KR101172668B1 - Rainwater retention structures, and its construction method - Google Patents

Abstract

PURPOSE: A rainwater storage structure and a construction method thereof are provided to reduce construction time by manufacturing box-shaped precast concrete blocks in a plant and assembling the manufactured precast concrete blocks on a construction site. CONSTITUTION: A rainwater storage structure is composed as follows. A storage structure(R) having water storage spaces(S) is formed by continuously connecting box-shaped precast concrete blocks(RCB1,2,3) in longitudinal and width directions. Each box-shaped precast concrete block has a top plate, a bottom plate, side plates, and openings. The side plates connect the upper and bottom plates to each other. The openings are formed on the side surfaces of the side plates.

Description

Rainwater retention structures, and its construction method

The present invention relates to an excellent storage structure and a construction method thereof, in particular, by assembling at least one or more box-shaped precast concrete blocks using a certain number of roadways and asphalt pavement, and installing the storage structure to install rainwater temporarily. It relates to an excellent storage structure and its construction method improved the disaster prevention function by storage and drainage treatment.

In recent years, the pavement rate of urban areas has been increasing, and in case of rain, this rainwater cannot penetrate underground, so it is flowing to the river after collecting the sewers along the pavement.

Such drainage of rainwater is calculated to be able to cope with a certain amount of rainfall, but in case of heavy rain, rainwater overflows the pavement in excess of the allowable amount of sewage.

Therefore, as a countermeasure in such a case, a reservoir is built underground, and this rainwater is temporarily collected in an underground reservoir, and gradually flows into the sewer.

Since it is built underground with such an underground water tank and uses the upper part as a living environment, what is constructed as follows is used, for example.

That is, a concrete foundation is formed on the base of the water storage area, and a plurality of box culverts are installed and fixed in the front and rear directions on the concrete foundation, and the rows of the box culverts connected in the front and rear directions are spaced apart from each other in a plurality of rows. do.

Subsequently, reinforcing bars are embedded between the bottoms of the box culverts in each of these rows, the site concrete is poured to form the top plate, and the box culverts are stacked in a vertically upward direction.

In addition, reinforcing bars are internally embedded between the upper portions of the box culverts in each row, and covers are integrally installed with concrete one by one.

First of all, the above-mentioned underground water tank is required to secure the required strength such that a general vehicle or the like can pass on the upper side, so the box culverts have to be aligned at a narrow interval, and the space utilization becomes smaller, which is much higher than the required amount. There was a problem to build a large area.

In addition, when the top plate is formed by on-site concrete pouring, it is not an easy task because the box culverts are arranged at narrow intervals, and it is particularly time-consuming to form the top plate in which reinforcing bars are embedded in each box culvert.

In other words, after forming the concrete foundation and arranging the box culverts on the concrete foundation, the concrete between the concrete base and the bottom wall is cast at least twice and cured as soon as concrete is placed between the bottom wall portions of the adjacent box culverts. There is a need.

In addition, when the box culverts are arranged side by side on the concrete foundation, height adjustment between the box culverts is necessary.

Therefore, when the spacer is provided between the concrete foundation and the lower surface of the box culvert, and the height is adjusted, the box culvert is not integrated with the foundation, and the load of the box culvert is applied to the foundation through the spacer, so the strength of the foundation If is inadequate, the load also tends to cause partial damage and uneven settlement.

In particular, such a conventional underground water tank has a problem that the box culvert does not exhibit sufficient strength to withstand load of heavy vehicles such as large vehicles or specific vehicles because the box culvert is stacked up and down.

 Since the existing underground water tanks like this are stacked up and down in the box culvert, the underground water tanks collect excellent water, but it is inevitable that earth and sand enter into the rain water even with a small amount.

And if the accumulated inflow of the soil increases, it may be below the prescribed amount of the underground reservoir.

Therefore, once every few years, it is necessary to clean the underground reservoir and remove soil and sand. However, in the conventional underground reservoir as described above, since the box culverts are arranged side by side at a narrow interval, heavy equipment and the like cannot be introduced. It was very time consuming to clean the roof by hand.

Moreover, although it is necessary to clean in order to collect earth and sand also in the box culvert, since the entrance and exit of this box culvert is small, the inside cleaning was also heavy labor.

In particular, this tendency is remarkable in large underground reservoirs.

Therefore, although it is thought to be able to operate small heavy equipment etc. at intervals side by side with the box culvert, the conventional box culvert needs to have predetermined intensity | strength as mentioned above, and there existed a limit.

