KR200436008Y1 - Fixed-movable Type Bio contactor media case for advanced sewage and waste water treatment - Google Patents

Abstract

The present invention relates to a microbial carrier used for the treatment of sewage and wastewater, and more specifically, it is possible to maximize the treatment efficiency by increasing the contact area according to the flow of water in the aeration tank while arranging the microbial carrier in a contact aeration tank in an orderly manner. The present invention relates to a housing of a fixed-bed fluid carrier (CIMEN-DOC ^R ) for advanced sewage and wastewater treatment.

The housing of the fixed-bed fluid carrier (CIMEN-DOC ^R ) for advanced treatment of sewage and wastewater according to the present invention has a rectangular column shape with four sides opening, and has an upper through-hole through which a periodic pillar of a fixed frame penetrates the upper and lower centers. The lower support plate and the carrier outer frame accommodating portion formed vertically to both sides of the upper and lower support plates, and the accommodating groove formed along the inner circumferential surface with a gap therebetween, are provided with a plurality of housing bodies formed therein. It is configured to include a lattice-shaped carrier outline frame is fixed to the groove and fixed to the microorganism carrier therein.

In addition, it is divided into an upper housing and a lower housing, the carrier outer frame is configured to be fitted to the carrier outer frame receiving portion of the upper and lower housings formed with a gap therebetween.

The present invention constituted as described above is easy to attach and detach the microorganism carrier by fixing the carrier outline frame in which the microorganism carrier is fixed to the carrier outline frame accommodating portion formed therebetween, and widen the contact area in contact with the waste water in the contact aeration tank to increase the treatment efficiency. To increase.

In addition, in the installation of the contact aeration tank is installed so that the fixing frame is penetrated easily to install a plurality of microbial carrier housing and easy to maintain, rotatable in accordance with the flow of water in the contact aeration tank, that is, the flow of water, the contact area of the microbial carrier By increasing the amount of microorganisms attached, it is possible to maintain an appropriate amount at all times.

Housing of microorganism, carrier, contact aeration tank, fixed bed flow carrier.

Description

Fixed-movable Type Bio contactor media case for advanced sewage and waste water treatment

1 is an exploded perspective view of a housing having a conventional microbial carrier;

Figure 2 is a state of purification of the aeration tank in which the conventional microbial carrier housing is installed.

Figure 3 is a perspective view of the housing of the fixed-bed flow carrier for advanced sewage and wastewater treatment according to the present invention.

Figure 4 is an exploded perspective view of the housing of the fixed-bed fluid carrier for advanced sewage and wastewater treatment according to the present invention except the carrier frame.

Figure 5 is an exploded perspective view showing the outer frame of the carrier installed in the housing of the fixed-bed fluid carrier for advanced sewage and wastewater treatment according to the present invention.

Figure 6 is a front view showing a contact aeration tank in which the housing of the fixed-bed fluid carrier for advanced sewage and wastewater treatment according to the present invention is installed.

*** Explanation of symbols for the main parts of the drawing ***

1: Housing of fixed-bed fluid carrier for advanced sewage and wastewater treatment

10: microorganism carrier 20: carrier outline frame

30: housing body 30a: upper housing

30b: lower housing 40: microorganism carrier frame housing

41: storage groove

The present invention relates to a microbial carrier used for the treatment of sewage and effluent, and more particularly, to arrange the microbial carrier in a contact aeration tank in order to be rotatable according to the flow of water in the aeration tank to increase the treatment area. The present invention relates to a housing of a fixed-bed fluid carrier for advanced treatment of sewage and wastewater configured to maximize efficiency.

In general, the microbial carrier used in the catalytic oxidation method is to provide a habitat for microorganisms that are responsible for the purification of wastewater during the treatment of wastewater. Used to get rid of

Such microbial carriers may be said to be the best microbial carriers, maximizing the contact area with the wastewater while maximizing the microbial habitat to allow a large number of microorganisms to multiply and thereby maximize the purification capacity of the wastewater.

Looking at such a conventional microbial carrier housing with reference to Figures 1 and 2 as follows.

