KR100485742B1 - Water-storage tank - Google Patents

Abstract

A rainwater storage tank is provided to reduce the construction cost and time by assembling blocks and slabs by a screw member having male screws at both sides while temporally assembling the blocks with a couple guide pin. A rainwater storage tank is composed of a block for a body unit(1), a block for a peripheral part(2), and a slab. The block for the body unit comprises posts set erectly at right angle on four corners of upper and bottom plates; openings formed on four surfaces by the posts; through-holes arranged on upper and lower parts of the posts and formed with nut placing grooves therein; and plural grooves to which couple guide pins are inserted. The block for the peripheral part has the same constitution of the block for the body unit except for at least one closed surface. The slab is extended outward from the block for the peripheral part to close the opening of the block for the peripheral part and combined to the block for the peripheral part by a screw member(17).

Description

Water-storage tank

The present invention relates to underground buried and underground permeable storm storage tanks that temporarily store and discharge stormwater.

In recent years, with the increase of buildings and the increase of the surface pavement rate, rainwater is flowing into sewers or rivers at once without heavy flooding during heavy rains, and flooding may occur as a result of exceeding the inflow allowance. On the other hand, if the inflow of the river is small, the water quality deteriorates, and the groundwater is also depleted, which causes problems. For this reason, the technique of storing rainwater once in a storage tank and adjusting the outflow into a river is developed.

One such technique is disclosed in Japanese Patent Laid-Open No. 6-27299. In order to reduce the weight of the block unit, the present invention has horizontal beams installed at the upper edges of the four corner pillars of the bottom plate, and a main block having a top opening formed between the horizontal beams of the front, rear, left, and right sides, and both side edge portions of the side plate. A U-shaped peripheral block having a sleeve wall portion connecting the top plate portion and an end portion of the bottom plate portion to the bottom portion, and a bottom plate portion connected to the bottom portion of the side plate portion to connect the top plate portion to the upper portion, thereby providing a corner wall block. The side opening of the block group for the main body portion is closed by the peripheral block, and the upper surface opening of the block for the main body portion is closed by a lid plate mounted on the horizontal beam.

However, such an excellent storage tank has the advantage of being easy to transport or handle by lightening the weight of each block, but since each part is separated, it requires a lot of labor and assembly time to assemble and install each part, resulting in high construction cost. There was a problem of increasing.

Accordingly, an object of the present invention is to provide an excellent storage tank that can reduce the construction cost by constructing an excellent storage tank with less labor and time.

As described above, the pillars are provided at right angles at four corners of the front plate, the front plate and the bottom plate at right angles, respectively, and the openings are formed on four sides by the pillars, Blocks for the body portion is formed in the through hole is formed in the inner side of the nut set groove, respectively, a plurality of grooves are respectively formed on the outer surface of the couple guide pin is inserted; Peripheral block having the same configuration as the block for the main body, except that at least one of the four surfaces has a closed shape; An excellent storage tank according to the present invention, characterized in that it comprises a slab coupled to the peripheral block by a screw member extending outwardly from the peripheral block to close the opening of the peripheral block facing outward when assembled. Can be achieved by

When the rainwater storage tank according to the present invention is constructed by underground infiltration, a plurality of drainage holes are formed at a height of 1/2 so that the rainwater stored in the rainwater storage tank is gradually drained underground when the slab is constructed by underground penetration. do.

In the above, the urethane storage tank according to the present invention is assembled in a state in which a filter member is provided to prevent the soil from penetrating inward when drained through the drain hole.

In addition, when the blocks are assembled, a watertight rubber packing is provided between the blocks to prevent leakage of rainwater stored in the gaps between the blocks, and the watertight rubber packing is separated from the blocks. The gaps between the blocks are filled with resin to prevent them.

In addition, an index sealing member in the form of a closed curve surrounding the opening of the peripheral block is provided inside the slab.

The index sealing material is made of tubular material.

In the above, the through holes are preferably filled with non-shrink mortar after the blocks are joined, and the nut settles formed in the upper and lower portions of the pillar are filled with mortar.

