KR20060025962A - Rainwater infilration structures - Google Patents

Abstract

The present invention relates to a stormwater penetrating structure of the side of the pavement road to prevent the depletion of the water supply and groundwater and to recycle the rainwater by filtering the rainwater flowing in a large amount into the side opening to be penetrated underground.

The structure of the present invention is formed on the edge of the pavement road side for easy drainage, and the structure consisting of a cover plate is formed on the upper side of the side hole is formed with a through groove so that rainwater flows into the side opening, Openings are formed in the bottom part, while penetrating through the openings of the side openings protrude downwardly based on the bottom part, and extending surfaces are formed along the rim so as to cover the inner upper surface of the bottom part, and fine pores are formed on the surface and flow from the side openings It comprises a mesh to filter the rainwater to be penetrated into the basement; and, the filter medium is filled in a large amount in the network so as to purify the rainwater flowing through the network. In addition, a long columnar net may be further installed in the lower part of the net so that the rainwater discharged to the outside through the net may be penetrated to the deep underground. At this time, the same filter medium is preferably filled inside the long columnar net.

Sidewalk, pavement, rainwater, mesh, filter media, groundwater

Description

Rainwater infilration structures on pavement sideways {Rainwater infilration structures}

1 is a perspective view showing the excellent penetrating structure of the side road pavement according to the present invention,

2 is a cross-sectional view of the structure shown in FIG.

Figure 3 is a perspective view showing the excellent penetrating structure of the side road pavement according to another embodiment of the present invention,

4 is a cross-sectional view of the structure shown in FIG.

5 is a plan view of the structure shown in FIG.

** Explanation of symbols for main parts of drawings **

10; pavement 20; side mouth

22; bottom 22a; open

24; wall portion 24a; stepped portion

30; Cover plate 50, 60, 70; Excellent support, upper and lower excellent support

52,62,72; network 53,63;

54,64,74; filters

The present invention relates to a structure installed in the side openings formed at the edge of the pavement, sidewalks, theft slopes, etc. to drain the rainwater, and more specifically, to organize the water supply by filtering the rainwater flowing into the sideways to penetrate underground And it relates to a stormwater penetrating structure of the side road pavement to prevent the depletion of groundwater and to recycle rainwater.

In general, the surface water on the road including rainwater is discharged into the river by inducing smooth drainage to the edge to flow into the concrete sideways and rainwater pipelines built on the roadside.

This conventional side port is a drainage system that collects rainwater falling on the ground surface and induces it to be discharged to a river through a sewer and a wastewater treatment plant, and generally constructs a concrete structure by pouring concrete, or is made of precast concrete block or hard plastic. After connecting the PC block product in the field and installing it, the side plate is built by placing a cover plate on the stepped portion formed on the top of the side hole.

However, in the drainage method due to such construction, almost all of the rainwater does not penetrate underground in urban areas where the pavement area is large, and groundwater is gradually depleted, causing the desertification of the city.

In addition, water supply or groundwater is commonly used to artificially supply water to droughts or dryers that cannot naturally receive the water necessary for growth, and today, due to the water shortage phenomenon, due to the depletion of water resources There is a problem that a large disruption is combing for smooth water supply.

The present invention has been made to solve the above-described problems, by installing a rainwater receiver in the side port formed at the edge of the pavement, sidewalks, theft slopes, etc. by filtering the rainwater flowing into the sidewalls to infiltrate into the basement An object of the present invention is to provide a stormwater penetrating structure of the side of the pavement road to prevent the depletion of water and groundwater and to recycle rainwater.

Stormwater penetrating structure of the pavement side opening of the present invention for achieving the above object is formed on the edge of the pavement and the side opening for easy drainage, located in the upper side of the side opening through the groove so that rainwater flows into the side opening In the structure consisting of a cover plate formed therein, the side opening is formed with a dog hole in the bottom portion, while the side hole penetrates through the dog hole to protrude downward relative to the bottom portion and to cover the inner upper surface of the bottom portion. An extension surface is formed along the rim, and fine pores are formed on the surface to filter the rainwater flowing from the side opening and penetrate it into the basement; and the inside of the network to purify the rainwater flowing through the network. It comprises a filter medium filled in a large amount. In addition, a long columnar net may be further installed in the lower part of the net so that the rainwater discharged to the outside through the net may be penetrated to the deep underground. At this time, the same filter medium is preferably filled inside the long columnar net.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention;

1 is a perspective view showing the excellent penetrating structure of the side road pavement according to the present invention, Figure 2 is a cross-sectional view of the structure shown in FIG.

For reference, the same reference numerals are used in other embodiments as long as the same components.

As shown in Figure 1 and 2, the stormwater penetrating structure according to an embodiment of the present invention is formed on the edge of the pavement 10 to the side opening 20 and the side opening 20 to facilitate drainage Cover plate 30, which is covered on the upper surface, is configured to include a rain shower 50 that is located in the basement is located in the lower portion 20.

That is, the above-described side opening 20 has a U-shaped cross-sectional shape, and the bottom portion 22 and both side wall portions 24 are integrally formed, but the stepped portion 24a is formed at the upper end of both side wall portions 24. The bottom portion 22 is formed with a predetermined opening 22a.

