KR100444284B1 - Overflow discharge chamber in a combined system of sewage - Google Patents

Abstract

In order to provide first-class sewage treatment of sewage and at the same time, to provide excellent sewage chamber of combined sewerage system to minimize the pollution of natural rivers by efficiently treating initial rainwater.

A housing formed with a hollow portion and having a discharge groove connected to a stream outlet at one side of the upper end thereof; A first screen disposed inside the hollow part of the housing and having a plurality of filtration holes on a cross section thereof; A conduit connected to one side of the first screen through the upper one side of the housing; A collecting conduit for collecting a predetermined amount of sewage from the conduit and the housing and transporting the sewage to a sewage treatment plant; A venturi tube connecting the lower portion of the conduit and the collecting conduit, the large diameter portion having a large cross-sectional area formed on the conduit side, and the small diameter portion having a small cross-sectional area formed on the side of the conduit; And one end is connected to the small diameter portion of the venturi pipe, the other end penetrates through one side of the housing provides a storm sewer of the combined sewer including a suction pipe connected to the lower portion of the first screen.

Description

OVERFLOW DISCHARGE CHAMBER IN A COMBINED SYSTEM OF SEWAGE}

The present invention relates to stormwater sewage of the combined sewage, and more particularly, to sewage sewage introduced into the stormwater sewage first, and to sewage sewage of the combined sewerage to discharge to the sewage treatment plant through a conduit. will be.

In general, sewage discharge methods are classified by sewage and rain (rainwater) separate sewage pipes according to the type of exclusion of sewage (the sum of sewage caused by life or business or accompanying rainwater and natural rainfall); For example, there is a joining ceremony to exclude sewage and rainwater from the same sewer.

In the case of new towns, it is not necessary to use stormwater silos because all sewage is sent directly to the sewage treatment plant by using a sedimentation pipe, which consists of sewage and rainwater separately. In Korea, Combined System of Sewage is used to drain sewage and rainwater through a single conduit, so it is essential to use stormwater to reduce the burden on sewage facilities in rainy weather.

Such rainwater soil is a facility for collecting a certain amount of sewage in rainy weather in a conduit type conduit and discharging it to a sewage treatment plant, and the remaining sewage is discharged into a body of water such as a river. It is formed as it is installed downwards in the vertical direction in the longitudinal direction of the waterway, the inlet surface is provided with an iron screen, the lower part of the connection connecting the entrance to the collector, and the upper one side is made of a river outlet.

That is, in normal times, all the sewage flowing through the sewer channel flows into the storm drain and is filled from the lower part of the storm drain, and immediately discharged to the sewage treatment plant through the sewage drainage. When the flow rate by) becomes 2 to 3 times or more than the normal sewage flow rate, it is discharged to the river or the sea through the river outlet.

However, rainwater soil, which is an essential element of the conventional conduit type conduits, is usually suspended in sewage from the drainage or steel screens installed on the entrance surface of rainwater soils, so that the primary sewage treatment is not performed properly. It causes a problem, and there is a problem in that the wastewater treatment costs are excessive.

In addition, in case of flooding due to rainy weather, sewage (containing sand, soil, etc.) and suspended solids cannot be properly separated and disposed of in whole sewage due to the large flow rate exceeding the capacity of rainwater soil, especially the initial rain with high pollution. It is discharged to the river or the sea in a state of being intact, and this also causes problems such as serious pollution of the river or the nearby sea.

Therefore, the present invention has been invented to effectively solve the problems as described above by treating the primary sewage treatment of sewage, and the initial rainwater with a large degree of pollution due to the rain as appropriate sewage and rainwater. The purpose of this is to divide rainwater silos into inside and outside, and to make the sewage pumping using the Venturi principle between the first screen and the dwelling house. It is to provide storm sediment in the combined sewer system that can effectively treat rainwater to minimize pollution of natural rivers.

Another object of the present invention is to provide excellent sewage silos of combined sewerage to reduce the cost of the sewage treatment process by initially removing and treating sewage and contaminated suspended solids through primary treatment of sewage. will be.

1 is an overall perspective view of rainwater soil according to the present invention.

2 is a partial side cross-sectional view of the rainwater soil according to the present invention.

Figure 3 is a partial flat cross-sectional view of rainwater soil according to the present invention.

4 is a perspective view of a first screen applied to the present invention.

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

6 is a partial cross-sectional perspective view of the collector conduit applied to the present invention.

Figure 7 is a general operational state diagram of rainwater tossil according to the present invention.

Figure 8 is a state diagram of the rainy season according to the present invention in rainy weather.

Urethane sewage of the combined sewer of the present invention for achieving the above object is formed in the hollow portion, the upper side of the housing is formed with a discharge groove connected to the river outlet; A first screen disposed inside the hollow part of the housing and having a plurality of filtration holes on a cross section thereof; A conduit connected to one side of the first screen through the upper one side of the housing; A collecting conduit for collecting a predetermined amount of sewage from the conduit and the housing and transporting the sewage to a sewage treatment plant; A venturi tube connecting the lower portion of the conduit and the collecting conduit, the large diameter portion having a large cross-sectional area formed on the conduit side, and the small diameter portion having a small cross-sectional area formed on the side of the conduit; One end is connected to the small diameter portion of the venturi tube, the other end includes a suction pipe penetrating one side of the housing and connected to the lower portion of the first screen.

