JP2004081070A - Rooftop greening system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a rooftop greening system capable of utilizing rainwater reserved in a water reserving area such as a pond along with deploying theme of biotope for rooftop greening. <P>SOLUTION: This rooftop greening system for greening a rooftop 10 by forming a vegetation base 24 on the rooftop 10 of a building and planting a plant on the vegetation base 24 includes a pond 18 for reserving rainwater formed on a part of the rooftop 10, a water reserving/irrigating tank 48 embedded in a vegetation area 32 planted with a plant in the vegetation base 24 and feeding the plant with water through capillarity, and an overflow water reserving unit 46 for reserving water overflowed off the pond 18 in the reserving/irrigating tank 48. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a rooftop greening system, and more particularly to a rooftop greening system having a water storage area for storing rainwater.
[0002]
BACKGROUND ART AND PROBLEMS TO BE SOLVED BY THE INVENTION
2. Description of the Related Art In recent years, attempts have been made to plant large-scale plants on a rooftop of a building or the like to green an inorganic space in an urban area.
[0003]
In particular, recently, activities to create wetlands, grasslands, forests, and the like in gardens, parks, riverbeds, and the like, and to revive wildlife have become active, which has increased interest in biotopes.
[0004]
This has evolved to the theme of symbiosis of humans and living things in urban areas, conservation and restoration of natural ecosystems, so that wildlife can create a rich environment by forming networks even in small areas. ing.
[0005]
An object of the present invention is to provide a rooftop greening system that can expand the theme of such a biotope to rooftop greening and can effectively use rainwater stored in a storage area such as a pond.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, a rooftop greening system according to the present invention forms a planting base on the roof of a building, and in a rooftop greening system for planting plants on this planting base and greening the rooftop,
A water storage area for storing rainwater formed on a part of the rooftop,
A water storage / irrigation tank that is buried in the planting area where the plant is planted on the planting base and supplies water to the plant by capillary action,
An overflow water storage device is connected to the water storage area and the water storage / irrigation tank, and stores water overflowed in the water storage area in the water storage / irrigation tank.
[0007]
According to the present invention, a water storage area for storing rainwater is formed on a part of the roof, a water storage / irrigation tank is buried in the planting area, and water overflowed in the water storage area by the overflow water storage device is stored in the water storage / irrigation tank. By storing water in the plant, water is supplied to the plants planted on the planting base from the water storage and irrigation tank by capillary action, and the plants are irrigated, so that rainwater can be effectively used.
[0008]
In addition, by setting the water storage area to be in a state of being filled with water, a space where humans and living things coexist is formed on the roof of a building in an urban area, and it is possible to contribute to the conservation and restoration of the natural ecosystem.
[0009]
In the present invention, the water storage / irrigation tank may have an automatic water supply device connected to the water storage / irrigation tank and configured to supply water into the water storage / irrigation tank when the water in the water storage / irrigation tank falls below a predetermined water level. it can.
[0010]
With such a configuration, for example, when the water in the water storage / irrigation tank decreases to a predetermined level or less without rainfall for a long time, water is supplied from the automatic water supply device into the water storage / irrigation tank. As a result, it is possible to constantly irrigate and prevent depletion of plants.
[0011]
In the present invention, a pond can be provided as a water storage area for storing the rainwater.
[0012]
With such a configuration, a garden with a good landscape can be formed by the pond, and furthermore, the presence of the pond enables further conservation and restoration of the natural ecosystem.
[0013]
In this case, an outflow portion of water is provided at a position higher than the pond, the outflow portion is connected to the pond by a flowing water channel, and water from the pond is supplied to the outflow portion, and the outflow portion receives the water from the outflow portion. Water can flow down to the pond via a water channel.
[0014]
With such a configuration, it is possible to form a babble of a stream flowing in the flowing water channel, and to further contribute to the preservation and restoration of the ecosystem of birds and organisms living in the stream.
[0015]
When such a pond is provided, an automatic pond water replenishing device for supplying water when the pond water falls below a predetermined water level can be provided.
[0016]
With such a configuration, for example, even when there is no rainfall for a long time and the pond water falls below the predetermined water level, the pond water can be maintained at the predetermined water level by supplying water from the automatic pond water replenishing device.
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0018]
1 to 3 are views showing a rooftop greening system according to an embodiment of the present invention.