The cover plate 30 is formed with a plurality of predetermined through grooves 32 so that the rainwater flowing along the descending or pavement 10 flows into the side opening 20.

Rainfall receiving unit 50 is composed of a mesh body 52 made of a mesh on all sides, and the filter medium 54 is filled in a large amount in the mesh body 52, the mesh body 52 is shown in the form of a box Fine pores are formed on the surface, and the engaging recess 53 is formed along the edge thereof. At this time, the outer shape of the illustrated network 52 corresponds to an embodiment and the present invention is not limited thereto. The cross section may be formed in a U shape or a trapezoidal shape.

Therefore, the stormwater penetrating structure according to the present invention, as shown, the mesh 52 of the storm receiver 50 penetrates through the opening 22a of the side opening 20 and is caught by the catching recess 53 so that the side opening ( The bottom portion 22 of the 20 is positioned to protrude downward, and the inside of the net body 52 is installed in a structure in which the filter medium 54 is filled. At the time of installation, the mesh body 52 may be easily mounted by hooking the bottom portion 22 of the side opening 20 by the catching recess 53, but fixing the fastening recess 53 by using a fixing pin or It can be carried out in various ways such as fixing by adhesion by the bonding means.

On the other hand, as described above, the filter medium 54 filled in the net body 52 is a porous ceramic lightweight body having excellent air permeability and drainage, and is composed of granular multi-porous glass foamed at high temperature and a hardly decomposable or maturated organic substance. And processed to the appropriate particle size. At this time, the appropriate particle size is such that the filter medium 54 is not discharged between the fine pores formed on the surface of the net body 52, but is usually determined by the pore of the net body 52, but is usually in the range of 2 to 30 mm. It is preferable to process into. This is to increase the breathability of the filter medium 54 and the functionality of the drainage.

In addition, the granular polyporous glass described above is mixed with 0.5 to 2 parts by weight of at least one member selected from the group consisting of calcium carbonate, carbon powder or sodium carbonate with respect to 100 parts by weight of glass powder having a particle size of 100 μm or less. , 0.2-2 parts by weight of at least one colorant selected from the group consisting of iron oxide, nickel oxide, chromium oxide or cobalt oxide were added to a heat treatment furnace, and then heated to 6-8 ° C./minute to 700-1,000 ° C. It was manufactured by foaming at a temperature and cooling and pulverizing. The filter material 54 composed of a mixture thereof had a volume density of 0.35 g / cm 3 measured by filling at a pressure of 0.5 kg / cm 3 when dried, and a volume density of 1.13 at water saturation. g / cm 3, the porosity of 78.5%, calculated as the amount of water when saturated with water using a core measuring the bulk density, and the weather rate of 66.2% when the water saturated with water is naturally drained for 48 hours, and the coefficient of permeability 0.2 6 cm / sec, absorption has a physical property of 32 weight ratio.

The filter medium 54 is excellent in breathability and drainage through the porous material itself, and can purify the rainwater penetrating from the side opening 20 by the aerobic microorganisms that adhere to the porous particles, and further increase the amount of oxygen in the water Can promote the purification ability.

Therefore, the rainwater flowing along the pavement 10 of the present invention or directly descending into the side opening 20 flows along the side opening 20 by flow velocity or flows into the rain receiving receiver 50 installed below. It is filtered by the net body 52, and the filtered rainwater is discharged to the bottom after being purified by the filter medium 54 filled therein. The rainwater discharged in this way is supplied with moisture as it penetrates underground to prevent water shortage of the groundwater, or recycled rainwater can be recycled by inducing the discharged rainwater into a reservoir or river such as a rainwater storage tank. .

At this time, various foreign matters or sand may be introduced together with the rainwater by the flow rate of rainwater, and the foreign matter is caught by the cover plate 30 or the mesh 52 positioned at the upper portion and filtered, and the sand is relatively fine particles. Therefore, the reason for using the mesh 52 in which the surface pores are formed is not filtered but is discharged from the surface pores of the mesh 52 again by the excellent flow rate which is introduced into the mesh 52 but is discharged to the outside. .

3 is a perspective view showing the excellent penetration structure of the side road pavement according to another embodiment of the present invention, Figure 4 is a cross-sectional view of the structure shown in Figure 3, Figure 5 is a plan view of the structure shown in FIG.

As shown, the stormwater penetrating structure according to another embodiment of the present invention has a columnar shape that extends downwardly under the side opening 20 so that rainwater penetrating from the upper portion of the pavement 10 can penetrate deep into the basement. It is the structure which is made by installing the rainwater receiver of additionally.

That is, the side opening 20 is formed at the edge of the pavement 10 to facilitate drainage, the cover plate 30 covered on the upper surface of the side opening 20, the upper side located in the lower side of the side opening 20 And lower storm receivers 60 and 70.

The side opening 20 has a U-shaped cross-sectional shape as shown, and the bottom portion 22 and both side wall portions 24 are integrally formed, but the stepped portion 24a is disposed at the upper end of both side wall portions 24. Is formed and a predetermined opening 22a is formed in the bottom portion 22.

