JP2004049226A - Planter and greening system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a greening system simply and inexpensively constructing on a slab of a structure including roof of a building, a roadside, a median strip, a farmland, a bedrock ground, a desert or the like. <P>SOLUTION: The green system is made as freely extendible by composing soil (S) containable planters (1) set as freely coupled to each other at end parts and set as freely coupled in every direction through a coupler (2). The system comprises soil (S) containable planters (1') set as freely coupled to each other at end parts and the planters (1') comprise a pair of planter dividers (1a) having a longitudinal walls (16). <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a planter and a greening system that can artificially greenery on a slab of a structure including a building rooftop, a roadside, a median strip, a farmland, a bedrock, a desert, and the like.
[0002]
[Prior art]
BACKGROUND ART Conventionally, when greening a building roof or the like, a method of laying artificial soil and planting it on top of that, or installing a planter or the like has been generally adopted.
[0003]
Further, as disclosed in Patent Document 1, a water impermeable tank having a low side wall is provided, a porous soil is spread in the water impermeable tank, and a water supply pipe and a drainage pipe are provided in the porous soil layer. There is a combination of a fixed type planting bed provided with the above and a replaceable planting basket set in which a granular porous material is planted in a flat basket having a water-permeable bottom.
[0004]
[Patent Document 1]
JP-A-8-80130
[0005]
[Problems to be solved by the invention]
However, in the above-mentioned general method, for example, if the method of spreading artificial soil spreads a large load on the building due to the load of the soil, etc., the cost for making the structure robust increases or There were restrictions such as the need to adopt a special lightweight planting method to avoid this. In addition, since the soil is present on the roof of the building or the like, the problem of water leakage due to water accumulation has to be solved, which is also costly.
[0006]
In addition, conventional planters lack the flexibility to set them freely according to the amount of soil that can be accommodated and the form of the planter, so that the planter can be set up according to the installation conditions and the type of plant to be planted. There was a problem that the property became worse. Furthermore, when the planter is not used, there is a disadvantage that a large amount of storage space is required due to the bulkiness and the storage property is lacking. In addition, if the planter is newly manufactured from a mold, the cost may increase.
[0007]
In addition, in the method using only the planters, water is easily accumulated between each planter and the planter installation surface. If the treatment of the accumulated water is not taken into consideration, a problem such as a water leak also occurs. If not taken into account, there are problems such as root rot and poor growth. In addition, there is another problem that the appearance is poor only by arranging the normal planters continuously.
[0008]
Further, even if the technology disclosed in Patent Document 1 described above can certainly solve the problem of water retention and drainage, additional facilities such as a water storage tank, a water supply pump, and a drainage pump are required. However, it was not easy to implement in terms of labor and cost.
[0009]
The present invention has been made to solve the above problems, and provides a planter excellent in flexibility in planter design, its storability, and economical efficiency, as well as topographical problems such as building structures and difficult green areas, and geological problems. It is an object of the present invention to provide a greening system that can appropriately respond to environmental problems, enables greening at low cost and early, and has no problems of water leakage and irrigation.
[0010]
[Means for Solving the Problems]
(1) In order to solve the above problem, in the planter according to the first aspect of the present invention, a pair of planter divided bodies having soil facing inside walls and opposed inner wall surfaces, and the planter divided bodies are predetermined. A planter supporting body that is connected and supported at intervals, and a connecting part that is provided at a longitudinal end of the planter divided body and that is attached to and detached from another planter divided body and a side end member that closes an end side. did.
[0011]
(2) According to the second aspect of the invention, a plurality of planter divided bodies formed in a plate shape, a planter support for connecting and supporting these planter divided bodies at a predetermined interval, and a longitudinal end of the planter divided body And a connecting portion that is attached to and detached from a side end member that closes another planter divided body or an end side, and that a multi-row soil storage space is formed between the plurality of planter divided bodies. .
[0012]
(3) In the present invention according to claim 3, in the above (1) or (2), the planter support is provided with a locking portion for supporting the interval between the planter divided bodies so as to be able to slide or set the position stepwise. It can be configured as follows.
[0013]
(4) In the present invention as set forth in claim 4, in any one of the above (1) to (3), it is detachable from the planter support supporting the bottom side of the soil, and is provided between the inner walls of the planter divided body. It can be configured to include a water supply unit that supplies moisture and nutrients to the stored soil.
[0014]
(5) In the present invention according to claim 5, in any one of the above (1) to (4), the planter divided body is laminated on an inner wall member holding the soil inside and an outer surface side of the inner wall member. The decorative member is provided.
[0015]
(6) In the tree planting system according to the sixth aspect of the present invention, a plurality of planters for storing soil are connected so as to be freely extendable via a connecting portion, and a relay box connected vertically and horizontally between ends of the planters. It was configured to be provided.
[0016]
(7) In the present invention described in claim 7, the planter is any one of the planters (1) to (5), and is configured to be extendable via a connecting portion of the planter divided body.
[0017]
(8) In the present invention according to claim 8, in any one of the above (5) to (7), it is configured to include a spacer body that supports the planter so that the height thereof can be adjusted.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
The planter according to the present embodiment has a pair of planter divided bodies each having an inner wall surface in which soil is held and opposed to each other, a planter support body for connecting and supporting the planter divided bodies, and a longitudinal section of the planter divided body. And a connecting portion which is provided at the end in the direction and which is attached to and detached from another planter divided body and a side end member for closing the end side. With such a configuration, a plurality of planters can be freely connected to each other via the connecting portion and arranged, so that the planter can be freely designed for various places. Further, when not used, the planter can be disassembled into a divided planter and a planter support, so that the storage is excellent. Furthermore, since each of these members can be manufactured individually, a planter can be manufactured with excellent productivity and at low cost.
