KR100378135B1 - A high efficiency settling tank - Google Patents

Abstract

The present invention is installed inside the sedimentation tank to introduce the supernatant water separated from the sedimentation tank on the upper side of the central storage tank into which the raw water flows, so that the vortex occurs due to the density difference between the raw water and the supernatant water, so that the condensation of the sludge occurs from the central storage tank. The present invention relates to a high efficiency sedimentation tank for maximizing sedimentation efficiency. The upper circumference of the upper end has a supernatant water collecting part including a ware for discharging only the supernatant water, and the lower part is in close contact with the inclined surface for discharging sludge and the inclined surface of the sedimentation tank and rotated by a motor. A settling tank having a scraper and a sludge collection part including a rotating shaft to be formed; In the conventional sink tank consisting of a central storage tank is installed in the upper center of the settling tank is discharged into the lower portion and the raw water inlet pipe is mounted on the side wall, a plurality of upper water flows only from the settling tank in the upper sidewall of the central storage tank An opening is formed, and inside the opening, a lower end is integrally connected with the side wall, and a top is mounted with a wear having the same height as the upper end of the partition wall of the upper water collecting portion, and an inclined surface is formed at the bottom of the central storage tank. An open part through which raw water is discharged is formed in the center of the inclined surface, and an outer peripheral part is inclined downward in the lower part of the inclined surface, and a rotation distribution plate in which the center is fixed to the rotating shaft is mounted.

Description

High efficiency settling tank

The present invention relates to a high-efficiency sedimentation tank, and more specifically, it is installed inside the sedimentation tank to introduce the supernatant separated from the sedimentation tank on the upper side of the central storage tank into which raw water is introduced, thereby causing the vortex due to the density difference between the raw water and the supernatant. The present invention relates to a high efficiency sedimentation tank that maximizes the sedimentation efficiency of the sludge by causing the condensation of the sludge from the storage tank.

In general, a precipitation treatment facility is a storage tank 100 initially filled with raw water, a chemical treatment tank 101 for receiving chemically purified water by receiving raw water filled with a storage tank, and a chemical treatment tank as shown in FIG. 4. As consisting of the settling tank 200 for separating the purified water and sludge from the inflow water discharged from the inlet 101, the present invention is an improvement of the settling tank first described the configuration of the settling tank as follows.

Figure 3 shows a conventional sedimentation tank, the upper circumference of the upper side is formed with a supernatant water collecting portion 202 for extracting only the supernatant water and the inclined surface 203 and the inclined surface of the sedimentation tank 201 for taking out the sludge settled in the lower portion A settling tank 201 in which a scraper 207 including a rotating shaft 208 rotated by a motor 209 and a sludge collection unit 204 are formed in close contact with the 203, and an upper center of the settling tank 201. It is characterized in that consisting of the central storage tank 205 is equipped with the raw water is introduced and discharged to the bottom and the raw water inlet pipe 206 is mounted.

Therefore, since the lower portion of the central storage tank 205 is open, the raw water introduced into the central storage tank 205 is introduced into the settling tank 201, and then the sludge is settled to the lower portion and the supernatant water is separated into the upper portion of the supernatant collector ( It is collected in 202 and is discharged to the outside.

However, the sedimentation tank as described above is simply stored in the central reservoir formed in the center of the supplied raw water is introduced into the sedimentation tank through the outlet through gravity, sedimentation of the sludge as the formation (condensation) of the sludge is not well There was a problem that the efficiency is lowered.

In addition, since the raw water discharged from the central storage tank is lowered to the center of the sedimentation tank, there is also a problem that the sedimentation efficiency is lowered relative to the total volume of the sedimentation tank.

Accordingly, the present invention was invented to solve the above problems, by allowing the supernatant to flow from the sedimentation tank to the upper portion of the central storage tank and the raw water to flow through the raw water inlet pipe to the lower portion thereof, thereby causing a density difference between the supernatant and the raw water. The purpose of the present invention is to provide a high efficiency sedimentation tank which minimizes the sludge settling time by allowing the sludge to aggregate for the first time due to the vortices generated in the raw water by the flow and density difference of the raw water in the central storage tank.

