KR20160107382A - Apparatus for treating incipient rainwater - Google Patents

Abstract

The present invention relates to an initial rainwater treating device. The initial rainwater treating device comprises: a pretreatment tank having a screen installed inside, wherein an inflow pipe is formed on one side and a first connection unit is formed on the other side; a falling water tank connected to the pretreatment tank by the first connection unit and having a second connection unit formed at a position which is lower than the position of the first connection unit; a filtering water tank connected to the falling water tank by the second connection unit and having a third connection unit formed on the opposite side to the second connection unit, wherein the filtering water tank is formed on the inner side to be horizontal to the ground and includes a filter installed at a higher position than that of the second connection unit and a static water level valve formed at the third connection unit; a storage water tank connected to the filtering water tank by the third connection unit and having a discharge pipe on the opposite side of the third connection unit, wherein the storage water tank has a back washing pump formed inside; and a stagnant water tank formed in the lower part of the pretreatment tank and having a fourth connection unit on one side, wherein the stagnant water tank is connected to the storage water tank by the fourth connection unit and has a pneumatic valve formed on the fourth connection unit. The initial rainwater treating device can minimize a pump necessary for back washing and energy required for the back washing and can provide an improved back washing effect.

Description

[0001] APPARATUS FOR TREATING INCIPIENT RAINWATER [0002]

The present invention relates to an early stormwater treatment apparatus, and more particularly, to an initial stormwater treatment apparatus capable of minimizing non-point pollution and automatically supplying filtered water according to a level during backwash (backwash) using filtered water will be.

In general, water pollution sources are classified into point pollution sources and nonpoint pollution sources. Point sources are defined as sources and causes of pollution sources such as domestic sewage and factory wastewater. Nonpoint sources are those where sources are scattered widely and it is difficult to specify the source and cause. Other sources of water pollution include untreated effluent (INFILTRATION), inflow (INFLOW), and combined sewer overflow (COMBINED SEVER OVERFLOWS).

These untreated effluent and nonpoint pollution sources have become the main cause of water pollution by flowing into the public waters such as rivers and groundwater as well as initial rainfall during rainfall. Accordingly, an early stormwater treatment apparatus has been used to more effectively cope with the initial storm and to protect the river ecosystem.

A conventional early stormwater treatment apparatus is disclosed in Patent Document 1, and FIG. 1 is a perspective sectional view of a conventional initial stormwater treatment apparatus. Referring to FIG. 1, a conventional initial good quality treatment apparatus includes a pretreatment tank 2 in which an inlet pipe 1 is formed; A filtration water tank (3) communicating with the pretreatment tank; A backwash water tank (4) for collecting the stormwater filtered by the filtration water tank (3); And a discharge pipe (5) for allowing natural discharge of the storages stored in the backwash water tank (4).

This conventional early stormwater treatment apparatus collects the storm that has been primarily filtered in the filtration water tank 3 in the backwash water tank 4 and uses the stormwater collected in the backwash water tank 4 for backwashing so that separate backwash water and backwash water A supply vehicle is not required and the cost saving effect can be achieved.

However, in the conventional early stormwater treatment apparatus, the upflow is filtered and the filtered stormwater is used for backwashing. However, since the stormwater stored in the backwash water tank 4 is simply discharged by the backwash pump and used for backwashing, And even if one backwash pump is used, there is a problem in that the energy consumption is increased because there is a lot of power to be used.

KR 10-1242275 B1 2013. 03. 05.

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 an initial excellent treatment device capable of minimizing a pump used in backwashing and minimizing energy used in backwashing, .

In order to solve the above problems, the present invention provides an initial quality aeration apparatus, comprising: a pre-treatment tank in which an inlet pipe is formed at one side, a first connection is formed at the other side, and a screen is installed therein; A dropping tank communicating with the pretreatment tank through the first connection port and having a second connection port formed at a lower position than the first connection port; A third connection port is formed on the opposite side of the second connection port, and a filter medium is installed at a position higher than the second connection port, A filtration water tank in which an underwater valve is formed; A storage tank communicating with the filtrate water through the third connection port, a discharge pipe formed on the opposite side of the third connection port, and a backwash pump formed therein; And a static water tank formed at a lower portion of the pretreatment tank and having a fourth connection port formed at one side thereof and communicating with the storage tank by the fourth connection port and having a pneumatic valve formed at the fourth connection port. .

