JP2020039293A - Automatic irrigation-type three-dimensional planting apparatus - Google Patents

Abstract

To provide automatic irrigation-type three-dimensional planting apparatus contributing to the improvement of landscapes such as streets and open spaces and installable even in relatively small spaces.SOLUTION: A mount 1, a water storage tank 2, a cylindrical sliding part 3, a support frame 19 covering the periphery of the water storage tank 2, a planting panel 20 attached to the support frame 19, and a planting pot 21 attached to the planting panel 20 are provided.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an automatic irrigation type three-dimensional planting device that contributes to improvement of a landscape such as a street or a plaza and can be installed in a relatively small space.

  BACKGROUND ART Conventionally, flower beds have been installed on streets and the like in order to improve the scenery of city areas and the like. If such flower beds were installed in some places, such as on a street, a great deal of labor was required for watering the plants planted in these flower beds.

  Therefore, various watering devices have been developed to automatically water the plants planted in such flower beds. In particular, in consideration of a flower bed installed in a place where it is difficult to secure a power supply and a water source, an automatic watering device using a solar cell, a water storage tank, and a pump has been developed (for example, Patent Document 1 and Patent Document 2). ).

  Patent Literature 1 discloses a plurality of containers each having a water storage container having a capillary water supply device, a pedestal for arranging and supporting the containers three-dimensionally, a water tank provided at a lower portion of the pedestal, and an underwater provided in the water tank. A pump, a solar cell, a power supply circuit for storing output power of the solar cell and operating the submersible pump according to a predetermined program, and a water supply pipe for guiding pumping of the submersible pump to a water storage container in a container at the highest position. A water pipe for sequentially guiding the overflow water in the water container in the high position container to the water container in the low position container, and a drain pipe for returning the overflow water from the water container in the lowest position container to the water tank, Discloses a three-dimensional flowerbed provided with an automatic irrigation device comprising:

  Patent Document 2 discloses a panel-shaped frame, a solar cell provided on the top of the frame to receive sunlight, a battery for storing power generated by the solar cell, and a front surface of the frame. And a water storage tank provided at a lower part of the frame, a rain catcher provided at an upper part of the frame, and guiding rainwater to the water storage tank, and water stored in the water storage tank to the potted plant. A watering fence with a watering mechanism having a watering pump for watering, wherein water from the water storage tank is watered to the potted plant by the watering pump using electric power stored in the battery. A moving fence with a mechanism is disclosed.

  The technology disclosed in Patent Literature 1 and Patent Literature 2 can perform automatic irrigation using a solar cell, a water storage tank, and a pump even in a place where it is certainly difficult to secure a power supply and a water source. Both of them were so-called "wall surface greening" and planar, and lacked the aesthetic appeal and beauty.

JP 2001-245541 A

JP 2007-77706 A

  SUMMARY OF THE INVENTION An object of the present invention is to provide an automatic watering type three-dimensional planting device that contributes to improving the beauty of a street or a plaza and can be installed in a relatively small space. Further, the present invention provides an automatic watering type three-dimensional planting apparatus capable of uniformly growing plants planted in a plurality of planting pots, regardless of the positions where the planting pots are provided. The purpose is to do.

  According to a first aspect of the present invention, a gantry (1), a cylindrical water storage tank (2) with a bottom installed on the gantry (1), and an upper edge portion (38) of the water storage tank (2) are provided. And a cylindrical sliding part (3) slidably provided along the upper edge part (38) and an inner peripheral wall of the water storage tank (2) via a fixing member (4). A fixed lower outer cylinder (5), a rotatable cylinder (6) connected to the upper end of the lower outer cylinder (5) and rotatably provided, and an upper end of the rotatable cylinder (6) An upper outer cylinder (7) connected to the upper outer cylinder (7), a lid supporter (8) provided around the upper end of the upper outer cylinder (7), and a lid (9) provided on the lid supporter (8). And a battery (10), a controller (11) and an irrigation pump (12) provided in the gantry (1) and connected to each other, and a drain hole ( 3) a drain hose (14) for communicating the inside of the water storage tank (2) with the irrigation pump (12) through the lower outer cylinder (5), and a bottom part of the water storage tank (2); A water supply hose (16) connected to the irrigation pump (12) through a water supply hole (15) provided in the water supply hole (15); A water discharge pipe (18) extending to the outside of the cylindrical sliding portion (3) through a water discharge hole (17) provided in a peripheral wall, and is provided so as to cover the periphery of the water storage tank (2). A supporting frame (19), a planting panel (20) attached to the supporting frame (19), a plurality of planting pots (21) attached to the planting panel (20), and the water discharge pipe. (18) and pass through the position near the top of each planting pot (21). And a nozzle (23) provided at a portion of the water pipe (22) that passes through a position near and above each of the planting pots (21). It is characterized by.

  According to a second aspect of the present invention, a solar panel (25) provided above the lid (9) via an attachment member (24) provided on the lid (9), and the upper outer cylinder ( 7) an inner cylinder (26) provided so as to pass through the insides of the rotating cylinder (6) and the lower cylinder (5), and a lower end of the inner cylinder (26); 2) a wiring pipe (28) extending to the inside of the gantry (1) through a wiring hole (27) provided at the bottom of the inner cylinder (26) and the wiring pipe (28). The solar panel (25) is connected to the battery (10), the controller (11) and the irrigation pump (12) by a solar panel cable (29) through which the water is passed.

