KR100572507B1 - Overflow discharge chamber - Google Patents

Abstract

The present invention enables effective water quality management of sewage by separating the sewage into sewage and rainwater according to the flow rate to sewage treatment plant and rivers, and prevent rain from entering a sewage treatment plant in case of rain. In order to enable effective operation of the sewage treatment plant, the rainwater inlet is formed on the upper surface, the hollow portion is formed inside, the sewage inlet pipe is connected to one side of the upper side, the lower side of the river is connected to the sewage inlet pipe Discharge pipe is connected, the lower one side of the river discharge pipe is connected to the sewage housing is connected to the sewage discharge pipe; It is disposed inside the hollow part of the torsion housing to divide the inside of the torsion housing into the upper tom chamber and the lower chamber, and form an air chamber therein, the upper surface in the direction connecting the sewage inlet pipe and sewage outlet pipe A float valve forming a flow path guider and having rainwater inflow grooves formed at both outer ends of the flow path guider to be operated by buoyancy; A negative pressure valve is connected to the lower end of the lower toil chamber in the chamber chamber and the sewage outflow pipe to the discharge pipe line, and is connected to the river discharge pipe on the discharge pipe path to operate by using the negative pressure generated by the flow of rain in the river discharge pipe. It provides a storm sewage for sewage treatment comprising a rainwater discharge means for regulating the discharge of rainwater in the lower soil chamber.

 Stormwater Seal, Floating Valve, Sewage Treatment

Description

Excellent soil chamber for sewage treatment {OVERFLOW DISCHARGE CHAMBER}

1 is a cross-sectional view of the storm soil according to an embodiment of the present invention.

2 is a perspective view of a float valve applied to an embodiment of the present invention.

3 is a side view of a knitting valve applied to an embodiment of the present invention.

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

Figure 5 is an enlarged side cross-sectional view of the storm discharge means applied to the embodiment of the present invention.

6 is a general functional state diagram of rainwater tossil in accordance with an embodiment of the present invention.

7 is a state diagram of the rain in the rainy season, according to an embodiment of the present invention.

8 is an operational state diagram of the rainwater discharge means in rainwater chamber according to an embodiment of the present invention.

The present invention relates to stormwater sewage treatment for combined sewage treatment, and more specifically, sewage (life sewage) and rainwater (rainwater) can be separated and discharged into sewage treatment plants and streams according to the flow rate, thereby effectively managing sewage. It relates to rainwater tosoil for sewage treatment.

In general, sewage refers to the sum of sewage due to or associated with life or business, and rainwater due to natural rainfall.The discharge method includes a classification formula that excludes sewage and rainwater by separate sewage pipes according to the exclusion form, and sewage and rainwater. It can be classified as a joining formula, excluded by the same sewer pipe.

In the case of new cities, sewage and rainwater are divided into separate conduits so that all sewage is sent directly to the sewage treatment plant. The Combined System of Sewage, which drains rainwater through a single conduit, uses rainwater silos to reduce the burden on sewage facilities in rainy weather.

This stormwater is a facility for collecting a certain amount of sewage from the combined conduit and draining it to the sewage treatment plant, and the remaining sewage is discharged into the body of water such as rivers. It is formed like and installed downward in the vertical direction of the water channel, it is connected to the river outlet in the upper one side.

That is, in normal times, all the sewage flowing through the sewage pipes flows into the storm sediment chamber and is filled from the lower portion of the storm sediment chamber, and is immediately discharged to the sewage treatment plant. When it is two to three times or more of the normal sewage flow rate, it is discharged to the river or the sea through the river outlet.

By the way, the conventional rainwater toil as described above does not have a problem to guide the sewage to the sewage treatment plant in normal times, but if the rainwater flow rate increases rapidly due to rain, rainwater is discharged to the stream through the river outlet. At the same time, there has been a problem in that a large amount of rainwater is discharged to the sewage treatment plant through the sewage pipe, thereby paralyzing its function by exceeding the sewage treatment capacity of the sewage treatment plant.

In addition, as described above, there is a problem that there is a difficulty in water quality management due to the introduction of a large amount of rainwater through the sewage pipe into the sewage treatment plant.