[0019]
Further, as another embodiment, a plurality of plater divided bodies formed in a plate shape, a planter support for connecting and supporting these planter divided bodies at a predetermined interval, and provided at a longitudinal end of the planter divided body. And a connecting portion attached to and detached from another planter divided body or a side end member for closing an end portion side, and a multi-row soil storage space can be formed between the plurality of planter divided bodies.
[0020]
Each of the pair of planter divided bodies is substantially plate-shaped, formed in a flat plate shape, or formed to have a curved portion or the like on a lower side thereof, and a base portion on the bottom side in which soil is stored is a planter. Both are fixed to the support at predetermined intervals, or are arranged so as to be freely connectable by a pair of band-shaped or frame-shaped planter supports surrounding the pair.
[0021]
The planter support is arranged at a lower portion thereof orthogonal to the longitudinal direction of each planter divided body, and is capable of fixing and supporting the planter divided body via a projection-shaped or hook-shaped locking portion, It also functions as a spacer to the installation surface, such as on the ground or on the roof. Note that the planter support may be arranged so as to directly support the bottom side of the soil accommodated between the planter splits, irrespective of the curved portion below the planter split.
[0022]
The connecting portion may be formed by directly abutting the ends of the divided planter bodies, may be formed in a groove or flange shape at the ends of the divided planter bodies, or may be fitted with a connecting member made of metal, plastic, or wood. It may be formed by forming a matching hole. The end of another split planter is connected to this connecting portion via a connecting member.
[0023]
Further, the planter support may be provided with a locking portion for supporting the interval between the pair of planter divided bodies so as to be able to slide or set the position in a stepwise manner, thereby accommodating between the planter divided bodies. The amount of soil can be appropriately adjusted according to the usage environment, and a planter excellent in versatility can be provided.
[0024]
The locking portion may be formed in a hook shape on the planter support, or may be provided by drilling a large number of position fixing holes into which the locking pins and bolts are inserted. When the fixing position of the planter divided body is made slidable, the locking portion is formed in an elongated groove, and a projection that fits in the groove and slides is provided in the planter divided body, and the planter divided body is formed. The planter support can be fixed at a predetermined position by tightening it with a bolt and nut.
[0025]
In the planter according to the present embodiment, a water supply unit that supplies moisture and nutrients to the soil stored between the inner walls of the planter split body can be provided on the planter support that supports the bottom side of the soil. Thereby, plant cultivation management and the like in the planter can be easily and appropriately performed. Furthermore, when a large number of planters are connected to form a greening system in a network over a wide area, the entire system can be centrally managed, and its maintenance is excellent.
[0026]
The water supply unit is arranged, for example, so as to cover the periphery of the water-permeable pipe, which is arranged along the upper part of the planter support, has a large number of water-permeable holes, and is supplied with moisture and nutrients from the outside, and the periphery of the water-permeable pipe. It has a porous body, and a water supply pipe for supplying water to the upper part of the soil that has been stood upright with the base penetrating the porous body, and water and water are provided at the upper and lower parts of the soil in the planter. Nutrients can be distributed evenly.
[0027]
The split planter body may be configured to include an inner wall member that holds the soil inside, and a decorative member stacked on the outer surface side of the inner wall member. In this way, the decorativeness of the planter can be enhanced, and depending on the type of plant to be cultivated and the environmental conditions such as the season, the decorative member can be replaced with a different design and the surroundings can be enjoyed throughout the year without getting tired. It can entertain your eyes.
[0028]
In the greening system according to the present embodiment, a plurality of planters for storing soil are connected so as to be freely extendable via a connecting portion, and a relay box connected vertically and horizontally between end portions of the planters is provided. Can be.
[0029]
By connecting a large number of planters via such a relay trough to form a network, etc., it is possible to appropriately deal with topographical and geological problems such as building structures and difficult green areas, and at a low cost and early It is possible to provide a greening system which can be greened and has no problem of water leakage and irrigation.
[0030]
In the present embodiment, the end portions of the planter capable of accommodating the soil can be freely connected and extendable. In this manner, the planters can be arranged vertically and horizontally, and a plurality of such planters can be continuously connected via the relay measure, and the planters can be freely laid out on the rooftop of a building and the like. The greening of the region to be performed can be performed easily.
[0031]
Further, by using the relay basin in this manner, the planter is arranged in a desired layout such that the extension direction of the planter to be arranged is changed, for example, to a right angle, and the planter group is extended in a plane. It becomes possible.
[0032]
As such a relay basin, for example, a simple configuration such as forming a notch portion serving as a planter receiving portion on a peripheral wall thereof in a box shape may be considered. Trees can also be planted in the relay basin. Alternatively, the present invention is not limited to the box shape, and an L-shaped joint member may simply be used as the relay box.
[0033]
Unlike a regular box-shaped planter, the planter that can accommodate soil is not limited to a gutter-shaped one with openings at both ends such as a semi-cylindrical shape or a square groove shape and a concave cross-sectional shape. It is not necessary that the planter has a bottom. For example, another member capable of receiving soil may be separately provided, and the planter body may be formed of a pair of divided bodies having longitudinal side walls. Furthermore, as a planter, a pair of planter divided bodies are arranged side by side in an appropriate width, and a bottom forming plate for receiving soil is separately detachably disposed between the two divided bodies, and a pair of splitters is formed together with the bottom forming plate. A configuration in which the body is fixed while maintaining the shape by appropriate means may be considered. This makes it easy to control irrigation, drainage, etc., at very low cost in terms of material, and makes the width of the planter, that is, the volume of the planter itself variable.
[0034]
In addition, it can be configured to be freely extendable via the connecting portion of the planter divided body. In order to connect and extend the planters, for example, a connecting portion at an end portion or a dedicated joint is used. Can be connected. In this way, a large number of planters are widely arranged in a grid or the like, and a greening system can be constructed easily and at low cost at any place with green belts overflowing with greenery.
