KR200256151Y1 - A storm overflow diverging tank - Google Patents

Abstract

The present invention relates to a storm drainage tank that collects a certain amount of sewage in rainy weather at a confluence and transports it to a sewage treatment plant, and discharges the remaining sewage into water such as rivers.

Rainwater tosoil outflow tank according to the present invention is a rainwater discharge tank installed in each of the branch pipe connected to the home and each branch pipe joining, and the rainwater inlet pipe formed by one side of the rainwater tosoil outlet tank, the other side of the outflow tank Pipelines each formed to be discharged to a sewage treatment plant; And rainwater discharge pipe that is formed so that rainwater is discharged into the stream to the lower side of the pipe flowing out to the sewage treatment plant.

Description

A STORM OVERFLOW DIVERGING TANK}

The present invention relates to a storm drainage tank that collects a certain amount of sewage in rainy weather at a confluence and transports it to a sewage treatment plant, and discharges the remaining sewage into water such as rivers.

In general, when a large amount of rainwater flows into the drainage pipe of the sewage treatment plant in a rainy season during the rainy season or a summer rain shower, the sewage treatment plant generates a large hydraulic load. In order to prevent the occurrence of load, the sewage treatment plant cannot be designed to treat the total amount of inflow in rainy weather due to the high investment cost and the difficulty of operating the sewage treatment plant.

In particular, in the conventional sewage treatment plant as described above, when the hydraulic load fluctuations in the rainy weather is severe, it is difficult to apply the microorganisms responsible for the sewage treatment, so that there is no stability in the discharge water quality, thereby causing problems in water quality management. There is a problem.

In addition, when a large flow rate is introduced for a long period of time, the sludge generation as well as the sludge generation of the sludge is worsened by the load generation, the water quality of the effluent is deteriorated accordingly, as a result of which the MLSS (MIXED LIQUID SUSPENDED SOLIDS) of the microbial reactor is lowered In this case, the sewage treatment efficiency is enormously impaired, and there are many problems such as long-term recovery.

The present invention is to improve the various problems of the prior art as described above, and its purpose is to provide the maximum amount of contaminants into the sewage treatment plant for rainy days, and to provide the lowest hydraulic load to the sewage treatment plant. In order to reduce the pollution of river water by selecting the stormwater treatment system to minimize the pollution of natural rivers due to the sewage and stormwater discharge by efficiently treating the initial stormwater through various means, It is to provide storm drainage tanks that can prevent the excessive investment of facilities due to the installation.

1 is a schematic installation configuration of the storm drain chamber according to the present invention.

Figure 2 is a schematic configuration diagram of the rainwater discharge tank of the present invention is installed on the pipeline to discharge rainwater to each rainwater treatment plant in each home.

3 is a plan view of the rainwater tosoil outflow tank of the present invention.

4 is a cross-sectional view taken along the line A-A of FIG.

5 is a cross-sectional view taken along the line B-B in FIG.

Figure 6 is a schematic installation configuration of the storm drain chamber according to a second embodiment of the present invention.

7 is a plan view of the storm drain chamber according to a second embodiment of the present invention

8 is a cross-sectional view taken along the line C-C of FIG.

9 is a cross-sectional view taken along the line D-D of FIG.

10 is a schematic installation configuration of the storm drain chamber according to a third embodiment of the present invention.

11 is a cross-sectional view of the storm drain chamber according to a third embodiment of the present invention

12 is a schematic installation configuration of the storm drain chamber according to the fourth embodiment of the present invention.

Figure 13 is a plan view showing the stormwater discharge tank according to a fourth embodiment of the present invention.

14 is a cross-sectional view taken along the line E-E of FIG.

15 is a cross-sectional view taken along the line F-F in FIG.

Figure 16 is a schematic installation configuration of the storm drain chamber according to a fifth embodiment of the present invention.

17 is a cross-sectional view of the stormwater storage tank according to a fifth embodiment of the present invention.