  According to a third aspect of the present invention, the water storage tank (2) extends from the inside of the water storage tank (2) to the inside of the gantry (1) through a sensor hole (30) provided at the bottom of the water storage tank (2), A water level sensor (31) connected to the battery (10), the controller (11) and the irrigation pump (12), and a warning cable (32) inserted through the inner cylinder (26) and the wiring pipe (28). And a warning lamp (33) connected to the battery (10), the controller (11), and the water level sensor (31).

  According to a fourth aspect of the present invention, the battery (10), the controller (11), and the irrigation pump (12) are connected to each other by a rain detection cable inserted through the inner cylinder (26) and the wiring pipe (28). A rain sensor for connection is provided.

  A fifth aspect of the present invention is characterized in that a switching cock (36) provided between the drain hose (14) and the irrigation pump (12) is provided.

  According to a sixth aspect of the present invention, the pedestal (1) is provided through a leg (34) provided at a lower portion of the pedestal (1) and a sprinkler hole provided at a bottom of the pedestal (1). A sprinkler provided below the bottom, and a branch cock provided between the water supply hose (16) and the irrigation pump (12), and one end of the branch cock is provided with the water supply hose. (16), the other end of the branch cock is connected to the sprinkler, and the trunk end of the branch cock is connected to the irrigation pump (12).

  According to a seventh aspect of the present invention, the outer periphery of the planting panel (20) is arranged in the horizontal direction so that the water pipe (22) passes through a position near and above each of the topmost planting pots (21). Makes one round, bends vertically downward at the end point of the above-mentioned one round, extends to a height near the top of each of the lowermost planting pots (21), and extends from the second stage after the top. Each of the planting panels (20) branches from the vertically bent portion so as to make a substantially horizontal turn around the outer periphery of the planting panel (20) so as to pass through a position near and above each planting pot (21). It is characterized by being provided.

  An eighth aspect of the present invention includes a program timer (39) connected to the battery (10), the controller (11), and the water pump (12), and the program timer (39) is connected to the water pump (12). ) Is performed.

A ninth aspect of the present invention includes a humidity sensor for detecting humidity in a culture medium of a plant planted in the planting pot (21), and the controller (11) detects the humidity by the humidity sensor. The control is performed based on the humidity in the culture medium.

A tenth aspect of the present invention is characterized in that a fan for blowing air to the outside of the automatic watering type three-dimensional planting device is provided.

An eleventh aspect of the present invention includes: a water level measuring means for measuring a water level in the water storage tank (2); and a transmitting means for transmitting water level information measured by the water level measuring means. I do.

  According to the first aspect of the present invention, since a plurality of planting pots are provided so as to cover the periphery of the cylindrical water storage tank, it is possible to plant the water storage tank in a circular and three-dimensional manner while hiding the water storage tank. When this is installed on a street or a plaza, it can be installed in a relatively narrow space while improving the landscape. In addition, since the irrigation pump and the battery are provided, automatic irrigation can be performed, and labor for watering can be omitted. Further, by rotating the cylindrical sliding portion and the rotating cylinder, the support frame attached to the cylindrical sliding portion is made rotatable around the water storage tank, and as a result, the planting frame attached to the support frame is rotated. The planting panel and the planting pot attached to the planting panel can also rotate 360 degrees around the water storage tank, so that the plants planted in the planting pot can be evenly distributed without being affected by the direction of the sun depending on the direction. It can be grown.

  According to the second aspect of the present invention, since the solar panel is provided, power can be generated by sunlight even in a place where it is difficult to secure a power source, and the irrigation pump can be operated. Thereby, even if the automatic watering type three-dimensional planting apparatus of the present invention is installed at an arbitrary place, automatic watering becomes possible. In addition, since the inner cylinder and the wiring pipe are provided in the cylindrical sliding portion and the water storage tank, the solar panel cable can be inserted into the wiring pipe to connect the battery in the gantry to the solar panel. In combination with the above-described rotating operation of the cylindrical sliding portion and the rotating cylinder, when the solar panel is installed, and even when wiring such as other cables is required, the automatic irrigation type three-dimensional structure of the present invention is used. It becomes possible to rotate the planting device 360 degrees.

  According to the third aspect of the present invention, by providing the water level sensor and the warning lamp, when the water level in the water storage tank falls below a predetermined water level, the warning lamp is turned on, so that the water level in the water storage tank is reduced. The fact that the amount of water is low can be notified without looking inside the water storage tank. In addition, when the water level in the water storage tank further decreases or the water in the water storage tank becomes empty, the operation of the irrigation pump can be stopped.

  According to the fourth aspect of the present invention, since the rain sensor is provided, the operation of the irrigation pump can be stopped during rainfall, and it is possible to prevent unnecessary or excessive irrigation. .

  According to the fifth aspect of the present invention, since the switching cock is provided between the drainage hose and the irrigation pump, the water in the water storage tank can be used for irrigation as usual, and the cock can be used in an emergency such as a fire. By switching the water, the water in the water storage tank is drained, and the drained water can be used for fire extinguishing or the like.

  According to the sixth aspect of the present invention, since the sprinkler is provided on the lower side of the gantry, water can be sprinkled from the lower side of the gantry, and the same effect as so-called watering can be obtained.

