KR100471419B1 - Apparatus for treating sewage - Google Patents

Abstract

The present invention relates to a wastewater treatment system, wherein a screen is installed obliquely in a screen tank, a nozzle pipe having a plurality of nozzle holes formed on an upper portion of an inclined screen is provided, and the nozzle pipe is disposed at the bottom of the membrane aeration tank. An apparatus for connecting the filthy water in the membrane aeration tank to the nozzle pipe and spraying the filthy water purified on the nozzle pipe onto the inclined screen, so that the contaminants are not only completely removed from the screen but also to remove the contaminants. The process is simple, and the apparatus is further simplified, in particular by using the power of the blower to power the jet of filtered waste water through the nozzle pipe. In particular, according to the wastewater treatment system of the present invention, since the wastewater is continuously injected from the nozzle pipe, the wastewater treatment system is uniform without disturbing the flow of treating the wastewater.

Description

Wastewater Treatment System {APPARATUS FOR TREATING SEWAGE}

The present invention relates to a wastewater treatment apparatus, and more particularly, to a wastewater treatment apparatus capable of efficiently removing fine contaminants such as food waste contained in wastewater introduced into a reaction tank such as an aeration tank or an anaerobic tank of a wastewater treatment plant. .

In general, a wastewater treatment apparatus is composed of a blower, a flow regulating tank, a film aeration tank, a suction motor, a discharge tank, and the like. At the bottom of the flow control tank and the aeration tank, an air diffuser connected to the blower is installed. In addition, the flow rate adjustment tank is provided with a flow rate sensor and a pump.

The waste water introduced into the flow regulating tank is purified by air generated in the air diffuser at the bottom of the flow regulating tank. If the amount of wastewater in the flow adjustment tank exceeds a predetermined value, the flow rate sensor detects this and operates the pump to send the wastewater to the membrane aeration tank. The waste water introduced into the membrane aeration tank is purified by air generated in the air diffuser at the bottom of the membrane aeration tank and at the same time by the membrane filter in the membrane aeration tank. The purified waste water in the membrane aeration tank is sent to the discharge tank by the suction motor.

In such wastewater treatment devices, filters are used to remove contaminants contained in the wastewater, usually using screens in the form of perforated plates with many holes. The screen is located in a predetermined screen bath to filter out contaminants in the wastewater. The waste water from the flow control tank flows on the screen, and contaminants accumulate on the screen, and the waste water passing through the screen flows into the membrane aeration tank.

If debris accumulates continuously on the screen and completely closes the holes in the screen, waste water will not pass through the screen.

In order to remove the debris that accumulates on the screen, the screen is conventionally rocked at an angle. In order to rock the screen while allowing the waste water to flow onto the screen, the screen should only swing about 20-30 ° from the horizontal. In this manner, contaminants accumulate in the center part because the amount of swing in the center part of the screen is small. Thus, in order to remove any debris that has accumulated in the center portion on the screen conventionally, It was necessary to install the suction means so that the debris on the screen could be sucked up.

However, since the screen is a perforated plate having a plurality of holes, air is introduced through the holes of the screen when the impurities on the screen are sucked out, so that the trapped matters that are caught in the holes of the screen are completely sucked out, but are attached to parts outside the holes of the screen May remain.

Thus, in the conventional wastewater treatment apparatus, not only do not completely remove the contaminants on the screen, but also require a screen swing means and suction means, there is a problem that the apparatus and process for removing the contaminants is complicated.

In particular, in the conventional wastewater treatment apparatus, the suction means operates only when the contaminants accumulate in the center on the oscillating screen to remove the contaminants intermittently. There is.

The present invention is to solve the above-mentioned conventional problems, install the screen inclined in the screen tank, install a nozzle pipe formed with a plurality of nozzle holes on the upper portion of the inclined screen, and the nozzle pipe It is an object of the present invention to provide a wastewater treatment apparatus which is connected to the bottom of an aeration tank and is configured to send the filtered wastewater in the membrane aeration tank back to the nozzle pipe to spray the wastewater purified from the nozzle pipe onto an inclined screen.

