JP3842397B2 - Outer frame structure of plant cultivation equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention mainly relates to an outer frame structure of a plant cultivation apparatus used as a part of greening countermeasures.
[0002]
[Prior art]
As a conventional plant cultivation apparatus, there is one disclosed in JP-A-9-51728. This plant cultivation apparatus has a plurality of planter containers 1 as main components, and these planter containers 1 are connected to each other.
[0003]
As shown in FIG. 16, the planter container 1 is configured to be square (or rectangular) in a plan view and open on the upper side.
At the bottom of the planter container 1, an engaging portion 2 is formed integrally, which has a cross shape that intersects vertically and horizontally at the center of the planter container 1, and is formed by a groove having an inverted U-shaped cross section. A conduction port 3 that communicates with the outside of the bottom of the planter container 1 is provided at the intersection of the engaging portions 2.
On the inner wall of the planter container 1, a stepped portion 4 is integrally formed at the same height as the engaging portion 2.
On two adjacent sides of the opening edge of the planter container 1, a connecting portion 5 bent in a hook shape is integrally formed.
[0004]
Then, as shown in FIG. 17, on the bottom side in the planter container 1, the granular material is spread on the water retaining portion 7 below the upper end surface 2 a of the engaging portion 2 and the upper end surface 4 a of the step portion 4, and the engaging portion 2, a liquid-permeable nonwoven fabric layer 9 is hung through the upper end surface 2 a of the step portion 4 and the upper end surface 4 a of the stepped portion 4, and soil 9 or the like is spread on the nonwoven fabric layer 8 to plant a desired plant.
Subsequently, each engaging portion 2 of the planter container 1 in which the plant is implanted is placed on the floor surface for water supply, liquid supply (liquid fertilizer or disease prevention chemical solution dissolved in water), drainage, ventilation, etc. It engages with the pipe 6 arranged substantially horizontally, and the conduction port 3 on the planter container 1 side communicates with the conduction port 6a provided in the pipe 6 as appropriate, and is arranged on the floor surface.
Further, the plurality of planter containers 1 are connected to each other by hanging over the opening edge of the other planter container 1 (the edge where the connecting part 5 is not provided) with the connecting part 5 of each planter container 1.
[0005]
Then, water and liquid are supplied to the pipe 6 and supplied from the conduction port 6 a of the pipe 6 to the water retention unit 7 in the planter container 1 through the conduction port 3 of the planter container 1. In addition, excess water due to rain or the like is drained from the conduction port 3 of the planter container 1 to the pipe 6 through the conduction port 6 a of the pipe 6. Furthermore, air is forcibly supplied from the conduction port 6a of the pipe 6 through the conduction port 3 of the planter container 1 to the water retention part 7 in the planter container 1 to prevent plant root rot and the like.
[0006]
[Problems to be solved by the invention]
However, the conventional plant cultivation apparatus described above has the following problems.
[0007]
In the conventional plant cultivation device, since the outer peripheral portion of the outermost planter container 1 connected is exposed, this type of plant cultivation device was used for greening on a veranda or a rooftop, or for greening in short-term events, etc. In such a case, there is a problem that the appearance of the outer peripheral portion is very poor and the design is lacking. Moreover, there is a possibility that the outer planter container 1 may move due to a strong wind or the like, and the appearance is poor.
[0008]
When a large number of planter containers 1 are connected, the outermost planter container 1 can be reached, but the inner planter container 1 surrounded by the outer planter container 1 cannot be reached. There is a problem that weeds are not removed or the plants are not properly maintained for the container 1.
[0009]
Accordingly, the present invention provides a plant cultivation apparatus and an outer frame structure thereof that are easy to perform construction work, have excellent design properties, and can appropriately perform maintenance of plants in order to solve the above problems. It is an object.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, the outer frame structure of the plant cultivation apparatus according to the present invention includes a plurality of planter containers that form a container having an open upper surface so as to constitute a predetermined area of the floor surface, and an outer peripheral portion of the predetermined area is formed. An outer wall is provided so as to surround an outer peripheral portion of the planter container to be formed and to cover an upper part of the opening edge of the planter container, and the outer frame body is an upper wall piece portion covering the upper part of the opening edge of the planter container And the side wall piece part which coat | covers the side part of a planter container, and the base material part mounted in a floor surface are formed integrally.
