KR101375070B1 - under stream block - Google Patents

Abstract

The present invention relates to a permeable storage block combined with a permeable core, and more particularly, a storage layer is formed below the impermeable layer of the block so that rain water can be stored therein, and the permeable core is inserted into the upper surface side of the block to insert the permeable core. It relates to a permeable storage block having a core inserting groove formed therein and a permeable core having a water permeable core inserted therein.

Description

Pitcher Reservoir Block with Pitcher Core

The present invention relates to a permeable storage block combined with a permeable core, and more particularly, a storage layer is formed below the impermeable layer of the block so that rain water can be stored therein, and the permeable core is inserted into the upper surface side of the block to insert the permeable core. It relates to a permeable storage block having a core inserting groove formed therein and a permeable core having a water permeable core inserted therein.

In modern cities, due to the rapid urbanization, the natural drainage area is markedly reduced. Consequently, rainwater causes continuous runoff of surface water, and in densely populated areas, 95% of rainwater has already been converted to surface water, increasing the pressure on the already draining drainage systems.

In addition, due to the effects of abnormal climate such as global warming, the type of precipitation has also changed considerably, and the pattern is also increasing in the form of heavy rainfall and precipitation is concentrated in a certain period of time. Long-term economic and social costs are expected to increase due to shortages.

For this reason, industrialized countries have already developed construction methods to continuously improve the infrastructure of roads, storing rainwater drained into surface water in temporary storage spaces and allowing natural drainage to the ground to reduce drainage loads and consider environmental aspects. It is the state that introduction and practical use. Accordingly, the present invention has been made in view of the development of sustainable eco-friendly permeable structure suitable for the domestic situation in view of such social necessity and domestic reality.

Due to the increased risk of flooding due to the increased incidence of sudden heavy rainfall, developed countries are constantly considering the storage facilities of rainwater and expanding their installations. In Korea, it is time to expand the permeation pavement to increase the ecological area ratio of roads, and to study and apply various construction methods.

However, realistically, the method of permeation that is applied to the existing sidewalk is a method using a porous concrete block. If the continuous post-management is not performed after construction in Korea's urban environment, the permeation efficiency is continuously reduced after 6 months after construction, and thus the surface drainage The problem of returning to the same level as the drainage load occurs.

Due to the increased incidence of intensive rainfall, the average annual rainfall in Seoul increased from 1,231.5 mm / year in the 1970s to 1,595.3 mm / year in the 2000s, an increase of 30% over 30 years. In particular, in the late 1990s, the average rainfall increased markedly due to several heavy rainfalls.

In the case of Seoul, the number of rainfall days of 50 mm / day or more, which indicates intensive rainfall, is increasing from 5 days a year in the 1970s to 8 days in the 2000s. In particular, concentrated rainfall is concentrated in June, July and August, and the potential for flood damage during the flood season is rapidly increasing, and there is a need for urgent measures to be in place to counteract the increase in sudden concentration of rainfall. It is becoming.

Before rain, most rainwater penetrated into the ground, but now the surface is paved with an impervious surface, such as asphalt, and in the case of sudden heavy rain that exceeds the storm drainage maintenance level, the stormwater flows to the surface and flows into the lowlands as a result of flood damage. It is causing. In the case of Seoul, the impermeable area ratio of the total area of 605.5㎢ was only 7.8% in 1962, but it increased to 18.6% in 1970 as development began in the late 1960s, and then increased steadily to 37.2% in 1982 and 2005. It reaches 48%.

In the case of Seoul, forests occupy 25.4% of the area, and most of them are located in the suburbs, so the urban area is almost impervious. Impervious soil pavement surveys show that 44.45% of the regions have less than 0–10% pavement, corresponding to Grade 1, and land-use types belonging to green and off-space. In addition, 48.20% of Seoul's total area is impervious soil pavement, and more than 70% is impervious packaging. Therefore, there is a growing need for a separate restoration project that enables pitchers in urbanized areas.

A comprehensive review of the existing research results and existing permeation methods suggests that there are significant problems in current domestic maintenance. If this problem is not solved fundamentally, only the sidewalk block at the surface layer is replaced with a pitcher and used after construction, which causes defects such as irregularity and sinking of the sidewalk block due to the loss of the lower permeable layer. The reduction will cause a loss of functionality. Currently, most permeable pavement packages in Korea have no standard for maintenance and evaluation of functions after construction, and do not have an inspection door to conduct evaluation. In addition, it is difficult to maintain its function continuously except for the early stage of construction since there is no method for restoring the permeability index to the existing level after the permeation index decreases.

