KR200206067Y1 - Waste water treatment tank - Google Patents

Abstract

The present invention relates to a sewage treatment tank, and more specifically, sewage treatment such as sludge and sewage and sewage can be efficiently and quickly separated from sewage in a sewage treatment plant, thereby reducing sewage treatment time and reducing costs. It is about a treatment tank.

According to the present invention, the inlet 22 is formed on one side and the reservoir 20 formed on the outlet 23 on the other side, the reservoir is installed inside the reservoir 20 and connects the inlet 22 and the outlet 23 A turbid liquid channel 30 composed of a first channel 32 and a plurality of second channels 33 communicating at right angles to the first channel 32 and a reservoir to be positioned below the turbid channel 30. 20 is provided in the interior and is installed to connect the treated water channel 40, through which the filtered water 46 flows, and the turbid liquid channel 30 and the treated water channel 40, such as sludge from the turbid liquid channel 30. Provided is a sewage treatment tank comprising a porous member (50) for absorbing the filtered water (46) excluding suspended matter by capillary action and discharging it to the treated water channel (40).

Description

Waste water treatment tank

The present invention relates to a sewage treatment tank, and more particularly, it is possible to reduce sewage treatment time by efficiently and efficiently separating suspended matter such as sludge and filtrate from sewage in sewage treatment plant using capillary phenomenon, and reducing cost. It is about the sewage treatment tank which could be made.

Conventional sewage treatment tank is a method of separating the treated water (filtrate) by putting a mixture of sludge and treated water generated by biological treatment in the sewage treatment process into a huge reservoir and sedimenting sludge naturally by gravity over time. Was used.

However, since the sewage treatment tank as described above has to prepare a huge reservoir tank, the production cost of the tank and the initial facility cost are considerably high. There was a relatively large problem.

The present invention is to solve the problems as described above, an object of the present invention is to efficiently separate the suspended solids such as sludge and filtrate in the sewage treatment plant sewage efficiently and quickly to reduce the sewage treatment time It is possible to provide a sewage treatment tank that can reduce costs.

1 is a plan view of the sewage treatment tank according to the present invention

2 is a side sectional view of the sewage treatment tank;

3 is a side cross-sectional view of the water storage tank constituting the sewage treatment tank;

<Description of the symbols for the main parts of the drawings>

20. Reservoir 22. Inlet

23. outlet 30. turbidity

32. The first channel 33. The second channel

40. Canned water 42. Support

50. Porous Member

According to the present invention, the inlet 22 is formed on one side and the reservoir 20 formed on the outlet 23 on the other side, the reservoir is installed inside the reservoir 20 and connects the inlet 22 and the outlet 23 A turbid liquid channel 30 composed of a first channel 32 and a plurality of second channels 33 communicating at right angles to the first channel 32 and a reservoir to be positioned below the turbid channel 30. 20 is provided in the interior and is installed to connect the treated water channel 40, through which the filtered water 46 flows, and the turbid liquid channel 30 and the treated water channel 40, such as sludge from the turbid liquid channel 30. Provided is a sewage treatment tank comprising a porous member (50) for absorbing the filtered water (46) excluding suspended matter by capillary action and discharging it to the treated water channel (40).

Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows.

1 to 2 show an embodiment of the sewage treatment tank according to the present invention, Figure 3 shows a side cross-sectional view of the reservoir constituting the sewage treatment tank. The sewage treatment tank according to the present invention has a reservoir 20 having a predetermined capacity, a turbid liquid channel 30 installed inside the reservoir 20, and a turbid liquid flowing through the turbid liquid, and a treated water located below the turbid liquid channel 30. Furnace 40, and the porous member 50 is installed to connect the turbid liquid channel 30 and the treated water channel 40.

As shown in FIG. 1, the reservoir 20 has an inlet 22 through which a turbid liquid 25 containing sludge or the like is introduced, and an outlet 23 through which the turbid liquid 25 is discharged. ) Is formed. The turbid liquid channel 30 is formed in the reservoir 20, and includes a first channel 32 connecting the inlet port 22 and the outlet port 23 to both ends of the first channel 32. It consists of the several 2nd channel 33 connected in a perpendicular direction, and the turbid liquid 25 flows through these channels 32 and 33. As shown in FIG.

As shown in FIG. 2, the treated water channel 40 is installed at a predetermined interval below the turbid liquid channel 30 in the reservoir 20, and is suspended in sludge such as sludge in the turbid liquid 25. The filtered water 46 excluding the substance flows and is discharged to the treated water outlet 44 provided at one end thereof. In addition, a support part 42 made of an iron mesh is provided below the turbid water channel 30.

The porous member 50 is installed to extend from the middle portion of the turbid liquid channel 30 to the support portion 42, by absorbing the filtrate 46 except for suspended solids such as sludge in the turbid liquid 25 by capillary phenomenon It is discharged to the treated water channel 40. The support 42 supports the turbid liquid channel 30 formed in a lattice shape so as to be positioned above the treated channel 40, and prevents the porous member 50 from contacting the bottom surface of the treated channel 40.

In the sewage treatment tank configured as described above, as shown in FIGS. 1 and 2, when the turbid liquid 25 containing the sludge and the like is mixed through the inlet port 22 of the reservoir 20, the inlet 22 is close to the inlet port 22. In the turbid liquid 25 of the channels 32 and 33, that is, the channels 32 and 33 close to the inflow side, the filtered water 46 excluding sludge is absorbed by the capillary phenomenon of the porous member 50 into the treated water. It is moved to (40), the turbid liquid 25 that can not be passed to the treated channel 40 is continued to proceed in the channels (32, 33). As the turbid liquid 25 flows along the channels 32 and 33 and moves closer to the outlet side, the concentration of the sludge becomes thicker and the sludge by the gravity sinks to the bottom of the turbid liquid channel 30. This sludge is collected and processed at the final part of the water channel 32, 33 through which the turbidity 25 flows, that is, the B side water channels 32, 33, and the sludge that has sunk into the water channels 32, 33 is periodically cleaned. Work and sludge moving device are additionally installed and processed.

Therefore, the sewage treatment tank is sludge in the turbid liquid 25 by the capillary phenomenon of the porous member 50 installed extending from the central portion of the lattice-shaped turbid liquid channel 30 formed in the reservoir 20 to the support 42. The sewage can be efficiently treated by easily separating the filtered water 46 excluding the suspended substances such as these and discharging it to the treated water channel 40. In addition, the sewage treatment tank has a small area of the storage tank 20 and its installation is simple, so that costs such as initial installation costs and construction costs due to the production of a huge storage tank can be reduced.

As described above, according to the present invention, the sewage treatment tank can separate sewage such as sludge and filtrate easily from the turbid liquid to efficiently treat the sewage, and the area of the reservoir is small and its installation is simple, thus producing a huge reservoir. There is an advantage that can reduce the cost of the initial installation cost and construction costs.

Claims (1)

The inlet 22 is formed on one side and the reservoir 20 formed on the outlet 23 on the other side, and the first channel 32 installed inside the reservoir 20 and connecting the inlet 22 and the outlet 23. And a turbid liquid channel 30 composed of a plurality of second channels 33 communicated with the first channel 32 in a direction substantially perpendicular to the first channel 32, and in the reservoir 20 to be positioned below the turbid channel 30. Filtration water is provided to connect the treated water channel 40, the turbid water channel 30 and the treated water channel 40, the filtered water 46 flows, and removes suspended substances such as sludge from the turbid water channel 30 Sewage treatment tank, characterized in that it comprises a porous member (50) absorbed by the capillary phenomenon (46) and discharged to the treated water channel (40).