In order to achieve the above object of the present invention, the wastewater treatment apparatus according to the present invention, the blower 10, the first flow rate adjustment tank 20, the second flow rate adjustment tank 30, the screen tank 40, the sludge storage tank ( 50, the membrane aeration tank 60, the suction motor 70 and the discharge tank 80, the first flow rate adjustment tank 20, the second flow rate adjustment tank 30, the sludge storage tank 50 and the membrane aeration tank ( An air diffuser 110 is provided at each bottom of the 60, and a pump 31 is further provided at the bottom of the second flow regulating tank 30, and a membrane filter is formed inside the membrane aeration tank 60. 61 is further installed, the main blower line 120 is formed downstream of the blower 10, and the air diffuser 110 in the first flow rate adjustment tank 20 in the middle of the main blower line 120. The first branch blow line 121 connected, the second branch blow line 122 connected to the air diffuser 110 in the reservoir tank 50, the air diffuser 110 in the second flow control tank 30. The third branch blowing line 123 connected to the third branch blowing line 123, the fourth branch blowing line 124 connected to the air diffuser 110 in the film aeration tank 60 is formed, the first flow rate adjustment tank 20 and the second The first feed line 130 is connected between the flow rate adjustment tank 30, the second feed line 140 is connected between the second flow rate adjustment tank 30 and the screen tank 40, the screen A third feeding line 150 and a fourth feeding line 160 are connected between the tank 40, the membrane aeration tank 60, and the tanker storage tank 50, respectively, and the membrane aeration tank 60 and the suction motor are connected to each other. In the wastewater treatment apparatus, the fifth feeding line 180 is connected between the 70, and the sixth feeding line 190 is connected between the suction motor 70 and the discharge tank 80. An air lift pump 63 is further installed in the membrane aeration tank 60, and the air lift pump 63 is formed by the fifth branch blowing line 125. The screen tank 40 is connected to the main blowing line 120, and the screen tank 40 has a rectangular parallelepiped shape, and a partition 41 having a V-shaped groove 41a formed at an upper center at a point spaced a predetermined distance from one side wall thereof is the screen tank. It is installed vertically in the front and rear walls across the front and rear of the 40 to separate the screen tank 40 into a first space portion 40a and a second space portion 40b, and the second space portion 40b. ), A rectangular screen pedestal 44 is installed to be inclined to fit in the front and rear walls across the front and rear of the screen tub 40, and the screen pedestal 44 is attached to the partition 41, the raised portion of the screen pedestal 44 The lower portion is installed to contact the bottom surface of the screen tank 40, the lower portion of the screen pedestal 44 is spaced apart from the other side wall of the screen tank 40 by a predetermined interval, the screen pedestal Other 44 and the screen tank 40 The semi-cylindrical part 42 is formed in the bottom surface between walls across the front and back of the screen tank 40, The screen 43 of the same size as the screen stand 44 is provided on the said screen stand 44, A nozzle pipe 45 having a plurality of nozzle holes 46 is installed on an upper portion of the screen 43 and an upper portion of the first space portion 40a of the screen tub 40. The second feed line 140 connected to the pump 31 of the flow rate adjustment tank 30 is connected, and the membrane width tank 60 is provided on the front wall between the screen 43 and the bottom surface of the screen tank 40. The third feed line 150 is connected to the fourth feed line 160 is connected to the reservoir tank 50 is connected to the rear wall of the screen tank 40 in which the semi-cylindrical portion 42 is formed. The nozzle pipe 45 has a back conveying line 170 connected to the air lift pump 63 of the membrane aeration tank 60. It is characterized by the connection.

Hereinafter, a wastewater treatment apparatus according to the present invention will be described with reference to the drawings.

