KR102175809B1 - Sidewalk blok - Google Patents

Abstract

The present invention relates to a sidewalk block and, more specifically, to a sidewalk block, which allows rainwater to be slowly discharged into the ground after the rainwater is stored. According to the present invention, the sidewalk block for penetrating and storing rainwater includes: a rectangular base from a lower support column protrudes to an upper portion and in which a drain hole is formed; a body which is hollow therein, of which the bottom is opened, which is formed in a hexahedron in which the base is coupled to the bottom, and in which an upper support column is formed on an upper surface to a lower portion and a penetrating hole through which the rainwater penetrates is formed; and a cover provided on the upper surface of the body.

Description

Rainwater penetration storage sidewalk block {SIDEWALK BLOK}

The present invention relates to a sidewalk block, and more particularly, to a sidewalk block that slowly discharges rainwater into the ground after storing it.

Recently, due to the concentration of population in cities, the development of housing sites is increasing, and the pavement of roadways and sidewalks through which people and cars pass are rapidly progressing.

Usually, roadways are paved with road pavements made of impermeable asphalt concrete or cement concrete, and sidewalks are paved with sidewalks made of sidewalk blocks.However, conventional pavements for paving sidewalks or driveways do not take into account the permeability of the ground, and all of them are made of concrete or concrete. As a pavement material using asphalt as an aggregate, it is composed of an impermeable material that cannot pass water or air.

Due to rapid urbanization in which rivers and wetlands are rapidly lost, the impermeable area ratio in metropolitan areas such as Seoul continues to increase and asphalt. The expansion of the impermeable area by concrete lowers the rainwater penetration capacity of the city, so a significant amount of rainfall cannot seep into the ground, and without the process of filtering contaminants due to the washing of the road surface, it is just a sewage pipe in a state containing contaminants on the surface. As it flows into the river through the river, the water circulation environment in the city is deteriorated, so it is not possible to flexibly cope with drought or flood even in areas with abundant rainfall, as well as urban heat islands and tropical night phenomena caused by depletion of groundwater, drying of rivers, and distortion of the thermal environment. , There is a problem of causing natural disasters such as increased water pollution in rivers due to water pollution by unfiltered rainwater and dead trees.

In particular, the conventional sidewalk block composed of impermeable pavement material does not penetrate into the road surface directly in the rainy season or rainy season in the summer, but flows into the excellence of the road such as the road boundary sideway with a concrete structure as a drainage facility and is drained into the sewer pipe. As the underground environment becomes desolate due to the lack of groundwater inside, it acts as a cause of destruction of the ecosystem, and when heavy rains with a lot of rain at the same time fall, the sidewalks become submerged, or rainwater accompanied by pollutants rapidly enters the river and floods the river. There was a problem that caused natural disasters such as the back, odor generation, and urban heat island phenomenon where impermeable sidewalks act as catalysts.

In addition, in order to reduce the amount of surface water in case of rainfall by changing the impermeable surface to a permeable surface by solving the above problems of permeation and storage of rainwater, a permeable sidewalk block of penetration type that penetrates the ground through the surface has been developed. Unlike general sidewalk blocks, water can easily pass through internal voids and hole holes to permeate underground, thereby preventing floods, increasing groundwater, and preserving underground ecology.

However, in the permeable sidewalk block according to the prior art, pores are clogged due to continuous inflow of soil, suspended matter, and contaminants, so that the initial advantages cannot be maintained for a long time. In addition, the conventional permeable sidewalk blocks simply impart permeability to the block itself based on the premise of a permeable infrastructure, allowing contaminated rainfall to flow into the ground as it is. If it is constructed on a sidewalk or roadway with no ground structure, there are various problems in that the natural drainage rate of the ground decreases, or the backflow of water or ground subsidence is caused.

