KR101961715B1 - High efficiency water treatment system - Google Patents

Abstract

The present invention relates to a high-efficiency water treatment apparatus. More specifically, a mixing container is provided in a mixing tank to increase the mixing efficiency. A variable water flow control panel and a perforated plate are further provided in a float tank so that only the treated with sludge floated is discharged to the outside. The floating time and the residence time of the sludge are increased so that microbubbles which are not completely floated are prevented from flowing out, thereby enhancing the quality of the treated water.

Description

[0001] The present invention relates to a high efficiency water treatment system,

The present invention relates to a high-efficiency water treatment apparatus for improving the sludge agglomeration efficiency of treated water and improving the internal structure so as to discharge only treated water from which sludge has been completely discharged, thereby improving the quality of treated water.

Generally, in the water treatment process, first, a flocculation reaction tank for flocculating suspended particles in water to flocculate suspended particles by using an agglutinating agent, and then flocculating flocculated flocculated water by the dissolved air bubbles generated in the bubble generator, And a device for cleaning the water by removing the flocculated flocs, that is, scum, from the flotation tank to the outside of the flotation tank.

In the floatation method (flotation method) in which the floating material in the water is flocculated, when small amount of material is present in the water, small air bubbles are generated and injected to form a solid mass formed in the shear flocculation reaction tank, Is raised by light bubble buoyancy. The flotation method is classified into air flotation, dissolved air flotation (DAF), and vacuum flotation. Among them, the dissolved air flotation method is most widely used.

Korea Public Practical New Public Affairs Office 1996-022562 (Published July 20, 1996)

SUMMARY OF THE INVENTION An object of the present invention is to provide a sludge treatment method and a sludge treatment method in which a sludge agglomeration efficiency is improved as compared with a conventional water treatment apparatus and a variable water flow regulating panel and a perforated plate are installed therein to improve the quality of treated water, So that only the treated water in which the sludge has completely floated can be discharged, and a highly efficient water treatment apparatus is provided in which the floatation time and the residence time of the sludge are increased.

Other objects and advantages of the present invention will be described hereinafter and will be understood by the embodiments of the present invention. Further, the objects and advantages of the present invention can be realized by the means and the combination shown in the claims.

SUMMARY OF THE INVENTION The present invention, as a means for solving the above problems,

A mixing tank (10) for mixing the chemicals with the treated water to be treated; An agglomeration tank (20) for agglomerating the foreign substances in the treatment water mixed with the chemical through the mixing tank (10); A contact tank (30) for generating fine bubbles in the treated water in which the foreign matter is flocculated and allowing the sludge to float in contact with the microbubbles; A floating tank 50 for allowing the sludge floated in the contact tank 30 to be moved toward and discharged from the drain tank 51; The sludge in the flotation tank (50) can be raised and lowered at an angle to the upper and lower sides of the flotation tank (50) on which the flotation tank (51) is formed to increase the flotation time of the sludge in the flotation tank (50) 50 are artificially adjusted so as to face toward the other side of the floating tank 50 so that the microbubbles that have not been floated can not flow out directly to the discharge duct 52 at the lower end of the floating tank 50, (60) for increasing the residence time in the floating tank (50) by allowing the water to move within the bath (50); The water flow control valve 60 is provided horizontally on the lower end side of the tank of the variable water flow control panel 60 in the floating tank 50 so that only the treated water floated by the variable water flow control panel 60 is led to the discharge duct 52, And a perforated plate (70) having a perforation hole (71) formed therein.

As described above, the present invention has an effect of improving flocculation efficiency of sludge contained in treated water.

In addition, the present invention has an effect that the treated water quality is improved by inducing the water flow so that only the treated water floated completely on the water surface is discharged from the sludge.

In addition, the present invention has the effect of improving the quality of the treated water by artificially controlling the water flow so that the microbubbles that are not completely floated are not discharged.

Further, the present invention can reduce the volume of the mixed paper and the total area of the water treatment apparatus, thereby reducing the facility cost and the power cost.

