plant as described above.
[0023]
The second embodiment of the plant cultivation method of the present invention is a method of cultivating a plant using the plant cultivation apparatus of FIG. In this case, the plant cultivation tool 5 is inserted into the insertion port 12 at the upper end of each vertical passage 2 as shown in FIG. The plant cultivation tool 5 used here has the same shape and structure as the plant cultivation tool of FIG. 3, in which the water-absorbing material 11 is put, and plants are planted. The lower end of the water-absorbing material 11 of the plant cultivation tool 5 inserted into the insertion opening 12 of the vertical passage 2 is inserted into the cultivation liquid sent from the horizontal passage 1 to the vertical passage 2 to absorb the cultivation liquid, and the container body 3 The plant is cultivated by supplying it to the plant being cultivated.
[0024]
(Embodiment 3)
A third embodiment of the plant cultivation method and the plant cultivation apparatus of the present invention will be described with reference to FIGS. 6 and 7, a cross-shaped support leg 32 is formed at the lower end of a vertically long column 31 so that the column 31 can be erected. Two or more cultivation containers 33 are attached to the support column 31 with a vertical interval. A lid 34 is detachably fitted in the cultivation container 33. A liquid drop hole 35 is formed in the center of the lid 34, and a plurality of insertion ports 36 into which the plant cultivation tools 5 can be inserted are opened around the liquid drop hole 35.
[0025]
A supply pipe 37 is provided on the column 31 so that the cultivation liquid can be supplied from the upper end of the supply pipe 37 to the uppermost cultivation container 33. A discharge supply pipe 38 is drawn out from the upper cultivation container 33, and the liquid in the upper cultivation container 33 is led out by the discharge supply pipe 38 and supplied to the lower cultivation container 33. The number of the cultivation containers 33 can be a desired number, and can be any number as long as it is two or more. In this case, the number of discharge supply pipes 38 is set according to the number of cultivation containers.
[0026]
A small pump 39 is arranged in the lowermost cultivation container 33, and the liquid in the lowermost cultivation container 33 is sent out to the distribution pipe 37 by the pump 39. The driving time and the driving time length of the pump 39 are controlled by a timer. At a certain time set on the timer, the pump 39 automatically operates, and the liquid in the lowermost cultivation container 33 is sent to the distribution pipe 37. And supplied to the uppermost cultivation container 33. This supply continues for the length of time set on the timer, after which it is automatically stopped. When the liquid is supplied into the uppermost cultivation container 33 and the liquid level in the cultivation container 33 rises to the upper opening of the discharge supply pipe 38, the liquid in the cultivation container 33 is automatically supplied to the upper discharge supply pipe 38. It flows into and is supplied to the cultivation container 33 in the middle stage. When the liquid level in the middle cultivation container 33 rises to the upper opening of the discharge / supply pipe 38 by this liquid supply, the liquid in the cultivation container 33 automatically flows into the upper discharge / supply pipe 38 and the lowermost cultivation vessel 33. The liquid in the lowermost cultivation container 33 is sent out to the distribution pipe 37 by the pump 39, and is supplied from the distribution pipe 37 to the uppermost cultivation container 33 so that the cultivation liquid circulates.
[0027]
The third embodiment of the plant cultivation method of the present invention is a method of cultivating a plant using the plant cultivation apparatus of FIGS. In this case, a plant cultivation tool is inserted into the hole of the lid of the cultivation container. The plant cultivation tool 5 used here has the same shape and structure as the plant cultivation tool of FIG. 3, in which the water-absorbing material 11 is put, and plants are planted. The lower end of the water-absorbing material 11 of the plant cultivation tool 5 inserted into the insertion port 36 of the lid 34 is immersed in the cultivation liquid in the cultivation container 33 to absorb the cultivation liquid, and to the plant cultivated in the container body 3. Feed and grow plants. In this case, the plant cultivation tool 5 may be inserted into all of the plurality of insertion ports 36 opened in the lid 34, or may be inserted into some of the insertion ports 36.
