KR20120104011A - Improve rainwater treatment system being capable of assembling - Google Patents

Abstract

In the assembled rainwater quality improvement treatment system according to the present invention, since the rainwater inflow path and the foreign matter collection path are separated and configured through the configuration of the foreign matter separator and the foreign matter collection block, reliability of the drainage facility by preventing road flooding accidents such as a smooth drainage road. It is possible to increase the road pollution and to prevent the road cleaning and heat island by reducing river pollution and recycling rainwater can build an environmentally friendly road system. In addition, the assembly structure of the entire system is made simple, and foreign matters are easy to remove, and the cleaning operation can be easily performed.

Description

Prefabricated rainwater treatment system being capable of assembling

The present invention relates to a rainwater quality improvement treatment system installed in the side openings of the road road surface, and discharges rain water dropped on the road surface.

In general, road side storm drains are installed at the side openings of the road to drain rainwater from the road surface.

Road side drains are generally composed of gratings that have a grate structure to cover the lid, and water collecting wells installed in the lower part of the grating to collect rainwater and drain the collected rainwater to the public sewer through drain pipes. .

The roadside rain gutter can filter foreign substances such as rubbish and fallen leaves over a certain size through grating, but the grating gap of grating is so large that it is practically impossible to clean the rainwater.

For this reason, a system has been developed to install a separate strainer or purifying structure between the grating and the sump to purify the rainwater, and to purify the foreign matter and then flow it into the sump. Efforts are needed, especially when there is a lot of rain, such as during heavy rains, drainage problems occur because the strainer or the purification structure is easily blocked by foreign substances, which impedes the passage of pedestrians and vehicles. There is a risk of a safety accident, there is a problem that may cause a serious flooding accident, such as spreading by flooding of nearby buildings, causing huge property damage.

In addition, since it is difficult to ensure the purification state of the rain water that has passed through the strainer or the purification structure as described above, there is a problem that it is not easy to utilize while maintaining the rain water in a better water quality.

The present invention has been made in order to solve the above problems, by separately separating the rainwater inflow path and the foreign matter collection path, it is possible to prevent road flooding accidents to smooth drainage, and also to remove the rainwater from the foreign matter to a better water quality The objective is to provide a prefabricated rainwater treatment system that can be managed and usefully utilized.

In addition, an object of the present invention is to provide an assembly type rainwater quality improvement treatment system that can be easily assembled and the removal of foreign matter, the cleaning system can be easily made as well as the assembly structure of the entire system.

The assembled rainwater quality improvement treatment system according to the present invention for realizing the above object is a collection block embedded in an underground space of a road, a foreign matter collection block located at an upper portion of the collection block and collecting foreign substances such as garbage, foreign matter It is disposed on either side or left and right sides of the collection block to include a foreign matter separator for filtering foreign matter, the foreign matter collection block is characterized in that the upper collector and the lower collector has a configuration that is assembled together.

The assembled rainwater quality improvement treatment system according to the present invention has the following effects.

According to the present invention, since the rainwater inflow path and the foreign matter collection path are separated and configured through the configuration of the foreign matter separator and the foreign matter collection block, the reliability of the drainage facility can be improved by preventing the road flooding accident and the like with a smooth drainage.

In addition, the present invention, while the assembly structure of the entire system is made easily, the foreign matter is easy to remove, there is an effect that the cleaning operation can be made easily.

In addition, the present invention is to clean the initial rainwater filtered by the foreign matter through the filter net to be discharged by directly penetrating into the soil to prevent river pollution due to polluted rainwater and solve the ground stability problems due to the underground water level decrease There is also an effect.

In addition, the present invention, by collecting rainwater with improved water quality in a separate storage tank separately and recycling it to road cleaning water or heat-sparking prevention water, etc. has the effect of reducing the water supply and improve the urban environment.