In addition, by creating a space in the sidewalk block to store rainwater, it mitigates damage from torrential downpour, and the reservoir block developed to contribute to the natural water circulation through the underground penetration of rainwater also performs only fragmentary permeation and storage The natural drainage rate is low due to the inability to penetrate rainwater to the temperature, or there is no filtration function to purify rainwater, which is a source of non-point pollutants.Therefore, it is difficult to recycle water and expandability due to contaminated water, so there is a limit to the storage capacity to accommodate rainwater.

In addition to the permeable block, which is a permeable pavement material that penetrates the ground through the ground, separate rainwater storage tanks or rainwater penetration means can be independently manufactured and installed, but the installation is complicated and uneconomical. There is a limit to changing the impermeable surface of the sidewalk to the water-permeable surface due to the low natural drainage rate of the ground, and the filtration function to remove foreign substances or contaminants contained in rainwater, which is a source of non-point pollution, cannot be performed. There is a problem that the rise cannot be effectively suppressed.

After all, the conventional sidewalk pavement block, regardless of whether it is a permeable or impermeable block, has a problem in that it cannot adapt to the changed intensive rainfall patterns due to the effects of abnormal climates such as global warming and the continuous development of the city. Of course, a comprehensively improved sidewalk block substructure, such as permeation, filtration, penetration, and water utilization, was urgently required.

Publication Patent No. 10-2019-0072096 Registered Patent No. 10-1883774 Registered Patent No. 10-1313936

The present invention has been conceived to solve the above-described problem, and an object of the present invention is to provide a sidewalk block that slowly discharges rainwater into the ground after storing it.

Another object of the present invention is to provide an eco-friendly sidewalk block by recycling waste resources.

In order to solve the above technical problem, the rainwater penetration storage sidewalk block according to the present invention includes a rectangular base having a lower support column protruding upward and having a drainage hole formed thereon; A body having a hollow inside and an open bottom surface to form a hexahedral body in which the base is coupled to the bottom surface, an upper support column formed downward from the top surface, and a permeable hole through which rainwater penetrates; And a cover provided on the upper surface of the body.

In addition, it is preferable that sidewalls are formed on four sides of the base.

In addition, it is preferable that the lower support pillar is inserted into the upper support pillar.

In addition, it is preferable that a contact plate in close contact with the inner wall of the body is formed upward on two or four sides facing each other of the base.

In addition, the contact plate is preferably formed to be thinner as it goes upward.

In addition, it is preferable that a rib is formed protruding on the side wall or the outer surface of the contact plate.

In addition, it is preferable that the rib is formed in a vertical direction, and the protruding thickness becomes thicker as it goes downward.

In addition, it is preferable that a square-shaped seating groove is formed along the rim on the bottom surface of the base.

In addition, the drain hole is preferably formed in a cylindrical shape.

In addition, it is preferable that the permeable hole has a cross section formed in a funnel shape.

In addition, it is preferable that the body extends from the water permeable hole to form an inclined inflow path through which rainwater flows in.

In addition, the permeable hole is preferably formed in the corner.

In addition, it is preferable that an upwardly stepped edge chin is formed at the edge of the body.

In addition, the sidewall of the body is preferably formed to be stepped inward at a position in close contact with the sidewall or the contact plate.

In addition, it is preferable that a filler is filled between the base and the body.

In addition, it is preferable that the side wall of the body is formed with a protrusion for adjusting the distance protruding outward.

In addition, it is preferable that a coupling hole is formed on the upper surface of the body, and a coupling protrusion inserted into the coupling hole is formed on the cover.

In addition, it is preferable that a locking protrusion is formed on a side wall of the body, a side wall is formed on the cover, and a hook coupled to the locking protrusion is formed on an inner wall of the side wall.

In addition, it is preferable that the corner of the cover is in close contact with the corner jaws.

In addition, it is preferable that sidewalls connected to each other are formed on the base.

In addition, it is preferable that a rib is protruded on the outer surface of the side wall.