Since the initial quality treatment apparatus according to the present invention is capable of backwashing using gravity due to the above technical characteristics, it is possible to minimize the pump required for backwashing and minimize the energy required for backwashing, The backwash in the filter medium, the backwash in the upper part of the filtration tank, and the backwash can be performed more cleanly through the backwash three times.

FIG. 1 is a perspective view of a conventional early stormwater treatment apparatus
Fig. 2 is a plan view of the initial quality treatment apparatus according to the present invention. Fig.
3 is a cross-sectional view of an initial good treatment apparatus according to the present invention
Fig. 4 is a plan view showing the flow of excellent rainfall
Fig. 5 is a cross-sectional view showing the flow of stormy rainfall
6 and 7 are cross-sectional views of an initial good treatment device according to the present invention at the end of rainfall
Fig. 8 is a plan view of the initial good treatment apparatus according to the present invention at the time of back washing
Figs. 9 and 10 are cross-sectional views of an initial good treatment apparatus according to the present invention,
11 is a cross-sectional view according to another embodiment of the initial good treating apparatus according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown.

Fig. 2 is a plan view of an initial good quality treatment apparatus according to the present invention, and Fig. 3 is a sectional view of an initial good quality treatment apparatus according to the present invention. Referring to FIG. 2 and FIG. 3, the initial stormwater treatment apparatus according to the present invention includes a pretreatment tank 10 in which an inlet pipe 12 through which initial storms are introduced is formed at one side. A falling water tank 20 communicating with the pretreatment tank 10; A filtration water tank (30) communicating with the drop water tank (20) and having a filter medium (34) installed therein; A storage water tank 40 communicating with the filtration water tank 30 and having a discharge pipe 42 and a backwash pump 44 formed therein; And a stagnant water tank 50 formed at the lower portion of the pretreatment tank 10 and communicating with the storage water tank 40. The pretreatment tank 10, the falling water tank 20, the filtration water tank 30, 40 and the congestion water tank 50 are separated and partitioned by the partition walls.

The pretreatment tank 10 is a component for introducing stormwater through the inflow pipe 12 formed at one side to perform a primary filtration or the like. The screen 16 is installed in the interior of the pretreatment tank 10 so that primary filtration can be performed. The screen 16 may be installed obliquely from the bottom of the pretreatment tank 10 as shown in FIG. 3 to filter coarse contaminants or precipitate contaminants contained in the initial storm.

Such a screen 16 is preferably made of a corrosion resistant material such as stainless steel, high strength polyvinyl chloride, glass fiber reinforced plastic and polypropylene, and its size and shape can be variously changed depending on the excellent characteristics of the installation area. The primary filtered through the screen 16 is transferred to the dropping tank 20 through the first connection port 14 formed on the other side of the inflow pipe 12.

The dropping water tank 20 is a component formed between the pretreatment tank 10 and the filtration water tank 30. The dropping water tank 20 is a component formed between the pretreatment tank 10 and the filtration water tank 30, To the filtration water tank (30).

A water flow meter water tool 24 may be formed on one side of the drop water tank 20 to bypass the overflow water. This water flow water tool 24 is formed on the partition wall between the drop water tank 20 and the filtration water tank 30 . The overflow water guide 24 may be formed with an overflow water induction pipe (not shown), and the overflow water may be discharged to the outside through the overflow water induction pipe.

The filtration water tank 30 is a constituent element for filtering the storm water introduced through the second connection port 22 formed with a filter medium 34 therein. In the pretreatment tank 10, the stormwater is primarily filtered.

The filter material 34 formed in the filtration water tank 30 is formed to extend over the whole of the filtration water tank 30 in a direction parallel to the paper surface. The filter material 34 is formed at a higher position than the second connection hole 22. Therefore, the foreign matter introduced through the second connection port 22 moves in the upper surface direction from the lower surface of the filter medium 34, and the foreign matter filtered by the filter medium 34 is concentrated on the lower surface of the filter medium 34.

The clearance passing through the filter material 34 is moved to the storage water tank 40 through the third connection port 32 formed on the opposite side of the second connection port 22. The clearance valve 36 is formed in the third connection port 32 do. The water level valve 36 includes a floating body 36a formed of a hollow body and is automatically opened or closed according to a water level. The water level of the water tank provided with the water level valve 36 is low When the ground valve is open and the water level is high, the valve is closed. That is, when the water level of the filtration water tank 30 is low, the valve is opened and when the water level of the filtration water tank 30 is high, the valve is closed. The characteristics of such a four-level valve 36 may be used for backwash, as described in more detail below.