In addition, by installing a rotary distribution plate rotated at a low speed in the lower portion of the central storage tank to spread the raw water introduced into the central storage tank in the middle of the settling tank to form an intermediate diffusion layer, there is also an object to prevent re-injury of the precipitated sludge.

In addition, by allowing the raw water to extend to the side wall of the settling tank through the rotary distribution plate to be settled in the entire inner diameter area of the inner surface of the settling tank, it is also intended to maximize the settling efficiency.

The present invention for achieving the above object, the upper circumference of the upper end is formed with a supernatant water collecting portion including a wear for taking out only the supernatant water and the lower side is in close contact with the inclined surface and the inclined surface of the settling tank by the motor A settling tank including a scraper and a sludge collection unit including a rotating shaft to be rotated; In the conventional sink tank consisting of a central storage tank is installed in the upper center of the settling tank is discharged into the lower portion and the raw water inlet pipe is mounted on the side wall, a plurality of upper water flows only from the settling tank in the upper sidewall of the central storage tank An opening is formed, and inside the opening, a lower end is integrally connected with the side wall, and a top is mounted with a wear having the same height as the upper end of the partition wall of the upper water collecting portion, and an inclined surface is formed at the bottom of the central storage tank. An open part through which raw water is discharged is formed in the center of the inclined surface, and an outer peripheral part is inclined downward in the lower part of the inclined surface, and a rotation distribution plate in which the center is fixed to the rotating shaft is mounted.

1 is a cross-sectional view showing the overall configuration of the sedimentation tank of the present invention.

Figure 2 is a partially cutaway perspective view showing a central storage tank of the present invention.

Figure 3 is an overall configuration cross-sectional view showing a conventional sedimentation tank.

4 is a block diagram showing a conventional sedimentation treatment facility.

Explanation of symbols for main parts of the drawings

1: settling tank

11: High water collection tank

2: central reservoir

21: sidewall

22: raw water inlet pipe

23: slope

3: scraper

31: rotating shaft

32: motor

4: opening hole

41: warp wear

5: opening

51: sidewall

52: circular slope

6: rotating distribution plate

61: arc-shaped protrusion

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

1 shows a precipitation thickening tank of the present invention. First, its configuration will be described.

The upper circumference of the upper end is formed with a supernatant water collecting part 11 including a partition wall 111 for discharging only the supernatant, and the lower part is in close contact with the inclined surface 12 for discharging the sludge and the inclined surface 12 of the precipitation tank 1 And a settling tank (1) having a scraper (3) and a sludge collection unit (13) including a rotating shaft (31) rotated by a motor (32), and mounted in the upper center of the settling tank (1), where raw water flows in. In the conventional sedimentation concentration tank consisting of a central storage tank (2) equipped with a raw water inlet pipe (22) on the side wall (21)

A plurality of openings 4 are formed in the upper sidewall 21 of the central storage tank 2 so that only the supernatant can flow from the settling tank 1, and the inclined wear 41 is mounted inside the opening 4. The inclined surface 23 in which the center is recessed is formed in the lower surface of the central storage tank 2, and an opening 5 through which raw water is discharged is formed in the center of the inclined surface 23. The lower side is characterized in that the rotary distribution plate 6 is fixed to the rotating shaft 31 is mounted in rotation.

In particular, the lower end of the inclined wear 41 is integrally connected with the side wall 21 so that the upper end has the same height as the upper end of the weir 111 of the upper water collecting portion 11, so that only the supernatant from the settling tank 1 is stored in the central storage tank ( It is introduced to the top of 2).

In addition, the rotary distribution plate 6 is formed by inclining the outer periphery is to be able to diffuse the raw water discharged from the central storage tank (2) to the middle layer of the submersion tank (1).

Fig. 2 is a partially cutaway perspective view showing an enlarged central storage tank of the present invention, wherein the opening portion 5 extends from a cylindrical side wall 51 and a lower end of the side wall so that the outer periphery is inclined downward. It is formed by).