In addition, it is preferable that the rib is formed in a vertical direction, and the protruding thickness becomes thicker as it goes downward.

According to the present invention, there is an effect that rainwater can penetrate and store.

In addition, the body and the base are eco-friendly by recycling waste resources, and by forming the cover with an elastomer, not only does it prevent slipping when walking, but also improves the walking feeling due to the soft material characteristics, and it is easy to remove foreign substances such as gum.

1 shows the overall appearance of an embodiment according to the present invention.
2 is an exploded perspective view of the embodiment shown in FIG. 1.
3 to 5 show main parts of the embodiment shown in FIG. 1.
6 to 9 are views for explaining the combined state of the embodiment shown in FIG.
10 is a state diagram of use according to the present invention.
11 shows another embodiment according to the present invention.

Hereinafter, the structure and operation of the embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

1 and 2, the embodiment (1) according to the present invention is generally formed in a rectangular parallelepiped shape, and includes a base 10, a body 20, and a cover 30.

3 is a view of the base 10 when viewed from above and below.

Referring to this, the base 10 has a rectangular shape as a whole, and a plurality of lower support columns 11 protruding upward are provided. The lower support pillar is formed of a first lower support pillar 11a having a relatively high height and a hollow inside, and a second lower support pillar 11b having a low height and not hollow inside. The first lower support pillars 11a are formed at corners, and the second lower support pillars 11b are disposed between the first lower support pillars.

In addition, a plurality of drain holes 12 are formed in the base 10 to allow rainwater to be gradually discharged into the ground, and are formed in a cylinder 12a protruding upward from the bottom surface to prevent clogging by soil or the like.

In addition, a contact plate 13 protruding in a rectangular shape is formed on the rim of the base 10. The contact plate 13 is formed to be thinner toward the top.

In addition, ribs 14 are formed in the longitudinal direction on the outer surface of the contact plate 13, and the ribs 14 are formed to have a thicker protruding thickness toward the bottom.

In addition, a step 16 is formed along the rim on the bottom surface of the base 10 to form a rectangular seating groove 15. In general, the sidewalk is filled with sand to a certain thickness on the concrete floor, and a sidewalk block is placed on the sand. It is fixed stably.

Figure 4 is a view of the body 20 according to the present invention from above and below.

Referring to this, a funnel-shaped permeable hole 22 is formed at each of the four corners of the body 20, and an inflow path 23 extends in all directions in the permeable hole 22. It is preferable that the inflow path is formed to be inclined to introduce rainwater. In addition, a corner jaw 29 stepped upward is formed in a round shape at the corner.

In addition, a coupling hole 28 is formed on the upper surface of the body 20 to be coupled to the cover 30.

In addition, the sidewall 24 of the body is formed with a stepped portion 26 at a position in close contact with the contact plate to be stepped inward.

On the other hand, the body 20 and the base 10 is formed of a synthetic resin material, more preferably injection molded from recycled plastic.

In addition, when the body 20 and the base 10 are coupled, the sidewall of the body 20 is in close contact with the contact plate 13 of the base 10. Specifically, the sidewall 24 stepped to the inside of the body is in close contact while moving downward along the upper portion of the contact plate 13, and at this time, the rib 14 has a thicker protruding thickness toward the lower side. It is a structure in which the shape of (14) is distorted and strongly adhered to each other.

In addition, when the contact plate 13 is formed to be thinner toward the top so that the side wall 24 of the body 20 is in close contact, the upper part of the contact plate is more elastic than the lower part so that it can be retracted backward.

In addition, a coupling protrusion 25 is formed in a stepped portion on the side wall 24 of the body.

In addition, the body is formed with a protrusion 27 for adjusting the distance protruding outward. This is to facilitate installation of adjacent bodies 20 at regular intervals. The gap adjustment protrusion 27 is formed in a vertical direction.

