KR101837575B1 - Scum removal system for circular settling pond - Google Patents

Abstract

The present invention relates to a scum removal system and, more specifically, to a scum removal system including a scum removing unit which floats on the surface of water in order to discharge scum in the process of phased overflow of supplied treated water. The scum removing unit removes scum while moving depending on changes in the level of water. To solve the above task, the scum removal system for a circular sedimentation basin comprises: a supplying unit in which treated water is supplied and stored; a first processing unit which surrounds the outer side of the supplying unit and in which the treated water overflowing from the outer side of the supplying unit is stored; a second processing unit which surrounds the outer side of the first processing unit and in which the treatment water overflowing from the outer side of the first processing unit is stored; and a scum removing unit which moves vertically depending on changes in the level of water in a state of floating on the surface of water in the first processing unit, and removes scum that moves from the first processing unit to the second processing unit in a state of floating on the surface of water in the first processing unit.

Description

[0001] Scum removal system for circular settling pond [

[0001] The present invention relates to a scum removing system, and more particularly, to a scum removing system in which scum is removed by scum removing means floated on a water surface during a process in which supplied process water is gradually overflowed, And the scum is removed when the scum is removed.

In general, water treatment is performed through sequential processes such as collecting, physical or chemical treatment, primary precipitation, aeration and secondary precipitation. During this water treatment process, a float called a sum is generated. In particular, more scum is generated after the aeration step.

Therefore, a step of removing scum is required during the water treatment process, and a scum removing device is usually installed in a settling tank where aeration is carried out to remove scum.

Japanese Patent Application Laid-Open No. 10-1045944 (hereinafter referred to as " prior art ") discloses one of techniques for removing the scum.

The conventional art has a body having an internal space for accommodating a water to be treated, a rotation shaft extending in the longitudinal direction and extending in the body, a rotation driving unit for driving the rotation shaft, A float which is installed so as to be able to slide along the rotation axis and moves up and down in conjunction with the water surface height of the water to be treated, And a scum removing portion including a plurality of main blades installed to be spaced apart from each other to remove the scum.

That is, in the related art, when the scum removing part is rotated in a floating state on the surface of water, the scum is removed as it sticks to the scum removing part.

However, in the case of the conventional art, the scum attached to the scum removing device can not be automatically separated and removed. Therefore, it is inconvenient for the operator to periodically remove the scum.

In addition, since the scum removing portion is formed of a plurality of fins, it is difficult to separate and remove the scum attached to the scum removing portion.

KR 10-1045944 B1 May 27, 2011.

Disclosure of Invention Technical Problem [8] The present invention has been made in order to solve the problems of the prior art, and a problem to be solved by the present invention is to eliminate scum by scum removal which floats on a water surface during a process And the scum removing part is moved in accordance with the change of the water level to remove the scum.

In order to solve the above problems, a scum removing system for a circular precipitator of the present invention comprises: a supply part for receiving and containing treated water; A first processing unit provided so as to surround the outside of the supply unit and containing the overflowed water outside the supply unit; A second processing unit provided to surround the outside of the first processing unit and receiving the overflowed water outside the first processing unit; And a scum that is moved up and down according to a change in the water level in a floating state on the water surface of the first processing unit and moves from the first processing unit to the second processing unit in a floating state on the water surface of the first processing unit, And a scum removing portion for removing the scum.

The scum removing unit may include a floating discharge unit that receives and discharges the scum in a floating state radially while two or more of the scum removing units are spaced apart from each other by a predetermined distance along the circumferential direction of the first processing unit. And a scum collecting unit collecting the scum floated on the surface of the first processing unit and delivering the scum collected to the floating discharge unit.

At this time, the floating discharge unit has a shape in which the upper and lower portions are opened and the diameter gradually decreases from the upper side to the lower side; A discharge pipe formed of a bellows pipe, one end of which is connected to the lower part of the collection unit and the other end of which is connected to the hydraulic pump; And a float which is made of an object having a predetermined buoyancy and is provided at a lower portion of the collection unit to allow the collection unit to float in water.

In addition, a plurality of grooves having a 'v' -shaped section are arranged at a predetermined distance around the upper end of the collection unit along the circumferential direction.

The scum collecting unit may include a first collecting unit for collecting scum while being rotated in one direction in a state of being coupled to the first wall, A second collecting part for collecting scum while being rotated in a direction opposite to the first collecting part in a state of being fastened to the first wall; Wherein the first collecting unit and the second collecting unit converge at the floating discharge unit positioned in front of the rotation direction.

According to the present invention, since the scum removing portion for collecting and discharging the scum is naturally moved up and down according to the change of the water level, there is an advantage that the scum can be continuously discharged even if the operator does not periodically manage it .

In addition, according to the present invention, since the first wing portion and the second wing portion are rotated in opposite directions to collect and discharge the scum by the floating exhaust port, the time required to remove the scum is shortened, .