[0019]
FIG. 1 is an external plan view of a rooftop greening system. On the rooftop 10 of this building, a stairway 14 leading to an entrance 12 to the rooftop 10 is provided on the left side in the figure. On the right side in the figure, a pergola 16 is installed.
[0020]
A pond 18 is provided from the pergola 16 to almost the center of the rooftop 10 as a water storage area for storing rainwater.
[0021]
Further, a bird bath 20 is provided as a water outflow portion at a position higher than the left pond 18 away from the pond 18, and the bird bath 20 and the pond 18 are connected to a stream 22 serving as a flowing water channel. It is in a tied state.
[0022]
A planting base 24 is provided around the pond 18, the bird bath 20, and the stream 22, and an observation passage 26 extending from the entrance 12 to the pergola 16 across the stream 22 is provided thereon.
[0023]
A planting area 32 in which plants such as trees 28 and flowers 30 are planted around the observation passage 26, the pergola 16, the pond 18, the bird bath 20, and the stream 22.
[0024]
FIG. 2 is a partial schematic plan view showing the internal system with the transplant base 24 removed, and FIG. 3 is a schematic longitudinal sectional view of the transplant area.
[0025]
As shown in FIG. 3, the planting base 24 lays a root protection sheet 36 on a roof slab 34 of a building, forms a drainage layer 38 thereon, and lays a water-permeable sheet 40 on the drainage layer 38. The soil 42 is formed on the permeable sheet 40 in a state where the soil 42 is piled up.
[0026]
The drainage layer 38 guides drainage to the roof drain 44 as shown in FIG.
[0027]
A large number of water storage / irrigation tanks 48 are connected to the pond 18 via an overflow water storage device 46.
[0028]
The overflow water storage device 46 includes an overflow tank 50 embedded in the soil 42, a communication pipe 52 connecting the overflow tank 50 and the pond 18, and an overflow pipe 54 connecting the overflow tank 50 and the water storage / irrigation tank 48. have.
[0029]
A filter cap 56 is attached to the end of the communication pipe 52 to introduce pond water into the overflow tank 50 so that the water level in the overflow tank 50 matches the water level in the pond 18.
[0030]
A charcoal filter 58 is provided in the overflow tank 50 so as to purify water taken into the overflow tank 50.
[0031]
The overflow pipe 54 has an open end 60 in the overflow tank 50 set at the position of the highest water level HWL of the pond water, and a filter cap 62 is provided at the open end 60.
[0032]
Accordingly, the water level of the pond 18 and the overflow tank 50 rises due to the rainfall, and overflows to the overflow pipe 54 in a state where the water level exceeds the maximum water level HWL, and the overflowed rainwater flows into the water storage and irrigation tank 48 through the overflow pipe 54. And stored.
[0033]
The rainwater flowing into the water storage and irrigation tank 48 and stored therein is supplied to the soil according to the water content of the upper soil 42 by a watering method utilizing a capillary phenomenon from a plurality of watering portions 64 provided in the water storage and irrigation tank 48. Water is automatically supplied to the inside of the container 42 so as to irrigate the plants.
[0034]
Therefore, depletion of plants can be prevented by effectively using rainwater.
[0035]
Further, the water storage / irrigation tank 48 at the final end is connected to an automatic water supply device 66 so as to supply water to the water storage / irrigation tank 48 when overflow of pond water due to rainfall cannot be expected.
[0036]
In this automatic water supply device 66, a water tap 70 is attached in a supply tank 68, and a ball tap 72 is attached to the water tap 70.
[0037]
The replenishing tank 68 and the water storage / irrigation tank 48 are connected by two communication pipes 74a, 74b, so that the water level of the water storage / irrigation tank 48 can be maintained.
[0038]
When the water in the water storage / irrigation tank 48 reaches the low water level LWL, the ball tap 72 goes down to open the water tap 70 and water is supplied to the average water level WL, and the average water level WL is maintained.
[0039]
When the pond water overflows due to the rainfall, the water level in the replenishing tank 68 rises to the maximum water level HWL, and when it exceeds the level, the water is drained from the overflow hole 76 formed in the replenishing tank 68 and guided to the roof drain 44. ing.
[0040]
Water can be supplied by the automatic water supply device 66 from tap water or from an auxiliary tank storing rainwater.
[0041]
Therefore, for example, when there is no rainfall for a long time and the water in the water storage / irrigation tank 48 decreases, water is supplied from the automatic water supply device 66 into the water storage / irrigation tank 48, and the plant is more reliably set in a state where it can be constantly watered. Depletion can be prevented.