[0028]
(Other embodiments)
Another embodiment of the plant cultivation method, the plant cultivation device, and the plant display device of the present invention will be described. In each of the above embodiments, the form of the plant cultivation device and the plant display device is not limited to each of the above forms, and is arbitrary, and according to the number of plants to be grown and the number thereof, vertical passages 2 of various shapes and sizes, A straight pipe 6 and a connecting pipe 7 can be used. Therefore, for example, to use a connecting pipe for changing the direction according to the installation situation, or to divide the plant cultivation device and the plant display device like a net, such as three or four or split into a plurality of arbitrary such as A water pipe can be used, and the vertical passage can be divided or bent depending on the type of plant to be cultivated, the cultivation status, the purpose for appreciation, display, etc. .
[0029]
In the embodiment, the lower end of the water-absorbing material 11 placed in the plant cultivation tool 5 is projected downward from the pipe 4, and the lower end is immersed in the cultivation liquid in the horizontal passage 1 or the cultivation liquid in the vertical passage 2. Although the plant was cultivated, the method of water absorption is not limited to this, a hole is made in the side of the pipe without projecting the lower end of the water absorbing material below the pipe, and the pipe with the hole is It is also possible to immerse the cultivation liquid in the horizontal passage or the cultivation liquid in the vertical passage and make the water-absorbing material in the pipe absorb the cultivation liquid to grow the plant.
[0030]
In the second embodiment, the plant cultivation apparatus is configured such that the vertical passage 2 at the downstream end of the upper horizontal passage 1 and the vertical passage 2 at the upstream end of the lower horizontal passage 1 are communicated by the U-shaped communication passage 24. The liquid flowing into the vertical passage 2 at the downstream end of the upper horizontal passage 1 automatically flows into the vertical passage 2 at the upstream end of the lower horizontal passage 1, but communicates with the upper and lower horizontal passages. The communication path is not limited to the communication path, and other methods such as a combination of two-way connecting pipes and straight pipes may be used.
[0031]
【The invention's effect】
The plant cultivation method of the present application has the following effects.
(1) The hydroponics of the plant can be performed simply by inserting the plant cultivation tool in which the plant is planted, and the hydroponics can be performed without requiring a large-scale device as in the conventional hydroponics. it can. In addition, plants can be displayed simultaneously with hydroponic cultivation. Further, by simply changing the plant cultivation tools, it is possible to cultivate a different plant or display while cultivating.
(2) Since the cultivation liquid flows from the upper horizontal passage to the lower horizontal passage, and the cultivation liquid from the lowermost horizontal passage is returned to the uppermost horizontal passage, the cultivation liquid can be smoothly circulated with a small pressure. .
(3) By simply inserting a plant cultivation tool in which a plant is planted into a cultivation container provided on a support, the plant can be hydroponically cultivated, and does not require a large-scale device as in conventional hydroponics. Hydroponics can be performed. In addition, plants can be displayed simultaneously with hydroponic cultivation. Further, by simply changing the plant cultivation tools, it is possible to cultivate a different plant or display while cultivating.
(4) Since the cultivation liquid flows from the upper cultivation container to the lower cultivation container and returns the cultivation liquid from the lowermost cultivation container to the uppermost cultivation container, the cultivation liquid can be smoothly circulated with a small pressure. .
(5) Since two or more cultivation containers are provided on one support, hydroponic cultivation of many plants is possible even in a small space.
(6) Since the lower end of the water-absorbing material put in the plant cultivation tool is projected downward, and the lower end is immersed in the cultivation liquid to grow the plant, reliable water absorption is ensured even if the water level of the cultivation liquid is low. Hydroponics can be performed with a small amount of cultivation liquid. Further, since the amount of the cultivation liquid is small, the cost of the cultivation liquid can be reduced.
[0032]
The plant cultivation device of the present application has the following effects.
(1) The hydroponics of the plant can be performed simply by inserting the plant cultivation tool in which the plant is planted, and the hydroponics can be performed without requiring a large-scale device as in the conventional hydroponics. it can. In addition, plants can be displayed simultaneously with hydroponic cultivation. Further, by simply changing the plant cultivation tools, it is possible to cultivate a different plant or display while cultivating.
(2) Since the entire apparatus is configured by combining pipe-shaped passages, the structure is simple, and assembly and disassembly are easy.
