KR20160039722A - Reduction facility of cylinderical bridge nonpoint pollution using concrete vegetation block - Google Patents

Abstract

The purpose of the present invention is to provide a vegetation structure for a water discharge capable of obtaining a pollutant reducing effect by being installed in a lower part of a pier. To achieve the same, the present invention provides a non-point pollutant source reducing facility for the cylindrical pier using concrete vegetation blocks including first concrete vegetation blocks installed in the lower part of the pier to be mutually connected in a circumference direction of the pier and having a first intake unit on a top surface and second concrete vegetation blocks installed to be mutually connected in the circumference direction of the pier between the first concrete vegetation blocks and the ground while being installed in at least one layer. When water in the first concrete vegetation block flowing in through the first intake unit of the first concrete vegetation block flows downward due to its own weight, the water spirally flows to the lower side.

Description

[0001] The present invention relates to a non-point pollution reduction facility for a cylindrical pier using a concrete vegetation block,

The present invention relates to a non-point pollution-treated drainage structure for a river pier, and more particularly, to a drainage structure for non-point pollution for a river pier, Concrete vegetation blocks for pollution abatement facilities.

Generally, bridges are installed outdoors, and polluted dusts such as asbestos brake discs, tire wear dusts, etc. are mixed and discharged on the road surface of a pier supporting bridges due to weather and work, such as rainwater or washing water. At this time, the passage of the pedestrian or the vehicle using the bridge can be restricted, and in particular, contaminants including drainage water can pollute the ground or the river water.

Therefore, a pier drainage facility is generally installed in a pier, and such a pier drainage facility collects infiltration water flowing into the road surface of the pier and drops it to the lower side of the pier so that the infiltration water is discharged to the outside.

On the other hand, in general, infiltration water is often dropped directly into slope slope or soil slope through pier drainage facilities. At this time, due to the kinetic energy due to the drop of infiltration water, it affects slope slope and soil. That is, there may occur a scouring phenomenon in which a part of the soil is washed away from the slope, the soil, and the like. In particular, as described above, water containing a large amount of contaminants has a problem that the soil is contaminated.

Accordingly, there is a need for a pier water drainage structure that minimizes the pollutants contained in water such as infiltration water and drains the water.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems and drawbacks of the prior art, and an object of the present invention is as follows.

First, it is an object of the present invention to allow the infiltration water moving downward along a bridge pier to be drained to the ground after passing through a pollution control module including a vegetation block installed along the periphery of a pier.

Second, the object of the present invention is to filter contaminants contained in water as much as possible while passing through the above-described purification module.

Thirdly, it is an object of the present invention to provide the vegetation part in the purification module and automatically supply the necessary moisture for vegetation through the water drained into the vegetation block.

The problems of the present invention are not limited to the above-mentioned problems, and other problems not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above-mentioned object, the present invention is characterized in that the present invention comprises a first block installed at a lower part of a pier and provided with a plurality of purifying blocks connected to each other along a circumferential direction, And a second block which is installed so as to be connected to each other along the circumferential direction between the first block and the second block and is stacked on at least one layer above and below, The present invention provides a concrete pivot block for a cylindrical pier,

Here, the first block may have a first unit body portion having an outer appearance and having a shape that surrounds a periphery of a pier when a plurality of the first blocks are coupled, the first unit body portion having the first inlet portion at an upper portion thereof, And a first discharge unit for discharging the water introduced into the first inflow unit to the outside and a first vegetation unit having a groove shape opened to the outside of the first unit body unit.

In addition, the first flow path portion may be inclined from the upper side of one side of the first unit body portion to the lower side of the other side of the first unit body portion.

In addition, the first vegetation part may be formed so as to communicate with the first flow path part connecting the first discharge part from the first inflow part.

The second block may include a second unit body portion having a shape that surrounds a pier of the pier when a plurality of units are coupled together, a second inlet portion provided on one side of the second unit body portion, And a second discharge part provided at the other side of the body part for discharging the water introduced into the second inflow part to the outside and a second vegetation part having a groove shape opened to the outside of the second unit body part.

The effect of the concrete vegetation block for a cylindrical pier nonpoint pollution abatement facility according to an embodiment of the present invention to solve the above problems will be described as follows.

First, according to the present invention, a drainage structure using a concrete block structure is installed in a lower part of a pier, and the pollution sources contained in the fluid flowing from the upper part are filtered to be drained to the ground.