  According to the seventh aspect of the present invention, since the water conduit is provided to have a predetermined arrangement and shape, the laterally arranged portion of the water conduit, that is, the outer periphery of the planting panel is placed in the horizontal direction. The outer periphery of the planting panel so that the water supplied to the portion that makes substantially one round passes through the vertically arranged portion of the water pipe, that is, the position near the top of each planting pot at the top. Can be prevented from flowing back vertically to the lower part of the planting pot at the end point where it has made about one round in the horizontal direction and extending to a height near the top of each lowermost planting pot. Thereby, even when a plurality of planting pots are provided in the vertical direction and plants are planted in each planting pot, for example, a plant planted in the top planting pot and a plant planted in the bottom planting pot are planted. It is possible to supply water relatively evenly to the planted plants, and as a result, the plants planted in the planting pots at any stage in the vertical direction can grow relatively evenly. it can.

  According to the eighth aspect of the present invention, since the irrigation pump is controlled based on the program timer, the irrigation pump is operated at an appropriate date and time, number of times, and time according to the season, the type of flower, and the like. Can be.

  According to the ninth aspect of the present invention, since the controller is controlled based on the humidity of the culture medium in the planting pot, fine management of the plants planted in the planting pot becomes possible. .

  According to the tenth aspect of the present invention, since the fan for blowing air is provided outside the automatic watering type three-dimensional planting device of the present invention, for example, in the summertime, the automatic watering type three-dimensional planting device of the present invention is provided. For example, when a person passes by the vicinity, air can be blown to the person and a cool feeling can be given.

  According to the eleventh aspect of the present invention, since there is provided a means for measuring the water level in the water storage tank and a transmission means for transmitting the measured water level information, the water level information of the water storage tank can be transmitted on the Internet. It becomes possible, for example, a server that receives water level information via the Internet can remotely grasp the water level of each water storage tank, and it is necessary to supply water to the water storage tank of any automatic watering type three-dimensional planting device Can be intensively and remotely grasped, and the work of supplying water to the water storage tank can be performed efficiently.

It is a partial perspective front view of the automatic watering type three-dimensional planting apparatus of this invention. It is a partially transparent front view by another depiction method of the automatic irrigation type three-dimensional planting apparatus of this invention. It is a partially transparent front view of the water storage tank and the gantry of the present invention. FIG. 2 is a partially transparent front view of a gantry, a water storage tank, a tubular sliding portion, and the like of the present invention. (A) It is a top view of the support frame of this invention. (B) It is a front view of the support frame of this invention. It is a front view of a water pipe, a planting pot, a nozzle, etc. of the present invention. It is a top view of a water pipe, a planting pot, a nozzle, etc. of the present invention. It is a figure showing arrangement and shape of a water guide pipe of the present invention. It is a circuit diagram of the automatic irrigation type three-dimensional planting device of the present invention. It is a figure showing the state where the plant of the automatic watering type three-dimensional planting device of the present invention was planted.

Hereinafter, embodiments for implementing the present invention will be described with reference to the drawings.
As shown in FIGS. 1, 4 and 7, the automatic irrigation type three-dimensional planting device of the present invention is provided with a gantry 1, a water storage tank 2 installed on the gantry 1, and an upper part of the water storage tank 2. It comprises a support frame 19 provided to cover the periphery of the cylindrical sliding portion 3 and the water storage tank 2, a planting panel 20 attached to the support frame 19, and a planting pot 21 attached to the planting panel 20.
FIG. 10 is a diagram showing a state where plants are planted in the automatic watering type three-dimensional planting device of the present invention.

  The gantry 1 of the present invention has a certain strength because the water storage tank 2 and the like are installed on the upper part thereof, but the material and shape are not particularly limited. The gantry 1 is mainly composed of, for example, a steel top plate and a bottom plate that are mainly galvanized, and four columns, and can be further provided with four stainless steel or resin side plates made of plastic or the like. Providing the side plates is preferable because various devices inside the gantry 1 can be prevented from being stolen or mischievous. Although the shape of the gantry 1 is shown in FIG. 1 as a prismatic shape, it is not particularly limited to this shape, and a columnar shape or another shape may be adopted as appropriate.

  The gantry 1 is hollow, and as shown in FIGS. 1, 2 and 4, a battery 10, a controller 11, an irrigation pump 12, and the like are accommodated therein. If the battery 10, the controller 11, the irrigation pump 12, and the like are installed inside the gantry 1, these can be hidden and the aesthetic appearance can be improved, and if the side plates are provided as described above, these devices can be used. Can be prevented from being stolen. Furthermore, it is more desirable that a thread saw, a water intake joint, a hose, and the like be housed inside the gantry 1. At the time of disaster, the automatic watering type three-dimensional planting device of the present invention is installed near the rain gutter, a part of the rain gutter is cut off with a thread saw, a water intake joint is attached to the cut part, and one end of the hose is connected to the water joint. And the other end of the hose is introduced into the water storage tank 2 from a water supply port 35 of the cylindrical sliding portion 3 described later, so that the automatic watering type three-dimensional planting device of the present invention can effectively utilize rainwater. It can also be used as a tank.

  The water storage tank 2 is installed on the gantry 1. The water storage tank 2 is a bottomed cylindrical shape. It may have a columnar shape, but preferably has a shape in which the diameters of the upper and lower portions are gradually reduced (tapered) as shown in FIG. Although the material of the water storage tank 2 is not particularly limited, it is preferable to use, for example, high molecular weight high density polyethylene as a main material. Also, the size of the water storage tank 2 is not particularly limited, but, for example, a maximum capacity of 200 liters is desirable because it can be advantageously used for rainwater utilization during a disaster as described above.

  The upper part of the water storage tank 2 is open in a circular shape in plan view. In the vicinity of the upper portion of the water storage tank 2, a flange portion 37 extending in the horizontal direction and an upper edge portion 38 rising upward above the flange portion 37 are provided.