[0035]
The greening system according to the present embodiment is also characterized in that a spacer body also serving as a planter supporter that supports the planter such that the height of the planter can be freely adjusted is provided. By adjusting the spacer position, the load on the building can be reduced. The load position can be selected, and the planter is supported by the spacers in a floating state, and a space is formed between the planter and the rooftop of the building. It is also possible to dry the roof surface, and to prevent water accumulation.
[0036]
Further, a plurality of spacers having different heights may be provided so that each planter can be provided with a drainage gradient. Thus, when the unit planter is formed as a long object, if two spacers having different heights are arranged before and after the planter, the drainage gradient can be set freely. The configuration facilitates drainage in the planter.
[0037]
Further, it is preferable to provide a planting assisting means that can be installed between the above-described planters arranged side by side at predetermined intervals. That is, the elongation of the branches and leaves due to the growth of the plants in the planters spreads on the planting assisting means, so that sufficient greening is possible even between the planters, so that a wide range of greening can be efficiently performed. In particular, with ivy or the like, a wide range of greening can be performed more efficiently.
[0038]
By the way, the planting assisting means may be formed of a net or a rod. As a result, the greening system can be easily formed, and the greening can be efficiently assisted. In addition, the said rod-shaped body may be extended in the horizontal direction, and it can also be set up vertically and used as a support | pillar of a plant. In this case, an auxiliary tool for facilitating the erecting of the rod-like body serving as a support can be provided on the planter itself or on the spacer body or the like.
[0039]
The materials for the above-described planter, relay measure, and planting auxiliary means are not particularly limited, and are preferably made of synthetic resin such as vinyl chloride or plastic from the viewpoint of load. It may be made of. Further, by providing a desired color, the aesthetic appearance can be improved in terms of design. Further, the planter may be formed in a curved shape. In this case, it is possible to form a ring shape by connecting the planters.
[0040]
【Example】
Hereinafter, the greening systems according to the first to sixth embodiments of the present invention will be described more specifically with reference to the drawings.
[0041]
(Example 1)
FIG. 1 is an explanatory diagram illustrating a greening system according to a first embodiment, and FIG. 2 is an explanatory diagram illustrating a state in which the roof of a building such as a building is greened by adopting the greening system.
[0042]
As shown in FIG. 1, the present greening system A is formed in a gutter shape capable of accommodating the soil C, and is capable of connecting a plurality of planters 1 in which open ends can be freely connected to each other and vertically and horizontally. Planting that can be erected between each of the planters 1 arranged side by side at a predetermined interval, a relay body 2 (a planter support) that adjustably supports the height of each of the planters 1, and a spacer body (planter support) 3 that adjustably supports the height of each of the planters 1. And auxiliary means 4.
[0043]
The planter 1 in the first embodiment has a length of about 1 m and is formed in a substantially semi-cylindrical shape made of vinyl chloride. As shown in FIG. 10 'are integrally formed. Then, as shown in FIG. 3 (b), a concave groove 11 formed on one of the engaging portions 10 is engaged with an engaging ridge 11 'formed on the other engaging portion 10' so that they can be connected to each other. And By doing so, the inner peripheral surfaces of the planter 1 can be reliably connected in a butted state without any step. Note that the length of the planter 1 may be set as appropriate.
[0044]
As shown in FIG. 3A, the engaging portion 10 integrally formed at one end of the planter 1 is provided with a concave groove portion 11 having a U-shaped cross section at the end portion, and is provided at a predetermined interval. A flange 12 is provided, and an engagement groove 13 for engaging with the relay box 2 is provided between the flange 12 and the concave groove portion 11.
[0045]
As shown in FIG. 3 (a), the engaging portion 10 'formed integrally with the other end is also provided with a flange 12 at a predetermined distance from the engaging ridge 11' formed on the end. Is provided between the flange 12 and the engaging ridge 11 ′.
[0046]
In addition, as a structure of the end part of the planter 1, as shown in FIG. 4, the engagement bulging part 10a is formed at one end, and the other end can have a simpler configuration with the straight shape as it is.
[0047]
Even with such a configuration, the inner peripheral surfaces of the planter 1 can be reliably connected in a butted state without any step.
[0048]
Further, as shown in FIG. 5, an end cap (side end member) 15 whose end can be closed is provided in order to perform the end treatment of the planter 1 having both ends opened.
[0049]
As shown in FIG. 1, the relay basin 2 has a box-like shape with an upper opening, and has a notch for receiving a planter formed in a peripheral wall 20 thereof. Each of the planters 1 can be relayed in a state where the engagement grooves 13 are engaged with each other and the end of the planter 1 faces the inside of the relay box 2. 21 is a drain port.
[0050]
Therefore, in the tree planting system A according to the present embodiment, by using such a relay box 2, the extension direction of the planter 1 to be disposed can be changed, for example, to a right angle direction, and the planter group is extended in a plane. For example, the plurality of planters 1 can be freely laid out on the green surface B such as the roof of a building, and the desired area can be easily greened as shown in FIG. In addition, it is also possible to plant a tree P1 in the relay measure 2.
[0051]
Further, as shown in FIGS. 1 and 2, each planter 1 is supported by a spacer body 3 which also serves as a planter support so as to be adjustable in height.
[0052]
That is, by adjusting the arrangement position of the spacer body 3, the load position of the load on the building that becomes the greening surface B can be selected, and the planter 1 is supported by the spacer body 3 in a floating state. Since a space is formed between the planter 1 and the roof surface (green surface B) of the building, water can be freely drained and the roof surface can be dried quickly.
[0053]
As shown in FIG. 6, a plurality of spacers 3 having different heights, such as a high spacer 3a, a middle spacer 3b, and a low spacer 3c, are prepared and appropriately arranged. By providing, a gradient for drainage can be given to each planter 1. Note that the type of the height difference can be set as appropriate.
[0054]
As shown in the drawing, by disposing the spacer bodies 3 having different heights on the connected and extended planter 1, the drainage gradient can be freely set, and drainage in the planter 1 is facilitated. Become. Alternatively, in the case of a long planter 1, two may be arranged at different heights before and after the planter 1.