[0011]
Further, the outer frame body is connected by connecting a plurality of outer frame bodies, and a fitting member is fitted into a fitting groove formed in a connecting end portion of each outer frame body. It is characterized by that.
[0012]
Further, in the outer frame structure of the plant cultivation apparatus according to the present invention , the outer frame body includes a side frame corresponding to the side portion of the planter container, an exit angle frame corresponding to the exit corner of the planter container, And a corner frame corresponding to the corner portion generated by the arrangement of the planter container, and the outer frame bodies constituting the side frame, the corner corner frame, and the corner corner frame are appropriately connected and surrounded. ing.
[0013]
Furthermore, it is preferable that the outer frame body is configured to surround the outer peripheral portion of the planter container disposed on the floor surface and the upper part of the opening edge.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be specifically described below with reference to the drawings.
1 is a plan view showing a planter container in a plant cultivation apparatus according to the present invention, FIG. 2 is a cross-sectional view taken along line AA in FIG. 1, and FIG. 3 is a cross-sectional view taken along line BB in FIG.
[0015]
Note that, in the embodiments described below, the same reference numerals are given to the same or equivalent parts as those of the conventional technology described above.
[0016]
The plant cultivation apparatus in this embodiment has a planter container 1 shown in FIGS. 1 to 3 as a main configuration, and these planter containers 1 are connected to each other.
[0017]
The planter container 1 has a square shape (or a rectangular shape) in plan view and is formed with an upper side open. At the bottom of the planter container 1, an engaging part 2 is formed integrally with a groove having an inverted U-shaped cross-section that intersects the center of the planter container 1 vertically and horizontally. A funnel-shaped conduction port 3 that hangs downward is provided at the intersecting portion of the engaging portion 2 (may be a predetermined location other than the intersecting portion) so as to communicate with the outside of the bottom of the planter container 1.
In addition, as for the conduction port 3, since the cross | intersection part of the engaging part 2 (or the predetermined part of the engaging part 2 in which the conduction port 3 was provided) is formed in the small diameter, the upper end surface 2a of the engaging part 2 is formed. It is opened at a position slightly lower than.
[0018]
A stepped portion 12 is integrally formed at a substantially middle stage of the inner wall of the planter container 1. The stepped portion 12 has an upper end surface 12a having the same height as the upper end surface 2a of the engaging portion 2 and is provided along the inner wall of the planter container 1 at a predetermined interval. Alternatively, they are arranged in a comb shape.
In addition, the stepped part 12 is arranged at each inner corner portion forming a part of the inner wall of the planter container 1 as an uneven arrangement with a predetermined interval along the inner wall of the planter container 1, for example. It may be configured as follows.
[0019]
As described above, the planter container 1 is configured such that the upper region 2a of the engaging portion 2 and the upper surface 12a of the stepped portion 12 are used as a reference, the lower region is the water retaining portion 7, and the upper region is the planting portion 13. ing.
[0020]
Further, on two adjacent sides of the opening edge of the planter container 1, a projecting piece 14 projecting horizontally outward is integrally formed continuously through a corner portion formed by the two adjacent sides. Has been. The overhanging pieces 14 are formed so that each end portion 14 a is just before a corner portion that is a boundary with the other adjacent sides that do not form the overhanging pieces 14 at the opening edge of the planter container 1. Further, in the overhanging piece 14, a portion corresponding to a corner portion formed by two adjacent one sides forms an arcuate edge portion 16.
[0021]
A locking piece 17 that is bent downward by the thickness of the protruding piece 14 is formed on the protruding end edge of the protruding piece 14. The locking piece 17 is divided so as to correspond to two adjacent sides of the opening edge of the planter container 1, and each end 17 a is positioned in front of the edging portion 16. The other end 17 b is bent along the end 14 a of the projecting piece 14 on the opening edge side of the planter container 1.
[0022]
At the corner that is the boundary between one adjacent two sides of the opening edge and the other adjacent each other, it is formed by projecting horizontally outward with a step corresponding to the plate thickness of the projecting piece 14 In addition, a chamfered portion 15 is formed which is continuous from the protruding end edge of the end portion 14a of the protruding piece 14 through the step and is chamfered by 45 degrees with respect to the protruding piece.
