KR101238199B1 - Nano Silver Treatmented Rain Reservoir with Hybrid Type of Frame - Google Patents

Abstract

The present invention relates to a rainwater infiltration and storage tank for storing rainwater underground and using it for various purposes or permeating underground to reduce rainwater discharge, cultivate depleted groundwater, and supply water to soil. The rainwater penetration and storage tank of the present invention is a glass fiber mat (Glass Mat) after mixing the silver and nano-treated polypropylene (PP) resin pellets with a general polypropylene (PP) resin pellets in a blending ratio of 10: 90, It is provided to include the antimicrobial composite material made by heating and press-pressing together with the thermoplastic (GMT) as a constituent material, the rainwater penetrating / storage tank of the present invention forms a plate-like shape, a plurality of upper and lower panels with a corner portion cut ( 1, 2, a plurality of main pillars 3 supporting the upper and lower panels 1 and 2 at the corners of the upper and lower panels 1 and 2, and the upper and lower panels 1, 2) includes a plurality of central auxiliary pillar (4) for supporting the upper and lower panels (1, 2) in the central portion, the plurality of main pillars (3) has an internal space of steel or reinforced concrete or Filled with mortar to change the design load Corresponding structural stress is provided as a variable hybrid reinforcement structure, and by varying the arrangement interval of the hybrid reinforcement structure can be provided by tailoring the reinforcement structure of the rainwater penetration and storage tank according to the vertical load size Has

Description

Nano Silver Treatmented Rain Reservoir with Hybrid Type of Frame}

The present invention relates to rainwater permeation and storage tanks to cultivate depleted groundwater and supply moisture to soil by storing rainwater for a long time in underground storage tanks and using them for various purposes or infiltrating underground. Each member constituting the storage tank is light and can be fastened to the assembly type, so it is easy to construct, and it is treated with nano silver even after long-term storage of rainwater, so that rainwater such as microorganisms are not contaminated. Underground depth change and design load The present invention relates to a rainwater penetration and storage tank equipped with a hybrid reinforcement structure system which is easy to change stress structure under the conditions of.

As urbanization continues, the impervious layer increases due to construction and road pavement, while the concentration of rainfall in each season is intensified due to climate change, and rainwater does not penetrate into the ground, resulting in flooding of rivers, flooding and flooding in urban areas. In addition, the rainwater infiltration into the ground is reduced, and the rainwater is not naturally circulated due to the depletion of spring water and the drying of the soil.

In order to solve this problem, it has been required to improve the performance of rainwater storage tanks that can control the amount of runoff into rivers by storing rainwater in subwatersheds when it rains. However, conventional rainwater storage tanks are concrete or polypropylene (PP). ')) Made of concrete, the concrete material had a problem that takes a lot of construction period, when the production of only PP material was good to handle, but there was a problem of insufficient strength.

In addition, since rainwater storage tanks are generally buried underground, defects such as deflection and destruction occur in storage tanks when the depth of landfill is deep, when a heavy vehicle passes, or when the loading load is exceeded. There was a problem that was vulnerable to deflection and creep deformation.

For example, we analyzed the design load of the existing PP material rainwater storage tanks. The vertical load is 15 ton / m2 and the horizontal load is 4 ton / m2. It required 60 ~ 70kg / m² of PP per unit body space to make it, and the storage tank made of PP material was virtually impossible to use at design load exceeding 15 ton / m².

In addition, the existing rainwater storage tank made of PP material has a problem that it is difficult to maintain such as removing sludge accumulated inside, and the conventional rainwater storage tank has high surface contamination and bioactivity, and when the stored rainwater is left for a long time, Rainwater was contaminated due to the occurrence of microorganisms had a problem that the use of stored rainwater is extremely limited.

In addition, Korea is classified as a water-deficient country, and the Act on the Promotion and Support of Water Reuse, which regulates the installation and management of rainwater utilization facilities, has been enacted from this year. In the case of the rainwater storage tank where the rainwater is stored underground for a long time, there is a possibility that the rainwater may be contaminated by the growth of various microorganisms along with organic substances introduced from the ground, and the concrete storage tank operated by the National Emergency Management Agency and Seoul City. More than 50% of the pollutants are polluted, which makes it difficult to safely and safely use rainwater from storage tanks.

The technology that is the background of the present invention is Republic of Korea Patent Publication No. 10-0582121 (May 22, 2006), Republic of Korea Patent Publication No. 10-0938223 (January 22, 2010), Republic of Korea Patent Publication 10-0988806 (October 20, 2010).

The present invention is to solve the above problems, the rainwater is stored in the rainy season to the basement to reduce the runoff to the river, even if the rainwater stored in the basement for a long time that the rainwater is contaminated or microorganisms in the rainwater is activated. By preventing the water in advance, it is possible to safely use the rainwater stored in clean and sanitary water as a living water, a green factory, a rainwater pool, firefighting water, and a rainwater seal spring water to maximize the usefulness of the rainwater. At the same time, in the dry season, the rainwater that has the function of functioning as an infiltration tank to restore the ecosystem of the city by helping the water circulation in the city by cultivating the groundwater by infiltrating the stored rainwater into the ground around the reservoir. The purpose is to provide infiltration and storage tanks.

It is another object of the present invention to provide a rainwater penetrating and storage tank equipped with a low cost and high efficiency customized structural system that can be easily changed and applied to a reinforcement structure of one basic storage tank structure according to a change in a buried depth and a load condition. .