Therefore, the present invention has been invented to solve the problems as described above, the object of the present invention is to separate the sewage into sewage and rainwater according to the flow rate to sewage treatment plant and streams by allowing effective discharge water quality It is possible to provide management, and to provide rainwater tosoil for sewage treatment, which prevents a large amount of rainwater from entering the sewage treatment plant during rainy weather, thereby enabling effective operation of the sewage treatment plant.

Rainwater tosoil for sewage treatment of the present invention for achieving the above object is formed in the rainwater inlet on the upper surface, the hollow portion formed inside, the sewage inlet pipe is connected to the upper side, the sewage inlet pipe is connected A lower discharge side pipe is connected to the lower side of the other side, and a lower chamber side to which the sewage discharge pipe is connected to the lower side surface to which the river discharge pipe is connected; It is disposed inside the hollow part of the torsion housing to divide the inside of the torsion housing into the upper tom chamber and the lower chamber, and form an air chamber therein, the upper surface in the direction connecting the sewage inlet pipe and sewage outlet pipe A float valve forming a flow path guider, each having an excellent inflow groove formed at both outer ends of the flow path guider to be operated by buoyancy; A negative pressure valve is connected to the lower end of the lower toil chamber in the chamber chamber and the sewage outflow pipe to the discharge pipe line, and is connected to the river discharge pipe on the discharge pipe path to operate by using the negative pressure generated by the flow of rain in the river discharge pipe. It comprises a rainwater discharge means for regulating the discharge of rainwater in the lower soil chamber.

The toseal housing is characterized in that it has a square shape, with a knitting valve disposed therein, a stopper for supporting the lower end of the knitting valve is further formed on the inner lower side of the toseal housing.

The float valve has a square plane having an upper end surface having a predetermined inclination angle in the direction of the sewage inlet pipe from the sewage inlet pipe, the lower end of which is fixed to the lower end surface of the torso housing, and the stop ring at the upper end thereof. The formed valve guider is slidably inserted in the vertical direction, and the inner air chamber of the float valve is formed of two cylindrical sealed spaces arranged side by side.

In addition, the rain discharge means is a discharge pipe for connecting the lower end of the lower soil chamber in the chamber chamber and one side of the sewage outflow pipe; A negative pressure valve formed in the valve housing on one side of the discharge pipe; A negative pressure pipe line connecting the upper portion of the valve housing and one side of the river discharge pipe to generate a negative pressure by the flow of rain in the river discharge pipe; It is installed in the negative pressure pipe, characterized in that consisting of a piston for closing the discharge pipe by pulling the negative pressure valve when the negative pressure is formed in the negative pressure pipe is connected to the connecting bar and the negative pressure valve.

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

1 is a cross-sectional view of the rainwater soil according to an embodiment of the present invention, Figures 2 to 4 are a perspective view, a side view and a cross-sectional view of the knitting valve 15 applied to an embodiment of the present invention, Figure 5 is an embodiment of the present invention As a cross-sectional configuration diagram of the rainwater discharge means applied to the example, as shown in Figure 1, the constitution of the rainwater tosoil for sewage treatment according to an embodiment of the present invention is provided with a tossil housing (1) once installed in the ground.

The torsion housing 1 has a rectangular shape, and the rainwater inlet 5 is formed through the cover 3 at the upper portion, and a hollow part is formed therein.

The toseal housing 1 is connected to the sewage inlet pipe 7 for introducing sewage, that is, living sewage, to one side of the upper side, and the sewage inlet pipe 7 on the opposite side to which the sewage inlet pipe 7 is connected. The lower stream discharge pipe (9) is connected to the lower portion below.

In addition, the toseal housing (1) is a sewage outflow pipe for discharging the sewage to the sewage pipe 11 on one side below the river discharge pipe (9) on one side that is connected to the river discharge pipe ( 13) is connected.

In addition, a float valve 15 is disposed inside the hollow part of the torsion housing 1 to divide the inside of the torsion housing 1 into an upper torsil 17 and a lower torsil 19.

