KR102025700B1 - Radial Circular Clarifier - Google Patents

Abstract

The present invention relates to a circular sludge collector having a radial flow. The circular sludge collector having a radial flow is provided to: suppress settled sludge on the bottom of a sedimentation basin from dispersing or flowing due to the flow of raw water into the sedimentation basin; and increase the sedimentation efficiency of flocculation through the sedimentation induction of flocculation and the overall dispersion of incoming raw water as well as slowing the flow rate of raw water. For the above, the present invention comprises: a water treatment tank; a scraper installed on an inner bottom of the water treatment tank; a drive mechanism supporting and moving the scraper; and a feed well installed in the upper center of the water treatment tank. The feed well comprises: an outer cylinder which has a raw water inlet formed at an eccentric position; an inner cylinder which forms an air-whirling space with the outer cylinder by including an outer peripheral surface spaced apart facing the inner peripheral surface of the outer cylinder, and is installed so that the top of the inner cylinder is positioned at a lower place than the top of the outer cylinder; a partition which closes the lower end part of the air-whirling space and the inner cylinder and has a flow path formed in the center thereof to discharge raw water downwards; a support plate which is spaced apart from the lower part of the outer cylinder; and a plurality of slant panels which connects the support plate and the outer cylinder, divides the flow of raw water dispersed in a horizontal direction by the support plate into a first flow of a horizontal direction and a second flow of a rising direction, and is formed in a three-stage bent structure to induce the sedimentation of flocculation flowing with raw water.

Description

Radial Circular Clarifier with Radial Flow

The present invention relates to a sludge collector, and more particularly, to induce an even flow of the raw water while slowing the flow rate by turning the raw water flowing into the treatment tank, to improve the flocculation efficiency of the floc through partial vortex generation, While inducing the precipitation of relatively large coarse flocs, the relatively small microfluids include feed wells that are distributed at a slow flow rate along the sides and top of the settling tank along with raw water flowing into the settling tank to improve the settling efficiency. To a circular sludge collector having a radial flow.

Wastewater is water that can not be used as it contains liquid, solid, and gaseous wastes. Industrial wastewater is generated by various industrial activities. Organic wastewater (BOD, COD), suspended solids (SS) In addition to common pollutants such as nitrogen, phosphorus and phosphorus, it contains harmful substances such as toxic organic substances and heavy metals.

If the wastewater is discharged as it is, serious environmental pollution will be caused. Therefore, the pollutants contained in the wastewater are separated and decomposed to be stabilized or converted into harmless substances so that the wastewater does not pollute the natural environment such as rivers. There is a purpose.

On the other hand, the sedimentation basin constituting one step of the wastewater treatment is provided to receive the raw water in which the flocculant is injected to precipitate the floc formed by flocculation of suspended solids due to the flocculant, and discharge the treated water from which the floc is removed to the top.

Meanwhile, the sedimentation basin disclosed in Patent Literature 1 is supplied with raw water through a feed well provided at a central upper portion, and the raw water supplied through the feed well discharges the feedwell downward to flow toward the bottom of the sedimentation basin to form a rising flow. As the raw water flows, flocs formed due to flocculation of suspended solids accumulate on the bottom of the sedimentation basin and sludge is precipitated.

In this conventional sedimentation basin, the sludge deposited on the bottom of the sedimentation tank is resuspended by the impact of the flow of raw water flowing through the feed well and flowing toward the bottom of the sedimentation basin, and the sedimentation of the sludge is prevented. It grows in proportion to the flow rate of raw water discharged through the well.

On the other hand, recently, by improving the structure of the feed well to protect the sludge at the bottom of the sedimentation basin to prevent sludge dispersing as the sludge is dispersed, the sedimentation efficiency of the sludge is reduced, but the flow rate is distributed only by diffusion around the sedimentation basin to improve only within a certain efficiency It is stopping.

In addition, in the case of the scraper configured in the conventional sedimentation basin, the scraper structure arm is very close to the bottom surface of the sedimentation basin to rise the sludge precipitated during the rotation operation to reduce the sludge concentration and sedimentation efficiency, there is a disadvantage to increase the power consumption.

Published Patent Publication 10-2006-0114709 (Nov. 2006)

The present invention has been made in consideration of the above problems, and an object of the present invention is to prevent the settling sludge at the bottom of the sedimentation basin due to the flow of raw water flowing into the sedimentation basin, to prevent the dispersion or flow, and to slow down the flow rate of the raw water, The present invention provides a circular sludge collector having a radial flow which increases the flocculation efficiency through flocculation induction and overall dispersion of incoming raw water.