However, there is a storage infiltration underground structure of rainwater that once stored the rainwater that has penetrated from the ground and penetrates naturally into the ground.

In these areas, by forming a required number of underground infiltration drainage holes, which are configured to infiltrate rainwater from the lower surface and both sides in a predetermined area, the watersheds are formed so as to accommodate all the rainfall in the area. In addition, a box-shaped culvert configured in the form of a concave excavation section having a required area and functionalizing infiltration of rainwater on both sides in the excavation section is connected in a longitudinal direction with a small number of columnar rainwater storage grooves. To form.

Since the above-described storage permeation underground structure of rainwater forms a continuous drainage line in parallel with the blocks, and infiltrates and drains in the middle of it, in order to create a facility having a low amount of water and a large amount of water, the drainage path should be formed long, and It is disadvantageous in terms of efficiency and cost.

Thus, there has been no conventional storage penetration underground structure having a low storage space occupancy and sufficient mechanical strength.

If it is possible to provide such an excellent storage penetration underground structure, it is preferable because the construction work can be made more efficient, the cleaning work can be facilitated, and the work cost can be reduced.

Therefore, the present invention was devised to solve the problems described above, the road surface is assembled and installed at least one or more box-shaped precast concrete blocks utilizing a certain space of the side opening and asphalt pavement excellent storage It is an object of the present invention to provide a storm storage structure and a construction method thereof by improving the disaster prevention function by temporary storm storage and drainage treatment of rainwater.

Excellent storage structure according to the present invention for achieving the above object is a top plate made of a rectangular shape, a lower plate disposed in the lower portion spaced apart from the upper plate by a predetermined distance, the side plate and the side plate for connecting between the upper plate and the lower plate And forming at least one or more box-shaped precast concrete blocks having openings, and connecting the at least one or more box-shaped precast concrete blocks in a longitudinal direction and a width direction in succession to at least one layer. The branches are characterized by forming a storage structure.

In addition, the excellent storage structure construction method according to the present invention for achieving the above object is a step (S1) to form a trench by digging the target road surface with a predetermined width and depth; Pouring and curing concrete at the bottom of the trench to form a foundation (S2); Assembling at least one or more box-shaped precast concrete blocks on the base portion to form an excellent reservoir structure.

As described above, the excellent storage structure and its construction method according to the present invention has the following effects.

First, the present invention has at least one or more box-shaped precast concrete block is manufactured in the factory to be assembled and installed in the field there is an advantage that can be installed at any time.

Second, the present invention produces at least one box-shaped precast concrete block at the factory, thereby contributing to the improvement of the function improvement effect such as air shortening, traffic control minimization, quality control, and maintenance, and the durability of the road more than on-site concrete. This has the advantage.

Third, the present invention has the advantage that can always be installed in an unspecified area without the difficulty of land purchase by using the underground space of the asphalt pavement in the city.

Fourth, the present invention has the advantage that the efficiency and disaster prevention function is also excellent than the existing excellent storage tank, and the disaster prevention function is possible immediately in the field to minimize the processing cost.

Fifth, the present invention is manufactured at the factory of at least one or more box-shaped precast concrete blocks at least one or more box-shaped precast concrete blocks are displayed in order to install each in order, so that the connection is good, and also cast-in-place concrete After casting and curing, the deformation does not occur, thus improving the function of early damage and irregularities due to the picking of the lanes of the existing asphalt pavement to prevent flattening, durability, and damage of asphalt pavement due to harvesting, thus preventing safety accidents. There is also an advantage to contribute.

Sixth, since the present invention is a net space of at least one box-shaped precast concrete block can be dredged easily with a suction dredger, the area in which foreign matters are deposited, it is not only easy to clean but also maintenance compared to other existing excellent storage tank There is an advantage to this.

1 is a perspective view showing an excellent storage structure according to the present invention 1,
Figure 2 is a front view showing an excellent reservoir structure according to the present invention 1,
3 is a perspective view 2 showing an excellent reservoir structure according to the present invention;
4 is a front view showing an excellent reservoir structure according to the present invention 2,
Figure 5 is a perspective view 3, showing an excellent reservoir structure according to the present invention;
Figure 6 is a front view showing an excellent reservoir structure according to the present invention 3,
7 is a perspective view 4, showing an excellent reservoir structure according to the present invention;
8 is a front view showing an excellent reservoir structure according to the present invention 4,
9 is a plan view showing a connection state of the storm storage structure according to the present invention,
10 is a longitudinal cross-sectional view showing a connection state of the storm storage structure according to the present invention,
11 is a cross-sectional view showing a connection state of the storm storage structure according to the present invention,
12 is an enlarged detailed view of a portion “A” of FIG. 11;
FIG. 13 is an enlarged detailed view of a portion “B” of FIG. 11;
14 is a cross-sectional view showing a state of use of the storm water storage structure according to the present invention,
15 is a cross-sectional view showing a state in which the rainwater storage structure according to the present invention is installed 1,
Figure 16 is a cross-sectional view showing a state in which the rainwater storage structure is installed in accordance with the present invention 2,
17 is a cross-sectional view showing a state in which the rainwater storage structure according to the present invention is installed 3.

