KR101713397B1 - Apparatus for treating first rainwater with auto back washing - Google Patents

Abstract

The present invention relates to a pretreatment tank (A) in which initial storms are introduced and subjected to primary filtration treatment; And a filtration tank (B) communicating with the pretreatment tank (A) and performing a secondary filtration process on the primary storages that have been primarily filtered. The filtration tank (B) has inlet and outlet ports A main body 10 having an inlet 11 and an outlet 12 to be discharged; The inner space of the main body 10 is divided into an upper space S1 in which the discharge port 12 is located and a lower space S2 in which the inlet 11 is located, A filter medium (20) for filtering pollutants contained in the initial rainwater flowing into the inlet (11); A backwash discharge hole 13 formed in a lower space S2 defined by the filter medium 20 and formed on a side surface of the main body 10; A gate 30 which is provided in the main body 10 and is rotated around a hinge axis 31 on the upper side of the inlet 11 to open and close the inlet 11; And a closure member (40) provided integrally or separately on the water gate (30) and opening and closing the back wash water discharge hole (13) in association with the rotation of the water gate (30) This is an early stormwater treatment device.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an initial back-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an early stormwater treatment apparatus capable of automatic backwashing, and more particularly, to an initial stormwater treatment apparatus capable of automatically backwashing contaminants adsorbed on filter media.

In general, the pollutants are point pollutants emitted from clear and limited point sources such as life good, industrial wastewater and livestock wastewater, and pollutants such as agricultural land, pasture, forest, construction site, urban area, road and industrial site Similarly, discharge areas can be divided into nonpoint pollutants that are emitted from a wide range of nonpoint pollution sources.

Pollutants emitted from these sources are distributed in a wide variety of forms including heavy metals, pathogenic microorganisms, organic compounds, radioactive materials, and toxic substances. These pollutants are usually swept into rainwater and run into streams and groundwater, causing water pollution. In this case, the discharge point is clear and limited point pollutants are cleaned to a certain extent. In case of non-point pollutants, the discharge area is wide and remains mostly on the surface. It is becoming the main cause of water pollution.

Accordingly, various techniques have been proposed for purifying the initial storm containing the nonpoint source. However, the prior art can not separate settling contaminants such as sand among the separated contaminants and floating contaminants such as oilstains and woods, and accumulates and processes all of them in one place, However, if it is desired to treat the sedimentation pollutants and floating contaminants accumulated and accumulated by separate sorting operation, collecting work is cumbersome and complicated.

Meanwhile, as the contaminants are continuously adsorbed to the filter medium during filtration of the contaminants, the filter medium is clogged by the contaminants. Accordingly, since the contaminants are no longer filtered, there is a problem that the filtration process is delayed and the filtration efficiency is lowered. At this time, although the backwash water is sprayed to the filter material to remove the contaminants adsorbed on the filter material, there is a problem that the cost is increased because the pump is used to spray the backwash water.

Korean Patent Publication No. 10-2011-0084080

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a filtration apparatus and a filtration apparatus capable of reducing the cost by automatically backwashing a filter medium without a pump when foreign matter contained in an initial run- And an object of the present invention is to provide an initial excellent treatment device capable of automatically backwashing the filtration time by shortening the time required for the adsorption of the adsorption tank to be automatically changed according to the level of the initial storm, .

According to an aspect of the present invention, there is provided a pretreatment apparatus comprising: a pretreatment tank (A) into which initial storms are introduced and subjected to primary filtration treatment; And a filtration tank (B) communicating with the pretreatment tank (A) and performing a secondary filtration process on the primary storages that have been primarily filtered. The filtration tank (B) has inlet and outlet ports A main body 10 having an inlet 11 and an outlet 12 to be discharged; The inner space of the main body 10 is divided into an upper space S1 in which the discharge port 12 is located and a lower space S2 in which the inlet 11 is located, A filter medium (20) for filtering pollutants contained in the initial rainwater flowing into the inlet (11); A backwash discharge hole 13 formed in a lower space S2 defined by the filter medium 20 and formed on a side surface of the main body 10; A gate 30 which is provided in the main body 10 and is rotated around a hinge axis 31 on the upper side of the inlet 11 to open and close the inlet 11; And a closure member 40 provided integrally or separately on the water gate 30 and opening and closing the back wash water discharge hole 13 in conjunction with rotation of the water gate 30, The opening of the backwash discharge hole 13 is closed by the opening and closing member 40 while the opening 30 is rotated by its own weight to close the inlet port 11 as the flow rate of the initial storm that flows into the main body 10 of the main body 10 is reduced, And the contaminants adsorbed on the filter medium 20 are automatically cleaned while being sucked toward the backwash discharge hole 13 of the lower space S2 located in the upper space S1. An initial good treatment apparatus capable of cleaning is provided.