Further, the present invention has the effect of facilitating automatic operation and maintenance, achieving good water quality in a short period of time, and enabling rapid normal operation.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a configuration diagram of an embodiment of a water treatment apparatus according to the present invention. Fig.
2 is a configuration diagram of an embodiment showing a mixer according to the present invention.
3 is a configuration diagram of an embodiment showing a variable flow type water control panel according to the present invention.
4 is a configuration diagram of an embodiment showing a perforated plate according to the present invention.

Before describing in detail several embodiments of the invention, it will be appreciated that the application is not limited to the details of construction and arrangement of components set forth in the following detailed description or illustrated in the drawings. The invention may be embodied and carried out in other embodiments and carried out in various ways. It should also be noted that the device or element orientation (e.g., "front," "back," "up," "down," "top," "bottom, Expressions and predicates used herein for terms such as "left," " right, "" lateral, " and the like are used merely to simplify the description of the present invention, Or that the element has to have a particular orientation. Also, terms such as " first "and" second "are used herein for the purpose of the description and the appended claims, and are not intended to indicate or imply their relative importance or purpose.

The present invention has the following features in order to achieve the above object.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

According to one embodiment of the present invention,

A mixing tank (10) for mixing the chemicals with the treated water to be treated; An agglomeration tank (20) for agglomerating the foreign substances in the treatment water mixed with the chemical through the mixing tank (10); A contact tank (30) for generating fine bubbles in the treated water in which the foreign matter is flocculated and allowing the sludge to float in contact with the microbubbles; A floating tank 50 for allowing the sludge floated in the contact tank 30 to be moved toward and discharged from the drain tank 51; The sludge in the flotation tank (50) can be raised and lowered at an angle to the upper and lower sides of the flotation tank (50) on which the flotation tank (51) is formed to increase the flotation time of the sludge in the flotation tank (50) 50 are artificially adjusted so as to face toward the other side of the floating tank 50 so that the microbubbles that have not been floated can not flow out directly to the discharge duct 52 at the lower end of the floating tank 50, (60) for increasing the residence time in the floating tank (50) by allowing the water to move within the bath (50); The water flow control valve 60 is provided horizontally on the lower end side of the tank of the variable water flow control panel 60 in the floating tank 50 so that only the treated water floated by the variable water flow control panel 60 is led to the discharge duct 52, And a perforated plate (70) having a perforation hole (71) formed therein.

The perforated plate 70 may have a plurality of perforated holes 71 whose diameter gradually decreases toward one direction of the perforated plate 70 or a single elongated hole relatively larger than the perforated holes 71, And the pore size is decreased toward one direction of the perforated plate (70).

The mixing tank 10 is vertically and downwardly provided with a rotating fan F1 and is installed at the center of the mixing tank 10 to circulate the treated water and the chemicals in an upward and downward direction (11) to be mixed; A stationary rod 13 which is spaced apart from each other around the admixture tank 11 in the mixing tank 10 so as to be installed upright so as to generate turbulence in the mixed water to be mixed to increase the mixing efficiency; And a control unit.

The variable water flow regulating panel 60 is connected to the inner wall of the floating tank 50 at one end so as to be hinged to the hinge 61 and the hinge 61 is rotated by the external power means 62, And the other end is connected to the rope 63 connected to the external power means 62 so that the portion of the hinge 61 is pivoted And the angle is adjusted up and down.

The variable water flow regulating panel 60 is installed in the discharge duct 52 and outputs the measured turbidity value of the turbidimeter 80 for measuring the degree of turbidity of the discharged water to a predetermined turbidity The angle of the variable water flow regulating panel 60 is adjusted or ON / OFF controlled.

Hereinafter, a high-efficiency water treatment apparatus according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 4. FIG.

The high efficiency water treatment apparatus according to the present invention includes a mixing tank 10, an aggregation tank 20, a contact tank 30, a float tank 50, a variable water flow control panel 60, and a perforated plate 70.

The mixing tank 10 is a place where the water to be water-treated, that is, the chemical such as the flocculant is mixed with the treated water.

In the mixing tank 10 of the present invention, a mixing tank 11 and a fixing rod 13 are further provided to increase the mixing efficiency of such a medicine.