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

1 is a perspective view 1, Fig. 2 showing the storm water storage structure according to the present invention is a front view 1, 3 is a perspective view of the storm water storage structure according to the present invention 2, FIG. 4 is a front view showing an excellent storage structure according to the present invention 2, Figure 5 is a perspective view 3, showing a storm storage structure according to the present invention, Figure 6 is a front view showing a storm storage structure according to the present invention 3, 7 is a perspective view 4 showing the storm water storage structure according to the present invention, Figure 8 is a front view showing the storm water storage structure according to the invention 4, Figure 9 is a plan view showing a connection state of the storm water storage structure according to the present invention, Figure 10 is a longitudinal sectional view showing a connection state of the storm water storage structure according to the present invention, Figure 11 is a cross-sectional view showing a connection state of the storm water storage structure according to the present invention, Figure 12 is an enlarged view "A" part of FIG. One detail, FIG. 13 shows the It is the detail which enlarged the "B" part.

As shown in these drawings, the excellent storage structure according to the present invention is a top plate 10 made of a rectangular shape, a lower plate 20 disposed below the predetermined distance from the top plate 10 and the top plate 10 ) And at least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) having an opening 40 at the side of the side plate 30 and the side plate 30 connecting the lower plate 20. And at least one or more box-shaped precast concrete blocks (RCBs 1, 2, and 3) having a storage space (S) by continuously connecting at least one or more layers in a longitudinal direction and a width direction. To form.

That is, the excellent storage structure (R) according to the present invention is at least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) in which the upper plate 10, the lower plate 20 and the side plate 30 are integrally formed. ) Is connected to the lower portion of the asphalt pavement (P) at least one or more in the longitudinal direction and the width direction, a structure having a storage space (S) that can temporarily store and drain rainwater.

Here, the top plate 10 is a rectangular precast concrete plate having a predetermined thickness and width, and at least one or more elliptical inlet holes 12 are formed on the surface thereof so that rainwater may flow into the top plate. At least one protrusion 14 is formed at one side of the protrusion 10, and at least one recess 16 is formed at the other side thereof.

The protrusions 14 and the recesses 16 of the upper plate 10 are at least one or more at least one box-shaped precast concrete blocks (RCB 1, 2, 3) interconnected in the longitudinal direction (interlocking) ) Is formed to be intimate and easy.

In addition, the lower plate 20 is a plate-like body formed to be spaced apart from the upper plate 10 by a predetermined interval below, the plate-like body having the same shape as the upper plate 10, the upper plate 10, if necessary inlet hole ( 12) is used, but the lower plate 20 uses a plate-shaped body of the stiffness so that the water is not pitched.

This is for the rainwater flowing through the inlet hole 12 of the upper plate 10 in the state in which the rainwater flows in the longitudinal direction of the lower plate 20 in the state stored on the lower plate 20 to be easily drained to the side opening (D). to be.

The side plate 30 is a concrete plate body connecting the upper plate 10 and the lower plate 20, and at least one or more openings 40 are formed in the width direction of the side plate 30 so that rainwater flows. At least one protrusion 32 is formed on one side of the side plate 30 in the width direction, and at least one recess 34 is formed on the other side of the side plate 30.

The protrusions 32 and the recesses 34 of the side plate 30 closely interconnect (interlock) at least one or more box-shaped precast concrete blocks RBC 1, 2, and 3 in the width direction. It is formed to facilitate.

In addition, at one side of the at least one box-shaped precast concrete blocks (RCB 1, 2, 3) of the upper plate 10 and the bottom plate 20 between the bottom of the protruding jaw 50 is formed on one side is formed On the other side, the recessed inlet jaw 52 is formed, and the interconnection (interlocking) in the longitudinal direction of the at least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) is tight and easy. It is formed to make.