In particular, since the rib 14 has a thicker protruding thickness at the lower portion and the lower portion of the contact plate 13 is thicker than the upper portion, there is a possibility that the sidewall 24 of the body 20 protrudes outward from the lower portion. In this way, when the side wall 24 of the body protrudes outward, it may be difficult to install at regular intervals due to interference with the adjacent body 20. Accordingly, a stepped portion 26 is formed on the side wall 24 of the body 20 to be stepped inward. In this way, the stepped step 26 is formed on the side wall 24 of the body, so that even if the side wall 24 of the body protrudes outward by the contact plate (or rib), it does not interfere with the side wall of the neighboring body. It can be installed at regular intervals.

In addition, a filler (not shown) made of a hygroscopic material such as sand, gravel, or pulp may be filled between the body 20 and the base 10. The filler can absorb and store rainwater and gradually penetrate rainwater into the basement. In addition, since the body 20 and the base 10 formed of synthetic resin material have a light specific gravity, they can be raised by rainwater, but this can be prevented by giving weight because the filler is filled.

5 is a view of the cover 30 according to the present invention as viewed from above and below. Referring to this, it can be seen that the cover 30 is formed in a rectangular shape as a whole and the four corners 32 are cut in a round shape. This is to fit the shape into the corner jaws 29 of the body 20.

In addition, protrusions (refer to '31' in FIG. 8) for preventing slipping are projected in the form of an arc or a straight line on the upper portion of the cover 30.

In addition, the cover 30 has a coupling protrusion 33 formed downward and is inserted into a coupling hole 28 formed on the upper surface of the body to fix the cover to the body.

In addition, the cover 30 has a sidewall 34 formed to be in close contact with the sidewall of the body 20, and a hook 35 coupled to the locking protrusion 25 formed on the sidewall of the body is formed on the sidewall. .

Meanwhile, on the upper surface of the cover, braille for providing information to the visually impaired may be formed, or a guide line or the like may be formed to guide pedestrians in a walking direction.

Hereinafter, a method of assembling an embodiment according to the present invention will be described.

2, the body 20 and the base 10 are molded by injecting recycled plastic.

In addition, the cover 30 is formed of a non-slip elastomer material so that it can be safely walked without slipping when walking. In addition, since the elastomer material has soft material properties, it has the advantage of excellent walking feeling by absorbing shock when walking.

In particular, the cover 30 and the body 20 are integrally formed by double injection (see FIG. 6).

Specifically, after mounting the already injected body 20 in a mold, a molten resin made of an elastomer material is injected into the mold to inject the cover 30. By manufacturing in this way, the coupling protrusion 33 of the cover 30 is inserted into the coupling hole 28 of the body 10, and the hook 35 of the cover 10 is integrated with the locking protrusion 25 of the body. Are combined (see Figs. 7 and 8).

In addition, the first lower support pillars 11a and the second lower support pillars 11b are inserted and mounted inside the hollow upper support pillars 21. Therefore, the body 20 is stably supported on the base 10 (see FIGS. 7 to 9).

In addition, rainwater introduced through the water permeable hole 22 is gradually discharged through the drain hole 12.

Figure 10 is a state diagram of the use of the sidewalk block according to the present invention. As shown, sidewalk blocks are continuously installed next to each other. At this time, the sidewalk blocks are installed at regular intervals by a protrusion ('27' in FIG. 4) formed on the sidewall of the body.

11 shows another embodiment according to the present invention.

As shown, the second embodiment 100 according to the present invention is generally formed in a rectangular parallelepiped shape, and includes a base 110, a body 20, and a cover 30.

In particular, in this embodiment, the base 110 is formed in a rectangular parallelepiped shape with an open top. That is, the bottom surface has a rectangular shape as a whole, and the sidewall 120 is formed, but the upper part is open. This is because the body 20 with an open bottom surface is coupled to the base 110.

