KR102811690B1 - Rainwater drainage system for easy sediment management - Google Patents

Abstract

The present invention relates to a rainwater drainage system for draining sediment and rainwater flowing in through a road grating (70), the rainwater drainage system comprising: a housing (10); a sliding sloping surface (20) located on the inside of the housing (10), having an incline and having a plurality of perforations (21); a standing collection box (30) located at an inclined lower end of the sliding sloping surface (20) toward the bottom surface of the housing (10); a support part (40) extending upward from the bottom surface of the housing (10) and contacting an upper side of the standing collection box (30); a sidewalk opening/closing part (50) coupled to the housing (10) so as to open and close an upper surface (12) of the standing collection box (30) among the upper open surfaces of the housing (10); And a discharge port (60) connected to a sewage pipe on the inside of the housing (10) to discharge rainwater; The sediment filtered on the opening and closing inclined surface (20) slides along the opening and closing inclined surface (20) to the standing collection box (30), and rainwater is discharged through the opening (21) of the opening and closing inclined surface (20) and flows into the sewage pipe through the discharge port (60) to provide a rainwater drainage system.

Description

Rainwater drainage system for easy sediment management

The present invention relates to architectural civil engineering technology, and more specifically, to a rainwater drainage system that separates a rainwater drainage section and a sediment treatment section to facilitate sediment management.

The conventional rainwater drainage system filters sediment through gratings and then flows the remaining rainwater into an internal space, where it is connected to a sewer pipe to drain. However, since the openings of the gratings through which the sediment is filtered are relatively large, small sediments such as fallen leaves or cigarette butts flow into the internal space together with the rainwater and continue to accumulate. In this case, the accumulated small sediments block the connection to the sewer pipe through which the rainwater is discharged, reducing the efficiency of the rainwater drainage. The accumulated sediments and the backflow of sewage cause an unpleasant odor. In particular, if the drainage efficiency is reduced in this way or drainage does not occur at all during periods of high rainfall due to concentrated heavy rain, it can lead to serious flood damage.

To prevent this, periodic maintenance of the rainwater drainage system is necessary. In the conventional rainwater drainage system, sewage dredgers or environmental beautification workers clean up the sediment filtered in the grating, and then open the grating and use suction dredgers to remove the sediment inside the rainwater drainage system. This method requires specialized personnel and specialized equipment, so it is time-consuming and economical, making periodic maintenance difficult.

Accordingly, a rainwater drainage system is required that is easy to maintain and manage as it is easy to clean internally while preventing small sediments from blocking the outlet through which rainwater is discharged into the sewer.

Let's look at related conventional technologies.

Korean Patent No. 10-0878252 relates to a drain trap for a water collection outlet, and discloses a technology in which a frame is manufactured and installed to fit the inner surface of the water collection outlet, one end of which is fixed to the frame and the other end is inclined so as to be downward at a certain angle toward the inside, and rainwater or sediment flows in along a guide, and foreign substances are filtered through a collecting net provided at the end of the downward side of the guide. In the prior art, rainwater or sediment moves along the inclined guide, which is similar to the present invention, but the location where the rainwater and sediment are filtered is different from the present invention. The inclined surface is a simple guide, and rainwater and sediment are filtered together in the collecting net, so the rainwater drainage section and the sediment treatment section are not separated as in the present invention.

Korean Patent Publication No. 10-2013-0036807 relates to a roadside rainwater drainage facility equipped with a garbage collecting net, which facilitates the drainage of rainwater while effectively filtering out relatively small trash such as cigarette butts and tissues, thereby blocking the inflow of trash into the drain, and a rainwater drainage facility equipped with an opening and closing device. Unlike the present invention, the rainwater drainage unit and the sediment treatment unit are not managed independently.

Korean Patent No. 10-0637608 is a backflow prevention device for a new city sewer pipe, and relates to a device that can prevent sewage from flowing backwards in a sewer pipe by a backflow prevention plate on one side of the sewer pipe. This is a simple sewage backflow prevention technology that does not consider preventing sewer pipes from being blocked by sediment.

Korean Patent No. 10-0878252 Korean Publication Patent No. 10-2013-0036807 Korean Patent No. 10-0637608

The present invention aims to provide a rainwater drainage system that is easy to manage sediment in order to solve the above-mentioned problems.

The aim is to solve the problem of flood damage caused by reduced drainage efficiency and foul odor caused by backflow of sewage by preventing sediment from blocking the outlet through which rainwater is discharged into the sewer, while making it easy to maintain and manage through a simple internal cleaning method.