[0055]
By the way, in the example shown in FIG. 6, the support 5 formed in an inverted arch shape is attached to the spacer body 3, and the planter 1 is placed on the support 5, as shown in FIGS. 1 and 2. As described above, the planter 1 may be directly mounted on the spacer body 3. Further, as shown by imaginary lines (dashed lines) in FIG. 1 and FIG. 2, the mounting and fixing may be performed via a substantially L-shaped fixing member 6 or the like. Further, as shown in FIG. 7, a configuration may be adopted in which the fixing is easily performed using a tightening means such as a belt 85. In FIG. 7, reference numerals 86 and 87 denote a ring connecting one end of the belt 85 and a ring connecting the other end.
[0056]
Further, in the present embodiment, as the above-mentioned planting assisting means 4, a net of approximately 1 m square in which a net 41 is stretched over the frame portion 40 is used, and as shown in FIGS. Are provided with a plurality of holes 42, and the holes 14 provided in the planter 1 are connected to the holes 42 by hooks 43 so as to correspond to the holes 42.
[0057]
By providing the planting assisting means 4 and connecting the planters 1 to each other, as shown in FIG. 2, the plant grows and its branches and leaves P2 and the like spread through the planting assisting means 4 to increase the greening surface B. Green space can be integrated. Note that the planting assisting means 4 is not limited to a net-like body, and may be constituted by a horizontally arranged rod-like body or the like, and its size can be arbitrarily set. In addition, a rod-shaped body can be erected to support the plant. It is more preferable to provide a mounting aid or the like to the planter 1 or the spacer body 3 for facilitating the mounting of the rod-shaped body as the support.
[0058]
Further, simple means for attaching the planting assisting means 4 to the planter 1 using a string or the like instead of the hook 43 may be adopted. In this case, the hole 42 provided in the planter 1 becomes unnecessary.
[0059]
As described above, in the greening system A according to the present embodiment, the planter 1 containing a relatively small amount of soil C can be arranged in a desired range while being easily connected, and can be installed on the roof of a building with a very simple configuration. Can be efficiently greened.
[0060]
As the structure of the connecting portion for extending the planters 1 in the longitudinal direction, not only the engaging portions 10 and 10 'are formed at the ends of the planters 1 as described above, but also the ends of the planters 1 are fitted. A simpler method such as joining or fixing the end portions of the planter 1 with a water-resistant adhesive tape or the like in a state where the ends of the planter 1 are abutted may be adopted, or as shown in FIG. A dedicated connecting tool 7 can also be used.
[0061]
That is, as shown in FIG. 8, the exclusive connecting tool 7 has an overall shape corresponding to the end of the planter 1, and has a configuration in which the insertion ports 70 for inserting and fitting the ends of the planter 1 are formed at both ends. Is what you do. Even with such a configuration, reliable connection can be achieved without generating a step or the like on the inner peripheral surfaces of the planters 1.
[0062]
Further, as shown in FIG. 8, the planter 1 may be supported using a dedicated planter support 8 instead of the spacer body 3 described above.
[0063]
The planter support 8 has a spacer support 8a having two spacer support portions 81 projecting upward at the center of a longitudinal mounting portion main body 80, and a shape capable of enclosing the planter 1 or the dedicated connection tool 7. And a dedicated spacer 8b.
[0064]
A height adjusting hole 82 is provided between the mounting portion main body 80 and the two spacer supporting portions 81 of the spacer support 8a, and a height adjusting long hole is formed in the dedicated spacer 8b so as to correspond to this. 83 are provided.
[0065]
With such a configuration, if the height adjusting hole 82 and the height adjusting elongated hole 83 are appropriately combined, as described above, a plurality of types such as the high spacer 3a, the middle spacer 3b, and the low spacer 3b are set. The drainage gradient can be freely set for the planter 1 only by preparing one type of planter support 8.
[0066]
Further, as a modified example of the above-described dedicated connecting tool 7, as shown in FIG. 9, a valley dedicated connecting tool 7 'provided with a drain hole 7a can be used.
[0067]
This is because, when a plurality of planters 1 are connected and extended in the longitudinal direction, the connected planters 1 can be prevented from having an excessively high end at one end by alternately combining a downward slope and an upward slope. It is possible to use the valley-dedicated connecting tool 7 'for the connecting portion located at the valley at that time.
[0068]
In addition, the inner shape of the valley-dedicated connection tool 7 ′ can be simply fitted with the end of the planter 1 in accordance with the basic shape in which the end of the planter 1 is not provided with unevenness such as a flange. A simple step 7b is provided.
[0069]
By using such a dedicated valley connection tool 7 ', drainage as well as connection of the planter 1 becomes extremely easy, and connection of the planter 1 can be extended freely. In this case, a notch 1b corresponding to the drain hole 7a is provided at each end of the planter 1.
[0070]
(Example 2)
Next, as Embodiment 2, a planter 1 'having the configuration shown in FIGS. 10 and 11 can be used. FIG. 10 is an explanatory view showing the planter 1 in an assembled state, and FIG. 11 is an exploded perspective view of the planter 1 '.
[0071]
That is, the planter 1 ′ in the second embodiment is configured to be capable of accommodating soil and to be freely extendable by connecting the ends to each other via a connecting portion, and furthermore, a pair of planter divided bodies having a longitudinal side wall 16 (for planter configuration). (Divided body) 1a.
[0072]
More specifically, as shown in the figure, a pair of planter divided bodies 1a are juxtaposed with an appropriate width so as to face each other, and a bottom forming plate 9 for receiving the soil is separately arranged between the two planter divided bodies 1a. An arbitrary portion of the pair of divided bodies 1a is fixed together with the bottom forming plate 9 while maintaining the shape by an appropriate means such as a rubber band 88.
