KR200224165Y1 - A Small Infiltration Bucket - Google Patents

Abstract

The present invention is used in the small penetration box facility to infiltrate rainwater underground by being buried in the ground, and in particular, in conjunction with rainwater infiltration facilities such as infiltration trenches, penetrating ports and large infiltration lakes, it can suppress the outflow of rainwater from the earth The present invention relates to a small penetrating cylinder which can be restored by a cycle, wherein a wire assembly woven with a horizontal iron wire and a vertical iron wire is embedded into a hollow body in which the upper and lower sides of the hollow body are embedded, and the upper and lower ends of the hollow body are made of fine aggregates. It is formed of a water-impermeable concrete part 11, and the remaining middle part is a porous concrete part having a flexural strength of 1.5 to 3.0 N / mm 2 and a permeability coefficient of 0.3 to 3 cm / sec while maintaining a porosity of 20 to 40% using crushed stone ( 12) It is formed as a characteristic of technology composition, securing water resources through the cultivation of groundwater and protecting the ecosystem in soil. As well as to give, normally has an effect to the right to reduce the quantity to give to ensure clean water contributes to maintain the base flow of the rivers increases, the emission into the river during rain prevent flooding.

Description

A Small Infiltration Bucket

The present invention is used in small infiltration tank facilities to infiltrate rainwater underground by being buried in the ground. It relates to a small penetrating barrel which can be restored.

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 river flow is rapidly increased to cause 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 from the pitched concrete pavement in rainy weather is discharged to the side of the road and is discharged to the river through the underground drainage channel, which is very effective for the 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 is particularly designed to penetrate underground through rainwater collecting or rainwater passing through sideways and underground trenches.

Therefore, the purpose of the present invention is to make the concrete structure used in the small penetration tank facility which performs a kind of manhole role in the ground, and to connect with the excellent penetration facilities such as the penetration trench, the penetration side hole and the large penetration well, By restraining and restoring it to the natural cycle as much as possible, it secures water resources and preserves the soil ecosystem through the cultivation of groundwater, 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 discharged to the rivers during rainfall. It is to provide a small penetration box to prevent flood damage by reducing the amount of rain.

The present invention for achieving the above object is formed by the impermeable concrete portion of the upper and lower ends of the hollow body to have a high strength and to form the remaining intermediate portion of the porous concrete portion to maintain the porosity 20-40% while exhibiting flexural strength 1.5 ~ 3.0N / ㎠ To provide a compact concrete penetration tank having a coefficient of 0.3 ~ 3 cm / sec.

1A is an exploded perspective view of a small penetrating penetrating accessory according to a first embodiment of the present invention;

Figure 1b is a cross-sectional view of the infiltration facility constructed using a small penetrating barrel according to the first embodiment of the present invention

Figure 2a is an exploded perspective view of the small penetrating through the accessory according to the second embodiment of the present invention

Figure 2b is a cross-sectional view of the infiltration facility constructed using a small infiltration bin according to a second embodiment of the present invention

Figure 3 is an exploded perspective view of the penetration penetrating accessory according to a third embodiment of the present invention

Figure 4a is an exploded perspective view of the pitched concrete tank according to the fourth embodiment of the present invention

Figure 4b is a cross-sectional view of the infiltration facility constructed using a small penetrating barrel according to a fourth embodiment of the present invention

Figure 5a is an exploded perspective view of the pitched concrete tank according to the fifth embodiment of the present invention

Figure 5b is a cross-sectional view of the infiltration facility constructed using a small infiltration bin according to a fifth embodiment of the present invention

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

10a: cylindrical hollow body 10b: square box hollow body

11: impermeable concrete part 12: porous concrete part

13: Pipe connecting groove 14: Mounting groove

15: bulkhead 21: cover plate

22: concrete support 23: pipe for height adjustment

24: tube 31 for cover mounting: gravel layer

32: Permeable sheet 33: Porous concrete filter

A: Small penetration penetrating facility C: Penetration penetrating

P: Permeation Pipe T: Penetration Trench

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

Figures 1a, 2a, 3, 4a and 5a is shown a small penetrating barrel according to the first to fifth embodiments of the present invention.