The float valve 15, as shown in Figures 2 to 4, forms two air chambers 21 therein, the upper surface of the sewage flowed in from the sewage inlet pipe (7) sewage outflow pipe In order to guide to (13), the flow path guider 23 which consists of two gang plate members is formed integrally.

Here, the inner air chamber 21 of the float valve 15 is preferably formed of two cylindrical sealed spaces arranged parallel to each other, the shape is not limited to this, the float valve 15 is a large buoyancy It would be more desirable to be designed with a large space to receive.

In addition, the float valve 15 forms rainwater inflow grooves 25 in the up and down directions at both outer ends of the flow path guider 23, respectively. It is configured to be introduced into the chamber 19.

The float valve 15 is formed of a rectangular plane whose top surface is inclined by a predetermined inclination angle α in the direction of the sewage inlet pipe 13 from the sewage inlet pipe 7, and in the center thereof, the valve guider 27. ) Is penetrated and installed.

Here, the valve guider 27 has a lower end fixedly installed on a lower end surface of the torsion housing 1, and a stop ring 29 is formed at an upper end thereof so that the floating valve 15 along the valve guider 27 is formed. During sliding operation in the vertical direction, it is configured not to escape.

Here, the knitting valve 15 also has a square shape like the chamber chamber 1, the stopper 31 for supporting the lower end of the knitting valve 15 on the inner lower side of the chamber chamber (1). Is formed integrally.

On the other hand, the lower end chamber 19 in the chamber chamber (1) is connected to the lower end and the sewage outflow pipe 13 to the discharge pipe path 33, on the discharge pipe path 33 and the river discharge pipe (9) and It is connected to constitute a negative pressure valve 35 to operate by using the negative pressure generated by the flow of rain in the river discharge pipe (9) is composed of storm discharge means for regulating the discharge of rain in the lower chamber (19). .

Specific configuration of the rainwater discharge means, as shown in Figure 5, connecting the lower end of the lower toil chamber 19 in the toil chamber 1 and one side of the sewage outflow pipe 13 to the discharge pipe path 33, One side of the discharge pipe (33) is formed with a valve housing 37, the negative pressure valve 35 is installed to operate in the vertical direction therein.

In addition, the upper portion of the valve housing 37 is formed with a negative pressure pipe 39 connected to one side of the river discharge pipe 9 to the principle of the venturi pipe using the flow of rain in the river discharge pipe (9). Accordingly configured to generate a negative pressure.

The piston 41 is installed in the negative pressure pipe line 39, and the piston 41 is connected to the negative pressure valve 35 by a connecting bar 43 to form the negative pressure in the negative pressure pipe line 39. The valve 35 is pulled to close the discharge pipe 33.

Therefore, the operation of rainwater tosoil for sewage treatment composed of the above-described configuration is divided into the general operation of rainwater tossil, the rainy weather to rainy weather, and the operation of rainwater discharge means in rainwater toil through FIGS. 6, 7 and 8. The description is as follows.

First, the usual action of rainwater tossing is that the float valve 15 is positioned over the lower stopper 31 of the tossing housing 1 by its own weight, and the upper end surface thereof is positioned side by side with the sewage outflow pipe 13. At this time, when a small amount of living sewage, that is, the sewage flows into the upper toil chamber 17 in the torsion housing 1 through the sewage inflow pipe 7, the sewage flows through the flow guide 23 as it is. It is discharged to the sewage pipe 11 through the guide to the sewage treatment plant.

As shown in FIG. 7, the rainy weather in the rainy season is introduced into the upper chamber 17 in the tortilla housing 1 through a large amount of rainwater, that is, the rainwater inlet 5.

At this time, the rainwater flowing into the upper toil chamber 17 flows into the lower soil chamber 19 through the rain inlet groove 25 of the knitting valve 15, and the rainwater flowing into the lower soil chamber 19 is A part of it is discharged to the sewage outflow pipe 13 through the discharge pipe 33, but the amount is small to fill the lower chamber 19.

When this state passes for a certain time, the float valve 15 is buoyant by floating rain which is continuously filled in the lower toil chamber 19, and within the float valve 15, the upper surface thereof is the stream discharge pipe. It rises so that it may become parallel with (9).