As shown in Figure 1, the wastewater treatment apparatus of the present invention is largely blower 10, the first flow rate adjustment tank 20, the second flow rate adjustment tank 30, the screen tank 40, the reservoir tank 50, the membrane It consists of the aeration tank 60, the suction motor 70, and the discharge tank 80.

An air diffuser 110 is provided at each bottom of the first flow regulating tank 20, the second flow regulating tank 30, the sludge storage tank 50, and the membrane aeration tank 60.

The pump 31 is provided in the bottom part of the 2nd flow regulating tank 30, The pump control part 33, the switch 35, and the opening / closing valve 37 are provided in the upper part of the 2nd flow regulating tank 30. As shown in FIG. The pump control unit 33 includes a plurality of flow rate detection sensors 34, and simultaneously controls the operation of the pump 31 by turning on / off the switch 35 according to a signal detected by the flow rate detection sensor 34. The on-off valve 37 is opened and closed. When the amount of wastewater in the second flow adjustment tank 30 exceeds a predetermined value, the flow rate sensor 34 detects this, and the pump control unit 33 operates the pump 31 to send the wastewater to the screen tank 40. .

The membrane filter 61 and the air lift pump 63 are provided in the membrane aeration tank 60.

The membrane filter 61 is a filter made by stacking a plurality of ultra-thin cellulose esters, polyethylene, and the like, having a plurality of uniform fine holes, and collecting the particles larger than the diameter of the holes on the surface by the micro holes. The liquid in the aeration tank 60 is purified.

The main blower line 120 is formed downstream of the blower 10, and the first branch blower line 121, the second branch blower line 122, and the third branch blower line (in the middle of the main blower line 120). 123, the fourth branch blowing line 124 and the fifth branch blowing line 125 are formed.

The first branch blower line 121 is connected to the air diffuser 110 in the first flow control tank 20, and the second branch blower line 122 is connected to the air diffuser 110 in the reservoir tank 50. The third branch blowing line 123 is connected to the air diffuser 110 in the second flow adjusting tank 30, and the fourth branch blowing line 124 is connected to the air diffuser 110 in the membrane aeration tank 60. The fifth branch blower line 125 is connected to the air lift pump 63 in the membrane tank 60.

The waste water in the first flow regulating tank 20, the second flow regulating tank 30, and the sludge storage tank 50 is purified by air generated in the air diffuser 110 at each bottom thereof. The waste water in the membrane aeration tank 60 is purified by air generated in the air diffuser 110 at the bottom of the membrane aeration tank 60 and at the same time by the membrane in the membrane aeration tank 60.

The first feed line 130 is connected between the first flow rate adjustment tank 20 and the second flow rate adjustment tank 30.

As shown in detail in FIGS. 2 and 3, the screen tub 40 has a rectangular parallelepiped shape, and a partition having a V-shaped groove 41a formed at an upper center at a point spaced a predetermined distance from one side wall of the screen tub 40. 41 is vertically installed in the front and rear walls across the front and rear of the screen tub 40 so that the screen tub 40 is moved into the first space portion 40a and the second space portion 40b. Separate. In the second space portion 40b, a rectangular screen pedestal 44 is inclined to fit snugly in the front and rear walls across the front and rear of the screen tank 40. Here, the screen stand 44 is attached to the partition 41, the portion raised up and the portion down is in contact with the bottom surface of the screen tank 40. The lower portion of the screen pedestal 44 is spaced apart from the other side wall of the screen tub 40 by a predetermined interval, the screen tub 40 on the bottom surface between the screen pedestal 44 and the other side wall of the screen tub 40 The semi-cylindrical part 42 is formed across front and back of the.

On the screen pedestal 44, a screen 43 of the same size as the screen pedestal 44 is provided. As shown in detail in FIG. 4, the screen 43 is formed by uniformly forming a plurality of fine holes 43a in the rectangular plate 43b.