In addition, an object of the present invention is to provide a rainwater infiltration / storage tank that can be used to always clean and maintain the rainwater, such as sludge removed in the storage tank by improving the lower structure of the rainwater penetration / storage tank.

The present inventors heat and press process the nano silver treated PP resin together with Glass Mat Thermoplastic (hereinafter referred to as 'GMT') to manufacture antimicrobial members of rainwater penetration and storage tanks, Developed and introduced a hybrid reinforcement structure system to fasten and assemble each other to produce rainwater penetration and storage tanks, and to selectively reinforce the structure of the rainwater penetration and storage tanks with steel or reinforced concrete or mortar. The present invention has been accomplished by finding out that the above object can be achieved by providing a working tool for cleaning work and the like in the infiltration and storage tank. More specifically, the present invention provides the following.

The present invention provides an underground storage tank for storing rainwater, comprising: a reinforced concrete floor forming a foundation of the storage tank; A plurality of upper and lower panels forming a plate shape and having corner portions cut out as horizontal members supporting vertical loads and horizontal loads applied to the storage tank; A plurality of hollow main pillars coupled to corner portions of the plurality of upper and lower panels to correspond to vertical loads applied to the plurality of upper and lower panels, and the interior of which is filled with reinforcement materials as necessary; A plurality of hollow central auxiliary pillars coupled to central portions of the plurality of upper and lower panels to prevent sagging of the plurality of upper and lower panels due to compression and bending moments applied from the upper and lower panels; An outer wall plate surrounding the body space of the storage tank formed by the plurality of upper and lower panels, the plurality of main pillars, and the plurality of central auxiliary pillars, and including a permeable structure; An inflow manhole that allows rainwater to flow in and out of the worker, and an outflow manhole that allows rainwater to flow out and in and out of the worker; A work tool communicating with the inflow manhole and the outflow manhole in order to perform maintenance of the storage tank, such as internal cleaning of the storage tank; and the parts of the storage tank including the upper and lower panels are made of glass fiber material containing silver nano components. It provides a rainwater infiltration and storage tank of a silver nano-treated hybrid reinforcing structure, characterized in that the antimicrobial composite material.

Herein, the antimicrobial composite material is mixed with a silver nano-coated polypropylene (PP) resin pellet with a general polypropylene (PP) resin pellet at a blending ratio of 10:90, and then, glass mat thermoplastic (GMT). It is preferably provided by heating and press-pressing with).

In addition, the plurality of upper and lower panels may be provided as a circular corner upper and lower panel having a corner portion cut in a circular shape and having a concave-convex circular periodic coupling portion at a corner portion.

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In addition, it is preferable that the plurality of upper and lower panels are provided with a corner corner upper and lower panels having corner portions cut in a square shape and having corner recessed portions having a concave-convex shape in the corner portions.

In addition, the plurality of upper and lower panels may be reinforced with a middle reinforcing bar on the back thereof so as to correspond to compressive and bending stresses, and an outer shell thereof is reinforced with a frame structure.

In addition, the plurality of upper and lower panels may have holes having a diameter of about 50-100 mm in the form of a circle or a square between intermediate reinforcement ribs in order to reduce their own weight and material cost, or open type between the middle reinforcement ribs. It is preferable that a space be formed.

In addition, the plurality of upper and lower panels may have their central portions reinforced with a central auxiliary pillar shear plate, and upper and lower portions of the central auxiliary pillar shear plate may be provided with a central auxiliary pillar coupling portion having an uneven shape.

In addition, when the plurality of upper and lower panels are arranged in a horizontal direction by forming a matrix, the cut corners of each panel are gathered together at the center of four panels assembled in two rows by two columns to have a round or square space. Round or square concave-convex coupling part is formed, and the round or square concave-convex coupling part is fixed to the upper and lower panel so as not to be separated from the upper or lower panel. It is desirable to play a role.

The plurality of periodic pillars have a circular horizontal cross section, and are coupled to a concave-convex circular periodic column engaging portion formed at corners of the upper and lower panels of the plurality of circular corners to form the upper and lower panels. It is preferably provided as a plurality of circular periodic pillars to support.

In addition, the plurality of periodic pillars may have a horizontal cross-sectional shape, and may be coupled to a concave-convex rectangular pillar pillar formed at corners of the upper and lower panels of the corner corners to form the upper and lower panels of the corner corners. It is preferable to provide a plurality of rectangular pillars for supporting.

The plurality of central auxiliary pillars have a circular horizontal cross-sectional shape, take a hollow pillar method, and are coupled to a concave-convex circular central auxiliary pillar coupling portion formed at a center of the upper and lower panels of the plurality of circular corners. It is preferable to provide a plurality of circular central auxiliary pillars for supporting a plurality of circular corner upper and lower panels.

In addition, the plurality of central auxiliary pillar has a horizontal cross-sectional shape of a rectangular, take a hollow pillar method, is coupled to the concave-shaped square central secondary pillar coupling portion formed in the center of the plurality of square corner upper and lower panels, It is preferable to provide a plurality of square central auxiliary pillars for supporting a plurality of square corner upper and lower panels.