As shown, the conventional microbial carrier housing 100 has a through hole (150, 170) for the inflow of sewage and waste water in the upper and lower body (110, 130) as a whole, the upper and lower body (110, 130) In the edge portion 200 of the) clip (250a, 250b) for the coupling of the upper and lower body (110, 130), the coupling portion (210, 230) of the coupling hole (210a, 230a) is formed, therein The plate-shaped microbial carriers 400 stacked one or more by the partition 300 are configured to be partitioned, respectively.

In addition, the microorganism carrier 400 is a synthetic resin sponge that is fixed and cultured by aerobic microorganisms such as nitrogen decomposition bacteria and soil bacteria.

As shown in FIG. 2, the microbial carrier 400 stacked in at least one inside the housing 100 partitioned by the partition 300 is installed in the reaction tank such as the contact aeration tank 500. It is fixed to the fixed frame 510 to purify the sewage and sewage and waste water through the microorganisms cultured on the microorganism carrier 400, wherein the microbial carrier 400 is stacked with each other, as shown in FIG. Since the state of the water flows through the microbial carrier 400 is not smooth movement of the specific portion of the microbial carrier 400 in contact with the water flow is purified only.

Therefore, there is a big problem such as not evenly purifying the entire stacked microorganism 400.

In addition, in the case of the microorganism carrier 400, since the stacked structure is in close contact with each other without a space between the carriers 400, the dissolved oxygen is gradually reduced while the microorganism carrier 400 in the aerobic state is changed to an anaerobic state. There was also a problem that the aerobic microorganisms that are fixed to the microorganism carrier 400, that is, aerobic microorganisms oxidizing / decomposing organic substances using oxygen dies, and there is no problem in purifying sewage and wastewater.

The present invention is to solve the above problems, to prevent the microorganisms fall by contact and at the same time widen the contact area of the microorganisms to maximize the activity of the microorganisms, can increase the treatment efficiency of sewage and wastewater. An object of the present invention is to provide a housing of a fixed-bed flow carrier for advanced sewage and wastewater treatment.

In addition, an object of the present invention is to provide a housing of a fixed-bed fluid carrier for advanced treatment of sewage and wastewater, in which the microbial carrier housing and the microbial carrier can be easily attached and detached, and are easily installed and maintained.

In order to achieve the above object, the housing of the fixed-bed fluid carrier (CIMEN-DOC ^R ) for advanced sewage and wastewater treatment according to the present invention has a fixed-phase state for smooth supply of oxygen and contact of contaminated nutrients, organic matter and biofilm. It is installed to, and is configured to have a rectangular frame shape to be fixed to the main pillar of the fixed frame installed in the contact aeration tank by the combination of the upper housing and the lower housing.

In other words, a plurality of microbial carriers are accommodated therein, and the microbial carrier housing positioned and fixed at one side of the aeration tank by a main pillar of a fixed frame installed vertically in the contact aeration tank has a rectangular frame shape in which all sides are opened and top and bottom thereof. A plurality of upper and lower support plates, each having a cylindrical through hole through which the main pillar penetrates, and a carrier outer frame accommodating portion formed vertically to both sides of the upper and lower support plates and having a receiving groove formed along an inner circumferential surface thereof, have a plurality of intervals therebetween. Comprising a housing main body, it comprises a lattice-shaped carrier outline frame is fixed to the receiving groove of the carrier frame housing portion and the microbial carrier is fixed therein.

In addition, it comprises a periodic through pipe connecting the main column through hole formed in the upper support plate and the lower support plate of the housing of the fixed-bed fluid carrier (CIMEN-DOC ^R ) for advanced treatment of sewage and wastewater .

And, preferably, the housing body is composed of a combination of the upper housing and the lower housing, the upper housing is formed in a vertical upper portion of the upper, and vertically to the lower portion of the upper portion and the upper half of the carrier frame is fixed fixed The upper carrier outer frame accommodating portion having a "c" shape, and an upper rectangular cross-section having an upper cross bar connecting the upper carrier outer frame accommodating portion and the neighboring accommodating portion are formed.

In addition, the lower housing is a lower portion of the rectangular shape in the lower portion, the lower carrier outer frame housing portion of the "c" shape formed vertically to the upper portion of the lower portion and the half of the carrier frame is fitted and fixed, and the lower It has an open rectangular box shape formed with a lower crosspiece connecting the carrier frame housing portion and the adjacent housing portion.

