JPH03279502A - Rainwater infiltration structure for road - Google Patents

Abstract

PURPOSE:To maintain the permeability of a rainwater infiltration layer for a long time by preventing the infiltration of earth and sand to a rainwater infiltration layer from a bed layer with a space, between a road bed layer and a rainwater infiltration layer composed of a crushed stone layer, demarcated with an lower permeable layer. CONSTITUTION:A road surface 10, having slightly risen middle part, is formed with an asphalt layer 1 and a rainwater infiltration layer 4 via a bed layer 2 and a concrete layer 30. In the rainwater infiltration layer 4, crushed stones or rubble stones having an about 20-50mm degree size are laid down slopingly to the road middle part on an underground infiltration surface 5, and both the end parts are connected to side grooves 6 and 6. A side groove 6 is formed with a side groove block 60, base concrete 61, and bottom part concrete layer 62, and moreover lateral holes 63 and filters 64 are provided on the surfaces faced to the rainwater infiltration layer 4. This permits the wide-range infiltration of rainwater into soil under a road, and the prevention of infiltration of earth and sand into the rainwater infiltration layer 4 from the bed layer 2.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a structure for infiltrating rainwater into the ground under a road.

(Prior Art) Conventionally, as a rainwater permeation structure that allows rainwater to permeate into the ground under a road, for example, one described in Japanese Utility Model Application Publication No. 51-20444 is known.

Figure 2 of this prior art publication shows a road in which an impermeable pavement surface layer forming the road surface is formed on a base layer, and a rainwater infiltration layer is formed directly under the base layer. The structure is shown.

Therefore, with this rainwater infiltration structure, rainwater that has flowed into the rainwater infiltration layer can be allowed to permeate into the ground under the road over a wide range through this rainwater infiltration layer.

(Problem to be solved by the invention) However, in the conventional rainwater permeation structure, the rainwater permeation layer is formed directly under the base layer, so rainwater passing through the rainwater permeation layer also permeates into the base layer. I will continue to do so.

For this reason, the soil in the base layer becomes soft and flows into the rainwater infiltration layer, and rainwater contains the soil in the base layer.
In the long term, there was a problem in that the rainwater infiltration layer became clogged with the soil of the underlying layer, making it impossible to obtain the rainwater infiltration function.

Therefore, in order to repair the clogged rainwater infiltration layer, it is necessary to spend a lot of money, effort, and time to dig up the road and rebuild the rainwater infiltration layer, which prevents the clogging of this rainwater infiltration layer. This has become a major challenge for practical application.

The present invention focuses on the conventional problems as described above.

The object of the present invention is to provide a rainwater infiltration structure for roads that can prevent clogging of the rainwater infiltration layer due to earth and sand in the underlying layer.

(Means for Solving the Problems) In order to achieve the above-mentioned problems, in the rainwater permeation structure of the present invention, in a road where an impervious pavement surface layer forming a road surface is formed on a base layer, A rainwater permeation layer made of crushed stone (including chestnut stone) is formed under the base layer, and an impermeable layer is formed between the rainwater permeation layer and the base layer.

(Function) In the rainwater permeation structure of the present invention, rainwater that has flowed into the rainwater permeation layer permeates into the ground below through this rainwater permeation layer.At this time, the rainwater permeation layer is formed of crushed stone. Therefore, the void is large.

Rainwater will propagate smoothly laterally through the rainwater infiltration layer.

Therefore, rainwater permeates through the rainwater permeation layer evenly, allowing rainwater to permeate into the ground under the road over a wide area.

Furthermore, since an impermeable layer is formed between the rainwater permeable layer and the base layer, rainwater passing through the rainwater permeable layer is blocked by the impermeable layer and does not permeate into the base layer.

Therefore, the soil in the base layer does not become soft or the rainwater does not contain the soil in the base layer, so it is possible to prevent the rainwater permeation layer from being clogged with the soil in the base layer.

(Example) Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

First, the configuration of the embodiment will be explained.

FIG. 1 shows the rainwater infiltration structure of a road according to the first embodiment.

In the figure, 1' is an asphalt layer, which is an impermeable pavement surface layer forming the road surface 10, and is formed on the base layer 2. Note that the road surface 10 is formed with a slight downward slope from the center toward both sides.

