JP3581277B2 - Plant cultivation container - Google Patents

Description

TECHNICAL FIELD OF THE INVENTION
The present invention relates to a plant cultivation container used as a part of greening measures on a rooftop, a veranda or the like.To naRelated.
[Prior art]
Although urban areas in modern society lack natural resources, greening measures are being implemented in urban areas to make up for the natural shortage in response to human desires for nature. Such a greening measure is performed by artificially greening the roof of a building, a veranda, a terrace, an event venue, and the like. As a specific invention relating to the greening measure, for example, Japanese Utility Model No. There is disclosed a block box in which a frame plate is erected along a peripheral edge of a flat inner bottom plate that can be placed and turf is planted in the frame plate.
However, although the above-mentioned block box is configured so that grass can be laid, there has been a problem that it lacks decorativeness. Therefore, in order to improve the lack of decorativeness, for example, JP-A-11-46580 discloses a greening frame in which a plate fitting frame and a lawn planting frame are integrally formed, and the greening frame is disclosed. It is configured so that decorativeness can be improved by combining not only plants but also plate bodies.
Similarly, Japanese Patent Application Laid-Open No. 6-141885 discloses a system planter in which various layouts can be realized by unitizing lights, plants, and the like by using a planter. I have.
[Problems to be solved by the invention]
However, in the technology related to the greening frame disclosed in Japanese Patent Application Laid-Open No. H11-46580, since the plate fitting frame and the lawn planting frame are formed integrally, the layout is fixed, and it is necessary to change the mood. It cannot be rearranged or the like, and lacks interest.
Further, the technique relating to the system planter disclosed in JP-A-6-141885 can easily perform the above-described rearrangement. However, the entire planter must be moved at the time of rearrangement or replacement of the unit. You have to spend money.
Furthermore, when the above-mentioned conventional example is used for ornamental and edging plants, it is assumed that it will be used on a narrow veranda or the like in recent housing circumstances, but humans and the like can be moved by such use. In this case, there is a problem that the effective range becomes narrower and the veranda or the like cannot be used effectively.
The present invention has been made in order to solve the above-described disadvantages, and is excellent in decorativeness, easy to rearrange and replace, and enables humans and the like to walk on plants and the like, and further narrow. Plant cultivation container that can effectively use spaceFurther, it is another object of the present invention to provide a plant cultivation container that facilitates positioning of the unit material and that can firmly restrict the forward, backward, left, and right movements of the unit material due to walking of a person or the like.
[Means for Solving the Problems]
The plant cultivation container of the present invention has at least a bottom plate and an outer peripheral wall, and in a plant cultivation container having an open upper surface, the upper part in the plant cultivation container is a unit mounting space, and the lower part is grown. As a material filling space, a unit support portion is provided in the plant cultivation container, and at least the unit material having a convex portion formed on the back surface can be positioned by the convex portion and the unit support portion provided in the plant cultivation container body. , For example, with the convex portion sandwiched between the unit support portions. In the above configuration, for example, a unit support portion for forming a unit mounting space and a growing material filling space is provided, and the unit mounting space and the growing material filling space are formed by dividing the unit supporting portion of the unit supporting portion. In other words, the unit mounting space is formed above the upper end of the unit support, and the growing material filling space is formed below the upper end of the unit support. It is preferable to form the unit support part integrally with the plant cultivation container body.
Furthermore, the plant cultivation container of the present invention is characterized in that the unit support portion is a bottom unit support portion that stands in a column shape from the bottom surface of the plant cultivation container, and the unit support portion of the growing material filling space. It is characterized in that the growing material is filled up to the upper end.
Note that the unit supporting portion is a plurality of columnar members, and a configuration in which the columnar members are erected irregularly and arranged, or the plurality of columnar members have a flat portion on the top, and the shape of the flat portion is at least. A configuration in which two or more types are provided, and a configuration in which a side unit support unit erected from the bottom plate along a side plate as a unit support unit and a bottom unit support unit erected from the bottom plate in a columnar shape, or A plurality of unit supporting portions each of which is a substantially cross-shaped columnar member in a plan view, a substantially L-shaped columnar member in a plan view, or a substantially I-shaped columnar member in a plan view, or a combination thereof is provided. Or, it is divided by the upper end of the unit support, and the upper part in the plant cultivation container is the unit mounting space, the lower part is the growing material filling space, and the unit support It is filled breeding material to the upper end, on the unit support portion, the unit material having a unit member or support plate of the plate material can be configured to be placed. In addition, it is preferable that the plant cultivation container has a structure in which a water absorption hole is provided in a bottom plate and the container is placed on a water storage tray with an open top.