In addition, an upper coupling protrusion protruding downward is formed on one side of the lower side of the upper housing of the upper housing, and a plurality of upper coupling grooves penetrated to the other side is formed, and an upper coupling of the upper housing is formed on one side of the lower side of the lower housing of the lower housing. A plurality of lower coupling protrusions and lower coupling grooves are formed to correspond to the protrusions and the upper coupling grooves.

As such, the upper housing and the lower housing are coupled by the coupling of the corresponding upper and lower coupling protrusions and the upper and lower coupling grooves.

In addition, a plurality of water flow ports penetrating the upper and lower bases of the upper and lower housings, and the support plate water flow ports penetrating the upper and lower support plates.

And, the interval between the carrier frame housing portion is characterized in that 50 to 300mm.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the housing of the fixed-bed fluid carrier for advanced wastewater treatment according to the present invention.

3 is a perspective view of a housing of the fixed-bed fluid support for the sewage and wastewater advanced treatment according to the present invention, Figure 4 is an exploded perspective view of the housing of the fixed-bed fluid support for the sewage and wastewater advanced treatment according to the present invention, except for the carrier outline, Figure 5 (a) (b) is an exploded perspective view showing the outer frame of the carrier installed in the housing of the fixed-bed fluid carrier for advanced sewage and wastewater treatment according to the present invention.

As shown in the drawing, the housing 1 of the fixed-phase flow type carrier for advanced sewage and wastewater treatment has a rectangular frame shape having a lattice structure on all sides, and contacts the sewage and wastewater in the contact aeration tank inside the housing main body 30. And the carrier outer mold 20 to which the microbial carrier 10 for treating nitrogen, phosphorus, etc. is fixed is sequentially received.

At this time, the surface of the plate-shaped microbial carrier 10 which is inserted and fixed to the carrier frame 20 is coated with microorganisms for treating various contaminants, preferably nitrifying microorganisms.

And, so as not to interfere with the movement of the water flow generated in the contact aeration tank to form a gap (a) for this between the outer frame 20 and the outer frame, the fixed-bed flow-type carrier for advanced wastewater treatment A carrier outline housing portion 40 into which the carrier outline frame 20 is fitted is formed along the edge of the housing 1 so as to have the same distance as the interval a, and the carrier outline storage portion ( By placing the carrier outline 20 in the receiving groove 41 formed along the inner circumferential surface of the carrier 40, the carrier outline 20 is accommodated at regular intervals in the housing 1 of the stationary flow carrier.

As such, by forming a gap (a) between the carrier outer mold 20 and the outer mold, smooth air is supplied to the microbial carrier 10 fixed to the carrier outer mold 20, and the microbial carrier 10 is The contact area with the waste water in the contact aeration tank is expanded to maximize the treatment efficiency by the carrier 10.

Preferably, the distance between the microbial carrier 10 and the carrier 10, that is, the distance a between the carrier frame accommodating portion 40 and the accommodating portion 40 is spaced about 50-300 mm, which is This is to allow a smooth flow of water between the carrier 10 and the carrier 10 with a smooth air supply to the carrier 10 installed in the contact aeration tank.

In other words, when the distance between the carrier 10 and the carrier 10 is 50 mm or less, the flow path between the carrier and the carrier is narrowed by the microorganisms proliferated on the surface of the carrier 10 and the resistance to the flow of water flows. On the contrary, when the distance between the carrier 10 and the carrier 10 is 300 mm or more, the filling rate of the carrier 10 filled in the contact aeration tank is reduced, and the treatment efficiency of organic matter, nitrogen, phosphorus, etc., is compared with the same load. This disadvantage is caused such a decrease.

In addition, the storage groove 41 formed in the carrier frame housing 40 has a microorganism carrier fixed therein by shaking the carrier frame 20 seated in the storage groove 41 as the water flow of the contact aeration tank moves. The carrier frame 20 has a size that can be stably fixed so that the microorganism attached to the (10) is not detached, the thickness of the carrier frame housing 40 is not accommodated to the movement of water flow It has a thickness the same as or similar to the groove 41.

