KR20150046558A - the assembling water storage container block unit and the water storage container structure - Google Patents

Abstract

The present invention relates to a prefabricated block unit (300) of an infiltration water storage tank having a partition wall (320) formed therein and comprising: a front wall (300a); a rear wall (300b); a left wall (300c); and a right wall (300d). Rainwater infiltrates into the ground through the front wall (300a), the rear wall (300b), the left wall (300c), and the right wall (300d). Moreover, an infiltration structure using the prefabricated block unit of the infiltration water storage tank includes: a water storage tank (600) where a plurality of the prefabricated infiltration water storage tank block units (300) are laminated and joined; a connection pipe (200) of which one end is installed in the prefabricated infiltration water storage tank block unit (300); an overflow pipe (500) installed in the prefabricated infiltration water storage tank block unit (300); and a pre-treatment tank (100).

Description

[0001] The present invention relates to an assembling water storage container block unit and a water storage container structure using the same,

The present invention relates to a prefabricated infiltration storage block unit which is excellent in permeability and simple structure and easy to assemble and disassemble, and to a penetration storage structure using the same will be.

In recent years, due to the increase of the impervious area due to urban development, there has been a tendency to decrease the amount of excellent infiltration, decrease in groundwater level and direct discharge to the river, and increase of surface runoff due to improvement of urban and drainage facilities. The basin flow rate of the river is decreasing due to the construction of the treatment plant.

As a result, urbanization and industrialization accelerate water pollution, and environmental problems such as water shortage and heat island phenomenon are continuously occurring, and rainwater management is needed to solve them.

In order to solve this problem, a state of the art such as a registration number No. 10-0938223 (titled as a prefabricated stormwater tank) has recently been developed.

No. 10-0938223 discloses that the entire storage tank is divided into prefabricated members for easy assembling and has a disadvantage in that it is difficult to assemble an inexperienced person and is not a permeable material because the structure is complicated.

In addition, the Ministry of Land, Transport and Maritime Affairs has recently revised the 'Rules for the Construction and Installation Criteria of Urban and Military Planning Facilities'. The main amendment states that 'roads such as roads where a large amount of rainwater is drained due to impervious pavement are required to have rainwater infiltration structures or rainwater management facilities'.

Therefore, it is urgent to develop a construction method in which each unit is constructed as a unit member having a simple structure so that the rainwater can be constructed with a predetermined quality and can be installed and disassembled freely.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The purpose is as follows.

First, a prefabricated infiltration storage block unit which can be installed with a predetermined quality by repetition of a simple process such that each unit is constructed as a unit member having a simple structure, ≪ / RTI >

Second, each of the units is made of a permeable material, and the storages of the storages gradually permeate into the ground with a time difference, and a penetration storage structure using the same.

In order to solve the above-described technical problem, the present invention provides a portable terminal which includes a front wall 300a and a rear wall 300b, a left wall 300c and a right wall 300d, And the front wall 300a and the rear wall 300b correspond to each other, the concave and convex shape being formed in the front wall 300a and the rear wall 300b of the assembly type infiltration storage block unit 300,

The front wall 300a, the rear wall 300b, the left wall 300c, and the right wall 300c, which are made of a permeable material having excellent water permeability, are stacked vertically, And penetrates into the ground through the through-hole 300d.

In addition, by using the prefabricated infiltration storage block unit 300,

A storage tank 600 in which a plurality of the assembled infiltration storage unit 300 are stacked vertically or coupled to each other in a front and rear direction, a unit upper plate 400 is installed on an open top side, and a unit lower plate 400 ' A connection pipe 200 having one end connected to the assembled infiltration storage block unit 300 installed on the front surface of the storage tank 600; A drain pipe 500 installed in the assembled infiltration storage block unit 300 installed on the rear surface of the storage tank 600 and connected to a storeroom (not shown); And a pretreatment tank 100 in which the other end of the connection pipe 200 is connected to the pretreatment tank 100. The first filtered outflow in the pretreatment tank 100 is passed through the connection pipe 200 to the storage tank 600 The storm surges are temporarily stored in the storage tank 600 and then penetrated into the ground while storm surplus exceeding the storage capacity of the storage tank 600 flows through the storm drainage pipe 500, The present invention provides an infiltration storage structure using the assembled infiltration storage block unit.