Also, plantingThe plant cultivation container group has at least a bottom plate and an outer peripheral wall, and in a plant cultivation container having an open upper side, forms a unit mounting space in an upper portion of the plant cultivation container and grows in a lower portion of the plant cultivation container. A plurality of plant cultivation containers forming a material filling space are laid, and a plurality of types of unit materials are selectively placed on the plant cultivation containers.And good.That is, an arbitrary unit material can be selectively mounted on an arbitrary plant cultivation container among a plurality of plant cultivation containers, and at least two or more types of unit materials are selectively mounted. . As the plant cultivation container used for the plant cultivation container group, a necessary one can be appropriately selected from the above-described plant cultivation containers and used. Further, it is preferable that each plant cultivation container of the plant cultivation container group be a planting facility that is placed in a water tank tray.
[Action]
Next, the operation will be described.
In the present invention, the upper space in the plant cultivation container body is a unit mounting space, and the lower portion is formed as a growing material filling space, so that when the rearrangement or the replacement of the unit material is performed, it is mounted on the upper portion. It can be performed only by removing the unit material and mounting a new unit material, and the labor and cost can be reduced.
Further, by forming a unit supporting portion for supporting the unit material placed in the unit mounting space separately from or integrally with the container, a pressure from above when a person or the like walks on the upper portion of the unit material is planted. The unit material can be received by the whole cultivation container body and the unit material can be firmly held. It is preferable that the unit support portion is formed integrally with the plant cultivation container because the unit material can be more firmly held.
Further, by forming a convex portion on the back surface of the unit material and fitting it between the unit support portions, etc., the positioning becomes easy, and the movement of the unit material back and forth and right and left by walking by a person etc. is firmly performed. Be regulated.
In addition, by configuring the unit support portion with a plurality of columnar members erected from the bottom plate of the plant cultivation container main body, pressures from above can be dispersed and received by the individual columnar members with respect to pressure from above. As a result, high strength is exhibited, and damage to the plant cultivation container can be prevented.
Furthermore, the columnar members are arranged in an irregular arrangement, or are formed upright with at least two types of flat portions at the top, so that when the unit material is a lawn material or the like, a lawnmower or the like is used. The problem of the wheels being stuck between the columnar members, making it difficult to turn in another direction is resolved, and the direction change or movement can be made smooth, and various The damage of the plant cultivation container can be prevented from an angle.
In addition, by configuring the container for plant cultivation to be placed on the water storage tray, the number of times of water supply can be reduced.
In addition, by configuring the unit material with at least two types or more, when a plurality of the plant cultivation containers are laid to form a plant cultivation container group, the unit material is selected to create a greening area of various layouts. In addition to this, it is possible to easily change the layout in a change of atmosphere or replace the unit material when it is damaged.
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the container cultivation container of the present inventionNa'sA specific embodiment will be described with reference to the drawings. 1 to 5 show a plant cultivation container according to a first embodiment of the present invention. FIG. 1 is a plan view of the plant cultivation container, FIG. 2 is a perspective view of the plant cultivation container, and FIG. FIG. 4 is a cross-sectional view as viewed from the direction of the arrow A, FIG. 4 is an explanatory diagram of a work of mounting unit materials on the plant cultivation container, and FIG.
In the figure, a plant cultivation container 1 mainly has a bottom plate 2 and a side plate 3 forming an outer peripheral wall, and is formed so as to open upward. The bottom plate 2 is provided with a water / vent hole 4 and a leg 5 is formed on the outer surface of the bottom plate 2. The side plate 3 is formed with an inward recess 6, and a (side) unit support portion 7 (71) is provided on the inner surface of the side plate 3.
A plurality of the water passage / vent holes 4 are provided at predetermined positions of the bottom plate 2 so that the water in the plant cultivation container 1 can be discharged downward and can be ventilated into the plant cultivation container 1 from below. The number, shape, location, and the like of the water / vent holes 4 are not limited to the embodiment, and may be various numbers, shapes, and locations. Although it is preferable to provide the water passage / vent hole 4, it is also possible to adopt a structure without the water passage / vent hole 4.
The leg portion 5 is formed to extend downward from the outer surface of the bottom plate 2 so as to improve ventilation and water flow (drainage). The shape, location, number, and the like of the legs 5 are not limited to those in the present embodiment, but if they are provided at a substantially central portion of the bottom plate 2, resistance and durability against pressure from above on the bottom plate 2 are reduced. It becomes possible to hold | maintain the plant cultivation container 1 main body more firmly.
