KR20020072082A - A water-purifier tank of Curtain separation shape - Google Patents

Abstract

PURPOSE: A septic tank septic tank employing hollow fiber membrane separation is provided, which is characterized in that a filtration chamber is installed between contact aeration chamber and hollow fiber membrane separation chamber(9) so that hollow fiber membrane is prevented from being contaminated by linear foreign matter. Air spraying nozzles are also installed to separate foreign material attached to filter media. CONSTITUTION: The tank comprises a first settling chamber(2), a flow equalization chamber(3), contact aeration chambers(4,5,6), a second settling chamber(7), a filtration chamber(8), a membrane separation chamber(9), a micro filtration device(10). Between the contact aeration chamber(6) and membrane separation chamber(9), a filtration chamber(8) is provided. In the filtration chamber, a filter media chamber(8a) is installed to remove linear foreign matter.

Description

A water-purifier tank of Curtain separation shape

The present invention relates to a septic tank for purifying manure and household wastewater, and more particularly, to a membrane separation septic tank in which filtration is performed by a hollow fiber membrane in the final stage of the purification process.

The manure contains organic matters such as starch, fat, plants and proteins. When these substances are decomposed by the action of bacteria, the organic matter is mineralized as methane gas or carbon dioxide gas.

As a septic tank for decomposing and treating manure by the action of bacteria, it is possible to treat only manure alone and to purify manure and household wastewater together. Due to the fact that eutrophication of rivers and lakes is widely spread by mixed wastewater, septic tanks for purifying both manure and domestic wastewater are discharged.

As a septic tank for treating manure and household wastewater (hereinafter referred to as "sewage"), the sediment and suspended solids in the sewage are filtered by passing the sewage through the sedimentation separation chamber as in Korean Utility Model No. 1998-064290. Then, the wastewater is passed through the contact aeration chamber equipped with the contact medium to purify the aerobic microorganisms inhabiting the contact medium, and then the wastewater is passed through the sedimentation separation chamber and discharged. .

When the waste water is purified by the conventional septic tank as described above, it has been pointed out that there is some degree of purification effect, but it is insufficient to obtain a high purification effect, in order to solve this problem, Korea Patent Publication No. 1998-019270 As in the final filtration process of the sewage to pass through the microfiltration means of the hollow fiber membrane is provided and widely used. Here, the hollow fiber membrane is one in which hollow holes of about 0.1 to 0.5 mu m are formed in hollow polyethylene yarn.

On the other hand, as described above, when the filthy water is passed through the precision filtration means made of hollow fiber membranes, the final purification can be achieved. However, in this type of septic tank, foreign substances such as hair are sucked through the hollow fiber membranes. The pores are expanded to about 50 to 1000 mu and the purification efficiency is significantly reduced. In addition, the expansion of the hollow holes in the hollow fiber membrane has a fatal adverse effect on the purification efficiency of the entire septic tank.

The present invention has been invented to solve the above-mentioned conventional problems, and its object is to purify sewage through the hollow fiber membrane to purify the sewage, such as hair on the inlet side of the membrane separation aeration chamber in which the hollow fiber membrane is installed. It is an object of the present invention to provide a membrane separation type septic tank which can greatly improve the purification efficiency by providing filtration means for filtering foreign substances.

1 is a schematic cross-sectional view of a septic tank according to the present invention

Figure 2 is a perspective view showing a second sedimentation chamber of the septic tank according to the present invention

Figure 3 is a perspective cross-sectional view of the main part of the septic tank according to the present invention

Figure 4 is an enlarged cross-sectional view of the main part of the septic tank according to the present invention

<Description of Signs of Major Parts of Drawings>

1. Septic tank body --- 1a. Inlet, 1b. outlet

2. First Precipitation Separator --- 2a. Discharge passage

3. Flow Control Room --- 3a. Discharge guide, 3b. Air line

4. First contact aeration chamber --- 4a. Discharge passage

5. Second contact aeration chamber --- 5a. Discharge passage

6. Third contact aeration chamber --- 6a. Discharge guide

7. Second Settling Separation Chamber --- 7a. Inlet pipe, 7b. Wolyu Home

8. Filtration chamber --- 8a. Filter receptacle, 8b. Filter media, 8c. outlet

8d. Discharge passage

9. Membrane Separation Aeration Chamber

10. Precision filtration means --- 10a. Hollow fiber membrane, 10b. Tube member, 10c. Outlet line 10d. Pump, 10e. Air Spray Nozzle

Membrane separation clarifier provided in the present invention. In the septic tank body, a membrane separation aeration chamber including a sedimentation separation chamber, a contact aeration chamber, and a hollow fiber membrane is provided in a sequential order from the inlet side to the discharge side, and a filtration chamber is provided between the contact aeration chamber and the membrane separation aeration chamber, and on the discharge side of the filtration chamber. A filter medium containing the filter medium is provided, and a discharge passage communicating with the inside of the filter medium container is formed on the inlet side of the membrane separation aeration chamber from the bottom of the filter medium container.