According to the present invention, the following effects are expected.

First, a prefabricated infiltration storage block unit which can be installed with a predetermined quality by repetition of a simple process such that each unit is constructed as a unit member having a simple structure, Lt; / RTI >

Second, each of the units is made of a permeable material, and the stored stormwater gradually permeates into the ground with a time difference, and a penetration storage structure using the same.

1 is an exploded perspective view of the pretreatment tank of the present invention.
FIG. 2 is a view showing a coupling process of the pretreatment bath of the present invention.
3 is a perspective view of the assembled infiltration storage block unit of the present invention.
Fig. 4 shows a front-rear coupling between the assembled infiltration storage block units of the present invention.
Fig. 5 shows a top-bottom lamination between the assembled infiltration storage block units of the present invention.
FIG. 6 shows a connection pipe 200 and a drain pipe 500 installed on the front and rear surfaces of the storage tank, respectively.
7 is an exploded perspective view of an infiltration storage structure using the assembled infiltration storage block unit of the present invention.
8 is an assembled perspective view of Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1. Prefabricated infiltration reservoir block unit

FIG. 3 is a perspective view of the assembled infiltration storage block unit of the present invention, FIG. 4 is a front-rear view of the assembled infiltration storage block units of the present invention, FIG.

3 to 5, the assembled infiltration storage block unit 300 of the present invention includes a front wall 300a and a rear wall 300b and a left wall 300c and a right wall 300d Wherein the front wall 300a and the rear wall 300b are formed to have concavities and convexities corresponding to each other, wherein the front wall 300a and the rear wall 300b correspond to each other, The front wall 300a and the rear wall 300b and the left wall 300c and the right wall 300d, which are made of a permeable material having excellent permeability, are stacked vertically, ) To penetrate into the ground.

Further, at least one of the partition wall 320, the front wall 300a, the rear wall 300b, the left wall 300c and the right wall 300d is further formed with an upward moving portion 321 ' So that the storm can be moved back and forth, right and left through the canopy moving section 321 '.

Although not shown, the left and right wall 300c and the right wall 300d may have concave and convex shapes corresponding to each other, so that a plurality of the assembled infiltration storage unit 300 may be coupled laterally.

The prefabricated infiltration storage block unit 300 is preferably formed of a single member of all the components and has an advantage in that the amount of stored waste can be controlled according to the number of the laminated blocks.

The prefabricated infiltration storage block unit 300 may be made of a concrete block or an environmentally friendly material such as loess, so that it is free from environmental pollution concerns.

2. Infiltration storage structure using prefabricated infiltration reservoir block unit

FIG. 6 is a view showing a connection pipe 200 and a drain pipe 500 installed on the front and rear surfaces of the storage tank, FIG. 7 is an exploded perspective view of the permeation storage tank structure using the prefabricated infiltration storage block unit of the present invention, 8 is a combined perspective view of Fig.

6 to 8, the infiltration storage structure using the prefabricated infiltration storage block unit of the present invention uses the prefabricated infiltration storage block unit 300,

A storage tank 600 in which a plurality of the assembled infiltration storage unit 300 are stacked vertically or coupled to each other in a front and rear direction, a unit upper plate 400 is installed on an open top side, and a unit lower plate 400 ' A connection pipe 200 having one end connected to the assembled infiltration storage block unit 300 installed on the front surface of the storage tank 600; A drain pipe 500 installed in the assembled infiltration storage block unit 300 installed on the rear surface of the storage tank 600 and connected to a storeroom (not shown); And a pretreatment tank 100 in which the other end of the connection pipe 200 is connected to the pretreatment tank 100. The first filtered outflow in the pretreatment tank 100 is passed through the connection pipe 200 to the storage tank 600 The storm surges are temporarily stored in the storage tank 600 and then penetrated into the ground while storm surplus exceeding the storage capacity of the storage tank 600 flows through the storm drainage pipe 500, .

The front wall 300a or the rear wall 300b of the assembled infiltration storage block unit 300, 300 ', 300''forming the front and rear surfaces of the storage tank 600 may be formed with a plurality of May not be formed.

The overflow pipe (500) is designed to send the remaining surplus to the storeroom (600) when the stormwater flowing into the reservoir (600) It is preferable that the diameter of the connection pipe 200 is the same as that of the connection pipe 200 and that the connection pipe 200 is located above the storage tank 600.

