KR20160009252A - A rain water treatment device and method for drain pipes - Google Patents

Abstract

The present invention relates to a device to treat a large amount of rainwater of a drain pipe and a method thereof, temporarily and sequentially storing large amounts of rainwater discharged due to a local torrential rainfall in each manhole and allowing the rainwater to flow to a downstream side; thus preventing an occurrence of flooding on a road or in a residential area having low-lying ground. According to the present invention, a shielding plate with a circular shape is installed to temporarily store the rainwater into the manhole where drain pipes on both sides are connected to allow the rainwater flowing down through the drain pipe positioned on one side to flow over an upper end of the shielding plate, and sequentially flow out through the following drain pipe. Moreover, a damper is installed in a center of the lower surface part of the shielding plate to variably control the discharged amount of wastewater flowing along the circular flow path formed on the floor of the manhole.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a rainwater treatment apparatus,

The present invention relates to a method and apparatus for efficiently processing a large amount of rainwater flowing into a sewer pipe during a heavy rainfall, more specifically, temporarily storing large amounts of rainwater discharged due to heavy rainfall in each manhole, The present invention relates to a large-capacity rainwater disposal apparatus and method for preventing a flooding phenomenon occurring in a low-lying road or residential area.

Due to the nature of the climate in Korea, flood damage during the summer flood season (from July to August) has been intensively poured over a short period of time, causing flood damage. In recent years, new urban areas have been developed without detailed urban planning such as large-scale residential land development and road construction. The rainwater does not permeate into the ground and the rainwater flows into the sewer pipe. Therefore, when the rainfall exceeds the rainfall amount that is reflected in the design of the sewer pipe, the overflow phenomenon inevitably occurs in the lowlands.

As a result, when a heavy rain warning is issued, stairs containing stones such as sand or soil are stacked to prevent the inflow of rainwater to the utmost. However, underground houses and shopping malls In places such as roads, damage is frequently caused by heavy rains in the rainy season every year.

As a close example, flooding due to heavy rain has been a serious problem even in the densely populated areas such as Gangnam Station, Sadang Station, and Gwanghwamun Square in Seoul, and it is urgently needed.

Regarding the prevention of flooding, Korean Patent Registration No. 0663059 discloses a technique for minimizing flooding damage by allowing houses to float on the surface of the water when flooding low-lying houses due to heavy rain, Registration No. 1147518 discloses a technique for preventing an excellent storm from entering into a house by allowing the storm surgeries to be developed using storm surges flooded with houses and at the same time stored storms.

However, as described above, when a house is flooded on the water surface or a rainwater is prevented from being infiltrated by using an excellent shielding film, it is impossible to cope with local rainfall in a short period of time. It is difficult to apply it realistically because each house or area requires individual facilities.

In addition, in patent publications No. 0582121, No. 0952605, No. 0988806, etc., there is disclosed a technique for temporarily storing stormwater and then discharging the stormwater to the river to adjust the amount of rainwater to be discharged, .

However, these techniques are complicated in the structure of the storage tank itself, require a considerable manufacturing cost, have to manufacture the body frame according to the design capacity of the storage tank, And the need for huge budget for maintenance.

Patent Registration No. 0663059 (Registered on December 22, 2006) Name of invention: New flood prevention facility for low-lying housing. Registered patent No. 1145518 (Registered on May 11, 2012) Title of invention: Housing flood prevention facility in urban lowland. Patent Registration No. 0582121 (Registered May 15, 2006) Name of invention: Excellent storage tank. Patent Registration No.0952605 (Registered on Apr. 06, 2010) Name of invention: Excellent storage tank. Patent Registration No. 0988806 (Registered on October 13, 2010) Name of invention: Built-in stormwater storage tank and its construction method.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a sewage pipeline for a sewer pipeline, The present invention maximizes the storage capacity of the existing sewerage network system in case of rainfall, thereby reducing the outflow of the sewage pipe system. Accordingly, the present invention provides a large- The purpose is to provide that method.

The present invention provides a shield plate having a predetermined height in a manhole to which a sewer pipe is connected so that only rainwater that is excessively stored in a state where rainwater is temporarily stored can be discharged step by step so that rainwater can be prevented from being poured down at once The present invention provides a large-capacity rainwater disposal apparatus and method for a sewer pipe that can fundamentally prevent a sewer overflow.

In order to accomplish the above object, the present invention provides a large-capacity rainwater treatment facility for preventing the overflow of a low-level sewage pipe caused by heavy rain in an urban road or a residential area, An arc-shaped shield plate capable of temporarily storing rainwater is installed in the manhole to which the sewer pipes are interconnected. Rainwater flowing down through the upstream sewer pipe flows through the sewer pipe in a stepwise manner over the upper end of the shield plate So that they can go out.