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

1 is a schematic perspective view of the storm storage tank according to the present invention, Figure 2 is a schematic plan view of the storm storage tank according to the present invention shown in Figure 1, Figure 3 is a cross-sectional view taken along the line III-III of Figure 2, Figure 4 4 is a cross-sectional view taken along the line IV-IV of FIG. 2, FIG. 4 is a cross-sectional view taken along the line IV-IV of FIG. 2, FIG. 5A is a perspective view of a block for the main body portion used in the storm storage tank of FIG. 1, FIG. 6 is a perspective view of a block for a main body portion used in the storm storage tank, FIG. 6 is a perspective view of a block for the peripheral portion used in the storm storage tank of FIG. 1, and FIGS. 7A and 7B respectively show a slab installed in the peripheral block shown in FIG. Perspective view.

As shown in the figure, the storm storage tank according to the present invention is installed in the periphery of the main block (1) and the main body block (1) located in the central portion of the storm storage tank largely surrounding the periphery of the storm storage tank It consists of the bouillon block 2 and the slab 3 for closing the opening formed in the peripheral block 2.

As shown in FIG. 5A, the main body block 1 is provided with pillars 7 upright at right angles at four corners of front, rear, left, and right of the top plate 5 and the bottom plate 6, respectively. Openings are formed in four surfaces of the block 1 for main body parts. As can be seen from the figure, the pillars 7 are formed with an inclined surface at an opening side end portion adjacent to the top plate 5 and the bottom plate 6. The inclined surface portion 7a has a total of 16, two at the top and the bottom of each column 7, and the inclined surface portion 7a is connected to each other by connecting the main block 1 and the peripheral block 2 to each other. Through-holes 9 for constituting the storm reservoir as shown in Figs. 1 to 4 are formed, respectively.

Inside the inclined surface portion 7a where the through hole 9 is formed, a nut settling groove 10 is formed in which nuts (not shown) used to form the storm reservoir are formed by combining the blocks 1 and 2. . The body block 1 is also provided with grooves 8, preferably conical grooves, into which the couple guide pin 14 is inserted, preferably conical grooves, to facilitate the connection when connecting the blocks together.

As shown in Fig. 6, the peripheral block 2 constituting the periphery of the storm storage tank has a block 1 for the main body in its overall configuration except that at least one of the four surfaces is closed. The configuration is the same. As can be seen clearly from FIG. 2, the peripheral block 2 is a peripheral block 2 positioned at both ends of the storm storage tank when the blocks 1 and 2 are assembled to form a quadrilateral storm reservoir. Openings are closed by the slab 3.

The slab 3 is made of a flat concrete structure as can be seen from FIGS. 7A and 7B, the size of which is larger than the opening to close the opening formed in the peripheral block 2 as can be seen from FIG. 1. The nut member 4 is provided at the four inner corners of the inner surface at a position made slightly larger and corresponding to the through holes 9 as can be seen from FIG. 7A. In addition, a plurality of drain holes 3a may be formed in the slab 3 as illustrated in FIG. 7B so that rainwater stored in the rainwater storage tank may be discharged underground.

These drainage holes (3a) is formed at a half point of the height of the slab (3) as can be seen from the drawing, the rainwater flowing into the rainwater reservoir can be drained about 50% of the base water based on the water level. When the rainwater stored in the rainwater storage tank is drained underground through the drain hole 3a, the rainwater is gradually drained underground through the plurality of drain holes 3a formed in the slab 3.

The body block 1 and the peripheral block 2 having the structure as described above have a size of approximately 2300 × 2300 × 3100 mm and are made of a concrete structure provided with reinforced concrete therein. In addition, the amount of storage is about 11 m 3 at the time of high water, and the block 2 for the main part is about 9.6 m 3, and the size of the slab 3 is 1700 × 250 × 2900 mm. Sifted.

When the storm storage tank is composed of blocks 1 and 2 and slab 3 as shown in Figs. 1 to 4, a disinfectant disinfectant such as chlorine is added to the storm storage tank in the central peripheral block 2. A disinfectant inlet 11 may be provided, and a manhole mounting hole 12 in which a manhole is installed may be formed in the block 1 for the main body unit located at the center so that rainwater may be introduced into the rainwater storage tank. In addition, as shown in FIG. 5B, an opening 15 is formed in the lower portion of the main body block 1 in which the manhole mounting hole 12 is formed, and the sludge settling tank 16 is installed in the main body block 1. do. Therefore, in order to clean the storm storage tank, in the state where all the storm water stored in the storm water storage tank is removed, the worker enters the storm water storage tank through the manhole installation hole 12, and the sludge deposited on the bottom of the storm water storage tank lower opening 15 Through the sludge settling tank 16 through, the sludge collected in the sludge settling tank 16 is discharged to the outside through a means such as a pump, rainwater storage tank can be easily cleaned.