The inward concave portion 6 is formed on the side plate 3 such that the opening area of the plant cultivation container 1 is increased toward or upward from the bottom plate 2 as the opening of the plant cultivation container 1. By forming the inward concave portion 6, when a plurality of plant cultivation containers 1 are laid, ventilation and water flow (drainage) below and on the side of the plant cultivation container 1 are improved. Although it is preferable to form the inward recess 6, it is also possible to adopt a configuration in which the inward recess 6 is not provided. Alternatively, for example, the side plate 3 is formed obliquely from the bottom plate 2 to the upper side, and the opening area is increased. It is also suitable as a tapered side plate 3 that gradually increases upward.
The (side) unit support portion 7 is a horizontal plate, has a flat portion 7a located at the upper end which is a unit material support portion, and projects from the side plate 3 toward the center of the plant cultivation container 1. 3 is integrally formed. The space in the plant cultivation container 1 is divided or divided by the plane portion 7a of the unit support portion 7 as a boundary, and as shown in FIG. In addition, a unit mounting space 8 is formed, and a growing material filling space 9 is formed below the unit supporting portion 7 which is a lower portion in the plant cultivation container 1. The shape, the state of formation, and the like of the unit supporting portion 7 and the unit material supporting portion are not limited to the above-described configurations, but are appropriate within the scope of the spirit of the present invention.
Then, the cultivation material 90 and the unit material 80 are placed on the plant cultivation container 1, as shown in FIGS. 4 and 5. The filling space 9 is filled with the growing material 90 up to the position of the unit supporting portion 7 which is the upper end of the growing material filling space 9, and then a plate material (plate-like body) 81 such as a wooden deck is placed on the unit supporting portion 7 as the unit material 80. Place on.
The breeding material 90 may be any material, but when laying on a rooftop or a veranda, it is better if it is as light as possible. Perlite, vermiculite, peat moss, bark compost, chaff con, wood decay organic matter , Zeolite and the like. In addition, several kinds of the above growing materials, or silicate clay for preventing root rot which is considered necessary are appropriately selected according to the type of planting, environment, etc., to improve water retention and drainage. Therefore, a light weight growing material mixed in a well-balanced manner can be considered. By employing such a light-weight growing material having good air permeability, it is possible to prevent the roots of the plant from being damaged. The load of these lightweight growing materials is about 1/3 of the conventional soil, and the load applied to the laying surface can be reduced.
Further, the growing material 90 may be filled at the construction site, but may be filled at a factory or the like in advance, and may be laid with only the unit material 80 placed at the site. In this case, After filling the growing material filling space 9 with the growing material filling space 9 and pressing the growing material 90, it is desirable to perform a binder treatment on at least the upper surface of the growing material 90. For example, a liquid obtained by dissolving povar or the like with hot water is deposited on the growing material 90. , Spraying an alginic acid solution or a starch solution, etc., spraying the binder powder, and then supplying and spraying water such as hot water on the spray surface, or placing a binder sheet or the like on the upper surface of the sheet. It is conceivable that the surface is subjected to a drying treatment after the above various treatments by natural drying or forced drying.
The binder treatment is appropriately selected in consideration of plant growing conditions and the properties and characteristics of the mixture of the growing material 90. Then, since at least the surface of the growing material 90 is fixed by the binder treatment, scattering and movement of the growing material 90 can be prevented, and handling such as transportation becomes extremely easy.
Since the plant cultivation container 1 has the growth material filling space 9 and the unit mounting space 8 formed therein, it is sufficient to fill the unit supporting portion 7 as a guide when the growth material 90 is filled. The work becomes easy, and when the plurality of plant cultivation containers 1 are laid, the unit support portion 7 is provided, so that the height difference of the upper end of the unit material 80 does not easily occur between the plant cultivation containers 1 and the unit The rattling of the material 80 is less likely to occur.
Further, since the tread pressure from the upper portion of the unit material 80 can be received by the (side surface) unit support portion 7, the growing material 90 is not excessively compressed, and the inclination and rattling of the unit material 80 are prevented. be able to. The unit supporting portion 7 may be a columnar member as described later in addition to the above-mentioned plate-shaped member, and a suitable member such as a wall-shaped member can be used.
Next, another embodiment of the plant cultivation container will be described. 6 and 7 show a plant cultivation container according to the second embodiment of the present invention. FIG. 6 is a plan view of the plant cultivation container according to the second embodiment of the present invention. FIG. 7 is a second embodiment of the present invention. It is a perspective view of the plant cultivation container of an example, and it demonstrates below focusing on a different part from the said 1st Embodiment example.
The (side) unit support portion 7 (71) of the present embodiment is a plurality of columnar members erected at predetermined locations from the bottom plate 2 to the side plate 3 of the plant cultivation container 1, and has a substantially cross-shaped top, and A substantially flat I-shaped horizontal plane portion 7a is formed, and the bottom surface of the unit member 80 is supported on the flat surface portion 7a. Thus, in the present embodiment, similarly to the first embodiment, the unit mounting space 8 and the growing material filling space 9 are formed by being divided or partitioned by the flat portion 7a of the unit support portion 7. .