In order to solve the above-described problem, the present invention provides a rainwater drainage system for draining sediment and rainwater flowing in through a road grating (70), the rainwater drainage system comprising: a housing (10); a sliding sloping surface (20) located on the inside of the housing (10), having an incline and having a plurality of perforations (21); a standing collection box (30) located at an inclined lower end of the sliding sloping surface (20) toward the bottom surface of the housing (10); a support part (40) extending upward from the bottom surface of the housing (10) and contacting an upper side of the standing collection box (30); a sidewalk opening/closing part (50) coupled to the housing (10) so as to open and close the upper surface (12) of the standing collection box (30) among the upper open surfaces of the housing (10); And a discharge port (60) connected to a sewage pipe on the inside of the housing (10) to discharge rainwater; The sediment filtered on the opening and closing inclined surface (20) slides along the opening and closing inclined surface (20) to the standing collection box (30), and rainwater passes through the opening and closing inclined surface (20) to be drained and flows into the sewage pipe through the discharge port (60), providing a rainwater drainage system.

In addition, it is preferable that the above-mentioned stand-type collection box (30) includes a protruding collection box handle (31) and is detachable through the upper surface (12).

In addition, it is preferable that the opening/closing slope (20) includes an upper slope (20a) and a lower slope (20b), a hinge (22) is positioned between the upper slope (20a) and the lower slope (20b), and the lower slope (20b) is fixed to the housing (10), and the upper slope (20a) rotates by the operation of the hinge (22) so that a portion of the inner side of the housing (10) is opened.

Additionally, it is desirable to include an inclined handle (23) on the upper inclined surface (20a).

In addition, it is preferable that the discharge port (60) include an automatically closing trap (61) that opens only in one direction from the housing (10) toward the sewer pipe.

In addition, it is preferable that a sensor (32) is positioned in the above-mentioned stand-alone collection box (30), and that the sensor (32) detects the height of sediment that is filtered on the opening and closing slope (20) and slides into the above-mentioned stand-alone collection box (30).

In addition, it is preferable that the above-mentioned drainage system further includes a warning light (13) located on the outside, and that the sensor (32) is electrically connected to the warning light (13).

In addition, it is preferable that the above-mentioned rainwater system further includes a communication unit, and that the sensor (32) is electrically connected to the communication unit.

In addition, the upper open surface of the housing (10) includes the upper surface (11) of the opening and closing inclined surface (20) and the upper surface (12) of the stand-alone collection box (30), and it is preferable that the upper surface (11) of the opening and closing inclined surface (20) and the upper surface (12) of the stand-alone collection box (30) can be opened independently.

In addition, it is preferable that the upper surface (11) of the opening and closing slope (20) and the upper surface (12) of the stand-alone collection box (30) have different heights.

According to the rainwater system of the present invention, the following effects can be obtained.

1) In the process of treating rainwater and sediment that flows into the internal space of the rainwater drainage system, the space where rainwater is drained and the space where sediment accumulate are separated to prevent sediment from blocking the connection where rainwater is discharged into the sewer pipe. Therefore, the problem of reduced rainwater drainage efficiency due to connection blockage and the problem of sewage backflow can be solved.

2) The space where sediment accumulates is a collection box built inside the drainage system, and the collection box is removable so that the sediment inside can be easily removed. Since the maintenance process is simple, the convenience of work for sewage dredgers or environmental beautification workers is increased. Since additional equipment such as suction dredgers are not required, it is hassle-free and can save costs.

3) According to the present invention, the upper part of the rainwater drainage system is covered with a slope, and the horizontal opposite side of the lower part of the opening is inconvenient to access due to the structure of the rainwater drainage system installed underground. To solve this problem, the slope is configured to perform vertical rotational movement, so that it can be easily opened and closed. Accordingly, the environmental beautification worker can easily open the rainwater drainage system from any direction, and it is convenient to reach the inside of the rainwater drainage system, so that maintenance can be easy.

4) When opening and closing the slope or separating the collection box for maintenance of the rainwater drainage system, the slope handle and the collection box handle located at a shallow depth from the ground can be used. The lifting distance from below can be shortened, allowing movement within a range that does not place excessive load on the body of the sanitation worker. This can increase the convenience of rainwater drainage system maintenance work.

5) There is an automatic closing trap that prevents sewage from flowing in through the outlet connected to the sewer pipe and backflowing into the rainwater drainage system. If there is rainwater inside the housing, the trap opens to discharge the rainwater, and if there is no rainwater, the outlet is automatically closed by the weight of the automatic closing trap. This prevents sewage from rising onto the road and blocks foul odors caused by sewage.

6) Information about sediment accumulation can be obtained through sensors inside the sump, eliminating the need for sanitation workers to manually open heavy gratings and visually inspect the interior to determine whether the rainwater system is clean.

