JPH0113886B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a sewage treatment device, and more particularly to a clarifier installed in a sewage channel.

In conventional sewage treatment systems, some or all of the sewage is introduced into a settling tank or waterway. The solids in the wastewater are then separated by precipitation or chemical treatment. The clarified wastewater is then returned to the wastewater stream for final treatment.

Disadvantages of the prior art include the need to add pollutant chemicals, the need for settling tanks or clarifiers that are large compared to the amount of wastewater being treated, and the long treatment times.

Accordingly, an object of the present invention is to provide a wastewater clarifier capable of rapidly removing solids in wastewater.

Another object of the present invention is to provide a sewage clarifier in which the size of the settling tank is relatively small relative to the amount of sewage to be treated.

Another object of this invention is to provide a wastewater clarifier that is capable of removing solids in wastewater without adding chemicals.

Another object of the invention is to provide a wastewater clarifier that does not require a scraping mechanism.

The above and other objects and advantages of the present invention will become apparent from the following detailed description of the invention.

A clarifier for removing suspended solids contained in water in a wastewater channel includes a boat-shaped structure,
It consists of a bottom wall and an outflow gutter. The boat-like structure has an arcuate front section facing against the flow of wastewater, and a rear section that is set at a position lower than the water level of the wastewater in the wastewater channel to introduce the wastewater into the clarifier. has. The bottom wall is comprised of a spaced array of hollow tubes through which slots formed therebetween allow the settled solid material to be returned to the wastewater channel. Also,
The outflow trough has a basin disposed within the arcuate front and a mechanism for introducing clarified wastewater into the basin.

As shown in FIGS. 1 and 2, in the sewage treatment system of the present invention, a portion of the sewage is removed by a conduit 2 from a sewage source (not shown). Here the conduit 2 is fitted with a conventional screen to remove large solid materials such as tree branches. The wastewater, which contains mainly suspended solids, is conveyed into a wastewater channel 3 formed by concrete walls 4,5. Inside the sewage channel 3, sewage flows in the direction indicated by the arrow. This sewage is used as a clarifier.
6, a portion of the wastewater is returned through an opening 7 formed in the rear wall 8 of the clarifier fire 6 into the clarifier 6, where it is separated into solids and clarified wastewater. The clarified wastewater flows into the outflow gutter 9.
From this outlet trough 9 it is discharged via a conduit 10 into the waste water stream 1 under pressure or under the influence of gravity.

Referring now to FIGS. 2-4, this is a preferred clarifier 6 embodiment. This clarifier eye 6 has an arcuate front part 11 and a rear part 12.
, side walls 13, 14 and a bottom wall 15,
These members are combined together to form a boat shape. In a preferred embodiment,
Since the side walls 13 and 14 are arranged apart from the concrete walls 4 and 5, the waste water channel 3 is not blocked.

The front part 11 consists of an arcuate wall 16. This arcuate wall 1
6 is inclined inward from the top to the bottom.
In a preferred embodiment, this arcuate wall 16 has a bulbous portion 17 to stabilize the clarifier eye 6.
is formed.

The rear part 12 consists of a panel 18 with an opening 7. Since this opening 7 is formed at a position lower than the water level L ₁ of the wastewater channel 3, the wastewater can flow from the wastewater channel 3 into the rear chamber 19 of the wastewater pipe 6, and therefore the central chamber 19 of the wastewater pipe 6
The water level within 0 reaches L ₂ .

The front part 11 and the rear part 12 are connected to side walls 13,14. In the preferred embodiment, the side walls 13, 14 are formed by a planar top panel 21 and a planar bottom panel 22, the bottom panel 22 extending outwardly toward the line of joining with the top panel 21. is inclined to. Therefore, when wastewater flows into the clarifier 6, turbulence is less likely to occur.

The bottom wall 15 is formed by arranging hollow tubes 23 (preferably diamond-shaped) in parallel. This hollow tube 23 is fixed in position by joining to the side walls 13, 14, the front part 11 and the rear part 12. Since the hollow tubes 23 are spaced apart from each other, a slot 24 is formed between them. The settled solids in the wastewater are returned to the wastewater channel 3 through this slot 24. An outflow gutter 9 is disposed at the upper part of the front part 11 of the clarifier 6. This outflow gutter 9 is formed by a plurality of tanks 25, 26, 27, and the sides 28, 29, 30 and back surface 31 of each tank extend upward, but the height thereof is slightly higher than the water level _L2. The lower height allows clarified water to flow from the clarifier chamber 32 into the outflow trough 9. In another preferred embodiment, the side baffles 33, 34, 35, 36 are connected to the tank 2.
5, 26, and 27, and a front baffle 37 is provided in front of the tanks 25, 26, and 27, and these baffles are set higher than the water level _L2 .

