KR101306255B1 - Water treatment apparatus - Google Patents

Abstract

The present invention relates to an environmental field, and more particularly, to a water treatment apparatus for separating fine particles such as suspended matter in water, organic matter, microorganism, etc. with a flocculant. In particular, the present invention is the upper side is made of a cylindrical (110a) and the lower side has an inner space consisting of a conical (110b), the inlet 120 is the upper side of the inner space so that water can be introduced into the inner space Cohesive body portion 110 is connected in the tangential direction of the cylindrical (110a), the outlet 112 is formed in the lower side of the inner space so that the water in the inner space can be discharged; And a plurality of flocculant supply pipes 130 installed in the inner space of the body portion 110 for aggregation to supply the coagulant from the upper side to the lower side, and mutually radial with respect to the center of the body portion 110 for aggregation. It is possible to provide a water treatment apparatus comprising a.

Description

[0001]

The present invention relates to an environmental field, and more particularly, to a water treatment apparatus for separating fine particles such as suspended matter in water, organic matter, microorganism, etc. with a flocculant.

The water treatment system is a device for clean treatment of polluted water such as sewage, sewage, wastewater, etc. by chemical, physical, etc. One of them is a suspension material in water, microparticles such as organic matter and microorganism as a coagulant Agglomerated and precipitated by gravity.

 However, since it takes a considerable time to coagulate and precipitate the fine particles in a sufficient size by merely supplying the flocculant to the water, it can not be a practical treatment method. Therefore, the rotation of the fan Agitator is widely used.

However, when the stirrer is used, the cost of the equipment and the maintenance cost such as the use of the power increase, thereby pointing out a problem of cost burden. In particular, the stirrer is highly expensive because it is made of a special material such as anti-corrosion and waterproof to prevent the agitator from aging due to chemical and physical reaction with water and coagulant.

In addition, when the stirrer is used, since the agglomerate of the fine particles adheres to the stirrer, the water treatment must be intermittently stopped to maintain and repair the stirrer.

In addition, as described above, since it is a reality that the stirrer can only be installed limitedly due to the high cost and the restriction of the size of the equipment, it is pointed out that there is a limit to increase the water treatment efficiency by the stirrer.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a water treatment apparatus capable of structurally forming a rotating water flow so that stirring operation can be performed.

In order to solve the above problems, the present invention has an inner space consisting of a cylindrical shape (110a) on the upper side and a conical shape (110b) on the lower side, and the inlet portion 120 is configured to allow water to flow into the internal space. An agglomeration body part 110 connected to a tangential direction of the cylindrical body 110a at an upper side of the space, and having an outlet 112 formed at a lower side of the inner space so that water in the inner space can be discharged; And a plurality of flocculant supply pipes 130 installed in the inner space of the body portion 110 for aggregation to supply the coagulant from the upper side to the lower side, and mutually radial with respect to the center of the body portion 110 for aggregation. It is possible to provide a water treatment apparatus comprising a.

An upper surface hole 114 coaxial with the aggregation body portion 110 and larger than a radial radius of the plurality of flocculant supply pipes 130 is formed on an upper surface of the aggregation body portion 110; Covering the upper hole 114 of the body portion 110 for aggregation, it may further include a cover portion 140 for supporting the plurality of flocculant supply pipe 130.

Spiral protrusions may be formed on the inner wall of the body portion 110 for aggregation in a direction from the upper side to the lower side.

 The outlet 112 of the body portion 110 for aggregation is formed in the center of the bottom of the body portion 110 for the aggregation, the outlet of the body portion 110 for the aggregation so that the water in the inner space can be discharged ( The discharge unit 150 having a constant discharge path 152 along the vertical direction in the same cross section as the cross section of 112 may be connected in the vertical direction.

The discharge part 150 may have a plurality of protrusions formed on an inner wall thereof.

The flocculant supply pipe 130 is installed to be inserted into the cylindrical portion (110a) of the inner space and vertically perpendicular to the vertical counterpart 132, and extends from the lower end of the cylindrical counterpart 132 and the It may include a conical counterpart 134 bent toward the center of the body portion 110 for aggregation to correspond to the conical section (110b).