On the other hand, the assembly or coupling of the respective blocks (1, 2) and the slab 3 will be described schematically with reference to the drawings.

First, inserting half portions of the couple guide pins 14 having a convex shape in the center portion as shown in the drawing in the conical grooves 8 formed on the outer surface of one of the blocks 1 and 2 to be joined, By fitting the protruding portions of these couple guide pins 14 into the conical grooves 8 of the other block, one block is temporarily joined to the other block. In this state, as shown in FIG. 9, one male thread of the screw member 17 having male threads on each side thereof is formed through the through holes 9 formed in the blocks 1, 2 of each block 1, 2. When protruded inward, the blocks can be firmly connected to each other by fastening the nut 18 to the protruding male thread, and then fastening the nut 18 to the other male screw.

At this time, since the blocks 1 and 2 are temporarily engaged by the plurality of couple guide pins 14 by the screw members 17, the blocks 1 and 2 are engaged as described above by the screw members 17. The connection of the (1, 2) can be easily carried out. On the other hand, the blocks 1, 2 are first combined with one body block 1 and one peripheral block (2), it may be combined in the longitudinal or transverse direction.

When the blocks 1 and 2 are joined as described above, between the blocks 1 and 2, that is, the openings of the blocks 1 and 2, a U-shaped exponential rubber packing (as shown in Fig. 8A) ( 19) is provided to prevent leakage of rainwater stored in the storm water reservoir into the gap between the blocks 1, 2 as shown in FIG. 8B. Further, when the watertight rubber packing 19 is installed in the openings of the blocks 1 and 2 as described above, the watertight rubber packing 19 is used to prevent the watertight rubber packing 19 from being separated from the blocks 1 and 2. The gap between the blocks 1 and 2 provided with the rubber packing 19 is filled with the resin 20.

Also, even when the slab 3 closes the opening of the peripheral block 2, the opening of the peripheral block 2 is also provided between the slab 3 and the peripheral block 2 as shown in FIG. An index seal 21 in the form of an enclosed closed curve is provided inside the slab 3. The watertight seal 21 is made of a tubular material as can be seen from FIG. The sealing member 21 is a nut member in which one male screw of the screw member 17 is embedded in the slab 3 through a through hole 9 formed in the inclined surface 7a of the column 7 of the block 1 or 2. The nut 18 is fastened to the other male screw of the screw member 17 in the nut settling groove 10 formed on the inclined surface 7a, between the block 1 or 2 and the slab 3. Squeezed.

At this time, the through holes 8 are filled with non-shrink mortar after the blocks 1 and 2 are joined, and the nut settling grooves 8 formed in the upper and lower portions of the pillar 7 are filled with mortar.

3 and 4, when the installation state of the storm storage tank according to the present invention is schematically described, the foundation rubble layer 26 is stacked on the ground on which the storm storage tank is installed, and the foundation rubble layer 26 is formed. The foundation concrete layer 22 is laminated. A finishing mortar layer is applied on this concrete layer 22, and the blocks 1 and 2 are assembled as described above, so that an excellent storage tank according to the present invention can be constructed. After the storm reservoir is constructed, the storm reservoir is embedded by the soil 25 having a height of about 1 m.

Before the rainwater reservoir is filled by the earth and sand 25, the disinfectant inlet 11 and the manhole mounting hole 12 are respectively provided with a manhole mounting pipe 17 having the same height as the soil sand 25. The upper part of 17 is closed by the manhole cover 18, respectively, when the soil 25 is buried.

As the slab 3 used in the storm storage tank having such a construction structure, the slab 3 as shown in Fig. 6A in which the drain hole 3a is not formed is used.

10 is a view schematically showing a state in which the rainwater storage tank according to the present invention is installed in the underground penetration type.

In this case, in the state where the outer drain of the peripheral block 2 is closed by the slab 3 in which the drain hole 3a is formed, the rainwater storage tank is buried underground about 1 m. Therefore, the rainwater introduced into the storm reservoir is formed at the half point of the height of the slab 3 as described above, so that the rainwater flowed into the storm reservoir is about 50% of the water into the basement. Drained.