In addition, the upper and lower edges of the housing body 30 of the housing 1 of the fixed-bed flow carrier for advanced treatment of sewage and wastewater can freely move in the contact aeration tank, and microorganisms accumulate in dead-space. A plurality of water flow ports (32, 33) penetrating the edge is formed so as not to form a.

The housing 1 of the fixed-bed flow carrier for advanced sewage and wastewater treatment is installed in a housing fixing frame in the contact aeration tank, and penetrates the main microbial carrier housing 1 of the fixed frame installed vertically in the contact aeration tank. Periodic through pipe 34 is formed in the upper and lower center so that it can be positioned.

To this end, the support plate (35a) formed with a cylindrical through-hole 31 so that the cylindrical through-pipe 34 can be integrally formed in the upper and lower portions of the housing (1) of the fixed-bed flow carrier for advanced wastewater and wastewater treatment. 35b) is formed.

In more detail, referring to Figure 4 looks at the structure of the housing (1) of the fixed-bed fluid carrier for advanced wastewater treatment.

As shown, the housing body 30 of the stationary flow-type carrier housing 1 of the rectangular frame shape in which the carrier frame 20 is positioned with a space a between the upper housing 30a and the lower housing 30b is large. ) Is a combination of

Preferably, the upper housing (30a) and the lower housing (30b) is a cross-sectional shape of the side center of the fixed-phase flow-type carrier housing 1, the plate-shaped carrier outer frame 20, the microorganism carrier 10 is fixed ) Correspond to each other so that the upper carrier outer frame accommodating portion 40a and the lower carrier outer frame accommodating portion 40b may be fitted into the accommodating groove 41 of the upper housing 30a and the lower housing 30b. It has a shape.

In more detail, the upper housing 30a has a rectangular frame formed by integrating a plurality of rectangular boxes open in all directions in parallel to form a rectangular frame. The upper housing 36 having a rectangular shape on the upper surface of the upper housing 36 is provided. The upper carrier outer frame housing portion 40a is formed to have the same space (a) therebetween and is formed vertically downward.

The upper carrier frame accommodating portion 40a is connected and integrated by a neighboring upper carrier outer frame accommodating portion 40a and the upper crossbar 38a.

At this time, the upper crosspiece 38a is configured to be parallel to the upper stand 36, and the upper support frame housing 40a is the upper stand 36 according to the size of the carrier frame 20 to be fixed. It is configured to protrude to both sides of the).

In addition, an upper support plate 35a is formed at the center of the upper base 36 of the upper housing 30a so that a periodic through pipe 34 is formed, and preferably the same on both sides of the upper support plate 35a. A number of upper carrier outline housing portions 40a are formed.

In addition, the upper support plate 35a is formed with a period through hole 31 through which the period through pipe 34 penetrates, and the period through hole 31 is formed to protrude to the outside of the support plate 35a. do.

In addition, support plate flow ports 33 penetrating through the support plate 35a are formed on both sides of the through hole 31 of the upper support plate 35a to smoothly move the water flow in the contact aeration tank.

In addition, a plurality of water flow ports 32 are formed along the edge of the upper base 36 of the upper housing 30a. Preferably, the water flow ports 32 are formed to penetrate the edges of the upper base 36. And an edge formed between the upper carrier outer frame accommodating part 40a and the accommodating part 40a.

In addition, the upper carrier 38a for integrally connecting the upper carrier outer frame accommodating portion 40a and the accommodating portion 40a of the upper housing 30a may have a constant upper gap between the upper carrier outer frame. To support the lower side of the side of the payment portion 40a, and to facilitate the coupling with the lower housing 30b described below, one side of the upper engaging projection (37a) protruding to the lower side around the upper support plate (35a) is It is formed, the other side is formed through the upper coupling groove (39a).

In addition, the lower housing 30b has the same structure as the upper housing 30a, and preferably has the shape corresponding to the inverted upper housing 30a.

More specifically, the lower housing 30b is formed with a rectangular lower base 36b on the bottom surface and a same gap (a) between the lower base 36b and vertically formed in the upper portion of the “c” shape. The lower carrier of the frame housing portion 40b.

In addition, the lower carrier frame housing 40b is connected and integrated by the adjacent lower carrier frame housing 40b and the lower crossbar 38b.