1 is a perspective view showing an embodiment of the present invention.
2 to 12 are views showing another embodiment of the present invention,
2 is a front view showing an exploded state of another embodiment of the present invention.
Figure 3 is a perspective view of various directions showing the entire assembly state in the present invention,
Figure 4 is a front view, left, right side view, plan view, bottom view showing the entire assembly state in the present invention.
5 is a perspective view of various directions showing the foreign matter separator in the present invention,
Figure 6 is a front view, left, right side view, plan view, bottom view showing a foreign matter separator in the present invention.
7 is a perspective view of various directions showing a water collecting block in the present invention,
Figure 8 is a front view, left, right side view, plan view, bottom view showing a water collecting block in the present invention.
9 is a perspective view of several directions showing a foreign matter collection block in the present invention,
Figure 10 is a front view, left, right side view, plan view, bottom view showing a foreign matter collection block in the present invention.
11 is a plan view and cross-sectional view showing the upper collector in the present invention.
12 is a plan view and cross-sectional view showing a lower collector in the present invention.
13 to 15 are views showing a configuration provided with a prefabricated rainwater storage structure.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a view showing a rainwater quality improvement treatment system of an embodiment according to the present invention.

Rainwater quality improvement treatment system according to an embodiment of the present invention, the collecting block 20 embedded in the underground space of the road, the foreign matter collection block 30 which is located on the upper portion of the collecting block 20 to collect foreign substances such as garbage Is disposed on any one side or left and right both sides of the foreign matter collection block 30 is configured to include a foreign matter separator 40 for filtering foreign matter.

That is, according to the present invention, a plurality of foreign matter separators 40 are continuously installed along the road side opening 13, and the foreign matter collecting block 30 is installed in the middle of the foreign matter separators 40, thereby falling to the ground. Rain water (including water present on the ground) is collected through the foreign matter separator 40 and collected in the water collecting block 20, and foreign matters such as garbage and fallen leaves that do not pass through the foreign matter separator 40 are separated from the foreign matter separator ( 40 is to be configured to be collected in the foreign matter collection block 30 over the top.

The main components of the present invention will be described in detail.

First, the foreign material separator 40 is composed of a waterway block 45 and the filtering portion 41, the waterway block 45 is formed with a relatively large volume of the waterway to form a good storage space, 41 consists of a pitcher block.

The waterway block 45 is preferably composed of a concrete structure in which the front as well as the front and the rear are open to form a flow path.

The filtering portion 41 is formed to have a porous structure and configured to allow rain water to pass therethrough, and may be configured using a known permeable block.

Next, the foreign matter collection block is made of a structure in which the grating 35 is installed on the collecting vessel 31. The foreign matter collection block 30 may be provided with a vertical flow path 33 and a horizontal flow path 34 on the side and the bottom of the collection container 31, wherein the collection cylinder 31, the vertical flow path 33, the horizontal flow path ( 34) can be configured integrally with one concrete structure. Of course, a configuration in which these are separated and assembled together is also possible.

On the other hand, in the upper portion of the collection container 31 of the foreign matter collection block 30, the water opening and closing device to prevent the foreign matter flows back to the outside of the foreign matter collection block 30 when water flows into the collection container 31 Is preferably installed. The opening and closing device may be composed of an opening and closing plate 330 rotatably installed in the collecting container 31 and the buoyancy body 335 provided in the opening and closing plate 330. Therefore, when the water rises inside the collecting container 31, the buoyancy body 335 and the opening and closing plate 330 rises as the water level rises to prevent the rainwater from flowing any more by preventing the upper part of the collecting container. Foreign matter introduced into the barrel 31 can also be prevented from escaping out.

Next, the water collecting block 20, the inlet 211 is formed in the lower side of the water collecting body 210 to form a water collecting space so that rain water flowing from the foreign matter separator 40 is introduced, the upper portion is opened It is formed into a structure. And one side of the water collecting body 210 is provided with a drain pipe 24 connected to the storm conduit or rainwater reuse facility.

The collector 210 may be formed of a concrete structure.

In particular, the water collecting body 210 is configured so that the opening and closing structure 230 is automatically installed by the load of the accumulated water when a certain amount of water accumulated in the upper side, such as when a lot of rain is installed on the open top. It is desirable to. It is preferable that the grating 220, which is a protective structure, is installed on the opening and closing plate 230 so that the opening and closing plate is not opened by a load (for example, a human foot, etc.) rather than rainwater.

