KR100869312B1 - Apparatus for purificating polluted water by flotation and sedimentation - Google Patents

Abstract

The present invention relates to a sewage floating separation tank for removing and purifying contaminants as suspended solids by using fine bubbles in contaminated water. A separation chamber connected to the sewage inlet and provided with some of the suspended matter in the sewage flowing through the sewage inlet and being partially settled; A floating object collection part connected to an upper end of the separation chamber and configured to collect the floating floating material by overflowing the separation chamber; A sediment outlet connected to the separation chamber for discharging the precipitate precipitated in the separation chamber; A filtration chamber disposed below the separation chamber and provided with a filtration material for filtering filthy water introduced into the separation chamber; A connection flow path connecting between the filtration chamber and the separation chamber so that sewage in the separation chamber can be supplied into the filtration chamber; A lower end connected to the filtration chamber and an upper end open to guide an upward flow of the filtered water in the filtration chamber; And a treatment water discharge passage provided to receive the water passing through the upward passage and discharge it to the outside.

According to the present invention, the water quality of the treated water can be improved and treated stably, and there is no need to use a scum remover or scraper, so that the maintenance of the sewage flotation treatment tank is easy and maintenance costs are low, and the lower side of the separation chamber By arranging fruits, the overall installation space of the sewage flotation tank can be reduced.

Description

Apparatus for purificating polluted water by flotation and sedimentation}

The present invention relates to a sewage flotation treatment tank for removing and purifying suspended solids in sewage, which can be treated with a solid-liquid separator and a filter medium installed in the flotation separation tank, and can separate and discharge the float and treated water. It is possible to discharge the suspended solids floating on the upper surface of the water or sediment deposited on the floor without using scum remover or scraper, so it is easy to maintain and the cost is low, and the overall installation space is reduced. It relates to a sewage flotation treatment tank.

As a method of removing and purifying suspended matter in sewage, it can be broadly divided into solid liquid separation method, physicochemical treatment method, biological treatment method and heat treatment method according to the type and contents of the sewage.

In order to separate and recover the suspended matter in the sewage, a solid liquid separation method is frequently used. The solid liquid separation method includes a gravity sedimentation method, a flotation method, and a filtration method.

Gravity sedimentation is gravity and is the most widely used because of low processing cost and easy operation management. However, this gravity sedimentation method has a disadvantage in that it is difficult to use in places where the sedimentation separation efficiency of suspended solids depends on the area of the sedimentation tank, and is limited by the installation area of the treatment apparatus.

Flotation includes spontaneous injuries that naturally collect susceptible injuries on the surface, and pressure injuries (DAFs) that use the upward force of microbubbles in water generated by decompression of pressurized sewage. However, the high pressure separation method is mainly used. These flotation methods are used to separate oil components such as oil and grease in sewage, and to concentrate and separate sludge that is difficult to settle.

The principle of the Dissolved Air Flotation (DAF) is as follows. First, after dissolving air in the influent sewage to be treated or the circulation water for the return circulation under pressure, and lowering the pressure, the air dissolved in the influent sewage or the circulation water becomes a plurality of fine bubbles and rises. At this time, since the bubble adheres around the float in the water to reduce the specific gravity of the float, the float floats on the water. Thus, the float float (hereinafter referred to as 'float') may be removed.

In general, in the sewage flotation treatment tank using the solid liquid separation method, it is common to use the gravity sedimentation method and the pressure flotation method described above, and the filtration method may be used in parallel to further improve the water purification function.

In the conventional sewage flotation tank, a scum skimmer is used to remove the surface of the floating surface by the pressure flotation method, and a scraper is used to remove the deposit that has settled on the floor. have.

However, since the scum remover or scraper uses a separate power, it is not easy to maintain, there are many disadvantages in terms of management cost, and there are disadvantages in that noise is generated during use.

In addition, when the gravity sedimentation method, the pressure flotation method, and the filtration method are conventionally applied, the sedimentation tank and the filtration tank are often provided separately, and there is a problem in that the overall installation area of the sewage flotation separation tank is widened.

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is to provide a sewage flotation treatment tank with improved structure so that the maintenance is easy, the management cost is low, and the overall installation space is reduced. to be.