And a precipitating part (200) provided below the flocculating body part (110) to deposit water introduced from the flocculating body part (110); The sedimentation unit 200 is provided with a sedimentary body portion 210 having an inner space in which an inlet 210a for water is introduced into the upper surface, and provided below the inner space of the sedimentary body portion 210 is introduced. It may include a guide unit 220 for guiding the up and down rotation of water.

The inner diameter of the inlet 210a of the sedimentary body portion 210 may allow the upper water of the sedimentation body portion 210 to overflow, so that the water discharged from the agglomeration body portion 110 is discharged. It may be formed larger than the inner diameter of 150).

The inlet 210a of the sedimentation body portion 210 is formed to a size that can be sealed by combining the discharge portion 150 through which the water of the agglomeration body portion 110 is discharged, and the sedimentation body portion ( The upper surface of the 210 may be formed with a plurality of outlets 210b through which the upper water of the precipitation body portion 210 overflows radially around the inlet 210a of the precipitation body portion 210.

The precipitation main body 210 has an upper surface of the body 212; And a ring-shaped cover 214 formed in a ring shape and installed on an open upper surface of the body 212, and having a top surface and a bottom surface convex toward a lower side and an upper side, respectively.

The precipitation main body portion 210 is formed of a curved surface of which the bottom surface is convex downward, the inlet 210a is formed in the center of the upper surface; The guide part 220 is installed at the center of the bottom surface of the main body 210 for precipitation, the circumferential surface may be made of a curved surface so that the radius gradually increases toward the lower side.

It is installed on the upper side of the sedimentary body portion 210, the upper water of the sedimentation body portion 210 is overflowed and has an internal space in which the cohesive body portion 110 is installed, the outlet on the upper side It may further include a discharge portion 300 is formed (210b).

The present invention can economically perform water treatment because the rotating water flow is structurally formed without using the stirrer and the stirring operation can be performed, and the water treatment is not required to be stopped for maintenance or the like, and the agitating action is actively performed as a whole Water treatment efficiency is excellent.

1 is a cross-sectional view of a water treatment device according to a first embodiment of the present invention.
2 is a sectional view taken along the line I-I in Fig.
3 is a cross-sectional view according to II-II of FIG.
4 is an exploded perspective view of FIG.
5 is a partial cross-sectional view of a water treatment device according to a second embodiment of the present invention.
6 is a partial perspective view of a water treatment device according to a second embodiment of the present invention.

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

1, the water treatment apparatus according to the present invention comprises a flocculation unit 100 to which a flocculant is supplied, a sedimentation unit 200 to flocculate the flocculated flocs 2 formed by coagulating the particulates with the flocculant, And a discharge unit 300 for discharging clean water from which fine particles have been removed.

First, the flocculating portion 100 may be constructed as follows.

The agglomeration part 100 has an inner space formed on the upper side of the cylinder 110a and a lower side of the conical shape 110b. The inlet 120 has a cylindrical shape on the upper side of the inner space so that water can flow into the inner space. Cohesive body portion 110 is connected in the tangential direction of the 110a, the outlet 112 is formed in the lower side of the inner space so that water in the inner space can be discharged; And a plurality of coagulant supply pipes 130 installed to supply a coagulant from an upper side to a lower side in an inner space of the coagulant main body 110, and mutually radial with respect to the center of the coagulant main body 110. Can be.

That is, as the water flows in the tangential direction of the cylinder 110a, the water may turn by the centrifugal force toward the lower side of the body portion 110 for aggregation. Therefore, in the inner space of the body portion 110 for aggregation, the stirring action is formed by the vortices caused by the swirl flow 4 so that the flocculant can be mixed with water more smoothly. The floc 2 may be easily formed, and the floc 2 thus formed may be discharged more easily while turning toward the lower side of the body portion 110 for aggregation by centrifugal force. In addition, the floc 2 formed in the body portion 110 for aggregation is collected in the corner of the inner space of the body portion 110 for aggregation and does not stagnate, and the outlet 112 of the body portion 110 for aggregation along the conical shape 110b. ) Can be gathered smoothly.