According to another aspect of the present invention, the pretreatment tank (A) includes a screen tank (50) and a settling tank (60) for filtering out the contaminants and sediments contained in the initial storages, And an adsorption tank 70 in which an initial storm in which contaminants and sediment are separated from the sedimentation tank 50 and the sedimentation tank 60 is introduced and the suspended matters contained in the initial stormwater are removed, An adsorption tank main body 71 formed with a first communication hole 72 communicating with the settling tank 60 and having a second communication hole 73 communicating with the filtration tank B on one side thereof; A first roll 75 and a second roll 75 which are disposed inside the adsorption body 71 and extend leftward and rightward and which are disposed to surround the second communication hole 73 and located above the second communication hole 73, 76) and a third roll (77) located below the second communication hole (73); A suction roll 74 wound on the first roll 75 and wound on a second roll 76 via a third roll 77; A ratchet 78 that is provided on the second roll 76 and rotates the second roll 76 as it is rotated to wind the adsorption roll 74; And a buoyant body (79) connected to the ratchet (78) and rotating the ratchet (78) as it is lifted and lowered in accordance with the level of the initial storm introduced into the adsorption tank main body (71) An initial good treatment apparatus capable of cleaning is provided.

According to another aspect of the present invention, the backwash discharge hole (13) of the filtration tank (B) is provided with one end of the backwash discharge pipe (81) through which the initial rainwater used for backwashing is discharged, 81) is connected to an external reservoir (80).

As described above, according to the present invention, when the inflow amount of the initial storm is reduced in the filtration tank B of the initial stormwater treatment apparatus, the inlet 11 is closed and the backwash discharge hole 13 is opened, The filtered initial voids located in the space S1 are sucked into the backwash discharge hole 13 of the lower space S2 to clean the filter medium 20 so that the filter medium 20 can be cleaned without using the pump and the backwash water, ) Can be automatically backwashed more quickly, thereby reducing the cost and improving the filtration efficiency.

When the floors are continuously adsorbed in the adsorption tank 74 in the adsorption tank 70 of the pretreatment tank A so that the initial storability can not pass through the adsorption column 74 and the water level gradually increases, The connecting rod 79a is fastened to the ratchet 78 of the second roll 76 and the connecting bar 79a is rotated so that the ratchet 78 is rotated so that the second roll 76 is rotated to wind the adsorption roll 74 , The old adsorbent 74 adsorbed by the suspended solids is replaced with a new adsorbent 74 not adsorbed by the suspended solids, so that the adsorption treatment of the suspended matters is smoothly performed, thereby further improving the filtration efficiency. At this time, it is possible to replace the adsorption film 74 without using a separate sensor or the like, thereby reducing the cost.

On the other hand, the initial outflow discharged through the backwash discharge hole 13 of the filtration tank B and the fine contaminants contained therein are stored in the storage water tank 80 by the backwash discharge pipe 81, So that the pollutants generated by the backwashing are not filtered out into the river but are filtered once more, so that the nonpoint source can be treated more effectively.

FIG. 1 is a plan view showing an embodiment of an initial good treating apparatus capable of automatic backwashing according to the present invention.
Fig. 2 is a side sectional view showing a state in which it is installed on the ground of the above-
3 and 4 are views showing a back washing process of the filtration tank, which is a part of the embodiment of the present invention.
Figs. 5 and 6 are views showing the replacement of the adsorption vessel of the adsorption tank, which is another essential part of the above embodiment

The objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIGS. 1 to 6 are views showing an initial stormwater treatment apparatus capable of automatic backwashing according to an embodiment of the present invention. As shown in the drawing, the initial stormwater treatment apparatus capable of automatic backwashing according to an embodiment of the present invention includes a pretreatment tank A for performing initial filtration of the initial stormwater, a filtration tank B for performing secondary filtration of the initial stormwater, . 2, the pretreatment tank A, the filtration tank B, and the storage tank 80 are buried in such a manner that the upper manhole is exposed to the ground surface 1 so that the user can enter and exit the tank.

The pretreatment tank (A) includes a screen tank (50) for removing contaminants contained in the initial storm, a sedimentation tank (60) for precipitating small sediment such as sand contained in the initial storm, And a suction tank 70 for removing floating matters such as strips.

1, the pretreatment tank A is divided into three chambers by partition walls 2 to form a screen tank 50, a settling tank 60 and an adsorption tank 70, respectively, , It does not occupy a lot of space as compared with the prior art, and the construction is easy. A communication hole is formed in each of the partition walls 2 so that the screen tank 50, the settling tank 60 and the adsorption tank 70 are communicated with each other and the communication hole is provided with an opening and closing door . At this time, the screen tank 50 and the sedimentation tank 60 have almost the same functions as those of the conventional early stormwater treatment apparatus, and are not characteristic parts of the present invention.