7) Through the sensor inside the rainwater system and the warning light on the outside that is electrically connected, it is possible to intuitively determine whether cleaning is necessary. In addition, pedestrians who discover this can directly report it to the management agency.

8) Through the communication unit electrically connected to the sensor inside the rainwater drainage system, the management agency can obtain information on the sediment accumulated inside the rainwater drainage system in real time. This helps the management agency determine the cleaning period.

9) When cleaning the inside of the rainwater system is required, the heavy grating must be opened and cleaned. However, the left and right upper parts of the rainwater system can be opened independently, so that only the covers of the parts that need cleaning can be opened and cleaned, reducing the complexity of the work.

10) The design of the rainwater drainage system can be modified according to the road conditions. For example, it can be used even if there is no height difference between the roadway and the sidewalk, and it can be designed to fit the height difference. In this case, the sanitation worker can clean without having to go down to the roadway.

Figure 1 is an exploded perspective view of a rainwater system according to the present invention.
Figure 2 is a perspective view illustrating a sediment treatment process of a rainwater system according to the present invention.
Figure 3 is a cross-sectional view illustrating a rainwater drainage process of a rainwater drainage system according to the present invention.
FIG. 4 is a perspective view illustrating a portion of a rainwater system according to the present invention.
Figure 5 illustrates an example of a method for installing a rainwater system according to the present invention.
Figure 6 illustrates a view of a separated stand-alone collection box of a rainwater system according to the present invention.

The present invention provides a rainwater drainage system that is easy to manage sediment. The rainwater drainage system is installed under a road (R). Here, the road (R) may be a roadway, a sidewalk, or any other type of road.

Hereinafter, the rainwater system according to the present invention will be described in detail with reference to the attached drawings.

As shown in Fig. 1, the overall shape of the housing (10) has an open upper surface (11, 12), but the interior of the housing includes a sliding inclined surface (20), a standing collection box (30), a support portion (40), and a discharge port (60), which are devices involved in the treatment of sediment and rainwater. The configurations of the sliding inclined surface (20), the standing collection box (30), the support portion (40), and the discharge port (60) will be described in order.

The opening and closing inclined surface (20) located inside the housing (10) is configured with a plurality of holes (21) and has an incline. The stand-alone collection box (30) is located at the inclined lower end of the opening and closing inclined surface (20) toward the bottom surface of the housing (10). The support member (40) extends upward from the bottom surface and is formed to contact one side of the upper portion of the stand-alone collection box (30). The support member supports the stand-alone collection box (30) so that the stand-alone collection box (30) is not fixed to the inside of the housing (10) but can be detached to the outside. The discharge port (60) is connected to a sewage pipe on the inside of the housing (10).

Referring further to Figures 2 and 3, the rainwater system is specifically described.

As shown in Fig. 2, sediments introduced through the grating (70) are filtered along the opening slope (20) and slide into the standing collection box (30).

As shown in Fig. 3, rainwater flowing in through the grating (70) passes through the perforation (21) of the opening slope (20) and flows into the sewer through the outlet (60). The outlet (60) may include an automatically closing trap (61) that opens only in one direction from the housing (10) toward the sewer. When there is rainwater inside the housing, the automatically closing trap (61) opens in the direction toward the sewer and discharges the rainwater, and when there is no rainwater, the outlet (60) is automatically closed by the weight of the automatically closing trap (61).

Referring to Fig. 4, the configuration of the opening/closing slope (20) is described in detail.

The opening and closing slope (20) is located on the inside of the housing (10) as described above and is configured with a plurality of openings (21) having an incline. The opening and closing slope (20) is configured with an upper slope (20a) and a lower slope (20b), and a hinge (22) is located between the upper slope (20a) and the lower slope (20b). The lower slope (20b) is fixed to the housing (10), and the upper slope (20a) can rotate by the hinge (22).

Next, with reference to FIGS. 5 and 6, the operation of the rainwater drainage system according to the present invention for easy sediment management will be described in detail.

First, as described above, the upper inclined surface (20a) rotates by the operation of the hinge (22) to open a portion of the inner side of the housing (10). The upper inclined surface (20a) may include an inclined surface handle (23) for easy opening and closing.

And the stationary collection bin (30) in which sediment has accumulated can be separated through the opening and closing part (50) on the sidewalk. The stationary collection bin (30) can include a collection bin handle (31) for easy removal. The collection bin handle (31) is located at a shallow depth where the hands of the sanitation worker can easily reach.

That is, the interior of the housing (10) can be cleaned from the outside through the upper surface (11, 12), and the maintenance of the rainwater system is easy by detaching the stand-alone collection box (30), removing sediment, and then reattaching it.