And the outer wall plate is composed of the outer wall waterproof plate installed in the middle and the lower portion of the storage tank and the outer wall permeable plate installed on the upper portion of the storage tank, the outer wall permeable plate has a rainwater discharge hole, fixed to the horizontal reinforcement, vertical reinforcement and the outer pillar It is preferable to surround the body space of the storage tank.

In addition, the plurality of main pillars are provided in a state in which the internal space is empty according to the design load of the storage tank, or the interior space is provided in a state filled with steel or reinforced concrete or mortar, it is designed with one basic storage tank structure It is desirable to provide a hybrid reinforcement system that can vary the load.

In addition, the hybrid reinforcement structure system is to provide a reinforcing structure of the storage tank by the size of the design load by varying the interval between the arrangement of the main column filled with steel or reinforced concrete or mortar.

In addition, the work tool is preferably designed so that sludge accumulated on the concrete bottom of the storage tank is collected toward the U-type trench by installing the bottom of the U-shaped trench below the concrete bottom of the storage tank.

Rainwater penetration and storage tank of the present invention includes rainwater in the rainy season to store the rainwater underground to reduce the outflow to the river, and has an antimicrobial effect of silver nano (Nano Silver) and can have an antibacterial activity of 99% or more for a long time, The rainwater stored clean and sanitary by the present invention is usually used as rainwater fountains, rainwater plants, rainwater pools, rainwater pools, living water and fire water in the city, and during the dry season, the rainwater is stored in the ground. It helps to improve the amenity of the urban environment by creating a biotop, whereby plants and animals can coexist in the city by helping the water cycle in the city, such as by infiltrating (infiltrating) to revive the soil ecosystem.

In addition, the rainwater infiltration and storage tank of the present invention has a hybrid reinforcement structure system that selectively provides the inside of the pillars in a hollow state or fills the reinforcing material in the hollow pillars according to the conditions of the external load. The hybrid reinforcement structure having a structural stress of about 40 tons / m 2, which is 2.6 times higher than the design load of the conventional PP storage tank (about 15 tons / m 2), and the reinforcing structures are filled in the hollow of the main column. By adjusting the spacing of the reinforcement structures filled in the gaps of the main pillars or the intervals between them, it is possible to produce customized structures for each external load that can cope with the change in the size of the external loads. It has the effect of providing a structure with economical efficiency.

In addition, the rainwater infiltration and storage tank of the present invention consists of a structure that facilitates the internal cleaning of the storage tank and the maintenance of the storage tank, such as the removal of sludge accumulated on the bottom of the storage tank by installing a work tool communicating with the manhole at the lower end thereof. It has the effect of providing rain water.

1 is a perspective view of a rainwater penetration and storage tank according to an embodiment of the present invention.
2 is a unit assembly perspective view of a circular column and a panel
3 is a perspective view illustrating a unit assembly of a prismatic pillar and a panel
4 is a rear view of the panel
5 is a partially cutaway perspective view of the panel
6 is a perspective view of a horizontal, vertical reinforcement
7 is an assembled plan view of the outer wall plate
8 is a partial cutaway view of the outer wall plate
9 is a perspective view of a junction structure of a hybrid reinforced main column and a panel
10 is a perspective view of the joint structure of the working tool and the main column, the panel
11 is a perspective view of an inflow and outflow manhole
12 is a manufacturing process chart of silver nano PPGMT antimicrobial composite material.

The rainwater penetration and storage tank of this invention is demonstrated, referring an accompanying drawing based on the preferable embodiment.

Rainwater infiltration / storage tank of the present invention, after completing the structure of the reinforced concrete bottom 13 as shown in Figure 1 thereon the upper panel (1) and the lower panel (2), the main column (3), the central auxiliary pillar ( 4) In addition to the horizontal reinforcement material (5) and the vertical reinforcement material (6), the outer wall plate (7) and the waterproof sheet (8) and the waterproof sheet protective material (9), the inlet manhole (10), the outflow manhole ( 11) and U-shaped concrete trench 12 for internal cleaning of the reservoir.

The basic unit members constituting the rainwater penetration and storage tank of the present invention are the upper panel 1 and the lower panel 2 having a plate shape of 1,000 × 1,000 × 50 mm. The upper and lower panels 1 and 2 according to the present invention are circular corner upper and lower panels 1a and 2a designed so that the shape of the corner portion can correspond to the circular main column 3a as shown in FIG. Or, as shown in FIG. 3, has the shape of a square corner upper and lower panels 1b and 2b designed to correspond to the square main pillar 3b.

Corner portions of the upper and lower panels 1 and 2 according to the present invention have protruding uneven circular or angular periodical coupling portions 1a-4, 2a-4, 1b-4 and 2b-4, and are hollow. The circular or square pillars 3a and 3b are joined by a fitting structure formed in the circular or square pillars coupling portions 1a-4, 2a-4, 1b-4, and 2b-4 (partly enlarged in FIG. 4). See also).

The upper and lower panels 1 and 2 according to the present invention are the main members supporting the vertical load and the horizontal load applied to the storage tank, and the upper and lower panels 1 and 2 combined in a plurality are horizontal members of the rainwater penetration and storage tank. Configure

The circular corner upper panel 1a according to the present invention may be combined with the circular corner lower panel 2a, the circular main column 3a, and the circular central auxiliary column 4a as shown in FIG. 2 to store rainwater. The corner corner upper panel 1b according to the present invention is combined with the corner corner lower panel 2b, the square main pillar 3b, and the square central auxiliary pillar 4b as shown in FIG. To form a space in which rainwater can be stored.