In these drawings, the components of the embodiments with the same names are denoted by the same reference numerals.

The penetrating barrel according to the present invention is commonly formed into a hollow body in which an iron assembly (not shown) interwoven with a horizontal iron wire and a vertical iron wire is embedded in the interior of a wall, and the upper and lower ends are impermeable concrete parts having high strength using fine aggregates (11). ) And the remaining intermediate portion is formed of the porous concrete portion 12 using crushed stone.

In addition, at least one or more pipe connecting grooves 13 having a thin thickness are formed on the side wall of the hollow body so that they can be easily drilled.

According to the first embodiment of the present invention, the penetration cylinder shown in Fig. 1A is formed of a cylindrical hollow body 10a.

The cylindrical hollow body (10a) is designed to be installed alone in the ground, the upper end portion is formed with a mounting groove (14) is covered with a cover plate 21 that can be opened and closed and excellent passage.

The water-permeable concrete tank of this first embodiment is suitable for home use, and is particularly useful when used as a rain gutter of a rainwater container to penetrate into a residential land.

According to the second and third embodiments of the present invention, the penetration cylinder shown in FIGS. 2A and 3 is formed as a cylindrical hollow body 10a, but is designed to be stacked in multiple stages in the ground. The upper and lower ends formed of the impermeable concrete part 11 have female and male connecting parts formed so as to be connected when stacked in the ground.

When the cylindrical hollow body 10a according to the second and third embodiments is embedded in the ground, a concrete pedestal 22 formed in a circular ring shape is installed at a lower portion thereof. The upper part is provided with a height adjustment tube 23 and a cover mounting tube 24 made of impermeable concrete at a predetermined height, and can be opened and closed on the upper end surface of the cover mounting tube 24 and can pass through with excellent rain. The cover plate 21 is covered.

In the above, the cover mounting tube 24 shown in FIG. 2A according to the second embodiment is formed in a shape that opens upward, and the cover mounting tube 24 shown in FIG. 3 according to the third embodiment is directed upward. It is formed in the shape of narrowing.

The penetration cylinders of the second embodiment and the third embodiment as described above mainly collect rainwater on the road so as not to flow into the stream, and once the oil is infiltrated to reduce the burden of the sewer and the river.

According to the fourth and fifth embodiments of the present invention, the penetration cylinder shown in FIGS. 4A and 5A is characterized by being formed of a quadrangular box-shaped hollow body 10b.

These embodiments are also designed to be stacked in multiple stages in the ground as in the second and third embodiments, and the upper and lower ends are formed with female and male connections to be connected, and the concrete pedestals 22 are made of a quadrangular ring shape. ) Is installed at the bottom thereof.

The upper part is provided with a height adjustment tube 23 and a cover mounting tube 24 made of impermeable concrete at a predetermined height, and can be opened and closed on the upper end surface of the cover mounting tube 24 and can pass through with excellent rain. The cover plate 21 is covered.

According to the fifth embodiment, the quadrilateral box-shaped hollow body 10b shown in FIG. 5A is characterized in that the partition wall 15 is divided into two vertically.

The penetrating barrel of the fourth embodiment as described above is suitable for heavy rain water treatment or medium-scale buildings such as apartment houses, and the penetrating barrel of the fifth embodiment is suitable for driveway use.

On the other hand, the porosity, bending strength and permeability coefficients vary depending on the particle size of the aggregate and the maximum and minimum dimensions of the aggregate, and the strength decreases when the porosity and permeability coefficient increases, and conversely, when the bending strength increases Porosity and permeability coefficient are lowered. Therefore, the dimensions of the aggregates to be used should be examined according to the use of stormwater infiltration products.

The porous concrete part 12 of the penetrating cylinder according to the present invention exhibits a flexural strength of 1.5 to 3.0 N / mm 2 and a permeability coefficient of 0.3 to 3 cm / sec while maintaining a porosity of 20 to 40%.

The porous concrete part 12 uses crushed stone having an aggregate particle size of 5 to 15 mm, the unit cement amount is 220 to 450 kg / m2, the water cement ratio is 25 to 40%, and the cement aggregate ratio is 1: 4 to 8. It is preferably formed into a mixed material, and most preferably, using crushed stone having an aggregate particle size of 15 mm, exhibiting physical properties of 25% porosity, 2.0 N / mm 2 of bending strength, and 0.5 cm / sec of permeability.

