KR200344234Y1 - A sewage treatment apparatus by membrane - Google Patents

Abstract

The present invention relates to a sewage treatment apparatus, and more particularly, to a sewage treatment apparatus using a membrane to properly implement a large-scale multi-stage sewage treatment process in one small apparatus.

The configuration includes a hollow bioreactor having a sewage inlet at the top, an activated sludge inlet at one side, a treated water outlet at the other side, and a sludge outlet at the bottom; A hollow cylindrical frame is mounted between the activated sludge inlet pipe and the treated water discharge pipe, and a plurality of fan-shaped membrane filters are mounted on the frame, and a fixed rod is provided to fix the membrane filter to the frame. The membrane filter is provided with a drain pipe, it is composed of a membrane filtration unit is provided with a plurality of connection pipes to the outside of the frame to connect the drain pipe and the treated water discharge pipe.

By providing the sewage treatment apparatus as described above, the small and compact sewage equipment is easily installed and used easily, the installation cost is low, the treatment capacity is increased, the microorganisms are completely processed, and it is possible to apply to small villages.

Description

Sewage treatment apparatus using membrane

The present invention relates to a sewage treatment apparatus, and more particularly, to a sewage treatment apparatus using a membrane to properly implement a large-scale multi-stage sewage treatment process in one small apparatus.

In general, the sewage treatment is composed of a multi-step process such as screen, sedimentation, primary precipitation, bioreactor, secondary precipitation, filtration, sterilization, and for this treatment, a separate facility is formed in each process.

However, as described above, since the sewage treatment is multi-stage and requires a large-scale facility, it is not only suitable for small sewage treatment facilities, but also has a problem of undergoing more treatment processes in small sewage treatment facilities.

In addition, the small sewage treatment facility as described above requires more treatment process, there was a problem that requires a lot of manpower and cost in the facility of the treatment facility.

In particular, small villages in mountainous villages or towns and villages do not have separate sewage treatment facilities, causing serious environmental pollution such as discharging sewage into rivers and tributaries.

The present invention is devised to solve the conventional problems as described above,

The purpose is to provide a sewage treatment apparatus using a membrane to properly implement a large-scale multi-stage sewage treatment process in one small apparatus.

In addition, another object of the present invention is to provide a sewage treatment apparatus using a membrane to generate vortex inside the bioreactor.

In addition, another object of the present invention is to provide a sewage treatment apparatus using a membrane to make the bioreaction more smoothly.

In addition, another object of the present invention is to provide a sewage treatment apparatus using a membrane to allow the foreign matter adhering to the surface of the membrane filter to be properly detached by the bubble.

In addition, another object of the present invention is to provide a sewage treatment apparatus using a membrane to enable the activated sludge and bubbles to be concentrated in the membrane filter.

In addition, another object of the present invention is to provide a sewage treatment apparatus using a membrane to allow the circulation of activated sludge.

In addition, another object of the present invention is to provide a sewage treatment apparatus using a membrane to take a negative pressure necessary for filtration of the membrane filter.

In order to achieve the above object, the present invention has a hollow bioreactor having a sewage inlet at the top, an activated sludge inlet pipe at one side, a treated water discharge pipe at the other side, and a sludge outlet at the lower side; A hollow cylindrical frame is mounted between the activated sludge inlet pipe and the treated water discharge pipe, and a plurality of fan-shaped membrane filters are mounted on the frame, and a fixed rod is provided to fix the membrane filter to the frame. The membrane filter is provided with a drain pipe, it is to provide a sewage treatment apparatus using a membrane comprising a membrane filtration unit is provided with a plurality of connection pipes to the outside of the frame to connect the drain pipe and the treated water discharge pipe.

In addition, the drive connecting portion is rotatably fitted to the activated sludge inlet pipe and attached to one side of the frame so that the membrane filter is rotated, and the rotation is fitted to the other side of the frame so as to be rotatably fitted to the treated water discharge pipe and penetrates the connection pipe. It is to provide a sewage treatment apparatus using a membrane, characterized in that provided with a rotary drive unit consisting of a motor connected to the connection portion and the bioreactor connected to the drive connecting portion to rotate the frame.

In addition, to provide a sewage treatment apparatus using a membrane, characterized in that consisting of an acid pipe provided on the inner lower surface to supply oxygen to the bioreactor.

In addition, it is to provide a sewage treatment apparatus using a membrane, characterized in that the bubble injection pipe having a blower is provided through the inside of the activated sludge inlet pipe so that bubbles are discharged to the center of the membrane filtration unit.