1 is a perspective view of a scum removing system for a circular precipitator according to the present invention;
2 is a sectional view taken along the line AA 'of FIG. 1;
3 is a schematic perspective view of a scum collecting part applied to the present invention.
4 is a partial cross-sectional view of a driving part applied to the present invention.
FIG. 5 is a plan view of a system for removing a scum for a circular precipitator according to the present invention, showing a state of collecting scum. FIG.
FIG. 6 is a plan view of a system for removing a scum for a circular precipitator according to the present invention, in which the scum collecting unit is converged; FIG.
7 is a perspective view of a scraper portion applied to the present invention.
8 is a view showing an embodiment of using a scraper portion applied to the present invention.

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

[0001] The present invention relates to a scum removing system, and more particularly, to a scum removing system in which scum is removed and discharged by a scum removing unit (400) floated on a water surface during a process in which supplied process water is stepwise swirled, 400 is moved in accordance with the change of the water level to remove the scum.

FIG. 1 is a perspective view of a scum removing system for a circular precipitator according to the present invention, FIG. 2 is a sectional view taken along line AA 'of FIG. 1, FIG. 3 is a schematic perspective view of a scum collecting part applied to the present invention, FIG. 5 is a plan view of a scum removing system for a circular precipitator according to the present invention. FIG. 6 is a plan view of a scum removing system for a circular precipitator according to the present invention, FIG. 7 is a perspective view of a scraper portion applied to the present invention, and FIG. 8 is a view showing an embodiment of using a scraper portion applied to the present invention.

As shown in FIG. 1, the present invention includes a supply unit 100, a first processing unit 200, a second processing unit 300, and a scum removing unit 400.

According to the present invention, treatment water necessary for treatment is supplied through the supply unit 100 and is received. In addition, the supply part 100 is formed in a cylindrical shape such that the upper part thereof is opened and the process water is received therein, and the side wall of the supply part 100 is referred to as a first flow wall 110.

The first processing unit 200 is provided so as to surround the outside of the supplying unit 100 and allows the treated water flowing through the supplying unit 100 to be overflowed.

The first processing unit 200 includes a second wall unit 210 surrounding the first wall unit 110 at a predetermined distance from the first wall unit 110, , And when the water level of the treated water supplied to the supply unit 100 reaches the height of the first wall 110, the first wall 110 flows over the first wall 200 to be accommodated in the first treatment unit 200 .

The second processing unit 300 is provided so as to surround the outside of the first processing unit 200 and allows the treated water that has passed through the first processing unit 200 to be overflowed to be received.

In addition, the second processing unit 300 is provided with an outer wall to surround the second wall unit 210, and a predetermined space is formed between the second wall unit 210 and the outer wall, So that the treatment water accommodated in the treatment unit 200 is swallowed and received through the second wetwall 210.

The scum removing part 400 is provided in the first processing part 200 so as to be moved up and down according to a change in the water level of the first processing part 200 in a floating state on the water surface, The scum floated on the surface of the water is collected and discharged.

The scum removing unit 400 includes a floating discharge unit 410 and a scum collecting unit 500 for collecting the scum floated on the surface of the first processing unit 200 and delivering the scum to the floating discharge unit 410, .

The floating discharge unit 410 includes a collection unit 411, a discharge pipe 412, and a discharge unit 412. The discharge unit 411 is connected to the discharge unit 412, And a fluid 413.

The collecting unit 411 is configured such that the upper and lower portions thereof are opened, and the diameter gradually decreases from above to below. In addition, the collection unit 411 has a shape similar to the funnel, and a plurality of grooves having a 'v' -shaped section are disposed at a predetermined distance from the circumference of the upper end.

The discharge pipe 412 is made of a corrugated pipe, one end of which is connected to the lower part of the collection unit 411, and the other end thereof is connected to a hydraulic pump or the like.

The float 413 is made of an object having a predetermined buoyancy and is provided below the collection unit 411 so that the collection unit 411 can be suspended in water. At this time, the float 413 has appropriate buoyancy so that the end of the collection unit 411 can be adjacent to the water surface.

The scum collecting unit 500 includes a first collecting unit 510, a second collecting unit 520, and a driving unit 530 for collecting scum and discharging the scum to the floating discharge unit 410.

The first collecting part 510 collects scum while being rotated in one direction in a state of being fastened to the first wall part 110. The first collecting part 510 includes a first body 511, a first elevating groove 513, And a wing portion (512).

The first body 511 surrounds the first wall 110 and is rotatably mounted on the first wall 110.

The first lifting grooves 513 extend in the vertical direction on the outer circumferential surface of the first body 511, and a plurality of the first lifting grooves 513 are radially arranged while being separated from each other by a predetermined distance in the circumferential direction. At this time, the number of the first rising and falling grooves 513 is the same as the number of the floating discharge units 410.