The present invention to achieve the object as described above and to perform the problem for removing the conventional defects is a treatment tank consisting of a ware is discharged to the treated water is discharged in the upper end portion, the discharge sludge is discharged is formed in the lower center; A scraper for moving the sludge deposited on the bottom to an outlet while moving along the circular trajectory at the inner bottom of the treatment tank; A drive mechanism installed in a vertical position in the center of the treatment tank and connected to the scraper to support and move the scraper; And a feed well installed at the upper center of the treatment tank so as to receive the raw water to be treated, slowing the flow rate of the raw water by turning the incoming raw water, and evenly distributing the raw water in all directions to discharge the inside of the treatment tank. , The feed well is made of a cylindrical in a vertical posture, the outer cylinder made of a horizontal posture formed in a position in which the raw water inlet from which the raw water is introduced is out of the center; Placed inside the outer cylinder, including the outer circumferential surface facing the inner circumference of the outer cylinder to form a turning space for inducing flow rate reduction and dispersion through the turning of the enemy with the outer cylinder, and enters the turning space beyond the filling enemy An inner cylinder installed so that an upper end thereof is lower than an upper end of the outer cylinder so as to flow into the inner side; A diaphragm formed to close the lower end of the inner cylinder and the turning space, a flow path formed at a central portion thereof to discharge the raw water flowing into the inner cylinder downward; A support plate spaced apart from the lower portion of the outer cylinder so as to distribute the raw water discharged to the lower portion of the inner cylinder through the flow path of the diaphragm in a horizontal direction; The base plate and the outer cylinder are connected to each other, and are arranged to be distributed along the circumference of the outer cylinder, and the flow of raw water dispersed in the horizontal direction by the supporting plate is divided into a first flow in the horizontal direction and a second flow in the ascending direction. It provides a circular sludge collector having a radial flow, characterized in that consisting of; a plurality of inclined plate formed in a three-stage bent structure to induce the precipitation of the flowing floc.

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Meanwhile, in the circular sludge collector having the radial flow, each of the inclined plates has a vertical posture to induce the first flow, and is made of a plate vertically perpendicular to an axis extending radially from the center of the supporting plate. Vertical portion; A first inclination part having a structure extending upwardly from an upper end of the vertical part, the first inclination part consisting of a plate formed to have a posture tilted in a clockwise direction with respect to a center of a feed well; And a second inclined portion having a structure extending downward from the lower end of the vertical portion and formed of a plate formed to have a posture tilted in a clockwise direction with respect to the center of the feed well.

On the other hand, in the circular sludge collector having the radial flow, while colliding with the raw water swirling in the turning space to generate a vortex to increase the flocculation efficiency of the floc and the raw water flowing into the inner cylinder over the inner cylinder in the circumferential direction of the inner cylinder A plurality of first baffles to be uniformly introduced; wherein the plurality of first baffles are arranged to be distributed along the circumference of the upper end of the inner cylinder, it may be made of a plate having a vertical attitude.

Meanwhile, in the circular sludge collector having the radial flow, the scraper includes one to three scrapers installed at the lower end of the scraper structure arm, and the scraper structure arm has a distance of at least 5% of the radius of the treatment tank. It may be installed spaced apart from the bottom of the treatment tank.

According to the present invention having the characteristics as described above, the raw water flowing into the treatment tank does not fall to the bottom of the treatment tank as it flows toward the side and top of the treatment tank, a relatively large volume in the flow of the raw water Coarse flocs are precipitated by the inclined plate, and the relatively small volume of fine flocs are dispersed with the raw water to the front of the treatment tank to prevent resuspension of the sludge and increase the precipitation efficiency.

1 is a perspective view of a sludge collector according to a preferred embodiment of the present invention,
2 is a cross-sectional view of a sludge collector according to a preferred embodiment of the present invention;
3 is a front view of a feedwell according to a preferred embodiment of the present invention;
4 is a plan view of a feedwell according to a preferred embodiment of the present invention;
5 is an exemplary view showing a path in which raw water flows in a feed well according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a perspective view of a sludge collector according to a preferred embodiment of the present invention, Figure 2 is a cross-sectional view of the sludge collector according to a preferred embodiment of the present invention, Figure 3 is a front view of a feed well according to a preferred embodiment of the present invention 4 is a plan view of a feed well according to a preferred embodiment of the present invention, Figure 5 shows an exemplary view showing a flow path of raw water in the feed well according to a preferred embodiment of the present invention.