In addition, the bottom of the filter medium container is characterized in that the air spray nozzle for separating the foreign matter adhering to the filter medium by the high pressure air.

In the present invention as described above, since foreign matters such as hair are filtered while the sewage passes through the filter medium accommodated in the filter medium container of the filter tank, the foreign matters in the linear structure are introduced into the membrane separation aeration chamber equipped with the hollow fiber membranes. The purification efficiency can be greatly improved by preventing the passage of water.

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

1 is a schematic cross-sectional view of a membrane separation type septic tank according to the present invention, Figure 2 is a perspective view showing a second sedimentation chamber of the septic tank according to the present invention, Figure 3 is a major perspective cross-sectional view of the septic tank according to the present invention, Figure 4 is The enlarged sectional view of the main part of the septic tank which concerns on this invention is shown, respectively.

The septic tank body 1 has a long cylindrical shape having a long length, and an inlet port 1a is provided at one side in the longitudinal direction and a discharge port 1b at the other side in the longitudinal direction.

In the septic tank body 1, the first sedimentation separation chamber 2, the flow regulating chamber 3, the first, second and third contact aeration chambers 4, 5, 6 and A two-sedimentation separation chamber 7, a filtration chamber 8 and a membrane separation aeration chamber 9 are formed.

A discharge passage 2a is formed from the bottom of the first sedimentation separation chamber 2 to the top of the flow rate control chamber 3.

The flow control chamber 3 is provided with a discharge guide tube 3a which is open from the bottom of the flow control chamber 3 toward the inflow side of the first contact aeration chamber 4 and whose lower portion is open, and the discharge guide tube 3a. Near the lower end of the air pipe (3b) is connected.

From the bottom of the first contact aeration chamber 4, the upper portion of the second contact aeration chamber 5 and the bottom of the second contact aeration chamber 5, the upper portion of the third contact aeration chamber 6, the discharge passage 4a, 5a) is formed; In the first, second and third contact aeration chambers 4, 5 and 6, a contact medium S in which aerobic microorganisms inhabit is provided.

As shown in FIG. 2, the second settling separation chamber 7 is provided with an inflow pipe 7a perpendicular to the center thereof, and the inflow pipe 7a is brought into third contact by the discharge guide pipe 6a. A discharge guide plate 7c communicating with the aeration chamber 6 and having an overflow groove 7b is provided at an upper portion of the inlet pipe 7a, and the bottom of the discharge guide plate 7c is connected to the filtration chamber by a discharge pipe 7d. 8) communicating with me.

3 and 4, the filter medium container 8a is provided on the discharge side of the filter chamber 8, and the filter medium 8b is housed in the filter medium container 8a. In the embodiment of the present invention, crushed stone of about 1 to 2 meshes is used as the filter medium.

A plurality of outlets 8c are formed at the bottom of the filter medium container 8a, and a discharge passage 8d is formed on the inlet side of the membrane separation aeration chamber 9 from the bottom of the outlet 8c. And the air injection nozzle 8e is provided in the upper part of the bottom of the filter medium container 8a toward the filter medium 8b.

The membrane filtration chamber 9 is provided with a precision filtration means 10.

Precision filtration means (10) is connected to the discharge pipe (10c), both ends of the longitudinal direction of the plurality of hollow fiber membrane (10a) is connected to the pipe member (10b), respectively, the pipe member (10b) toward the discharge side (1b) In addition, the pump 10d is provided in the discharge pipe 10c, and the air injection nozzle 10e is provided in the lower part of the hollow fiber membrane 10a.

Reference numeral 7e denotes a discharge guide tube extending from one end of the longitudinal direction below the second sedimentation separation chamber 7 and the other end of the longitudinal direction to the first sedimentation separation chamber 2, and the second sedimentation separation chamber ( An air pipe 7f is connected to the lower part of the discharge guide pipe 7e.