In addition, the round or square upper and lower panels 1a, 2a, 1b, and 2b are reinforced with lattice-shaped intermediate reinforcement ribs 2a-5, as shown in FIG. 4, so as to correspond to compressive and bending stresses. The outer circumference is reinforced with outer frame structures 1a-1, 2a-1, 1b-1, 2b-1 as in FIGS. 2 and 3.

The rainwater penetrating and storage tank of the present invention has a circular or rectangular shape as shown in FIGS. 2 and 3 to prevent sagging of the upper and lower panels 1a, 2a, 1b, and 2b due to the compression and bending moments applied from the top. The central auxiliary pillars 4a and 4b support the central portions of the upper and lower panels 1a, 2a, 1b and 2b.

In addition, the central portion of the upper and lower panels 1a, 2a, 1b, and 2b in contact with the circular or rectangular central auxiliary pillars 4a and 4b has a central auxiliary column shear plate 1b- having a thickness of 10 mm as shown in FIG. 5) is reinforced with a circular or square central secondary pillar (4a, 4b) is a circular or square central secondary pillar coupling portion (1a-) of irregularities formed on the upper and lower portions of the central secondary pillar shear plate (1b-5) 2, 2a-2, 1b-2, 2b-2 to prevent departure from the upper and lower panels 1a, 2a, 1b, 2b.

Corner portions of the upper and lower panels 1 and 2 according to the present invention are cut open in a circular or angular shape as described above, and the corner portions are protruding uneven circular or angular periodic coupling portions 1a-4. , 2a-4, 1b-4, 2b-4), when the plurality of upper and lower panels 1, 2 are arranged in a horizontal direction with a matrix, the center portion of the four panels assembled in two rows by two columns The cut corners of each panel are gathered together to form a round or square concave-convex pillar having a round or square space, and the round or square concave-convex conjoining portion is a round or square convex column. It serves to fix the circular or square pillars 3a and 3b to the upper and lower panels 1 and 2 so that the 3a and 3b do not separate from the upper and lower panels 1 and 2.

In addition, in order to reduce the weight and material cost of the upper and lower panels 1 and 2, a hole having a diameter of about 50-100 mm in the form of a circle or a square between the middle reinforcing ribs 2a-5 as shown in FIG. 4 (2a-3). ) Or an open type space 1b-7 between the intermediate reinforcement ribs 1b-6 as shown in FIG. 5.

As shown in FIGS. 2 and 3, the circular column pillar 3a and the square cylinder column 3b according to the present invention are hollow as a unit member, respectively, and have circular or rectangular upper and lower panels 1a, 2a, 1b, 2b of the circular or square periodic coupling portion (1a-4, 2a-4, 1b-4, 2b-4) of the recessed and settled in the self-supporting, the upper and lower panels (1, 2) Supports the upper and lower panels 1 and 2 at the corners of the shell to form a space for rainwater penetration and storage tank, and also serves as a structure corresponding to the vertical load applied to the upper and lower panels 1 and 2. Do it.

Circular or angular central auxiliary pillar (4a, 4b) according to the present invention is a circular or angular central auxiliary pillar of the circular or angular upper and lower panel (1a, 2a, 1b, 2b) as shown in Figs. Structure that is fastened to the coupling parts 1a-2, 2a-2, 1b-2, 2b-2 and prevents deflection of the upper and lower panels 1 and 2 when a vertical bending moment is applied from the upper part. It serves as.

According to the present invention, the inflow manhole 10 and the outflow manhole 11 of FIG. 11 are installed inside or outside the rainwater penetration and storage tank so that the inflow and outflow of the rainwater, and the inflow manhole 10 and the outflow manhole 11 are By spaced apart from each other, it takes some time from the inflow to the outflow, so that the nano silver water treatment of the rainwater is smoothly performed in the storage tank.

The manhole cover 10a, 11a is installed at the upper part of the flow in / out manhole 10, 11 so that an operator can enter the storage tank and clean and inspect the water. Openings 10b and 11b connected to the working tool hole 14 are installed in the opening.

Rainwater infiltration and storage tank of the present invention, unlike the existing PP storage tank, the worker enters the storage tank to remove the foreign substances and water quality inspection, etc. to install the working cavity 14 as shown in Figure 10 in the lower space of the storage tank The feature is that it keeps the inside of the house clean at all times.

Work tool hole 14 is a work space (W 1,000mm x H 1,500mm) consisting of a U-shaped concrete trench 12, a main pillar 3 surrounding the upper portion thereof, and a panel 2 as shown in FIG. Dimension), which is connected to the openings 10b and 11b of the flow-in and out-hole manholes 10 and 11 of FIG. 11, and the U-shaped concrete trench 12 is about the level of the reinforced concrete bottom 13 level of the storage tank. By installing below 500mm, sludge accumulated in the reinforced concrete bottom 13 of the storage tank is designed to collect toward the U-shaped concrete trench 12.

The permeation and storage tank of the present invention includes the upper and lower panels 1 and 2, the main column 3, the central auxiliary column 4, the manholes 10 and 11 on the reinforced concrete floor 13 constituting the base of the storage tank. When the working tool (14) is assembled, the shape of the reservoir tank space is provided, and the outer part is surrounded by the outer wall plate (7) so as to contain rainwater therein.