Second, according to the present invention, a plurality of concrete blocks are connected to each other to form a single drainage structure. When the blocks are connected to each other, a flow path is formed on the inner side so as to form a screw shape surrounding the bridge pier. In addition, by filling crushed stone, coconut fiber, porous filter material, and the like into each of the flow path portions, the contact time and contact area with the filter material during the flow of water from the upper side to the lower side are increased to maximize the effect of filtering the contaminants . In addition, the filter material has a structure capable of holding many initial pollutants and rainwater, and exhibits excellent functions in the treatment of polluted initial nonpoint pollution sources.

Thirdly, according to the present invention, the above-described concrete block can be structured to have a vegetation structure, so that an aesthetic feeling can be invited.

Fourthly, according to the present invention, the vegetation part and the flow path part are connected to each other, so that the water flowing in the drainage can be utilized for vegetation as it is.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

1 is a perspective view of a cylindrical pier non-point pollution reduction facility according to an embodiment of the present invention;
FIG. 2 is a projection perspective view showing a first concrete vegetation block for the cylindrical pier intersection non-point pollution abatement facility shown in FIG. 1; FIG.
FIG. 3 is a side view of the first concrete vegetation block shown in FIG. 2; FIG.
4 is a projection perspective view illustrating a second concrete vegetation block for the cylindrical pier intersection nonpoint pollution abatement facility shown in FIG. 1; FIG.
5 is a perspective view illustrating a cylindrical pier non-point pollution reduction facility according to another embodiment of the present invention;
FIG. 6 is a plan view schematically showing a third concrete vegetation block constituting the non-point pollution abatement facility shown in FIG. 5; FIG. And
7 is a schematic side view of a third concrete vegetation block constituting the nonpoint pollution abatement facility shown in FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In describing the present embodiment, the same designations and the same reference numerals are used for the same components, and further description thereof will be omitted. First, a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view illustrating a cylindrical pier non-point pollution reduction facility according to an embodiment of the present invention.

As shown in the drawing, the cylindrical pier bridge non-point pollution abatement facility 100 according to the present embodiment is constructed so as to be installed at the lower part of a pier and to flow to the lower ground level with the contamination source contained in the water coming down from the upper part of the pier .

At this time, a separate connection structure for allowing the water passing through the non-point pollution abatement facility 100 to flow smoothly into a general drainage structure may be further applied to the ground.

In the meantime, the cylindrical pier nonpoint pollution abatement facility 100 according to the present embodiment has a structure in which a plurality of first concrete vegetation blocks 101 and a second concrete vegetation block 102 are connected and assembled to each other.

Here, the first concrete vegetation block 101 is provided so that a plurality of first concave vegetation blocks 101 are connected to each other along a circumferential direction around a pier with respect to the center of the pier, and each first inlet portion 114 is provided at an upper side thereof.

Like the first concrete vegetation block 101, the second concrete vegetation block 102 is also connected to the first concrete vegetation block 101 and the ground in a circumferential direction with respect to the center of the pier. And at the same time, if necessary, it is stacked at least one layer above and below to form a predetermined height.

When the water flowing through the first inlet portion 114 of the first concrete vegetation block 101 flows downward due to its own weight, the cylindrical pier non-point pollution reduction facility 100 according to the present embodiment, as a whole, So as to flow downward.

Hereinafter, the first concrete vegetation block 101 and the second concrete vegetation block 102 will be described in more detail with reference to the accompanying drawings.

FIG. 2 is a perspective view for explaining the main configuration of the first concrete vegetation block 101 for the cylindrical pier intersection non-point pollution abatement facility 100 shown in FIG.

2, the first concrete vegetation block 101 includes a first unit body 110, a first inlet 114, a first outlet 115, and a first vegetation part 112).

The first unit body 110 has a shape in which a plurality of the unit body 110 surrounds a pier when the unit body 110 is coupled, and a concrete material is applied. It goes without saying that a basic steel frame to be applied when forming a general pier or civil engineering block may be applied to the inside.

The first inflow unit 114 has a hole shape in which the water flowing down the pier is inserted into the first unit body 110, and the first unit body 110 has one side Respectively.