On the other hand, the adsorption tank 70 adsorbs and removes floating matters such as oil bands included in the initial rainwater by using the adsorbent 74, and sends the initial rainwater from which the floating matters have been removed to the filtration tank B. 5 and 6, the adsorption tank 70 includes the adsorption tank main body 71, the first to third rolls 75, 76, and 77, the ratchet 78, and the buoyancy body 79 .

The adsorption tank main body 71 is provided with a first communication hole 72 communicating with the settling tank 60 and a second communication hole 72 connected to the filtration tank B via a pipe 3 73 are formed. The first and second rolls 75 and 76 are positioned above the second communication hole 73 and the third roll 77 is positioned below the second communication hole 73, The rolls 75, 76, 77 are arranged to surround the second communication hole 73. 5 and 6, the adsorbent 74 is wound on the first roll 75 and wound on the second roll 76 via the third roll 77. As shown in FIGS. 5 and 6, And the second communication hole 73 is substantially U-shaped so as to be positioned on the inner side. As a result, the initial clearance introduced into the first communication hole 72 passes through the adsorption chamber 74 located between the second roll 76 and the third roll 77 as shown by the arrow in FIG. 5, 73, the suspended solids contained in the initial storm are adsorbed to the adsorption 74. [

The ratchet 78 is coaxially coupled to the second roll 76 and is engaged by the pawl of the second roll 76 to rotate the second roll 76 only when the ratchet 78 is rotated clockwise And the suction roll 74 is wound on the second roll 76 when the second roll 76 is rotated. The buoyant body 79 floats under the buoyant force in the initial stage filled in the adsorption tank main body 71 and the buoyant body 79 is connected to the ratchet 78 by the connecting bar 79a. At this time, the connecting bars 79a are fastened to the ratchet 78 and are integrally rotated with each other.

At this time, as the float of the initial storm continues to be adsorbed to the adsorbent 74, the air gap of the adsorbent 74 is blocked, so that the initial storm can not pass through the adsorbent 74. 6, the connection bar 79a of the buoyant body 79 is rotated in the clockwise direction by a predetermined amount as the initial level of the adsorption tank main body 71 increases, so that the ratchet 78 is caught by the pawl And the second roll 76 is thereby rotated so that the adsorbent 74 is wound on the second roll 76. The adsorbent 74 positioned between the first roll 75 and the third roll 77 where the suspension is not adsorbed is moved between the adsorbed second roll 76 and the third roll 77, The adsorbent 74 clogged by the adsorbent 74 is automatically replaced with the new adsorbent 74.

As shown in FIGS. 1 and 2, the filtration tank B is connected to the adsorption tank 70 of the pretreatment tank A to perform a secondary filtration process on the initial storm water treated in the pretreatment tank A. Such a filtration tank B includes a main body 10, a filter medium 20, a backwash discharge hole 13, a water gate 30 and an opening / closing member 40 as shown in FIGS. As shown in FIGS. 3 and 4, the main body 10 has an inlet 11 communicating with the adsorption tank 70 at a lower front side thereof to receive initial storms, (12) is formed.

The filter medium 20 is horizontally installed inside the main body 10 and divides the main body 10 into an upper space S1 and a lower space S2. At this time, the discharge port 12 is positioned in the upper space S1 and the inlet port 11 is disposed in the lower space S2. Accordingly, when the initial stormwater flows continuously into the inlet 11, the initial stormwater level of the initial stormwater filled in the main body 10 rises and passes through the filter medium 20 to the upper space S1, do. On the other hand, a backwash discharge hole 13 is formed in a side surface of the main body 10 of the lower space S2.

The water gate 30 is rotated about a hinge shaft 31 provided on the inlet 11 of the main body 10 to open and close the inlet 11. As the initial stormwater flows into the inlet 11, the watertight 30 is turned upward to open the inlet 11 and reduce the inflow amount of the initial stormwater so that the watertight 30 is rotated downward by its own weight, Is closed. At this time, a stopper 32 for limiting the rotation angle of the water gate 30 is protruded inward from the main body 10.

The opening and closing member 40 is integrally or separately provided in the water gate 30 and is configured to open and close the back wash water discharge hole 13 in conjunction with the rotation of the water gate 30. In the illustrated embodiment, the opening and closing member 40 includes a navigator member 41, which is separate from the gate 30 and whose front end is rotatably coupled to the lower end of the gate 30 and extends laterally and rearward, And an opening / closing plate 42 provided at a rear end of the back-washing discharge hole 13 to open / close the backwash discharge hole 13.

