KR200224164Y1 - A Percolation Concrete Pipe for Underground Trench - Google Patents

Abstract

The present invention is used in underground trenches that are buried in the ground to collect and drain moisture or to penetrate rainwater underground. It is related to a permeable concrete pipe for underground trenches that facilitates the drainage of the surface layer in conjunction with the collection and drainage system, and can restrain rainwater discharge and restore the natural cycle as much as possible. It is molded into a hollow tube embedded in the wall, and both ends of the hollow tube are formed of an impervious concrete portion 1 having high strength by using fine aggregates, and the remaining middle portion has a porosity of 10 to 40% by using crushed stone. Formed from the porous concrete part 2 having the flexural strength of 1.5 to 4.0 N / mm2 while maintaining and having a permeability coefficient of 0.1 to 3 cm / sec. It is a feature of the technical composition, which secures water resources through the groundwater cultivation and preserves the ecosystem in the soil, and also contributes to the increase of the base flow of the rivers in normal times, so that the clean water quality is maintained, and to the rivers during rainfall. It is effective in preventing flood damage by reducing the amount of rainwater discharged.

Description

A Percolation Concrete Pipe for Underground Trench

The present invention is used in underground trenches that are buried in the ground to collect and drain moisture or to penetrate rainwater underground. It is related with a permeable concrete pipe for underground trenches that facilitates drainage of the surface layer in conjunction with a collection and drainage system, while suppressing the outflow of rainwater and restoring it to a natural cycle as much as possible.

Recently, due to the city's population concentration, land development is increasing, and pavement of land surface is rapidly progressing.

Such pavement increases the runoff's global runoff and reduces underground infiltration, resulting in groundwater depletion and consequent ground subsidence in areas of consolidation strata such as clay. In the case of groundwater disturbance such as groundwater desalination due to reverse osmosis of seawater occurs.

In addition, in general, the base flow of the stream is reduced to pollute the water quality, and during rainfall, the ground drainage problem occurs and the river flow is rapidly increased, causing flood damage.

Accordingly, measures were required to infiltrate rainwater underground, and recently, permeable concrete (aka porus concrete) has been developed and applied to pavements such as roads and squares.

It is true that the pavement layer constructed of permeable concrete is able to pass rainwater underground, contributing to the enhancement of groundwater.

However, only a fraction of the rainwater that flows out of the pitched concrete pavement in rainy weather is discharged to the base of the road, and most of the rainwater flows out to the river through the underground drainage channel, so it is very difficult for groundwater to be stabilized. I don't see a big effect.

That is, in general, the pavement layer of the ground surface is inclined so that rainwater flows out to the side in a short time, so the amount of permeation is small, and conventionally, since the side openings of the road and underground drainage pipes are formed of a concrete structure that is not permeable, Rainwater is being discharged into rivers.

Therefore, in order to infiltrate rainwater underground, it is much more efficient to use the trenches and underground trenches of roads where most rainwater passes for a long time than the ground pavement where the rainwater temporarily flows. After collecting rainwater, it is urgently required to install a small infiltration container and a large penetration well that slowly infiltrate it into the basement.

Accordingly, the present invention is designed to meet the above-described demands in dimensions, and in particular, to collect and drain water remaining in the ground or to penetrate the rainwater that passes through the underground trenches underground.

Therefore, the purpose of the present invention is to make the concrete pipes used in the trenches of the ground permeable, so that the drainage of the surface layer can be smoothed while being connected to the infiltration facilities such as the infiltration side opening, the small infiltration passage and the large infiltration well or the drainage installation such as the drainage side opening At the same time, by restraining the global runoff of rainwater and restoring it to the natural cycle as much as possible, it not only secures water resources and preserves the soil ecosystem through the cultivation of groundwater, but also contributes to the increase of the basal flow of the rivers in normal times to maintain clean water quality and rainfall. The city provides a permeable concrete pipe for underground trenches to prevent flood damage by reducing the amount of rainwater discharged to the river.

The present invention for achieving the above object has a high strength by forming the both ends of the hollow tube made of impermeable concrete portion, and the remaining intermediate portion is formed of porous concrete portion, showing a flexural strength of 1.5 to 4N / ㎜ while maintaining a porosity of 10 to 40% To provide a permeable concrete pipe for underground trenches having a permeability coefficient of 0.1 to 3 cm / sec.