The cover plate 30 is usually provided with a plurality of predetermined through grooves 32 so that the rainwater flowing along the descending or pavement 10 flows into the side opening 20.

The upper and lower storm receivers 60 and 70 include meshes 62 and 72 made of meshes on all sides and filter media 64 and 74 filled in a large amount in the meshes 62 and 72. The mesh 62 of the support 60 has a box shape, and has fine pores formed on the surface thereof. The recess recesses 63 are formed on both sides of the upper end of the support 60, and the lower excellent support 70 The net body 72 has a columnar shape with fine pores. The filter media 64 and 74 filled in the meshes 62 and 72 of the upper and outer storm receivers 60 and 70, as described above, have a porous ceramic lightweight body that is excellent in breathability and drainage and purifies the incoming rainwater. This will be omitted.

Therefore, in the stormwater penetrating structure according to the present invention, the mesh 62 of the upper storm receiver 60 penetrates through the opening 22a of the side opening 20 and is caught by the catching recess 63 so that the upper surface of the rainwater penetration structure 22a opens. Exposed to the outside through) and the lower surface is positioned in a state projecting downward relative to the bottom (22). And, the lower rain receiving 70 in the columnar form on the lower surface of the protruding upper rain receiving 60 is formed in a structure spaced apart at regular intervals. At this time, the upper rain receiver 60 may be fixed to the hook recess 63 by using a fixing pin or by adhesion by an adhesive means, and the lower rain receiver 70 may be fixed by a fixing chamber or a string.

The stormwater penetrating structure of the present invention configured as described above flows along the pavement 10 or descends and flows along the side opening 20 at the same time as rainwater flowing into the side opening 20 at the bottom of the side opening 20. It penetrates into the upper storm receiver 60 provided in the filter, and is filtered by the net body 62. The filtered rainwater is first purified by the filled filter medium 64 and discharged to the outside, and a part of the rainwater flows into the lower rainwater receiver 70. The rainwater discharged to the outside gradually penetrates into the basement to absorb moisture in the basement. The rainwater flowing into the lower rainwater receiver 70 passes through the filter medium 74 filled with a long columnar shape and is secondly purified and discharged to the outside of the basement.

In this way, the rainwater discharged to the outside through the lower storm receiver 70 can reach the depth of the basement, thereby supplying water to the deep underground, and recycling the rainwater by inducing it to a reservoir or a river such as a storm reservoir. can do.

At this time, by the flow rate of rainwater, various foreign matter or sand can be introduced with the rainwater, the foreign matter is caught by the cover plate 30 or the mesh 62 is located at the top and filtered, the sand is relatively fine particles Therefore, although not filtered and flows into the nets 62 and 72, it is discharged from the surface pores of the nets 62 and 72 again by the flow rate of rain, and thus does not affect the flow of rain.

As described above, according to the present invention, by installing a rain gutter in the lower portion of the side formed on the edge of the road, such as pavement, sidewalks, theft slope, etc. to prevent rainwater to penetrate underground, to prevent the overflow of rain from the side In addition to preventing the depletion of water supply and groundwater, there is an effect that can be recycled to landscaping or rivers.

In addition, it is possible to smooth the flow of rainwater by effectively filtering various foreign substances or sand introduced into the rainwater by rainwater rainwater consisting of the mesh structure, and purifying rainwater by the filter medium filled inside the rainwater. There is an effect that can be broadly expanded.

Claims (4)

In the structure consisting of a side opening formed on the edge of the pavement road for easy drainage, and a cover plate formed on the upper side of the side opening and the through groove is formed so that rainwater flows into the side opening, The side opening is formed with an opening in the bottom portion, while the side opening An extended surface is formed along the rim so as to penetrate the opening and protrude downward from the bottom portion, and extend over the inner upper surface of the bottom portion, and fine pores are formed on the surface to filter the rainwater flowing from the side opening into the basement. Infiltrating network; Rainwater penetrating structure of the side of the pavement road characterized in that it comprises a filter medium filled in a large amount in the mesh to purify the rainwater flowing through the network. The method of claim 1, The rainwater penetrating structure of the side of the pavement road characterized in that the long columnar net is installed at regular intervals so that the rainwater discharged to the outside through the net can be penetrated to the deep underground. The method of claim 2, Stormwater penetrating structure of the pavement side, characterized in that the same filter medium is filled in the long columnar net. The method according to any one of claims 1 to 3, The filter medium is mixed with 0.5 to 2 parts by weight of at least one kind of the carrier selected from the group consisting of calcium carbonate, carbon powder or sodium carbonate based on 100 parts by weight of glass powder having a particle size of 100 μm or less, iron oxide, nickel oxide, 0.2-2 parts by weight of at least one colorant selected from the group consisting of chromium oxide or cobalt oxide was mixed and introduced into a heat treatment furnace, and then heated to 6-8 ° C / min, foamed at a temperature of 700-1,000 ° C, and pulverized by cooling. Excellent penetrating structure of the side of the pavement road, characterized in that it is composed of granular multi-porous glass prepared by, and hardly decomposable or matured organic matter.

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