In order to enclose the body space of the storage tank with the outer wall plate 7, as shown in FIG. 7, the outer pillar having the same shape as the main column 3 and supporting the upper and lower panels 1 and 2 at the outer side of the storage tank ( After fixing the horizontal reinforcement 5 and the vertical reinforcement 6 between the 3 '), the outer wall plate 7 is placed on the horizontal and vertical reinforcement 5 and 6 and the outer column 3'. Secure it with pop-rivets, etc., tighten it tightly to withstand earth pressure or water pressure, and finish the waterproofing operation with the waterproof sheet protection material 9 thereon.

The outer wall plate 7 is made of a flat plate made of plastic and consists of an outer wall waterproof plate 7a and a perforated outer wall permeable plate 7b as shown in FIG. 8, and the outer wall waterproof plate 7a is formed in the middle and bottom of the storage tank. The outer wall permeable plate 7b is provided at the upper portion of the storage tank. The rainwater penetration and storage tank of the present invention typically has a function as a storage tank for storing rainwater up to a predetermined level by the outer wall waterproof plate 7a, and when rainwater flows over the predetermined level, it is stored inside the storage tank when water is drained. The rainwater can be discharged into the ground outside the storage tank through the rainwater outlet hole 7c of the outer wall permeable plate 7b to function as an infiltration tank that penetrates into the ground. In the outer wall permeable plate 7b, rainwater outflow holes 7c having a diameter of 3-5 mm are arranged at intervals of 100-200 mm.

At this time, when the water level of the rainwater is increased and the pressure is generated, the soil may be lost due to the loss of external soil. Thus, the surroundings of the rainwater discharge hole 7c are covered with a permeable sheet or crushed stone to protect the soil from being lost.

After fixing the outer wall plate (7) to the outside of the rainwater penetration and storage tank, put water in the storage tank and perform fresh water test for 1-2 days. If there is a leak, refill the storage tank if there is no abnormality after sealant treatment or supplementation of the leak site.

In addition, the rainwater penetration and storage tank of the present invention is treated with silver nano coating of PP resin pellets as shown in step 3 of FIG. 12 so that microorganisms are not activated in the storage tank even after rainwater is stored in the storage tank for a long time. Nano Silver) The coated PP resin pellets are mixed with the normal PP resin pellets at the proper mixing ratio (10:90) as in step ④, and then heated and pressed with GMT for antimicrobial composite material (hereinafter 'silver nano PP · GMT antimicrobial Composite material), which is characterized by the production of various parts including the panels 1 and 2 of rainwater penetration and storage tanks as silver nano PP and GMT antimicrobial composite materials.

According to the research data, silver silver material has excellent antibacterial activity with surface contamination and microbial activity of 1/30-1/50 compared to other materials, and the research institute of Korea Institute of Construction Technology and each university has Nano Silver) is in the process of developing a water treatment technology.

In addition, according to the experimental data, silver nano (Nano Sliver) material has been proven to be able to sterilize over 99% of pathogenic bacteria such as Staphylococcus aureus and Escherichia coli, and the present invention also utilizes the antimicrobial performance of such nano nano (Sano nano) material. It is to prevent water pollution by propagation of pathogenic microorganisms in the reservoir.

The antimicrobial composite material used in the rainwater penetration and storage tank of the present invention is manufactured using a domestic patent technology (Korean Patent No. 10-0599532) for silver nano treatment of PP and PVC resins.

In addition, the present invention is treated with a sheet of silver nano-treated on the surface of the concrete floor 13 and the manholes (10, 11) of rainwater infiltration / storage tank in order to increase the antibacterial properties of rainwater infiltration / storage tank or 2-3 antibacterial paint The silver nano PP · GMT antimicrobial composite material according to the present invention includes the application of silver, and the silver nano (Nano Silver) is penetrated to the inside of the material can have an antibacterial function for a long time.

The silver nano PP-GMT antimicrobial composite material used as a constituent material of the rainwater penetration and storage tank of the present invention exhibits a very high strength by the glass fiber GMT material serving as a strong structural reinforcement of the PP resin, and thus the rainwater penetration of the present invention. · Reservoir tank is strong in bending and compression, has good processability and workability, and has high antibacterial activity against pathogenic bacteria, so it has unique product characteristics compared to existing rainwater reservoir products.

In general, when a rainwater reservoir is used for the construction site, in the structural analysis of the construction field, the fill height of the soil is calculated as 1.2-2.0m. In this case, about 2.5-4 ton / ㎡ is applied under the condition of no dynamic load. It is applied to a rainwater reservoir.

However, in general, since rainwater storage tanks are buried underground, live loads and dead loads are applied to rainwater storage tanks such as earth pressure, installation of vehicles, parking facilities, buildings, structures, and impacts from the ground. When installed in urban structures such as park facilities, civil engineering, and flood control, they are often buried much deeper than planned depth to connect with drainage facilities according to the water flow gradient.

As such, rainwater storage tanks at home and abroad are often installed in excess of 2m, which is the design depth of the first-class bridges, and the excess weight may cause not only deformation of the storage tank but also collapse. This is more severe in PP resin rainwater reservoirs, which are vulnerable to deflection and creep deformation.