In addition, the upper circumferential portion of the water collecting body 210 is preferably provided with an excellent rainwater overflow jaw 240 so that foreign matter does not easily flow from the surrounding.

The initial storm overflow barrier 240 is formed to a certain degree higher than the height of the upper surface of the foreign matter separator 40 and the foreign matter collection block 30 described above. At this time, it is preferable to protrude round so as to minimize the hook, it may be formed to protrude all around the water collecting body 210, when the road boundary block 11 is installed on one side of the road boundary block 11 is installed It is also possible to form except.

Therefore, when a lot of rain or other parts are blocked and not drained, the rainwater flows into the water collector 210 over the initial rainwater overflow jaw 240, if the rainwater is a certain amount of the opening and closing plate 230 by this load ) Is configured to be open.

Rainwater quality improvement treatment system according to an embodiment of the present invention configured as described above, after the majority of the rainwater flows into the waterway block 45 through the permeation block 410 of the foreign matter separator 40, foreign matter collection block After flowing into the water collecting body 210 through the vertical flow path 33 and the horizontal flow path 34 formed in the (30) is discharged through the drain pipe 24 to the storm drain or rainwater reuse facility.

At this time, since the rain water passes through the permeation block 410, the rainwater is reduced by turbidity and flows toward the water collecting block 20 through the waterway block 45, and the foreign matter that does not pass through the water permeation block 410 is a foreign matter collection block. 30 are collected. And when the water has passed over the initial rainwater overflow jaw 240, such as when a lot of rain is accumulated on the water collecting body 210, the opening and closing plate 230 is automatically opened by the load of the deceased water rainwater collecting water 210 By being configured to flow into the interior, it is possible to prevent road flooding accidents even in concentrated lakes.

Next, another embodiment of the present invention will be described with reference to FIGS. 2 to 12.

Another embodiment of the present invention is basically similar to the embodiment of the present invention described above, but the overall assembly structure and the structure of the drainage of the foreign matter collection block 30 is configured differently.

In describing other embodiments of the present invention, the same reference numerals are given to the same or similar components as those of the above-described embodiment, and the configuration will be described based on the different configurations.

2 is a front view showing an exploded state of another embodiment of the present invention, and as shown therein, the collecting block 20, the foreign matter collection block 30, and the foreign matter separator 40 are assembled to each other.

In addition, the foreign matter collection block 30 has a configuration in which the upper collector 51 and the lower collector 60 is assembled together.

3 is a perspective view of various directions showing the entire assembly state, Figure 4 is a front view, left, right side view, plan view, bottom view showing the overall assembly state, the collecting block 20, foreign matter collection block 30, foreign matter It shows a structure in which the separator 40, the upper collector 51 and the lower collector 60 are assembled together.

In FIG. 3, reference numeral 25 denotes a drain.

5 is a perspective view in various directions showing the waterway block 45 of the foreign matter separator 40, and FIG. 6 is a front view, left, right side view, top view, showing the waterway block 45 of the foreign matter separator 40; Bottom view.

The channel block 45 of the foreign material separator 40 is configured such that both sides can be mutually assembled with the other channel block, and the perforated block is inserted into the upper opening 46 to be assembled.

7 is a perspective view of various directions showing the collecting block 20, Figure 8 is a front view, left, right side view, plan view, bottom view showing the collecting block 20 in the present invention.

The collecting block 20 is configured such that the foreign matter separator 40 is assembled to the side, and the foreign matter collecting block 30 is inserted into the upper part.

In FIG. 7, reference numeral 240 denotes a storm overflow barrier, and 25 denotes a drain hole.

7 illustrates a structure in which the foreign matter separator 40 may be coupled to only one side of the collecting block 20, the foreign matter separator 40 may be formed on both sides of the collecting block 20 as needed. It is also possible to configure to be combined.

That is, the hole 26 to which the foreign matter separator 40 can be coupled is formed at the portion indicated by the dotted line on the other side of the collecting block 20 shown in FIG. 7. At this time, when the foreign matter separator 40 is not combined, it is used by blocking the plug structure.

9 is a perspective view of various directions showing the foreign matter collection block 30, Figure 10 is a front view, left, right side view, plan view, bottom view showing a foreign matter collection block 30 in the present invention.