  As shown in FIG. 4, the cylindrical sliding portion 3 is placed on the upper edge 38 of the water storage tank 2. A concave portion is formed at the lower edge of the cylindrical sliding portion 3 so as to fit with the upper edge portion 38 of the water storage tank 2. The cylindrical sliding portion 3 is guided by the upper edge portion 38 of the water storage tank 2. It is provided slidably along the upper edge 38. A water discharge hole 17 through which a water discharge pipe 18 described later is passed is provided on the peripheral wall of the cylindrical sliding portion 3. Further, it is desirable to provide a water supply port 35 for supplying water into the water storage tank 2 at an arbitrary position on the peripheral wall of the cylindrical sliding portion 3. When the amount of water in the water storage tank 2 becomes low, water is supplied from the water supply port 35 using an external hose. An arbitrary connecting member is attached near the lower end of the outer peripheral wall of the cylindrical sliding portion 3 and is connected to a support frame 19 described later. Thus, when the support frame 19 is manually rotated, the cylindrical sliding portion 3 is also rotated. It is also possible to connect the cylindrical sliding part 3 and the support frame 19 at a plurality of locations using a plurality of connection members.

  As shown in FIGS. 3 and 4, a fixing member 4 is provided on an inner peripheral wall near an upper portion of the water storage tank 2. A lower outer cylinder 5 is fixed by the fixing member 4 at the center in the length direction of the fixing member 4 and at a central position near the upper part of the water storage tank 2. In the basic configuration, the lower end of the lower outer cylinder 5 is closed.

  A rotating cylinder 6 is connected to the upper end of the lower outer cylinder 5. The rotating cylinder 6 is provided between the lower outer cylinder 5 and an upper outer cylinder 7 described later, and is provided rotatably. The lower outer cylinder 5 and the upper outer cylinder 7 do not rotate. As shown in FIG. 4, a water discharge pipe 18 branched from the rotating cylinder 6 is provided. The water discharge pipe 18 is branched from the rotary cylinder 6 and extends to the outside of the cylindrical slide part 3 through a water discharge hole 17 provided on the peripheral wall of the cylindrical slide part 3. Connect to the start of 22.

  An upper outer cylinder 7 is connected to the upper end of the rotating cylinder 6. The lower outer cylinder 5, the rotating cylinder 6, and the upper outer cylinder 7 are connected to form one communicating cylindrical portion.

  A lid support 8 is provided around the upper end of the upper outer cylinder 7. A lid 9 is provided on the lid support 8. Since a slight gap is provided between the lid 9 and the upper end of the cylindrical sliding portion 3, the cylindrical sliding portion 3 slides along the upper edge 38 of the water storage tank 2, that is, rotates. However, the lid 9 does not rotate with it. Therefore, in a preferred embodiment of the present invention, even when the solar panel 25 is used via the mounting member 24 provided on the lid 9, the solar panel 25 does not rotate. It is possible to keep. It is desirable that a hole larger than at least the outer diameter of the inner cylinder 26 described later is formed at the center of the lid 9. In addition, an advertisement board, a guide board, and the like can be installed on the upper part of the lid 9.

  As shown in FIG. 4, a drain hose 14 that connects the inside of the water storage tank 2 and the irrigation pump 12 is provided. The drain hose 14 is connected to the irrigation pump 12 in the gantry 1 from near the bottom inside the water storage tank 2 through a drain hole 13 provided in the bottom of the water storage tank 2. Thereby, the water in the water storage tank 2 is supplied to the irrigation pump 12.

  As shown in FIG. 4, a water supply hose 16 that is connected to the lower outer cylinder 5 and the irrigation pump 12 and communicates the two is provided. The water supply hose 16 is connected to the lower outer cylinder 5, and from the inside of the water storage tank 2 to the irrigation pump 12 in the gantry 1 through a water supply hole 15 provided at the bottom of the water storage tank 2. As a result, as described above, the water in the water storage tank 2 supplied from the drainage hose 14 to the irrigation pump 12 passes through the water supply hose 16 when the irrigation pump 12 is operated, and passes through the lower outer cylinder 5 and the rotating cylinder 6. , And the water is supplied to the water guide pipe 22 via the water discharge pipe 18 in this order. In addition, a strainer (not shown) can be provided at a portion of the water supply hose 16 located in the gantry 1. Thereby, fine solid components contained in the water to be fed can be removed, and clogging of the nozzle 23 can be prevented.

  FIG. 5A is a plan view of an example of the support frame 19, and FIG. 5B is a front view of an example of the support frame 19. The support frame 19 is provided with linear annular frames at the upper and lower portions of the support frame 19 so as to cover the periphery of the water storage tank 2, and a plurality of annular frames are provided between the upper annular frame 40 and the lower annular frame 41. Two linear vertical frames 42 are provided. In FIG. 5, in addition to the upper annular frame 40 and the lower annular frame 41 for reinforcement, two annular annular frames 43 are provided at intermediate positions between them. Inside the upper annular frame 40, an inner frame 45 supported by a plurality of short radial frames 44 is provided. The support frame 19 is supported by the water storage tank 2 by placing the inner frame 45 on the flange 37 near the upper end of the water storage tank 2. Since the support frame 19 is placed only on the flange portion 37 of the water storage tank 2 and is not fixed, the support frame 19 can rotate together with the rotation of the cylindrical sliding portion 3 and the rotary cylinder 6, and therefore, can be rotated. The planting panel 20 attached to the support frame 19 and also the planting pot 21 can be rotated together. Thereby, the plants planted in the planting pot 21 can be grown evenly without being affected by the quality of the sun depending on the direction. Further, as shown in FIG. 5B, it is desirable to provide a plurality of anti-shake members 46 in the vertical frame. Thereby, blurring of the planting panel 20 attached to the support frame 19 can be easily prevented.