1 is a perspective view of a pitched concrete tube according to the present invention

Figure 2 is a cross-sectional view of the pitched concrete tube according to the present invention

Figure 3 is a schematic diagram of the underground penetration facility is installed permeable concrete pipe of the present invention

4 is a detailed view of portion 'A' of FIG.

5 is a cross-sectional view taken along the line B-B in FIG.

Figure 6 is a cross-sectional view of the underground drainage trench is installed permeable concrete pipe of the present invention

<Explanation of symbols for the main parts of the drawings>

1: impermeable concrete part 1a: female connection part

1b: male connection part 2: porous concrete part

10: penetrating trench 11: gravel floor

12: sand layer 13: Permeability sheet

20: penetration penetration 30: collection drainage trench

31: Sand layer P: Permeable concrete pipe

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

1 and 2 shows a pitcher concrete pipe (P) for trenches according to the present invention.

As shown in these drawings, the permeable concrete pipe P according to the present invention is formed into a hollow tube body in which an iron wire assembly (not shown) interwoven with a horizontal iron wire and a vertical iron wire is embedded in the tube wall.

Both ends of the hollow tube body are formed of an impervious concrete part 1 having a high strength using fine aggregates, and the remaining middle part is formed of a porous concrete part 2 that is permeable using crushed stone.

Female and male connecting portions 1a and 1b are formed at both ends of the impermeable concrete portion 1 so as to be connected when embedded in the ground.

Porosity, flexural strength and permeability coefficients vary depending on the particle size of aggregate and the range of maximum and minimum dimensions of aggregates, and the strength decreases when the void ratio and permeability coefficient increases, while the porosity and permeability increase when bending strength increases. The coefficient is lowered. Therefore, the dimensions of the aggregate used should be examined according to the intended use of the product.

Porous concrete part 2 of the permeable concrete pipe (P) according to the present invention has a physical property showing a flexural strength of 1.5 to 4N / mm2 and a permeability coefficient of 0.1 to 3cm / sec while maintaining a porosity of 10 to 40%.

The porous concrete part 2 is produced by mixing crushed stone, cement, water, etc., the unit cement amount is 220 ~ 450㎏ / ㎡ and the water cement ratio is 25-40%, the cement aggregate ratio according to the aggregate particle size of the crushed stone Is changed.

In other words, in forming the porous concrete part 2, the size of the crushed stone is selected in the range of aggregate particle size of about 0.6 to 15 mm, and the cement aggregate ratio according to the size of the crushed stone used, and the porous material produced according to the ratio. The physical properties of the concrete part 2 are as follows.

a) In case of using crushed stone with aggregate particle size of 0.6 ~ 5㎜

Cement aggregate costs; Cement 1: Crushed 3.5 ~ 7

Porosity; 10-30%

Flexural strength; 1.5 ~ 4.0N / ㎡

Permeability coefficient; 0.1 ~ 0.5cm / sec

b) in case of using crushed stone with aggregate particle size of 5 ~ 15㎜

Cement aggregate costs; Cement 1: Crushed 4-8

Porosity; 20-40%

Flexural strength; 1.5 ~ 3.0N / ㎡

Permeability coefficient; 0.3-3cm / sec

The permeable concrete pipe (P) of the present invention configured as described above is installed in a trench in the ground and is distinguished as a water collecting drainage for collecting and discharging underground water into the pipe or a penetration for penetrating the rainwater flowing into the ground. Used.

For use as a drainage, a) the permeable concrete pipe (P) produced using the crushed stone having an aggregate particle size of 0.6-5 mm is suitable, and most preferably, using the crushed stone having an aggregate particle size of 5 mm, the porosity is 20%, It is good to show the physical properties of flexural strength 2.5N / mm 2 and permeability coefficient 0.3cm / sec.

In addition, permeable concrete pipe (P) produced using the above-mentioned b) aggregate particle diameter of 5 to 15 mm is suitable for penetration use, and most preferably, using crushed stone having an aggregate particle size of 15 mm, porosity 25 It is good to show the physical properties of%, bending strength 2.0N / mm 2 and permeability coefficient 0.5cm / sec.

Referring to the operation according to the installation of the subject innovation configured as described above are as follows.

As described above, the present invention is used to construct underground infiltration trench or drainage trench, and these trenches are connected with other infiltration facilities such as infiltration side opening, penetration penetrating and infiltration well, or collection and drainage system such as drainage opening. It penetrates and drains.

3, 4 and 5 shows an example of the construction of the penetration trench 10 using the permeable concrete pipe P of the present invention, the penetration trench 10 has a penetration function while performing a kind of manhole role It is connected to the penetration cylinder 20.