In addition, an injection hole is formed at the end of the activated sludge inlet pipe corresponding to the membrane filter so that the air supplied by the activated sludge and the bubble injection pipe mixed with the activated sludge inlet pipe is mixed up and discharged upward. It is to provide a sewage treatment apparatus using a membrane.

In addition, the lower portion of the bioreactor is provided with a circulation pipe connected to the activated sludge inlet pipe, it is to provide a sewage treatment apparatus using a membrane, characterized in that a circulation pump is provided in the circulation pipe.

In addition, it is to provide a sewage treatment apparatus using a membrane, characterized in that the suction pump is provided in the treated water discharge pipe to take a negative pressure required for filtration of the membrane filter.

1 is a schematic partial cutaway perspective view of the present invention,

Figure 2 is a schematic cross-sectional view of the present invention,

3 is a schematic longitudinal sectional view of the present invention;

Figure 4 is a plan sectional view showing an operating state of the present invention,

Figure 5 is a longitudinal sectional view showing an operating state of the present invention.

* Explanation of symbols for the main parts of the drawings

10: bioreactor

11: sewage inlet 12: activated sludge inlet 13: treated water discharge

14: sludge discharge port 15: injection hole 16: circulation pipe

17: circulation pump 18: suction pump

20 membrane filter

21 frame 22 membrane filter 23 fixing rod

24: drain pipe 25: connector

30: rotating drive part

31: drive connection portion 32: rotary connection 33: motor

40: diffuser

50: bubble spray

51: blower

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic partial cutaway perspective view of the present invention, FIG. 2 is a schematic plan cross-sectional view of the present invention, and FIG. 3 is a schematic longitudinal cross-sectional view of the present invention.

1 to 3, the configuration of the present invention will be described.

The sewage treatment apparatus is provided with a bioreactor 10 for causing bioreaction by activated sludge to precipitate foreign matter contained in the sewage, and the sewage introduced by the membrane filter 22 into the bioreactor 10. A membrane filtration unit 20 for filtering is provided, and a rotation driving unit 30 for rotating the membrane filtration unit 20 is provided, and an acid pipe for supplying oxygen to activate microorganisms into the bioreactor 10. 40 is provided, it is configured to be provided with a bubble spray pipe 50 for injecting bubbles to detach the foreign matter adhered to the membrane filtration unit 20.

In more detail, the bioreactor 10 has a sewage inlet 11 formed at an upper surface thereof, and an activated sludge inlet tube 12 is provided at the center of one side thereof, corresponding to the activated sludge inlet tube 12. A treatment water discharge pipe 13 is provided at the other side, and a sludge discharge port 14 is provided at a lower side thereof, and an injection hole 15 is formed at the end of the activated sludge inflow pipe 12, and the activated sludge inflow pipe (12) is provided with a circulation pipe 16 having a circulation pump 17 so that the bioreactor 10 is connected, the treatment water discharge pipe 13 is provided with a suction pump 18 is provided.

Here, the bioreactor 10 is activated sludge flows through the activated sludge inlet pipe 12 after the sewage flows into the interior through the sewage inlet 11 to cause a bioreaction and the sludge precipitated by the bioreaction It is discharged to the outside through the sludge discharge port 14 and the filtered water is discharged to the outside through the treated water discharge pipe 13 after being filtered with sewage by the membrane filtration unit 20.

In addition, the injection hole 15 is activated sludge introduced into the bioreactor 10 through the activated sludge inlet pipe 12 is injected from the inside of the membrane filter portion 20 to the upper portion of the membrane filter portion 20 The foreign matter adhering to) is to be properly detached.

In addition, the circulation pipe 16 serves to suck the activated sludge introduced into the bioreactor 10 through the circulation pump 17 and to discharge the activated sludge into the activated sludge inlet pipe 12 again. Desorption of the membrane filtration unit 20 through it is to be made continuously while at the same time to increase the adhesion and activity of the activated sludge.

In addition, the suction pump 18 sucks the filtered water flowing into the treated water discharge pipe 13 to apply a negative pressure to the membrane filtration unit 20, thereby significantly increasing the filtration efficiency of the membrane filtration unit 20. To make it possible.

In addition, the membrane filtration unit 20 is a hollow cylindrical frame 21 is installed between the activated sludge inlet pipe 12 and the treated water discharge pipe 13, a plurality of membrane filters around the frame 21 (22) is fitted, the fixing rod 23 is fitted to both ends of the frame 21 toward the outer center of the membrane filter 22 to detachably fix the membrane filter 22 to the frame 21. Is provided, each of the membrane filter 22 is provided with a drain pipe 24 so as to communicate with the inside, a plurality of the drain pipe 24 is provided with a connection pipe 25 so as to be connected to the treatment water discharge pipe (13). It is composed.

