KR200338150Y1 - Foul or waste water disposal device with filtration membrane and filtration membrane guide separated - Google Patents

Abstract

The present invention relates to an immersion type wastewater treatment system in which a filtration membrane module and a filtration membrane module guide for treating wastewater using a biological treatment and a flat membrane are separated.

The immersion type wastewater treatment system in which the filtration membrane module and the filtration membrane module guide of the present invention are separated from each other includes a frame composed of a side frame, an upper frame, and a support plate, and a plurality of partition protrusions are integrally formed at regular intervals therebetween. Forming a fitting groove in each of the side plates of the side frame, each of which is fitted to the fitting groove, a plurality of flat membranes fitted into the fitting grooves, and a plurality of flat membranes fitted in the fitting grooves perpendicular to the longitudinal direction of the upper portion A pressing plate connected by an upper frame and coupling means, a suction pump connecting tube installed in a 'c'-shaped groove formed by the upper frame and the supporting plate, and connected to both ends of the suction pump connecting tube and the sump of the flat membrane, respectively. A collecting pipe and a lifting sieve connected to an upper end of the upper frame and positioned at an upper portion of the collecting pipe A filtration membrane module having phosphorus; A plurality of diffusers provided on the lower surface of each of the diffusers at a predetermined distance from the lower portion, an air supply pipe connected to the diffusers, and installed on the diffuser at regular intervals, and the lower surface of the filtration membrane module And a filtration membrane module guide configured of a filtration membrane module seating portion having an opening through which air ejected from the acid pores can pass.

Description

FOUL OR WASTE WATER DISPOSAL DEVICE WITH FILTRATION MEMBRANE AND FILTRATION MEMBRANE GUIDE SEPARATED}

The present invention relates to an immersion type wastewater treatment system in which a filtration membrane module for treating wastewater by using biological treatment and a flat membrane and a filtration membrane module guide are separated. More specifically, a plurality of flat membranes are formed to have a constant interval therebetween. It is equipped with a filtration membrane module modularized so that it can be combined in a detachable multi-stage. Separately, an external frame for installing the diffuser at a distance from the bottom and the filtration membrane module seat at a distance above the diffuser is provided. By expanding the surface area of filtration and removing solids such as sludge generated on the surface of the membrane, the permeation efficiency of the flat membrane is maximized and the initial installation and desorption is easy. Easily minutes from the frame It is able to be cleaned relates to maintaining the ease of filtration membrane module and the separation membrane module forms the guide of an immersion type waste water treatment system.

Conventional filtration membrane module device of the conventional immersion membrane separation activated sludge wastewater treatment system is disclosed in the Republic of Korea Utility Model Publication No. 20-0292487, the conventional filtration membrane module device is moved in the aeration tank 100, a biological reaction tank The plate-like microfiltration membrane 11 for separating the active sludge and the treated water from the wastewater to be plated with a plurality of fitting grooves 11 at regular intervals (14 mm) so as to be supported by fixing the plate-type microfiltration membrane 11. ), The collecting port of the flat type microfiltration membrane module 10 and the flat type microfiltration membrane 11 capable of detaching the flat type microfiltration membrane 11 by the module frame 19 having the gap plate 14 formed on both sides thereof. 16) and a diffuser device equipped with a diffuser (33) mounted on the diffuser frame (33) having a collecting device (20) connected by a plurality of tube collecting pipes (21) arranged in parallel, and an diffuser (31) having a plurality of diffuser holes ( 30), the plate type It consists of an outer frame 110 and a grid-shaped manhole 120 to receive and fix the module frame 19 of the wheat filtration membrane module 10 and the periphery of the diffuser frame 33 of the air diffuser 30. The flat type microfiltration membrane module 10 and the air diffuser 30 are integrally coupled to the 110.

However, in the flat type microfiltration membrane module device of the conventional immersion type membrane separation activated sludge wastewater treatment system, the flat type microfiltration membrane module 10 and the diffuser device 30 are integrally coupled to the outer frame 110. The total length in the vertical direction of the filtration membrane module device is long, and there is a problem that it is difficult to lift the filtration membrane module device out of the aeration tank when it needs to be cleaned from the outside for maintenance reasons.