(3) Various variations of the plant cultivation apparatus can be realized only by changing the combination of the pipe-shaped passages. Therefore, a more suitable plant cultivation apparatus according to the plant to be cultivated can be easily formed.
(4) The cultivation liquid flows down naturally from top to bottom, and the pump is used only when frying the cultivation liquid from bottom to top. Therefore, even a small pump can smoothly circulate the cultivation liquid, Not only the pump and other peripheral devices can be reduced in size, but also the overall device can be reduced in size.
(5) Due to the three-dimensional configuration, hydroponic cultivation of a large number of plants is possible even with a small space. Further, by moving the vertical passage, the plant can be oriented in a desired direction suitable for care and the like.
(6) Since two or more cultivation containers are provided on one support, a large number of plants can be hydroponically cultivated even in a small space.
(7) Since the pump can be controlled by the timer, there is no useless circulation of the cultivation liquid, so that the cost of the cultivation liquid and the unnecessary operation of the pump can be reduced.
[0033]
The plant display device of the present application has the following effects.
(1) Plants can be displayed simultaneously with hydroponics. Further, the plant can be easily exchanged only by replacing the plant cultivation tool.
(2) Since the entire apparatus is configured by combining pipe-shaped members, the structure is simple, and assembly and disassembly are easy.
(3) Various variations of the plant cultivation apparatus can be realized only by changing the combination of the pipe-shaped passages. Therefore, a more suitable plant display device according to a plant to be cultivated, an exhibition space, and the like can be easily realized.
(4) Since the plant cultivation tool can be easily attached and detached, the plants on display can be easily replaced or moved.
(5) The cultivation liquid flows down naturally from top to bottom, and the pump is used only when frying the cultivation liquid from bottom to top. Therefore, even with a small pump, the cultivation liquid can be smoothly circulated, Not only the pump and other peripheral devices can be reduced in size, but also the overall device can be reduced in size.
(6) Due to the three-dimensional configuration, a large number of plants can be displayed even if the space is small. In addition, if the vertical passage is moved, it is possible to change the direction of the plant according to the situation of the exhibition, or to change the direction of the plant so that it can be easily cared for.
(7) Since the entire apparatus is configured by combining one support and a desired number of cultivation containers, the structure is simple, and assembly and disassembly are easy.
(8) Since the apparatus main body is formed around one support, a large number of plants can be displayed even in a small space.
(9) Since the pump can be controlled by the timer, there is no useless circulation of the cultivation liquid, so that the cost of the cultivation liquid can be reduced and the pump can be operated in an unnecessary manner.
[Brief description of the drawings]
FIG. 1 is a perspective view showing one embodiment of a plant cultivation apparatus of the present invention.
FIG. 2 is a perspective view showing a structure of a horizontal passage and a vertical passage of the plant cultivation apparatus shown in FIG.
FIGS. 3A and 3B are perspective views showing a plant cultivation tool for implementing the plant cultivation apparatus shown in FIG.
FIG. 4 is a sectional view showing one embodiment of the plant cultivation apparatus shown in FIG. 1;
FIG. 5 is a perspective view showing another embodiment of the plant cultivation apparatus of the present invention.
FIG. 6 is a perspective view showing another one of the embodiments of the plant cultivation apparatus of the present invention.