An air supply passage 38 may be formed in the inner upper portion of the filtration water tank 30 and the filter medium 34 so that the blower 60 formed outside the filtration water tank 30 operates to blow air into the air supply passage 38 ). The air supplied to the air supply passage 38 is finally discharged through an injection opening 39 formed at a predetermined distance from the air supply passage 38. In this way, air can be injected and used for backwashing. In addition, when the backwash pump 44 is operated, the rainwater stored in the water storage tank 40 may be supplied to the air supply passage 38, and water and air may be simultaneously sprayed through the injection port 39 to be used for backwashing.

At this time, it is preferable that the jetting port 39 formed in the air supply passage 38 in the filter medium 34 is formed in the direction of the underground. It is effective that the injection port 39 is formed so as to be directed to the lower direction of the filter material 34, that is, the lower portion of the filter material 34 because foreign materials are concentrated on the lower portion of the filter material 34 because the filter material 34 filters the upward flow.

The storage tank 40 is a component communicating with the filtration water tank 30 through the third connection port 32. The storage tank 40 stores a part of the stormwater introduced through the third connection port 32 and partly stores the third connection port 32, Through a discharge pipe (42) formed on the opposite side of the discharge pipe (42). The rainwater stored in the water storage tank 40 can be used for backwashing. By using the stormwater stored in the water storage tank 40 for backwashing, no separate washing water is required, thereby reducing the maintenance cost.

A backwash pump (44) is formed in the storage tank (40), and the backwash pump (44) is used for backwashing. By using the backwash pump 44, the stormwater can be supplied to the filtration water tank 30.

The stagnant water tank 50 is a component formed at a lower portion of the pretreatment tank 10 and communicates with the filtration water tank 30 by a fourth connection port 52 formed at one side. That is, the congestion water tank 50 is communicated with the filtration water tank 30 through the filtration water tank 30 and the fourth connection port 52 separated from the partition wall and formed on the partition wall. Therefore, the fourth connection hole 52 may be formed in the shape of a hole, but it is preferably formed in the shape of a pipe as shown in FIG. Since the congestion water tank 50 is formed in the lower part of the pretreatment tank 10, the upper part can be used as the pretreatment tank 10 and the lower part can be used as the congestion water tank 50 to minimize the site area.

A pneumatic valve 54 may be formed in the fourth connection port 52. The pneumatic valve 54 is generally characterized in that the opening and closing speed of the valve is faster than that of other types of valves (for example, a motor-operated valve). The characteristics of the pneumatic valve 54 with such a valve opening / closing speed can be used for backwashing, which will be described in more detail below.

The congestion water outlet pump 56 is formed in the congestion water tank 50. The congested water outlet pump 56 can be used to discharge the collected water to the congestion water tank 50 after backwashing completion.

The blower 60 is a component formed outside the filtering water tank 30, and the blower 60 operates to supply air to the air supply passage 38.

The inspection port 70 is a component formed at the top of each of the pretreatment tank 10, the falling water tank 20, the filtration water tank 30, the storage water tank 40 and the stagnant water tank 50, People can enter.

FIG. 4 is a plan view showing the flow of stormy rainfall, and FIG. 5 is a sectional view showing the flow of stormy rainfall. Referring to FIGS. 4 and 5, the stormwater flows through the inflow pipe 12, and the inflowing stormwater is filtered once through the screen 16 in the pretreatment tank 10, And moves to the falling water tank 20 through the connecting port 14. [ The rainwater of the falling water tank 20 is transferred to the filtration water tank 30 through the second connection port 22 and filtered once again through the filter medium 34. The filtered rainwater passes through the third connection port, ). When the storable water tank 40 starts to become stormy and the water level reaches the level where the discharge pipe 42 is formed, natural discharge is started through the discharge pipe 42.

As described above, the initial stormwater treatment apparatus according to the present invention can reduce the non-point pollution by filtering the initial stormwater, and can store a part of the filtered water to control the flow of the initial stormwater during rainfall.

FIG. 6 is a cross-sectional view of an initial stormwater treatment apparatus according to the present invention at the end of rainfall. Referring to FIG. The initial stormwater treatment apparatus according to the present invention forms a water level as shown in FIG. 6 after the rainfall is terminated and natural discharge. At this time, the water in the pre-treatment tank 10, the falling water tank 20, the filtration water tank 30, and the storage water tank 40 is filled with water, while the water in the congestion water tank 50, do.