[0073]
That is, in the second embodiment, the bottom forming plate 9 is made of a mat having water permeability, and a lattice floor frame 90 for mounting the bottom forming plate 9 is appropriately disposed below the bottom forming plate 9. When the planter divided body 1a is tightened by the rubber band 88 or the like, the projecting plates 91 for preventing the planter divided body 1a from being pushed inward and deformed are arranged at appropriate intervals.
[0074]
The lattice floor frame 90 and the projecting plate 91 may be metal, synthetic resin, or the like as long as they are easily formed, and the shape is not limited at all.
[0075]
With the planter 1 'having such a configuration, the width of the planter 1' itself, that is, the volume itself of the planter 1 'is made variable by changing the interval between the pair of planter divided bodies 1a in the facing state. This can be easily achieved.
[0076]
At this time, as shown in the figure, a plurality of mounting holes are provided so that the mounting position of the dedicated connecting member 77 for connecting the connecting portions of the planters 1 'to the spacer body 3 can be changed according to the desired width of the planter 1'. 78 may be provided on the spacer body 3. Alternatively, the mounting hole 78 may be a long hole. 79 is a mounting bolt.
[0077]
Note that the bottom forming plate 9 and the lattice floor frame 90 are not necessarily required. If the width of the planter 1 'is small, a configuration in which the planter divided bodies 1a, 1a are merely butted together can be adopted.
[0078]
The inside shape of the exclusive connecting member 77 is the same as that of the above-described valley exclusive connecting member 7 ', but the shape is not limited.
[0079]
As described above, by configuring the planter 1 ′ by the pair of planter divided bodies 1 a having the longitudinal side walls 16, it is possible to control the irrigation and drainage easily while keeping the material extremely low in cost.
[0080]
As a modification of the second embodiment, a configuration shown in FIG.
[0081]
This is similar to the above-described second embodiment (see FIGS. 11 and 12), in which the soil can be accommodated, the ends can be freely connected to each other, and the ends can be freely extended. The body 1a is provided, but a bolt hole 98 is provided along the edge of both planter divided bodies 1a, a bolt hole 98 'corresponding to the bolt hole 98 is provided, and a water passage hole 9b is provided. A rectangular bottom plate 9a is detachably provided. That is, instead of the mat-shaped bottom forming plate 9 having water permeability, a bottom plate 9a is detachably provided, and is connected by fixing bolts 99 and nuts 99 '. In this case as well, the lattice floor frame 90 may be appropriately disposed as needed.
[0082]
By the way, in the modification of the second embodiment, as the planter divided body 1a, the longitudinal side wall 16 has a curved shape, that is, a gutter-shaped one is divided into two in the longitudinal direction. As in the modification example shown, a flat plate shape may be used.
[0083]
The one shown in FIG. 13 is one in which flat band-plate-shaped planter divisions 1a are arranged so as to face each other while being slightly inclined outward. In this example, the frame-side end of the lattice floor frame 90 is bent to form the divided body connecting portion 92. A connecting hole 93 is provided in the vicinity of the lower end of the divided planter body 1a, and the divided body connecting portion 92 is connected so as to sew the vicinity of the lower end of the planter divided body 1a. With this configuration, it is possible to reliably prevent the planter divided body 1a from expanding outward.
[0084]
The one shown in FIG. 14 is basically a strip plate-like shape as shown in FIG. 13 as the planter divided body 1a, but is provided with a hairpin-shaped folded portion 94 at the lower end edge to improve the strength. ing.
[0085]
Further, the one shown in FIG. 15 has a bottom forming portion 17 continuous with the longitudinal side wall 16 of the planter divided body 1a, and the bottom forming portion 17 is formed in a jagged shape in which peaks and valleys are continuous. The forming portions 17 are superposed or attached to each other to form a planter 1 '.
[0086]
Therefore, the width of the planter can be easily adjusted by changing the overlap width between the bottom forming portions 17. Needless to say, the bottom forming portions 17 may be arranged in a state where the ends are abutted with each other without being overlapped with each other or in a state where they are separated from each other.
[0087]
Reference numeral 95 denotes a connecting rod for connecting the planter divided bodies 1a disposed in a facing state, and has a bent end at one end and a long hole provided at the other end, and a wedge body 96 as a fastening means in the long hole. The shape as the planter 1 'can be held by fitting. Therefore, in this case, the rubber band 88 described above is not required. Reference numeral 9 'denotes a soil receiver. In this example, a mesh sheet is used. The soil receiver 9 'may have the same configuration as that of the bottom forming plate 9.
[0088]
In addition, the one shown in FIG. 16 uses a bottom plate 90 'instead of the lattice floor frame 90. Both ends of the bottom plate 90' are folded upward, and the folded portion 90'a and the planter divided body 1a are folded. The lower end is connected to a bolt 90'b and a nut 90'c. In FIGS. 13 to 16, S represents soil.
[0089]
Although the present invention has been described through the first and second embodiments, the planters 1 and 1 ′ having the above-described configuration facilitate control of irrigation and drainage while maintaining a very low material cost. In addition, the width of the planter, that is, the volume of the planter itself can be made variable.
[0090]
In the first and second embodiments, the green surface B is described as a roof of a building. However, the green surface can be applied to a narrow area such as a roadside or a median strip as a green surface. Greening can be achieved at low cost even in difficult-to-green areas such as rocky ground, salt-damaged land, and desert.
[0091]
(Example 3)
FIG. 17 is a perspective view of a greening system to which the planter according to the third embodiment of the present invention is applied, FIG. 18 is a plan view showing the greening system, and FIG. 19 is a front sectional view of the greening system.
[0092]
As shown in FIGS. 17 to 19, the planter 100 according to the third embodiment includes a pair of left and right planter divided bodies 100 a having opposing inner wall surfaces, and a planter support that supports the bottom side of the connected planter divided bodies 100 a. 100b, a connecting portion 100c provided at the longitudinal end of the planter split and attached to and detached from a side end member such as another planter split or an end cap for closing the end side; And a child-like member 100d laid on the planter support 100b at the bottom, in which the soil S is held. The entire greening system 101 is connected to the planter 100 via a connecting portion 100c in the longitudinal direction.