  The above-described support frame 19 is a linear frame, and is merely an example. Alternatively, the support frame 19 may be formed of a plate-like frame. Specifically, for example, plate-shaped annular frames are provided at the upper and lower portions, respectively, and the upper plate-shaped frame is mounted on the flange portion 37 of the water storage tank 2 as in the above-described example. The lower plate-shaped frame is provided at a lowermost position of the planting panel 20. A plurality of vertical plate frames having the same length as the height dimension of the planting panel 20 are attached to the upper plate frame and the lower plate frame. By using the plate-shaped frame in this way, the strength and stability of the support frame 19 can be increased as compared with the case where the support frame 19 is formed of a linear frame as described above. In the above-described example, the upper end of the support frame 19 is up to the position of the flange portion 37 of the water storage tank 2. However, in the present plate-shaped frame, the upper end of the vertical plate-shaped frame is the upper end of the planting panel 20. Since it is at the height of the position, it is possible to more stably support up to the upper part of the planting panel 20.

  The planting panel 20 has a structure in which a plurality of planting pots 21 can be attached in the vertical and horizontal directions as shown in FIGS. The planting panel 20 is not particularly limited, and a commercially available planting panel can be used. The planting panel 20 is attached to the support frame 19. The attachment of the planting panel 20 to the support frame 19 can be performed by, for example, a band member made of resin or the like. If the planting panel 20 is formed in an annular shape so as to cover the periphery of the water storage tank 2 in advance, the planting panel 20 can be simply suspended from the support frame 19 and attached.

  A plurality of plant pots 21 are attached to the plant panel 20. The planting pot 21 is preferably provided with the maximum number of planting pots 21 that can be attached to the planting panel 20 so that the water storage tank 2 is not visible. The medium may be directly put into the planting pot 21 for planting, or the plant planted in the pot may be placed in the planting pot 21 together with the pot.

  The water guide pipe 22 is provided such that its starting point is connected to the outer end of the water discharge pipe 18 and passes through a position near and above each planting pot 21. Specifically, for example, as shown in FIG. 8, the water guide pipe 22 extends around the outer circumference of the planting panel 20 in the horizontal direction substantially one round so as to pass through a position near and above each of the uppermost planting pots 21. Then, it bends vertically downward at the end point of the substantially one round, extends to a height position near the upper part of each of the lowermost planting pots 21, and each of the second and subsequent planting pots from the top Each of the plant panels 20 is provided so as to branch from the downwardly bent portion so as to make a substantially horizontal turn around the outer periphery of the planting panel 20 so as to pass through a position near the upper part of the planting panel 21. Since the water guide pipe 22 is provided to have such an arrangement and shape, water is supplied to a portion of the water guide pipe that is arranged in the lateral direction, that is, a part that makes a substantially horizontal rotation around the outer periphery of the planting panel. The end point where the outer periphery of the planting panel makes one round in the horizontal direction so that the water passed through the vertically arranged portion of the water pipe, that is, the position near the top of each of the planting pots at the top. To bend vertically downward, and to prevent backflow to a portion extended to a height position near the top of each of the lowermost planting pots. Thereby, even when a plurality of planting pots 21 are provided in the vertical direction and plants are planted in each planting pot 21, for example, the plant planted in the uppermost planting pot 21 and the planting plant in the lowermost stage are planted. It is possible to supply water relatively evenly to the plants planted in the pot 21. As a result, the plants planted in the planting pots 21 in any of the vertical directions are relatively even. Can be grown.

  As shown in FIGS. 6 and 7, a nozzle 23 is provided at a portion of the water guide pipe 22 that passes near above the planting pots 21 so as to irrigate the planting pots 21. When the irrigation pump 12 is operated and water is supplied into the water pipe 22, the nozzle 23 drops water from the discharge port of the nozzle 23. 1, 2 and 8, the illustration of the nozzle 23 is omitted.

  A battery 10, a controller 11, and an irrigation pump 12, which are connected to each other, are installed inside the gantry 1. The irrigation pump 12 is operated by the electric power supplied from the battery 10, under the control of the controller 11, or in a preferred embodiment by a program timer (39), and automatically irrigates the water in the water storage tank 2. Although the automatic watering type three-dimensional planting device of the present invention includes the battery 10, the automatic watering type three-dimensional planting device of the present invention can also be formed by using external power. When the automatic watering type three-dimensional planting device of the present invention is used indoors, an external power source can be used. Further, a USB output port or the like may be provided in the automatic watering type three-dimensional planting device of the present invention, and a mobile phone or the like may be charged in an emergency using the power of the battery 10.

  In a preferred embodiment of the present invention, as shown in FIG. 4, a solar panel 25 is installed above the lid 9 via a mounting member 24 provided on the lid 9. The solar panel 25 receives sunlight and generates power. Any thing can be used for the solar panel 25, and a commercial item can also be used. By disposing the solar panel 25 above the lid 9, it is not necessary to separately secure a space for installing the solar panel 25. In addition, since the upper portion of the water storage tank 2 is located at a relatively high position, the possibility that light reception of sunlight is blocked is low, which is desirable from the viewpoint of good light reception and power generation. Further, as described above, since the lid 9 does not rotate, the solar panel 25 does not rotate, so that the solar panel 25 can always be kept facing south. More preferably, a protective cover can be attached to the solar panel 25, and advertisements and guidance can be displayed on the protective cover.

