KR200412935Y1 - Cohesive device with non-equal width peddle - Google Patents

Abstract

The uneven width paddle flocculator according to the present invention is formed with a stirring paddle 30 disposed radially parallel to the rotation shaft 20 rotated by the drive motor 10, as shown in FIGS. The paddle 30 is perpendicular to the rotation shaft 20 and is disposed in the upper and lower portions, respectively, and is connected in parallel with the rotation shaft 20 by connecting the plurality of horizontal supports 310 formed in the radial direction and the horizontal support 310 disposed in the upper and lower portions. It is composed of a plurality of blades 320, the blade 320 is the blade closest to the front axis (20) as the inner blade 321 and the blade installed farthest from the rotating shaft 20, as shown in FIG. If it is defined as the outer blade 324, the width of the inner blade 321 is the widest and the width of the outer blade 324 is formed the narrowest, the blade width from the outer blade 324 toward the inner blade 321 is Getting In the case of forming a floc by stirring the fluid, it is possible to control the generation of the dead zone with low agitation strength with a relatively low agitation strength and an excessively high agitation strength through the rotational speed. Stirring is done to prevent effective destruction of the flocs, while achieving effective flocculation.

Description

Cohesive device with non-equal width peddle}

1 is a front view of a conventional equal width paddle agglomerator

Figure 2 is a front view of the uneven width paddle flocculator according to the present invention

Figure 3 is a bottom view of the uneven paddle flocculator according to the present invention

Figure 4 (a) is a graph of the instantaneous velocity vector distribution derived by the PIV experiment by a conventional equal width paddle flocculator

Figure 4 (b) is an instantaneous velocity vector distribution graph derived from the PIV experiment by the unequal width paddle flocculator according to the present invention

*** Explanation of major symbols in drawings ***

 1, 10: drive motor 2, 20: rotating shaft

3, 30: stirring paddle 31, 310: horizontal support

32, 320: blade

321: inner blade 324: outer blade

The present invention relates to a paddle installed on the rotary shaft of the flocculator installed in the flocculation paper of the water purification plant, and more particularly, to an uneven width paddle flocculator having a plurality of blades of various widths.

The water purification plant puts the raw water supplied through the raw water pipes from the intake station in the chemical chamber and the mixed paper by the chemical input device, the mixing device, and the pump by mixing the chemicals, and then aggregates the fine suspended matter (solid matter) in the flocculating paper. The flocculated floc is precipitated and the precipitate is removed and purified by a series of processes sent to metal filter paper and water purification paper.

The flocculator installed in the flocculation paper is a mechanical facility for growing the floc in the mixed paper with flocculant into the floc easy to sink. This flocculator is rotated by the drive motor 1 as shown in FIG. A stirring paddle 3 is formed radially on the rotating shaft 2, and the paddle 2 is connected to the support 31 and the support 31 which are perpendicular to the rotating shaft and formed radially in the upper and lower portions, respectively, and the rotating shaft 2. It consists of a plurality of blades (32) formed in parallel with.

The blade 32 of the conventional paddle is a long plate-like body, all blades are formed in the same width.

The agglomerator having such a configuration is to rotate the blade 32 formed with a plurality of paddles assembled on the rotating shaft to have a constant speed gradient G value to agglomerate suspended solids in the raw water. .

The paddle blade 32 of the conventional agglomerator is a narrow and long plate-like body, and the width of all the blades 32 is the same width.

The speed gradient equation of the conventional equidistant paddle flocculator is shown in Equation (1).

-------------------(1)

-------------------(One)

A: Total area of single sided paddle blade

v: circumferential speed outside paddle × correction factor

V: collective

Such a conventional iso paddle agglomerator is a paddle around the axis of rotation (2) because the magnitude of agitation intensity proportional to the peripheral speed when the paddle (3) rotates around the axis of rotation depends on the rotation radius of each blade (32) A dead zone with extremely low agitation strength occurs in the part agitated at the inner side of (3), and agitation at the outer side of the paddle 3 has a relatively large agitation strength compared to that at the inner side. There is a problem in that the flocculated floc is broken again to reduce the flocculation effect.

The present invention aims to adjust the blades forming the paddle of the agglomerator to have a more uniform value of the agitation strength stirred by the paddle in all parts of the agglomeration paper. It is characterized by the fact that the outer side is relatively low and the inner side of the paddle is relatively high to maximize the cohesive effect.

