KR850000968Y1 - Apparatus for treating wastes by biological methode - Google Patents

Abstract

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Description

Biological Sewage Treatment System by Rotating Disk

1 is a perspective view of the combined installation state of the present invention.

2 is a side view of the installation state in an enlarged state of the coupling state of the present invention.

3 is an excerpt perspective view of the main part of the present invention.

4 is an operating state of the present invention.

* Explanation of symbols for main parts of the drawings

1: Rotating Disc 2, 3, 4, 5: Upper, Lower, Left, Right Wall

6, 7: distribution port 8: bubble grinding groove

9: air collection plate 10: air guide plate

A: hollow part B: rotating disc device

The present invention relates to a biological sewage treatment apparatus using a rotating disk, and in particular, the present invention is installed in the opposite side of the upper and lower sides of the rotating disk, and the flow hole that can flow out of the sewage or air, An air collecting plate is installed inclined from one side of the lower distribution hole toward the upper distribution hole to install a hollow air collecting type inside the rotating disk, and an air guide plate is installed at the side of the air collecting plate end. It is installed concentrically around the axis of rotation and gradually rotates into the water of the sewage treatment tank so that the air collected by the air collecting diaphragm inside the rotating disk can be continuously and uniformly ejected in a fine bubble state. Extends the contact area and contact time with And to significantly improve the actively promote the growth of aerobic microorganisms in the water, growth and self-oxidation is one to improve the waste water treatment effect.

Generally, sewage treatment apparatuses and methods using various rotating disk methods have been introduced in the related art. However, in the conventional processing method using rotating disks, most of them are a method of temporarily introducing and ejecting air into water. Bubbles are quite large, and as a result, bubbles rise very fast, and the contact time and area between water and air are short. As a result, the aerobic microorganisms were attached to the rotating disks so that when the rotating disks were exposed to the air, the microorganisms were grown and multiplied, so that the sewage treatment effect was not very desirable. Is attached to the disk and the contact time between microorganisms and air As the rotation disk is immersed in the sewage because it should be maximized, the effect of air input into the sewage is greatly reduced. As a result, there is a problem of forcibly blowing air into the sewage. This leads to very uneconomical deficiencies in equipment, operation and maintenance.

In order to solve such a conventional defect, the present invention perforates the distribution hole on the inside of the rotating disk in a hollow state and the lower side, and at the same time installs the air collecting plate inclined therebetween, so that the rotating disk is waiting for rotation. When it comes into contact with air, the air is collected in the rotating disk, and the air trapped in the rotating disk and the horizontal destruction shape of the sewage flowing into the rotating disk are gradually sustained. Also, it is possible to improve the sewage treatment effect by doubling the contact time and the contact area with the air which is discharged in the fine bubble state by pulverizing uniformly to be discharged in the sewage with fine bubble state. When described in detail by the drawings as follows.

Fan shaped " "Up, down, left, right walls (2), (3) and (4), with grooves (2a), (3a), (4a), and (5a) arranged on one side of the" rotating disk (1) , (5) is installed in the upper and lower walls (2), (3) in the center of the distribution ports (6), (7) and the other side of the rotating disk (1) the insertion groove (2a), At the same time as the insertion protrusions 2b, 3b, 4b, and 5b inserted into the 3a, 4a, and 5a, and between the upper and lower flow passages 6, 7, " On one side of the " -shaped rotating disk 1, an air collecting plate 9 which is inclined from the lower wall 3 and has a bubble grinding groove 8 formed at the end of the popular discharge port is projected. The air guide plate 10 is protruded to the outside of the bubble outlet side of the diaphragm 9. The above-mentioned spacing grooves 9a and 10a are also applied to the air collecting diaphragm 9 and the upper portion of the air guide plate 10, respectively. To the point, "The corresponding other side of the shaped rotating disk 1 also protrudes the insertion projections 9b and 10b in the insertion grooves 9a and 10a, respectively. "On both sides of the type rotating disk 1, the engaging projections 13 and 14 which drilled through the fastening rod 11 and the through-hole 12 are respectively protruded," "When the rotating type disc (1) is constantly loaded and joined" The upper, lower, left and right walls (2), (3), (4), and (5) and the air collecting plate (9) of the one side of the "rotating disk (1) Inserted grooves 2a, 3a, 4a, 5a, 9a and 10a. "Type rotating disk 1 is inserted into the insertion protrusions 2b, 3b, 4b, 5b, 9b and 10b of the other side, and is inserted between the two rotating disks 1 and 1 The sealed hollow part (A) is " "To be formed between the type rotating disks (1) The engagement bars 13 and 14 protruding from both sides of the " -type rotating disk 1 are engaged and sealed, and the fastening rods 11 are inserted into the through holes 12 of the engagement protrusions 13 and 14. Through and inserting to complete a series of rotating disk device (B), to complete the complete rotating disk device (B) as described above, the complete rotating disk device (B) as described above with respect to the rotating shaft 15 A large number of radial combinations constitute the sewage treatment device C. The outside of the sewage treatment device C is driven by a large rotary wheel 17 having a gear 16 mounted on an outer circumferential surface thereof. The rotating disk device B is gradually rotated by the reduction device 18. The rotating disk device B is installed in a state substantially submerged in the water in the sewage treatment tank 19.