As shown, the permeable concrete pipe P of the present invention is installed at the center of the penetration trench 10, and the female and male connection parts 1a and 1b at both ends are fitted in the same length as general concrete pipes, and are connected to the required length. It is installed horizontally along the pipe direction.

Gravel layer 11 is installed in the periphery of the permeable concrete pipe (P) according to the present invention to uniformly distribute the effluent.

In the lower part of the gravel layer 11, a sand layer 12 having a predetermined thickness for protecting the excavated bottom surface is formed.

The permeation sheet 13 is wrapped around the gravel layer 11 so as not to flow into the gravel layer.

The penetrating trench 10 installed in the above structure is effective when installed and infiltrated close to the ground (unsaturated zone), and has a small impact on the groundwater quality because it penetrates into a form close to natural penetration.

In addition, the infiltration trench 10 having the above-described structure is a representative facility among the infiltration facilities by expansion type, and has a water intake function such as sewage pipe along with the infiltration and storage function, and thus can be used as a sewage pipe.

Figure 6 shows a construction example of the drainage trench 30 using the water-permeable concrete pipe (P) of the present invention.

The drainage trench 30 is installed in the same manner as the infiltration trench 10 described above, except that the sand layer 31 is installed in the periphery of the permeable concrete pipe p instead of gravel, so that the water in the ground flows to the permeable concrete pipe p. The difference is that it flows in and out.

The collection and drainage trench 30 installed as described above is suitable for a place where rapid drainage is required, such as a ground or a sports ground, which is connected to a sewage pipe, and serves to collect and discharge moisture in the ground.

As described above, the permeable concrete pipe of the present invention is used in the underground infiltration trench or the drainage trench, so that the rainwater flowing into the inside of the pipe is permeated to the ground, and the groundwater is cultivated. Perform a role of water supply such as

On the other hand, the present invention can be constructed in addition to the above construction examples infiltration facilities and water collecting facilities applied in various structural forms, the description thereof will be omitted because it can be easily implemented according to the technical idea of the present invention.

The present invention is constructed to be permeable as described above and is installed in connection with a water intake facility such as an excellent infiltration facility such as a penetration side outlet, a penetration penetration, a penetration infiltration, and a drainage side outlet, and has the following effects.

By restraining stormwater runoff and restoring it to the natural cycle as much as possible, it compensates the damage of the natural environment due to the pavement of the earth's surface.

Cultivate groundwater to secure water resources and preserve underground ecosystems.

Prevents disasters caused by groundwater disturbances such as ground subsidence and groundwater salting caused by depletion of groundwater.

In general, it contributes to the increase of the base flow of the river to maintain clean water quality and to prevent flood damage by reducing the amount of rainwater discharged to the river during rainfall.

It prevents and suppresses the heat island effect caused by the pavement of the earth's surface to maintain a pleasant environment.

Existing drainage facilities can be scaled down, access to sewers not required, and drainage can be reduced, thereby reducing the cost of drainage.

As described above, the present invention is a very useful design that is installed in the trenches of the ground and shows various effects such as preservation of natural ecosystems, securing water resources, maintaining the normal flow rate of rivers, and reducing the drainage treatment cost.

Claims (3)

The steel wire assembly interwoven with the horizontal iron wire and the vertical iron wire is formed into a hollow pipe body embedded in the inside of the pipe wall, and both ends of the hollow pipe body are formed of impermeable concrete parts (1) having high strength using fine aggregates, and the remaining intermediate Perforated concrete pipes for underground trenches, which are formed of porous concrete parts (2) having a flexural strength of 1.5 to 4.0 N / mm2 and having a permeability coefficient of 0.1 to 3 cm / sec while maintaining a porosity of 10 to 40% by using crushed stone. . According to claim 1, wherein the porous concrete part 2 is used for the crushed stone having an aggregate particle size of 0.6 ~ 5㎜, the unit cement amount is 220 ~ 450kg / ㎡, the water cement ratio is 25 to 40% and the cement aggregate ratio A permeable concrete pipe for underground trenches, which is molded from a mixture of 1: 3.5 to 7 and used for drainage. According to claim 1, wherein the porous concrete part 2 is used for the aggregate particle size 5 ~ 15mm crushed stone, the unit cement amount is 220 ~ 450kg / ㎡ and the water cement ratio is 25 to 40% and the cement aggregate ratio A permeable concrete pipe for underground trenches, which is molded from a mixture of 1: 4 to 8 and used for penetration.