[0023]
The other two adjacent sides of the opening edge of the planter container 1 are formed continuously down from the chamfered portion 15 by the plate thickness of the overhanging piece 14, and the overhang in the other same planter container 1 is formed. A latching piece 18 is formed so as to protrude horizontally so that the latching piece 17 of the piece 14 can be hooked.
At the corner formed by the other two adjacent sides forming the latching piece 18, a step projecting horizontally outward at a position lower than the latching piece 18 by a step corresponding to the plate thickness of the latching piece 18. A portion 18a is formed. An arcuate edge portion 19 is formed on the step portion 18a.
[0024]
The planter container 1 is formed by vacuum forming, pressure forming, injection molding, or press molding, and is made of plastic, ceramic, metal, or the like, and is preferably an injection molded product made of plastic.
[0025]
Further, in the planter container 1 having the above-described configuration, the partition material 11 is hung on the upper end surface 2a of the engaging portion 2 and the upper end surface 12a of the stepped portion 12 in order to form a plant cultivation apparatus.
[0026]
The partition member 11 is formed in a size that can be installed on each stepped portion 12 of the planter container 1 described above, and as shown in FIGS. 4 and 5, a hard plate material having a large number of through holes, or The main component is a rigid plate 20 made of a net-like plate. The rigid plate member 20 is formed of plastics, metal, porous ceramics, or the like. In this embodiment, the rigid plate member 20 has a three-dimensional network structure made of plastic or metal wire.
[0027]
The rigid plate member 20 is covered with a water absorbent cloth material 21 made of a water absorbent nonwoven fabric (nonwoven mat) or the like. On the bottom surface side of the rigid plate member 20 in the water absorbent cloth material 21, a water supply body 22 is provided in which a part of the water absorbent cloth material 21 hangs down. The water supply body 22 may be configured separately from the water absorbent cloth material 21.
[0028]
The partition member 11 has sufficient rigidity due to the rigid plate member 20, and further has water permeability and air permeability due to the configuration of the rigid plate member 20 (through holes, network structure, etc.) and the material of the water absorbent cloth material 21. ing.
[0029]
Further, in the planter container 1 having the above-described configuration, the engaging portion 2 is appropriately engaged with the pipe 6 in order to form a plant cultivation apparatus.
The pipe 6 is disposed in the planter container 1 substantially horizontally on the floor surface for water supply, liquid supply (solution obtained by dissolving liquid fertilizer or disease prevention chemical solution in water), drainage, ventilation, and the like.
The pipe 6 has a diameter capable of engaging with the engaging portion 2 of the planter container 1, and has a conduction port 6 a through which the conduction port 3 of the planter container 1 is inserted and communicated. Furthermore, the pipe 6 is configured to be disassembled and assembled so that it can be appropriately constructed.
[0030]
Hereinafter, the plant cultivation apparatus using the said planter container 1 etc. is demonstrated.
As shown in FIG. 6, the partition material 11 is mounted with respect to the upper end surface 12a of the stepped part 12 in the planter container 1, and the upper end surface 2a of the engaging part 2, and the water retention part 7 and the planting part 13 are made. The partition material 11 is divided. The water supply body 22 of the partition member 11 is suspended from the water retention part 7 side.
Next, soil 9 and the like are spread on the planting part 13 to plant a required plant.
Next, according to the number of planter containers 1 and the arrangement shape of the planter containers 1, the pipes 6 are assembled and arranged on the floor surface. At this time, the pipe 6 may be arranged so as to pass at least the lower side of the conduction port 3 provided in the planter container 1.
Next, the plurality of planter containers 1 in which plants are planted as described above are arranged on the floor surface with the conduction port 3 of the planter container 1 communicating with the conduction port 6 a provided in the pipe 6.
[0031]
Moreover, when arrange | positioning the several planter container 1 on a floor surface, each planter container 1 is connected as follows. In this embodiment, as shown in FIG. 7, an example in which four planter containers 1A, 1B, 1C, and 1D are connected as a minimum unit will be described.
[0032]
As shown in FIG. 7 and FIG. 8, the projecting piece 14 of the planter container 1B and the projecting piece 14 of the planter container 1C are hung from the upper side of the retaining piece 18 of the planter container 1A arranged on the floor, respectively. The planter container 1B and the planter container 1C are connected to the planter container 1A by the locking piece 17.