In addition, since the plurality of flocculant supply pipes 130 are radially installed to form a central core of the swirl flow 4 in the inner space of the body portion 110 for aggregation, the body portion 110 for aggregation is formed. In the swirl flow (4) can be formed smoothly. In particular, in order to form smooth swirl flow (4) and discharge of the floc (2), such a plurality of flocculant supply pipe 130 is installed to be inserted into the cylindrical portion (110a) of the inner space of the body portion 110 for aggregation and up and down direction The center of the body portion 110 for aggregation to extend from the lower end of the cylindrical portion 132 and the cylindrical portion 132 perpendicular to the conical shape 110b of the inner space of the body portion 110 for aggregation. It may be made of a conical counterpart 134 bent toward, a plurality of ejection openings 130a may be formed in the up and down direction in each of the coagulant supply pipe 130 so that the coagulant is evenly ejected. On the other hand, together with the plurality of coagulant supply pipe 130 disposed in a mutually radial manner, another coagulant supply pipe 130 in a straight line in the vertical direction in the center of the body portion 110 for aggregation may be further installed.

Furthermore, an upper surface hole 114 coaxial with the aggregation body portion 110 and larger than a radial radius of the plurality of flocculant supply pipes 130 may be formed on the upper surface of the aggregation body portion 110. In addition, the top surface 114 of the body portion 110 for aggregation may be covered, and the cover portion 140 supporting the plurality of flocculant supply pipes 130 may be further included. Therefore, the opening part 140 may open and close the upper hole 114 of the body portion 110 for aggregation, and thus the maintenance of the internal space of the body portion 110 for aggregation may be easily performed. In addition, the plurality of flocculant supply pipes 130 may be firmly supported by the cover portion 140, respectively, and the plurality of flocculant supply pipes 130 may be installed radially while maintaining concentricity with the body portion 110 for aggregation. Can be.

In addition, the inner wall of the body portion 110 for aggregation may be formed protrusions spirally arranged in the direction from the upper side to the lower side. Swirl flow (4) can be smoothly formed in the body portion 110 for aggregation by the projections 116 arranged in a spiral, many vortices are formed can be more active stirring.

In addition, the outlet 112 of the body portion 110 for aggregation is formed in the center of the bottom of the body portion 110 for aggregation, the discharge portion 150 having a discharge path 152 so that water in the inner space can be discharged. ) May be connected in the vertical direction. Discharge part 150 may be formed in the same cross-section and up and down in the same cross-section and the same as the outlet 112 of the body portion 110 for aggregation, discharge stagnation and flow rate due to the bottleneck caused by such discharge part 150 An increase phenomenon occurs, and thus vortices may be more actively formed at the inlet 120, so that the fine particles may aggregate together more efficiently to form the flocs 2.

In addition, the discharge unit 150 may be provided with a plurality of protrusions 154 on the inner wall to promote the vortex, so that mixing and stirring can be more actively performed. The plurality of protrusions 154 of the discharge part 150 may be randomly formed to promote the vortex.

The precipitation unit 200 may be installed at the lower side of the aggregation body portion 110 to precipitate the water flowing from the aggregation body portion 110.

In particular, the precipitation unit 200 is provided in the sedimentary body portion 210 having an internal space formed with an inlet 210a for introducing water into the upper surface, and provided below the inner space of the precipitation body portion 210 It may include a guide unit 220 for guiding the up and down rotation of water. Accordingly, while the water flows from the body portion 110 for flocculation, the floc 2 is prevented from being discharged from the body portion 210 for precipitation while turning in the body portion 210 for precipitation. This allows the flocs 2 to agglomerate with each other and settle more smoothly.

Further, the main body 210 for precipitation may be formed of a curved surface with a convex bottom surface, and an inlet 210a may be formed at the center of the upper surface. Of course, the body portion 210 for precipitation may be formed in the inner wall as a whole. In addition, the guide portion 220 is installed at the center of the bottom surface of the main body 210 for precipitation, the circumferential surface 220a may be formed of a curved surface so that the radius gradually increases toward the lower side. That is, the guide part 220 may be installed in a substantially conical structure at the center of the main body 210 for precipitation, so that many vortices may be formed around the guide part 220.

In addition, the precipitation main body 210 is formed in the body 212 and the upper surface is open, the ring-shaped is installed on the open upper surface of the body 212, the upper surface, the lower surface is convex toward the lower side, the upper side respectively 214a It may include a ring-shaped cover 214 formed of, 214b. Rotational water flow can be guided by the ring-shaped cover 214, so that the vortex can be more smoothly formed in the body portion 210 for sedimentation, and the discharge of the floc 2 can be more reliably prevented. In addition, the water overflowed from the sedimentary body portion 210 by the ring-shaped cover 214 is guided in the radially outward direction of the discharge portion 300 avoiding the agglomeration portion 100 and smoothly flows into the discharge portion 300. Can be.