The first discharge unit 115 is provided at the other side of the first unit body 110 and the water introduced into the first unit 114 flows into the first unit body 110, And is discharged to the outside. The first inlet portion 114 and the first outlet portion 115 are communicated with each other. As shown in FIG. 1, the first unit body 110 has a first flow path portion 116 are provided.

The first flow path portion 116 is formed to be sloped from the upper portion of one side of the first unit body portion 110 to the lower side of the other side of the first unit body portion 110, So that the inflow water can be automatically flowed to the first discharge portion 115 side by self weight.

Meanwhile, the first vegetation part 112 is opened to the outside of the first unit body part 110. As shown in the figure, the first vegetation part 112 has a predetermined space inside the first unit body part 110.

At this time, a first opening 111 is provided outside the first unit body 110, and the depth of the first vegetation part 112 is formed deeper inside the first opening 111 It is preferable that the gravel or the like to be described later is not leaked to the outside.

The first vegetation part 112 is connected to the first flow path part 116 so that water flowing through the first flow path part 116 can be transmitted to the first vegetation part 112 .

3 is a side view of the first concrete vegetation block 101 shown in FIG.

As shown in FIG. 3, the first inlet 114 of the first unit body 110 may have a predetermined inclined circumference with respect to the first inlet 114 as a whole. That is, the first inlet 114 is located at a lower position than the periphery.

Accordingly, a fluid such as water flowing to the upper portion of the first unit body 110 can smoothly flow into the first inlet 114.

FIG. 4 is a perspective view showing a second concrete vegetation block 102 for the cylindrical pier bridge non-point pollution abatement facility 100 shown in FIG.

The second concrete vegetation block 102 also has a second unit body portion 120 having an outer appearance and having a shape that surrounds the periphery of a pier when a plurality of the units are coupled.

It should be understood that the second unit body 102 may also be used as a basic steel frame to be used for forming a general pier or a civil engineering block.

The second unit body portion 120 includes a second inlet portion 124 at an upper portion thereof and a second outlet portion 125 at a lower portion of the second body body portion 120.

The second inflow part 124 and the second discharge part 125 are connected to each other by the second flow path part 126 in the same manner as the first concrete vegetation block 101 described above.

The second unit body 120 also has a second open part 121 and a second vegetation part 122 having the same structure as the first vegetation part 112.

When the first unit body 110 and the second unit body 120 are connected and stacked as described above, the first outlet 115 and the second inlet 124, The second outlet 125 and the second inlet 124 are connected to each other to form a screw shape when the assembly is completed as a whole. At this time, if necessary, a separate sealing member may be applied between the first discharge portion 115 and the second inflow portion 124 and between the second discharge portion 125 and the second inflow portion 124.

As shown in FIG. 4, the second fastening part 128 and the second fastening groove 129, which indicate the position of each of the second unit body parts 120 when stacked, are provided, The first and second coupling parts 128 and 125 may be connected to each other so that the second coupling part 128 is inserted and fixed. It is preferable that one fastening groove (not shown) is applied.

According to the cylindrical pier nonpoint pollution abatement facility 100 using the concrete vegetation block according to the present embodiment having the above-described structure, the first concrete vegetation block 101 and the second concrete vegetation block 102 are installed under the bridge pier, Are connected to each other to form an overall drainage structure. When the blocks 101 and 102 are connected to each other, a first flow path portion 116 and a second flow path portion 126 are formed on the inner side so as to form a screw shape as a whole, and the flow path portions 116 and 126 Filter material and the like are arbitrarily filled so that the contact time and contact area with the filter material made of various materials such as crushed stone and porous material are increased while the water flows from the upper side to the lower side of the nonpoint pollution abatement facility 100, The effect can be maximized.

The first vegetation part 112 and the second vegetation part 122 capable of vegetation may be applied to the concrete vegetation blocks 101 and 102 described above, The second flow path portion 116 and the second flow path portion 122 are connected to the second flow path portion 126 so that the flowing water can be utilized for vegetation as it is and the aesthetics can be invited.

At this time, the first vegetation part 112 and the second vegetation part 122 may be filled directly with the gravel, or a separate flower pot may be applied.

FIG. 5 is a perspective view showing a cylindrical pier bridge non-point pollution reduction facility according to another embodiment of the present invention, FIG. 6 is a plan view schematically showing a third concrete vegetation block constituting the non- And FIG. 7 is a schematic side view of a third concrete vegetation block forming the nonpoint pollution abatement facility shown in FIG.