When air is supplied to the air supply passage 38 formed in the filter medium 34 in this state, air discharged to the injection port 39 formed in the lower portion of the filter medium 34 as shown in FIG. The foreign matter is desorbed from the filter material 34 and falls down to the lower portion of the filtration water tank 30 and the air discharged to the jet opening 39 is lighter than water and rises above the water. And the foreign matter formed on the upper portion of the filter material 34 is removed from the filter material 34 and is raised toward the water surface.

Since the initial quality water treatment apparatus according to the present invention filters the upward flow, most of the foreign matter is formed in the lower portion of the filter medium 34, and only a small amount of foreign matter is formed in the middle portion and the upper portion of the interior of the filter medium 34. 7, the filtration water tank 30 is provided with a fourth connection port (not shown), as shown in FIG. 7, in order to surely remove the foreign matter formed on the water surface side by being separated from the intermediate portion inside the filter medium 34 and the upper portion of the filter medium 34, And a floating water discharge pipe (58) communicating with the filter medium (52) and spaced apart above the filter medium (34) is formed. A plurality of float oil tools 58a are formed on the float discharge pipe 58 so as to face the water surface at a predetermined interval. A float discharge valve (58b) is formed on the side of the fourth connection port (52) of the float discharge pipe (58).

By the configuration of the float discharge pipe 58, the floating matters formed on the water surface side of the filtration water tank 30 can be removed. When the float discharge valve 58b is opened to remove the float formed on the water surface side of the filtration water tank 30, the float on the water surface side of the filtration water tank 30 flows along with the water through the float oil tool 58a to the float discharge pipe 58 And the suspended matter is finally discharged to the stagnant water tank 50 via the fourth connecting port 52. [

FIG. 8 is a plan view of an initial good quality treatment apparatus according to the present invention at the time of backwashing, and FIGS. 9 and 10 are cross-sectional views of an initial quality improvement treatment apparatus according to the present invention at the time of backwashing. 8 to 10, the operation and the flow of the excellent storability of the initial stormwater treatment apparatus will be described.

When the pneumatic valve 54 is opened in the state shown in FIG. 6 after the end of rainfall, the gravity of the filtration water tank 30 moves to the stagnant water tank 50 at a high speed through the fourth connection port 52. In this way, the filter medium 34 can be cleaned by lowering the height of the filtration water tank 30 at a high speed. Foreign matter is distributed to the lower portion of the filter material 34 because the filter material 34 filters the upstream flow during the rainfall so that the foreign matter of the lower portion of the filter material 34 can be effectively removed have. Although a fourth connection port 52 is shown in the drawing, a plurality of fourth connection ports 52 may be formed as necessary, and a pneumatic valve 54 may be formed in each of the fourth connection ports 52.

By thus positioning the stagnant water tank 50 at a position lower in height than the filtration water tank 30 and adjusting the connection between the filtration water tank 30 and the stagnant water tank 50 (fourth connection hole 52) by the pneumatic valve 54 The natural force (gravity) can be utilized, which minimizes the pump needed for backwash and minimizes the power used for the pump.

Although the conventional early stormwater treatment apparatus is also used for backwashing using the filtered stormwater, the gravity is used to descend the stormwater, so that the filtration material in the filtration water tank 3 is not simply washed, , It is necessary to use a large number of backwash pumps because it is used for backwashing by using backwash pump. Even if one backwash pump is used, energy consumption is increased because there are many motions to be used.

However, since the initial stormwater treatment apparatus according to the present invention uses gravity to descend stormwater and uses it for backwashing, it is possible to minimize the pump required for backwashing and to minimize the power used for the pump, thereby reducing energy used in backwashing have.

The initial stormwater treatment apparatus according to the present invention uses an underwater level valve 36 so that the water level of the filtration water tank 30 is lowered to lower the water level from the storage water tank 40 to the filtration water tank 30 You can continue to supply the storm, and you can use the storm so supplied for backwash.

6, the initial quality water treatment apparatus according to the present invention can be backwashed by using a backwash pump 44. In this case, the air is supplied to the air supply passage 38 formed in the filter medium 34, The water is supplied to the air supply passage 38 formed at the upper end of the filtration water tank 30 using the backwash pump 44 as shown in FIG. 10, 39) can be sprayed with water and air at the same time.

FIG. 11 is a cross-sectional view of another embodiment of the initial good treatment apparatus according to the present invention. In the initial poor treatment apparatus according to the present invention, a partition 35 may be formed in the filter medium 34 in a direction perpendicular to the ground. As shown in FIG. 11, the partition 35 may be formed with a plurality of partition 35 spaced apart from each other by a predetermined distance, and the middle partition 35 may be formed to have the highest height.