The assembled infiltration storage block unit 300 is coupled to the left and right sides by forming concavities and convexities in a shape corresponding to the left wall 300c and the right wall 300d. ),

A plurality of prefabricate infiltration storage block units 300 are vertically stacked or connected to each other in front, rear, left, and right sides, and a unit upper plate 400 is installed on an opening face of the upper part, and a unit lower plate 400 ' ); A connection pipe 200 having one end connected to the assembled infiltration storage block unit 300 installed on the front surface of the storage tank 600; A drain pipe 500 installed in the assembled infiltration storage block unit 300 installed on the rear surface of the storage tank 600 and connected to a storeroom (not shown); And a pretreatment tank (100) to which the other end of the connection pipe (200) is connected,

The primary filtered outflow in the pretreatment tank 100 is transferred to the storage tank 600 through the connection pipe 200. The transferred stormwater is temporarily stored in the storage tank 600 and then permeated into the ground, (Not shown) through the overflow pipe 500. The overflow pipe (not shown)

FIG. 1 is an exploded perspective view of the pretreatment tank of the present invention, and FIG. 2 is a view illustrating a process of combining the pretreatment tank of the present invention.

As shown in Figures 1 and 2,

The pretreatment bath (100) includes a box-shaped body (120) having an open top; A filter box 140 installed inside the main body 120 and dividing a space into the main body 120 by the sinking part 122 and the sweeping part 124; A filter 160 installed on the main body 120; And a grating 180 installed on the filter 160,

The filter 160 has a level down portion 162 that is leveled down only by a portion located above the settling portion 122 so that foreign matter is primarily filtered by the level down portion 162, (Not shown), and the outer surface is permeable to the outer surface, so that the filter material (not shown) filters the foreign matter by the secondary filter to transmit the rainwater of the sinker 122 to the swollen portion 124 , And the storm transferred to the sweeping part (124) is transferred to the storage tank (600) through the connection pipe (200).

The pretreatment tank 100 is used for filtering foreign matter such as roadside obstacles and non-point pollution sources, and structures and materials conventionally used in addition to the above-described structures can be used.

The pretreatment tank 100 can be installed in place of rainwater collectors generally installed on the road side, and is designed to purify the initial rainwater.

The level-down portion 162 of the filter 160 primarily filters out foreign matter such as dirt and soil, and filters out secondary pollutants such as heavy metals contained in the rainwater.

As shown in FIGS. 1 and 2, a space may be left above the filter box 140. The empty space is for passing the storm once to the storage vessel 600 without filtering by the filter media box 140 when the rainfall amount is large in an emergency.

The outer surface of the filter box 140 is used to fix the filter medium (not shown) while passing through the rainwater, and it is preferable that the outer surface of the filter box 140 is a perforated screen shape or a mesh shape.

Preferably, zeolite, anthracite, vermiculite, and the like are selectively used in the filter medium (not shown), and fine dust and other impurities generated in the manufacturing process are washed with distilled water several times.

The connection pipe 200 is for moving foreign matter such as roadside obstacles and non-point pollution sources to the storage tank 600 by the preprocessing tank 100, .

As mentioned above, the Ministry of Land Transport and Transport has recently revised the 'Rules on the Construction and Installation Criteria of Urban and Military Planning Facilities' from 2013. Since the main revision, Roads where a large amount of rainwater flows out, such as parking lots, are required to be structured to infiltrate with rainwater or to install a rainwater management facility ".

Therefore, the present invention is the most suitable technology for the "Decision on the structure and installation standard of the urban planning facility" of the Ministry of Land, Transport and Transport.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

It is therefore intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

100: Pretreatment tank
120:
122:
124:
140: Filter box
160: Filter
162: Level down part
180: Grating
200: connector
300: Prefabricated infiltration storage block unit
300a: front wall
300b: rear wall
300c:
300d: Right wall
320:
321`: Excellent East
400: Unit top plate
400`: Unit bottom plate
500: Wall pipe
600: Storage tank

Claims (7)