The foreign matter collection block 30 has a structure capable of draining water while collecting foreign matter therein in a state assembled at the upper portion of the collecting block 20.

In addition, the foreign matter collection block 30 is integrally provided with a cover portion 36 to block one upper portion of the collecting block 20 on one side.

In FIG. 9, reference numeral 340 denotes an excellent overflow prevention jaw, and 37 denotes a drain hole.

11 is a plan view and cross-sectional views showing the upper collector 51 in the present invention.

The upper collector 51 is formed in a tubular structure that is vertically long, and the flange portion 52 is formed on the top. Screens 53 are installed on both inner sides so that water is discharged and foreign substances are filtered out. The drain portion 54 is formed outside the screen 53, and the drain portion is configured to be connected to the lower collecting container 60, which will be opened at the top and will be described below.

In addition, the upper collection container 51 may be provided with an opening and closing device 55 on the upper portion.

The opening and closing device 55 may be composed of two opening and closing plates 56 arranged side by side as in the above-described embodiment. The opening and closing plate 56 is provided with a buoyancy body 59 so as to be automatically closed when water is filled in the collecting container. Of course, if the water is not occupied by the spring structure is configured to rotate inside the collecting container.

The opening and closing plate 56 is formed in a right angle structure when viewed from the side so that normally the second opening and closing part 57 covers the upper part of the drain 54 of the upper collector 51, the water is closed in the collector The first opening and closing portion 58 may be configured to cover the upper portion of the collecting container and the second opening and closing portion 57 may be opened to be directly drained toward the drain portion 54.

12 is a plan view and cross-sectional view showing the lower collector 60 in the present invention.

The lower collecting container 60 is fitted into the drain hole 25 of the collecting block 20 before the foreign matter collecting block 30 is mounted, and is preferably composed of two so as to be fitted into the two drain holes 25, respectively. .

The lower collector 60 is also formed with a flange 61 on the upper portion to be fitted to the lower portion of the foreign matter collection block (30). The lower part of the drainage part 54 of the said upper collection container 51 is fitted in the upper inlet part centering on this flange part 61, and is assembled.

The lower collection container 60 may be configured by mounting a rubber packing 62 on the upper end as necessary.

13 to 15 are views showing a configuration provided with a prefabricated rainwater storage structure.

FIG. 13 is a plan view, after the rainwater flows through the sidewalk block 200 and enters the foreign matter separator 40 through the oil hole pipe 210, and then the water collecting block 20 is introduced into the foreign matter collecting block 30. Are gathered.

Here, the water discharged through the water collecting block 20 or the storm drain 24 may be configured to be used by inflow into the storage structure, as shown in FIG. 13 by embedding it in the lower underground space of the sidewalk where the sidewalk block is installed. Can be configured.

As shown in FIG. 14 and FIG. 15, it is introduced into the first storage tank 111 through the rainwater storage tank inlet pipe 101. In this case, the upper portion of the first storage tank 111 may be provided with a filtering mesh 105, the upper portion may be provided with a nozzle device 107 for washing the mesh. Next to the first storage tank 111, a second storage tank 112 for storing water passing through the first storage tank can be positioned, and next to the second storage tank 112, the second storage tank 112 through the barrier 113. The third storage tank 114 in which the water from is stored may be located.

The third storage tank 114 is provided with a pump 120 is configured to utilize the water collected in the third storage tank for various uses. It is also possible to supply and use the mesh washing nozzle apparatus 107.

In FIG. 14 and the like, reference numerals 103 and 105 denote manhole portions formed in the sidewalks.

Claims (2)

Water collecting block embedded in the underground space of the road, foreign material collecting block which is located on the upper part of the water collecting block to collect foreign matters such as garbage, and foreign matter separator which is disposed on one side or left and right sides of the foreign matter collecting block to filter foreign substances Including,
The foreign matter collection block is assembled rainwater quality improvement treatment system, characterized in that the upper collector and the lower collector has a configuration that is assembled together.
The method according to claim 1,
Prefabricated rainwater quality improvement system including a mesh unit for receiving additional rainwater, a spray nozzle for cleaning, a pump chamber for recycling, and a storage unit for storing rainwater.

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