KR20160015867A - A Circular sludge collector - Google Patents

Abstract

The present invention relates to a circular sludge collector which effectively mixes a coagulant and an aid coagulant in raw water by installing an in-line type mixer (72) and a spiral stirrer (74) in a raw water introduction pipe (70) which introduces the raw water inside a settling basin (10) of the circular sludge collector, helps the formation of a flock by the rotation of a stirring blade (62) in a stirring drum (60) in which the raw water is introduced, transfers the flock to the settling basin (10) after the flock passes through a stabilizing step by installing a reactive drum (80) in the outer side of the stirring drum (60) and is enlarged, and prevents slurry discharge by discharging supernatant water of the settling basin (10) through collecting water trough (100) radially installed.

Description

A Circular sludge collector

The present invention relates to a circular sludge collector, and more particularly, to an apparatus and a method for efficiently circulating a flocculant and an aggregation aid to raw water by installing an inline type mixer and a spiral stirrer at a raw milk inlet for introducing raw water into a circular sludge collector, A stirring drum attached to the rotating shaft supports the formation of the flocs by rotation of the stirring blades and a reaction drum is further provided on the outside of the stirring drum so that the flocks are made larger through the stabilization step and then carried to the settling basin, Of the present invention refers to a circular sludge collector which is discharged through a radially arranged collecting trough such that no slurry is discharged.

In general, a circular sedimentation tank, which is a gravity type thickening tank mainly used for solid-liquid separation in a waste water treatment facility or a water purification facility, is a sludge scraper which rotates concentrated sludge settled on the floor by holding sludge in a sedimentation tank, Collecting them toward the hopper of the central portion and discharging them to the discharge pipe.

The circular sedimentation tank has a structure in which an overflow ware is installed around the upper end and a scraper rotated by a motor is rotated and rotated on a bottom inclined inward. The raw water inflow pipe into which raw water is introduced has a discharge end, And the sludge at the bottom is collected by the scraper to be forcedly discharged to the outside, and the supernatant is discharged to the outside through the overflow ware.

On the other hand, in the above-described circular sludge collector, it is basically necessary to mix the flocculant and the coagulation aid into the raw water to effectively mix it. It is necessary to stably form and precipitate the flocculant so that the slurry does not mix with the supernatant. There is a disadvantage in that the facility is complicated and the raw water and the flocculant are not mixed uniformly because of the separate admixture structure, and the raw water and the flocculant are stirred in the stirring drum where the raw water is first introduced, The floc is not completely transferred to the sedimentation basin, and the floc is not settled down, but is broken down into small fractions and is discharged to the supernatant so that the water quality is deteriorated.

Registered Patent No. 10-0597778 (Registered Jun. 30, 2006) Title of the invention: a sedimentation tank having floc formation and pin block removal function and improved reflux flow Registered Patent No. 10-0729388 (Registered Jun. 11, 2007) Title of invention: Sludge collector of circular sedimentation basin with spiral sedimentation guide bar Registered Patent No. 10-0772121 (Registered October 25, 2007) Name of invention: Circular sedimentation tank Registered Patent No. 10-0999491 (Registered on December 2, 2010) Name of invention: Water treatment device

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an effective method for mixing raw water and flocculant with raw water, flocculant and coagulant In this way, it is possible to mix the raw water and the coagulant in the mixing drum to form a complete flush before entering the settler. In the settling drum, The sludge can be settled effectively by having a retention path, and the supernatant on the upper side of the sedimentation basin can improve the quality of the effluent water by preventing the sludge from being disintegrated or slurry that has not sufficiently agglomerated.

In order to accomplish the above object, the present invention provides an apparatus for mixing raw water with an aggregate and an aggregation aid, wherein an inline type mixer and a spiral agitator are installed at a raw milk feed inlet for introducing raw water into a circular sludge collector, And a reaction drum is further provided on the outer side of the stirring drum so that the flakes in the mixed water carried over from the stirring drum are made to be made larger through the stabilization step, The present invention provides an underwater mixed flocculation type circular sludge collector in which flocculation can be carried out and collecting troughs are installed in the upper part of the sedimentation basin so that only a supernatant can be discharged without discharging the slurry at a relatively low flow rate.

According to the embodiment of the present invention, the raw water, the flocculant and the coagulation assistant are effectively mixed by the inline type mixing unit and the spiral type mixing unit installed inside the raw water inlet. In the mixing drum, turbulence is formed by the baffle formed on the inner surface of the mixing drum, It is possible to maximize the contact area of the flocculant and to make the floc formation in the sedimentation tank vigorous. By the reaction drum provided outside the agitating drum, the time and the path for staying the mixed water in the sedimentation tank can be maximally extended, The efficiency can be improved, and since only the supernatant is discharged through the orifice at a slow flow rate by the water collecting trough installed in the upper part of the sedimentation tank, the effluent water quality can be improved because there is no discharge of the slurry.

Recently, as the water quality of effluent water is strictly regulated, the method of reprocessing the supernatant with a fiber filter or a sand filtration method is expanding. However, the treatment effect is insignificant compared with the investment amount and the operation cost. Therefore, when the present invention is applied to the concentrating tank, the maintenance cost and water quality can be greatly improved within 20% of the cost of adding a new facility.