[0093]
Each of the pair of left and right planter divided bodies 100a has a two-layer structure including an inner wall member 100e holding the soil S therein and a decorative member 100f laminated on the outer surface side of the inner wall member 100e. A reinforcing member 100g having a substantially U-shaped cross section is fitted to the upper end portion of the stacked planter divided bodies 100a to reinforce this two-layer structure. The adjacent planter divided body 100a has its connecting portion 100c fitted in a groove of an H-shaped support guide 100h provided upright on the planter support 100b so as to be supported as a whole.
[0094]
Here, FIGS. 20A to 20C show a modified example in which adjacent planter divided bodies 100a are connected to each other via a connecting portion 100c.
[0095]
FIG. 20A shows a modification in which the connecting portion 100c of the split planter body 100a is connected on the planter support 100b via the embedding bolt 100j and the connecting fitting 100k locked by the embedding bolt 100j. The end portions of the left and right planter divided bodies 100a are in close contact with each other so that the connection fitting 100k is not directly exposed to the outside.
[0096]
In FIG. 20 (b), the connecting portion 100c of the inner wall member 100e constituting the planter divided body 100a is fitted and coupled to the support guide 100h having an H-shaped cross section, and the exposed surface of the support guide 100h is made of a plastic material or the like. A modified example of a connecting portion 100c in which a decorative layer 100m is coated and joined is shown.
[0097]
In FIG. 20 (c), both ends of the inner wall member 100e and the decorative member 100f 'are fitted into the grooves of the support guide 100h to support them in a stacked state, and also serve to connect the adjacent planter divided bodies 100a. A modification of the connecting portion 100c is shown.
[0098]
An example of a case where the planting system 100 configured as described above is connected in the longitudinal direction to construct and use the greening system 101 will be described. First, a waterproof or water-permeable sheet 100i is laid inside the planter 100 as shown in FIG. Next, planting soil is filled from above the sheet 100i, and seeds and seedlings such as flowers and vegetables are planted and cultivated in the soil. When replanting these flowers and vegetables, one side of the split planter 100a is pulled up along the support guide 100h. As a result, as shown in FIG. 19B, the soil together with the sheet 100i can be easily removed from the planter 100 from the open side and can be replaced or planted with the next new one. Further, if the sheet 100i is supported, the soil does not dissipate when the side surface is opened.
[0099]
Further, in this embodiment, the planter divided body 100a is made of an inner wall member 100e such as iron or stainless steel or a reinforced concrete plate having excellent strength and a decorative member 100f such as a lightweight plastic which is easy to give decoration and lightweight. Become. Thereby, it is possible to easily replace the decorative member 100f according to the use situation or to impart a colorful effect according to the user's preference. Needless to say, the inner wall member 100e may be made of a lightweight synthetic resin.
[0100]
(Example 4)
FIG. 21 is a perspective view of a planter according to a fourth embodiment of the present invention, FIG. 22 is an exploded perspective view of the planter, and FIG.
[0101]
As shown in FIGS. 21 (a), 22 and 23, a planter 200 according to the fourth embodiment has a pair of left and right planter divided bodies 201 and 202 having soil S held therein and opposed inner wall surfaces. An end portion of a planter support member 203 for supporting the bottom side of the connected planter divided members 201 and 202 and an end portion of a side end member 204 provided at a longitudinal end of the planter divided member for closing the end portion are L-shaped. A connecting portion 205 detachable via a metal fitting 205a or the like, a water supply portion 206 for supplying moisture and nutrients to the soil S stored between the planter divided bodies 201 and 202, and a planter divided on a planter support 203 A locking portion 207 is provided to support the interval between the bodies 201 and 202 so that the position can be freely set in a sliding or stepwise manner.
[0102]
As shown in a modification of FIG. 21B, the side end member 204 is fitted into a groove or the like provided at the end of the planter divided bodies 201 and 202 without passing through the L-shaped bracket 205a. The connecting portion 205 may be formed so as to be slid up and down and attached and detached.
[0103]
The water supply unit 206 is disposed along the upper part of the planter support 203 and has a large number of water-permeable holes formed therein. A porous body 206b made of ceramic or the like extending in a substantially rectangular parallelepiped and disposed at the base thereof, and a base thereof penetrates the porous body 206b to be erected and housed through pores formed on the side walls thereof. It has a mesh-shaped water supply pipe 206c for supplying water to the upper portion of the soil S, and a pulling portion 206d provided at the tip of the water supply pipe 206c. The porous body 206b is fixed on the planter support 203 via a casing 206e having a U-shaped cross section made of metal or plastic. Further, the inside of the water supply pipe 206c is filled with a bulk water absorbent made of cotton, a water-absorbing polymer, or the like, and even if the supply of water from the water-permeable pipe 206a is stopped, a predetermined amount of water is always kept here. It may be made to keep it, and to prevent excessive release of moisture in the soil S.
[0104]
By supplying a predetermined amount of water or the like to the water permeable pipe 206a of the water supply unit 206 in this manner, the water or water is supplied to the upper and lower parts of the soil in the planter 200 via the upper water supply pipe 206c and the porous body 206b. Nutrients can be supplied effectively.
[0105]
A locking portion 207 for locking the pair of left and right planter divided bodies 201 and 202 at a predetermined interval is provided at the bottom of the planter divided bodies 201 and 202 formed on the planter support 203 as shown in FIGS. And a hook hole 207b formed at a predetermined position of the planter support 203 into which a projection or the like at the bottom of the hook portion 207a is fitted. After the positioning, the planter divided bodies 201 and 202 and the planter support 203 are tightened with bolt nuts 206f or the like and fixed at predetermined positions to set the distance therebetween. The amount of soil S that can be accommodated can be adjusted to an appropriate amount each time.