The first wing portion 512 is made of a material having a specific gravity smaller than that of water so that the lower end portion thereof is immersed in water and the upper end portion is exposed on the water surface, And is capable of ascending and descending according to the change of the water level.

The second collecting part 520 collects the scum while being rotated in a direction opposite to the first collecting part 510 while being fastened to the first wall part 110. The second collecting part 520 includes a second body 521, A second lifting groove 523 and a second wing 522.

The second body 521 surrounds the outer circumferential surface of the first wall portion 110 and is rotatably installed on the first wall portion 110 at a lower end of the first body portion 511.

The second elevating groove 523 has the same shape as the first elevating groove 513 and the same number as the first elevating groove 513 is formed on the outer circumferential surface of the second body 521 in the circumferential direction And are radially spaced apart.

The second wing portion 522 is made of a material having a specific gravity smaller than that of water to float while the upper end thereof is exposed while the lower end portion is submerged in water. One end of the second wing portion 522 is inserted into the second lifting groove 523, So that it can be ascended and descended according to the change.

That is, the first wing portion 512 and the second wing portion 522 are always disposed on the water surface, but are disposed on the same plane.

The driving unit 530 rotates the first body 511 and the second body 521 and rotates the first body 511 and the second body 521 in opposite directions, A bevel gear 531, a second bevel gear 532, and an interlocking gear 533.

The first bevel gear 531 is provided to rotate the first body 511 and surrounds the outer circumferential surface of the first flow wall 110 so that the first bevel gear 531 can rotate, .

The second bevel gear 532 is for rotating the second body 521 and is disposed at the lower end of the first bevel gear 531 so as to surround the outer peripheral surface of the first wall And the lower end thereof is connected to the second body 521.

At this time, the teeth of the first bevel gear 531 and the second bevel gear 532 are opposed to each other.

The interlocking gear 533 is provided so as to be engaged with the first bevel gear 531 and the second bevel gear 532 at the same time so that the first bevel gear 531, the second bevel gear 532, (533).

The first bevel gear 531 or the second bevel gear 532 is operated by a power unit such as a motor. The first bevel gear 531 or the second bevel gear 532, A detailed description thereof will be omitted.

The driving unit 530 rotates the first body 511 and the second body 521 while repeatedly performing forward and reverse rotations. At this time, the first wing unit 512 and the second The first body 511 and the second body 512 are rotated so as to reciprocate between a pair of the floating discharge units 410 arranged adjacent to each other in the rotating direction.

The first wing portion 512 and the second wing portion 522 gradually converge on the floating discharge portion 410 located in front of the rotation direction. At this time, when the driving portion 530 is rotated in the forward direction, The first wing portion 512 and the second wing portion 522 converge on the floating discharge portion 410 while collecting the scum.

That is, the plurality of first wing portions 512 and the second wing portions 522 are disposed adjacent to the respective floating discharge portions 410, and the first wing portions 512 and the second wing portions 522 The scum collected by the flotation unit 522 is discharged through the flotation discharge unit 410.

The first wing portion 512 and the second wing portion 522 are gradually converged to the floating discharge portion 410 located behind the rotating portion in the rotating direction, Collected and discharged.

That is, according to the above-described configuration, the first collecting unit 510 and the second collecting unit 520 collectively collect the first wing unit 512 and the second wing unit 522, The first body 511 and the second body 521 are moved in the vertical direction of the lifting groove 513 and the second lifting groove 523, And are rotated together.

At this time, the first wing portion 512 and the second wing portion 522 are rotated in opposite directions to collect the scum. Then, The first wing portion 512 and the second wing portion 522 converge to discharge the collected scum.

Meanwhile, among the scum collected by the first wing part 512 and the second wing part 522, the scum adjacent to the floating discharge part 410 can be easily discharged to the floating discharge part 410 , Natural discharge of the scum adjacent to the first wall 110 is difficult.

Accordingly, in the present invention, the scum collected between the first wing portion 512 and the second wing portion 522 is pushed by the floating discharge portion 410, (600).

The scraper portion 600 may be formed in such a manner that when the first wing portion 512 and the second wing portion 522 are converged by the respective floating discharge portions 410, The collected scum is pushed to the floating discharge unit 410 while being slid in the outward direction. To this end, the scraper portion 600 includes a support 610, a transfer unit 620, and a rejection 630.

The support frame 610 is provided to connect the first wall part 110 and the second wall part 210 at the upper part of the first processing part 200 and the support part 610 A conveying rail 611 is formed.

The supporting frame 610 is fixedly coupled to the second wall part 210 while one end of the support part 610 crosses the upper end of the floating part 410 and the other end is fixedly coupled to the first wall part 110, do. At this time, the conveying rail 611 extends from the first wall 110 to the second wall 110.