1 is a front sectional view of a circular sludge collector according to a first embodiment of the present invention,
2 is a plan view of a circular sludge collector according to a first embodiment of the present invention,
3 is a front sectional view of the stirring drum,
4 is a plan view of the stirring drum,
5 is a cross-sectional view of a header,
6 is a front sectional view of an inline type mixer,
Figure 7 is a perspective view of a collecting trough,

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

1 to 7 show a structure of a circular sludge collector according to a first embodiment of the present invention. In the circular sludge collector of the present embodiment, sludge settled on the bottom of a settling basin 10 is introduced into a hopper 20 And a rotary sludge discharger 50 is provided at the center of the bottom of the sedimentation tank 10 so that the sedimented sludge can be discharged smoothly through the sludge discharge pipe 40 And an agitating drum 60 for uniformly stirring the raw water and the flocculant after the sedimentation tank 10 is uniformly agitated is provided in the center of the sedimentation drum 10, The raw water inlet pipe 70 is connected to the stirring drum 60 and the inline type mixer 72 is connected to the inside of the raw water inlet pipe 70, And a spiral agitator 74 are installed to mix the flocculant and the flocculant aid injected into the flocculant feed pipe 71 and the flocculant assistant feed pipe 73 into the raw water and the reaction drum 80 is provided outside the stirrer drum 60 And the stirring blade 62 and the sludge scraper 30 and the sludge discharger 50 in the stirring drum 60 are driven by the power generating part 90 provided at the upper center of the settling paper 10 And a collecting trough 100 is installed radially on the sedimentation tank 10 so that only the supernatant can be discharged without discharging the slurry at a relatively slow flow rate.

In the figure, reference numeral 11 denotes an upper water level formed on the upper portion of the sedimentation tank 10, and reference numeral 12 denotes a water collecting tank for discharging the water to the higher water to the outside.

Reference numeral 51 denotes a sludge transfer pump, and numeral 52 denotes a sludge turbidimeter. When the turbidimeter is discharged below the turbidity set directly or remotely in the field control panel or the central monitoring panel, the transfer pump 51 is stopped to stop the sludge discharge The operation of the feed pump 51 is controlled again by a turbidimeter. When the operation method capable of automatic operation is adopted, the load due to sludge accumulation at the bottom of the sedimentation basin can be reduced, By homogenizing the concentration of the sludge at a high concentration, the operation time of the dehydrator is drastically reduced, and the coagulant and the coagulation aid added to the dehydrated sludge are greatly reduced, thereby reducing the operation cost.

The structures of the hopper 20, the sludge scraper 30 and the sludge discharger 50 are obvious from the description of the applicant's patent No. 798080, so that detailed description thereof will be omitted. The inline type mixer 72, the spiral agitator 74, the reaction drum 80 and the collecting trough 100 will be described in detail.

3 and the plan view of FIG. 4, the stirring drum 60 is opened at its upper and lower portions and closed at its side portions, The stirring blade 62 is provided radially outside the rotating shaft 61 to rotate at a relatively slow speed to form a very good flock.

A baffle 64 is attached radially to the inner surface of the stirring drum 62 so that the water flow inside the stirring drum 60 changes from laminar flow to turbulent flow, thereby doubling the flocculation efficiency.

A header 76 is installed on the inner circumference of the stirring drum 60 so as to supply water of the raw water supply pipe 70 circumferentially. The raw water supply pipe 70 is connected to the header 76 A raw water inlet hole 77 is formed in the inside of the head 76 in the circumferential direction of the stirring drum 60 so that the raw water supplied to the header 76 flows through the raw water inlet hole 77, (60).

The inline mixer 72 and the helical mixer 74 are installed in the raw water supply pipe 70 in order and the coalescing agent and the coagulation assistant introduction pipe 71 And 73 are connected to the agitating drum 60. Thus, the mixing and agitating devices are installed inside the raw milk inlet without any additional equipment outside the settler, thereby saving the facility cost and saving the required site, Mixing and agitation of the raw water with the coagulant and the coagulant aid are effectively performed before the introduction of the raw water, so that the formation of the flocculant can be effectively performed.

As shown in FIG. 5, the inline type mixer 72 mixes the flocculant and the flocculant with the raw water through the rotational force of the submersible motor 72a to the impeller 72b, and the raw water and the flocculant are spiral- The coagulant and the coagulation assistant are uniformly diluted in the raw water while passing through the agitator 74.

The reaction drum 80 is disposed on the outer side of the stirring drum 60. The reaction drum 80 is in the form of a pointed hole extending from the upper part to the lower part, The raw water and the coagulant that have flowed downward flow outward to the outside of the reaction drum 80 to form an upward flow and to cooperate with the flocculant The sludge is precipitated by the flocking due to the reaction, so that only the sludge-removed supernatant can be discharged to the sludge tank 100 installed radially on the sedimentation tank 10.

