KR101488139B1

KR101488139B1 - Nonpower roadside tree watering system using rain water

Info

Publication number: KR101488139B1
Application number: KR20140128068A
Authority: KR
Inventors: 손원표; 정태열
Original assignee: 동부엔지니어링 주식회사
Priority date: 2014-09-25
Filing date: 2014-09-25
Publication date: 2015-01-29

Abstract

The present invention relates to a non-motorized roadside watering system utilizing rainfall, comprising: an infiltration trench which is embedded in a lower ground of a sidewalk to receive gravel and feeds stormwater introduced from a sidewalk to a roadside roots after storage; And a bottom end connected to an upper portion of the infiltration trench and an upper end disposed on the side of the sidewalk to guide inflows from the sidewalk into infiltration trenches. do.
According to the present invention, it is possible to supply water suitable for growing a roadside tree by storing the quality of the walkway with few contaminants, which is not roads, and has the effect of enabling progressive irrigation with no power.
In addition, there is an effect that the non-point pollution source can be reduced by storing the rainwater of the sidewalk provided in the lower space of the sidewalk.
In addition, the permeation trench is formed of an exponent sheet to prevent the storm water from leaking out to improve the storability of the storm water, and the permeable portion of the stormwater roots is made of a permeable sheet so that the stormwater in the infiltration trench is gradually watered There is an effect that can be.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a non-motorized roadside watering system using rainwater,

The present invention relates to a non-motorized roadside watering system utilizing rainfall, and more particularly, to a non-motorized roadside watering system using rainwater that can collect rainwater flowing in rainfall and supply the rainwater to the roadside.

Generally, a drinking water line between the sidewalks and the roads improves the aesthetics of the street and purifies the air. In the case of the aisle trees, it is possible to grow by artificially spraying water by water supply or by supplying water by rainwater .

Artificially spraying water by watering is costly and requires equipment and manpower, so it is desirable to ensure that water is sufficiently supplied by the rainwater falling in the rain.

However, since the pavement block and the asphalt pavement form impervious layer, it is not easy for water such as rainwater to penetrate into the underground, so that the sufficient supply of water to the roadside roots can not be achieved, have.

As a conventional technique for solving such a problem, Korean Patent Registration No. 10-0934447 (Environment-friendly roadside tree growth promotion device) is used to collect sloping sidewalks and rainwater flowing along the road surface in a water storage space of a water tank below the road A sprinkler for supplying water to the row of trees is installed in the lower end of the water tank, and a spray nozzle is provided in the sprinkler, in which a plurality of holes are drilled to continuously supply water to the row of trees.

In addition, Korean Patent No. 10-0425141 (manhole for supplying roadside water) has a manhole for supplying roadside water, which is installed on a road adjacent to a boundary stone located at a boundary between a sidewalk and a road, , The storm drainage pipe is connected to the storm drainage well, the stormwater collected over a certain amount in the manhole is discharged to the river through the storm drainage pipe, and the water for supplying the water to the stormwater is supplied to the side of the manhole below the storm drainage hole And a supply hole is formed in the manhole, and the storm collected in the manhole is supplied to the aqueduct through the water supply port.

These conventional patents store rainwater containing a large amount of pollutants such as dust and exhaust gas because rainwater generated from the roadway is introduced, and rainwater containing such pollutants is supplied to the aqueducts, And additional facilities are required to filter these pollutants and supply them to the aqueducts, thus complicating the facility and increasing the cost.

Korean Patent No. 10-0934447 Korean Patent No. 10-0425141

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art, and it is an object of the present invention to provide a non-motorized roadside watering system utilizing rainwater that collects storages of roads (roads) There is a purpose of the invention.

It is another object of the present invention to provide a pumped-tree irrigation water system using rainfall that is capable of reducing nonpoint source pollution by storing rainwater of a sidewalk in a lower space of a sidewalk.

It is another object of the present invention to provide a pumped tree irrigation system utilizing rainwater that can progressively irrigate the aqueducts in case of a small amount of rain as well as a large amount of rain by using an infiltration trench having storm water saving function.

In order to accomplish the above object, the present invention provides a non-motorized roadside watering system comprising: an infiltration trench for receiving gravel and embedded in a lower ground of a sidewalk, And a bottom end connected to an upper portion of the penetration trench and an upper end provided at a side of the sidewall to guide the inflow from the sidewalk into the infiltration trench.