  In a preferred embodiment of the present invention, as shown in FIG. 4, an inner cylinder 26 is provided so as to pass through the insides of the upper outer cylinder 7, the rotating cylinder 6, and the lower outer cylinder 5. The upper end of the inner cylinder 26 is provided at a position higher than the lid 9. As described above, the upper outer cylinder 7, the rotating cylinder 6, and the lower outer cylinder 5 are sequentially connected to form one cylindrical portion, and the inner cylinder 26 is provided in this one cylindrical portion. ing.

  In a preferred embodiment of the present invention, as shown in FIG. 4, a wiring pipe 28 connected to the lower end of the inner cylinder 26 and extended to the inside of the gantry 1 through a wiring hole 27 provided in the bottom of the water storage tank 2 is provided. Have. As described above, in the basic aspect of the present invention, the lower end of the lower outer cylinder 5 is closed, but when the inner cylinder 26 is provided in a preferred aspect, the inner cylinder 26 communicates with the wiring tube 28. The lower end of the lower outer cylinder 5 around the inner cylinder 26 is closed.

  The inner tube 26 and the wiring tube 28 connected thereto are connected to the solar panel 25 and the battery 10 and the controller 11 by passing various cables such as a solar panel cable 29 through the tubular sliding portion 3 and the water storage tank 2. , An irrigation pump 12 and the like. As described above, by passing various cables through the tubular sliding portion 3 and the water storage tank 2 using the inner tube 26 and the wiring tube 28, the tubular sliding portion 3, and thus the support frame 19, the planting panel, and the like. 20 can be rotated 360 degrees. If various cables are wired outside the cylindrical sliding portion 3 or the water storage tank 2, these cables interfere with each other and it is impossible or extremely difficult to rotate the planting panel 20 or the like 360 degrees. . As described above, the upper outer cylinder 7, the rotating cylinder 6, and the lower outer cylinder 5 are connected to form one cylindrical portion, and the inner cylinder 26 is provided in this cylindrical portion. It can be said that the upper outer cylinder 7, the rotating cylinder 6, and the lower outer cylinder 5 form a single outer cylinder, and the inner cylinder 26 is present therein to form a double-structured cylindrical portion. As described above, various cables are inserted into the inner cylinder 26, and water is supplied to a cylindrical portion formed by the upper outer cylinder 7, the rotating cylinder 6, and the lower outer cylinder 5 existing around the inner cylinder 26. Water sent from the hose 16 flows.

  As described above, in a preferred embodiment of the present invention, the solar panel 25 is connected to the battery 10, the controller 11, and the irrigation pump 12. The battery 10 stores the electric power generated by the solar panel 25 and operates the irrigation pump 12 and the controller 11 using the electric power. The battery 10 is installed inside the gantry 1.

  The controller 11 controls the operation of the irrigation pump 12 using the electric power of the battery 10. The controller 11 is installed inside the gantry 1. Preferably, the controller 11 connects with a program timer. In this case, the controller 11 discharges and charges the electric power stored in the battery 10 to activate the program timer, and the program timer controls the irrigation pump 12. Specifically, for example, the program timer can set the date and time at which the irrigation pump 12 is activated, the number of times the irrigation pump 12 is activated per day, the operation time of the irrigation pump 12, and the like. The irrigation pump 12 is controlled based on the setting. In another preferred embodiment, the control of the irrigation pump 12 may be performed based on four timers connected to the controller 11. In this case, the four timers are set according to the climate and precipitation in spring, summer, autumn and winter, respectively, and the spring timer is based on the spring timer in the spring, and the summer timer is based on the summer timer in the summer. The irrigation pump 12 may be controlled based on an autumn timer in winter and on a winter timer in winter.

  In a preferred embodiment of the present invention, as shown in FIG. 4, the battery 10, the controller 11 and the irrigation water are extended from the inside of the water storage tank 2 to the inside of the gantry 1 through a sensor hole 30 provided in the bottom of the water storage tank 2. A water level sensor 31 connected to the pump 12 is provided. In a preferred embodiment, the water level sensor 31 is a float sensor having two floats in the vertical direction. When the water level in the water storage tank 2 decreases and the water level falls below the upper float position, the water level sensor 31 lowers the floating upper float to the upper stopper position and sends a warning signal, and further reduces the water. When the water in the water storage tank 2 becomes empty, the floating lower float is lowered to the lower stopper position and a signal for stopping the operation of the irrigation pump is transmitted. When receiving the irrigation pump operation stop signal, the controller 11 controls the operation stop of the irrigation pump 12.

  In a preferred embodiment of the present invention, a warning lamp 33 connected to the battery 10, the controller 11 and the water level sensor 31 is provided by a warning cable 32 inserted through the inner cylinder 26 and the wiring tube 28. The warning lamp 33 can be provided at any position in or around the automatic watering type three-dimensional planting device of the present invention, but is preferably attached to the solar panel 25 as shown in FIGS. 2 and 4. The warning lamp 33 is composed of, for example, an LED lamp. The warning lamp 33 is turned on under the control of the controller 11 having received the warning signal from the water level sensor 31, and visually notifies that the water level in the water storage tank 2 will soon be at a required level for water supply. FIG. 9 is an example of a circuit diagram of an embodiment using a solar panel 25, a water level sensor 31, a warning lamp 33, and a program timer (39).