* Description of Signs of Main Parts of Drawings *

10, 20, 30, 40, 50: storm water discharge tank 11, 21, 31, 41, 51: spill tank

12 manhole 13 inlet pipe

15: sewage treatment pipe 17: discharge pipe

19: separator 24: initial excellent reservoir

P: Pump 38: Separation Tank

The present invention as a technical means for achieving the above object, the rainwater discharge tank is installed in each of the branch pipe connected to the home and the joining pipe joining each branch pipe;

Rainwater inlet pipe formed in one side of the rainwater discharge chamber;

Pipelines each formed to flow to the sewage treatment plant to the other side of the outlet tank; And

It characterized in that it comprises a; rainwater discharge pipe that is formed to discharge the rainwater to the river to the lower side of the pipe flowing out to the sewage treatment plant.

In addition, the present invention is a rainwater tosoil outflow tank which is installed in each of the branch pipes connected to the home and each of the branch pipes joined;

Rainwater inlet pipe formed in one side of the rainwater discharge chamber;

Pipelines each formed to flow to the sewage treatment plant to the other side of the outlet tank;

Separation membrane is installed on one side of the pipe; And

It characterized in that it comprises a; rainwater discharge pipe that is formed to discharge the rainwater to the river to the lower side of the pipe flowing out to the sewage treatment plant.

In addition, the present invention, the rainwater discharge tank is installed in each of the joining pipe joining each branch pipe;

Rainwater inlet pipe formed in one side of the outlet tank;

A pipe line formed on the other side of the outflow tank so as to flow out into the sewage treatment plant;

Rainwater discharge pipe is formed to flow out into the river below the pipe;

A separator having a predetermined height installed between the rainwater inlet pipe and the rainwater discharge pipe;

Initial rainwater reservoir formed in the left space of the separator; And

And a separator for converging the rainwater treatment tank treatment water pipe to the same height as the separator on the right side of the outlet tank.

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

1 is a schematic configuration diagram of the stormwater treatment system according to the present invention, Figure 2 is a schematic configuration diagram of the rainwater tosoil outflow tank of the present invention on the pipeline to discharge rainwater from each home to the stormwater treatment plant. , The rainwater tosoil outflow tank 10 of the present invention is installed in a conduit pipe 5 connected to the home 1 or a conduit pipe 7 in which each branch pipe 5 is joined.

As shown in Figures 3 to 5, the rainwater tosoil outflow tank according to the present invention is formed with a rainwater inlet pipe 13 on one side of the outflow tank 11 made of a rectangular cross section, the other side of the outflow tank 11 Pipe lines 15 flowing out to the sewage treatment plant are respectively formed.

An excellent discharge pipe line 17 is formed below the pipe line 15 that flows out into the sewage treatment plant to discharge the rainwater into the stream.

At this time, the separator 19 having a predetermined height is inclined to one side between the rainwater inlet pipe 13 and the rainwater discharge pipe 17.

Manholes 12 are respectively installed on the rainwater inlet pipe 13 and the rainwater discharge pipe 17 on the upper surface of the rainwater discharge tank 10 so that a worker can enter the discharge tank 11 when necessary.

In the drawing, S, which is not described, is earth and sand.

Accordingly, the rainwater tosoil drainage tank has a low population density in a drainage region of a relatively small unit, and thus is installed in an area where the dilution ratio of the sewage of rainy weather is high. A part (the minimum amount calculated by the calculation) is discharged to the sewage treatment plant 12, and the remaining rainwater is discharged to the river 16, wherein the rainwater discharged to the stream is one side installed in the rainwater discharge tank 10 The water from which the precipitate is removed by the inclined separator 19 is discharged to the stream.

On the other hand, Figure 6 is a schematic configuration diagram of a stormwater treatment system according to a second embodiment of the present invention, Figures 7 to 9 is a plan view of the stormwater treatment tank of Figure 6, a cross-sectional view taken along the line CC and DD of Figure 7, Rainwater tosoil outlet according to a second embodiment of the present invention, the rainwater inlet pipe 23 is formed on one side of the outlet tank 21 having a rectangular cross section, the other side of the outlet tank 21 is discharged to the sewage treatment plant Conduits 25 are formed respectively.