At this time, the lower crossbar 38b is configured to be horizontal with the lower stand 36b, and the lower carrier outline frame receiving portion 40b is based on the size of the carrier outline frame 20 to which the lower stand 36b is fixed. Protruding to both sides of the) may be configured.

In addition, a lower support plate 35b is formed at the center of the lower base 36b of the lower housing 30b so that a periodic through pipe 34 is formed, and preferably the same on both sides of the lower support plate 35b. A number of lower carrier outline housing portions 40b are formed.

In addition, the lower support plate 35b is formed to protrude out of the support plate 35b in which a cycle through hole through which the cycle through pipe 34 passes.

In addition, support plate flow ports 33 penetrating the support plate are formed on both sides of the through hole of the lower support plate 35b to smoothly move the water flow in the contact aeration tank.

In addition, a plurality of water flow ports 32 are formed along the edge of the lower base 36b of the lower housing 30b. Preferably, the water flow ports 32 are formed to penetrate the edges of the lower base 36b. And an edge formed between the lower carrier outer frame accommodating part 40b and the accommodating part 40b.

In addition, the lower carrier outer frame 38b for integrally connecting the lower carrier outer frame housing 40b and the housing 40b of the lower housing 30b has a gap (a) between the number of lower carrier outer frames uniformly formed. Supporting the upper end side of the payment portion (40b), one side is formed with a lower coupling protrusion 37b protruding upward, the other side is formed through the lower coupling groove (39b).

The upper housing 30a and the lower housing 30b configured as described above are in contact with the upper crossbar 38a of the upper housing 30a and the lower crossbar 38b of the lower housing 30b, and the upper coupling protrusion 37a. Is fitted into the lower coupling groove 39b, and the lower coupling protrusion 37b is coupled to the upper coupling groove 39a.

In this case, the upper carrier outer frame housing 40a and the lower carrier outer housing 40b of the upper housing 30a and the lower housing 30b have one rectangular frame shape. A single fixed bed flow carrier housing is formed by inserting the carrier outline frame 20 in which the plate-shaped carrier 10 is fixed to the receiving groove 41 of 40b, and then combining the upper housing 30a and the lower housing 30b. (1) is configured.

As such, the carrier frame 20 fixedly coupled to the fixed-phase flow-type carrier housing 1 is as follows.

Figure 5 (a) (b) is an exploded perspective view showing a carrier outline installed in the housing of the fixed-bed flow carrier for advanced wastewater treatment according to the present invention.

As shown in Figure 5 (a), the carrier outer mold 20 is configured to be fixed to the carrier 10 coated with the nitrification microorganisms between the first mold 21 and the second mold 22.

At this time, the microbial carrier 10 is a carrier coated with nitrifying microorganisms, and preferably, is formed in a rectangular plate shape made of polyurethane, which is a main component of toluene di-isocyanate (TDI) in an isocyanate compound and a polyether in a polyol.

 In addition, the first frame 21 and the second frame 22 is a plate-shaped frame having a lattice structure such as a window shape and has a shape corresponding to each other, and inserts and combines the microbial carrier 10 therein to form a single carrier. Form the mold 20.

In addition, the carrier frame 20 may be configured in the shape of a window frame so as to slide the microorganism carrier 10 therein, as shown in Figure 5 (b).

6 is a front view showing a contact aeration tank in which the housing of the fixed-bed fluid carrier for advanced sewage and wastewater treatment according to the present invention is installed.

As shown in the drawing, the contact aeration tank 50 is provided with a fixed frame 60 for fixing the housing 1 of the fixed-phase flow carrier.

At this time, the fixing frame 60 is composed of a main column 61 installed perpendicularly to the inside of the contact aeration tank 50 and a connecting pipe 62 for supporting and connecting the main column 61 to a fixing means such as an anchor. It is installed in the contact aeration tank 50, it is connected in a square according to the capacity of the microbial carrier housing 1 and the contact aeration tank 50 is installed.

In addition, the housing 1 of the fixed-bed flow carrier for advanced sewage and wastewater treatment is fixed while the main column 61 of the fixed frame penetrates through the main column through pipe 34 formed at the center thereof, and the microorganisms adjacent to the upper and lower parts thereof. The carrier housing 1 is positioned at regular intervals by a spacing pipe 63 fitted together in the main column 61.