By using the plant cultivation container 1 of the second embodiment, the stepping pressure from the upper part of the unit material 80 can be supported by the side plate 3 and the bottom plate 2 of the plant cultivation container 1, and the unit support portion 7 Since the unit support portion 7 is supported on the inward recessed portions 6 provided on the bottom plate 2 and the side plate 3 of the plant cultivation container 1, the strength of the unit support portion 7 is increased, and the tread pressure to the unit support portion 7 is dispersed by the side plate 3. This makes it possible to support the unit material 80 placed more firmly.
8 and 9 show a third embodiment of the plant cultivation container of the present invention. FIG. 8 is a plan view of the plant cultivation container of the third embodiment, and FIG. 9 is a plant cultivation of the third embodiment. It is a perspective view of a container, and demonstrates below focusing on the point different from the said 1st Embodiment example and 2nd Embodiment example.
The (bottom) unit support portion 7 (72) of the present embodiment is a plurality of columnar members erected in an irregular arrangement from the bottom plate 2 of the plant cultivation container 1, and has a circular flat portion 7a formed at the top, The configuration is such that the bottom surface of the unit material 80 is supported on the flat portion 7a. As in the first embodiment and the second embodiment, the present embodiment is also divided or partitioned by the flat portion 7a of the unit support portion 7, and the unit mounting space 8 and the growing material filling space 9 are formed. I have.
By using the plant cultivation container 1 of the third embodiment, since the (bottom) unit support portions 7 are irregularly erected on the bottom plate 2 of the plant cultivation container 1, the unit support portion 7 is arranged from the top of the unit material 80. Can be dispersed by the bottom plate 2 of the plant cultivation container 1, and the entire surface of the unit material 80 can be firmly supported.
10 and 11 show a fourth embodiment of the plant cultivation container of the present invention. FIG. 10 is a plan view of the plant cultivation container of the fourth embodiment, and FIG. 11 is a plant cultivation of the fourth embodiment. It is a perspective view of a container, and demonstrates below mainly focusing on the point different from the said 1st Embodiment, 2nd Embodiment, and 3rd Embodiment.
The present embodiment is a combination of the second embodiment and the third embodiment, and the side unit support 71 is a columnar member that is erected at required places along the bottom plate 2 and the side plate 3. A substantially cross-shaped and substantially I-shaped flat portion 71a is formed on the top portion, and the bottom unit support portion 72 is a plurality of columnar members that stand on the bottom plate 2 other than where the side unit support portion 71 stands. , A circular flat portion 72a is formed at the top. The horizontal plane portion 71a and the plane portion 72a form substantially the same plane at substantially the same height, and are divided or partitioned by the plane portions 71a and 72a, and the unit mounting space 8 and the growing material filling space 9 are formed. The bottom surface of the unit member 80 is supported by the substantially cross-shaped flat portion 71a and the circular flat portion 72a.
By using the plant cultivation container 1 of the fourth embodiment, a plurality of side unit support portions 71 are provided at required locations, and a plurality of bottom unit support portions 72 are irregularly erected on the bottom plate 2 to form two types of flat portions. Since a large number of 71a and 72a are formed, the entire surface of the unit material 80 can be firmly supported against treading pressure from all angles such as the upper portion of the unit material 80. Further, when the unit material 80 is the lawn material 82, the problem that the wheels of the lawnmower or the like are fitted between the columnar members as the unit support portions 7 to make it difficult to switch to another direction can be solved. The direction change or movement of the mower can be smoothly performed.
12 to 18 show a fifth embodiment of the plant cultivation container of the present invention, FIG. 12 is a plan view of the plant cultivation container of the fifth embodiment, and FIG. 13 is a plant of the fifth embodiment. FIG. 14 is a perspective view of the cultivation container, FIG. 14 is a perspective view of the plant cultivation container of the fifth embodiment in a state where the growing material is filled, and FIG. 15 is an explanation of a work of placing a unit material (plate material) on the plant cultivation container of the fifth embodiment. FIG. 16 and FIG. 16 are perspective views showing a state in which a unit material (plate material) is placed on the plant cultivation container of the fifth embodiment. FIG. 17 is a view showing a unit material (turf material) being placed on the plant cultivation container of the fifth embodiment. FIG. 18 is a perspective view showing a unit material (turf) mounted state of the plant cultivation container of the fifth embodiment, and the following description will focus on the points different from the first to fourth embodiments. I do.