At this time, the chamfered portion 15 of the planter container 1B and the chamfered portion 15 of the planter container 1C are fitted to the upper surface of the stepped portion 18a of the planter container 1A by the steps corresponding to the plate thickness of the overhanging piece 14, respectively. Is done. Further, the chamfered portion 15 of the planter container 1B and the chamfered portion 15 of the planter container 1C abut each other, and the upper surfaces of the respective latching pieces 18 connected from the respective chamfered portions 15 are continuously flush with each other. .
[0033]
Further, the overhanging piece 14 of the planter container 1D is hung from above the continuous hanging piece 18 of the planter container 1B and the hanging piece 18 of the planter container 1A, and the planter container 1B and the planter container 1C with the locking piece 17 are hung. The planter container 1D is coupled to
At this time, the edge portion 16 of the planter container 1D is hung on the upper surface of the chamfered portion 15 of the continuous planter container 1B and the chamfered portion 15 of the planter container 1C.
[0034]
In the plant cultivation apparatus arranged on the floor in this way, the water supplied from the upper part (open) is stored in the water retention part 7 of the planter container 1, and capillarity occurs through the water supply body 22 of the partition member 11. Then, water is supplied to the planting part 13 (the soil 9 inside).
[0035]
Moisture that has entered the planter container 1 due to rain or the like is stored in the water retention unit 7 via the soil 9 and the partitioning material 11, and excess water passes from the conduction port 3 of the planter container 1 through the conduction port 6 a. Drained into the pipe 6.
[0036]
The conduction port 3 of the planter container 1 is stored in the water retaining portion 7 because the intersection portion of the engaging portion 2 is formed in a small diameter and is opened at a position lower than the upper end surface 2 a of the engaging portion 2. The upper limit of the moisture content is lower than the upper end surface 2a of the engaging portion 2.
Therefore, a gap 23 is formed between the bottom surface of the partition member 11 placed on the upper end surface 2a of the engaging portion 2 and the upper limit of moisture.
Thus, since air is supplied to the gap 23 from the conduction port 6 a of the pipe 6 through the conduction port 3, oxygen sufficient for the plant planted in the soil 9 and the soil 9 through the partitioning material 11. Is supplied.
[0037]
The connection between the conduction port 3 of the planter container 1 and the conduction port 6a of the pipe 6 is liquid-tightly fitted to the conduction port 2a of the pipe 2 through an appropriate annular packing material (not shown). preferable.
[0038]
Further, when a plurality of planter containers 1 are connected, as shown in FIG. 7, the step portions 18a of the planter containers 1A that are the intersections of all the planter containers 1A, 1B, 1C, 1D become the planter containers 1B, 1C. Since the chamfered portion 15 of the planter container 1B and 1C is further covered with the chamfered portion 16 of the planter container 1D, no unintentional opening occurs at the intersection. .
Further, the stepped portion 18 a is formed to be lower than the chamfered portion 15 (hanging piece 18) by a step corresponding to the plate thickness of the hooked piece 18, and the chamfered portion 15 is further extended from the protruding piece 14. 14 is formed with a level difference corresponding to the plate thickness of 14, so that when the plurality of planter containers 1 are connected, the upper surface of each projecting piece 14 is flush.
[0039]
Therefore, in the plant cultivation apparatus configured as described above, the water retention part 7 in the planter container 1 has a sufficient capacity for the water retention part 7 by providing the stepped part 12 arranged in an uneven shape in plan view. In addition, the partition member 11 can be sufficiently supported. Furthermore, since the partition member 11 includes the rigid plate material 20 covered with the water-absorbent cloth material 21, the soil 9 spread on the planting portion 13 can be sufficiently supported.
Thereby, a granular material becomes unnecessary in the water retention part 7, and it can omit the spreading | laying operation | work of the granular material at the time of construction of a plant cultivation apparatus, and can improve construction workability | operativity.
[0040]
Furthermore, after planting the plant, the water retention part 7 of the planter container 1 when placed on the floor surface corresponding to the piping is in a state of being filled with nothing and the weight is reduced accordingly. Therefore, the operation | work at the time of arrange | positioning each planter container 1 according to the piping 6 becomes easy.