On the other hand, the inner diameter of the inlet 210a of the sedimentary body portion 210 is discharged to discharge the water of the body portion 110 for aggregation so that the upper portion of the sedimentary body portion 210 can serve as an outlet for overflowing the discharged water. It may be larger than the inner diameter of the part 150.

Alternatively, as shown in FIGS. 5 and 6, the inlet 210a of the precipitation main body 210 is coupled to an outlet 150 through which the water of the aggregation body 110 is discharged. It is formed in a size that can be sealed, the upper surface of the sedimentary body portion 210, the upper portion of the sedimentary body portion 210 radially overflows around the inlet (210a) of the sedimentation body portion 210 ( A plurality of outlets 210b may be formed.

Next, the discharge portion 300 is provided on the upper side of the settling portion 200, the supernatant of the settling portion 200 is introduced into the overflow (over flow), and the upper portion of the discharge portion 300 is discharged in an over-floating manner Discharge port 300a may be formed at an upper side thereof. Therefore, precipitation of the floc 2 may be stably made in the precipitation unit 200 by the overflow type discharge, and only the clean supernatant from which the fine particles are removed from the discharge unit 300 may be discharged.

On the other hand, the inside of the discharge portion 300, the aggregation portion 100 may be installed to be concentric with the discharge portion 300, whereby the aggregation portion 100 and the precipitation portion 200, the discharge portion 300 It can be organically compact with each other, minimizing the size of the installation and simplifying the connection structure.

The water treatment process of the water treatment apparatus according to the present invention will be described below.

As shown by arrow A, water flows into the body portion 110 for aggregation through the inlet portion 120, and the water introduced in the body portion 110 for aggregation turns as shown below by the arrow B. As shown in FIG. At this time, as the flocculant is supplied to and mixed with the body portion 110 for aggregation, the fine particles are aggregated to form the floc 2.

The floc 2 thus formed is introduced into the main body 210 for precipitation together with water as shown by arrow C. FIG.

The water and the floc 2 introduced into the sedimentary body portion 210 are formed in the sedimentary body portion 210 according to the structural shape of the guide portion 220 and the sedimentation body portion 210 as shown by arrow D. FIG. Turning to form a vortex, whereby the flocs 2 are more aggregated to settle at the bottom of the settling body portion 210, and the supernatant without the flocs 2 as shown by arrow E is settled 200 Overflows from) to the discharge part 300.

As shown by arrow F, the water in the outlet 300 can also be discharged in a clean state with the particulates removed as it overflows and is discharged from the outlet 300.

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 embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

100; Agglomeration section 110; Body part for aggregation
120; Inlet 130; Flocculant supply pipe
140; Abdominal cavity 200; Precipitation
210; Precipitation main body 220; Guide portion
300; Outlet portion

Claims (12)