Sludge collector according to the present invention is composed of the treatment tank 100, the scraper 200, the drive mechanism 300, the feed well 400.

The treatment tank 100 is made of a cylindrical structure, the upper end is formed of the raw water from which the floc is removed, that is, the ware 110 for discharging the treated water, the lower end is formed with an outlet 120 for discharging the sludge is settled It is composed.

On the other hand, the bottom of the treatment tank 100 is formed in a structure inclined downward toward the center portion, the outlet 120 is formed in the bottom center of the treatment tank 100.

Therefore, the sludge precipitated at the bottom of the treatment tank 100 is collected in the center by the scraper 200, and is discharged through the outlet 120.

The scraper 200 is to push the sludge precipitated at the bottom of the treatment tank 100 to the discharge port 120, to move the sludge while moving along the circular trajectory from the inner bottom of the treatment tank 100. do.

That is, according to the scraper 200 according to the present invention, one to three scrapers 200 are installed at the lower end of the truss-type scraper structure arm 210 according to the size of the treatment tank 100, and a plurality of scrapers are provided. The structure arm 210 is disposed in a radial structure around the driving mechanism 300 to move the scraper 200 along the circular trajectory while the scraper structure arm 210 rotates by the driving mechanism 300.

On the other hand, the scraper structure arm 210 is at least 5% of the radius (R) of the treatment tank (100) for the stable movement of the sludge while preventing the re-injury of the sludge deposited on the bottom of the treatment tank 100 (D) The treatment tank 100 is disposed spaced apart from the bottom.

For example, assuming that the radius R of the treatment tank 100 is 5000 mm, the scraper structure arm 210 is installed to have a structure spaced apart from the bottom of the treatment tank 100 at a distance of 250 mm or more.

On the other hand, when the scraper structure arm 210 is too far from the treatment tank 100, as the height of the scraper 200 is relatively high, a large load is applied to the scraper 200 to damage the scraper 200 or sludge Since there is a problem that the collection is not smooth, the scraper structure arm 210 is preferably installed at a distance (D) of 5% or more and 10% or less with respect to the radius (R) of the treatment tank (100).

In addition, each scraper 200 has a curved curved structure, is installed so as to have an obliquely inclined posture rather than orthogonal to the scraper structure arm 210 is in close contact with the bottom of the treatment tank 100 made of a conical structure. Configured to move along a circular trajectory.

The drive mechanism 300 is installed in a position perpendicular to the center of the treatment tank 100, is connected to the scraper 200 to move the scraper 200, the attitude perpendicular to the center of the treatment tank 100 The rotating shaft 310 is installed to have a rotatable structure and is connected to the plurality of scraper structure arms 210, and the motor 320 is connected to the rotating shaft 310 to rotate the rotating shaft 310.

The feed well 400 slows the flow rate of the raw water flowing into the treatment tank 100 and controls the flow of the raw water so that the raw water is evenly distributed from the central portion of the treatment tank 100 to allow the floc to settle smoothly. The outer cylinder 410, the inner cylinder 420, the diaphragm 430, the supporting plate 440, and the inclined plate 450 may be configured to be able to do so.

The outer cylinder 410 is composed of a cylinder in a vertical posture, the upper end portion of the treatment tank 100 by a not shown support structure extending from the outer upper end of the treatment tank 100 to the central portion of the treatment tank 100 It is fixedly installed.

The outer cylinder 410 is formed with a raw water inlet 411, the raw water inlet 411 is connected to the raw water supply pipe not shown is configured to receive the raw water mixed with the flocculant.

On the other hand, the raw water inlet 411 is a horizontal posture formed to be connected to the outer cylinder 410 in a position away from the center of the outer cylinder 410 raw water flowing into the inside of the outer cylinder 410 through the raw water inlet 411 Configured to form a pivoting flow.

The inner cylinder 420 is made of a cylinder of a vertical posture having a diameter and a lower height than the outer cylinder 410, is fixed to the inner upper end of the outer cylinder 410.

More specifically, the inner cylinder 420 is disposed inside the outer cylinder 410 so that the outer circumferential surface thereof is spaced apart from the inner circumferential surface of the outer cylinder 410, and thus disposed between the inner cylinder 420 and the outer cylinder 410. The turning space (S) is formed to be uniformly distributed in the circumferential direction of the feed well 400 while reducing the flow rate of the raw water flowing into the outer cylinder 410 through the raw water inlet 411.

In addition, the upper end of the inner cylinder 420 is installed or formed to be positioned lower than the upper end of the outer cylinder 410, and thus the raw water filling while turning in the turning space (S) is beyond the upper end of the inner cylinder 420 inner cylinder 420 Flows into).