The penetration trench is formed in a box shape of hexahedron, and an upper portion is formed with an opening to allow the rainwater to flow in from the rainwater inflow portion, and an outflow of rainwater is prevented from flowing out through the opening portion. A certain area of the surface may be made of a permeable sheet so that the received storm water permeates toward the rowing root.

In addition, the upper certain region of the surface facing the row of rootstocks may be formed of a water permeable sheet, and the lower certain region of the permeable sheet may be formed of an exponent sheet.

In addition, the storm inflow section may include a plate-shaped first guide section vertically provided on the infiltration trench, for guiding storm inflow from the sidewalk to the infiltration trench; A plate-shaped second guide portion disposed parallel to the plate-shaped first guide portion and spaced apart from the plate-shaped first guide portion by a predetermined distance and vertically provided on the penetration trench; And a plurality of connection portions connected to the first guide portion at one end and connected to the second guide portion at the other end to support the first guide portion and the second guide portion to be held in parallel.

The plurality of connection portions are formed in a plate shape and perpendicular to the plate-shaped first guide portion and the second guide portion between the surfaces facing the first guide portion and the second guide portion, and the first connection portion and the second connection portion are fixed Sized through holes, so that the rainwater flowing along the first guide portion and the second guide portion can be guided to the infiltration trench through the through-hole.

In addition, the upper ends of the first guide portion and the second guide portion may be formed to be equal to or lower than the height of the sidewall grooves guiding the storages to flow into the storm inflow portion.

According to the present invention, the non-motorized roadside watering system using the storm water can supply the water suitable for the growth of the roadside tree by storing the rainwater of the sidewalk which has few pollutants, and has the effect of enabling gradual irrigation.

In addition, there is an effect that the non-point pollution source can be reduced by storing the rainwater of the sidewalk provided in the lower space of the sidewalk.

In addition, since the excellentness of the sidewalk is introduced along the sidewalk grooves, it is possible to minimize the loss of the sidewalks on the sidewalks.

In addition, the infiltration trench is formed of an exponential sheet to prevent the storm water from flowing out to improve the storability of the storm water, and the permeable portion of the stormwater roots is made of a permeable sheet so that the stormwater in the infiltration trench is gradually watered There is an effect that can be.

In addition, not only a large amount of rain, but also a small amount of rain, there is an effect that irrigation water can be irrigated to the roadside roots using the principle of osmotic pressure between the gravels in the penetration trench.

In addition, when a large amount of rain comes, it is possible to perform the flood control function using the infiltration trench as well as the irrigation function on the roadside roots.

In addition, the use of gravel in the infiltration trenches can purify pollutants in the rainwater, thereby providing more clean water to the trees.

In addition, by applying the Low Impact Development technique, an eco-friendly roadside watering system can be implemented.

FIG. 1 is a side view of a non-motorized roadside watering system using rainfall according to the present invention. FIG.
FIG. 2 is a plan view of a nonpowerless street watering system using rainfall according to the present invention. FIG.
FIG. 3 is a cross-sectional view illustrating application of a rain-fed canal watering system utilizing rainwater according to the present invention.
4 is a side view (a), a front view (b), and a top view (c) of an H-shaped fine inflow portion.
Fig. 5 is a view of the state of use of the storm inflow section adjacent to the sidewalk grooves formed in the sidewalk;

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIGS. 1 to 5, the rain-fed irrigation canal watering system utilizing rainwater according to the present invention includes a penetration trench 10 and a rainfall inflow section 20.

The infiltration trench 10 is buried in the lower ground of the sidewalk 3 to receive the gravel 7 and to supply the storm inflow from the sidewalk 3 to the aisle root 1a after storage. The gravel 7 functions to purify the contaminated material that has entered into the permeation trench 10, and the gravel 7 having a diameter of 3 to 5 cm can be used. And the puddle cleaned by the gravel 7 is impregnated with the aquatic tree root 1a.

The infiltration trenches 10 are embedded in the lower ground of the sidewalk 3 adjacent to the drinking water table 2 and in a position close to the aqueduct root 1a.

The infiltration trench 10 is formed in a box shape of a hexahedron, and an opening (not shown) is formed in the upper part so as to allow the inflow of rainwater from the inflow part 20, The waterproof sheet 13 is made up of a waterproof sheet 11 and a certain area of the surface facing the aqua rhinestone 1a.