[0041]
Moreover, in the engaging part 2 of the planter container 1, the intersection part where the conduction port 3 is arranged is formed in a small diameter, and the opening of the conduction port 3 is formed from the upper end surface 2a of the engagement part 2 on which the partition material 11 is hung. Since the upper limit of the moisture (water supply, liquid supply) stored in the water retention unit 7 is lower than the upper end surface 2a of the engaging unit 2, the water (water supply, liquid supply) Since a gap 23 is generated between the upper limit and the bottom surface of the partitioning material 11 applied to the upper end surface 2 a of the engaging portion 2, air is supplied to the gap 23 from the conduction port 6 a of the pipe 6 through the conduction port 3. And sufficient oxygen can be supplied to the plant planted in the soil 9 and the soil 9 through the partition material 11.
[0042]
In the conventional technique, in the connection of a plurality of planter containers 1, the connecting portions 5 on the two sides adjacent to the opening edge of the planter container 1 are hung on the opening edge of another planter container 1, As shown in FIG. 18, in the connection by the connection portion 5, an inadvertent opening hole 10 is formed at the intersection of the four planter containers 1, and drainage due to rainfall or the like leaks from the opening hole 10 to the floor surface. And drainage into the pipe 6 is not reliably performed. Furthermore, after connection, the protrusion by the connection part 5 is seen everywhere, and it looks very bad.
[0043]
So, in the plant cultivation apparatus in this embodiment, at the opening edge of the planter container 1, the overhanging pieces 14 are continuously provided on one adjacent two sides, and the other two adjacent sides are overhanging pieces 14. In addition, a hooking piece 18 is provided which is formed with a level difference corresponding to the plate thickness of the overhanging piece 14 and on which the overhanging piece 14 is hooked. Further, by forming the stepped portion 18a that is lowered by a step corresponding to the plate thickness of the latching piece 18, for example, when four planter containers 1 having the same shape are connected as shown in FIG. 7, all planter containers 1A are connected. The stepped portion 18a of the planter container 1A that is the intersection of 1B, 1C, and 1D is covered with the chamfered portion 15 of the planter containers 1B and 1C, and the chamfered portion 15 of the planter containers 1B and 1C is covered with another planter container 1 border 16, so that there is no inadvertent opening at the intersection point, and water accompanying rain or the like is appropriately taken into each planter container 1 to ensure that excess water is drained into the pipe 6. can do.
[0044]
Further, the stepped portion 18 a is formed to be lower than the chamfered portion 15 (hanging piece 18) by a step corresponding to the plate thickness of the hooked piece 18, and the chamfered portion 15 is further extended from the protruding piece 14. Since the upper surface of each overhanging piece 14 is flush with each other when the plurality of planter containers 1 are connected, the appearance is good and the design is improved. Can be made.
[0045]
Further, the planter containers 1 to be connected are all of the same shape, and no separate member is used for the connection, so that the manufacturing cost can be reduced and the connection work is easily performed. be able to.
[0046]
In addition, an arcuate edge portion 16 is formed at a portion corresponding to a corner portion formed by two adjacent sides forming the projecting piece 14, and further formed by two adjacent sides forming the retaining piece 18. Since the arcuate edge 19 is formed in the corner (step 18a), the safety of the work without causing injury to the limbs when handling the planter container 1 when constructing the plant cultivation device. Obtainable.
[0047]
Hereinafter, the outer frame structure of the plant cultivation apparatus described above will be described.
9 and 10 are perspective views showing the outer frame structure of the plant cultivation apparatus according to the present invention, and FIGS. 11 and 12 are perspective views showing other connection structures of the outer frame structure.
[0048]
In the outer frame structure, as described above, the outer frame body 30 is arranged on the outer peripheral portion of the plant cultivation apparatus arranged on the floor surface in an appropriate shape with the plurality of planter containers 1.
[0049]
As shown in FIGS. 9 and 10, the outer frame 30 surrounds the outer periphery of the connected planter container 1, as shown in FIGS. 9 and 10, and the side frame 31 corresponding to each side part of the planter container 1 and the output of the planter container 1. An exit corner frame 32 corresponding to the corner portion and an entrance corner frame 33 corresponding to the corner portion generated by the arrangement of the planter container 1 are provided.