When the flow rate is small, the flow is as shown by the arrow in Fig. 11, and the flow of the storm is slowed down and the settling time of the foreign matter (contaminant) becomes long. Therefore, Most of the foreign matter is filtered. Therefore, most of the foreign matter is formed in the lower portion of the right portion of the filter material 34. At this time, because the fourth connection port 52 formed with the pneumatic valve 54 is located only on the left side of the filter material 34, the flow-rate deflecting phenomenon occurs toward the fourth connection port 52 during backwashing and water flows as shown in FIG. 11B .

That is, when the flow rate is small, most of the foreign matter is filtered at the right portion of the filter material 34. In the backwashing process, since the water is intensively lowered at the left portion of the filter material 34, Can occur. However, as shown in FIG. 11A, when the partition 35 is formed in the initial quality improvement treatment apparatus according to the present invention, the filtration material 34 can be efficiently cleaned by preventing the flow- .

In addition, in the state in which the partition 35 is installed, a floating material discharge pipe 58 is formed and a floating material inlet 58a may be formed in each of the spaces defined by the partition 35. [ In the case where the partition 35 is installed, the partition 35 restricts the flow of the outflow. Therefore, when the float inlet port 58a is formed at the central portion of the partitioning area of the partition 35, (Foreign matter formed near the water surface) to the float inlet port 58a more effectively than before the flocculent inlet port 58a is formed.

As described above, since the initial quality treatment apparatus according to the present invention can be backwashed using gravity due to its structural characteristics, it is possible to minimize the pump required for backwashing, minimize the energy required for backwashing, 30) Backwash due to descent of stormwater, backwash in the filter medium 34, and backwash at the top of the filtration water tank 30 can be performed more cleanly through three backwashes.

10: Pretreatment tank 12: Inflow pipe
14: first connection port 16: screen
20: Falling water tank 22: Second connection port
30: Filtration water tank 32: Third connection port
34: filter medium 35: partition
36: water purification valve 38: air supply flow path
39: jetting port 40: storage tank
42: discharge pipe 44: backwash pump
50: congestion water tank 52: fourth connecting port
54: Pneumatic valve 56: Condensate water rejection pump
58: Suspended water discharge pipe 58a: Suspended water inlet
58b: float discharge valve 60: blower
70: Checkpoint

Claims (6)

A pretreatment tank 10 in which an inlet pipe 12 is formed at one side, a first connection port 14 is formed at the other side, and a screen 16 is installed therein;
A dropping tank 20 communicating with the pretreatment tank 10 through the first connection port 14 and having a second connection port 22 formed at a position lower than the first connection port 14;
A third connection port 32 communicating with the dropping water tank 20 through the second connection port 22 and formed on the opposite side of the second connection port 22 and horizontally formed in the interior of the second connection port 22, A filtration water tank 30 in which a filter medium 34 is installed at a position higher than that of the filtration tank 22 and a water level valve 36 is formed in the third connection port 32;
A storage tank 40 communicating with the filtration water tank 30 through the third connection port 32 and having a discharge pipe 42 formed on the opposite side of the third connection pipe 32 and a backwash pump 44 formed therein, ); And
A fourth connection port 52 formed at a lower portion of the pretreatment tank 10 and communicated with the filtration water tank 30 by the fourth connection port 52 and a pneumatic valve And a stagnant water tank (50) in which a water tank (54) is formed.
The method according to claim 1,
Further comprising a plurality of partitions (35) spaced apart from each other by a predetermined distance above the filter material (34).
The method according to claim 1,
An air supply passage 38 is formed at the upper end of the inside of the filtration water tank 30 and inside the filter material 34,
And an air blower (60) provided outside the filtration water tank (30) supplies air to the air supply passage (38).
The method of claim 3,
Wherein an injection port (39) is formed in an air supply passage (38) formed in the filter medium (34), and the injection port (39) is formed in an under direction.
The method according to claim 1,
The filtration water tank 30 further includes a floating water discharge pipe 58 communicating with the fourth connection pipe 52 and spaced apart from the filter medium 34 by a predetermined distance,
A plurality of float oil tools 58a are formed on the float discharge pipe 58 so as to face the water surface at a predetermined interval and a float discharge valve 58b is formed on the fourth connection port 52 of the float discharge pipe 58 And the initial good treatment apparatus.
The method according to claim 1,
Characterized in that a stagnant water exclusion pump (56) for discharging stagnant water is formed in the stagnant water tank (50).

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