Referring to the operating state of the present invention configured as described above, dust " Insertion grooves 2a and 3a provided on the upper, lower, left and right walls 2, 3, 4 and 5 protruding from one side of the " type rotating disk 1 " ), (4a), (5a) another stacking " "When two inserting protrusions 2b, 3b, 4b, and 5b protruding from the other side of the rotating disk 1 are fixed, two pieces of the same type The airtight hollow part A which can collect air by the upper, lower, left, right wall (2), (3), (4), (5) between "type rotating disks (1) and (1). ) Is formed and is opened by the distribution ports 6 and 7 laid in the center of the upper and lower portions thereof, the upper and lower walls 2 and 3. In this state, the rotating disk is repeatedly stacked. After the device B is formed, a plurality of radial disks are installed about the rotating shaft 15 and rotated slowly by the reduction device 18. Each rotating disk apparatus B installed in a plurality of concentric circles about the rotating shaft 15 is provided. ) Is slowly rotated into the sewage treatment tank 19. As shown in FIG. 4, the rotating disk apparatus B has a cycle of a, b, c, d, e, f, g, and h as one cycle. In more detail, the operating state of collecting and ejecting air in response to the change of position is described in detail. "The type rotating disk 1 is present in the state exposed to the atmosphere, overlapping each" The sewage stored in the hollow portion A between the " -type rotating disks 1 and (1) falls into the sewage treatment tank 19 through the outlet 7 of the lower side wall 3, at which time the sewage falls. The oxygen traps oxygen by contacting the air in the air and at the same time, it is ejected from the other rotating disk device (B) located below and collides with the air bubbles floating on the water surface to extend the underwater residence time of the air bubbles. .

In this state of "a" while moving from the state of "b" "When the wastewater of the hollow part A between the type | mold rotating disks 1 and 1 flows out, "Laminated through the outlet 6 of the upper wall 2 of the type rotating disk 1" "Atmospheric air flows into and fills the hollow portion A between the shaped rotating disks 1 and 1, and if the position is moved to the point C again, the rotating disk device B "The rotating disk 1 is completely located within the sewage of the sewage treatment tank 19," "The air that flowed into the hollow portion A formed by the mold rotating disks 1 and 1 is hermetically sealed." The air layer is formed on the hollow part A by remaining between the " -type rotating disks 1 and 1, and the air layer is present with the horizontal water surface in the hollow part A by the air collecting plate 9. As the rotary part moves further to the portion d, the inclination of the air collecting plate 9 installed in the hollow part A and the water surface formed in the hollow part A gradually decreases as the hollow part ( A) The upper air layer and the air collecting plate 9 have one end of the horizontal state with the outlet, and thus the amount of air destroyed is blown along one end of the air collecting plate 9 so that the air collecting plate ( 9) It floats along the air guide plate 10 installed in the outer side and is ejected to the outlet 7 formed in the lower wall 3, wherein the air bubble outlet groove, which is an end of the air collecting partition plate 9, 8) is formed a lot of finer bubble In this state, if it continues to rotate in the efg state, the fine bubbles in the same state as d above until the inclination of the water collection plate 9 and the water surface in the hollow portion A are almost zero. Is uniformly and continuously sprayed into the water to supply air in the state of microbubbles in the sewage, and when further passes through the g point, the air is completely discharged and the sewage is filled into the hollow portion (A). After passing through the h point, it moves to the point a again. As a result, ah is rotated gradually in one cycle to collect air into the hollow part A. → The air is blown out into the microbubble state. Sewage inflow → sewage discharge → air collection by repeating the process of air collecting and supplying the air in the sewage treatment tank 19 continuously and uniformly in fine bubble state It extends the contact time and the contact area between the sewage and air in the reservoir 19, and accordingly, the oxygen supply of aerobic microorganisms is sufficient to improve the growth, proliferation, and self-oxidation of aerobic microorganisms. As such, the present invention avoids the method of temporarily blowing air in treating sewage, "The type of rotating disks are continuously laminated to form a rotating disk device, and each of which is laminated Between the "rotating disks", the air collecting hollow portion (A) is formed in a sealed state and the collected air is discharged uniformly and continuously in the sewage by the air collecting plate (9) formed in an inclined shape. By forming the treatment device (C), not only the sewage treatment capacity can be improved, but also a long enough time with little power to rotate only a plurality of radially coupled rotary disk devices without installing a separate complicated air supply device. It is a useful design with all the features that the operation and installation costs are reduced by allowing the bubble to remain in the water.

Claims (2)

In the installation of the sewage treatment apparatus C almost submerged in the water of the sewage treatment tank 19, the configuration of the sewage treatment apparatus C is referred to as ". Top, bottom, left and right walls 2, 3, 4 with insertion grooves 2a, 3a, 4a, 5a on one side of " type rotating disk 1 " , (5) and the insertion protrusions (2b), (3b), (4b), (5b) on the other side, and the upper, lower, sidewalls (2), (3) in the central portion of the outlet (6), At the same time, each of the seven (7) and the lower distribution port (7) on the lower side wall (3), the air collecting plate (9) is inclinedly speaking, and the air guide plate (10) protrudingly installed. "A plurality of type rotating disks 1 are stacked and combined to form a rotating disk device B and stacked" Biological sewage treatment apparatus according to the rotating disk, characterized in that forming a hollow portion (A) for collecting air between the "rotating disk (1), and comprises a plurality of said rotating disk device (B) radially. 2. The biological sewage treatment apparatus according to claim 1, wherein a bubble grinding groove (8) is formed at a bubble ejecting end at the free end of the air collecting plate (9).