The mixing tube 11 is vertically fixed to the center of the mixing tank 10 through a plurality of fixing pins 12, A rotary fan (F1) is installed inside the blending cylinder (11). As a result, the treated water and the chemicals in the mixing tank 10 circulate in the upward and downward directions of the mixing tank 11 to induce not only the mixing by the swirling flow but also the upper and lower mixing in the mixing tank 10, So that the coagulation efficiency is increased.

The fixing rods 13 are spaced apart from each other around the mixing pot 11 in the mixing pot 10 so that a plurality of the fixing rods 13 are installed upright so that turbulence is generated in the mixing pot 10, .

The flocculation tank 20 is for flocculating foreign substances in the water mixed with chemicals through the mixing tank 10 and is equipped with a rotary fan F2 as in the mixing tank 10, And is rotated at a relatively lower rotational speed than the rotary fan F1 in the mixing tank 10.

The contact tank 30 is a place where fine bubbles (generated by the separate micro-bubble generating device 40) are generated in the treated water in which the foreign matters are coagulated in the flocculation tank 20. The sludge contacts the micro- So that it can be used.

The floatation tank 50 is divided into the contact tank 30 and the baffle so that the sludge floated in the contact tank 30 is moved together with the treated water and the float (Opposite to the contact tank 30) and then discharged.

Of course, the formation of the water stream through which the sludge and process water are transferred from the contact tank 30 to the discharge tank 51 of the float tank 50 may be accomplished by a separate device (wind generator, etc.) It can be used variously.

In this floating tank 50, in order to improve the quality of the treated water in the present invention,

It is possible to flexibly cope with load fluctuation, to help formation of upper laminar flow, to be able to adjust the angle mechanically according to the situation, so that micro bubbles that are not completely floated are not leaked, A panel 60 and a perforated plate 70 for guiding the water flow so that only the treated water floated on the surface of the sludge completely flows out.

The variable water flow regulating panel 60 is formed in a plate shape and is installed in a structure that is angularly adjustable upward and downward from the inner surface of the floating tank 50 on which the above-described discharge tank 51 is formed.

That is, when the treated water and the sludge are moved from the contact tank 30 toward the discharge tank 51, after the treated water and the sludge reach the one-sided wall of the floating tank 50 in which the discharge tank 51 is formed And is discharged to the outside through a discharge duct 52 formed at the lower end of one side of the floating tank 50.

However, since the inflow micro bubbles including the sludge can also flow out immediately, when the variable water flow control panel 60 is horizontally installed in the floating tank 50 in one embodiment, the discharge tank 51 is formed The sludge and the treated water reaching the one side wall of the floating tank 50 are clogged by the variable water flow control panel 60 and flow back toward the other side of the floating tank 50 (towards the side of the contact tank 30) So that the floating time in the floating tank 50 is increased and the water flow moved to one side of the floating tank 50 is artificially adjusted so as to face the other side of the floating tank 50, The retention time in the floating tank 50 can be increased by allowing the fine bubbles to move within the floating tank 50 without flowing out directly to the discharge duct 52 at the lower end of the floating tank 50. [

For this purpose, various embodiments are possible if the user has a structure in which the adjustable water flow control panel 60 is adjustable up and down. In one embodiment, one end of the hinge 61 is connected to the inner wall of the floating tank 50, And a part of the hinge 61 is rotated by an external power means 62 such as a motor or the like so that the hinge 61 can be angled upwardly or downwardly or one end can be hinged to the inner wall of the floating tank 50 And the other end is supported by the pulley 64 and connected to the rope 63 connected to the external power means 62 (motor, weight of various weights, etc.), so that the portion of the hinge 61 is rotated, So that the angle can be adjusted to be lower.