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

The present invention is used to construct underground small infiltration tank facilities. Such small infiltration tank facilities can be installed independently like rain gutters, and connected with other infiltration facilities such as infiltration trenches, penetration holes and large sump wells. It can also perform the penetration function.

Fig. 1B shows an example of installation of a small penetrating barrel facility A installed independently without being connected to another penetrating facility using the penetrating barrel C according to the first embodiment of the present invention, and Figs. 2B and 4B. And FIG. 5B shows an example of the installation of the small penetration through facility A to which the penetration trench T is connected by using the penetration through C according to the second, fourth and fifth embodiments. have.

As shown in these drawings, the small penetration container facility A using the present invention is embedded in the ground so that the cover plate 21 forming the uppermost part is horizontal with the ground.

Then, the gravel layer 31 is provided in the periphery of the side portion and the lower portion of the penetrating barrel (C) of the present invention to distribute the effluent uniformly.

The permeation sheet 32 is wrapped around the gravel layer 31 so as not to flow into the gravel layer.

On the other hand, the penetrating barrel (C) according to the first embodiment of the present invention is used as a single layer as shown in Figure 1b to form one small penetrating barrel facility (A).

The penetration cylinder C according to the second, fourth and fifth embodiments is stacked in two stages on the concrete pedestal 22, as shown in Figs. 2B, 4B and 5B. The height adjustment pipe 23 and the cover mounting pipe 24 are sequentially stacked. The porous concrete filter 33 is interposed in the center of the concrete pedestal 22.

In addition, the penetration trench T is connected to the small penetration container facility A to which the penetration cylinder C according to the second embodiment, the fourth embodiment and the fifth embodiment is applied. The permeation pipe (P) is installed while passing through the pipe connection groove 13 formed in the side wall of the penetration tube (C).

Small infiltration tank facility installed in the above structure is good for penetrating ability because it penetrates to the shear surface while collecting rainwater during rain.

Therefore, the present invention not only reduces the burden of the river but also promotes the groundwater.

On the other hand, the subject innovation is to build a penetration facility applied in various structural forms in addition to the above construction examples, the description thereof will be omitted since it can be easily implemented according to the technical idea of the subject innovation.

The present invention is constructed to be permeable as described above and installed in connection with excellent infiltration facilities such as infiltration trenches, infiltration side mouths and large infiltration ponds.

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 exhaustion 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, which is installed in a small infiltration tank facility and shows various effects, such as conservation of natural ecosystem, securing water resources, maintaining the normal flow rate of rivers, and reducing the drainage treatment cost.

Claims (6)

The steel wire assembly interwoven with the horizontal iron wire and the vertical iron wire is embedded into a hollow body which is embedded in the interior of the wall and the upper and lower sides thereof are opened. The upper and lower ends of the hollow body are formed of impermeable concrete parts 11 having high strength using fine aggregates, and the rest. The middle part is a compact penetrating cylinder, characterized in that formed by the porous concrete part (2) having a flexural strength of 1.5 to 3.0 N / mm 2 and having a permeability coefficient of 0.3 to 3 cm / sec while maintaining a porosity of 20 to 40% using crushed stone. The small penetration tube according to claim 1, wherein at least one pipe connection groove (13) having a thin thickness is formed on the side wall of the hollow body so that it can be easily penetrated. The small penetrating cylinder according to claim 1, wherein the hollow body is formed of a cylindrical hollow body (10a). The small penetration cylinder of claim 1, wherein the hollow body is formed of a quadrilateral box-shaped hollow body (10b). The small penetration cylinder of claim 1, wherein the quadrilateral box-shaped hollow body (10b) is formed with a partition wall (15) for dividing the internal space vertically. According to claim 1, wherein the porous concrete portion 12 is used for the aggregate particle size 5 ~ 15㎜ of crushed stone unit unit amount of 220 ~ 450㎏ / ㎡ and water cement ratio of 25 to 40% and cement aggregate ratio A compact penetrating barrel, which is molded from a mixture of 1: 4 to 8.