  In a preferred embodiment of the present invention, a rain sensor (not shown) is connected to the battery 10, the controller 11, and the irrigation pump 12 by a rain detection cable inserted through the inner cylinder 26 and the wiring pipe 28. The rain sensor (liquid sensor) is mounted on the lid 9, for example. When the rain sensor detects rainwater, it sends a signal to stop the operation of the irrigation pump. The controller 11 having received the signal controls the operation stop of the irrigation pump 12. This can prevent waste or excessive irrigation during rainfall.

  In a preferred embodiment of the present invention, a switching cock 36 is provided between the drain hose 14 and the irrigation pump 12, as shown in FIG. The switching cock 36 can switch the water flowing from the drainage hose 14 to the irrigation pump 12 to the irrigation mode, the water stop mode, and the drainage mode in which the water is sent to the irrigation pump 12 as usual. By setting the switching cock 36 to the drain mode, it is possible to drain the water in the water storage tank 2 in an emergency such as a fire, and use the drained water for fire extinguishing.

  In a preferred embodiment of the present invention, a leg 34 is provided at a lower portion of the gantry 1. Further, a sprinkler (not shown) is provided below the bottom of the gantry 1 through a sprinkler hole provided in the bottom of the gantry 1. By providing the legs 34 at the lower part of the gantry 1, a gap is provided between the lower part of the gantry 1 and the ground, and a sprinkler can be installed under the gantry 1.

  In a preferred embodiment of the present invention, a branch cock (not shown) is provided between the water supply hose 16 and the irrigation pump 12. One end of the branch cock is connected to the water supply hose 16, the other end of the branch cock is connected to the sprinkler, and the trunk end of the branch cock is connected to the irrigation pump 12. With this configuration, when the watering pump 12 operates, watering is performed by the water supply hose 16 connected to one end of the branch cock, and watering is performed by a sprinkler connected to the other end of the branch cock. Sprinkler sprinkling has the effect of "sprinkling water". More preferably, the sprinkler is connected to the solenoid valve, and the solenoid valve is energized, that is, the valve is opened when the irrigation pump 12 is operated, and the valve is closed when not energized. There is no. In winter, sprinklers do not need watering, so the cock on the other end of the branch cock is closed.

  The automatic watering type three-dimensional planting device of the present invention can be provided with a humidity sensor (not shown), which is desirable. It is desirable that the humidity in the culture medium placed in the planting pot 21 be directly or indirectly detected by the humidity sensor, and the controller 11 be controlled based on the detected humidity. Thereby, it is possible to perform more detailed automatic irrigation management, and it is possible to improve the growth of the planted plant.

  In a preferred embodiment, the automatic watering type three-dimensional planting device of the present invention includes a fan (not shown) that blows air outside the automatic watering type three-dimensional planting device. The installation place of the fan is not particularly limited. For example, the fan may be attached to a part of the planting panel 21 or may be installed in the tubular sliding part 3 and blow the air to the peripheral wall of the tubular sliding part 3. A hole may be provided. Thus, in summer, a cool feeling can be given to a person near the automatic watering type three-dimensional planting device of the present invention by sending a cold.

  The preferred embodiment of the present invention includes a water level measuring unit (not shown) for measuring the water level in the water storage tank 2 and a transmitting unit (not shown) for transmitting the water level information measured by the water level measuring unit. The water level measurement unit is a device that measures the water level in the water storage tank 2, and the transmission unit is a device that can transmit information about the water level measured by the water level measurement unit to the Internet. Thereby, it becomes possible to transmit the water level information of the water storage tank 2 on the Internet. For example, a server that has received the water level information via the Internet can remotely grasp the water level of each water storage tank 2, It is possible to intensively and remotely grasp which water tank 2 of the automatic irrigation type three-dimensional planting apparatus needs water supply, and it is possible to efficiently perform water supply work to the water storage tank 2.

The operation of the automatic watering type three-dimensional planting device according to a preferred embodiment of the present invention will be described.
The electric power generated by the solar panel 25 is stored in the battery 10 through a solar panel cable 29 inserted through the inner tube 26 and the wiring tube 28. The controller 11 operates using the electric power stored in the battery 10, and operates the irrigation pump 12 according to the setting of the program timer 39. The irrigation pump 12 sends the water in the water storage tank 2 supplied from the drainage hose 14 to the water supply hose 16. The water supplied to the water supply hose 16 passes through the lower outer cylinder 5 and the rotating cylinder 6 (around the inner cylinder 26), passes through the water discharge pipe 18, and is supplied to the water guide pipe 22. The water supplied to the water pipe 22 is sent according to the shape of the water pipe 22, and the plants planted in each planting pot 21 are irrigated by a nozzle 23 provided above each planting pot 21.