Reference numeral 8f indicates that one end in the longitudinal direction is located under the filtration chamber 8, and the other end in the longitudinal direction is the first sedimentation separation chamber 2, the flow regulating chamber 3, and the first, second and third contact aeration chambers. (4, 5, 6) is a discharge guide tube connected to the small nozzle (T) disposed in the upper portion, respectively, the air pipe (8g) is connected to the lower portion of the discharge guide tube 8f of the filter chamber.

Reference numeral N denotes an air diffuser nozzle for supplying oxygen to the first sedimentation separation chamber 2, the flow regulating chamber 3, and the first, second and third contact aeration chambers 4.5 and 6.

The process of purifying sewage by the present invention as described above is as follows.

When sewage flows into the first sedimentation separation chamber 2 through the inlet side 1a of the septic tank body 1, sediment and suspended solids in the sewage are separated from the first sedimentation separation chamber 2 and then the discharge passage 2a is opened. Sewage flows into the flow control chamber (3).

Sewage flowing into the flow control chamber 3 is discharged through the discharge guide pipe 3a by the air pressure supplied to the air pipe 3b according to the detection of a water level sensor (not shown) installed in the flow control chamber 4. It flows into the one-contact aeration chamber (4).

Sewage flowing into the first contact aeration chamber 4 is introduced into the second contact aeration chamber 5 through the discharge passage 4a after purifying by microorganisms by contacting the contact medium S. The sewage flowing into the two-contact aeration chamber 5 passes through the same purification process as that of the first contact aeration chamber 4, and then flows into the third contact aeration chamber 6 through the discharge passage 5a and thus the first contact width. The same purification process as in the chamber 4 is performed. The sewage introduced into the second sedimentation separation chamber 7 through the discharge guide tube 6a and the inlet pipe 7a is separated from the sewage groove 7b and the discharge pipe of the discharge guide plate 7c after sedimentation and separation of solids in the sewage. It flows into the filtration chamber 8 through 7d).

The sewage flowing into the filtration chamber 8 passes through the filter medium 8b in the filter medium container 8a, and foreign matters in the form of hairs are filtered out, and then the membrane separation aeration chamber through the discharge passage 8d. The sewage introduced into (9) and introduced into membrane separation aeration chamber (9) is discharged through the discharge pipe (10c) and the discharge port (1b) after the fine solid is filtered while passing through the hollow fiber membrane (10a).

In addition, the foreign matter filtered by the filter medium 8b in the filter medium container 8a in the above purification process is separated by high pressure air pressure sprayed periodically from the air spray nozzle 8e installed at the bottom of the filter medium container 8a. To be deposited at the bottom of the filtration chamber 8. In addition, the foreign matter adhering to the surface of the hollow fiber membrane 10a is separated by the high pressure air pressure sprayed periodically from the air spray nozzle 10e and deposited on the bottom of the membrane separation aeration chamber 9.

In addition, the sewage in the filtration chamber 8 is pumped by the air pressure supplied to the discharge guide tube 8f through the air tube 8g and sprayed through each of the small nozzles T, so that the sedimentation chamber 2 Bubbles generated during the purification process in the flow rate control chamber 3 and the first, second and third contact aeration chambers 4.5 and 6 are removed.

The present invention as described above allows the sewage to pass through the hollow fiber membrane of the membrane separation aeration chamber in the final purification process to obtain a high purification efficiency and to install a filtration chamber in front of the membrane separation purification tank and the filter medium on the discharge side of the filtration chamber It is to install the filter medium container containing the.

Therefore, in the present invention, since the foreign matter such as hair is filtered while the sewage passes through the filter medium accommodated in the filter medium container of the filter tank, it is introduced into the membrane separation aeration chamber equipped with the hollow fiber membrane and is purified and discharged while passing through the hollow fiber membrane. Through the through hole, the foreign matter on the ship can be actively prevented, and the purification efficiency can be greatly improved.

Claims (2)

In the septic tank body, a membrane separation aeration chamber including a sedimentation separation chamber, a contact aeration chamber, and a hollow fiber membrane is provided in a sequential order from an inlet side to an outlet side, and a filtration chamber 8 between the contact aeration chamber 6 and the membrane separation aeration chamber 9. And a filter medium container (8a) filled with filter medium (8b) on the discharge side of the filter chamber (8), and the inflow of the membrane separation aeration chamber (9) from the bottom of the filter medium container (8a). A membrane separation type purification tank, characterized in that a discharge passage (8d) communicating with the inside of the filter medium container (8a) is formed on the side. The membrane separation type purification tank according to claim 1, wherein an air spray nozzle (8e) is provided at the bottom of the filter medium container (8a) toward the filter medium (8b).