Here, the membrane filtration unit 20 is sewage is filtered through a plurality of membrane filters 22 which are fixed by the fixing rod 23 to the frame 21, the filtered water is connected through the drain pipe 24 After gathering in the pipe 25 is to move to the treated water discharge pipe 13 to be discharged.

In addition, the membrane filter 22 is provided with a hollow membrane on the side plate fitted to the frame 21, the drain pipe 24 is provided on the outside so as to penetrate the hollow portion of the membrane, After the sewage is filtered to the side of the membrane, it is collected into the hollow portion and the collected water is discharged to the outside through the drain pipe 24.

In addition, the membrane filter 22 serves to completely remove not only solids contained in sewage but also bacteria and pathogens.

In addition, the rotary drive unit 30 is rotatably fitted into the activated sludge inlet pipe 12 and attached to one side of the frame 21 so that the membrane filtration unit 20 is rotated, the treatment water discharge pipe Rotating fitting portion 32 is rotatably fitted to (13) and attached to the other side of the frame 21 so as to penetrate the connecting pipe 25, and is connected to the drive connecting portion 31 to rotate the frame 21 It consists of a motor 33 provided in the bioreactor 10 to make.

Here, the rotary drive unit 30 rotates the frame 21 of the membrane filtration unit 20 to the activated sludge inlet pipe 12 and the treated water discharge pipe 13 by the drive connector 31 and the rotary connector (32). Possible connection is then rotated by a motor 33 so that a plurality of membrane filters 22 fixed to the frame 21 as a whole may be rotated in the bioreactor 10.

In addition, the membrane filter 22 is rotated by the rotation driving unit 30, so that a vortex is formed inside the bioreactor 10 so that the membrane filter 22 can be detached more appropriately and at the same time the activity of the activated sludge is increased. Increased and the filtered water collected into the membrane filter 22 is smoothly drained into the drain pipe 24 by the centrifugal force.

In addition, the diffuser 40 is installed under the bioreactor 10 and sucks outside air through a pump or the like to supply the inside of the bioreactor 10, thereby providing oxygen necessary for reaction of microorganisms in the bioreactor 10. To ensure proper supply.

In addition, the bubble injection pipe 50 has a blower 51 and is located in the lower portion of the injection hole 15 through the activated sludge inlet pipe 12 from the outside of the bioreactor 10, and is supplied by the blower 51 It is configured to inject air bubbles, that is bubbles through the injection port 15 by the air, thereby to the outer surface of the membrane filter 22 with the activated sludge injected through the injection port 15 by the circulation pump 17 It serves to desorb foreign substances such as solids and sludge adhered to.

Therefore, the sewage treatment apparatus is a simple structure, small and compact, so that the multi-stage treatment process of sewage is completely made in one bioreactor 10.

Figure 4 is a plan sectional view showing an operating state of the present invention, Figure 5 is a longitudinal sectional view showing an operating state of the present invention.

4 and 5 will be described as to the operating state of the present invention.

The upper part of the bioreactor 10 is introduced through the sewage inlet 11 and filled into the inside of the bioreactor 10, and in this state the inside of the bioreactor 10 through the activated sludge inlet pipe 12. Activated sludge is introduced into the bioreactor.

The sewage introduced in the bioreaction state as described above is filtered by the membrane filter 22 provided in plural in the frame 21 and then discharged through the drain pipe 24, and in the drain pipe 24, the connection pipe ( It is collected by the treated water discharge pipe 13 through 25) and is discharged to the outside.

At this time, the activated sludge supplied into the bioreactor 10 is injected into the injection port 15 while being circulated to the activated sludge inlet pipe 12 by the circulation pipe 16 and the circulation pump 17, the activated sludge The membrane filter 22 having bubbles formed by the bubble injection pipe 50 provided inside the inflow pipe 12 and at the upper portion thereof in the center of the frame 21 through the injection hole 15 together with the activated sludge. By spraying intensively to hit the outer surface of the membrane filter 22, it is to detach the foreign matter adhered thereto.

The desorbed foreign matters are captured by the activated sludge and settled to the lower part of the bioreactor 10, and the sludge thus precipitated is discharged to the outside through the sludge discharge port 14.

In addition, the frame 21 is driven by the motor 33, so that a plurality of membrane filters 22 installed in a cylindrical shape rotates as a whole, foreign matter uniformly adhered by the activated sludge and bubbles injected through the injection hole 15. This is being detached.