The cylindrical pier intersection non-point pollution abatement facility 100 according to the present embodiment also includes a plurality of concrete vegetation blocks 103 and 104 stacked and connected together as in the above-described embodiment.

However, in the case of the present embodiment, by making the outflow in the direction of the arrow shown in FIG. 5, that is, in the lateral direction, the contact time with the filter material, which is a purifying medium provided therein, is further increased.

5 to 7, a third concrete vegetation block 103 is provided, and the third concrete vegetation block 103 is provided with an inflow part 114 at one side of its upper part, Or a separate outlet is provided on one side of the side.

The third concrete vegetation block 103 is further provided with a receiving portion 117 for receiving the filter material as a purifying medium and a vegetation portion 112 communicating with the receiving portion 117.

The third concrete plant block 103 is connected to the third concrete vegetation block 103 along the circumferential direction and is opened on both sides or connected to the discharge portion of the third concrete vegetation block 103. At the same time, The third concrete vegetation block 104 is connected to the inlet part 114 of the concrete vegetation block 103.

The third concrete vegetation block 103 having an upper inflow portion is installed for each layer of the nonpoint pollution abatement facility 100 and the fourth concrete vegetation block 104 is installed in the circumferential direction to connect the fourth concrete vegetation block 104 By allowing the rainwater to flow into the lower layer through the inlet of the third concrete vegetation block 103 at a certain position between the respective layers, the rainwater flowing into each layer can be sufficiently brought into contact with the filter material, The purified water is transferred to maximize the purification effect.

It will be apparent to those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. It is obvious to them. Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

For example, the concrete constituting the first unit body 110 and the second unit body 120 may be made of a water-permeable material, so that it is possible to obtain more advantageous effects in drainage and vegetation. That is, in the case of a strong rainy season, the concrete block itself will have a partial drainage effect, and at the time of dry season, the permeated water will be utilized for the vegetation use.

In addition, the vegetation part may not be applied to all the concrete vegetation blocks but may be provided only in a concrete vegetation block installed at a predetermined spaced position along the vertical direction or the circumferential direction.

100: Cylindrical pier nonpoint pollution abatement facility
101: first concrete vegetation block 102: second concrete vegetation block
103: Third concrete vegetation block 104: Fourth concrete vegetation block
110: first unit body part 111: first opening part
112: first vegetation part 114: first inlet part
115: first discharge portion 116: first flow portion
120: second unit body part 121: second opening part
122: second vegetation part 124: second inlet part
125: second discharge portion 126: second flow portion
128: second fastening part 129: second fastening groove

Claims (5)

A first concrete vegetation block installed at a lower portion of the pier and provided with a plurality of piercings connected to each other along a circumferential direction and each having a first inlet portion at an upper portion thereof; And a second concrete vegetation block installed above and below at least one layer so as to be stacked,
Wherein the water flowing through the first inlet portion of the first concrete vegetation block flows downward into a screw shape when the water flows downward due to its own weight, and the concrete vegetation block is used. The method according to claim 1,
The first concrete vegetation block comprises:
A first unit body part having an outer appearance, a plurality of unit wraps around a pier when the unit is coupled, and a first inlet part provided on one side of the first unit body;
A first discharge unit provided at the other side of the first unit body for discharging the water introduced into the first inlet unit to the outside; And
A first vegetation part having a groove shape opened to the outside of the first unit body part;
Wherein the concrete pavement block is used to reduce the non-point pollution of a pillar-type bridgehead. 3. The method of claim 2,
Wherein the first inlet portion and the first outlet portion form a first flow path portion communicating with each other,
Wherein the first flow path portion is inclined from an upper portion of one side of the first unit body portion to a lower side of the other side of the first unit body portion. 3. The method of claim 2,
Wherein the first vegetation part is formed so as to communicate with a first flow path part connecting the first discharge part to the first inflow part. The method according to claim 1,
Wherein the second concrete vegetation block comprises:
A second unit body portion having an outer appearance and configured to surround a periphery of a pier when a plurality of units are combined;
A second inflow portion provided on one side of the second unit body portion;
A second discharge unit provided at the other side of the second unit body for discharging the water introduced into the second inlet unit to the outside; And
A second vegetation part having a groove shape opened to the outside of the second unit body part;
Wherein the concrete pavement block is used to reduce the nonpoint pollution of a pillar bridge.

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