In one embodiment of the present invention, the rainwater system according to the present invention may further include a sensor (32) inside. The sensor (32) is configured to detect sediment accumulation information of the stand-alone collection box (30). The sensor (32) may be an infrared sensor that detects height. In another embodiment, a sensor that detects weight may also be used. At this time, the sensor (32) may be electrically connected to a warning light (13) installed on the outside of the housing (10) (see FIG. 1).

In another embodiment of the present invention, the rainwater system according to the present invention may further include a communication unit (not shown). The communication unit (not shown) may be electrically connected to a sensor (32). Using this, information on sediment accumulation in a stand-alone collection box (30) detected by the sensor (32) may be notified through a warning light (13), or information transmitted through the communication unit may be remotely received by a management agency to determine a cleaning cycle for the stand-alone collection box (30).

Meanwhile, as shown in FIGS. 5 and 6, the grating (70) covering the upper surface (11) of the opening and closing slope (20) and the sidewalk opening and closing part (50) covering the upper surface (12) of the standing collection box (30) can be opened independently. The upper surface (11) of the opening and closing slope (20) and the upper surface (12) of the standing collection box (30) can have different heights. The heights are determined according to the type of road (R) on which the rainwater drainage system is installed. Depending on the condition of the road (R), a convenient cover can be selected and opened, making maintenance easy.

Although preferred embodiments of the present invention have been described above, the present invention is not limited to the specific embodiments described above.

R: Road
P: India
10: Housing
11: Top surface
12: Top surface
13: Warning light
20: Opening slope
20a: Upper slope
20b: Lower slope
21: Public
22: Hinge
23: Inclined handle
30: Stand-alone collection box
31: Bin handle
32: Sensor
40: Support
50: Opening and closing section of the pavement
60: exhaust port
61: Self-closing trap
70: grating

Claims (10)

In a rainwater drainage system that drains sediment and rainwater flowing in through a road grating (70),
The above rainwater system is,
Housing (10);
A sliding inclined surface (20) located on the inside of the housing (10), having an incline and having a plurality of openings (21);
A stand-alone collection box (30) located on the bottom surface of the housing (10) at the inclined lower end of the above-mentioned opening and closing slope (20);
A support member (40) extending upward from the bottom surface of the housing (10) and contacting the upper side of the stand-alone collection box (30);
A side opening/closing part (50) coupled to the housing (10) to open/close the upper surface (12) of the stand-alone collection box (30) among the upper open surfaces of the housing (10); and
It includes a discharge port (60) connected to a sewage pipe inside the housing (10) to discharge rainwater;
The sediment filtered from the above-mentioned opening slope (20) flows along the above-mentioned opening slope (20).
It slides to the above-mentioned stand-type collection box (30), and the rainwater passes through the above-mentioned opening (21) of the above-mentioned opening slope (20) and is discharged to the sewer pipe through the above-mentioned discharge port (60).
The above-mentioned opening and closing slope (20) includes an upper slope (20a) and a lower slope (20b), and a hinge (22) is positioned between the upper slope (20a) and the lower slope (20b).
The lower slope (20b) is fixed to the housing (10), and the upper slope (20a) rotates by the operation of the hinge (22) so that a part of the inner side of the housing (10) is opened.
Rainwater system.
In paragraph 1,
The above-mentioned stand-type collection box (30) includes a protruding collection box handle (31) and can be attached and detached through a sidewalk opening and closing part (50).
Rainwater system.
delete In paragraph 1,
Including an inclined handle (23) on the upper inclined surface (20a),
Rainwater system.
In paragraph 1,
The above discharge port (60) further includes an automatically closing trap (61) that opens only in one direction from the housing (10) toward the sewer pipe.
Rainwater system.
In paragraph 1,
A sensor (32) is located in the above-mentioned stand-type collection box (30),
The above sensor (32) detects the height of the sediment filtered from the opening and closing slope (20) and sliding into the above-mentioned stand-alone collection box (30).
Rainwater system.
In paragraph 6,
The above drainage system further includes a warning light (13) located on the outside,
The above sensor (32) is electrically connected to the above warning light (13).
Rainwater system.
In Article 7,
The above rainwater system further includes a communication unit,
The above sensor (32) is electrically connected to the communication unit.
Rainwater system.
In paragraph 1,
The upper open surface of the housing (10) includes the upper surface (11) of the opening and closing slope (20) and the upper surface (12) of the stand-alone collection box (30).
The upper surface (11) of the above-mentioned opening slope (20) and the upper surface (12) of the above-mentioned standing collection box (30) can be opened independently.
Rainwater system.
In Article 9,
The upper surface (11) of the above-mentioned opening and closing slope (20) and the upper surface (12) of the above-mentioned standing collection box (30) have different heights.
Rainwater system.

Images