The base layer 2 serves as a roadbed for the asphalt layer 1, and is formed by laying a crusher run under the asphalt layer 1 and compacting it. Note that this base layer 2 is formed on a base layer that is used in normal road structures, such as forming an upper base base using a crusher run on a lower base base using incised crushed stone or granular crushed stone to form a two-layer base base. Ru.

A rainwater permeation layer 4 is formed below the base layer 2 with a concrete layer 30 serving as an impermeable layer interposed therebetween.

The rainwater permeation layer 4 is made of crushed stone (
Approximately 20 to 50 kakus) or chestnut stones are laid, and both ends are continuous with the side ditches 6, 6 provided on both sides of the road.
In addition, the lower surface gradually slopes down toward the center of the road.

For the gutter 6, a gutter block 60 with an open bottom is used, and this gutter block 60 is made of base concrete 61.
A bottom concrete layer 62 is formed on the base concrete 61, and horizontal holes 63 are formed at regular intervals at the bottom of the side wall on the road side so as to face the rainwater permeation layer 4. is provided with a filter 64,
Rainwater flowing in the side gutter 6 passes through the filter 64 and flows into the rainwater permeation layer 4 from the side hole 63.

The filter 64 may be disposed above the side hole 63 in the middle of the side gutter 6 in the depth direction. It is possible to provide a filter cloth layer or a filter paper layer on top of the material, or to use synthetic resin wires gathered together in a plate shape to create gaps, and these filter members can be used as needed. Use it in a water-permeable case.

The concrete layer 30 is an impermeable layer that is cast on-site on the rainwater permeation layer 4 and is formed between the base layer 2 and the rainwater permeation layer 4 . Infiltration of rainwater into stratum 2 is completely blocked.

It should be noted that the underground permeation surface 5 is preferably a gravel layer with good water permeability, but any geological layer that can provide a certain degree of permeability may be used.

Next, the operation of the embodiment will be explained.

In the rainwater infiltration structure of this embodiment, rainwater flowing in the side gutter 6 flows into the rainwater infiltration layer 4 from the side hole 63 through the filter 64. At this time, dirt and sand contained in the rainwater are removed by the filter 64. removed. Then, the rainwater that has flowed into the rainwater permeation layer 4 permeates into the ground from the underground permeation surface 5 through the rainwater permeation layer 4. At this time,
Since the rainwater permeation layer 4 is formed of crushed stone, the voids therein are large, and rainwater can smoothly propagate laterally within the rainwater permeation layer 4.

Therefore, the rainwater permeates through the rainwater permeation layer 4 evenly, and the rainwater can permeate into the ground over a wide range from the underground permeation surface 5 under the road.

Moreover, since the concrete layer 30 as an impermeable layer is formed between the rainwater permeation layer 4 and the base layer 2, the permeation of rainwater between the rainwater permeation layer 4 and the base layer 2 is blocked, and rainwater is prevented from flowing. It does not penetrate into the base layer 2.

Therefore, the earth and sand in the base layer 2 will not become soft and rainwater will not contain the earth and sand in the base layer 2, so that clogging of the rainwater permeation layer 4 by the earth and sand in the base layer 2 can be prevented.

Furthermore, if the base layer 2 contains rainwater, the moisture causes problems such as aging of the asphalt layer 1 as the pavement surface layer, but in this example, rainwater does not penetrate into the base layer 2. .

Such aging of the asphalt layer 1 can be prevented.

Next, FIG. 2 shows the rainwater permeation structure of the second embodiment.

In this rainwater permeation structure, a synthetic resin sheet 31 as an impermeable layer is provided between the rainwater permeation layer 4 and the base layer 2, and both ends of the rainwater permeation layer 4 are arranged in the middle of the L-shaped side gutter 7. It is connected to the reservoir block 7o, and has an underground permeation surface 5.
A trench groove 50 is formed in the center of the road along the direction of extension of the road.