[0050]
The side frame 31 corresponds to substantially the same length as one side forming the opening edge of the planter container 1, and covers the side wall piece 31 a that covers the side part of the planter container 1 and the opening edge of the planter container 1. The upper wall piece 31b is integrally formed. On the outer surfaces of the side wall pieces 31a and the upper wall pieces 31b, for example, a three-dimensional pattern resembling a piece of wood is applied.
[0051]
A base material 31c is integrally provided inside the lower end of the side wall piece 31a so that the side frame 31 can be stably placed on the floor surface. In this base material 31c part, the engaging part 31d with which the piping 6 which comprises a plant cultivation apparatus is engaged is formed along the side wall piece 31a, and it respond | corresponds to the engaging part 2 of the planter container 1. FIG. It is formed so as to penetrate.
[0052]
When the side frame 31 is placed corresponding to two adjacent sides of the opening edge of the planter container 1, the output corner frame 32 connects the two side frames 31 in an output corner shape, The side wall piece 32a and the upper wall piece 32b are integrally formed so as to cover the corner portion formed by the two adjacent sides. The outer surface of the side wall piece 32a and the upper wall piece 32b is provided with a three-dimensional pattern resembling a piece of wood, for example.
[0053]
A base material 32c is integrally provided inside the lower end of the side wall piece 32a so that the corner frame 32 can be stably placed on the floor surface. In this base material 32c part, the engaging part 32d with which the piping 6 which comprises a plant cultivation apparatus is engaged is bend | folded and formed along the side wall piece 32a.
[0054]
The entrance frame 33 has substantially the same shape in which one side forming the opening edge of the planter container 1 and one side forming the opening edge of the other planter container 1 are continuous when combined at a substantially right angle so as to form an entrance corner. Corresponding to the length, the side wall piece 33 a covering the side portion of the planter container 1 and the upper wall piece 33 b covering the opening edge of the planter container 1 are integrally provided. The outer surface of the side wall piece 33a and the upper wall piece 33b is provided with a three-dimensional pattern resembling a piece of wood, for example.
[0055]
A base material 33c is integrally provided inside the lower end of the side wall piece 33a so that the entrance frame 33 can be stably placed on the floor surface. In this base material 32c part, the engaging part 33d with which the piping 6 which comprises a plant cultivation apparatus is engaged is bend | folded along the side wall piece 33a, and the engaging part 2 of the planter container 1 is formed. A through-hole is formed correspondingly.
[0056]
The outer frame body 30 configured in this way includes the side frames 31, the side frames 31 and the exit corner frames 32, the side frames 31 and the entrance corner frames 33, the exit corner frames 32 and the entrance corner frames 33, and the entrance angles. The frames 33 are connected to each other to cover the outer peripheral portions of the plurality of planter containers 1 connected to form a plant cultivation apparatus.
[0057]
As shown in FIG. 9, the connection structure of the side frames 31 is provided with a substantially convex fitting groove 31e at each end of the base material 31c. The side frames 31 are connected to each other by a substantially I-shaped fitting member 34 that fits into each fitting groove 31e when the end portions of the side frames 31 are combined.
[0058]
In the connection structure between the side frame 31 and the exit corner frame 32, as shown in FIG. 9, the corner portion of the base material 32c of the exit corner frame 32 forms a fitting protrusion 32e. And while having the bending part 35a fitted to the fitting protrusion 32e, and the fitting member 35 of the shape fitted to the fitting groove 31e of the side frame 31, the edge part of the side frame 31 and the angle box 32, and It is comprised so that it may connect in the state which match | combined.
[0059]
As shown in FIG. 10, the connecting structure between the side frame 31 and the entrance corner frame 33 is provided with a substantially convex fitting groove 33e similar to the fitting groove 31e at each end of the entrance frame 33. It has been. Then, by fitting the fitting member 34 to the fitting groove 31e and the fitting groove 33e when the end portion of the side frame 31 and the end portion of the outlet corner frame 33 are combined, the side frame 31 and The exit angle frame 33 is connected.
[0060]
The connection between the exit corner frame 32 and the entrance corner frame 33 is performed by connecting the fitting member 35 to the fitting projection 32e and the fitting groove 33e when the exit corner frame 32 and the end of the entrance corner frame 33 are combined. What is necessary is just to make it fit.
[0061]
The connection between the corner frames 33 may be performed by fitting the fitting members 34 into the respective fitting grooves 33e when the ends of the corner frames 33 are aligned.