The sidewalls 120 are formed extending upward from the four sides, and it can be seen that they are connected to each other. Therefore, compared to the embodiment (1) shown in FIG. 2, there is an advantage in that the base 110 itself can store excellent water. For reference, in the embodiment (1) shown in FIG. 2, there is a space between the contact plates 13 formed on the base 10, so that only when it is combined with the body 20 can only store excellence, the base 10 ) In itself, storage is impossible.

In addition, a rib 121 is formed on an outer surface of the side wall 120 in a vertical direction, and the rib 121 is formed to have a thicker protruding thickness as it goes downward.

In addition, the sidewalls 120 are formed to have a stepped step 122 formed between the edges. This corresponds to the step (refer to '26' in FIG. 4) formed on the sidewall 24 of the body 20.

When the body 20 and the base 110 are coupled, the side wall of the body 20 is in close contact with the side wall 120 of the base 110. Specifically, the sidewall 24 stepped to the inside of the body 20 is in close contact while moving downward along the upper side of the sidewall 120 of the base 110. At this time, the rib 121 Since the protruding thickness is getting thicker, it is a structure in which the shape of the rib 121 is distorted and strongly adhered to each other. As such, the rib 121 is provided so that it can be adhered more firmly, but the rib 121 is formed so that the body 20 The sidewalls 24 of) may swell up, so the stepped portions 122 and 26 are formed on the sidewalls 120 and 24 of the base 110 and the body 20.

In addition, a plurality of lower support columns 111 protruding upward are provided. The lower support pillar is formed of a first lower support pillar 111a having a relatively high height and a hollow inside, and a second lower support pillar 111b having a low height and not hollow inside. The first lower support pillars 111a are formed at the corners, and the second lower support pillars 111b are disposed between the first lower support pillars.

In addition, the base 110 has a plurality of drain holes 112 for gradually discharging rainwater into the ground, and are formed in a cylinder protruding upward from the bottom to prevent clogging by soil or the like.

In addition, a step ('16' in FIG. 3) is formed along the rim on the bottom surface of the base 110 to form a rectangular seating groove ('15' in FIG. 3).

The other body 20 and the cover 30 are the same as the embodiment shown in FIG. 2.

1: sidewalk block (example)
10: base
11: lower support column
12: drain hole
13: contact plate
14: rib
20: body
21: upper support column
22: pitcher hole
25: stumbling block
30: cover
31: protrusion
32: incision
33: coupling protrusion
100: second embodiment
110: base
111: lower support column
120: side wall
121: rib

Claims (12)

A square-shaped base with a lower support column protruding upward, a drain hole formed, and a square-shaped seating groove formed along an edge on the bottom surface;
The body is formed as a hexahedron that is formed hollow inside and the bottom surface is opened so that the base is coupled to the bottom surface, the upper support pillar is formed downward from the top surface, and the permeable hole through which rainwater penetrates into the corner is formed in a funnel-shaped cross section; And
Includes; a cover provided on the upper surface of the body,
In the base, two or four sides facing each other are formed with a contact plate in close contact with the sidewall of the body,
A rib protruding in the longitudinal direction is formed on the side of the contact plate,
The rib has a thicker protruding thickness as it goes downward,
A filler made of a hygroscopic material that absorbs and stores rainwater is filled between the base and the body,
The side wall of the body is stepped inward at a position in close contact with the side wall or the contact plate,
Sidewalk block, characterized in that the spacing adjustment protrusions protruding in the longitudinal direction are formed on the side walls of the body.

delete delete delete delete delete delete delete delete The method of claim 1,
A sidewalk block, characterized in that a coupling hole is formed on the upper surface of the body, and a coupling protrusion inserted into the coupling hole is formed on the cover.
The method of claim 1,
A sidewalk block, characterized in that a locking protrusion is formed on a side wall of the body, a side wall is formed on the cover, and a hook coupled to the locking protrusion is formed on an inner wall of the side wall.
delete

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