[0042]
The pond 18 and the bird bath 20 are connected by a pipe 78 as shown in FIG. 2, the pond water is assembled to the bird bath 20 by a pump 80, the stream 22 flows down from the bird bath 20, and flows into the pond 18. I try to circulate.
[0043]
Thus, the flowing water can form a babbling stream, which can further contribute to the preservation and restoration of the ecosystem of birds and organisms that inhabit the stream.
[0044]
The circulation of the pond water by the pump 80 may be continued for 24 hours, or the pump 80 may be stopped at night, for example, after the circulation by the pump 80 for a fixed time.
[0045]
When the fixed time pump 80 is stopped, the remaining water from the bird bath 20 to the creek 22 flows down to the pond 18 after the pump 80 stops and overflows, and excess water is discharged from the roof drain 44. It will be.
[0046]
Therefore, when restarting the pump 80, the water level of the pond 18 will fall.
[0047]
Therefore, an automatic pond water replenishing device 82 having a configuration similar to that of the automatic water supply device 66 is provided near the pump 80, and when the water in the pond 18 falls below a predetermined water level (low water level LWL), water is supplied to the pond 18. It is better to keep
[0048]
The difference H between the low water level LWL and the highest water level HWL is set to, for example, 10 mm.
[0049]
If the power of the pump 80 for circulating the water is supplied by wind power or solar power generation, it can be made economical and environmentally friendly.
[0050]
In this way, the pond 18, the bird bath 20, and the creek 22 are provided on the rooftop 10 of the building, and the plants such as the trees 28 and the flowers 30 are planted to create a state where people can come into contact with nature, and the city life People can see the changing seasons, hear the sounds of insects and birds, hear the flow of water, touch the flowers, smell the flowers, and enjoy the blessings of nature. It will provide healing and enable the biotope of coexistence of humans and living things in cities, conservation and restoration of natural ecosystems.
[0051]
The present invention is not limited to the above embodiment, and can be modified into various forms within the scope of the present invention.
[0052]
For example, in the above-described embodiment, a pond is formed as a water storage area. However, the present invention is not limited to this example, and may be a pool or a water storage area capable of storing a predetermined amount of water in some form.
[0053]
Further, although a bird bath is provided as the water outlet, the invention is not limited to the bird bath, and any other water outlet can be used.
[0054]
Furthermore, although the thing which raised the soil was used as a planting base, the thing which spread the block-shaped planting base which can hold water may be used.
[0055]
Although a large number of water storage / irrigation tanks are provided, one water storage / irrigation tank over the entire planting area may be used.
[Brief description of the drawings]
FIG. 1 is an external plan view of a rooftop greening system according to an embodiment of the present invention.
FIG. 2 is a partial schematic plan view showing a state where the transplanting base of FIG. 1 is removed.
FIG. 3 is a schematic sectional view of a transplant area.
[Explanation of symbols]
10 Rooftop 18 Pond 20 Bird bath 22 Stream 24 Planting base 28 Tree 30 Plant 32 Planting area 46 Overflow water storage device 48 Water storage / irrigation tank 66 Automatic water supply device 78 Pipe 80 Pump

Claims (5)

In a rooftop greening system in which a planting base is formed on the rooftop of a building, and plants are planted on this planting base to green the rooftop,
A water storage area for storing rainwater formed on a part of the rooftop,
A water storage / irrigation tank that is buried in the planting area where the plant is planted on the planting base and supplies water to the plant by capillary action,
A rooftop greening system, comprising: an overflow water storage device connected to the water storage area and the water storage / irrigation tank, for storing water overflowed in the water storage area in the water storage / irrigation tank. In claim 1,
A rooftop greening system, comprising: an automatic water supply device connected to the water storage and irrigation tank and supplying water to the water storage and irrigation tank when the water in the water storage and irrigation tank falls below a predetermined water level. In claim 1 or 2,
A rooftop greening system, wherein a pond is provided as a storage area for storing the rainwater. In claim 3,
An outflow portion of water is provided at a position higher than the pond, the outflow portion is connected to the pond by a flowing water channel, and water in the pond is supplied to the outflow portion, and the flowing water channel is formed from the outflow portion. A rooftop greening system characterized by flowing water down to the pond. In claim 3 or 4,
A rooftop greening system comprising an automatic pond water replenishing device for supplying water when the water in the pond falls below a predetermined water level.

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