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

1 is an overall perspective view of the stormwater chamber according to the present invention, Figure 2 is a partial side cross-sectional view of the stormwater chamber according to the present invention, Figure 3 is a partial flat cross-sectional view of the stormwater chamber according to the present invention, the confluent sewer according to the present invention The rainwater tossoil comprises an octagonal pillar-shaped housing 3 formed inside of a hollow portion.

The discharge groove 7 which is connected to the river outlet 5 and discharges the sewage to the river or the sea is formed at one side of the eight sides of the housing 3 on one side of the housing 3.

In the hollow portion of the housing 3, a first screen 9 having an octagonal pillar shape identical to the shape of the housing 3 is disposed.

The first screen 9 is installed so that its upper end is the same height as the discharge groove 7 of the housing 3, and the hollow part of the housing 3 is the external soil chamber 1 and the internal soil chamber 11. Separate.

Here, the housing 3 and the first screen 9 is made of an octagonal pillar shape, but this is only in consideration of the ease of manufacture and installation, there is no particular limitation on the shape. For example, the shape of the housing 3 can be changed into various shapes according to the terrain in which rainwater tosoil is installed.

In the first screen 9, as shown in Figures 4 and 5, a plurality of filtration holes 13 are formed at a predetermined interval, the filtration hole 13 is the sewage flowing into the interior soil chamber (11) It is formed to be inclined by a predetermined angle α with respect to the cross section in a direction opposite to the flow direction of.

This prevents the soil and sewage contained in the sewage from passing through the filtration hole 13 of the first screen 9 so as to remain in the interior soil 11 so that the sediment and sewage in the sewage can be more effectively filtered. To make it work.

The conduit conduit 15 through which the sewage flows into the upper side of the first screen 9 penetrates through the upper side of the housing 3 and is eccentrically connected to the center as shown in FIG. 3.

Here, in the conduit conduit 15, a separate sewage discharge pipe 17 leading to a river or the sea on one side of the conduit is formed in the form of a branch pipe, and the water gate 19 is formed on the sewage discharge pipe 17. Is formed.

In addition, the conduit 15 and the collecting conduit 21 for collecting a certain amount of sewage from the inside of the housing 3 and transported to the sewage treatment plant is provided, this collection conduit 21, as shown in FIG. It is connected to the venturi pipe 23 extending in the form of a branch pipe from the lower side of the confluence pipe 15.

The venturi tube 23 connecting one side of the conduit 21 and the conduit 15 is formed with a large diameter portion 25a having a large cross-sectional area at one side connected to the lower portion of the conduit 15, and the conduit 21 On one side connected to) is formed as a small diameter portion 25b having a small cross-sectional area.

In addition, the suction pipe 27 extending from the lower side of the housing 3 is connected to the connection portion between the collecting pipe 21 and the small diameter portion 25b.

The lower end of the suction pipe 27 passes through one lower side of the housing 3 and is connected to one lower side of the first screen 9.

In the suction pipe 27, a check valve 29 is provided to prevent the sewage (sewage) sucked from the housing 3 or the sewage (sewage) discharged through the venturi pipe 23 from flowing back into the internal soil chamber 11. ) Is installed.

Meanwhile, a second screen 31 is installed at the connection portion where the conduit conduit 15 and the venturi tube 23 are connected to filter the suspended matter.

The stormwater sewage of the combined sewage system having such a configuration is determined in consideration of the condition and region of the conduit 15 and the topographical characteristics and the amount of sewage in the calculation of the standard. Estimates can be made through regional runoff simulations, and detailed descriptions are omitted.

Therefore, referring to the operation of the rainwater tosoil of the confluence sewer system consisting of the configuration as described above with reference to Figures 7 and 8, first, most of the sewage (flow (sewage)) flowing through the conduit conduit 15 is usually conduit (15) The venturi pipe 23 and the drainage pipe 21 connected to the lower surface of the wastewater are directly discharged to the sewage treatment plant, and a small amount of sewage 41 (sewage) also flows into the housing 3 through the conduit 15. Among the sewage flowing into the housing 3, contaminated sewage or suspended matter 43 is filtered by the first screen 9 to be precipitated to the bottom of the inner soil chamber 11, and the remaining sewage components. The gas flows toward the external soil chamber 1 through the filtration hole 13 of the first screen 9 to purify the sewage primarily.

At this time, the sewage, contaminated floating matters, etc. deposited on the bottom of the inner soil chamber 11 are automatically transferred to the venturi pipe 23 through the suction pipe 27 when the water level inside the housing 3 is higher than the predetermined water level h. Pumped and discharged to the sewage treatment plant through the collecting pipe (21).

The principle of automatically pumping sewage or contaminated suspended solids in the inner soil chamber 11 will be described in more detail with reference to FIG. 6.