The nozzle pipe 45 in which a plurality of nozzle holes 46 are formed is provided on the upper portion of the screen 43. At the front and rear ends of the nozzle pipe 45, a ball valve 47 is provided to block the fluid flowing into the nozzle pipe 45 or out of the nozzle pipe 45.

A second feeding line 140 connected to the pump 31 of the second flow rate adjusting tank 30 is connected to the upper portion of the first space portion 40a of the screen tank 40.

A third feeding line 150 connected to the membrane aeration tank 60 is connected to the front wall between the screen 43 and the bottom surface of the screen tank 40.

The fourth feeding line 160 connected to the on-site storage tank 50 is connected to the rear wall of the screen tank 40 in which the semi-cylindrical portion 42 is formed.

The nozzle pipe 45 is connected with a back conveying line 170 connected to the air lift pump 63 of the membrane tank 60.

The waste water of the second flow rate adjusting tank 30 is introduced into the first space portion 40a of the screen tank 40 through the second feeding line 140 by the pump 31. When the water level of the wastewater in the first space portion 40a exceeds the groove 41a of the partition 41, the wastewater flows through the groove 41a and onto the screen 43. The waste water filtered through the screen 43 is introduced into the membrane aeration tank 60 through the third feed line 150. Contaminants caught on the screen 43 that do not pass through the screen 43 are filtered by the air lift pump 63 through the back conveying line 170 and then sprayed onto the screen through the nozzle pipe 45. It is washed down on the screen 43 by the waste water and flows into the semi-cylindrical portion 42. Since the filtered waste water introduced by the air lift pump 63 through the back conveying line 170 and sprayed from the nozzle pipe 45 passes through the screen 43, there is no contaminant and there is no nozzle hole of the nozzle pipe 45 ( 46) It is not blocked.

The contaminants collected in the semi-cylindrical portion 42 are introduced into the reservoir tank 50 through the fourth feeding line 160 as wastewater is continuously injected from the nozzle pipe 45.

The fifth feeding line 180 is connected between the membrane aeration tank 60 and the suction motor 70, the sixth feeding line 190 is connected between the suction motor 70 and the discharge tank 80, The filtered waste water in the membrane aeration tank 60 is sent to the discharge tank 80 through the fifth feeding line 180 and the sixth feeding line 190 by the suction motor 70, and finally in the discharge tank 80 Is discharged to the outside.

As a modified form of the screen, the screen 43 'shown in FIG. 5 has a plurality of rods 43b' secured by brackets 43c 'on both sides, so that a minute gap 43a' is provided between the rods 43b '. It is formed.

A screen 43 'of a type in which a minute gap 43a' is formed between the plurality of rods 43b 'and fixed to both brackets 43c' is sprayed from the nozzle pipe above the inclined screen 43 '. The filtered waste water that is trapped causes the contaminants trapped on the screen 43 'to flow down better.

According to the wastewater treatment apparatus of the present invention described above, since the wastewater filtered out of the nozzle pipe installed on the screen is sprayed onto the screen, not only the impurities are completely removed from the screen but also the apparatus and the process for removing the impurities are simple, in particular. The power of the blower uses the power to blow the filtered waste water through the nozzle pipe, making the device simpler.

In particular, according to the wastewater treatment apparatus of the present invention, since the wastewater is continuously injected from the nozzle pipe, the wastewater treatment apparatus is uniform without disturbing the flow of treating the wastewater.

1 is a schematic view of a wastewater treatment apparatus according to the present invention,

Figure 2 is a detailed perspective view of the screen tank of the wastewater treatment apparatus according to the present invention,

3 is a partially broken perspective view of the screen tank of the wastewater treatment apparatus according to the present invention without the screen;

4 is a plan view of an example of a screen of a wastewater treatment apparatus according to the present invention;

5 is a detailed front view of the nozzle pipe of the wastewater treatment apparatus according to the present invention, and

6 is a plan view of another example of a screen of a wastewater treatment apparatus according to the present invention.

