KR100334503B1 - Sedimenting Device - Google Patents

Abstract

The present invention relates to a sedimentation apparatus for sedimentation of sludge in water purification and sewage treatment plants, wherein the sedimentation basin 10 having an open top and three flanges 21 are respectively formed in three directions and have a 'Y' shape. It consists of a Y-shaped plate body portion 20 and a fastening rod 30 that can be fixed by inserting the end of each flange 21 of the Y-shaped plate body portion 20, the plate body portion 20 and the fastening rod 30 ) By continuously combining with each other to form a honeycomb inclined tube (A) as a whole to be inclined inside the sedimentation basin 10, to quickly settle the sludge contained in the sedimentation inlet water to the bottom of the sedimentation basin (10) while simplifying the installation. It can be.

Description

Inclined pipe sedimentation device for sedimentation basin {Sedimenting Device}

The present invention relates to an inclined tube-type sedimentation apparatus for sedimentation of sludge in the sedimentation basin, and more particularly, to an inclined tube-type sedimentation apparatus for sedimentation basin which can be easily settled while allowing sludge contained in the sedimentation basin to be settled quickly.

Particles heavier than water in sedimentation sludge settle in sedimentation water or water with very slow flow rate and are separated from water. By using the principle of gravity sedimentation, the particles are introduced into a large sedimentation basin so that water flows slowly. Separation is a common precipitation process. The characteristics of the sedimentation basin can be expressed by the surface loading rate of the sedimentation basin, where the surface loading rate is the amount of water introduced per unit time divided by the sedimentation basin area. Sedimentation basins with small surface load ratios are more effective in solid-liquid separation but have a problem in occupying a large site area.

Therefore, it is possible to increase the efficiency of the solid-liquid separation by inclining the plates in the sedimentation basin as a method for reducing the surface load rate while occupying a narrow site area.

That is, as a sedimentation apparatus for sedimentation of sludge contained in a conventional sedimentation basin, as shown in FIG. 1, the sedimentation basin 1 constructed of a concrete structure and an angle lattice woven into the sedimentation basin 1 are formed. It consists of the frame 2 and the inclined plate 3 supported by the frame and inclined diagonally between grids.

The conventional structure configured as described above can increase the sedimentation area by increasing the sedimentation area as well as increase the sedimentation area by inclining the inclined plate 3 supported on the frame 2, thereby increasing sedimentation efficiency.

However, the conventional one has some problems, although the sedimentation efficiency is increased to some extent by using an inclined plate. First, the conventional one is an inclined plate, which can prevent the flow of water by closing the Khankan in the longitudinal direction, but since it is open in the lateral direction, sludge resurfacing or partially between the inclined plate and the inclined plate due to the turbulence that partially leaves the inclined plate. There is a problem in that the two-dimensional flow of the turbulence formation does not exhibit the precipitation efficiency as expected.

Second, there is a problem that the work takes a long time when the installation and dismantling is to be installed in the field. The construction method has a problem in that the installation and dismantling work takes a long time because the frame is installed in a lattice form and the inclined plates must be continuously supported between the lattice forms.

Third, the conventional one has a structure that spans the frame with the upper and lower ends of the inclined plate placed on each other, causing frequent sagging or damage during construction or in particular during the operation and management process. There is a problem that the breakage due to the early blockage and excessive load of the first half of the inclined plate during inflow.

An object of the present invention is to provide an inclined tube-type sedimentation device for the sedimentation basin to maximize the sedimentation efficiency by preventing the turbulence formation by closing the water in the vertical direction as well as in the longitudinal direction.

Another object of the present invention is to provide an inclined tube-type sedimentation apparatus for the sedimentation basin which can be easily manufactured and dismantled upon dismantling by simply incorporating the product into a sedimentation basin at the factory.

Still another object of the present invention is to provide an inclined tube-type sedimentation device for the sedimentation basin which completely solidifies the structure and completely eliminates the risk of sag or damage during construction or operation and management.

1 is a cross-sectional view showing a conventional precipitation apparatus

2 is a cross-sectional view showing a precipitation apparatus according to the present invention

3 is a plan view showing a precipitation apparatus according to the present invention

4 is a partially enlarged view of the precipitation apparatus according to the present invention;

5 is a cross-sectional view showing a Y-shaped plate body portion according to the present invention.