That is, the sewage flowing from the conduit conduit 15 through the venturi tube 23 is increased from the large diameter portion 25a to the small diameter portion 25b as the flow section is reduced by the continuous equation (V _a <V _b ), this increase in flow velocity results in a pressure drop (P _a > P _b ), as can be seen by the Bernoulli equation below.

Where V is the velocity, P is the pressure, Z is the height, h_L is the head difference, rho is the density, g is the gravitational acceleration, and the subscripts a and b indicate the large and small diameters, respectively.

Due to the pressure drop, the pressure of the small diameter portion 25b of the venturi tube 23 may be smaller than the atmospheric pressure. At this time, since the atmospheric pressure is acting in the housing 3, the small diameter portion 25b and the housing 3 may be reduced. Sewage or suspended matter in the housing 3 can be sucked into the small diameter portion 25b through the suction pipe 27 by using the pressure difference therein.

Here, the diameter of the large and small diameters of the venturi tube 23, the water head difference (h_L), etc. are considered in consideration of various matters such as the amount of sewage flowing into the storm drain of the region, and the minimum depth in the storm storm. Determine the specific value.

As a result, the sewage and suspended matter 43 precipitated under the inner toil chamber 11 is discharged to the sewage treatment plant through the venturi pipe 23 and the suction pipe 27 without a separate power source, thereby managing the cost of rainwater toil. Can be saved.

In addition, by not leaving the sewage and the suspended matter 43 inside the storm sediment for a long time, environmental problems such as odor can be improved. Of course, the waste that is not pumped through the suction pipe and remaining in the lower soil chamber 11 should be collected periodically by the worker.

On the other hand, as shown in Figure 8, even when the amount of sewage due to the rain is also increased, some of the sewage (40 '; sewage and rainwater) flowing through the conduit (15) through the venturi tube 23 and the ditch 21 Immediately discharged to the sewage treatment plant, at this time, the pressure drop in the pipe due to the reduction of the flow cross section in the venturi pipe (23).

In addition, most of the sewage 41 '(sewage and rainwater) is introduced into the housing 3 through the conduit conduit 15 and is rapidly filled, the sewage 41' (sewage and rainwater) is the first screen ( It is first filtered through the filtration hole 13 of 9) and discharged to the river outlet 5 through the discharge groove 7 of the housing 3, and the sewage and suspended matter 43 'components are discharged from the first screen 9 Settles to the bottom.

Of course, even at this time, most of the sewage and suspended solids 43 ′ precipitated to the lower portion of the first screen 9 are pumped to the venturi pipe 23 through which the pressure drop is generated through the suction pipe 27 to collect It is discharged to the sewage treatment plant through 21.

On the other hand, if excessive sewage flows into the conduit 15 due to heavy rain or flooding, the water gate 19 of the sewage discharge pipe 17 is opened to discharge the sewage more than the capacity 45 (sewage and rainwater) directly to the stream. In addition, it is possible to prevent backflow due to overload of stormwater.

The present invention divides rainwater sediment into inside and outside in two and sends wastewater to rainwater sewage treatment plant through sewage pipe in the state of filtering sewage in rainwater sewage through sewage. In case of flooding due to rain, large streams exceeding the capacity of stormwater, especially sewage (containing sand, soil, etc.) and suspended solids contained in the initial rainwater with a high degree of contamination, are properly separated from the first screen and treated in rivers or nearby waters. Can significantly reduce the environmental pollution.

In addition, when the sewage in rainwater chambers, etc. to be moved to the dwelling house, according to the Venturi principle, the suction and movement by the non-powerless can reduce the cost required for the management of storm water.

Claims (5)

A housing formed with a hollow portion and having a discharge groove connected to a stream outlet at one side of the upper end thereof; A first screen disposed inside the hollow part of the housing and having a plurality of filtration holes on a cross section thereof; A conduit connected to one side of the first screen through the upper one side of the housing; A collecting conduit for collecting a predetermined amount of sewage from the conduit and the housing and transporting the sewage to a sewage treatment plant; A venturi tube connecting the lower portion of the conduit and the collecting conduit, the large diameter portion having a large cross-sectional area formed on the conduit side, and the small diameter portion having a small cross-sectional area formed on the side of the conduit; And A suction pipe having one end connected to a small diameter portion of the venturi tube and the other end passing through one side of the housing and connected to a lower portion of the first screen; Stormwater sewage of the combined sewer containing a. The method of claim 1, wherein the first screen Its shape is made of polygonal shape of at least four squares or more, and the filtration hole formed on the cross-section is excellent storm chamber of the combined sewer, characterized in that the inclined in the opposite direction to the flow direction of the sewage flowing into the first screen. The method of claim 1, wherein the conduit The second screen is installed at the connection portion to which the venturi pipe is connected, and the superior sewage chamber of the combined sewer system, characterized in that a separate sewage discharge pipe is formed at one side in front of the venturi pipe. The method of claim 1, wherein the suction pipe Rainwater sewage of the combined sewer is characterized in that the check valve is installed to prevent the backflow of the sewage sucked from the housing or the sewage discharged through the venturi pipe. The method of claim 1, wherein the first screen is Rainwater sessile of the combined sewer, characterized in that the outer shape consists of an octagonal shape.