This embodiment is similar to the above-described fourth embodiment, and the side unit support 71 is a plurality of columnar members erected at predetermined locations along the side plate 3 from the bottom plate 2 and has a substantially cross-shaped flat portion 71a at the top. While being formed, the bottom unit support portion 72 is a columnar member that stands up from the bottom surface at a position other than where the side unit support portion 71 is erected, and has a substantially cross-shaped, substantially L-shaped plan view at the top. Planar portions 72a of various shapes such as a substantially inverted L shape and a substantially I shape are formed. The flat portions 71a and 72a are horizontally formed at substantially the same height to form substantially the same plane. The flat portions 71a and 72a are divided or divided by the flat portions 71a and 72a. A unit mounting space 8 and a growing material filling space 9 are formed. Is configured to be supported by the flat portion 71a and the flat portion 72a.
Further, the bottom plate 2 is formed with a downward convex portion 10 having a water absorbing hole 10a at the top, and the downward convex portion 10 causes a distortion of the entire plant cultivation container 1 against a stepping pressure from above the unit material 80. It is configured to prevent That is, the tread pressure from the upper part of the unit material 80 is supported by both the side unit support 71 and the bottom unit support 72, and the pressure applied to the side unit support 71 is dispersed by the side plate 3 or the side plate 3 and the bottom plate 2, The pressure applied to the unit support portion 72 is dispersed by the bottom plate 2, and the pressure applied to the side plate 3 is received by the legs 5 provided below the side plate 3, and the pressure near the substantially central portion of the bottom plate 2 is reduced. It is formed to receive at.
Then, as shown in FIG. 14, when the growing material filling space 9 of the plant cultivation container 1 is filled with the growing material 90, the flat portions 71a and 72a, which are the tops of the unit support portions 71 and 72, respectively, are located above the growing material 90. What is necessary is just to fill the growth material 90 so that it may become slightly higher than it, and the filling amount of the growth material 90 can be easily confirmed. Also, after filling the growth material filling space 9 in the plant cultivation container 1 with the growth material 90, a plate material 81 (any material such as wood, stone, iron, and plastic) is used as the unit material 80 or FIG. 17 and FIG. The plant cultivation container 1 is completed only by placing a lawn material 82 (regardless of natural turf, artificial turf, etc.) having a lawn 82a as shown in FIG.
As described above, by using the plant cultivation container 1 of the fifth embodiment, the strength of the main body of the plant cultivation container 1 is increased, and the pressure from the upper part of the unit material 80 can be dispersed and received. The distortion and breakage of the main body and the unit material 80 can be prevented as much as possible. Further, by simply replacing the unit material 80, the plant can be grown using the plant growing container 1, or the placement and replacement of the design deck can be facilitated. Even if the unit member 80 is broken, it can be easily replaced with a new unit member 80, and labor and cost can be reduced.
FIGS. 19 to 24 show the case where various unit materials are placed on the plant cultivation container 1 of the fifth embodiment, and FIG. 19 is a perspective view showing the back surface of the unit material of the first modified example. 20 is a plan view showing a state where the unit material of the first modification is placed on the plant cultivation container, FIG. 21 is a perspective view showing the back surface of the unit material of the second modification, and FIG. 22 is a second modification of the plant cultivation container. 23 is a plan view showing a state where the unit materials of the third modification are placed, FIG. 23 is a perspective view showing the back surface of the unit materials of the third modification, and FIG. 24 shows a state where the unit materials of the third modification are placed on the plant cultivation container. It is a top view.
The unit material 80 in FIGS. 19 to 24 is a plate material 81, and the unit material 80 has a convex portion 80a formed on the back surface. The convex portion 80a is formed in various shapes, and stands in the plant cultivation container 1. It is configured to be sandwiched between the provided side unit support portion 71 or bottom unit support portion 72 or the like. That is, the protrusion 80a is sandwiched or fitted between the side unit support 71, the bottom unit support 72, and the like.
19 and 20, two square pillar-shaped projections 80a are formed on the back surface of the unit material 80, and the unit material 80 is mounted on the unit mounting space 8 of the plant cultivation container 1. In this case, the convex portion 80a is sandwiched between the bottom unit support portion 72 on the side of the most side plate and the corresponding side unit support portion 71 in the plant cultivation container 1 of the fifth embodiment.
In the unit material 80 of FIGS. 21 and 22, a rectangular frame-shaped convex portion 80a is formed on the back surface of the unit material 80, and when this unit material 80 is placed in the unit placement space 8 of the plant cultivation container 1, In the plant cultivation container 1 of the fifth embodiment, the projection 80a is sandwiched between the side unit support 71 and the bottom unit support 72 on the side of the most side plate.