In the conventional microfiltration membrane module apparatus of the conventional immersion membrane separation activated sludge wastewater treatment system, although there is provided a gap plate having a plurality of fitting grooves formed at regular intervals so as to support and fix the microfiltration membrane, In the manufacture of plates, fitting plates of gap plates are formed by milling PVC plates or bending stainless plates.In the case of milling PVC plates, the gap between fitting grooves is precise due to machining errors during machining. In case of forming the gap plate by bending the stainless plate, the gap between the fitting grooves may be formed at the time of manufacture. When the filter membrane is detached several times, the bent fitting grooves are pushed to one side. The spacing between the flat microfiltration membranes fitted into the grooves is not constant so that the amount of air released from the diffuser of the diffuser is biased so that the contaminants attached to the flat microfiltration membranes fitted into the fitting grooves are biased. There was a drawback that it was difficult to maintain a consistent cleaning cycle because of the cleaning and thus the difference in the degree of contamination between the flat microfiltration membranes.

In addition, in the conventional flat-type microfiltration membrane module device of the immersion type membrane separation activated sludge wastewater treatment system, a female collecting pipe made of PVC is used by tightening a bolt with a female thread with a tap. However, the PVC pipe is thin and the service life is long. In this case, there was a risk of leakage between the tab and the bolt fastening portion.

Accordingly, an object of the present invention is to separate the filtration membrane module and the filtration module module guide so that the filtration membrane module installed in the filtration membrane module guide can be easily lifted out of the aeration tank and cleaned when it is necessary to clean the outside for maintenance reasons. It is.

Another object of the present invention is to manufacture a fitting plate formed by integrally inserting a plurality of fitting grooves at regular intervals by precision injection molding, thereby reducing the occurrence of gap defects between the fitting grooves that may occur during processing and the need for maintenance In order to maintain a consistent cleaning cycle between the flat membranes by evenly detaching the flat membrane in the fitting groove several times to maintain a constant gap between the fitting grooves to uniform contamination between the flat membranes.

Another object of the present invention is to prevent the leakage of water by producing a precision injection molding the water collecting tube formed integrally with the protruding connecting portion which can be connected to the hose.

1 is a perspective view of an immersion type wastewater treatment system according to the prior art;

Figure 2 is an exploded perspective view of the filtration membrane module of the immersion type wastewater treatment system according to an embodiment of the present invention;

3 is a perspective view of a filtration membrane module guide of the immersion type wastewater treatment system according to the present invention;

4 is a perspective view of a fitting plate of the wastewater treatment system of FIG. 2;

5 is a perspective view of a collecting pipe of the wastewater treatment system of FIG. 2;

Figure 6 is a state diagram installed in the aeration tank of the wastewater treatment system of the filter membrane module and the filter membrane module guide of the present invention is separated form.

* Description of the symbols for the main parts of the drawings *

40: fitting plate 41: partition wall projection

42: fitting groove 43: engaging projection

43 ': coupling groove 50: filtration membrane module

51: side frame 52: upper frame

53: support plate 60: flat membrane

61: catch port 70: pressure plate

80: suction pump connector 81: key coupling

82: collecting pipe 83: hose

84: suction pump 85: lifting chain

86: projecting connection 90: filtration membrane module guide

91: air supply pipe 92: diffuser

93: filtration membrane module seating portion 94, 94 ': air pump

95: acid pores 96: aeration tank

In order to achieve the above object, the present invention is a frame consisting of a side frame, an upper frame and a support plate, and a plurality of partition projections integrally formed at regular intervals to form a fitting groove between these partition projections and the side The upper plate is connected to the upper frame and the coupling means perpendicular to the lengthwise direction of the upper portion of the fitting plate mounted on both sides of the frame, the plurality of flat membranes fitted into the fitting grooves, and the plurality of flat membranes fitted into the fitting grooves. A suction plate connected to the pressing plate to be installed, a suction pipe connecting tube installed in a '-'- shaped groove formed by the upper frame and the support plate, and a collecting pipe connected to both ends of the suction pump connecting tube and the catchment port of the flat membrane, A filtration membrane module having a lifting chain connected to an upper end and positioned above the collection pipe;

A plurality of diffusers provided on the lower surface of each of the diffusers at a predetermined distance from the lower portion, an air supply pipe connected to the diffusers, and installed on the diffuser at regular intervals, and the lower surface of the filtration membrane module It provides a filter membrane module guide consisting of a filter membrane module seating portion having an opening through which air ejected from the acid pores can pass.

A feature of the present invention according to the configuration as described above is that the filtration membrane module is accommodated and installed inside the filtration membrane module guide during wastewater treatment, and when the maintenance is required, the filtration membrane module can be separated and lifted from the filtration membrane module guide. .