The conveying unit 620 is provided so as to be slidable in the extending direction by the conveying rail 611.

The receiving unit 630 may be slidably moved in the extending direction by interlocking with the transfer unit 620 in a state where the receiving unit 630 is provided at the lower end of the transfer unit 620, Both ends of the width direction are moved in contact with the surfaces of the first wing part 512 and the second wing part 522 while the first wing part 522 is converged by the stray discharge part 410, The scum collected between the first wing portion 512 and the second wing portion 522 is pushed to the stuck discharge portion 410.

That is, when the first wing portion 512 and the second wing portion 522 are in a converged state, the first and second wing portions 512 and 522 A collection part 631 and an elastic body 632 so that both ends in the width direction can be drawn out and drawn out so as to be moved in contact with the facing surface.

The inlet grooves 633 are recessed inwardly from both ends of the receiver 630.

The collecting piece 631 is formed so that one end thereof can be drawn into and drawn out from the lead-in groove 633, and the other end thereof is gradually thinned to the end.

The elastic body 632 is provided inside the lead-in groove 633 so as to be compressed or tensioned by the collection piece 631.

According to the above-described configuration, when the receiving wall 630 is not used, that is, when the first wing portion 512 and the second wing portion 522 are not converged, As shown in FIG. At this time, the elastic body 632 is compressed and the collection piece 631 is drawn into the inlet groove 633.

 When the first wing portion 512 and the second wing portion 522 are in a converged state, the first float wall 110 and the second float wall 520 gradually move from the first float wall 110 to the floating drain (410). At this time, the gap between the first wing portion 512 and the second wing portion 522 gradually increases toward the floating discharge portion 410, and the elastic body 632 is gradually stretched, So that the collection piece 631 is always moved in contact with the surfaces of the first wing portion 512 and the second wing portion 522.

That is, according to the above configuration, the rejection 630 not only discharges scum collected between the first wing portion 512 and the second wing portion 522, And the scum sticking to the surface of the second wing portion 522 is also separated and discharged. Thus, the time required for discharging the scum is shortened and the scum discharging efficiency is improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: supply unit 110:
200: first processing unit 210: second wall
300: second processing section
400: scum removing unit 410: floating discharge unit
411: collection unit 412: discharge pipe
413: float
500: scum collecting part 510: first collecting part
511: first body 512: first wing part
513: first elevating groove
520: second collecting unit 521: second body
522: second wing portion 523: second lift groove
530: driving part 531: first bevel gear
532: Second bevel gear 533: Interlocking gear
600: scraper part 610: support
611: Feeding rail 620: Feeding unit
630: Refusal 631: Collection
632: elastic body 633: inlet groove

Claims (5)

delete A supply part 100 in which process water is supplied and accommodated;
A first processing unit 200 provided to surround the outside of the supplying unit 100 and receiving the overflowed water outside the supplying unit 100;
A second processing unit 300 provided to surround the outside of the first processing unit 200 and receiving the overflowed water outside the first processing unit 200; And
The first processing unit 200 may be configured to move up and down according to a change in the water level in a floating state on the water surface of the first processing unit 200. In the first processing unit 200, A scum removing unit 400 for removing the scum moved to the second processing unit 300;
/ RTI >
The scum removing unit 400,
A floating discharge unit 410 for transferring and discharging the scum in a floating state radially while two or more of them are spaced apart from each other by a predetermined distance along the circumferential direction of the first processing unit 200; And
A scum collecting unit 500 for collecting the scum floated on the surface of the first processing unit 200 and delivering the scum to the floating discharge unit 410;
/ RTI >
The scum collecting unit (500)
A first collecting part (510) for collecting scum while being rotated in one direction in a state of being fastened to the first wall (110);
A second collecting unit 520 for collecting scum while being rotated in a direction opposite to the first collecting unit 510 in a state where the first collecting unit is fastened to the first wall 110;
A driving unit 530 for rotating the first collecting unit 510 and the second collecting unit 520 in opposite directions;
/ RTI >
The first collecting unit 510 and the second collecting unit 520 collectively collectively collect,
And is converged to the floating discharge unit (410) located in front of the rotating direction.
The method of claim 2,
The floating discharge unit 410 includes:
A collection unit 411 in which the upper and lower parts are opened and the diameter gradually decreases from above to below;
A discharge pipe 412 made of a corrugated pipe, one end of which is connected to the lower part of the collection unit 411 and the other end of which is connected to the hydraulic pump; And
A float 413 made of an object having a predetermined buoyancy and provided at a lower portion of the collection unit 411 to allow the collection unit 411 to float in water;
The scum removing system comprising:
The method according to claim 3,
At the upper end of the collection unit 411,
and a plurality of grooves having a 'v' -shaped cross section are spaced a predetermined distance apart in the circumferential direction.
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