23 and 24, a substantially # -shaped convex portion 80a is formed on the back surface of the unit material 80. When the unit material 80 is placed in the unit mounting space 8 of the plant cultivation container 1, The projection 80a is sandwiched between the bottom unit support portions 72.
By forming the convex portion 80a on the back surface of the unit material 80 as described above, the positioning of the unit material 80 becomes easy, and the pressure from the upper portion of the unit material 80 or the lateral pressure such as front, rear, left and right, etc. Also, the unit material 80 can be favorably supported by the side unit support 71 and the bottom unit support 72.
Furthermore, by making the convex portion 80a enter the growing material 90 filled in the growing material filling space 9 of the plant cultivation container 1, the pressure on the unit material 80 in the whole growing material 90 and the whole plant cultivation container 1 is increased. As a result, the stability of the unit material 80 is increased, and the unit material 80 is particularly resistant to lateral pressures such as front, rear, left and right. In addition, by maintaining the mounted state of the unit material 80, the unit material 80 is mounted on the plant cultivation container 1 in a more familiar state. In addition, various shapes are conceivable for the convex portion 80a, and the configuration of the convex portion 81 applicable to the plant cultivation container 1 and the like of the first to fourth embodiments is also included in the present invention.
25 to 28 show examples of using the plant cultivation container of the fifth embodiment, FIG. 25 is a perspective view showing the plant cultivation container and the water storage tray of the fifth embodiment, and FIG. 26 is a fifth embodiment. FIG. 27 is an explanatory view of a placing operation in a state where there is no plant growing container, a water storage tray, and a unit material growing material, and FIG. 27 is a state where there is no plant growing container, a water tray, and a unit material growing material in the fifth embodiment. FIG. 28 is a cross-sectional view showing a placement state of the plant cultivation container, the water storage tray, and the unit material of the fifth embodiment in a state where the growth material is filled.
The above usage example is a configuration in which the plant cultivation container 1 of the fifth embodiment, which is a bottom irrigated type, is placed on the water storage tray 11, and the unit material 80 having the convex portion 80a is placed on the plant cultivation container 1. The plant cultivation container 1 is provided with a downward convex portion (water-absorbing convex portion) 10 of the bottom plate 2, and a water-absorbing hole (opening portion) 10 a for water absorption is provided at the top of the downward convex portion (water-absorbing convex portion) 10. Is formed. Thereby, the plant cultivation container 1 placed on the water storage tray 11 absorbs the water stored in the water storage tray 11 from the water absorption hole 10a of the downward convex part 10 by a capillary phenomenon.
When the plant cultivation container 1 is placed on the water storage tray 11, the upper part (water surface) of the water in the water storage tray 11 is located below the bottom plate 2 of the plant cultivation container 1, and the downward projection 10 and the leg 5 is submerged, and an air layer is formed between the plant cultivation container 1 and the upper part (water surface) of water in the water storage tray 11. The air in this air layer is supplied into the growing material 90 from the water passage / vent hole 4 to prevent root rot, and excess water such as during rainfall passes through the water passage / vent hole 4 into the water storage tray 11. Is to be stored.
When filling and using the growing material 90 in the above usage example, the plant growing container 1 is placed in the water storage tray 11, and the growing material 90 is filled in the growing material filling space 9 of the plant growing container 1. This is completed by mounting the unit material 80 in the unit mounting space 8 from above.
By using as a plant cultivation container including the plant cultivation container 1 and the water tank tray 11 as described above, the unit material 80 can be firmly supported, and when the unit material 80 is the turf material 82, the moisture is reduced. The number of times of supply can be extremely reduced. In addition, the downward convex portion 10 can support the pressure applied to the bottom plate 2 of the plant cultivation container 1.
FIG. 29 is a front view showing a fourth modification (light material) of the unit material in the present invention. Similarly to the unit member 80 of the plate member 81, the light member 83, which is the unit member 80, has a column 83c erected on a support plate 83b having a convex portion 83a formed on the back surface, and a light 83d is formed above the column 83c. This is a fixed configuration.
In each of the above-described embodiments, the plate member 81, the turf member 82, and the light member 83 have been described as the unit members 80. However, the present invention is not limited to this. For example, instead of the light 83d, the user sits on a support plate, Desks, clock towers, handrails, supports, supports used for play equipment, etc. may be fixed.In addition, an opening for fountain is formed substantially at the center of the support plate, and the opening for fountain and water supply May be connected by a pipe to form the unit material 80 of the fountain material. Further, instead of the lawn material 82, a plant such as a flowering plant or a flower may be used as the unit material 80.
By using the various unit materials 80 as described above, when a plurality of the plant cultivation containers 1 are laid, more various layouts can be enjoyed and a change of mood can be performed.