As shown in the plan view of FIG. 2 and the perspective view of FIG. 6, the collecting trough 100 installed in the upper part of the settling basin 10 in the present invention is formed so as to be radially outward from the center portion of the circular precipitator 10 A plurality of orifices 102 having a small diameter are formed at a predetermined height on the side surface of the sedimentation tank 10 so as to be inclined slightly downward toward the outskirts of the sedimentation basin 10, .

It is needless to say that the shape of the water catching trough 100 according to the present invention is not limited to the shape shown in the drawings, and a V-notch type ware may be used instead of the orifice 102.

The rotary sludge discharger 50 provided in the hopper 20 provided at the lower center of the sedimentation bed 10 transports the sludge to the suction range of the sludge discharge pipe 40 to prevent accumulation and compaction of the sludge in the hopper 20, It is preferable that the speed of the sludge is controlled faster than the speed of the scraper 30 so as to block a vicious circle in which the sludge is retained at the bottom of the sedimentation basin and is consolidated, corroded and flushed again as slurry to deteriorate the discharged water quality.

Since the inline type mixer and the spiral type mixer are installed inside the raw water inlet of the circular sludge collector according to the embodiment of the present invention configured as above, it is not necessary to provide a separate mixing facility outside the settler, Since the coagulant and the coagulation assistant are mixed and agitated and introduced into the stirring drum, the reaction between the raw water in the stirring drum and the coagulant and the coagulation assistant is vigorously performed to maximize the flocculation effect. In the stirring drum, Turbulence is formed by the fixed baffle and the rotating paddle to maximize the contact area between the raw water and the flocculant, and floc formation in the flocculent can be made vigorous.

In addition, according to the embodiment of the present invention, since the reaction drum disposed outside the agitating drum can extend the time and path for staying the mixed water in the settler, it is possible to improve floc formation and sedimentation efficiency of the sludge.

In addition, according to the embodiment of the present invention, since only the supernatant is discharged through the orifice at a slow flow rate by the collecting trough arranged in the upper part of the sedimentation tank, the discharge water can be improved in quality without discharging slurry.

10: Settling basin
11: With supernormal
12: Water collecting tank
20: Hopper
30: Scraper
31: scraper rotating shaft
40: sludge discharge pipe
50: sludge discharge unit
51: Feed pump
52: Turbidimeter
53: Sludge discharger rotating shaft
60: stirring drum
61: agglomerator rotating shaft
62: stirring wing
64: Baffle
70: raw water inlet pipe
71: Flocculating agent inlet pipe
72: Inline type mixer
72a: Underwater motor
72b: impeller
73: Coagulation assistant injection tube
74: Spiral stirrer
75a: Flange for assembling inline type mixer
75b: Bolt for assembling inline type mixer, nut
76: Header
77: Raw water inflow hole
80: Reaction drum
90: Power generation
100: Collecting trough
102: Orifice

Claims (6)

A rotary sludge scraper 30 for collecting the sludge settled on the bottom of the settler 10 by a hopper 20 installed at the center is installed and the settled sludge is not accumulated at the bottom center of the settler 10, The sedimentation unit 10 is provided with a rotary sludge discharging unit 50 so that the sediment can be smoothly discharged through the sedimentation tank 40. The sedimentation tank 10 is provided with a stirrer for uniformly stirring the raw water and the flocculant, And a raw milk inflow pipe (70) is connected to the stirring drum (60). The raw milk infusion pipe (70) is connected to the agitation drum (60) Type mixer 72 and a spiral agitator 74 are installed in the interior of the agitating drum 70 to mix the coagulant and the coagulation assistant injected into the coagulant supply pipe 71 and the coagulation assistant introduction pipe 73 into raw water, (60) The stirring drum 60 and the sludge scraper 30 and the sludge discharging unit 50 in the stirring drum 60 are installed in the power generation unit 90 provided at the upper center of the sedimentation tank 10, Wherein the sludge collecting unit is adapted to be driven by the sludge collecting unit.
The method according to claim 1,
The sludge discharge pipe 40 is provided with a sludge transfer pump 51 and a turbidimeter 52. When the discharged sludge is discharged at a turbidity of less than a predetermined turbidity, the transfer pump 51 is stopped to stop the discharge of the sludge. And then the transfer pump (51) is operated again.
The method according to claim 1,
And a baffle (64) is radially attached to the inner surface of the stirring drum (62).
The method according to claim 1,
A header 76 is installed on the inner circumference of the stirring drum 60 so as to supply water of the raw water supply pipe 70 circumferentially and a raw water supply pipe 70 is connected to the header 76, Is uniformly supplied to the inside of the drum (60) in a circumferential manner.
A header 76 is installed on the inner circumference of the stirring drum 60 so as to supply water of the raw water supply pipe 70 to the circumference of the stirring drum 60. A header 76 is provided in the circumferential direction of the stirring drum 60, The raw water supplied into the header 76 is uniformly supplied into the agitating drum 60 through the raw water inlet hole 77. [
The method according to claim 1,
A plurality of water collecting troughs 100 are radially disposed radially outward from the center of the collecting trough 10 and are installed to be inclined downward toward the outer side of the settling trough 10, (102) are formed at regular intervals.
The method according to claim 1,
Wherein the sludge emitter (50) is rotated at a higher speed than the scraper (30).

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