Although it is possible to recover to the pitcher index at the beginning of installation through the management using specialized equipment, it is also difficult because large-scale equipment is not available due to the current domestic press conditions. Therefore, in order to make a sustainable permeability structure in Korea, it is considered that it should be changed to a permeable structure layer suitable for domestic conditions, and development of a new structure for future maintenance is essential.

Due to the effects of abnormal climate such as global warming and the continuous development of cities, precipitation patterns change. In other words, the change in precipitation type has the problem of increasing the pressure on the natural drainage system due to the change in the form of precipitation in the short term and the concentration of precipitation for a certain period of time, and the loss of permeability due to the continuous decrease of the index. In addition, there is a problem of a decrease in water permeability and ground subsidence due to excessive drainage during heavy rains. As the permeability falls and the rainwater falls and the natural drainage rate of the ground falls in preparation for the rainfall, there is a problem that water is accumulated on the surface of the sidewalk and thus violates the walking environment. Since it is judged that there is a problem in preventing the above problems by only improving the permeation block, the above problems can be effectively prevented through the improvement of the permeation structure as well as the permeation block. It is also necessary to take countermeasures against nonpoint sources.

The present invention is to improve the above problems as the conventional permeation block and rainwater storage space is separated from the construction complex and to complement the various problems caused by the loss of the permeability of the permeability block combined the permeability and rainwater storage function in one block itself The aim is to provide a permeable storage block with a permeable core that solves the problem of blockage and maintenance of the standard permeable block and improves walking flatness by simplifying construction.

In the present invention, the reservoir layer 14 is formed under the impermeable layer 12 of the block so that rain water can be stored therein, and the permeable core insertion groove 16 is formed on the upper side of the block so that the permeable core 20 can be inserted. It is formed with a dog or a plurality, and relates to a permeable storage block is combined with a permeable core is inserted into the permeable core insertion groove 16, the permeable core 20 for rainwater inflow.

The present invention is a product that combines the standard pitcher block and rainwater storage space as a product that combines the pitcher and the rainwater storage function in one block itself to compensate for various problems caused by the loss of the permeability of the pitcher block is complicated construction It solves the problem of clogging and maintenance, and improves walking flatness by simplifying construction.

In addition, the present invention is difficult to construct the lower storage space due to the obstacles in the excavation of the sidewalk section in the city center can reduce the problem of rising costs and the advantage that can be reused after the operation in the maintenance of the excavation recovery in the future There is this.

In addition, the present invention has the effect that the rain water stored in the storage block to alleviate the deterioration of the city in the summer of high temperature due to the capillary phenomenon.

1 is a perspective view showing a permeable storage block of the present invention.
Figure 2 is an exploded perspective view showing a permeable storage block of the present invention.
Figure 3 is an exploded cross-sectional view showing a permeable storage block of the present invention.
Figure 4 is an exploded perspective view showing a permeable storage block of the present invention.
Figure 5 is an exploded cross-sectional view showing a permeable storage block of the present invention.
Figure 6 is a state diagram showing the shape in which water is introduced into the pitcher core of the present invention.
Figure 7 is an exploded perspective view showing a permeable core of the present invention.
Figure 8 is a cross-sectional view showing a top surface in the pitcher core of the present invention.
Figure 9 is an exploded cross-sectional view showing a water permeable core of the present invention.
10 is an exploded perspective view showing a permeable core of the present invention.
Figure 11 is a cross-sectional view showing an upper surface in the pitcher core of the present invention.
12 is an exploded cross-sectional view showing a water permeable core of the present invention.
Figure 13 is an exploded perspective view showing a permeable storage block of the present invention.
14 is a perspective view showing a permeable storage block of the present invention.
Figure 15 is a cross-sectional view of the construction of the pitcher storage block of the present invention.
Figure 16 is an exploded cross-sectional view showing a water permeable core of the present invention.

According to the present invention, the upper surface of the block is formed of an impermeable layer 12 so that it can be used as a road surface, and the reservoir layer 14 is disposed under the impermeable layer 12 of the block so that rainwater can be stored in a state having rainwater temporary storage space. ) Is integrally formed with the impermeable layer 12, one or more permeable core insertion grooves 16 are formed on the upper surface of the block so that the permeable core 20 can be inserted therein. The permeable core insertion groove 16 is formed in any one form selected from hexahedral, cylindrical, cylindrical, spherical and pyramidal shapes, so that rainwater falling on the road surface formed of the impermeable layer 12 may be introduced. It relates to a permeable storage block combined with a permeable core, characterized in that the permeable core 20 for rainwater inlet is inserted into the permeable core insertion groove (16).