Next, a case where a plurality of plant cultivation containers 1 are laid to form a plant cultivation container group 1a will be described. FIGS. 30 to 32 are perspective views when a plurality of plant cultivation containers 1 are laid to form a plant cultivation container group 1a, and FIG. 30 is a perspective view illustrating a state where some units of the plant cultivation container group are not mounted. FIG. 31 is a perspective view showing a state in which some units of the plant cultivation container group are not mounted and a curb, and FIG. 32 is a perspective view showing a state in which installation of the plant cultivation container group is completed.
In the figure, a plant cultivation container group 1a is formed by laying a plurality of plant cultivation containers 1 of the fifth embodiment, and a plurality of cultivation materials are provided in the plurality of continuously connected plant cultivation containers 1 as needed. The unit material 80 is placed so as to fill with 90 and to be supported by the unit support portion 7. A curb 12 is laid along the required side around the plant cultivation container group 1a. The unit material 80 is preferably made of at least two or more types, for example, a plate material 81, a lawn material 82, a light material 83, and the like, so that the unit material 80 can be selectively placed on an arbitrary plant cultivation container 1. I do. Preferably, in the plant cultivation container 1 used for the plant cultivation container group 1a, since the inward dents 6 are formed in the side plate 3, a space is provided between the inward dents 6 and above the water storage tray 11. Is formed, and a water supply pipe is laid in the space.
By the plant cultivation container group 1a, various unit materials 80 can be placed on an arbitrary plant cultivation container 1, and various gardens and the like can be formed. In addition, by covering the edge of the plant cultivation container group 1a with the curb 12, etc., a garden with more excellent design can be provided. In addition, it is preferable that a water supply pipe is laid in the space formed by the inward indentation 6, so that the plant cultivation container group 1a having better appearance can be formed. In addition, if the water supply pipe is configured to be able to automatically supply water from a water supply via an electromagnetic valve or the like, water supply work can be omitted and plants can be cultivated more easily.
Further, when the plant cultivation container group 1a is formed by the plant cultivation containers 1 placed on the water storage tray 11, for example, a hook-shaped linking portion is formed on the side wall of the water storage tray 11, and a water flow is formed on the side wall or the linking portion. And the water storage trays 11 are connected by the hook-shaped linkage. The plant cultivation container 1 filled with the growing material 90 is placed on the connected storage tray group, and finally, the desired unit material 80 is placed according to the layout. Thereby, the water flows between the water storage trays 11 through the concave grooves, and if water is supplied to at least one location, the water is distributed to all the water storage trays and there is no need to supply water for a long time. Preferably, when the concave groove is provided so as to be regulated in one direction orthogonal to the water supply pipe, and the water flow direction is regulated in the one direction, the effect becomes more remarkable.
Further, in the above configuration, the concave groove of the water storage tray 11 at the final end of the water flow path serves as a concave groove for overflow with respect to the flowing water of the plurality of laid water storage trays 11, so that excessive water supply and rainfall can be achieved. Surplus water can be discharged from the overflow groove.
As described above, the plant cultivation container 1 and the plant cultivation container group 1a of the present invention have been described. However, the present invention is not limited to the above-described embodiment and the like, and can be extended and modified as follows.
In the plant cultivation container group 1a, as a connection method, a linking portion may be formed in each body of the plant cultivation container 1 and connected to each other, and the connection between the plant cultivation containers 1 becomes stronger, Increases stability.
The curb 12 may have any shape as long as the shape covers the side plate 3 of the plant cultivation container 1. In addition, a configuration in which a border filler is buried between the curb 12 and the plant cultivation container 1 may be used.
Further, the shape of the plant cultivation container 1 is not limited to the embodiment, but may be various shapes, such as a circle, a semicircle, a triangle, and a hexagon.
The configuration and shape of the unit support 7 are not limited to the above-described embodiment, but may be any configuration and shape as long as the unit mounting space 8 and the growing material filling space 9 can be formed. May be.
In addition, the convex portion 80a formed on the back surface of the unit material 80 may have any shape and configuration, as long as it has a configuration sandwiching the unit support portion 7 or a configuration capable of fitting and engaging.
【The invention's effect】
As described above, the plant cultivation container of the present inventionIsWith the above configuration, excellent decorativeness can be realized, rearrangement and replacement can be easily performed, humans and the like can walk on plants and the like, and furthermore, it is possible to effectively use a narrow space. It has the effect that it becomes possible.Further, the positioning of the unit material is facilitated, and the front, rear, left and right of the unit material by walking of a person or the like is obtained. Movement can be tightly regulated.