Sewage floatation treatment tank according to the present invention to achieve the above object is a wastewater inlet; A separation chamber connected to the sewage inlet and provided with some of the suspended matter in the sewage flowing through the sewage inlet and being partially settled; A floating object collection part connected to an upper end of the separation chamber and configured to collect the floating floating material by overflowing the separation chamber; A sediment outlet connected to the separation chamber for discharging the precipitate precipitated in the separation chamber; A filtration chamber disposed below the separation chamber and provided with a filtration material for filtering filthy water introduced into the separation chamber; A connection flow path connecting between the filtration chamber and the separation chamber so that sewage in the separation chamber can be supplied into the filtration chamber; A lower end connected to the filtration chamber and an upper end open to guide an upward flow of the filtered water in the filtration chamber; It is characterized in that it comprises a; the treated water discharge passage provided to receive the water passing through the upward passage to discharge to the outside.

As described above, according to the present invention, the contaminants of the inflowed water are subjected to flotation by microbubbles, solid-liquid separation by the solid-liquid separator, and filtration by the filter medium. The water quality can be improved and treated stably, and there is no need to use scum remover or scraper, so it is easy to maintain and maintain the sewage flotation tank, and the management cost is low. The overall installation space of the separation treatment tank is reduced.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a perspective view of a sewage flotation treatment tank according to an embodiment of the present invention, Figure 2 is a cross-sectional view II-II line of the sewage flotation treatment tank shown in FIG. 3 is a cross-sectional view taken along line III-III of the sewage flotation separation tank shown in FIG. 1, and FIG. 4 is a plan view of the sewage flotation separation tank shown in FIG. 5 is an enlarged view of a portion V of the sewage flotation treatment tank shown in FIG. 3.

1 to 5, the sewage flotation treatment tank 100 according to a preferred embodiment of the present invention is an apparatus for removing and purifying suspended matter in the sewage. The apparatus includes a separation chamber 10, a filtration chamber 20, a connection passage 30, an upward passage 40, a treatment water discharge passage 50, and a control plate 60.

The separation chamber 10 is connected to the sewage inlet 11 to which the valve 111 is attached, and external sewage flows into the separation chamber 10 through the sewage inlet 11. The sewage introduced from the sewage inlet 11 may be one in which air is dissolved by a pressure pump, or may be sewage without any treatment.

The separation chamber 10 is provided to separate the sewage and the float so that some of the suspended matter in the sewage rises and some settles. The separation chamber 10 includes a precipitate guide portion 14 and a precipitate receiving groove 15.

The sediment guide 14 is provided at the bottom of the separation chamber 10, the sediment guide 14 is greatly narrowed more than at least 20 ~ 30 degrees toward the bottom of the separation chamber 10 It consists of cone shape.

The precipitate receiving groove 15 extends downward from the lower end of the precipitate guide 14. In the deposit accommodating groove 15, a precipitate S precipitated in the separation chamber 10 is accumulated.

The sediment receiving groove 15 is connected to the sediment discharge port 13 is coupled to the valve 131 for discharging the sediment (S) to the outside.

The floating object collecting portion 12 is connected to the upper end of the separation chamber 10. Float floating on the water surface (H) of the separation chamber 10, that is, the floating material (F) overflows the separation chamber (10) is collected separately in the flotation collecting part 12. In the present embodiment, the upper end of the separation chamber 10 is open, and the floating object F flows through the open upper end. The float collecting part 12 is coupled to the valve 121 for discharging the wound (F) to the outside.

The filtration chamber 20 is for filtering the sewage filtered primarily from the separation chamber 10. The filtration chamber 20 is disposed below the separation chamber 10. That is, the separation chamber 10 is disposed above the filtration chamber 20. Therefore, the separation chamber 10 and the filtration chamber 20 can be easily disposed in a narrow space compared to the case of separately installed.

The filter medium 21 for filtering wastewater is provided in the filtration chamber 20. The filter medium 21 is made of, for example, polyurethane, activated carbon, or the like, and has a particle shape so that it can flow with the sewage. The filter chamber 20 may be provided with a check hole (not shown) for maintenance of the filter medium 21.

The connection passage 30 is a passage connecting the separation chamber 10 and the filtration chamber 20 so that sewage in the separation chamber 10 may be supplied into the filtration chamber 20. In this embodiment, a pair of said connection flow path 30 is provided, and each connection flow path 30 extends vertically from the center part of the side wall of the separation chamber 10 to the lower part of the filtration chamber 20.

The solid-liquid separator 31 is coupled to an end portion of the connection channel 30 connected to the separation chamber 10, that is, an upper end of the connection channel 30. The solid-liquid separator 31 is intended to allow the passage of water in the sewage from the separation chamber 10 to the filtration chamber 20 and to suppress the passage of suspended matter.