At this time, the float valve 15 is supported by the stop ring 29 of the valve guider 27 so as not to rise any more, and the sewage outflow pipe 13 is closed by the side of the float valve 15. The inflow of rainwater is blocked, whereby the total amount of rainwater is discharged to the river through the river discharge pipe (9) with a part of the sewage.

On the other hand, a part of rainwater that flowed out through the discharge pipe 33 in the lower soil chamber 19 is a large amount of rainwater through the river discharge pipe (9) in the state that the float valve 15 is fully raised by buoyancy. During discharge, the piston 41 is pulled up by forming a negative pressure with a constant pressure in the negative pressure pipe 39 by the principle of the venturi pipe, and the negative pressure valve 35 is pulled as the piston 41 is raised. By blocking the discharge pipe 33, the lower toil chamber 19 is able to maintain a certain amount of excellent rain as it is.

And, as shown in Figure 8, immediately after the rain, the rain discharge means in the lower soil chamber 19 has no inflow of rainwater through the rainwater inlet (5), the flow of rainwater is finished in the river discharge pipe (9) do.

At this time, the negative pressure pipe (39) is in the same state as the atmospheric pressure, the piston 41 and the negative pressure valve 35 is lowered by its own weight to open the discharge pipe (33).

In this way, the rainwater inside the lower toil chamber 19 is discharged to the sewage outflow pipe 13 through the discharge pipe 33 in accordance with the opening of the discharge pipe 33, so that the water level is lowered, and thus the float valve 15 Is lowered, as shown in FIG.

As described above, the rainwater tosoil for sewage treatment according to the present invention enables effective water quality management of sewage by separating and discharging sewage into sewage and rainwater according to the flow rate by using a knitting valve to sewage treatment plant and river. In rainy weather, a large amount of rainwater is prevented from entering the sewage treatment plant, thereby enabling effective operation of the sewage treatment plant.

Claims (5)

delete delete The rainwater inlet is formed on the upper surface, the hollow portion is formed inside, and the sewage inlet pipe is connected to the upper one side, and the river discharge pipe is connected to the lower side of the other side to which the sewage inlet pipe is connected. The lower one side is connected to the toil housing to which the sewage outflow pipe is connected; It is disposed inside the hollow part of the torsion housing to divide the inside of the torsion housing into the upper tom chamber and the lower chamber, and form an air chamber therein, the upper surface in the direction connecting the sewage inlet pipe and sewage outlet pipe A float valve forming a flow path guider and having rainwater inflow grooves formed at both outer ends of the flow path guider to be operated by buoyancy; A negative pressure valve is connected to the lower end of the lower toil chamber in the chamber chamber and the sewage outflow pipe to the discharge pipe line, and is connected to the river discharge pipe on the discharge pipe path to operate by using the negative pressure generated by the flow of rain in the river discharge pipe. In the storm sewage treatment for sewage treatment comprising a rainwater discharge means for regulating the discharge of rainwater in the lower soil chamber, The float valve has a square plane having an upper end surface having a predetermined inclination angle in the direction of the sewage inlet pipe from the sewage inlet pipe, the lower end of which is fixed to the lower end surface of the torso housing, and the stop ring at the upper end thereof. Excellent sewage chamber for sewage treatment, characterized in that the valve guider formed is inserted through the slideable in the vertical direction. 4. The storm drain chamber for sewage treatment according to claim 3, wherein the inner air chamber of the float valve is formed of two cylindrical sealed spaces arranged side by side. According to claim 3, wherein the storm drain means A discharge pipe for connecting a lower end of the lower toil chamber in the chamber housing and one side of the wastewater discharge pipe; A negative pressure valve formed in the valve housing on one side of the discharge pipe; A negative pressure pipe line connecting the upper portion of the valve housing and one side of the river discharge pipe to generate a negative pressure by the flow of rain in the river discharge pipe; It is installed in the negative pressure pipe, and connected to the negative pressure valve connecting bar when the negative pressure in the negative pressure pipe, when forming the negative pressure, sewage treatment chamber for sewage treatment, characterized in that made of a piston for closing the discharge pipe.

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