On the other hand, the raw water flowing into the interior of the inner cylinder 420 beyond the upper end of the inner cylinder 420 to be introduced more uniformly along the circumference of the inner cylinder 420, and also collides with the raw water turning in the turning space (S) The first baffle 421, which induces active contact between the flocculant and the suspended solids and promotes the formation of the floc by generating vortices, may be further installed at the upper end of the inner cylinder 420.

At this time, the first baffle 421 is arranged to be distributed along the circumference of the upper end of the inner cylinder 420, each of the first baffles 421 is protruded to the inside of the inner cylinder 420 and outward It consists of a vertical plate having a structure in which a portion of the top protrudes.

The diaphragm 430 is made of a plate installed in the lower end of the inner cylinder 420 to close the lower end of the turning space (S) and the inner cylinder 420, the raw water flowing into the inner cylinder 420 of the inner cylinder 420 The flow path 431 for discharging down through the central portion is configured to be formed in the central portion.

The support plate 440 is composed of a plate material spaced apart from the lower portion of the outer cylinder 410 to distribute the raw water discharged through the flow path 431 in the horizontal direction.

The support plate 440 is fixed to the lower end of the outer cylinder 410 via a plurality of inclined plate 450.

The inclined plate 450 induces floc to settle and induces the raw water to be uniformly distributed to the front surface of the treatment tank 100. A plurality of inclined plates 450 are installed along the circumference of the support plate 440. .

On the other hand, each of the inclined plate 450 is connected to the base plate 440 and the outer cylinder 410, it is formed of a three-stage bent structure to divide the flow of raw water into a horizontal first flow and a second flow in the upward direction And to induce precipitation of the flocs flowing with the raw water.

More specifically, the inclined plate 450 includes a vertical portion 451, a first inclined portion 452, and a second inclined portion 153.

The vertical portion 451 is a portion which induces a horizontal first flow of raw water while forming a central portion of the inclined plate 450, and is vertically erected to be parallel to an axis extending radially from the center of the supporting plate 440. It consists of.

According to the vertical portion 451, the raw water from the feed well 400 flows on the surface of the vertical portion 451 to form a horizontal first flow.

The first inclined portion 452 has a structure extending from the upper end of the vertical portion 451 to the upper portion, and is composed of a plate formed to have a posture inclined clockwise with respect to the center of the feed well 400. According to the first inclined portion 452, the raw water from the feed well 400 forms a second flow that rises while flowing on the surface of the first inclined portion 452.

The second inclined portion 453 has a structure extending from the bottom of the vertical portion 452 to the bottom, and is composed of a plate formed to have a posture inclined clockwise with respect to the center of the feed well 400, According to the two inclined portions 453, the coarse flocks forming a large mass of the flocks from the feed well 400 are reflected while colliding with the surface of the second inclined portions 453, thereby inducing precipitation.

Raw water flowing into the circular sludge collector configured as described above is subjected to the sedimentation of the sludge through the following process.

The raw water flowing into the feed well 400 through the raw water inlet 411 is first introduced into the turning space S to reduce the flow rate during the turning, and goes beyond the upper end of the inner cylinder 420 to the inside of the inner cylinder 420. Inflow.

On the other hand, when the raw water reaches the upper end of the inner cylinder 420 while turning in the turning space (S), the turning raw water collides with the first baffle 421 protruding outward of the inner cylinder 420, and the vortex is partially generated. The vortices facilitate contact between the flocculant and the suspended solids, thereby promoting the formation of flocs, and the plurality of first baffles 421 uniformly distributed around the circumference of the inner cylinder 420 has a circumference of the inner cylinder 420. This leads to a uniform inflow of wastewater.

Through this process, the wastewater flowing into the inner cylinder 420 is discharged downward through the flow path 431 formed at the center of the diaphragm 430, and is dispersed in the horizontal direction by the support plate 440, and then the inclined plate ( It is discharged into the treatment tank 100 through the space between the 450.

Meanwhile, in the process of passing the raw water through the space between the inclined plate 450, the flow rate of the raw water is further slowed down, and the flow of the raw water is divided into the first flow and the second flow which rise, and are uniformly distributed to the front of the treatment tank 100. do.

In this way, the fine floc that forms a relatively small lump in the course of the raw water flow is uniformly dispersed at a slow flow rate to the front side and the top surface of the treatment tank 100 by the first flow and the second flow in which the raw water is formed. It will be possible to induce the precipitation of the fine floes effectively.]