On the other hand, at least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) consisting of the upper plate 10, the lower plate 20 and the side plate 30 is one row without a side wall relative to the center side wall. Box-shaped precast concrete block (RCB 1), double box-shaped precast concrete block (RCB 2) with one center side wall, triple box-shaped precast concrete block (RCB 3) with two center side walls, etc. Note that it can be formed in various ways.

In addition, the at least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) are formed at the same height, or two box-shaped precast concrete blocks (RCB 2) are formed the same, The connected box-shaped precast concrete blocks RCB 1 may be formed low to form a height difference h between at least one box-shaped precast concrete blocks RCB 1, 2 and 3. Reveal.

This means that at least one box-shaped precast concrete block (RCB 1, 2, 3) is at least one box-shaped precast concrete block, depending on the location where the assembly and installation of the box-shaped precast concrete blocks (RCB 1, 2, 3) The cast concrete blocks (RCB 1, 2, 3) is formed low, the high part corresponds to the side opening (D) part, so at least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) high Form.

That is, when the part where the at least one or more box-shaped precast concrete blocks RCB 1, 2 and 3 are assembled and located is the side opening D, at least one or more box-shaped precast concrete blocks RCB 1. , 2, 3) to form a high height, and under other sidewalks, under the curb, under the driveway is formed low.

Rainwater storage structure (R) according to the present invention made of a configuration as described above, as shown in Figure 14, rainwater precipitated on the sidewalk flows into the upper portion of the stormwater storage structure (R) along the road surface penetration direction of the sidewalk. The rainwater that has been precipitated on the roadway flows into the upper portion of the rainwater storage structure R along the asphalt pavement P of the roadway, and the rainwater introduced from the sidewalk and the roadway has a side opening 40 of the rainwater storage structure R. Through the right and left to temporarily store and store in the storage space (S) of the storm water storage structure (R), and then drained to the outside through the side opening (D) connected to the storm water storage structure (R). .

In this way, at least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) are assembled using the road surface generated in the sidewalk or roadway using a certain space at the lower side of the side opening (D) and the asphalt pavement (P). By temporary storage and drainage treatment through the excellent rainwater storage structure (R), there is an effect that can overcome the water collection and overflow phenomenon of the side opening (D) of the asphalt pavement (P).

Hereinafter, the construction of the excellent reservoir structure according to the present invention having the configuration as described above.

Figure 15 is a cross-sectional view showing a state in which the rainwater storage structure according to the present invention 1, Figure 16 is a cross-sectional view showing a state in which the rainwater storage structure according to the present invention is installed, Figure 17 is a rainwater storage structure in accordance with the present invention 3 is a cross-sectional view showing the state.

As shown in these drawings, the excellent storage structure construction method according to the present invention comprises the steps of forming a trench (T) by digging the target road surface (G) to a predetermined width and depth (S1); Placing and curing concrete at the bottom of the trench (T) to form a foundation (B) (S2); Step (S3) is formed by assembling at least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) on the base portion (B) to form an excellent reservoir structure (R).

That is, in the method of constructing the excellent storage structure according to the present invention, after trenching the target road surface (G) to form a trench (T), after the concrete is cast and cured in the trench (T) to form the foundation (B) At least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) on the base portion (B) are connected to each other in the width direction and the length direction to form an excellent storage structure (R). It is.

Here, the trench forming step (S1) is a step of forming a trench (T) with a flat bottom by excavating and digging a target road surface (G) on which the rainwater storage structure (R) is to be installed with a fork lane at a predetermined width and depth.

Subsequently, the foundation portion forming step S2 is to form and form the foundation portion B by pouring and curing concrete on the bottom of the trench T. Preferably, at least one or more box-shaped precast concrete blocks ( The upper surface of the base portion B on which the RCBs 1, 2, and 3) are to be installed is formed to have a smooth surface for smooth storage and drainage of rainwater.

Subsequently, the step of installing the excellent storage structure (S3) is a top plate 10 made of a quadrangular shape, a lower plate 20 disposed at a lower portion spaced apart from the upper plate 10 by a predetermined interval, and the upper plate 10 and the lower plate ( 20) forming at least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) having an opening 40 in the side plate 30 and the side plate 30 connecting the side plate 30, the at least One or more box-shaped precast concrete blocks (RCB 1, 2, 3) are connected at least one continuously in the longitudinal direction and the width direction to install a storage structure (R) having a storage space (S).