In addition, the housing 1 of the fixed-phase flow-type carrier is locked to the inside according to the site requirements that the upper portion is located or installed the same as the water surface of the contact aeration tank 50 in accordance with the capacity and the water depth of the contact aeration tank (50) So that it is

In addition, although not shown, the diffuser provided inside the contact aeration tank is not limited to the type and location, but preferably, is provided separately in the lower portion of the contact aeration tank in a disk type.

Accordingly, the housings 1 of the plurality of stationary flow-type carriers installed by the force of the water flow formed in the contact aeration tank rotate about the main column 61 of the fixed frame 60 and the contact area of the microorganism carriers therein. Increase the treatment efficiency of the whole process by treating the incoming contaminants.

In addition, according to the housing 1 of the fixed-phase flow-type carrier rotated by the force of the water flow, the attachment and detachment of the microorganisms attached to the carrier are adjusted by themselves so that an appropriate amount of microbial membrane is always formed to maximize the treatment efficiency.

The present invention described above is possible to those skilled in the art to which the present invention belongs, various modifications and changes can be made within the scope without departing from the technical spirit of the present invention the above-described embodiment and the accompanying drawings It is not limited to.

As described above, according to the housing of the fixed-bed fluid carrier for advanced treatment of sewage water according to the present invention, in the installation of the contact aeration tank, it is installed so that the fixing frame penetrates and the spacing can be easily adjusted and the attachment and detachment of the microorganism carrier is easy. There is.

In addition, there is an effect that the treatment efficiency is increased by increasing the contact area in which the internal microorganism carrier is in contact with the waste water in the contact aeration tank.

Claims (6)

In the housing of the carrier is a plurality of microorganism carriers are accommodated therein, which is located and fixed to one side inside the aeration tank by the main pillar of the fixed frame vertically installed in the contact aeration tank, An upper and lower support plate having a rectangular frame shape in which four sides are opened, and a periodic through hole through which the periodic column penetrates is formed at an upper center and a lower center; A housing main body formed vertically to both sides of the upper and lower support plates, and having a plurality of carrier outer frame accommodating parts formed therein along the inner circumferential surface with a gap therebetween; The housing of the fixed-bed fluid carrier for advanced sewage and wastewater treatment, characterized in that it comprises a lattice-shaped carrier outer frame is fixed to the receiving groove of the carrier outer mold housing, the microorganism carrier is fixed therein. The method of claim 1, The housing of the fixed-bed fluid carrier for advanced treatment of sewage and wastewater, characterized in that it comprises a period through-pipe connecting the main column through-hole of the upper support plate and the lower support plate and the main column penetrates. The method of claim 1, The housing main body has a rectangular upper portion on the upper portion, an upper portion of the upper portion of the upper portion formed vertically to the lower portion of the upper portion of the carrier frame, and the upper portion of the upper carrier outer frame accommodating portion, and the upper carrier outline An upper housing having an open rectangular box shape having an upper crossbar connecting the frame housing and the adjacent housing; A rectangular carrier having a rectangular shape at a lower portion thereof, a “c” shaped lower carrier outer housing containing portion which is vertically formed on the upper portion of the lower portion and fitted with a half of the carrier outer frame, and the lower carrier outer housing containing portion; The housing of the fixed-bed fluid carrier for advanced treatment of sewage and wastewater, characterized in that it consists of a combination of a lower housing of an open rectangular box shape having a lower crosspiece connecting neighboring accommodating portions. The method of claim 3, A plurality of upper coupling protrusions protruding downward and a plurality of upper coupling grooves formed at one side of a lower surface of the upper horizontal cross of the upper housing; The lower side of the lower crosspiece of the lower housing is a fixed bed flow carrier for advanced sewage and wastewater treatment, characterized in that a plurality of lower coupling protrusions and lower coupling grooves are formed to correspond to the upper coupling protrusion and the upper coupling groove of the upper housing. Housing. The method of claim 3, And a plurality of water flow ports penetrating the upper and lower bases of the upper and lower housings, and a support plate water flow port penetrating the upper and lower support plates. The method according to claim 1 or 3, The housing of the fixed-bed fluid carrier for advanced treatment of sewage and wastewater, characterized in that the interval between the carrier outer frame accommodating portion is 50 ~ 300mm.

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