Rubber, plastic, or the like may be used to prevent the rainwater from leaking out of the waterproof sheet 11, and the water-permeable sheet 13 uses a special rain that can pass through the rainwater. The use of the water permeable sheet 13 can prevent the soil on the side of the roadside root 1a from entering the penetration trench 10 and prevent contamination of the storm stored in the penetration trench 10.

The gravel 7 filled in the penetration trench 10 functions to filter out the storm that has flowed into the penetration trench 10 through the storm inflow section 20.

Specifically, the upper certain region of the surface facing the row of root rods 1a is composed of a water permeable sheet 13, and the lower certain region of the water permeable sheet 13 is composed of an exponent sheet 11. Since the lower fixed region serves as an exponent sheet 11, the function of storing the inflowing storm up to the height of the exponential sheet 11 is carried out and the height of the storm in the infiltration trench 10 becomes higher than the height of the rowside roots 1a The height of the water permeable sheet 13 is impregnated into the row of the aptitudes of the row of the aptitudes.

When a small amount of rain is introduced and a small amount of rainwater flows into the penetration trench 10, the height of the rainwater filled in the penetration trench 10 may not exceed the height of the waterproof sheet 11, Is permeated through the permeable sheet (13) by the principle of osmotic pressure and impregnated into the row of root-like roots (1a).

As a result, when a lot of stormwater is introduced, irrigation water can be rapidly flowed to the roots of the roadside tree (1a), and when less stormwater is introduced, irrigation water can be irrigated gradually by the osmotic principle.

The lower end of the storm inflow section 20 is connected to the upper portion of the infiltration trench 10 and the upper end of the storm inflow section 20 is provided on the side of the sidewalk 3 to guide inflows from the sidewalk 3 into the infiltration trench 10.

The fine inflow portion 20 is constituted by a plate-shaped first guide portion 20a, a plate-shaped second guide portion 20b and a plurality of connection portions 20c and 20d.

The first guide portion 20a in the form of a plate guides vertically the inflowing trench 10 from the sidewalk 3 and is vertically provided on the top of the infiltration trench 10.

The plate-shaped second guide portion 20b is disposed parallel to the plate-shaped first guide portion 20a and spaced apart from the first guide portion 20a by a predetermined distance, and is vertically provided on the upper portion of the penetration trench 10.

The plurality of connection portions 20c and 20d are connected at one end to the first guide portion 20a and at the other end to the second guide portion 20b so that the first guide portion 20a and the second guide portion 20b are parallel .

3 and 4, a plurality of connection portions for connecting the first guide portion 20a in a plate shape and the second guide portion 20b in a plate shape are formed in the first connection portion 20c and the second connection portion 20d Show individual cases.

The first connection portion 20c and the second connection portion 20d are formed in a plate shape and are disposed between the surfaces facing the first guide portion 20a and the second guide portion 20b, The first and second connecting portions 20c and 20d are formed perpendicular to the guide portion 20b so that the first and second connecting portions 20a and 20d are disposed parallel to each other with a through- And the second guide portion 20b through the through-hole 20e to the infiltration trench 10 at the bottom.

The rain flowing along the press groove 3a flows along the first guide portion 20a and the second guide portion 20b and flows directly into the lower penetration trench 10 through the through hole 20e. However, the storm that flows directly from the sidewalk 3 without passing through the sidewalk grooves 3a flows along the first guide portion 20a and the second guide portion 20b and flows through the penetration trenches 10 When the first connection portion 20c and the second connection portion 20d meet after flowing down the first guide portion 20a and the second guide portion 20b, It may be introduced into the lower penetration trench 10 through the hole 20e.

As a result, it is possible to collect more rainwater through the through hole 20e by using the first connection portion 20c and the second connection portion 20d provided between the first guide portion 20a and the second guide portion 20b There is an effect.

The distance between the first guide portion 20a and the second guide portion 20b is preferably about 1 to 1.5 cm and the through hole 20e is formed to have a size corresponding to the width of the penetration trench 10 A lot of storm can be introduced.