Here, the rainwater storage structure (R) is at least one or more elliptical inlet hole 12 is formed in the upper plate 10 of the box-shaped precast concrete blocks (RCB 1, 2, 3) at least one or more At least one protrusion 14 is formed on one side of the upper plate 10 of the at least one or more box-shaped precast concrete blocks RCB 1, 2, and 3, and the recess 16 is formed on the other side thereof. At least one or more is formed in the recess, at least one or more projections 32 on one side in the width direction of the side plate 30 of the at least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) The protrusions are formed, and at least one recess 34 is recessed on the other side, and the upper plate 10 and the bottom plate of the at least one or more box-shaped precast concrete blocks RCB 1, 2 and 3 are formed. 20) A protruding jaw and a concave jaw are formed at an intermediate point of the liver, and the three box-shaped precasts The concrete block RCB 3 uses a height difference h formed between two box-shaped precast concrete blocks RCB 2 and a series of box-shaped precast concrete blocks RCB 1.

In particular, during the construction of the excellent storage structure (R) it is preferable to connect the construction of the box-shaped precast concrete blocks (RCB 1, 2, 3) of each box-shaped in order to connect.

On the other hand, the paving step (S4) may be installed by adding a pavement step (P) or concrete pavement on the rainwater storage structure (R), if necessary, after installing the rainwater storage structure (R). To reveal.

Excellent storage structure (R) according to the present invention made of a construction as described above is excellent to install at least one box-shaped precast concrete blocks (RCB 1, 2, 3) in the factory simply assembled and installed on site By forming the storage structure (R), it can be installed at any time during the day and night, and by utilizing the underground space directly below the existing asphalt pavement (P), can be installed anywhere in the unspecified area without additional land purchase, heavy rain and heavy rain After storage and storage at a time, the drainage is gradually made through the side opening (D), so the immediate disaster prevention function in the field is possible, so no additional disaster prevention treatment cost is incurred.

On the other hand, the excellent storage structure (R) according to the present invention as described above can be easily removed by the suction dredger to remove foreign substances deposited on at least one or more box-shaped precast concrete block (B) cleaning and maintenance It is easy to work.

10: top plate 12: inlet hole
14: projection 16: groove
20: lower plate 30: side plate
32: protrusion 34: groove
40: opening 50: protruding jaw
52: recessed jaw B: foundation
D: side opening h: height difference
G: Road surface P: Asphalt or concrete pavement
RCB: Box Shaped Precast Concrete Block
RCB 1: Double box precast concrete block
RCB2: Double Box Precast Concrete Block
S: reservoir space R: storm reservoir
T: Trench

Claims (14)

The upper plate 10 made of a quadrangular shape, the lower plate 20 disposed below the upper plate 10 at a predetermined interval, and the side plate 30 connecting the upper plate 10 and the lower plate 20 and the At least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) having an opening 40 on the side of the side plate 30,
At least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) are continuously connected in at least one layer in the longitudinal direction and the width direction to form a storage structure (R) having a storage space (S). and,
The side plate 30 of the at least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) is formed with at least one protrusion 32 protruding on one side in the width direction, the other side groove ( 34) Storm water reservoir, characterized in that at least one or more indentations are formed. delete delete delete The method of claim 1,
The protruding jaw 50 is formed on one side of the intermediate point between the top plate 10 and the bottom plate 20 of the at least one or more box-shaped precast concrete blocks RCB 1, 2, and 3, and the recessed jaw ( 52) excellent reservoir structure, characterized in that formed. delete Digging the target road surface G with a predetermined width and depth to form a trench T (S1);
Placing and curing concrete at the bottom of the trench (T) to form a foundation (B) (S2);
Assembling (S3) to form an excellent reservoir structure (R) by assembling at least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) on the base (B),
The excellent storage structure (R) is formed between the upper plate 10 made of a rectangular shape, the lower plate 20 disposed below the predetermined interval spaced from the upper plate 10, and the upper plate 10 and the lower plate 20 At least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) having an opening 40 on the side plate 30 and the side plate 30 to be connected to each other, and the at least one or more boxes Precast concrete blocks (RCB 1, 2, 3) of the shape to form a storage structure (R) having a storage space (S) by continuously connecting at least one or more layers in the longitudinal direction and the width direction,
The side plate 30 of the at least one or more box-shaped precast concrete blocks (RCB 1, 2, 3) is formed with at least one protrusion 32 protruding on one side in the width direction, the other side groove ( 34) The construction method of storm water storage structure, characterized in that at least one or more indentations are formed. delete delete delete delete delete The method of claim 7, wherein
The protruding jaw 50 is formed at one side of the intermediate point between the top plate 10 and the bottom plate 20 of the at least one or more box-shaped precast concrete blocks RCB 1, 2 and 3, and the recessed jaw ( 52) excellent storage structure construction method characterized in that the formation.
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