delete The upper side is made of a cylindrical (110a) and the lower side has an inner space consisting of a conical (110b), the inlet 120 is the upper portion of the inner space of the cylindrical (110a) so that water can be introduced into the inner space Cohesive body portion 110 is connected in the tangential direction, the outlet 112 is formed in the lower side of the inner space so that the water in the inner space can be discharged; And
A plurality of coagulant supply pipes 130 installed to supply a coagulant from an upper side to a lower side in an inner space of the body portion 110 for coagulation, and forming a mutually radial shape with respect to a center of the body portion 110 for coagulation; and,
An upper surface hole 114 coaxial with the aggregation body portion 110 and larger than a radial radius of the plurality of flocculant supply pipes 130 is formed on an upper surface of the aggregation body portion 110;
The upper surface 114 of the coagulation body portion 110 is covered with a water treatment apparatus, characterized in that it further comprises a cover 140 for supporting the plurality of coagulant supply pipe (130). The method according to claim 2,
Water treatment apparatus, characterized in that the inner wall of the body portion 110 for the aggregation is formed projections spirally arranged in a direction from the upper side to the lower side. The upper side is made of a cylindrical (110a) and the lower side has an inner space consisting of a conical (110b), the inlet 120 is the upper portion of the inner space of the cylindrical (110a) so that water can be introduced into the inner space Cohesive body portion 110 is connected in the tangential direction, the outlet 112 is formed in the lower side of the inner space so that the water in the inner space can be discharged; And
A plurality of coagulant supply pipes 130 installed to supply a coagulant from an upper side to a lower side in an inner space of the body portion 110 for coagulation, and forming a mutually radial shape with respect to a center of the body portion 110 for coagulation; and,
The outlet 112 of the body portion 110 for aggregation is formed in the center of the bottom of the body portion 110 for the aggregation, the outlet of the body portion 110 for the aggregation so that the water in the inner space can be discharged ( The water treatment device, characterized in that the discharge section 150 having a constant discharge path 152 along the vertical direction in the same cross section as the cross section of the 112 is connected in the vertical direction. The method of claim 4,
The discharge unit 150 is a water treatment device, characterized in that a plurality of projections formed on the inner wall. The upper side is made of a cylindrical (110a) and the lower side has an inner space consisting of a conical (110b), the inlet 120 is the upper portion of the inner space of the cylindrical (110a) so that water can be introduced into the inner space Cohesive body portion 110 is connected in the tangential direction, the outlet 112 is formed in the lower side of the inner space so that the water in the inner space can be discharged; And
A plurality of coagulant supply pipes 130 installed to supply a coagulant from an upper side to a lower side in an inner space of the body portion 110 for coagulation, and forming a mutually radial shape with respect to a center of the body portion 110 for coagulation; and,
The flocculant supply pipe 130 is installed to be inserted into the cylindrical portion (110a) of the inner space and vertically perpendicular to the vertical counterpart 132, and extends from the lower end of the cylindrical counterpart 132 and the And a conical counterpart (134) bent toward the center of the body portion (110) for aggregation to correspond to the conical (110b) portion. The upper side is made of a cylindrical (110a) and the lower side has an inner space consisting of a conical (110b), the inlet 120 is the upper portion of the inner space of the cylindrical (110a) so that water can be introduced into the inner space Cohesive body portion 110 is connected in the tangential direction, the outlet 112 is formed in the lower side of the inner space so that the water in the inner space can be discharged; And
A plurality of coagulant supply pipes 130 installed to supply a coagulant from an upper side to a lower side in an inner space of the body portion 110 for coagulation, and forming a mutually radial shape with respect to a center of the body portion 110 for coagulation; and,
And a precipitating part (200) provided below the flocculating body part (110) to deposit water introduced from the flocculating body part (110);
The sedimentation unit 200 is provided with a sedimentary body portion 210 having an inner space in which an inlet 210a for water is introduced into the upper surface, and provided below the inner space of the sedimentary body portion 210 is introduced. Water treatment apparatus comprising a guide portion 220 for guiding the up and down rotation of water. The method of claim 7,
The inner diameter of the inlet 210a of the sedimentary body portion 210 may allow the upper water of the sedimentation body portion 210 to overflow, so that the water discharged from the agglomeration body portion 110 is discharged. Water treatment apparatus, characterized in that formed larger than the inner diameter of 150). The method of claim 7,
The inlet 210a of the sedimentary body portion 210 is formed to a size that can be sealed by combining the discharge portion 150 for discharging the water of the body portion 110 for aggregation,
On the upper surface of the sedimentary body portion 210, a plurality of outlets 210b through which the upper water of the sedimentary body portion 210 overflows radially around the inlet 210a of the sedimentary body portion 210. Water treatment apparatus, characterized in that formed. The method of claim 7,
The precipitation body portion 210 is
An upper surface of the body 212; And
It is formed in a ring shape is installed on the open upper surface of the body (212), the upper surface, the lower surface, characterized in that it comprises a ring-shaped cover (214) formed in a convex curve toward the upper side, respectively. The method of claim 7,
The precipitation main body portion 210 is formed of a curved surface of which the bottom surface is convex downward, the inlet 210a is formed in the center of the upper surface;
The guide portion 220 is installed in the center of the bottom surface of the main body portion 210 for precipitation, water treatment apparatus, characterized in that the circumferential surface is made of a curved surface so that the radius gradually increases toward the lower side. The method of claim 7,
It is installed on the upper side of the sedimentary body portion 210, the upper water of the sedimentation body portion 210 is overflowed and has an internal space in which the cohesive body portion 110 is installed, the outlet on the upper side Water treatment apparatus further comprises a discharge portion 300 is formed (210b).

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