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

2 is an exploded perspective view of the filtration membrane module of the immersion type wastewater treatment system in which the filtration membrane module and the filtration membrane module guide are separated according to an embodiment of the present invention, and the filtration membrane module 50 of the present invention has a side frame 51 and A frame composed of the upper frame 52 and the support plate 53 and a plurality of partition projections 41 are integrally formed at regular intervals to form fitting grooves 42 between the partition projections, and the side frame 51 The plate 40 is mounted on both sides of the), the plurality of flat membranes 60 fitted to the fitting groove 42, and the top of the plurality of flat membranes 60 fitted in the fitting groove 42 Suction plate 70 which is installed by the upper frame 52 and the coupling means perpendicular to the longitudinal direction of the upper portion, and suction is installed in the 'c' shaped groove formed by the upper frame 52 and the support plate 53 Pump connection pipe (80) and the suction pump Lifting pipes 82 connected to both ends of the tube 80 and the collecting holes 61 of the flat membrane 60, respectively, and mounted on an upper end of the upper frame 52 and lifted above the collecting pipe 82. And a chain 85.

In FIG. 2, three water collecting pipes 82 are illustrated, but this is only one embodiment of the present invention, and the number of water collecting pipes used to be connected to each other may vary according to the size of the filtration membrane module. The fitting plates 40 respectively mounted on both side surfaces of the side frame 51 may also be connected to each other according to the size of the filtration membrane module.

The flat membrane 60 is formed in the center of the upper handle and the left and right sides of the collection port 61, respectively, but may not be formed in the center of the handle.

In addition, the flat membrane 60 is a flat type separator, and two flat type separators are spaced apart from each other by a predetermined interval, and a general configuration is installed between the flat membranes, and detailed description thereof will be omitted.

The filtration membrane module 50 on which the flat membrane 60 is loaded may have two stages of the filtration membrane module 50 when space utilization is required due to a narrow inner area of the aeration tank.

The catching port 61 of the flat membrane 60 is connected to each other by using the protruding connecting portion 86 of the collecting pipe 82 and the hose 83. In the past, a rigid hose such as a urethane hose was used, but the hose 83 ) Is preferably a silicone hose as the highly elastic soft hose.

As shown in FIG. 2, the upper frame 52 is connected to the upper part of the plurality of flat membranes 60 fitted to the fitting plate 40 by the coupling means such as bolts, nuts, rivets, and the like perpendicular to the longitudinal direction of the upper part. The pressing plate 70 to be installed is installed.

In addition, as shown in Figure 2, the suction pump connecting pipe 80, the suction pump connecting pipe 80, and the collecting pipe 82 connected to the collecting port 61 of the flat membrane 60, respectively, the upper frame It is installed in the 'c'-shaped groove formed by the 52 and the support plate 53, on both sides of the collecting pipe 82 to prevent from being separated from the' c'-shaped groove by the external impact after being installed A separation prevention rod (not shown) may be installed between the upper frame 52 and the support plate 53 to be positioned.

The suction pump connecting pipe 80 is connected to the tube extending upward on one side, the tube and the suction pump 84 extending to the upper may be connected by a flexible hose (not shown) Desorption is facilitated using a known key coupling 81.

3 is a perspective view of a filtration membrane module guide of an immersion type wastewater treatment system according to the present invention, and includes a plurality of diffusers 92 each having a plurality of diffuser pores 95 disposed on a lower surface at a predetermined distance from a lower portion thereof, The air supply pipe 91 connected to 92 and the air supply pipe 91 are installed on the diffuser 92 at a predetermined interval, and the lower surface of the filtration membrane module 50 may be seated and the air blown out from the acid pores 95 A filtration membrane module seating portion 93 having an opening therethrough is provided.

Although not shown, the air supply pipe 91 and the air pumps 94 and 94 'may be connected by a flexible hose and are easily removable using a known key coupling.

In FIG. 3, only the diffuser 92 as described above is illustrated and the diffuser does not appear, but as shown in FIG. 6, the diffuser 95 is formed at the lower portion of the diffuser, and the filtration membrane module 50 The filter membrane module seating portion 93 installed on the diffuser 92 at regular intervals so that the crest can be seated forms a rectangular opening 97 therein, and diffuses pores of the diffuser 92 through the opening. The air blown out from the (95) is allowed to pass through, and the opening may be formed only one, or may form one or more.