In addition, the coarse floes forming a relatively large lump collides with the second inclined portion 453 and is precipitated by reflecting downward of the treatment tank 100, thereby shortening the settling time of the flocs.

As described above, according to the feed well 400 of the present invention, the raw water flowing into the treatment tank 100 prevents resuspension of sedimentation sludge as it falls toward the bottom of the treatment tank 100, and the flow rate of the raw water is introduced. It is sufficiently slowed to disperse the inside of the treatment tank 100 as a whole, and the precipitation of the floc formed due to flocculation of suspended solids is induced by using the inclined plate 450, thereby significantly increasing the sedimentation efficiency of the sludge and improving the treatment efficiency of raw water. It can be improved.

On the other hand, the sludge deposited and accumulated on the bottom of the treatment tank 100 is moved to the bottom center of the treatment tank 100 by the scraper 200 rotated by the drive mechanism 300, and is discharged through the outlet 120. .

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

<Explanation of symbols for main parts of the drawings>
100: treatment tank 110: wear
120: outlet 200: scraper
210: scraper structure arm 300: drive mechanism
400: feedwell 410: outer cylinder
411: raw water inlet 420: inner cylinder
421: first baffle 430: diaphragm
431 flow path 440 support plate
450: inclined plate 451: vertical portion
452: first slope unit 453: second slope unit

Claims (5)

The upper end portion of the treated water discharge 110 is formed, the lower center portion treated water tank 100 consisting of a discharge port 120 is formed discharged sludge is formed;
A scraper 200 for moving the sludge deposited on the bottom to the outlet 120 while moving along the circular trajectory at the inner bottom of the treated water tank 100;
A drive mechanism 300 installed in a vertical position at the center of the treatment tank 100 and connected to the scraper 200 to support and move the scraper 200; And
It is installed in the upper center portion of the treatment tank 100 to receive the raw water to be treated, feeds to slow the flow of the raw water through the rotation of the incoming raw water, evenly distribute the raw water in all directions to discharge the inside of the treatment tank 100 Well 400; consisting of,
The feed well 400,
Outer cylinder 410 made of a vertical posture, consisting of a horizontal posture in a position where the raw water inlet 411 through which the raw water is introduced is out of the center;
Is disposed inside the outer cylinder 410, including the outer peripheral surface spaced apart facing the inner circumferential surface of the outer cylinder 410 and the turning space (S) to induce flow rate reduction and dispersion through the turning of the raw water with the outer cylinder 410 An inner cylinder 420 formed so that its upper end is located lower than the upper end of the outer cylinder 410 so as to flow into the turning space S and flow into the filling water;
A plate 430 having a lower portion of the inner cylinder 420 and the turning space S, the flow passage 431 being formed at the center thereof so that raw water flowing into the inner cylinder 420 is discharged downward;
A support plate 440 spaced apart from the lower portion of the outer cylinder 410 to distribute the raw water discharged to the lower portion of the inner cylinder 420 through the flow path 431 of the diaphragm 430 in a horizontal direction;
The support plate 440 and the outer cylinder 410 are connected to each other, and are disposed to be distributed along the circumference of the outer cylinder 410, and the flow of raw water dispersed in the horizontal direction by the support plate 440 is increased with the first flow in the horizontal direction. Circular sludge collector having a radial flow, characterized in that consisting of; a plurality of inclined plates 450 divided into a second flow in the direction, formed in a three-stage bent structure to induce precipitation of the flocs flowing with the raw water. delete The method according to claim 1,
Each inclined plate 450,
A vertical portion 451 having a vertical posture to induce the first flow, the vertical portion 451 made of a plate vertically parallel to an axis extending radially from the center of the supporting plate 440;
A first inclined portion having a structure extending upward from the upper end of the vertical portion 451, and formed of a plate formed to have a posture tilted in a clockwise direction with respect to the center of the feed well 400. (452); And
The second inclined portion having a structure extending downward from the lower end of the vertical portion 451, consisting of a plate formed to have a posture inclined clockwise with respect to the center of the feed well 400 to induce the precipitation of the floc ( 453); circular sludge collector having a radial flow. The method according to claim 1,
The raw water flowing into the inner cylinder 420 in the circumferential direction of the inner cylinder 420 is generated while colliding with the raw water turning in the turning space S to generate a vortex to increase the flocculation efficiency of the floc. A plurality of first baffles 421 to be uniformly introduced; further comprising,
The plurality of first baffles (421) is disposed along the circumference of the upper end of the inner cylinder 420, circular sludge collector having a radial flow, characterized in that made of a plate having a vertical attitude. delete

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