Claims (3)

Blower 10, first flow rate adjustment tank 20, second flow rate adjustment tank 30, screen tank 40, ono storage tank 50, membrane aeration tank 60, suction motor 70 and discharge tank 80 An air diffuser 110 is provided at each bottom of the first flow rate adjustment tank 20, the second flow rate adjustment tank 30, the sludge storage tank 50, and the membrane aeration tank 60. A pump 31 is further provided at the bottom of the flow regulating tank 30, a membrane filter 61 is further installed inside the membrane aeration tank 60, and a main air blowing line downstream of the blower 10 is provided. 120 is formed, and the air flow diffuser 110 in the first branch blow line 121 and the sludge storage tank 50 connected to the air diffuser 110 in the first flow control tank 20 is formed in the middle of the main blower line 120. The second branch blowing line 122 connected to the third branch blowing line 123, connected to the air diffuser 110 in the second flow control tank 30, connected to the air diffuser 110 in the membrane aeration tank (60) A fourth branch blowing line 124 is formed, and a first feeding line 130 is connected between the first flow rate adjusting tank 20 and the second flow rate adjusting tank 30, and the second flow rate adjusting tank 30 is formed. And a second feeding line 140 are connected between the screen tank 40 and a third feeding line 150 between the screen tank 40 and the membrane aeration tank 60 and the tank storage tank 50. And a fourth feeding line 160 are connected to each other, a fifth feeding line 180 is connected between the membrane aeration tank 60 and the suction motor 70, and the suction motor 70 and the discharge. In the wastewater treatment apparatus that the sixth feeding line 190 is connected between the tanks 80, The air lift pump 63 is further installed in the membrane aeration tank 60, The air lift pump 63 is connected to the main blowing line 120 by a fifth branch blowing line 125, The screen tub 40 has a rectangular parallelepiped shape, and partitions 41 having a V-shaped groove 41a formed in the upper center at a point spaced a predetermined distance from one side wall cross the front and rear walls of the screen tub 40. It is installed vertically to fit within the screen tank 40 to separate the first space portion 40a and the second space portion 40b, In the second space portion 40b, a rectangular screen pedestal 44 is inclined to fit snugly in the front and rear walls across the front and rear of the screen bath 40, The screen pedestal 44 is installed so that the upper portion is attached to the partition 41 and the lower portion is in contact with the bottom surface of the screen tank 40, The lower portion of the screen pedestal 44 is spaced a predetermined distance from the other side wall of the screen tank 40, A semi-cylindrical portion 42 is formed on the bottom surface between the screen pedestal 44 and the other side wall of the screen bath 40 across the front and rear of the screen bath 40, On the screen pedestal 44, a screen 43 having the same size as the screen pedestal 44 is installed, A nozzle pipe 45 having a plurality of nozzle holes 46 is provided on an upper portion of the screen 43 that rises, The second feed line 140 connected to the pump 31 of the second flow rate adjustment tank 30 is connected to the upper portion of the first space portion 40a of the screen tank 40, The third feeding line 150 is connected to the membrane aeration tank 60 is connected to the front wall between the screen 43 and the bottom surface of the screen tank 40, The fourth feed line 160 is connected to the back reservoir of the screen tank 40 in which the semi-cylindrical portion 42 is formed, and connected to the reservoir tank 50. Waste water treatment apparatus, characterized in that the nozzle pipe 45 is connected to the back conveying line (170) connected to the air lift pump (63) of the membrane aeration tank (60). According to claim 1, The screen is a waste water treatment apparatus, characterized in that the form of a plurality of fine holes in the rectangular plate uniformly or a plurality of rods fixed with brackets on both sides to form a fine gap between the plurality of rods. According to claim 1, A pump control unit 33, a switch 35, and an opening / closing valve 37 are provided at an upper portion of the second flow adjusting tank 30, and the pump control unit 33 includes a plurality of flow rate sensing sensors 34. Waste water treatment apparatus, characterized in that.