A plurality of holes 311 are formed in the solid-liquid separator 31, and each hole 311 of the solid-liquid separator 31 passes through the hole 311 as shown in FIG. 5. The diameter is gradually enlarged toward the downstream side of the fluid flow. The shape of the hole 311 is to effectively prevent the hole 311 is attached to the inner surface of the hole 311 when the suspended matter in the sewage is ever passed.

In order to effectively prevent the suspended matter in the sewage flowing into the separation chamber 10 through the sewage inlet 11 to pass through the hole 311 of the solid-liquid separation plate 31, the plate-shaped guide plate 32 The solid-liquid separator 31 is arranged side by side. The guide plate 32 functions to guide the sewage in the separation chamber 10 to flow in the vertical direction of the separation chamber 10 in parallel with the solid-liquid separator 31.

The upward passage 40 guides the upward flow of the filtered water in the filtration chamber 20. The lower end of the upward passage 40 is connected to the filtration chamber 20, and the upper end of the upward passage 40 is open.

The upper portion of the filtration chamber 20 is coupled to the porous plate 22 in which a plurality of holes 221 are formed. The porous plate 22 serves to prevent the filter medium 21 from escaping into the upward passage 40.

The treated water discharge passage 50 is provided to receive the water passing through the upward passage 40 from the filtration chamber 20 and discharge it to the outside. This water is discharged to the outside through the valve 501 coupled to the treated water discharge passage (50).

The control plate 60 is coupled to the upper end of the treated water discharge passage 50, and the position of the up and down direction is combined to adjust the level of the sewage in the separation chamber 10 to a desired height. The water passing through the upward flow passage 40 flows over the control plate 60 and is collected in the treated water discharge passage 50.

Hereinafter, an example of how to use the sewage flotation separation tank 100 having the above-described configuration will be described. In this embodiment, a case in which bubbles are generated by dissolving air in sewage using the pressure flotation method described in the background art will be described.

When the valve 111 coupled to the sewage inlet 11 is opened, the sewage in which air is dissolved by the pressure pump flows into the separation chamber 10. After the sewage flows in this way, the sewage is finally filtered in the filtration chamber 20 and then discharged to the outside, and the suspended matter in the sewage is separated into sediment (S) and flotation (F) and discharged to the outside, respectively. do.

 First, the flow of sewage introduced into the separation chamber 10 will be described in detail. As shown by the arrow in FIG. 3, the sewage introduced into the separation chamber 10 through the sewage inlet 11 rises from the bottom of the separation chamber 10, and the floating material ( F) and sediment (S) are separated from the sewage. The sewage in which the wound material F and the precipitate S are first filtered is introduced into the connection flow path 30 through the holes 311 of the solid-liquid separator 31. Sewage reaches the lower part of the filtration chamber 20 through the connection flow path 30, and is filtered while being mixed with the filter medium 21.

The sewage filtered in the filtration chamber 20 is discharged through the holes 221 of the porous plate 22, as shown by the arrow in FIG. 2, and through the upward passage 40, the control plate. Overflow of the 60 is collected in the treated water discharge passage (50). The collected waste water is discharged to the outside through the valve 501 coupled to the treated water discharge passage 50.

 Next, a detailed description will be given of the generation process and the movement path of the floating matter (F) in the sewage flow into the separation chamber 10 as follows. When the sewage is exposed to atmospheric pressure, the air dissolved in the sewage becomes a plurality of fine bubbles and rises above the surface H by being combined with some of the suspended matter in the sewage. The float floating on the water surface (H), that is, the floating material (F) is accumulated on the water surface (H), and when a certain amount is accumulated over the separation chamber 10 is collected separately in the wound collector 12. The collected wounds F are discharged to the outside by opening the valve 121 coupled to the wound collection unit 12.

The discharge amount of the floating object F may be adjusted by adjusting the water level of the separation chamber 10. When the water level of the separation chamber 10 increases, the amount of the floating material F that overflows the separation chamber 10 increases, and when the water level of the separation chamber 10 decreases, the floating material F The amount of monthly overflows decreases.

The water level of the separation chamber 10 is adjusted by the position of the up and down direction of the control plate 60. When the control plate 60 is raised, the level of the treated water discharge passage 50 is increased, and as a result, the level of the separation chamber 10 is increased. As a result, when the control plate 60 is raised, the discharge amount of the injuries F is increased, and when the control plate 60 is loosened, the discharge amount of the injuries F is reduced.

In the present embodiment, unlike the conventional invention, without using a scum skimmer that requires a separate power to remove the wound (F) floated on the water surface (H), the wound collector 12 Collect and discharge the wound (F) by the), and simply adjust the discharge of the wound (F) by adjusting the position of the upper and lower direction of the control plate 60 in accordance with the amount of the wound (F). Since it is possible, the maintenance of the sewage flotation treatment tank 100 is easy and there is an advantage that the management cost is low.