The upstream and downstream sewage pipes are inclined at an angle of 3 ° to 15 ° with respect to the horizontal plane of the manhole, and both ends of the shielding plate provided in the manhole are connected to a binding guide As shown in Fig.

A damper for rotating the shaft is installed in the concave groove so that the discharge amount of the wastewater flowing along the arcuate flow path formed at the bottom of the manhole can be variably controlled, The shielding plate may be divided to be adjustable in its maximum height and may be connected to each other by protrusions and recesses respectively formed on upper and lower ends of the shielding plate.

Meanwhile, the large-scale rainwater disposal method for sewage pipes according to the present invention is a large-capacity rainwater disposal method for preventing the overflow phenomenon of a low-lying sewer pipe caused by heavy rain in an urban road or a residential area, wherein upstream and downstream sewer pipes are interconnected After the shield plate is installed in each manhole, the rainwater flowing down through the upstream side sewer pipe is temporarily stored by the shield plate. Then, the rainwater flows over the upper end of the shield plate and flows through the downstream side sewer pipe step by step .

In addition, the shielding plate may include a step of dividing the height of the shielding plate so that the rainwater can flow over the shielding plate with the maximum height being set, And a step of variably controlling the discharge amount of the wastewater flowing through the bottom flow path.

According to the rainwater treatment system and method of the present invention, it is possible to reduce the amount of rainwater flowing down through the sewer pipes, which are respectively installed on both sides of the manhole, Only rainwater overflowing through the upper end of the shielding plate after the rainwater is temporarily stored can be discharged stepwise.

As a result, rainwater can be prevented from being poured down at a time, so that the rainwater flow in the low-level sewage pipe gradually progresses with a time lag. Thus, the overflow phenomenon is fundamentally blocked to prevent flooding in the lowlands.

The present invention does not require a facility such as a large-scale storm water storage tank which requires a large cost and can be applied immediately to an existing sewer pipe at a minimum cost, which is the most effective flood prevention measure.

1 is a schematic view for explaining the concept of an embodiment according to the present invention,
2 is an enlarged sectional view of a manhole portion,
3 is a plan view of the inside of a manhole,
4 is a front view showing a state in which the integral shielding plate is installed,
5 is a plan view showing another manhole inner state,
Fig. 6 is a front view of the shield plate in a divided configuration. Fig.
7A and 7B are a front view and a side sectional view showing an example in which a shielding plate is bound,
8 is a front view of a shielding plate provided with a damper,
Fig. 9 is a side sectional view of Fig. 8,
10 is a flow chart showing the flow relationship of the rainwater by the shielding plate.

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

Prior to the description of the present invention, the following specific structure or functional description is merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms , And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein.

1 is a schematic view for explaining the concept of the embodiment according to the present invention, FIG. 2 is an enlarged sectional view of a manhole portion, FIG. 3 is a plan view of the inside of a manhole, and FIG. 4 is a front view Fig. 5 is a plan view showing another manhole inner state, Fig. 6 is a front view when the shield plate is divided, Figs. 7a and 7b are a front view and a side sectional view, Fig. 9 is a side sectional view of Fig. 8, and Fig. 10 is a flow chart showing a flow relationship of rainwater by a shielding plate.

As shown in the drawings, upstream and downstream sewage pipes 100 for discharging rain water and domestic sewage are disposed in the ground G, and roads or residential areas connected to the sewage pipes 100 A manhole 200 having a lid 201 is disposed so that an operator can enter and exit.

Normally, the upper and the lower sewage pipes 100 are arranged at a design position according to the regional city planning and at the same time guided rainwater to a predetermined place. Generally, they start from a small circular pipe of about 300 mm upstream of the basin In the most downstream part of the stream discharge point, large culverts are installed, and about 90% is composed of circular pipes.

In the manhole 200 in which the upstream and downstream sewer pipes 100 are connected to each other in the present invention, an arc-shaped shield plate 300 Is provided at a predetermined height h.

The sewage pipes 100 may be installed to be inclined at a predetermined angle x, that is, about 3 to 15 degrees with respect to the horizontal plane of the manhole 200. The shield plates 300 may be disposed in the respective manholes 200 have.

When the sewer pipes 100 are combined according to the range of the angle x, the rainwater w can be guided to a predetermined design site. When the angle of the rainwater w is out of the range of the angle x, The flow rate and the storage amount can not be controlled efficiently.

With this configuration, the rainwater w flowing down through the upstream-side sewage pipe 100 is temporarily stored by the shielding plate 300 as much as the height h, and when it exceeds the storage amount, So that the water can be flowed through the downstream side sewer pipe 100 in a stepwise manner.