6 is a cross-sectional view of the fastening rod according to the present invention.

<Explanation of symbols for main parts of the drawings>

10: Settler 20: Y plate body

21: Flange 21a: Insertion end

30: fastening rod 31: fitting groove

A: Sergeant

Hereinafter, the technical configuration of the present invention in detail.

As in Fig. 2, 3 and 4, the inclined tubular sedimentation apparatus for the sedimentation basin of the present invention, the top of the rectangular sedimentation basin 10 and the three flanges 21 are formed in three directions, respectively, 'Y' shaped It consists of a Y-shaped plate body portion 20 and a fastening rod 30 that can be fixed by inserting the end of each flange 21 of the Y-shaped plate body portion 20, the plate body portion 20 and the fastening rod ( 30) is continuously combined with each other to form a honeycomb inclined tube (A) as a whole to be slanted inside the sedimentation basin 10 to quickly settle the sludge contained in the waste water to the bottom of the sedimentation basin (10). .

4 shows an enlarged view of the fastening structure of the Y-shaped body portion 20 and the fastening rod 30, and the insertion end 21a having a larger cross-sectional area is formed in a round shape at the end of the flange 21 (Fig. 5), the fitting grooves 31 are formed in the three directions of the fastening rods 30 (see FIG. 6), and the insertion end 21a is inserted into the fitting groove 31. At this time, it is preferable that the three flanges 21 formed in three directions of the Y-shaped plate body 20 are each formed at 120 °.

The present invention constituted as described above forms a hexagonal honeycomb-shaped inclined tube as a whole, and not only the fastening structure is firm, but also closed in both the longitudinal and transverse directions to induce water flow only in the vertical direction to form turbulence. Can be prevented.

In addition, the present invention is fastened to the Y-shaped body portion 20 and the fastening rods 30, but is manufactured in advance in the factory and transported to the site to be settled in the sedimentation basin 10, the field work is made simple.

In FIG. 2, the inclination of the inclined pipe A is shown to be about 60 ° from the bottom of the sedimentation basin 10. Therefore, as the flow in the sedimentation basin slowly flows from the bottom to the upper side, the sludge sinks to the bottom of the sedimentation basin and the separated supernatant is drained through the outlet, and the sludge is removed by the sludge removal device.

Such a precipitation apparatus of the present invention forms a honeycomb inclined tube having a structure in which the three flanges 21 of the Y-shaped plate portion 20 are fastened to the fitting groove 31 formed in three directions of the fastening rod 30. Firstly, unlike the conventional method, it is possible to prevent the formation of turbulence, which has the effect of maximizing precipitation efficiency.

Second, by fastening the Y-shaped body portion 20 and the fastening rods 30 in advance in the factory, simply settled in the sedimentation basin 10 in the field, the field work is made simple.

Third, unlike the conventional structure in which the inclined pipe is simply spread, it is made of a rigid structure and has an effect of completely eliminating the fear of sag or damage during construction or operation management.

Claims (3)

Settled basin 10 of the upper rectangular parallelepiped, three flanges 21 are formed in three directions, each Y-shaped body portion 20 is formed of a 'Y' shape, and each flange 21 of the Y-shaped body portion 20 Consists of a fastening rod 30 that can be fixed by inserting the end portion, the plate body 20 and the fastening rod 30 are continuously coupled to each other to form a honeycomb inclined tube (A) as a whole, the sedimentation basin (10) ) The inclined tube-type sedimentation device for the sedimentation basin, characterized in that the sludge contained in the sedimentation basin is quickly settled inside the sedimentation basin (10). The end of the flange (21) is formed in the insertion groove (21a) having a larger cross-sectional area in a round shape, and in the fitting groove (31) formed in each of three directions of the fastening rod (30) Inclined pipe sedimentation device for the sedimentation basin characterized in that the fitting. According to claim 1, wherein the three flanges 21 formed in three directions of the Y-shaped body portion 20 is each formed to be 120 °, the inclination of the inclined pipe (A) is about 60 from the bottom of the sedimentation basin 10 Inclined tube sedimentation apparatus for the sedimentation basin, characterized in that it becomes about °.