FIG. 4 is a perspective view of a fitting plate of the wastewater treatment system of FIG. 2, wherein the fitting plate 40 integrally forms a coupling protrusion 43 at a lower portion thereof and a coupling groove 43 corresponding to the coupling protrusion 43 at an upper portion thereof. Each of the plurality of ') is formed so that the plurality of fitting plates 40 can be connected to each other according to the use environment.

FIG. 5 is a perspective view of a collecting pipe of the wastewater treatment system of FIG. 2, wherein the collecting pipe 82 has a plurality of protruding connecting portions 86 formed on one side thereof with a hollow inside and integrally formed with the collecting pipe 82. In accordance with the use environment, the plurality of collecting pipes 82 are connected to each other by connecting the stopper 87 and the cylindrical protrusions 88 on both sides of the longitudinal direction of the plurality of water collecting pipes 82 connected to each other can be installed have.

6 is a view showing the installation state in the aeration tank of the wastewater treatment system of the present invention, the filtration membrane module and the filtration membrane module guide separated form, that is, the filtration membrane module 50 is accommodated and installed in the filtration membrane module guide 90 from the side view As shown in FIG. 6, the diffuser of the filtration membrane module guide 90 which forms an acid pore 95 through which the air supplied from the air supply pipe 91 is ejected by the operation of the air pumps 94 and 94 'shown in FIG. The upper surface of 92 and the lower surface of the filter membrane module seating portion 93 are separated by a predetermined interval, and the interval is preferably 300 mm to 500 mm.

In this manner, a certain interval is provided between the upper surface of the diffuser 92 and the lower surface of the filter membrane module seating portion 93 so that air bubbles ejected from the diffuser pores 95 of the diffuser 92 are broken while being finely broken by water resistance. It is to be evenly distributed between a plurality of flat membranes fitted in the fitting groove 42 of the plate (40).

A plurality of acid pores 95 are formed in the diffuser 92, and the diameters of these acid pores 95 are preferably 6 mm to 8 mm, respectively.

In addition, the bottom surface of the inside of the filtration membrane module guide 90 and the diffuser 92 is also spaced apart.

Referring to the installation and operation of the preferred embodiment of the present invention configured as described above are as follows.

First, as shown in FIG. 6, the filtration membrane module guide 90 is inserted into the aeration tank 96 and fixed to the bottom surface, and as shown in FIG. 2 in the filtration membrane module guide 90 having the configuration as shown in FIG. 3. After inserting and mounting the filtration membrane module 50 having the same configuration, the key coupling is simply operated to connect the air supply pipe 91 and the air pumps 94 and 94 'with a flexible hose. By simply operating a known key coupling 81 to connect a pipe extending from one side of the suction pump connecting pipe 80 to the upper side and the suction pump 84 with a flexible hose, the aeration tank 96 Installation of the immersion type wastewater treatment system in which the filtration membrane module and the filtration membrane module guide are separated according to a preferred embodiment is completed.

When the waste water in the aeration tank is to be treated in this state, when the suction pump 84 is operated, the waste water in the aeration tank is filtered through the plurality of flat membranes 60 as shown in FIG. It is discharged out of the aeration tank via the hose 83, the collecting pipe 82, and the suction pump connecting pipe 80.

When the wastewater treatment system of the present invention is used for a predetermined period of time for filtration as described above, contaminants are attached to the plurality of flat membranes 60, and air is operated when the air pumps 94 and 94 'are operated. The air is supplied through the air supply pipe 91 and the diffuser 92 through the acid pores 95 to clean the contaminated flat membrane 60 as described above, and at the same time supplies the air for breathing microorganisms in the aeration tank.

In addition, when the waste water treatment system of the present invention is operated for a long time and the removal of contaminants is not sufficient by cleaning the flat membrane by air blowing alone, a lifting chain installed in the filtration membrane module 50 from the filtration membrane module guide 90 for maintenance A hook (not shown) of the lifting device is attached to 85 to lift the filtration membrane module 50 from the outside of the aeration tank to clean the filtration membrane module.

As described above, those skilled in the art will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. Therefore, it is to be understood that the embodiments described above are exemplary in all respects and not restrictive. The scope of the present invention is to be construed that all changes or modifications derived from the meaning and scope of the utility model registration claims to be described later rather than the detailed description and equivalent concepts thereof are included in the scope of the present invention.