Finally, the generation process and the movement path of the sediment (S) in the sewage introduced into the separation chamber 10 in detail as follows. Some of the suspended solids in the sewage introduced into the separation chamber 10 are heavier than water and thus sink to the bottom of the separation chamber 10 by gravity. The thus settled sediment (S) is slowly descending along the cone-shaped sediment guide portion 14 is collected in the center of the separation chamber 10 and is accumulated in the deposit receiving groove (15). The precipitate (S) accumulated in this way is discharged to the outside through the precipitate outlet (13). When the sewage flotation treatment tank 100 is used, the valve 131 attached to the sediment discharge port 13 is locked, and the valve 131 is opened only when the sediment S is discharged.

In the present embodiment, unlike the conventional invention, in order to remove the sediment (S) settled on the floor, without using a scraper (scraper) that requires a separate power, the cone-shaped sediment guide portion 14 and the By simply collecting the precipitate (S) using the sediment receiving groove 15 and discharged through the sediment discharge port 13, it is easy to maintain and maintain the sewage flotation separation tank 100 and the management cost is low have.

Since the sewage (F) and sediment (S) is filtered in the separation chamber 10, the filthy water is filtered again in the filtration chamber 20, and thus the filthy water is processed through a multi-step process, so that the more perfect filthy water The advantage is that it can be processed.

Since the filter medium 21 of the filtration chamber 20 is a particle type that can flow with the sewage, there is an advantage that the overall head loss compared to the fixed filter medium.

Although the present invention has been described above, the technical scope of the present invention is not limited to the contents described in the above-described embodiments, and equivalent configurations modified or changed by those skilled in the art may be described. Obviously, it is not beyond the scope of thought.

1 is a perspective view of a sewage flotation treatment tank according to an embodiment of the present invention.

2 is a cross-sectional view taken along the line II-II of the sewage flotation treatment tank shown in FIG.

3 is a cross-sectional view taken along the line III-III of the sewage flotation treatment tank shown in FIG.

4 is a plan view of the sewage flotation treatment tank shown in FIG.

5 is an enlarged view of a portion V of the sewage flotation treatment tank shown in FIG. 3.

＊ Explanation of symbols on major part of drawing ＊

100: sewage floating separation tank 10: separation chamber

11: Sewage inlet 12: Wound collection part

13: sediment outlet 14: sediment guide

15: sediment receiving groove 20: filtration chamber

21: filter medium 30: connection flow path

31: solid-liquid separator 32: guide plate

40: upward flow passage 50: treated water discharge passage

60: throttle F: injuries

S: Sediment H: Water Surface

Claims (4)

Sewage inlet; A separation chamber connected to the sewage inlet and provided with some of the suspended matter in the sewage flowing through the sewage inlet and being partially settled; A floating object collection part connected to an upper end of the separation chamber and configured to collect the floating floating material by overflowing the separation chamber; A sediment outlet connected to the separation chamber for discharging the precipitate precipitated in the separation chamber; A filtration chamber disposed below the separation chamber and provided with a filtration material for filtering filthy water introduced into the separation chamber; A connection flow path connecting between the filtration chamber and the separation chamber so that sewage in the separation chamber can be supplied into the filtration chamber; A lower end connected to the filtration chamber and an upper end open to guide an upward flow of the filtered water in the filtration chamber; A treatment water discharge passage provided to receive the water passing through the upward passage and discharge the water to the outside; Sewage floatation treatment tank comprising a. The method of claim 1, The upper end of the separation chamber is open, In order to set the water level of the sewage in the separation chamber to the desired height, sewage flotation separation tank further comprises a control plate coupled to the upper and lower positions of the discharge passage in a controlled state. The method of claim 1, The connection flow path is coupled to the end connected to the separation chamber, the solid-liquid separator plate formed with a plurality of holes to allow the passage of water in the sewage from the separation chamber to the filtration chamber and to suppress the passage of the suspended matter, Each hole of the solid-liquid separator is formed so that the diameter gradually expands toward the downstream side of the flow of the fluid passing through the hole. The method of claim 1, The bottom of the separation chamber is provided with a sediment guide portion formed in a cone shape narrowing toward the lower side, and a sediment receiving groove portion extending downward from the lower end of the sediment guide portion to accumulate the sediment, The sewage flotation tank characterized in that the precipitate outlet is connected to the deposit receiving groove.

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