As shown in FIG. 2, it is general that a plurality of trees 1 are planted side by side in the drinking water table 2. The first guide portion 20a in a plate shape and the second guide portion 20b in a plate- And a plurality of connection portions 20c and 20d are positioned on the left and right of the through hole 20e having a predetermined size therebetween so that the first guide portion 20a in a plate form and the second guide portion 20b in a plate shape are held in parallel Not only is the shape maintained unchanged even under the pressure exerted by the soil, but also the abdomen introduced through the sidewalk groove 3a is provided between the first guide portion 20a and the second guide portion 20b And flows into the penetration trench 10 through the through hole 20e.

As shown in FIG. 4 (a), the H-shaped first guide portion 20a and the second guide portion 20b have the shape of a thin H-shaped steel when viewed from the side of the fine inflow portion 20, And flows into the penetration trench 10.

5, the upper ends of the first guide portion 20a and the second guide portion 20b are formed to have a height lower than the height of the sidewalk 3 so as to guide the sidewalls to flow into the storm inflow portion 20 3 a).

Generally, the sidewalk 3 and the sidewalk grooves 3a are slightly inclined toward the row of trees 1. In the case of rain, not only the storm runs on the sidewalk 3 toward the storm inflow section 20 but also a larger amount of storm moves to the storm inflow section 20 along the sidewalk grooves 3a.

In this case, when the height of the upper ends of the first guide portion 20a and the second guide portion 20b rises to the height of the sidewalk 3 higher than the bottom of the sidewalk groove 3a, The height of the upper ends of the first guide portion 20a and the second guide portion 20b is equal to or greater than the height of the press groove 3a because the guide portion 20a can not flow between the first guide portion 20a and the second guide portion 20b It is preferable to be positioned lower.

According to the present invention, it is possible to supply the water suitable for the growth of the roadside tree by storing the excellentness of the walkway with less contaminants, which is not roads, and has the effect of enabling progressive irrigation with no power.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents. Obviously, such modifications are intended to be within the scope of the claims.

1: Tree line 1a: Tree line root
2: Drinking water table 3: Press
3a: Press Home 5: Road
6a: Boundary Boundary 6b: Road Boundary
7: Gravel 10: Penetration trench
11: an index sheet 13: a permeable sheet
20: Strong inflow section 20a: First guide section
20b: second guide portion 20c, 20d: connecting portion
20e: Through hole

Claims

It is a non-motorized roadside watering system that collects and saves the storm of the sidewalk,
An infiltration trench which is filled in the lower ground of the sidewalk adjacent to the drinking water supply and near the roots of the roadside tree to receive the gravel and feed the storm inflow from the sidewalk to the roadside roots; And
A lower end connected to an upper portion of the infiltration trench and an upper end disposed on the side of the sidewalk to guide inflows from the sidewalk into infiltration trenches,
The storm inflow
A plate-shaped first guide portion vertically provided on the upper portion of the penetration trench, for guiding the stormwater introduced from the sidewalk to the penetration trench;
A plate-shaped second guide portion disposed parallel to the plate-shaped first guide portion and spaced apart from the plate-shaped first guide portion by a predetermined distance and vertically provided on the penetration trench; And
And a plurality of connection portions connected to the first guide portion at one end and connected to the second guide portion to support the first guide portion and the second guide portion to be held in parallel,
The plurality of connection portions are formed in a plate shape and perpendicular to the plate-shaped first guide portion and the second guide portion between the surfaces facing the first guide portion and the second guide portion, and the first connection portion and the second connection portion are formed to have a predetermined size Wherein the first guide portion and the second guide portion are disposed parallel to each other with the through hole interposed therebetween so that the rainwater flowing along the first guide portion and the second guide portion is guided to the infiltration trench through the through-
Wherein the through hole is formed to have a size corresponding to the width of the penetration trench.

The method according to claim 1,
The penetration trench is formed in a box shape of a hexahedron, and an upper portion is formed with an opening to allow the rainwater to flow in from the rainwater inflow portion, and the rainwater is prevented from flowing out through the opening portion.
Wherein the predetermined area of the side opposite to the side of the row of trees is made of a water permeable sheet so that the received fine water permeates toward the side of the row of trees.

3. The method of claim 2,
Wherein the upper part of the surface facing the side of the row of trees is made of a water permeable sheet and the lower part of the water permeable sheet is made up of an exponent sheet.

delete

The method according to claim 1,
And the upper ends of the first guide portion and the second guide portion,
And the height of the sidewall is equal to or lower than the height of the sidewalk groove that guides the rainwater to flow into the stormwater inflow section.