[0062]
As shown in FIG. 11, in connecting the corner frame 32, a substantially L-shaped fitting groove 32f is provided at the corner of the base 32c of the corner frame 32, and the corner groove 32f is fitted into the fitting groove 32f. The angled corner frame 32 and the side frame 31 (or the side frame 31) (or a fitting member 36 having a bent portion 36a and a shape that fits in the fitting groove 31e of the side frame 31 (or the fitting groove 33e of the corner frame 33). It is good also as a structure which connects the entrance angle frame 33).
[0063]
Further, in the connection of the side frame 31, the exit corner frame 32, and the entrance corner frame 33, as shown in FIG. 12, the fitting pieces integrally formed with the side frame 31, the exit corner frame 32, and the entrance corner frame 33, respectively. 37 and a fitting recess 38 formed in each of the side frame 31, the outgoing corner frame 32, and the incoming corner frame 33 so as to be fitted to the fitting piece 37 may be connected.
[0064]
The side frame 31, the exit corner frame 32, the entrance corner frame 33, and the fitting members 34, 35, and 36 constituting the outer frame body 30 are formed by extrusion molding, cast molding, injection molding, or press molding, It is made of plastic, ceramic, metal or the like, and cast molding with waste plastic is preferable.
[0065]
Therefore, as shown in FIG. 13, the outer frame structure of the plant cultivation apparatus configured as described above is covered by the outer frame body 30 so that the outer peripheral portions of the plurality of planter containers 1 connected to form the plant cultivation apparatus are covered. Therefore, when the said plant cultivation apparatus is utilized for greening of a desired place, it looks good and can improve the design.
[0066]
Moreover, since the said outer frame structure consists of the connection of the side frame 31, the outgoing corner frame 32, and the incoming corner frame 33, the construction work can be performed easily and it is connected to various shapes. It can correspond to a cultivation device.
[0067]
By the way, in the plant cultivation apparatus in this embodiment, it is possible to provide the scaffold 40 in the area.
As shown in FIG. 14, the scaffold 40 includes a footboard 41 and a leg member 42 that should support the footboard 41.
[0068]
The footboard 41 is formed in a size that should be applied to the opening edge of the single planter container 1.
The leg members 42 are formed to have a substantially X-shaped cross section, and are integrally formed so as to be evenly arranged at four locations on the bottom of the tread plate 41. The leg member 42 is configured to be able to be placed on the water retaining part 7 divided into four parts by the engaging part 2 in the planter container 1. Further, the height of the leg member 42 is set such that when the leg member 42 is placed in the planter container 1, the tread plate 41 hangs on the opening edge of the planter container 1 and closes the opening.
[0069]
The scaffold 40 configured in this manner is placed in the planter container 1 in an empty state, closes the opening of the planter container 1, and, as shown in FIG. Installed as.
[0070]
The scaffold 40 is formed by extrusion molding, cast molding, injection molding, or press molding, and is made of plastic, ceramic, metal, or the like, and cast molding with waste plastic is preferable.
[0071]
Therefore, according to the scaffold 40, it becomes possible to approach the inner planter container 1 surrounded by the outer planter container 1 by using the scaffold 40 as a stepping stone, so that weed removal, care for plants, etc. It can be done easily.
[0072]
Further, the scaffold 40 is not only used as a stepping platform, but also can be configured as a kind of garden by providing a sidewalk in the area of the plant cultivation apparatus as shown in FIG. Moreover, by arranging the scaffold 40, it is possible to configure various patterns in the region of the plant cultivation device to improve the beauty and design.
[0073]
In addition to the combination shape shown in FIG. 15, the plant cultivation apparatus mentioned above comprises the greening area | region of various shapes, such as T shape, L shape, a cross shape, etc. according to the installation place (floor area etc.). be able to.
[0074]
Thus, by adopting the plant cultivation apparatus in the embodiment described above, it is possible to implement a plant cultivation plant having a sufficient function in a desired floor area in a short time with easy construction. It becomes.
In addition, since the plant cultivation device has portability in each configuration, it can be easily replaced, rearranged, disassembled, etc., so that it can be used for greening in short-term events. Can do.