In the permeable storage block of the present invention, the impermeable layers 12 and 12-1 may be any one selected from a concrete processing layer, a stone plate, a clay plate and a magnetic tile plate.

In the permeable storage block of the present invention, the permeable core 20 includes a core body 22 having a space therein; And a core upper surface 24 formed on the core body and having an upper surface formed in a net shape.

In the permeable storage block of the present invention, the pitcher cores 20 and 20-1 are any one selected from a shape selected from a hexahedral box, a cylindrical box, a cylindrical box, a spherical box, and a pyramidal box. do.

In the permeable storage block of the present invention, the permeable cores 20 and 20-1 are provided with a filter layer 28 inside the core body, and ocher balls, clay balls, and the like in the core body corresponding to the upper part of the filter layer. It is characterized in that any one of the environmentally friendly materials selected from ceramic balls, elvan crushed stone is inserted.

In the permeation storage block of the present invention, the permeation storage block is provided with a particle size control crushed stone layer 100 is installed on top of the geotextile layer 110 for ground subsidence, and the permeable storage block 10 is disposed on the particle size adjusting crushed stone layer 100. It is characterized by being installed.

According to the present invention, the reservoir layer 14-1 is attached to the bottom of the block impermeable layer 12-1 with the adhesive layer 18, and the permeable core insertion groove 16 is disposed on the upper surface side of the block so that the permeable core can be inserted. Is formed one or more, the permeable core insertion groove 16 is formed in any one selected from the shape of the cube, cylinder, cylinder, spherical and pyramid, the permeable core insertion groove ( It relates to a permeable storage block combined with a permeable core, characterized in that 16) is inserted into the permeable core for rainwater inflow.

1 to 6, the permeable storage block combined with the permeable core of the present invention has a reservoir layer 14 formed below the impermeable layer 12 of the block so that rain water can be stored therein, and the permeable core 20 is to be inserted. One or more permeable core inserting grooves 16 are formed on the upper surface side of the block so that the permeable core inserting grooves 16 are selected from hexahedral, cylindrical, cylindrical, spherical and pyramidal shapes. It is formed in one shape, and the pitcher core 20 for rainwater inflow is inserted into the pitcher core insertion groove 16.

1 to 6, the impermeable layer 12 in the permeable storage block 10 of the present invention is formed of any one selected from a concrete processing layer, a stone plate, a clay plate and a magnetic tile plate. In the permeable storage block 10 of the present invention, the product formed with the impermeable layer as the concrete processing layer is produced by integrating the cement adhesive force and high pressure vibration in the block manufacturing process, and the stone plate, clay plate and magnetic tile plate are separately processed. It is then commercialized by adhering to each other with adhesive.

1 to 6, the permeable storage block 10 of the present invention is generally horizontal A = 200 to 1000 mm, vertical B = 200 to 1000 mm, height T = 100 to 200 mm and according to the specification of the permeable core. Can be produced in various ways, one or two or more of the permeable core insertion groove 16 is formed on the upper surface side of the permeable storage block (10).

In the pitcher storage block 10 of the present invention, the most widely used standard of the pitcher core insertion groove 16 is horizontal A '= 50mm, vertical B' = 50mm, height T '= 60mm or the size, design and pitch of the block. It depends on the coefficient.

In the permeable storage block of the present invention, the permeable cores 20 and 20-1 include core bodies 24 and 24-1 having spaces formed therein; And it is preferably formed on the upper portion of the core body, the upper surface is preferably made of a core upper surface (22, 22-1) is formed in the form of a network (25, 25-1).

In the pitcher storage block 10 of the present invention, the pitcher cores 20 and 20-1 may be manufactured in various forms such as a hexahedral box, a cylindrical box, a cylindrical box, a spherical box, and a pyramidal box. It is preferable to manufacture in the form of a box or a cylindrical box.

The permeable storage block 10 of the present invention increases the permeability by increasing the permeation area by inserting one or two or more of the permeable core 20 into the upper surface of the permeable block 10 and increasing the permeability. Effective for improving function The permeable storage block 10 of the present invention is to improve the substructure so as to replace the auxiliary base layer of the existing permeable substructure by installing a block of the reservoir layer 14 type having an excellent temporary storage space. .

The overall thickness of the permeable cores 20 and 20-1 in the permeable storage block 10 of the present invention is based on 3 mm or more. Permeable storage block 10 of the present invention is designed in the form of a grid (25, 25-1) of the grid on the upper surface of the upper end of the permeable core is designed to effectively transmit rainwater.