A rainwater discharge pipe 27 is formed at a lower side of the pipe 25 that flows out into the sewage treatment plant, and a separator 29 having a constant height is disposed between the rainwater discharge pipe 23 and the rain discharge pipe 27. ) Is formed.

In this case, an initial rainwater reservoir 24 is formed on the left side of the separator 29.

Manholes 22 are formed on the upper surfaces of the storm inflow pipe 23, the storm drain pipe 27, and the pipeline 25 that flows out to the sewage treatment plant. To get inside.

The storm drain chamber according to the second embodiment having the above-described configuration, together with the initial storm reservoir 24 in a compact situation where the drainage area is relatively large or the length of the storm pipeline is not long, and the population density is more than ordinary Installed to prevent flooding of rivers.

In addition, the rainwater tosoil outflow tank is installed in the inlet pipe (23) (confluence pipe), the water introduced through the main line 23 during the dry season is discharged only to the sewage treatment plant 28 through the initial excellent storage tank (24). In case of rain, the maximum amount calculated by calculation of the water introduced through the main line 23 is introduced into the initial excellent storage tank 24, and the remaining rainwater is discharged into the river.

On the other hand, Figure 10 is a schematic configuration diagram of a stormwater treatment system according to a third embodiment of the present invention, Figure 11 and Figure 12 is a plan view of the stormwater treatment tank of Figure 10, a cross-sectional view taken along the line CC and DD of Figure 10. , The rainwater tosoil outlet 30 according to the third embodiment of the present invention, since the separator 39 'is additionally installed on one side of the pipeline 25 that flows out of the rainwater tosoil outlet of the second embodiment to the sewage treatment plant. The separator (39 ') is sandwiched between and a pump (P) is provided on one side thereof.

The rainwater tosoil outflow tank is provided with rainwater tosoil separation tank 38 on the right side of the initial rainwater storage tank 34 so that sewage flows through the connection pipe via the separation tank 38 during dry season.

In addition, when the inflow of the initial amount of rain exceeds a certain amount, once the initial excellent storage tank 34 is filled and discharged stormwater in the discharge tank 30 to the stream, when the rain stops and the inflow water decreases the initial excellent storage tank 34 In the pump (P) to send a certain amount to the separation tank 38 to continue to flow the highest allowable quantity in the pipeline.

The rainwater tosoil drainage tank is highly efficient in storing it because it is unlikely to be discharged by diluting the initial rainwater having high pollution degree. However, since the quantity of the initial rainwater storage tank 34 needs to be pumped back to the pump P, a separate facility and a power cost are increased. It is necessary.

Therefore, the storm drainage system according to the third embodiment of the present invention, like the second embodiment, storm drainage in a compact situation where the drainage area is large or the length of the storm pipe is not long and the population density is more than normal The tank 30 and the initial excellent reservoir 34 are installed together.

Meanwhile, in the third embodiment, the quantity calculated by the calculation of the inflow stormwater in the separation tank 38 installed in the inflow pipe 33 is introduced into the sewage treatment plant, and the remaining rainwater is separated from the separation tank 38. Inflow to the rainwater discharge tank 30 installed in the line 36 (feeder pipe), the inlet water is first stored in the initial rainwater storage tank 34 through the rainwater discharge chamber 30, the rest to the river Discharged. After that, when the rain stops and the amount of inflow is reduced, the rainwater stored in the initial excellent storage tank 34 is discharged to the separation tank 38 by the pump, and the maximum allowable amount is continuously discharged to the sewage treatment plant.

12 is a schematic configuration diagram of the stormwater tossile system according to the fourth embodiment of the present invention, and FIG. 13 is a plan view showing the stormwater discharge tank according to the fourth embodiment of the present invention, and FIGS. 14 and 15 are FIGS. EE and FF of the cross-sectional view, the storm drain chamber according to the fourth embodiment of the present invention, the rainwater inlet pipe 43 is formed on one side of the discharge tank 41 having a rectangular cross section as in the above embodiment, the other The side surface is formed with a pipe 45 that flows out to the sewage treatment plant.

The rainwater discharge pipe 47 is formed at the lower side of the pipe 45 flowing out to the sewage treatment plant.