In addition, a plurality of arc-shaped protruding blades 61 are mounted on the upper surface of the rotary distribution plate 6 at equal intervals to enable low-speed stirring of the raw water discharged from the central storage tank 2.

Hereinafter, the functional relationship of the precipitation concentrate tank according to the present invention will be described.

As shown in FIGS. 1 and 2, first, the supernatant separated in the upper portion of the settling tank 1 through the opening hole 4 formed in the upper portion of the weir 21 formed in the upper portion of the central storage tank 2. It maintains the state which flowed into the upper part of the storage tank (2). Next, the raw water flows into the central storage tank 2 through the raw water inflow pipe 22 formed at one side of the central storage tank 2, so that the density difference between the supernatant water and the raw water is made to form a lower layer. The relatively dense supernatant allows the layer to form on top of the raw water layer.

Therefore, in the inside of the central storage tank (2), the raw water flows and the vortices are generated due to the density difference, so that the sludge is first aggregated from the central storage tank to increase the sedimentation efficiency of the sludge.

Thereafter, the raw water discharged through the opening 5 formed in the lower portion of the central storage tank 2 flows into the upper portion of the rotary distribution plate 6 which is rotated at a low speed in the lower portion of the central storage tank 2 and then settling tank ( By spreading to the middle of 1) to form an intermediate diffusion layer, it is possible to prevent resuspension of precipitated sludge.

In addition, by spreading the raw water to the side wall of the settling tank 1 through the rotary distribution plate 6, the sludge is precipitated in the entire inner diameter of the settling tank to obtain the settling efficiency corresponding to the volume of the settling tank 1. It is.

The present invention as described above has the effect of minimizing the sludge settling time by allowing the sludge to be aggregated for the first time by allowing the raw water introduced from the inside of the central storage tank mounted inside the settling tank to vortex.

In addition, by installing a rotary distribution plate rotating at a low speed in the lower portion of the central storage tank to diffuse in the middle of the sedimentation tank to form an intermediate diffusion layer to prevent re-injury of the precipitated sludge, it also has the effect of preventing contamination of the injured supernatant water will be.

In addition, the raw water is extended to the side wall of the settling tank through the rotary distribution plate to have the effect of maximizing the settling efficiency by the sedimentation is made in the entire inner diameter area of the inner surface of the settling tank.

Claims (3)

The upper circumference of the upper end is formed with a supernatant water collecting portion 11 including a partition wall 111 for discharging only the supernatant, and the lower part is in close contact with the inclined surface 12 and the inclined surface 12 of the settling tank 1 for discharging only the sludge. And a settling tank (1) having a scraper (3) and a sludge collection unit (13) including a rotating shaft (31) rotated by a motor (32), and mounted in the upper center of the settling tank (1), where raw water flows in. In the conventional sedimentation concentration tank consisting of a central storage tank (2) equipped with a raw water inlet pipe (22) on the side wall (21) A plurality of openings 4 are formed in the upper sidewall 21 of the central storage tank 2 in which only the supernatant water flows from the settling tank 1, and the lower end of the opening 4 is integrally formed with the sidewall 21. Inclined wear 41 is connected to the upper end is the same height as the upper end of the weir 111 of the upper water collecting portion 11, An inclined surface 23 in which a center is recessed is formed in a lower surface of the central storage tank 2, and an opening 5 in which raw water is discharged is formed in the center of the inclined surface 22. High efficiency sedimentation tank, characterized in that the lower side of the opening portion 5 is inclined to the outer peripheral portion is lower and the center is fixed to the rotary shaft 31, the rotary distribution plate 6 is interlocked rotation. 2. The high efficiency as claimed in claim 1, wherein the opening portion (5) comprises a cylindrical side wall (51) and a circular inclined plate (52) extending from a lower end of the side wall (51) and having an outer peripheral portion inclined downward. Sedimentation tank. The high efficiency sedimentation tank according to claim 1, characterized in that a plurality of arc-shaped protruding blades (61) for slow stirring of raw water are mounted at equal intervals on the upper surface of the rotary distribution plate (6).