The unequal width paddle agglomerate according to the present invention, which achieves the object of the present invention described above, has different widths of the blades assembled to the support in constructing the paddles, but the width of the blades increases from the inner side closer to the rotation axis toward the outer side of the rotation axis. It is configured to be narrower, the width of the blade formed on the innermost and the width of the blade formed on the outermost width is characterized in that the width of the blades between the innermost blade and the outer blade is gradually narrowed.

With respect to the present invention made of a configuration as described above will be described in detail with the accompanying drawings.

However, the terms or words used in the present specification and claims are regarded as the concepts selected by the inventors as the best way to explain the present invention, and the meanings consistent with the technical spirit of the present invention in understanding the technical contents of the present invention. It should be properly interpreted as a concept.

Figure 2 is a front view of the uneven width paddle flocculator according to the present invention, Figure 3 is a bottom view.

The uneven width paddle flocculator according to the present invention is formed with a stirring paddle 30 disposed radially parallel to the rotation shaft 20 rotated by the drive motor 10, as shown in FIGS. The paddle 30 is perpendicular to the rotation shaft 20 and is disposed in the upper and lower portions, respectively, and is connected in parallel with the rotation shaft 20 by connecting the plurality of horizontal supports 310 formed in the radial direction and the horizontal support 310 disposed in the upper and lower portions. It is composed of a plurality of blades 320, the blade 320 is the blade closest to the front axis (20) as the inner blade 321 and the blade installed farthest from the rotating shaft 20, as shown in FIG. If it is defined as the outer blade 324, the width of the inner blade 321 is the widest and the width of the outer blade 324 is formed the narrowest, the blade width from the outer blade 324 toward the inner blade 321 is Getting It is controlled such that configurations.

As such, the relation of the velocity gradient G applied to the uneven width paddle flocculator according to the present invention is shown in Equation (2).

-------------(2)

-------------(2)

The unequal width paddle flocculator according to the present invention having the above configuration has the largest speed gradient G value of the outer blade 324 close to the rotation axis when considering only the rotational speed in stirring the fluid in the flocculator, and the inner blade 321. The speed inclination G value should be the smallest, but the outer blade 324 has the smallest width of the blade even though the rotation speed is the largest, resulting in less turbulence, so the speed inclination G value is relatively reduced, and the inner blade 321 is the rotation speed. Although the width of the blade is the smallest, the width of the blade is the largest and the turbulence is generated, so the speed gradient G is relatively increased. Thus, the speed gradient G generated by the uneven width paddle agglomerate according to the present invention is generally a good value within a certain range. Converge.

Therefore, the unequal paddle agglomerator according to the present invention can obtain a speed gradient G value range in a region where the coagulation effect is very large if the rotational speed is properly controlled.

This fact is the instantaneous velocity vector distribution graph (a) derived from the PIV experiment by the conventional equal width paddle flocculator shown in FIG. 4 and the instantaneous velocity vector distribution graph derived from the PIV experiment using the uneven width paddle flocculator according to the present invention. This can be seen by comparing (b).

That is, since the red region and the yellow region shown in FIG. 4 (b) appear larger than those of FIG. 4 (a), it can be seen that the coagulation effect by the unequal paddle agglomerate according to the present invention is relatively large.

The protection scope of the present invention includes not only a vertical agglomerator but also a horizontal agglomerator.

The unequal paddle flocculator according to the present invention rotates the generation of a zone where the dead zone with low agitation strength is relatively low and the agitation strength is too large as compared with the prior art in forming a floc by stirring the fluid as described above. The speed can be controlled to prevent stirring of already flocculated flocs while stirring to effect effective flocculation.

Claims (1)

Stirring paddles are arranged radially parallel to the rotation axis rotated by the drive motor, the paddles are connected to the vertical axis and perpendicular to the rotation axis, respectively, a plurality of horizontal support arranged radially and horizontal support disposed up and down In the agglomerator comprising a plurality of blades assembled in parallel with the rotating shaft, the blade width of the inner blade closest to the rotating shaft is formed the widest and the blade width of the outer blade installed farthest from the rotating shaft is formed the narrowest. An unequal paddle agglomerate configured so that the blade width becomes wider toward the inner blade.

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