A front wall 300a and a rear wall 300b and a left and right walls 300c and 300d in a top and a bottom opened form and partition walls 320 dividing a space therein. (300a, 300b) are formed to have concavities and convexities in a shape corresponding to each other, characterized in that the prefabricated infiltration storage block unit (300)
The front wall 300a, the rear wall 300b, the left wall 300c, and the right wall 300c, which are made of a permeable material having excellent water permeability, are stacked vertically, And penetrates into the ground through the first port (300d).
The method of claim 1,
At least one of the partition wall 320, the front wall 300a, the rear wall 300b, the left wall 300c and the right wall 300d is further formed with an excellent moving part 321 ' ,
And the stormwater can be moved in the front, rear, left, and right directions through the storm moving part (321 ').
3. The method according to claim 1 or 2,
Wherein a plurality of the prefabricated infiltration storage block units (300) are coupled to the left and right sides of the left side wall (300c) and the right side wall (300d).
The prefabricated infiltration storage block unit (300) according to any one of claims 1 to 3,
A storage tank 600 in which a plurality of the assembled infiltration storage unit 300 are stacked vertically or coupled to each other in a front and rear direction, a unit upper plate 400 is installed on an open top side, and a unit lower plate 400 '
A connection pipe 200 having one end connected to the assembled infiltration storage block unit 300 installed on the front surface of the storage tank 600;
A drain pipe 500 installed in the assembled infiltration storage block unit 300 installed on the rear surface of the storage tank 600 and connected to a storeroom (not shown); And
And a pretreatment tank (100) to which the other end of the connection pipe (200) is connected,
The primary filtered outflow in the pretreatment tank 100 is transferred to the storage tank 600 through the connection pipe 200. The transferred stormwater is temporarily stored in the storage tank 600 and then permeated into the ground, And the storm surplus exceeding the storage capacity of the storm reservoir tank (600) is transferred to the storm drainage (not shown) through the storm drain pipe (500).
5. The method of claim 4,
The pretreatment tank (100)
A box-shaped main body 120 having an open top;
A filter box 140 installed inside the main body 120 and dividing a space into the main body 120 by the sinking part 122 and the sweeping part 124;
A filter 160 installed on the main body 120; And
A grating 180 installed on the filter 160;
, ≪ / RTI >
The filter 160 has a level down portion 162 that is leveled down only by a portion located above the settling portion 122 so that foreign matter is primarily filtered by the level down portion 162,
(Not shown) is filled in the filter box 140 and the outer surface of the filter box 140 is permeable to the outer surface thereof, so that the filter material (not shown) secondly filters the foreign substances to separate the rainwater of the sinkers 122 ),
Wherein the stormwater transferred to the sweeping part (124) is transferred to the storage tank (600) through the connection pipe (200).
The prefabricated infiltration storage block unit 300 of claim 3 is used,
A plurality of prefabricate infiltration storage block units 300 are vertically stacked or connected to each other in front, rear, left, and right sides, and a unit upper plate 400 is installed on an opening face of the upper part, and a unit lower plate 400 ');
A connection pipe 200 having one end connected to the assembled infiltration storage block unit 300 installed on the front surface of the storage tank 600;
A drain pipe 500 installed in the assembled infiltration storage block unit 300 installed on the rear surface of the storage tank 600 and connected to a storeroom (not shown); And
And a pretreatment tank (100) to which the other end of the connection pipe (200) is connected,
The primary filtered outflow in the pretreatment tank 100 is transferred to the storage tank 600 through the connection pipe 200. The transferred stormwater is temporarily stored in the storage tank 600 and then permeated into the ground, And the storm surplus exceeding the storage capacity of the storm reservoir tank (600) is transferred to the storm drainage (not shown) through the storm drain pipe (500).
The method of claim 6,
The pretreatment tank (100)
A box-shaped main body 120 having an open top;
A filter box 140 installed inside the main body 120 and dividing a space into the main body 120 by the sinking part 122 and the sweeping part 124;
A filter 160 installed on the main body 120; And
A grating 180 installed on the filter 160;
, ≪ / RTI >
The filter 160 has a level down portion 162 that is leveled down only by a portion located above the settling portion 122 so that foreign matter is primarily filtered by the level down portion 162,
(Not shown) is filled in the filter box 140 and the outer surface of the filter box 140 is permeable to the outer surface thereof, so that the filter material (not shown) secondly filters the foreign substances to separate the rainwater of the sinkers 122 ),
Wherein the stormwater transferred to the sweeping part (124) is transferred to the storage tank (600) through the connection pipe (200).

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