An isolation membrane 49 having a predetermined height is formed between the rainwater inlet pipe 43 and the rainwater discharge pipe 47, and an initial rainwater reservoir 44 is formed in a space left of the separator 49.

The right side of the outlet tank 41 is formed with a separator 48 for converging the rainwater treatment tank treatment water pipe 46 in the 'b' shape at the same height as the separator 49.

Manholes 42 are respectively provided on the upper surfaces of the storm inflow pipe 43 and the storm drain pipe 47 of the storm water discharge tank 40, the storm water treatment tank treated water pipe 46, and the pipeline 45 exiting to the sewage treatment plant. Is formed to be able to enter into the outflow tank 41 if necessary.

Therefore, the storm drainage tank according to the fourth embodiment of the present invention has a large drainage area, but has a low population density or a long inflow time to the storm drain chamber 40 installation area (more than 30 minutes). If it is not high, install it.

In the rainwater discharge chamber 40 according to the fourth embodiment, the rainwater discharge tank 40 is installed in the inlet pipe 43, and is installed in the initial rainwater storage tank 44 next to the rainwater discharge tank 40. The sewage treatment plant is arranged after the initial excellent reservoir 44.

The rainwater discharge tank 40 discharges all of the inflow water into the initial rainwater storage tank 44 during the dry season, and during the rainy season, the rainwater discharge tank 40 discharges the inflow water above the allowable limit to the stream.

The initial rainwater storage tank 44 discharges all of the inflow water to the sewage treatment plant during the dry season, and directly discharges the inflow water beyond the allowable limit to the river during the rainy season.

Next, FIG. 16 is a schematic installation diagram of the stormwater discharge chamber according to the fifth embodiment of the present invention, and FIG. 17 is a cross-sectional view of the stormwater storage tank according to the fifth embodiment of the present invention, and the fifth embodiment of the present invention. According to the rainwater discharge chamber according to the fourth embodiment, the diaphragm 59 'is additionally installed on the left side of the pipeline 45 exiting to the sewage treatment plant of the rainwater discharge chamber of the fourth embodiment. Install the pump (P) on the left side.

In addition, the rainwater tosoil outflow tank is highly efficient to store because it is unlikely to be discharged by diluting the initial rainwater with high pollution, but the amount of equipment of the initial rainwater storage tank 54 needs to be pumped back to the pump (P), thereby requiring equipment and power costs. Do.

Therefore, as in the fourth embodiment, it is applied when the drainage area is large but the population density is low or the inflow time to the rainwater discharge chamber installation area is long (more than 30 minutes) and the pollution concentration of the initial rainwater is not high. The rainwater tosoil treatment system allows the quantity calculated by the calculation of the inflow rainwater from the separation tank 61 installed in the inflow pipe 53 to flow into the sewage treatment plant, and the side rainwater 62 split from the rainwater to the sewage treatment tank 61. Inflow to the rainwater discharge tank (50) installed in the), the inflow water is first stored in the initial rainwater storage tank 54 through the rainwater discharge tank 50, the rest is discharged to the river, the initial rainwater storage tank If the influent stored at (54) is above the threshold, then the physically treated rainwater is discharged to the stream.

As described above, the rainwater discharge tank according to the present invention is treated with the maximum amount of pollutants into the sewage treatment plant in preparation for rainy weather, and the sewage, by treating the initial rainwater in various ways to induce the lowest hydraulic load in the treatment plant. By minimizing the pollution of natural rivers due to stormwater discharge, the amount of river pollution is reduced, and there is an excellent effect to prevent excessive facility investment costs.

Although the present invention has been shown and described with respect to specific embodiments, it is conventionally known in the art that the present invention can be made and changed without departing from the spirit or field of the present invention as provided by the following claims. I would like to clarify that those who have knowledge of this can easily know.