The pitcher core in the pitcher storage block 10 of the present invention is formed so that the hole size of the net (25, 25-1) so as not to fall out when walking, high heels heels can provide a comfortable walking environment by forming a width, 5mm or more. It is designed to be.

The material of the permeable core used in the permeable storage block 10 of the present invention uses high-cost-strength strength and eco-friendly materials by using eco-friendly materials, and the thickness of the permeable core is manufactured so as not to crack or break during walking.

The permeable core in the permeable storage block 10 of the present invention has the effect of absorbing and offsetting the non-point source caused by the initial rainfall, and maintains the effective permeability through the permeable core, through the storage layer having an excellent temporary storage space Because rainwater is temporarily stored and drained to the ground, it is effective to prevent water condensation and flooding on the sidewalk during heavy rains and heavy rains, while maintaining a constant permeability rate and providing a pleasant walking environment.

The permeable storage block 10 of the present invention can increase the permeability of rainwater by installing a permeable core, and is effective in providing a safe and comfortable walking environment with continuous permeability during heavy rains or long-term heavy rains.

As shown in FIG. 15, the permeable storage block of the present invention is provided with a particle size control crushed stone layer 100 is installed on the geotextile layer 110 for preventing ground subsidence to provide a layer for catching a level during construction. Permeable storage block of the present invention, it is preferable that the permeable storage block 10 is installed on the top of the particle size control crushed stone layer (100).

In the present invention, as shown in Figure 16, the permeable core is provided with a filter layer 28 for purification means for reducing non-polluting sources in the core body, and the ocher ball in the core body corresponding to the upper part of the filter layer 28. It is preferable that any one of the environmentally friendly materials selected from clay balls, ceramic balls, and barb crushed stone is inserted.

In the present invention as shown in Figure 16, the permeable core can be constructed by using an eco-friendly packaging method using an eco-friendly material by filling in the core body 22 using ocher balls, clay balls, ceramic balls, crushed stone, etc. Ocher, clay, ceramic, and elvan have the functions of purifying and purifying water on their own, and are effective in preventing contamination of groundwater. Also, they have the function of purifying pollutants in the air by generating negative ions in environmentally friendly materials. Effective in preventing

13 to 14, the reservoir layer 14-1 is attached to the bottom of the block impermeable layer 12-1 as an adhesive layer 18, and a pitcher is provided on the upper surface side of the block so that a permeable core can be inserted therein. One or more core insertion grooves 16-1 and 16-2 are formed, and the permeable core insertion grooves are formed in any one form selected from hexahedral, cylindrical, cylindrical, spherical and pyramidal shapes. It relates to a permeable storage block is combined with a permeable core is inserted into the permeable core insertion grooves (16-1, 16-2) for the rainwater inlet permeable core.

The permeable storage block 10 of the present invention may be manufactured in an integrated form in which the impermeable layer 12 and the reservoir layer 14 are combined as shown in FIGS. 1 to 6, and the impermeable layer 12-1 as shown in FIGS. 13 to 14. The reservoir layer 14-1 may be manufactured in a separate form by separating the impermeable layer 12-1 and the reservoir layer 14-1 into the adhesive layer 18.

10: permeable storage block 18: adhesive layer
20: Pitcher Core 200: Base Plate

Claims (7)

The upper surface of the block is formed of an impermeable layer so that it can be used as a road surface.
The impervious layer is any one selected from concrete processing layer, stone plate, clay plate and magnetic tile plate,
The reservoir layer is integrally formed with the impermeable layer under the impermeable layer of the block so that rainwater can be stored with a rainwater temporary storage space.
One or more pitcher core insertion grooves are formed on the upper surface side of the block so that the pitcher core can be inserted therein.
The pitcher core insertion groove is formed in any one form selected from hexahedral, cylindrical, cylindrical, spherical and pyramid shape,
A rainwater inflow permeable core is inserted into the permeable core insertion groove so that rainwater falling on the road surface formed of an impermeable layer is introduced.
The permeable core is a permeable core block, characterized in that any one selected from the form of a hexagonal box, a cylindrical box, a cylindrical box, a spherical box and a pyramidal box. According to claim 1, The permeable core is a core body having a space therein; And a core upper surface formed at an upper portion of the core body and having an upper surface formed in a net shape. According to claim 1, wherein the permeable core is provided with a filter layer 28 inside the core body, and the inside of the core body corresponding to the upper portion of the filter layer is selected from ocher ball, clay ball, ceramic ball, barley stone crushed stone Permeable storage block combined with a pitcher core, characterized in that any one of the eco-friendly material is inserted.
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