Also, a water pipe 8 in which a large number of water outlets 80 are formed on the outer periphery.
a is buried inside the rainwater permeation layer 4 so as to extend from the horizontal hole 71 formed in the middle part of the side wall of the basin block 70 to above the trench groove 50, and
A water pipe 8b is also buried in the rainwater permeation layer 4 inside the trench, and a water pipe 9 is installed underground from the bottom of the trench 50 to, for example, a gravel layer with good permeability.
has been extended. In addition, the water pipe 8
A may be a lattice-like arrangement of parts extending in the width direction of the road and parts extending in the length direction of the road.

The rest of the configuration is the same as that of the first embodiment, so the reference numerals in the drawings are the same and the explanation thereof will be omitted.

Therefore, in this embodiment, the rainwater that has flowed into the basin block 70 is stored in the basin block 70, and when it reaches the side hole 71, it passes through the filter 64 from the side hole 71 to the water pipe 8a and the rainwater permeation layer 4. At this time, the dust and dirt contained in the rainwater are collected at the bottom of the basin block 70 and removed by the filter 64.

The rainwater that has flowed into the first water pipe 8a and the rainwater permeation layer 4 propagates through the rainwater permeation layer 4 and permeates into the ground from the underground permeation surface 5. Since the water pipe 8a is provided, a water supply is formed inside the rainwater permeation layer 4, and the propagation of rainwater in the rainwater permeation layer 4 is ensured.

In addition, particularly when the permeability of the underground permeation surface 5 is poor or when the flow rate of rainwater is large, rainwater is collected in the central trench groove 50 through the rainwater permeation layer 4 and the water pipe 8a,
The rainwater collected in the trench groove 50 is collected in the trench groove 50.
The rainwater propagates through the rainwater permeation layer 4 and the water pipe 8b in the trench 50, and permeates deep underground, for example, into a gravel layer, through the water pipe 9 extending underground from the bottom of the trench 50.

Therefore, since rainwater is uniformly propagated through the rainwater permeation layer 4 using the water pipes 8a and 8b as water supply, the rainwater can permeate into the ground over a wide range from the underground permeation surface 5 under the road. However, even if the permeability of the underground permeation surface 5 is poor or the flow rate of rainwater is large, the trenches 50 and the water pipes 9 can ensure that rainwater permeates into the ground.

Note that other functions are the same as those of the first embodiment, so their explanation will be omitted.

Although the embodiments of the present invention have been described above with reference to the drawings, the specific structure of the present invention is not limited to the above embodiments. For example, the impermeable layer may be a concrete layer or a synthetic resin sheet. , a concrete board or a synthetic resin board may be used.

Furthermore, by forming the base concrete and bottom concrete layer of the side gutter with permeable concrete, or by opening the bottom of the sump block, rainwater can permeate into the ground from the bottom of the gutter and the sump block.

Further, the road may be a driveway or a sidewalk.

(Effects of the Invention) As explained above, in the rainwater permeation structure for roads of the present invention, the rainwater permeation layer is formed of crushed stones with large voids, so rainwater propagates smoothly. Rainwater permeates through the rainwater infiltration layer evenly, allowing rainwater to permeate into the ground beneath the road over a wide area.

In addition, the impermeable layer formed between the rainwater permeable layer and the underlying layer blocks the rainwater from permeating from the rainwater permeable layer to the underlying layer.
Rainwater does not soften the soil in the base layer, nor does rainwater contain the soil in the base layer. Therefore, it is possible to prevent clogging of the rainwater permeable layer due to the earth and sand of the base layer, and it is possible to maintain the permeability of the rainwater permeable layer over a long period of time.

[Brief explanation of drawings]

Figure 1 is a sectional view showing the rainwater infiltration structure of the first embodiment;
rj! I is a sectional view showing the rainwater permeation structure of the second embodiment. 1 Niassphald layer (pavement surface layer) 10: Road surface 2: Base layer 30: Concrete layer (impermeable layer) 31: Synthetic resin sheet (impermeable layer): Rainwater permeation layer

Claims (1)

[Scope of Claims] 1) In a road in which an impermeable pavement surface layer forming the road surface is formed on a base layer, a rainwater permeation layer made of crushed stone is formed under the base layer, and the rainwater permeation layer A road rainwater infiltration structure characterized by an impermeable layer formed between the base layer and the base layer.