DESCRIPTION OF SYMBOLS 1 Stand 2 Water storage tank 3 Cylindrical sliding part 4 Fixing member 5 Lower outer cylinder 6 Rotating cylinder 7 Upper outer cylinder 8 Lid support part 9 Lid 10 Battery 11 Controller 12 Irrigation pump 13 Drain hole 14 Drain hose 15 Water supply hole 16 Water supply hose 17 Water discharge hole 18 Water discharge pipe 19 Support frame 20 Planting panel 21 Planting pot 22 Water pipe 23 Nozzle 24 Mounting member 25 Solar panel 26 Inner cylinder 27 Wiring hole 28 Wiring pipe 29 Solar panel cable 30 Sensor hole 31 Water level sensor 32 Warning cable 33 Warning lamp 34 Leg 35 Water inlet 36 Switching cock 37 Flange 38 Upper edge 39 Program timer 40 Upper annular frame 41 Lower annular frame 42 Vertical frame 43 Reinforcement annular frame 44 Radial frame 45 Inner frame 46 Anti-shake Element

Claims (11)

An automatic watering type three-dimensional planting device,
Mount (1),
A water storage tank (2) having a cylindrical shape with a bottom installed on the top of the gantry (1);
A cylindrical sliding portion (3) mounted on an upper edge portion (38) of the water storage tank (2) and slidably provided along the upper edge portion (38);
A lower outer cylinder (5) fixed to an inner peripheral wall of the water storage tank (2) via a fixing member (4);
A rotating cylinder (6) connected to the upper end of the lower outer cylinder (5) and rotatably provided;
An upper outer cylinder (7) connected to the upper end of the rotating cylinder (6),
A lid support portion (8) provided around the upper end of the upper outer cylinder (7);
A lid (9) provided on the lid support (8),
A battery (10), a controller (11) and an irrigation pump (12) provided in the gantry (1) and connected to each other;
A drain hose (14) for communicating between the inside of the water storage tank (2) and the irrigation pump (12) through a drain hole (13) provided at the bottom of the water storage tank (2);
A water supply hose (16) connected to the lower outer cylinder (5) and connected to the irrigation pump (12) through a water supply hole (15) provided at the bottom of the water storage tank (2);
It branches off from the rotating cylinder (6) and extends to the outside of the cylindrical sliding part (3) through a water discharge hole (17) provided on the peripheral wall of the cylindrical sliding part (3). Drain pipe (18),
A support frame (19) provided to cover the periphery of the water storage tank (2);
A planting panel (20) attached to the support frame (19);
A plurality of planting pots (21) attached to the planting panel (20);
A water pipe (22) connected to an outer end of the water discharge pipe (18) and provided so as to pass through a position near and above each of the planting pots (21);
A nozzle (23) provided at a portion of the water pipe (22) that passes through a position near and above each of the planting pots (21);
An automatic watering type three-dimensional planting device comprising: A solar panel (25) provided above the lid (9) via a mounting member (24) provided on the lid (9);
An inner cylinder (26) provided so as to pass through the insides of the upper outer cylinder (7), the rotating cylinder (6) and the lower cylinder (5);
A wiring pipe (28) connected to the lower end of the inner cylinder (26) and extending to the inside of the gantry (1) through a wiring hole (27) provided in the bottom of the water storage tank (2); With
The solar panel (25) is connected to the battery (10), the controller (11) and the irrigation pump (20) by a solar panel cable (29) inserted through the inner cylinder (26) and the wiring pipe (28). 12) Connect with
The automatic watering type three-dimensional planting device according to claim 1. The battery (10) and the controller (11) extend from the inside of the water storage tank (2) to the inside of the gantry (1) through a sensor hole (30) provided at the bottom of the water storage tank (2). ) And a water level sensor (31) connected to the irrigation pump (12);
A warning lamp (33) connected to the battery (10), the controller (11) and the water level sensor (31) by a warning cable (32) inserted through the inner cylinder (26) and the wiring pipe (28). When,
The automatic watering type three-dimensional planting device according to claim 1 or 2, comprising: A rain sensor connected to the battery (10), the controller (11) and the irrigation pump (12) by a rain detection cable inserted through the inner cylinder (26) and the wiring pipe (28);
The automatic watering type three-dimensional planting device according to any one of claims 1 to 3, comprising: A switching cock (36) provided between the drain hose (14) and the irrigation pump (12),
The automatic watering type three-dimensional planting device according to any one of claims 1 to 4, further comprising: Legs (34) provided at the lower part of the gantry (1),
A sprinkler provided below the bottom of the gantry (1) via a sprinkler hole provided in the bottom of the gantry (1);
A branch cock provided between the water supply hose (16) and the irrigation pump (12),
One end of the branch cock is connected to the water supply hose (16),
The other end of the branch cock is connected to the sprinkler,
A trunk end of the branch cock is connected to the irrigation pump (12);
The automatic watering type three-dimensional planting device according to any one of claims 1 to 5. The water pipe (22) includes:
Make a substantially horizontal turn around the outer periphery of the planting panel (20) so as to pass through a position near the upper part of each planting pot (21) at the top,
It bends vertically downward at the end point of the above-mentioned one round, and is extended to a height position near the upper part of each planting pot (21) at the lowest stage,
The lower part of the planting panel (20) is bent vertically so as to make substantially one round in the horizontal direction so as to pass through the position near the upper part of each of the planting pots (21) in the second and subsequent stages from the top. Are provided, each branching off from the
An automatic irrigation three-dimensional planting device according to any one of claims 1 to 6. A program timer (39) connected to the battery (10), the controller (11) and the irrigation pump (12);
The program timer (39) controls the irrigation pump (12);
An automatic watering type three-dimensional planting device according to any one of claims 1 to 7. A humidity sensor for detecting humidity in a culture medium of a plant planted in the planting pot (21);
The controller (11) performs control based on humidity in the culture medium detected by the humidity sensor.
The automatic watering type three-dimensional planting device according to any one of claims 1 to 8. With a fan that blows outside the automatic watering type three-dimensional planting device,
An automatic watering type three-dimensional planting device according to any one of claims 1 to 9. A water level measuring means for measuring a water level in the water storage tank (2);
Transmission means for transmitting water level information measured by the water level measurement means,
The automatic watering type three-dimensional planting device according to any one of claims 1 to 10.