Also generally known in the art The PP resin rainwater storage tank is produced as one company and one product, and the stress of the structure against the external moment was fixed as one. For example, the products of the prior art design the product with the maximum design value of the load fixed at 15 ton / ㎡, which is the bridge class 1 standard, so it is an uneconomical structure under light load conditions, and the design load exceeding the bridge class 1 In PP, rainwater storage tanks made of PP resins, which have poor load resistance, cannot be used.

The present invention divides the design load conditions of the storage tank into '6 ton / ㎡ or less' and 'more than 6 ton / ㎡' in order to solve the above problems in the existing rainwater storage tank, the plurality of pillars (3) Hybrid reinforcement structure that can diversify the design load with one basic reservoir structure by providing the internal space empty or the internal space filled with steel or reinforced concrete or mortar. It is characterized by the development of the system.

The above criteria for design load classification of 6 ton / m2 means that when rainwater storage tanks are used for construction sites, 2.5-4 ton / m2 is applied to rainwater storage tanks under the conditions of no dynamic load. Although it is reported, when the rainwater penetration and storage tank of the present invention is used for construction and civil engineering, it is due to the application of 6 ton / m2 as a design load in consideration of safety values.

Hybrid reinforcement structure system according to the present invention is described in more detail as utilizing the inner space of the main pillar (3) according to the present invention, silver nano PP · GMT antibacterial under load conditions of 6 ton / ㎡ It is designed to bear the design load of rainwater infiltration and storage tank while leaving the inner space of the composite pillar 3 made of composite material, and it is composed of silver nano PP and GMT antimicrobial composite material under the load condition exceeding 6 ton / ㎡. Filling the inner space of the column 3 with steel or reinforced concrete or mortar to reinforce the pillars 3, but by varying the arrangement interval of the pillars 3 to be reinforced, rainwater penetration can be customized according to the load conditions. As a system that can easily change the storage tank's reinforcement structure, there are no examples of such technology developed or commercialized in Korea and abroad.

Hybrid reinforcement structure of the present invention is applied to the system that can be applied to the structural analysis of the old method (構 法) in civil engineering and building, the following [Table 1] is a main column reinforced with H beam steel according to the present invention ( The structural stress values of the hybrid reinforcing structures which are varied by different arrangement intervals of 3) are exemplarily shown.

Column spacing 1x1 1x2 2 x 2 Structural stress
(Tons / ㎡) 38.9 19.5 9.7

※ Reinforcement material condition: Use H beam steel [H-150 x 150 x 7 x 10 (SS400)]

In Table 1, the column spacing 1x1 is a bone supporting the corners of the upper and lower panels 1 and 2 with a distance of 1 m (1,000 mm: horizontal and vertical length of the panel) in the front, rear, and left and right directions. The main pillars 3 according to the present invention are all reinforced with H beam steel, and the column spacing 2x2 indicates that the main pillars 3 are spaced 2 m in the front, rear and left and right directions, namely, Among pillars 3, a case of reinforcing with H beam steel every other in the front, rear and left and right directions is shown, and the column spacing 1x2 indicates the front and rear directions (or left and right directions) of the pillars 3. H beam steel every other 1m, 2m in the left and right direction (or front and rear direction), that is, every one of the front and rear, or one of the left and right directions The case of reinforcement is shown.

In Table 1, the calculation method for the structural stress value of the hybrid reinforcement structure is as follows.

H-150 x 150 x 7 x 10 (SS400)

_{(R = 11mm, r x =} 63.9mm, r y = 37.5mm, A g = 4,014mm)

(1) Review the width ratio

∴ Therefore, yield strength (F _y ) can be obtained without local buckling.

(2) Calculation of flexural buckling strength (F _cr )

) 산정(3) design compressive strength (

) Calculation

As can be seen in Table 1, the hybrid reinforcing structures of the present invention are disposed as 1x1, 1x2, and 2x2, with the intervals of the main pillars 3 reinforced by the H beam steel being 38.9, 19.5, and 9.7, respectively. It can be seen that the structural stress of the hybrid reinforcement structure is inversely proportional to the spacing of the main pillars 3 reinforced with the H-beam steel by exhibiting a structural stress of ton / m 2.

In addition, in the case of column spacing 1x1, the hybrid reinforcement structure according to the present invention can cope with a stress of 38.9 tons / m 2, thus providing a load 2-3 times higher than that of the existing PP resin storage tank (design load 15 tons / m 2). It can be seen that it can be supported.

In the hybrid reinforcement system according to the present invention, a topping panel or the like is installed at the top of the main pillar 3 that is reinforced with steel or reinforced concrete or mortar, and covered with soil to finish. .

In the conventional rainwater storage tank, sludge is deposited on the bottom of the storage tank due to suspended matter (SS) introduced from the outside during rainfall, and most rainwater storage tanks are manufactured in a closed and stacked type so that workers can enter the storage tank. Since it was impossible to clean sludge and contaminated walls, it had problems.