Claims (14)

Rainwater discharge tank 10 is installed in each of the branch pipe (5) connected to the home and the joining pipe (7) to each of the branch pipe (5) joined; Rainwater discharge pipe (13) formed on one side of the rainwater discharge tank (10); Including a rain pipe (17) formed to discharge the rainwater to the stream of the lower side of the pipe flows into the sewage treatment plant 15 and the discharge pipe discharged to the sewage treatment plant to the other side of the discharge tank 10, respectively. Stormwater drainage tank characterized in that configured. The storm drain chamber according to claim 1, wherein a separator 19 having a predetermined height is inclined between one of the rainwater inflow pipe 13 and the rainwater discharge pipe 17. The storm drain chamber according to claim 1, wherein manholes (12) are respectively provided on the upper surface of the storm inflow pipe (13) and the storm drain pipe (17) of the storm discharge stream (10). According to claim 1, Rainwater discharge tank 10 is installed in the inlet pipe 13, so that the water flowing through the inlet pipe 13 during the dry season is discharged only to the sewage treatment plant through the pipe line 15 Excellent tosoil outflow tank, characterized in that. According to claim 1, wherein the rainwater discharge tank 10 is installed in the inlet pipe 13, in rainy weather the maximum amount calculated by the calculation of the water flowing through the inlet pipe 13 in the pipeline 15 Through the inflow to the sewage treatment plant, the rainwater tosoil outflow tank, characterized in that the rainwater is discharged to the river. 3. The storm drain chamber according to claim 2, wherein an initial storm water reservoir (24) is formed in a space left of the separator (19). Rainwater discharge tank 30 is installed in each of the branch pipe (5) connected to the home and the joining pipe (7) to each of the branch pipe (5) joined; Rainwater inlet pipe (33) formed on one side of the rainwater discharge tank (30); A pipe line 35 formed to flow to the sewage treatment plant on the other side of the outlet tank; Rainfall is characterized in that it comprises a rainwater discharge pipe 37 is formed to discharge the rainwater to the river downstream of the pipeline 35 is discharged to the sewage treatment plant and the separator 39 is installed on one side of the pipe (35). Chubby Spill Tank. 8. The rainwater discharge chamber according to claim 7, wherein the rainwater discharge tank (30) is provided with a separation tank (38) on the right side of the initial rainwater storage tank (34). According to claim 8, wherein the initial excellent storage tank 34 discharges rainwater tosoil from the outlet tank 30 in rainy weather, a predetermined amount through the pump (P) installed in the initial excellent storage tank 34 when the inflow water decreases Rainwater tosoil outflow tank, characterized in that for sending to the separation tank (38). Rainfall discharge tank 40 is installed in each of the joining pipe (7) to which the respective branch pipe (5) joined; Rainwater inlet pipe (43) formed on one side of the rainwater discharge tank (40); A pipe line 45 formed to flow into the sewage treatment plant on the other side of the rainwater discharge tank 40; Rainwater discharge pipe 47 formed to flow into the river below the pipe line 45; A separator 49 having a predetermined height installed between the rainwater inlet pipe 43 and the rainwater discharge pipe 47; An initial rainwater reservoir 44 formed in the left space of the separator 49; The storm drain chamber, characterized in that the rain discharge chamber 40 comprises a separator 48 for converging the treated water pipe 46 of the storm water treatment tank 63 to the same height as the separator 49. Outflow tank. The rainwater inflow pipe 43 of the rainwater discharge tank 40, the rainwater discharge pipe 47, the rainwater treatment tank 63, the treated water pipe 46 and the sewage treatment pipe (10) Mandrel 42 is characterized in that the manhole 42 is formed on the upper surface of 45). The rainwater discharge chamber according to claim 10, wherein the rainwater discharge tank (40) discharges all of the inflow water into the initial rainwater storage tank (44) during the dry season, and discharges the inflow water beyond the allowable limit into the stream during the rainy season. Outflow tank. The storm drain chamber according to claim 10, wherein the initial rainwater storage tank (44) discharges all of the inflow water during the dry season to the sewage treatment plant, and discharges the inflow water beyond the allowable limit during the rainy season to the stream directly. The rainwater discharge system according to claim 10, further comprising a separator (59 ') on the left side of the conduit (45) to the sewage treatment plant of the rainwater discharge tank (40), and a pump (P) on the left side. Chubby Spill Tank.