In addition, the diffuser 40 installed inside the bioreactor 10 is supplied with air by a pump or the like to supply oxygen to the activated sludge circulated by being supplied to the bioreactor 10 to promote microbial reaction. will be.

In addition, the suction pump 18 provided in the treated water discharge pipe 13 strongly suctions the water discharged from the filtered water so that negative pressure is formed in each membrane filter 22, so that the filtration efficiency of the membrane filter 22 is reduced. This is a significant increase.

In addition, the membrane filter 22 is provided with a plurality of cylindrical frame 21 is driven by a motor 33 is rotated in the bioreactor 10, the turbulence and the inside of the bioreactor 10 Vortex is formed so that the activated sludge and the sewage are properly mixed, and at the same time, the desorption of the foreign matter adhering to the outer surface of the membrane filter 22 is made more appropriate.

As described above, the present invention allows a large-scale multi-stage sewage treatment process to be properly implemented in one small apparatus, so that a small and compact sewage facility is easily installed and used easily, and the installation cost is low, and treatment capacity is increased, and microorganisms are It is fully processed and has the effect of being applicable to small villages.

In addition, the present invention has the effect that the vortex is generated inside the bioreactor, the foreign matter adhering to the membrane filter is properly detached and the activation of the bioreaction takes place.

In addition, the present invention has an effect that the sewage treatment by the activated sludge is more smoothly by making the bioreaction more smoothly.

In addition, the present invention has an effect that the filtration efficiency of the sewage is significantly increased by allowing the foreign matter adhering to the surface of the membrane filter to be properly detached by the bubbles.

In addition, the present invention has the effect that the activated sludge and bubbles are intensively sprayed on the membrane filter, the desorption of foreign matter adhered to the surface of the membrane filter is more smoothly.

In addition, the present invention has the effect that the circulation of the activated sludge is made, it is possible to continuously spray to the surface of the membrane filter while increasing the activity of the activated sludge.

In addition, the present invention has an effect that the filtration efficiency is significantly increased by applying a negative pressure necessary for filtration of the membrane filter.

Claims (7)

A hollow bioreactor 10 having a sewage inlet 11 at the top and an activated sludge inlet 12 at one side, a treated water discharge tube 13 at the other side, and a sludge discharge 14 at the lower side; A hollow cylindrical frame 21 is mounted between the activated sludge inflow pipe 12 and the treated water discharge pipe 13, and a plurality of fan-shaped membrane filters 22 are mounted on the frame 21. A fixing rod 23 is provided to fix the membrane filter 22 to the frame 21, and each of the membrane filters 22 includes a drain pipe 24, and the drain pipe 24 and the treated water discharge pipe ( 13) sewage treatment apparatus using a membrane, characterized in that consisting of a membrane filtration unit 20 is provided with a plurality of connection pipes (25) to the outside of the frame (21) to connect. The method of claim 1; The drive connecting portion 31 is rotatably fitted to the activated sludge inlet pipe 12 and attached to one side of the frame 21 so that the membrane filtration part 20 rotates, and the treatment water discharge pipe 13 rotates. The living connector 32 is inserted into the other side of the frame 21 so that the connector tube 25 can be inserted therethrough, and connected to the driving connector 31 to rotate the frame 21. Sewage treatment apparatus using a membrane, characterized in that the rotary drive unit 30 is composed of a motor 33 provided in the reaction tank (10). The method of claim 1 or 2; Sewage treatment apparatus using a membrane, characterized in that consisting of an acid pipe (40) provided on the inner lower surface to supply oxygen to the bioreactor (10). The method of claim 1 or 2; Sewage using a membrane, characterized in that the bubble injection pipe 50 having a blower 51 penetrates through the inside of the activated sludge inlet pipe 12 so that bubbles are discharged to the center of the membrane filtration unit 20. Processing unit. The method of claim 4; The activated sludge inflow pipe corresponding to the membrane filtration unit 20 so that the activated sludge introduced through the activated sludge inflow pipe 12 and the bubbles supplied by the bubble injection pipe 50 are mixed and discharged upward. 12) the sewage treatment apparatus using a membrane, characterized in that the injection hole 15 is formed. The method of claim 5; The membrane is characterized in that the lower portion of the bioreactor 10 is provided with a circulation pipe 16 connected to the activated sludge inlet pipe 12, and the circulation pipe 16 is provided with a circulation pump 17. Sewage treatment device using. The method of claim 6; Sewage treatment apparatus using a membrane, characterized in that the suction pump (18) is provided in the treated water discharge pipe (13) to take a negative pressure necessary for filtration of the membrane filter (22).