Rainwater penetration and storage tank of the present invention is provided with a working hole (14) in communication with the inlet manhole 10, the outlet manhole 11 at the bottom thereof as shown in Figure 10, the operator cleans the sludge or contaminants in the rainwater infiltration / storage tank And it is configured to perform maintenance of the storage tank, such as sterilization, the bottom of the work tool hole 14 is a trench 12 made of pre-cast concrete (U-shaped precast concrete) is installed on the bottom of the storage tank It is designed to allow contaminants to flow in here. Rainwater penetration and storage tank of the present invention includes rainwater in the rainy season to store the rainwater underground to reduce the outflow to the river, and has an antimicrobial effect of silver nano (Nano Silver) and can have an antibacterial activity of 99% or more for a long time, The rainwater stored clean and sanitary by the present invention is usually used as rainwater fountains, rainwater plants, rainwater pools, rainwater pools, water for living and firefighting in urban areas, and infiltrate the reservoir during the dry season. By resuscitating the soil ecosystem, it helps to improve the water circulation in the city, creating biotopes where animals and plants can coexist in the city, thereby improving the comfort of the urban environment.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention.

Therefore, the specific embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

1: top panel
1a: Round corner upper panel 1a-1: Round reinforcement frame
1a-2: circular central auxiliary pillar coupling portion 1a-4: circular periodic pillar coupling portion
1b: Square corner upper panel 1b-1: Square reinforcement frame
1b-2: Square central secondary pillar coupling 1b-4: Square periodic pillar coupling
1b-5: Central auxiliary pillar shear plate 1b-6: Intermediate reinforcement
1b-7: open space
2: lower panel
2a: Round corner lower panel 2a-1: Round reinforcement frame
2a-2: Circular central auxiliary pillar coupling portion 2a-3: Hole in the panel
2a-4: circular periodic coupling portion 2a-5: intermediate reinforcement
2b: Square corner lower panel 2b-1: Square reinforcement frame
2b-2: Square auxiliary auxiliary column coupling part 2b-3: Hole of panel
2b-4: Square periodic coupling part
3: Periodic Column 3 ': Outer Column
3a: circular periodic column 3b: rectangular periodic column
3b-1: square reinforcement bars or steel
3b-2: Reinforced concrete or mortar
4: center auxiliary pillar
4a: round central auxiliary pillar 4b: round central auxiliary pillar
5: Horizontal reinforcement 5a: Vertical reinforcement fitting jaw
6: vertical reinforcement
7: outer wall plate
7a: exterior wall waterproof plate 7b: exterior wall waterproof plate
7c: rainwater outflow hole
8: waterproof sheet material
9: waterproof sheet protective material
10: inflow manhole
10a: cast iron manhole cover 10b: inlet manhole lower opening (for access to the common port)
11: spilled manhole
11a: Cast iron manhole cover 11b: Outflow manhole lower opening (for access to the common port)
12: U type concrete trench
13: concrete floor (reinforcement or warmer mesh reinforcement)
14: work co-op

Claims (16)