The shielding plate 300 installed in the manhole 200 is provided on the inner surface of the manhole 200 through a binding guide 400. The binding guide 400 is a conventional bracket, Or a rail, for example.

In the case of the shield plate 300, since the height h can be appropriately adjusted according to the surroundings, it is possible to arrange the shield plate 300 for each manhole 200 disposed on the road or a residential area, The amount can be increased or decreased.

6, the shield plate 300 is dividedly manufactured according to the respective heights h1, h2 and h3 and assembled to the both binding guides 400 in order, .

In this case, the protrusions 301a and the recesses 301b are formed to correspond to the upper and lower ends of the shield plate 300, respectively, so that the assembly can be performed, and the height of the shield plate 300 can be adjusted.

5, FIG. 6, FIG. 8, and FIG. 9, an arc-shaped flow passage 202 may be formed in accordance with the shape of the sewer pipes 100 formed in a cylindrical shape on the bottom of the manhole 200 In this case, an appropriate damper 302 may be mounted on the bottom surface of the shield plate 300 to variably adjust the amount of rainwater or wastewater flowing along the flow path 202.

The damper 302 is installed in the concave groove 303 formed in the shield plate 300 so as to be rotatable around the axis 304 and is formed with the blade pieces 305a, 305b.

When the amount of the rainwater or the wastewater flowing along the flow path 202 is small, the arcuate portion of the lower end of the damper 302 is opened to prevent the flow of the damper 302. However, The flow passage 202 is blocked while rotating counterclockwise about the shaft 304 at the outlet 8.

Accordingly, as the rainwater or wastewater gradually accumulates in the manhole 200, the uppermost portion height h of the shielding plate 300 flows over the downhole sewer pipe 100 along the overflow.

As described above, since rainwater discharged through the sewer pipes 100 can be prevented from being poured down at one time, the flow of rainwater in the low-lying sewage pipe 100 is gradually advanced with a time lag, It is possible to prevent flooding.

In addition, it does not require an expensive facility such as a large-scale rainwater storage tank of the past, and it can be applied immediately to an existing sewer pipe at a minimum cost, thereby being a more effective flood prevention measure.

Although the present invention has been fully described in connection with the preferred embodiments thereof with reference to the accompanying drawings, it is to be understood that the present invention is not limited thereto. It is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

100: sewer 200: manhole
201: cover 202:
300: shielding plate 301a: projection
301b: groove 302: damper
303: grooved groove 304: shaft
305a, 305b: blade reorganization 400: binding guide
G: Ground h: Height
w: rainwater x: angle

Claims (8)

A large-scale rainwater treatment facility for preventing the overflow of a low-level sewage pipe caused by heavy rain on a downtown road or a residential area. The rainwater is temporarily stored in a manhole (200) where the upstream and downstream sewage pipes (100) The shielding plate 300 is installed so that rainwater flowing down the upstream side sewer pipe 100 flows through the downstream side sewer pipe 100 stepwise beyond the upper end of the shielding plate 300 Wherein the rainwater is discharged from the sewage pipe. 2. The sewage treatment system according to claim 1, wherein the upper and the downstream sewage pipes (100) are installed to be inclined at an angle (x) of 3 to 15 degrees with respect to a horizontal plane of the manhole (200) equipment. The manhole (200) according to claim 1 or 2, wherein both ends of the shield plate (300) installed in the manhole (200) are assembled via a binding guide (400) Large-scale rainwater treatment facility of sewage pipe. 4. The shield plate according to claim 3, wherein a recessed groove (303) is formed in the bottom surface of the shield plate (300), and a damper (302) rotating around a shaft (304) Wherein a discharge amount of the wastewater flowing along the arcuate flow path (202) formed on the bottom of the manhole (200) is variably controlled. The shield plate (300) according to claim 4, wherein the shield plate (300) is divided by a maximum height (h) and the protrusions (301a) and the recesses (301b) formed in the upper and lower ends of the shield plate Wherein the rainwater collecting unit is connected to the rainwater collecting unit. The present invention relates to a large-scale rainwater disposal method for preventing the overflow of a low-level sewer pipe caused by heavy rain in an urban road or a residential area, The rainwater flowing down through the upstream side sewer pipe 100 is temporarily stored by the shielding plate 300, and rainwater flows over the upper end of the shielding plate 300, (100). ≪ RTI ID = 0.0 > 11. < / RTI > 7. The method according to claim 6, wherein the shield plate (300) is divided and configured to adjust the respective heights (h1 to h3) so that the rainwater can flow over the shield plate (300) Further comprising the step of controlling the amount of rainwater in the sewage pipe. The method according to claim 6 or 7, wherein the damper (302) is installed on the bottom surface of the shield plate (300) so as to variably control the discharge amount of the wastewater flowing through the flow path (202) Wherein the method further comprises the steps of:

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