[0075]
【The invention's effect】
In the outer frame structure of the plant cultivation device according to the present invention described above, the outer frame member surrounding so as to cover the upper outer peripheral portion and the opening edge of the planter container plants are more coupled orientation is embedded in the floor By providing, the appearance of a plant cultivation apparatus becomes good and the design property can be improved. In addition, due to the presence of the outer frame body, even if an external pressure or impact is applied to the outer planter container by a strong wind or a person , the upper wall piece of the outer frame body holds the opening edge so that the planter container does not float up, There is little possibility of moving, and the appearance can be maintained well.
[0076]
Further, the outer frame body includes a side frame corresponding to the side portion of the planter container, an exit angle frame corresponding to the exit corner part of the planter container, and an entrance angle frame corresponding to the entrance angle part generated by the arrangement of the planter container. The side frame, the outgoing corner frame, and the incoming corner frame are appropriately connected and arranged so as to surround the outer peripheral portion and the opening edge of the planter container that are connected and arranged on the floor surface. The construction work of the outer frame can be easily performed, and can correspond to the plant cultivation apparatus connected to various shapes.
[Brief description of the drawings]
FIG. 1 is a plan view showing a planter container in a plant cultivation apparatus according to the present invention.
FIG. 2 is a cross-sectional view taken along the line AA in FIG.
FIG. 3 is a cross-sectional view taken along the line BB in FIG.
FIG. 4 is an exploded perspective view of a partition member in the plant cultivation apparatus.
FIG. 5 is a sectional view of a partition material in the plant cultivation apparatus.
FIG. 6 is a cross-sectional view showing a usage state of the plant cultivation apparatus.
FIG. 7 is a plan view in which a plurality of planter containers are connected.
FIG. 8 is a side sectional view in which a plurality of planter containers are connected.
FIG. 9 is a perspective view showing an outer frame structure of the plant cultivation apparatus according to the present invention.
FIG. 10 is a perspective view showing an outer frame structure of the plant cultivation apparatus according to the present invention.
FIG. 11 is a perspective view showing another connection structure of the outer frame structure.
FIG. 12 is a side view showing another connection structure of the outer frame structure.
FIG. 13 is a cross-sectional view showing a usage state of the outer frame structure.
FIG. 14 is a perspective view showing a scaffold of the plant cultivation apparatus according to the present invention.
FIG. 15 is a plan view showing the plant cultivation apparatus according to the present invention, its outer frame structure, and the usage state of the scaffold.
FIG. 16 is a plan view showing a planter container in a conventional plant cultivation apparatus.
FIG. 17 is a cross-sectional view showing a use state of a conventional plant cultivation apparatus.
FIG. 18 is a plan view showing a connected state of a conventional plant cultivation apparatus.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Planter container, 2 ... Engagement part, 2a ... (Upper part of engagement part) 3 ... Conduction port of (engagement part), 6 ... Pipe, 6a ... Conduction port of (pipe), 7 ... Water retention part , 9 ... soil, 11 ... partition material, 12 ... stepped portion, 12a ... upper end surface of (stepped portion), 13 ... planting portion, 22 ... water supply portion, 30 ... outer frame, 31 ... side frame, 32 ... out Square frame, 33 ... corner frame, 40 ... scaffold.

Claims (3)

A plurality of planter containers forming a container with an open upper surface are arranged so as to constitute a predetermined area of the floor surface, surround the outer peripheral part of the planter container constituting the outer peripheral part of the predetermined area, and above the opening edge of the planter container An outer frame body is provided so as to cover the upper wall piece portion covering the upper edge of the opening edge of the planter container, the side wall piece portion covering the side edge portion of the planter container, and the floor surface. An outer frame structure of a plant cultivation device, wherein a base material portion to be placed is integrally formed. A plurality of outer frame bodies are connected to the outer frame body, and the outer frame body is connected by fitting a fitting member into a fitting groove formed at a connection end of each outer frame body. The outer frame structure of the plant cultivation apparatus according to claim 1, wherein the outer frame structure is a plant cultivation apparatus. The outer frame includes a side frame corresponding to a side portion of the planter container, an exit angle frame corresponding to an exit angle part of the planter container, and an entrance angle corresponding to an entrance angle part generated by the arrangement of the planter container. 2. The plant according to claim 1, wherein each of the outer frame bodies constituting the side frame, the outgoing corner frame, and the incoming corner frame is appropriately connected to surround an outer peripheral portion of the planter container. The outer frame structure of the cultivation device.

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