[0106]
(Example 5)
FIG. 24A is a perspective view of a planter 300 according to Embodiment 5 of the present invention, and FIG.
[0107]
As shown in FIG. 24, the planter 300 according to the fifth embodiment includes a plurality of plate-shaped splitters 301 and 302 formed in a plate shape, and a planter support 306 that connects and supports the split splitters 301 and 302 at predetermined intervals. A plurality of planter splitters 301 and 302 provided at longitudinal ends of the splitters 301 and 302 and connected to and detached from other planter splits 303 and 304 and side end members for closing the end portions. A multi-row soil storage space S 'is formed between the divided bodies 301, 302, 303, and 304.
[0108]
That is, a pair of left and right planter divided bodies 301 and 302 having an inner wall surface opposed to the soil S therein and having a connecting portion (not shown) at the longitudinal end, and parallel to the planter divided bodies 301 and 302. Then, the other planter divided bodies 303 and 304, which are intermediate partition portions, which are erected at predetermined intermediate positions at the intermediate positions, the planter divided bodies 301, 302, and the other planter divided bodies 303, 304 which are intermediate partition portions. And a substantially plate-shaped planter support 306 standing upright at predetermined intervals via an L-shaped bracket 305 or the like. A water supply unit 206 having the same configuration as that of the fourth embodiment is provided on a planter support 306 between the other planter divided bodies 303 and 304 serving as an intermediate partition. Further, a water inlet 307 is provided below the other divided planters 303 and 304 erected on the planter support 306 so that the multi-row soil storage spaces S ′ can communicate with each other. That is, moisture can be moved in the planter 300 via the soil S.
[0109]
Further, the height of the other planter divided bodies 303 and 304 serving as intermediate partition portions is increased, and the height of the planter divided body (here, the pair of planter divided bodies 301 and 302) is gradually reduced outward. If it goes, it is easy to appreciate the plants planted in each row, and it also looks good as a planter.
[0110]
As described above, since a single planter 300 can perform planting in multiple rows, it can be suitably used when planting different plants in one planter 300.
[0111]
(Example 6)
FIG. 25A is a perspective view of a planter 400 according to Embodiment 6 of the present invention, and FIG.
[0112]
As shown in FIG. 25, the planter 400 according to the sixth embodiment includes a pair of left and right planter divided bodies 402 and 403 each including a connecting part (not shown) provided at an end in the longitudinal direction, and laminating a plurality of elongated strip-shaped laminated plate members 401. A support rod 405 inserted into an insertion hole 404 formed in the laminated plate 401 and a substantially plate-shaped planter support 406 on which the support rod 405 is erected. A water supply unit 206 having the same configuration as that of the fourth embodiment is disposed on the planter support 406, and the ends of the front and rear planter divided bodies 402 and 403 in FIG. It can be sealed with a side end member such as a cap or can be connected to other planters 400 via a connecting portion.
[0113]
The planter 400 of the sixth embodiment configured as described above has the water supply unit 206 of the fourth and fifth embodiments and the like in addition to the water replenishment effect. In addition to being able to set the amount of soil that can be made, it is also excellent in the design addition.
[0114]
【The invention's effect】
The present invention is embodied in the form described above, and has the following effects.
[0115]
(1) According to the first aspect of the present invention, a plurality of planters can be freely connected to each other via a connecting portion and arranged, so that the planter can be freely designed for various places. . Further, when not used, the planter can be disassembled into a divided planter and a planter support, so that the storage is excellent. Furthermore, since each of these members can be manufactured individually, a planter can be manufactured at a high cost and at a low cost. In addition, since a plurality of planters can be combined to form a network, it is possible to easily control irrigation and drainage. Moreover, the width of the planter, that is, the volume of the planter itself can be made variable. That is, in order to re-activate vegetation degradation due to root clogging, an effect equivalent to replacing a pot by moving the divided body in the widening direction can be expected.
[0116]
(2) According to the second aspect of the present invention, a plurality of plate-shaped planter divided bodies, a planter support for connecting and supporting these planter divided bodies at a predetermined interval, and a longitudinal direction of the planter divided body A planter provided at an end thereof and having a connection portion detachably attached to another planter divided body or a side end member for closing an end side, and forming a multi-row soil storage space between the plurality of planter divided bodies. By doing so, it is possible to plant in multiple rows with one planter, and it is extremely convenient to plant different types of plants in one planter, and it is easy to appreciate different types of plants.
[0117]
(3) According to the third aspect of the present invention, in addition to the effects of the above (1) and (2), a member for supporting the space between the planter divided bodies on the planter support so as to be able to slide or set the position in a stepwise manner. By providing the stop, the amount of soil that can be accommodated between the divided planter bodies can be appropriately adjusted according to the usage environment, and a planter excellent in versatility can be provided.
[0118]
(4) According to the present invention, in addition to the effects of the above (1), (2) or (3), water supply for supplying moisture and nutrients to the soil stored between the inner walls of the divided planter body. Can be provided, and plant cultivation management and the like in the planter can be easily and appropriately performed. Furthermore, when a large number of planters are connected to form a greening system in a network over a wide area, the entire system can be centrally managed, and its maintenance is excellent.
[0119]
(5) According to the fifth aspect of the present invention, in addition to the effects of any one of the above (1) to (4), decorativeness in the planter is obtained by forming the planter divided body into a two-layer structure of an inner wall member and a decorative member. It can increase the versatility and replace the decorative material with another design according to the type of plant to be cultivated and the environmental conditions such as the season, so that you can enjoy the surrounding eyes without getting tired throughout the year Can be.