[Brief description of the drawings]
FIG. 1 is a plan view of a plant cultivation container according to a first embodiment of the present invention.
FIG. 2 is a perspective view of a plant cultivation container according to the first embodiment of the present invention.
FIG. 3 is a cross-sectional view of the plant cultivation container according to the first embodiment of the present invention, taken along the line AA.
FIG. 4 is an explanatory diagram of a work of placing a unit material on a plant cultivation container according to the first embodiment of the present invention.
FIG. 5 is a sectional view showing a state in which unit materials are placed on a plant cultivation container according to the first embodiment of the present invention.
FIG. 6 is a plan view of a plant cultivation container according to a second embodiment of the present invention.
FIG. 7 is a perspective view of a plant cultivation container according to a second embodiment of the present invention.
FIG. 8 is a plan view of a plant cultivation container according to a third embodiment of the present invention.
FIG. 9 is a perspective view of a plant cultivation container according to a third embodiment of the present invention.
FIG. 10 is a plan view of a plant cultivation container according to a fourth embodiment of the present invention.
FIG. 11 is a perspective view of a plant cultivation container according to a fourth embodiment of the present invention.
FIG. 12 is a plan view of a plant cultivation container according to a fifth embodiment of the present invention.
FIG. 13 is a perspective view of a plant cultivation container according to a fifth embodiment of the present invention.
FIG. 14 is a perspective view of a plant cultivation container according to a fifth embodiment of the present invention in a state where a growing material is filled.
FIG. 15 is an explanatory diagram of a work of placing a unit material (plate material) on a plant cultivation container according to a fifth embodiment of the present invention.
FIG. 16 is a perspective view showing a unit material (plate material) mounted state on a plant cultivation container according to a fifth embodiment of the present invention.
FIG. 17 is an explanatory view of a unit material (turf) placing operation on a plant cultivation container according to a fifth embodiment of the present invention.
FIG. 18 is a perspective view showing a unit cultivation container (turf) mounted state of a plant cultivation container according to a fifth embodiment of the present invention.
FIG. 19 is a perspective view showing a back surface of a unit material according to a first modification of the present invention.
FIG. 20 is a plan view showing a state where the unit material of the first modified example is placed on a plant cultivation container.
FIG. 21 is a perspective view showing the back surface of a unit material according to a second modification of the present invention.
FIG. 22 is a plan view showing a state where the unit material of the second modification is placed on a plant cultivation container.
FIG. 23 is a perspective view showing a unit material back surface according to a third modification of the present invention.
FIG. 24 is a plan view showing a state where the unit material of the third modification is placed on a plant cultivation container.
FIG. 25 is a perspective view showing a plant cultivation container and a water storage tray of the fifth embodiment.
FIG. 26 is an explanatory view of a placing operation in a state where there is no plant cultivation container, a water storage tray, and a unit material growing material of the fifth embodiment.
FIG. 27 is a cross-sectional view showing a state where a plant cultivation container, a water storage tray, and a unit material growing material of the fifth embodiment are not placed.
FIG. 28 is a cross-sectional view illustrating a state where the plant cultivation container, the water storage tray, and the unit material according to the fifth embodiment are placed in a state where the growth material is filled.
FIG. 29 is a front view showing a fourth modification (light member) of the unit member in the present invention.
FIG. 30 is a perspective view showing a state where some units of the plant cultivation container group of the present invention are not placed.
FIG. 31 is a perspective view showing a curbstone and a partial unit non-mounted state of the plant cultivation container group of the present invention.
FIG. 32 is a perspective view showing an installation state of the plant cultivation container group of the present invention.
[Explanation of symbols]
1 Plant cultivation container
1a Plant cultivation container group
2 bottom plate
3 Side plate
4 Water passage and vent
5 legs
6 Inward dent
7 Unit support
71 Side unit support
72 Bottom unit support
7a, 71a, 72a Flat part
8 Unit mounting space
80 unit materials
80a convex
9 Growing material filling space
90 Training Materials
10 downward convex
10a Water absorption hole
11 water storage tray
12 Curb

Claims (3)

In a plant cultivation container having at least a bottom plate and an outer peripheral wall, and having an open upper surface, an upper part in the plant cultivation container is a unit mounting space, a lower part thereof is a growing material filling space, and a unit support part is provided in the plant cultivation container. A plant cultivation container, wherein a unit material provided with a convex portion on at least the back surface is placed with the convex portion sandwiched between the unit support portions. The plant cultivation container according to claim 1, wherein the unit support portion is a bottom unit support portion that stands in a column shape from the bottom surface of the plant cultivation container. The plant cultivation container according to claim 1, wherein a growth material is filled up to an upper end of the unit support portion of the growth material filling space.

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