       An underground storage tank for storing rainwater, comprising: a reinforced concrete floor (13) forming a base of the storage tank; A plurality of upper and lower panels (1, 2) forming a plate shape and having corner portions cut out as horizontal members supporting vertical loads and horizontal loads applied to the storage tank; It is coupled to the corners of the plurality of upper and lower panels 1 and 2 to correspond to the vertical load applied to the plurality of upper and lower panels 1 and 2, and the design load condition of the storage tank is 6 ton / m 2 or less. A plurality of hollow main pillars 3 each of which is filled with reinforcing material in a load condition exceeding 6 ton / m 2 divided by more than 6 ton / m 2; A plurality of hollow centers coupled to a central portion of the plurality of upper and lower panels 1 and 2 to prevent sagging of the plurality of upper and lower panels 1 and 2 due to compression and bending moments applied from an upper portion thereof. Auxiliary pillar (4); An outer wall plate surrounding the body space of the storage tank formed by the plurality of upper and lower panels 1 and 2, the plurality of main pillars 3, and the plurality of central auxiliary pillars 4, and including a permeable structure ( 7); An inflow manhole 10 through which rainwater flows in and out of the worker, and an outflow manhole 11 through which rainwater flows out and into and out of the worker; In order to perform the maintenance of the storage tank, such as the internal cleaning of the storage tank (14) and the working communication hole (14) in communication with the outlet manhole (11), including the upper and lower panels (1, 2) Rainwater infiltration and storage tank of the silver nano-treated hybrid reinforcement structure, characterized in that the storage tank parts are made of a glass fiber antibacterial composite containing silver nano components.        The method of claim 1, wherein the antimicrobial composite is a silver fiber (PP) resin pellets coated with a nano silver (PP) resin pellets mixed with a general polypropylene (PP) resin pellets in a compounding ratio of 10: 90, the glass fiber mat ( Rainwater infiltration and storage tank of a silver nano-treated hybrid reinforcement structure, which is provided by heating and press-pressing together with Glass Mat Thermoplastic (GMT).        According to claim 1, wherein the plurality of upper and lower panels (1, 2) is a corner portion is cut in a circular shape, the corner portion has a circular periodic pillar coupling portion (1a-4, 2a-4) Rainwater infiltration and storage tank of silver nano-treated hybrid reinforcement structure characterized by circular top and bottom panels 1a and 2a.        The upper and lower panels (1, 2) according to claim 1, wherein the plurality of upper and lower panels (1, 2) have a corner portion cut in a square shape, and the corner portions have the irregular periodic pillar coupling portions (1b-4, 2b-4). Rainwater infiltration and storage tank with silver nano-treated hybrid reinforcement structure, characterized by square corner upper and lower panels 1b and 2b.         2. The plurality of upper and lower panels (1, 2) according to claim 1, wherein the back and bottom surfaces of the plurality of upper and lower panels (1, 2) are reinforced with intermediate reinforcing ribs (2a-5) so as to correspond to compressive and bending stresses, and the outer shells (1a-1, 2a-1, 1b-1, 2b-1) Rainwater infiltration and storage tank of a silver nano-treated hybrid reinforcement structure, characterized in that the reinforcement provided.        The method of claim 5, wherein the plurality of upper and lower panels (1, 2) of about 50-100mm in diameter in the form of a circle or a square between the intermediate reinforcement ribs (2a-5) in order to reduce its own weight and material costs Rainwater infiltration of the silver nano-treated hybrid reinforcement structure, characterized in that holes 2a-3 are formed or open type spaces 1b-7 are provided between the intermediate reinforcement ribs 1b-6. Storage tanks.        The upper and lower panels (1, 2) of the plurality of upper and lower panels (1, 2) are reinforced with a central secondary pillar shear plate (1b-5), and the top of the central secondary pillar shear plate (1b-5). The rainwater infiltration and storage tank of a silver nano-treated hybrid reinforcement structure, which is provided at the lower part with a concave-convex central auxiliary pillar coupling portion (1a-2, 2a-2, 1b-2, 2b-2).        According to claim 1, When the plurality of upper and lower panels (1, 2) are arranged in a horizontal direction in a matrix, the cut corners of each panel gather together in the center of the four panels assembled in two rows by two columns A round or square convex concave convex coupling part having a round or square space is formed, and the concave or convex concave concave coupling part of a round or square concave convex column 3a or 3b is formed on an upper and lower panel. Rainwater infiltration of the silver nano-treated hybrid reinforcement structure, which serves to fix the circular or square pillars 3a and 3b to the upper and lower panels 1 and 2 so as not to be separated from (1, 2). Reservoir.        According to claim 3, The plurality of pillars (3) has a circular cross-sectional shape of the circular cross-section, the round periodic pillar coupling portion of the concave-convex shape formed in the corner portion of the upper and lower panels (1a, 2a) of the plurality of circular corners Rainwater infiltration of a silver nano-treated hybrid reinforcement structure, which is coupled to (1a-4, 2a-4) and is a plurality of circular periodic pillars 3a supporting the plurality of circular corner upper and lower panels 1a and 2a. Storage tanks.        5. The angular periodic pillar coupling portion according to claim 4, wherein the plurality of periodic pillars 3 have a rectangular horizontal cross section and are formed in corner portions of the upper and lower panels 1b and 2b. Silver nano-treated hybrid rainwater infiltration and storage tank, which is coupled to (1b-4, 2b-4) and is a plurality of square main pillars (3b) supporting the plurality of square corner upper and lower panels (1b, 2b). .        4. The plurality of central auxiliary pillars (4) are circular in cross-sectional shape, have a hollow columnar shape, and are formed at the center of the plurality of circular corner upper and lower panels (1a, 2a). It is characterized in that the plurality of circular central secondary pillar (4a) is coupled to the concave-convex circular central secondary pillar coupling portion (1a-2, 2a-2) to support the plurality of circular corner upper and lower panels (1a, 2a) Rainwater infiltration and storage tank of silver nano-treated hybrid reinforcement structure.        5. The plurality of central auxiliary pillars (4) according to claim 4, wherein the plurality of central auxiliary pillars (4) have a horizontal cross section in a rectangular shape, have a hollow pillar shape, and are formed at the centers of the plurality of square corner upper and lower panels (1b, 2b). It is characterized in that the plurality of square central secondary pillar (4b) is coupled to the concave-shaped square central secondary pillar coupling portion (1b-2, 2b-2) to support the plurality of square corner upper and lower panels (1b, 2b) Rainwater infiltration and storage tank of silver nano-treated hybrid reinforcement structure.        2. The outer wall plate (7) according to claim 1, wherein the outer wall plate (7) comprises an outer wall waterproof plate (7a) provided at the middle and lower portions of the storage tank and an outer wall permeable plate (7b) provided at the upper portion of the storage tank. Rainwater infiltration of a silver nano-treated hybrid reinforcement structure having a rainwater outlet hole 7c and fixed to a horizontal reinforcement material 5, a vertical reinforcement material 6, and an outer pillar 3 'to enclose a body space of a storage tank. Storage tanks.        The method according to claim 1, wherein the plurality of main pillars (3) is provided in a state in which the inner space is empty according to the design load of the storage tank, or the inner space is provided in a state filled with steel or reinforced concrete or mortar, Rainwater infiltration and storage tank of a silver nano-treated hybrid reinforcement structure having a hybrid reinforcement structure system having one basic storage structure and capable of varying the design load.        15. The method according to claim 14, wherein the hybrid reinforcement structure system is configured to change the reinforcement structure of the storage tank by the size of the design load by varying the intervals of arrangement of the main pillars 3 filled with steel, reinforced concrete, or mortar. Rainwater infiltration and storage tank of silver nano-treated hybrid reinforcement structure, which can be customized. The sludge accumulated in the concrete bottom 13 of the storage tank is installed by installing the U-shaped trench 12 at the bottom of the bottom of the storage tank. Rainwater infiltration and storage tank of a silver nano-treated hybrid reinforcement structure, which is designed and provided to collect toward the trench 12.

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