According to the present invention of the configuration as described above, the present invention by separating the filtration membrane module and the filtration module module guide to facilitate the filtration membrane module installed in the filtration membrane module guide outside the aeration tank when it is necessary to clean the outside for maintenance reasons. It can be lifted and cleaned and manufactured by precise injection molding of a fitting plate having a plurality of fitting grooves integrally formed at regular intervals, thereby reducing the occurrence of gap defects between the fitting grooves that may occur during processing and Even if the flat membrane is detached from the fitting groove as many times as necessary, the gap between the fitting grooves is kept constant so that the degree of contamination between the flat membranes is uniform, so that the cleaning cycle can be consistently managed between the flat membranes. Manufactured by precision injection molding the collection pipe formed integrally with the projecting connection There is no risk of leakage is written from the house pipes effect.

Claims (9)

A frame composed of the side frame 51, the upper frame 52 and the support plate 53, and a plurality of partition projections 41 are integrally formed at regular intervals to form fitting grooves 42 between these partition projections. And a fitting plate 40 mounted on both side surfaces of the side frame 51, a plurality of flat membranes 60 fitted and installed in the fitting groove 42, and a plurality of flat membranes fitted in the fitting groove 42. A 'c' shape formed by a pressing plate 70 connected to the upper frame 52 and a coupling means perpendicularly to the longitudinal direction of the upper portion 60, and the upper frame 52 and the supporting plate 53 on an upper portion of the upper portion 60; A suction pump connecting pipe 80 installed in a groove of the suction pump connecting pipe 80, a collecting pipe 82 connected to both ends of the suction pump connecting pipe 80, and a collecting port 61 of the flat membrane 60, and the upper frame 52. Filtration membrane module (5) having a lifting chain (85) installed at the top of the collection pipe (82) and installed at the top of the 0); A plurality of diffusers 92 provided on the lower surface of each of the diffusers 95 at a predetermined distance from the lower portion, an air supply pipe 91 connected to the diffusers 92, and the diffusers at regular intervals A filtration membrane module having a filtration membrane module seating portion 93 installed above the 92 and having an opening through which a lower surface of the filtration membrane module 50 may be seated and through which air ejected from the acid pores 95 may pass. A guide 90; In the case of wastewater treatment, the filtration membrane module 50 may be accommodated and installed inside the filtration membrane module guide 90, and when the maintenance is required, the filtration membrane module 50 may be separated and lifted from the filtration membrane module guide 90. An immersion type wastewater treatment system having a filtration membrane module and a filtration membrane module guide separated therefrom. The method of claim 1, The fitting plate 40 and the collecting pipe 82 are immersion type wastewater treatment systems in which the filtration membrane module and the filtration membrane module guide are separated and manufactured by precision injection molding. The method of claim 2, The water collecting pipe 82 is provided with a plurality of protruding connection portions 86 formed on one side of the inside of the water collecting pipe 82 and the hollow inside, and each end of the water collecting pipe 82 in the longitudinal direction of each stopper ( The immersion type wastewater treatment system of the type separated by a filtration membrane module and a filtration membrane module guide, characterized in that 87) and a cylindrical protrusion 88 are installed to each other, and a plurality of collection pipes 82 can be connected to each other according to a use environment. The method of claim 3, Immersion type wastewater treatment system of the filtration membrane module and the filtration membrane module guide is separated form, characterized in that the projecting connection portion 86 is connected to each other by using the hose (83) and the hose (83) of the flat membrane (60). The method of claim 4, wherein The hose (83) is a immersion type wastewater treatment system of a separation of the filtration membrane module and the filtration membrane module guide, characterized in that the high elastic silicone hose. The method of claim 1, The plurality of flat membranes (60) is the immersion type wastewater treatment system of the filter membrane module and the filtration membrane module guide is separated form, characterized in that to form a handle in the center of the upper and the water collecting port 61 on the left and right sides of the upper. The method of claim 1, The fitting plate 40 integrally forms a coupling protrusion 43 at a lower portion thereof, and a plurality of coupling grooves 43 'corresponding to the coupling protrusion 43 are formed at the upper portion thereof. Immersion type wastewater treatment system of the type separated from the filtration membrane module and the filtration membrane module guide, characterized in that 40 can be connected to each other. The method of claim 1, Immersion type wastewater treatment system in which the filtration membrane module and the filtration membrane module guide are separated, characterized in that the interval between the upper surface of the diffuser (92) and the lower surface of the filtration membrane module seating portion (93) is 300mm to 500mm. The method of claim 1, A plurality of acid pores (95) of the diffuser (92) has a diameter of 6mm to 8mm, respectively, characterized in that the filtration membrane module and the filtration membrane module guide type of immersion type wastewater treatment system separated form.