[0120]
(6) According to the sixth aspect of the present invention, by configuring the ends of the planter capable of accommodating the soil so as to be freely connectable and extendable, and by being vertically and horizontally connectable via a relay box, Planters can be easily connected to each other and extended in the longitudinal direction, so that control of irrigation and drainage can be easily performed, and a green belt or the like can be easily constructed according to installation conditions. In addition, by being configured to be freely connectable vertically and horizontally via the relay basin, the extension direction of the planters to be arranged is changed to, for example, a right angle direction, and the planter group is extended in a planar manner. And the planter can be freely laid out on the rooftop of a building or the like, and a desired area can be greened simply and at low cost.
[0121]
(7) According to the present invention, since the end portions of the planters are freely connectable and extendable, the planters are arranged vertically and horizontally, and the planters are connected to each other via a relay box or the like. A plurality of plants can be connected continuously, and a planter can be freely laid out on the roof of a building or the like, and a desired area can be easily greened.
[0122]
Furthermore, by using the relay basin, it is possible to arrange the planters in a desired layout, for example, by changing the extension direction of the planters to be arranged to, for example, a right-angle direction and extending the group of planters in a plane. It becomes.
[0123]
(8) According to the present invention, in addition to the effect of (5), (6), or (7), a spacer body that supports the planter so that the height can be adjusted is provided. Since the planter is supported by the spacers in a floating state, and a space is formed between the planter and the roof surface of the building, water can be freely drained and the roof surface can be dried quickly. You can also.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram illustrating a greening system according to a first embodiment of the present invention.
FIG. 2 is an explanatory diagram showing a state in which the roof of a building such as a building is greened by adopting the greening system.
FIG. 3 is an explanatory diagram showing a connection structure of a planter.
FIG. 4 is an explanatory view showing a modification of the connection structure of the planter.
FIG. 5 is an explanatory diagram of an end cap.
FIG. 6 is an explanatory diagram showing a use state of a spacer body.
FIG. 7 is an explanatory view showing an example of a structure for attaching a planter to a spacer body.
FIG. 8 is an explanatory view showing a modification of the connection structure of the planter and the spacer body.
FIG. 9 is an explanatory view of a valley dedicated connection tool.
FIG. 10 is an explanatory diagram of a planter according to a second embodiment.
FIG. 11 is an exploded perspective view of a planter according to a second embodiment.
FIG. 12 is an exploded perspective view showing a modification of the planter according to the second embodiment.
FIG. 13 is an explanatory diagram illustrating an example of a planter in which a divided planter body is formed in a flat plate shape.
FIG. 14 is an explanatory diagram showing an example of a planter in which a planter divided body has a flat plate shape.
FIG. 15 is an explanatory view showing an example of a planter in which a divided planter is formed in a plate shape.
FIG. 16 is an explanatory view showing an example of a planter in which a planter divided body has a flat plate shape.
FIG. 17 is a perspective view of a greening system to which the planter according to the third embodiment is applied.
FIG. 18 is a plan view showing the greening system.
FIG. 19 is a front sectional view of the greening system.
FIG. 20 (a) is an explanatory view of a modification in which planter divided bodies are connected to each other.
(B) It is explanatory drawing of the modification which connects planter divided bodies.
(C) It is explanatory drawing of the modification which connects a planter division body.
FIG. 21 is a perspective view of a planter according to a fourth embodiment.
FIG. 22 is an exploded perspective view thereof.
FIG. 23 is an explanatory view of a state of use.
FIG. 24 (a) is a perspective view of a planter according to a fifth embodiment.
(B) It is explanatory drawing of the use state.
FIG. 25A is a perspective view of a planter according to a sixth embodiment.
(B) It is explanatory drawing of the use state.
[Explanation of symbols]
A Greening system
B Greening surface
1 Planter of Example 1
1 'Planter of Example 2
1a Split planter
2 relay measure
3 Spacer body (planter support)
4 Planting assistance means
10, 10 'engagement part (connection part)
100 Planter of Example 3
100a Planter split
100b planter support
100c connecting part
100d childlike member
100e inner wall member
100f decorative member
100g reinforcement member
100h Support guide
100i sheet
101 Greening system
200 Planter of Example 4
201, 202 Split planter
203 Planter support
204 side end member
205 connection
205a L-shaped bracket
206 Water supply section
207 Locking part
300 Planter of Example 5
301, 302 Planter split
303, 304 Intermediate partition
305 L-shaped bracket
306 Planter support
400 Planter of Example 6
401 laminated board
402, 403 Planter split
404 insertion hole
405 support rod
406 Planter support

Claims (8)

A pair of planter divided bodies having opposed inner wall surfaces in which soil is held therein, a planter support for connecting and supporting the planter divided bodies at a predetermined interval, and provided at a longitudinal end of the planter divided body. A connection part detachably attached to another planter divided body or a side end member for closing an end side. A plurality of planter divided bodies formed in a plate shape; a planter support for connecting and supporting these planter divided bodies at a predetermined interval; and a planter divided body and an end provided at a longitudinal end of the planter divided body. A planter comprising: a connecting portion attached to and detached from a side end member for closing a side, and a multi-row soil storage space is formed between the plurality of planter divided bodies. The planter according to claim 1, wherein the planter support is provided with a locking portion that supports the space between the planter divided bodies so as to be able to slide or set the position in a stepwise manner. A water supply unit that is detachably attached to the planter support that supports the bottom side of the soil and that supplies water and nutrients to the soil housed between inner walls of the planter splits. The planter according to any one of the above. The planter split body according to any one of claims 1 to 4, wherein the splitter includes an inner wall member that holds the soil inside, and a decorative member stacked on an outer surface side of the inner wall member. The described planter. A planting system characterized by connecting a plurality of planters for storing soil through a connecting portion so as to be freely extendable, and providing a relay box connected vertically and horizontally between ends of the planters. The planting system according to any one of claims 1 to 5, wherein the planter is configured to be extendable via a connecting portion of the divided planter. The greening system according to any one of claims 5 to 7, further comprising a spacer body that supports the planter so that the height can be adjusted.

Images