The turbidity meter 80 for measuring the degree of turbidity of the treated water to be discharged is provided in the discharge duct 52 of the floating tank 50. The turbidity measurement value of the turbidimeter 80 is set to a predetermined turbidity The angle of the variable water flow regulating panel 60 can be adjusted or ON / OFF controlled. Of course, a separate control unit 90 for such control can be further provided. If the turbidity measurement value is lower than the preset turbidity value in the embodiment, the variable water flow control panel 60 may not be used in close contact with the wall surface of the floatation tank 50 or may be used from the wall surface of the floatation tank 50 50), and when the turbidity measurement value is higher than the predetermined turbidity value, the variable water flow regulation panel (60) is horizontally aligned in the floating tank (50), or alternatively, So as to control the angle of inclination toward the upper portion of the floating tank (50).

The perforated plate 70 is installed on the lower side of the variable water flow regulating panel 60 in the floating tank 50 to be horizontal with the ground surface. The sludge is floated by the variable water flow regulating panel 60, A plurality of perforation holes 71 are formed so as to be led out to the discharge duct 52 and flow out.

For this, the perforated plate 70 is formed such that a plurality of perforation holes 71 gradually decrease in diameter toward one direction of the perforated plate 70 (toward the direction toward the discharge chamber 51 from the contact tank 30) Or a single elongated hole relatively larger than the perforation hole 71 has a shape in which the perforation size (or the perforation width) is reduced toward one direction of the perforated plate 70 and is continuously formed.

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. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

10: Mixing tank 11: Mixing tank
12: Fixing pin 13: Fixing rod
20: coagulation tank 30: contact tank
40: Micro-bubble generator 50: Floating tank
51: exhaust chamber 52: exhaust duct
60: Variable flow regulating panel 61: Hinge
62: power means 63: rope
64: Dollee 70: Perforated plate
71: Perforation hole 80: Turbidimeter
90:
F1, F2: Rotating fan

Claims (5)

A mixing tank (10) for mixing the chemicals with the treated water to be treated;
An agglomeration tank (20) for agglomerating the foreign substances in the treatment water mixed with the chemical through the mixing tank (10);
A contact tank (30) for generating fine bubbles in the treated water in which the foreign matter is flocculated and allowing the sludge to float in contact with the microbubbles;
A floating tank 50 for allowing the sludge floated in the contact tank 30 to be moved toward and discharged from the drain tank 51;
The sludge in the flotation tank (50) can be raised and lowered at an angle to the upper and lower sides of the flotation tank (50) on which the flotation tank (51) is formed to increase the flotation time of the sludge in the flotation tank (50) 50 are artificially adjusted so as to face toward the other side of the floating tank 50 so that the microbubbles that have not been floated can not flow out directly to the discharge duct 52 at the lower end of the floating tank 50, (60) for increasing the residence time in the floating tank (50) by allowing the water to move within the bath (50);
The water flow control valve 60 is provided horizontally on the lower end side of the tank of the variable water flow control panel 60 in the floating tank 50 so that only the treated water floated by the variable water flow control panel 60 is led to the discharge duct 52, And a perforated plate (70) having a perforation hole (71) formed therein,
One end of the hinge 61 is coupled to the inner wall of the floating tank 50 so that the hinge 61 is rotated by an external power means 62, Or one end of the hinge 61 is coupled to the inner wall of the floating tank 50 and the other end of the hinge 61 is connected to the rope 63 connected to the external power means 62, And the angle is adjusted to a lower angle.
The method according to claim 1,
The perforated plate (70)
The number of the perforation holes 71 is gradually decreased toward the one direction of the perforated plate 70,
Wherein an elongated hole having a diameter larger than that of the perforation hole (71) is continuously formed in a direction decreasing toward one direction of the perforated plate (70).
The method according to claim 1,
The mixing tank (10)
A mixer 11 installed at the center of the mixer 10 for circulating and mixing the process water and the chemicals in the upward and downward directions, ;
A stationary rod 13 which is spaced apart from each other around the admixture tank 11 in the mixing tank 10 so as to be installed upright so as to generate turbulence in the mixed water to be mixed to increase the mixing efficiency;
And a high-efficiency water treatment apparatus.
The method according to claim 1,
The variable water flow regulation panel (60)
The control unit 90 compares the measured turbidity value of the turbidimeter 80 installed in the discharge duct 52 and measures the degree of turbidity of the discharged process water with the preset turbidity value, 60) is controlled or ON / OFF-controlled.
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