Thus, when the rainwater storage tank according to the present invention is installed in the basement penetration type, first digging a pit having a certain width and depth, and then flatten the bottom. The pit is made of an inclined surface as can be seen from Fig. 10, and the rainwater reservoir is constructed in the central portion of the pit after the filter member 23, such as a nonwoven fabric, is placed on the bottom and side of the pit. After the storm reservoir is constructed in the center of the pit, the sandstones 24 are filled between the side of the storm reservoir and the side of the pit.

Therefore, when the rainwater stored in the rainwater storage tank is drained underground through the drain hole 3a formed in the slab 3, the earth and sand can be prevented from entering the rainwater storage tank together with the rainwater by the nonwoven fabric 23 laid in the pit. . Therefore, the nonwoven fabric 23 functions as a filter which prevents the earth and sand from flowing into an excellent storage tank.

According to the rainwater storage tank according to the present invention having the structure as described above, since each of the blocks and the slab is assembled using a screw member formed on both sides in the temporarily assembled state with the couple guide pin, compared with the conventional rainwater storage tank The construction cost can be reduced by constructing an excellent storage tank with less labor and time.

1 is a schematic perspective view of the storm storage tank according to the present invention.

Figure 2 is a schematic plan view of the storm storage tank according to the present invention shown in FIG.

3 is a cross-sectional view taken along line III-III of FIG. 2;

4 is a cross-sectional view taken along the line IV-IV of FIG.

FIG. 5A is a perspective view of a block for a main body portion used in the storm storage tank of FIG. 1; FIG.

Figure 5b is a perspective view of the block for the body portion used in the storm water storage tank of Figure 1 where the manhole is installed.

6 is a perspective view of a peripheral block used in the storm storage tank of FIG.

7A and 7B are perspective views illustrating slabs installed in the peripheral block shown in FIG. 6, respectively, and FIG. 7A is a view illustrating an insert installed inside the slab, and FIG. 7B is a form in which drain holes are installed. Figure.

FIG. 8 is a diagram showing an example of an exponential method for preventing leakage of rainwater when the blocks for the main body parts shown in FIGS. 5A and 5B are respectively coupled;

Fig. 9 shows an example of an exponential method for preventing leakage of rainwater when a slab is installed in a peripheral block.

10 is a view schematically showing a state in which the rainwater storage tank according to the present invention is installed in the underground penetration type.

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

1: Block for main body 2: Block for peripheral part

3: slab 3a: drain hole

4 nut member 5 top plate

6: bottom plate 7: pillar

7a: slope 8: groove

9 through hole 10 nut settling groove

11: disinfectant inlet 12: manhole installation

14: couple guide pin 15: nut member

16: sludge settling tank 17: screw member

18 nut 19 rubber seal for water

20: Resin 21: Sealant for water

22: foundation concrete layer 23: filter member

24: Sasa 25: Tosa

26: foundation rubble

Claims (7)

Pillars are provided upright at right angles to each of four corners of the top and bottom plates. The openings are formed at four sides by the pillars, and a plurality of nut recesses are formed at the upper and lower portions of the pillars. Blocks for the body portion are formed in the through-holes are formed, respectively, a plurality of grooves in which the couple guide pin is inserted in the outer surface; Peripheral block having the same configuration as the block for the main body, except that at least one of the four surfaces has a closed shape; And a slab coupled to the peripheral volume by a screw member extending outwardly from the peripheral block to close the opening of the peripheral block facing outward when assembled. The rainwater storage tank according to claim 1, wherein when the slab is constructed by underground infiltration, a plurality of drainage holes are formed at a height of 1/2 so that the rainwater stored in the rainwater storage tank is gradually drained underground. 3. The storm storage tank according to claim 2, wherein the storm water storage tank is assembled in a state where a filter member is provided to prevent soil from penetrating inwardly through the drain hole. The watertight rubber packing is provided between the blocks to prevent the leakage of rainwater stored in the gaps between the blocks when the blocks are assembled, and the watertight rubber packing is provided between the blocks. Storm water storage tank, characterized in that the gap between the blocks to be filled with a resin in order to prevent the separation from the. The storm storage tank according to claim 1, wherein a watertight seal in the form of a closed curve surrounding the opening of the peripheral blocks is provided inside the slab. 6. The storm storage tank according to claim 5, wherein the index sealing member is made of a tubular material. The method according to any one of claims 1 to 6, wherein the through holes are filled with non-shrink mortar after the blocks are joined, and the nut set grooves formed in the upper and lower portions of the pillar are filled with mortar. Reservoir.