3, when the inflow amount of the initial storm is increased, the water gate 30 is turned upward to open the inlet port 11. At this time, the open / close member 40 is moved backward, The cleaning discharge hole 13 is closed. Here, even if the inflow amount of the initial storm is further increased, the rotation angle of the water gate 30 is limited by the stopper 32, so that the shutoff member 40 always closes the backwash discharge hole 13. Accordingly, since the initial storm continues to flow and the water level increases, the initial storm is filtered while passing through the filter medium 20.

4, when the inflow amount of the initial storm is reduced, the water gate 30 is rotated downward by its own weight to close the inlet 11, and at this time, the opening and closing member 40 is moved forward, The opening / closing plate 42 which has closed the hole 13 is moved forward and the backwash discharge hole 13 is opened. At this time, when the inlet 11 is closed and the backwash discharge hole 13 is opened in a state where the water level of the initial rainwater filled in the main body 10 is higher than the position of the backwash water discharge hole 13, And is rapidly discharged to the outside through the hole (13).

In this case, as the initial rainwater is filtered through the filter medium 20, the filter medium 20 is clogged by the fine particles and the filtration efficiency deteriorates. The initial rainwater located in the upper space S1 passes through the filter medium 20 in the reverse direction So that the fine particles adsorbed on the filter medium 20 are separated from the filter medium 20. As described above, unlike the conventional method in which backwash water is sprayed by using a pump, backwashing is automatically performed without using a pump.

An external reservoir 80 is connected to the backwash discharge hole 13 by a backwash discharge pipe 81 so that an initial storm used for backwashing is supplied to the storage water tank 80 through the backwash discharge pipe 81, / RTI > At this time, the initial storm filled in the storage water tank 80 is periodically discharged to the sewage treatment plant or the wastewater treatment plant. In this case, the backwashing discharge hole 13 is formed in the inside of the rotation area of the water gate 30, And the opening and closing member 40 opens and closes the backwashing discharge hole 13 in accordance with the rotation of the water gate 30.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

Claims (3)

A pretreatment tank (A) in which initial storms are introduced and subjected to primary filtration treatment; And a filtration tank (B) communicating with the pretreatment tank (A) and performing a secondary filtration process on the primary storm that has been primarily filtered,
The pretreatment tank (A)
A screen tank 50 and a settling tank 60 into which the initial storm flows and to filter out contaminants and sediments contained in the initial storages and to store the contaminants and sediments in the screen tank 50 and the settling tank 60, And an adsorption tank (70) through which the initial storm flows and removes suspended matters contained in the initial storm,
The adsorption tank 70 has an adsorption tank main body 70 having a first communicating hole 72 communicating with the sedimentation tank 60 and a second communicating hole 73 communicating with the filtration tank B on one side thereof, 71);
A first roll 75 and a second roll 75 which are disposed inside the adsorption body 71 and extend leftward and rightward and which are disposed to surround the second communication hole 73 and located above the second communication hole 73, 76) and a third roll (77) located below the second communication hole (73);
A suction roll 74 wound on the first roll 75 and wound on a second roll 76 via a third roll 77;
A ratchet 78 that is provided on the second roll 76 and rotates the second roll 76 as it is rotated to wind the adsorption roll 74; And
And a buoyant body (79) connected to the ratchet (78) and rotating the ratchet (78) as it is lifted and lowered according to the level of the initial storm that has flowed into the adsorption tank main body (71)
The filtration tank (B)
(10) having an inlet (11) and an outlet (12) for introducing and discharging initial storages respectively on the front and rear surfaces;
The inner space of the main body 10 is divided into an upper space S1 in which the discharge port 12 is located and a lower space S2 in which the inlet 11 is located, A filter medium (20) for filtering pollutants contained in the initial rainwater flowing into the inlet (11);
A backwash discharge hole 13 formed in a lower space S2 defined by the filter medium 20 and formed on a side surface of the main body 10;
A gate 30 which is provided in the main body 10 and is rotated around a hinge axis 31 on the upper side of the inlet 11 to open and close the inlet 11; And
And a closure member 40 provided integrally or separately on the water gate 30 and opening and closing the back wash water discharge hole 13 in conjunction with rotation of the water gate 30,
As the flow rate of the initial storm that flows into the main body 10 of the filtration tank B is reduced, the water gate 30 is rotated by its own weight to close the inlet 11 and, at the same time, The discharge hole 13 is opened so that the abundant material in the upper space S1 is sucked toward the backwash discharge hole 13 in the lower space S2 and the pollutant adsorbed on the filter material 20 is automatically cleaned An early stormwater treatment system capable of automatic backwashing.


delete The washing machine according to claim 1, wherein one end of a backwashing discharge pipe (81) for discharging an initial storm used for backwashing is provided in the backwash discharge hole (13) of the filtration tank (B) And the other end is connected to an external storage tank (80).

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