FIG. 7 is a perspective view showing the opposite side surface of the plant cultivation apparatus shown in FIG. 6;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Horizontal passage 2 Vertical passage 3 Container main body 4 Pipe 5 Plant cultivation tool 6 Straight pipe 7 Connecting pipe 8 Central part 9 Connecting part 11 Water absorbing material 12 Insertion port 23 Frame 24 Communication path 31 Support 33 Cultivation container 34 Cover 37 Supply pipe 38 Discharge supply pipe 39 Pump

Claims (9)

A plant in which pipes are protruded from the cultivation container body into two or more pipe-shaped vertical passages erected from each of two or more pipe-shaped horizontal passages arranged horizontally and a water-absorbing material is placed inside. The cultivation tool is inserted, the cultivation liquid in the horizontal passage or the cultivation liquid in the vertical passage is absorbed by the water absorbing material in the plant cultivation tool, and the absorbed liquid is supplied to the plant in the plant cultivation tool to grow the plant. A plant cultivation method comprising: Pipes are protruded from the cultivation container body into two or more pipe-shaped vertical passages that are erected from each of two or more pipe-shaped horizontal passages that are arranged horizontally at intervals in the vertical direction and are internally Into the lower horizontal passage from the upper horizontal passage, circulate the cultivation liquid from the lower horizontal passage to the uppermost horizontal passage, the plant cultivation tool A plant cultivation method characterized in that a cultivation liquid in a horizontal passage or a cultivation liquid in a vertical passage is absorbed by a water-absorbing material therein, and the absorbed liquid is supplied to a plant in a plant cultivation tool to grow the plant. A cultivation tool with a pipe protruding from the cultivation container body and containing a water-absorbing material inside is inserted into the receiving hole of the cultivation container provided with two or more tiers vertically spaced apart from each other in the vertical column, and the upper cultivation is performed. The cultivation liquid is supplied from the container to the lower cultivation container, the cultivation liquid in the lowermost cultivation container is circulated to the uppermost cultivation container by a motor, and the driving time and the driving time length of the motor are controlled by a timer, and the plant cultivation is performed. A plant cultivation method, wherein a cultivation liquid in a cultivation container is absorbed by a water-absorbing material in a tool, and the absorbed liquid is supplied to a plant in a plant cultivation tool to grow the plant. The method for cultivating a plant according to any one of claims 1 to 3, wherein a lower end portion of the water-absorbing material put in the plant cultivation tool is projected downward from the plant cultivation tool, and the lower end portion is cultivated in a lateral passage. Alternatively, a plant cultivation method characterized by immersing in a cultivation liquid in a vertical passage, absorbing the cultivation liquid with a water-absorbing material, and supplying the absorbed liquid to a plant in a plant cultivation tool to cultivate the plant. It comprises two or more pipe-shaped horizontal passages arranged in a horizontal direction, and two or more pipe-shaped vertical passages erected upward from the respective horizontal passages, and the lower end of the vertical passage flows through the horizontal passages The cultivation liquid is communicated with the horizontal passage so as to flow into the vertical passage, and the vertical passage is opened at an upper end so that a plant cultivation tool having a pipe protruding from the cultivation container body can be inserted, and the cultivation liquid is supplied to the horizontal passage. A plant cultivation apparatus characterized by the above-mentioned. Two or more horizontal passages that are arranged horizontally at intervals in the vertical direction of the frame, and two or more vertical passages that are vertically or diagonally set vertically from each horizontal passage, The horizontal passage and the lower horizontal passage are communicated with a communication passage that supplies the culture liquid in the upper horizontal passage to the lower horizontal passage, and the vertical passage allows a plant cultivation tool having a pipe protruding from the cultivation container body to be inserted. A plant cultivation apparatus comprising: a pump formed at an upper opening of the cultivator and circulating the cultivation liquid from the lowermost horizontal passage to the uppermost horizontal passage. A vertically long column, a cultivation container provided in two or more stages with an interval between the vertically long columns, a lid detachable from the cultivation container, and a supply path for supplying a cultivation liquid from the upper cultivation container to the lower cultivation container. A plant cultivation apparatus comprising: a pump that circulates the cultivation liquid in the lowermost cultivation container to the uppermost cultivation container; and a timer that controls a driving time and a driving time length of the pump. Two or more horizontal passages that are arranged horizontally at intervals in the vertical direction of the frame, and two or more vertical passages that are vertically or diagonally set vertically from each horizontal passage, The horizontal passage and the lower horizontal passage are communicated with a communication passage that supplies the culture liquid of the upper horizontal passage to the lower horizontal passage, and the vertical passage allows a plant cultivation tool with a pipe protruding from the container body to be inserted. A plant display device provided with a pump formed at an upper opening and circulating cultivation liquid from the lowermost horizontal passage to the uppermost horizontal passage. Vertical support, a cultivation container provided in two or more stages at intervals in the vertical support, a lid detachable to the cultivation container, a supply path for supplying cultivation liquid from the upper cultivation container to the lower cultivation container, A plant display device comprising: a motor that circulates the cultivation liquid in the lowermost cultivation container to the uppermost cultivation container; and a timer that controls a driving time and a driving time length of the motor.

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