In another embodiment, a partitioned side wall 38 with an adjustable opening 39 is provided to allow floating material to be removed from the rear chamber 19 and central chamber 20 of the clarifier 6 in a conventional manner. It's like this.

In operation, the clarifier 6 is installed in the sewage waterway 3 so that the front part 11 faces the flow of sewage. Since the wastewater flow path is restricted by the clarification fire 6, the flow rate of the wastewater increases as it passes through the clarification fire 6. In this case, it is desirable that the clarifier 6 be disposed near the bottom 53 of the sewage channel 3 to increase the flow rate of wastewater passing through the clarifier 6. Also, Clarifia 6
may be locked in place using conventional methods. In this way, when the flow rate of wastewater increases, it passes through the opening 7 formed in the rear wall 8 of the clarifier 6.
Sewage flows into the rear chamber 19 of the clarifier 6. The wastewater that has flowed into the rear section 12 flows toward the front section 11. As the flow velocity of this wastewater decreases as it approaches the front section 11, solids suspended in the wastewater settle on the hollow tube 23 side and are removed through the slot 24. Therefore, a phase of clarified wastewater is formed in the upper part of the rear chamber 19 and the central chamber 20. This phase flows into tanks 25, 26, 27;
From here it is discharged via conduit 10 into drain 1 . When using a clarifier as disclosed herein, turbulence is less likely to occur in the wastewater passing through the clarifier 6 and in the rear chamber 19 and central chamber 20 of the clarifier 6, so that solids in the sewage can be removed quickly and efficiently. Can be removed easily.

In another preferred embodiment shown in FIGS. 5-7, another baffle configuration is disclosed.
A first rear baffle 40 is disposed between the side walls 13,14. This first rear baffle 40 extends downwardly toward the bottom 41 of the clarifier eye 6. Further, a second rear baffle 42 is disposed between the first rear baffle 40 and the outflow gutter 9, and the clarifier eye 6
It is recommended to reduce turbulence within the 2nd rear baffle 4
Similar to the first rear baffle 40, 2 is disposed between the side walls 13 and 14, and is connected to the bottom 41 of the clarifier eye 6.
, but preferably has a length different from that of the first rear baffle 40. Clarifia 6 bottom 4
1 is formed with openings 43, which are formed in parallel rows along the longitudinal direction of the clarifier 6. Slanted panels 44,4
5, 46, 47 are fixed to the side walls 13, 14 and the bottom 41, so that a tank 48 is formed in which the settled solids are guided into the opening 43.

In order to reduce turbulence in the clarifier chamber 32 caused by air bubbles in the waste water passing through the opening 43, a directional pipe stem extending downward from the opening 43 at a predetermined angle can be used. 49
is arranged so that the opening surface 50 of this pipe stem 49
It is a good idea to make sure that the drains are not facing the flow of wastewater. In a more preferred embodiment, pipe stem 49
An end surface 51 of the bottom 41 is perpendicular to the bottom 41.

In another preferred embodiment, the pipe stem 49 is provided with a support 52 on one side that supports the pipe stem 49 and directs the flow of waste water around the pipe stem 49. will be guided to. In this embodiment, the opening 7
The wastewater flowing in from the front part 11 flows toward the front part 11. As in the case of the first embodiment, the flow velocity of wastewater is
As it approaches 1, the solids suspended in the wastewater settle toward the opening 43 and are removed from the opening surface 50 of the pipe stem. As a result, a phase of clarified wastewater is formed in the upper part of the clarifier chamber 32. This phase flows into the outflow trough 9 from where it is discharged via the conduit 10 into the drain 1. If the clarifier of the present invention is used, turbulence is unlikely to occur in the wastewater passing through the clarifier 6 or in the rear chamber 19 and central chamber 20 of the clarifier 6, so solids in the sewage can be removed quickly and efficiently. .

Today, clarifiers and sedimentation tanks are used to clarify sewage and reduce the amount of suspended solids in wastewater to 20 ppm (20 ppm).
mg/). To achieve this discharge rate, the clarifier 6 is placed in the wastewater channel 3 and brought into equilibrium. Once equilibrium is reached, the opening 43 near the outflow trough 9 can be closed to increase the drainage volume.
In such a method, it is necessary to slow down the flow rate of wastewater in the clarifier 6, so it is necessary to enlarge the clarification area. Opening 43 near outflow gutter 9
If a larger number of drains are closed and balanced by removing the sludge layer, a larger amount of waste water can be removed from the outflow trough 9, thereby increasing the capacity.

It goes without saying that various modifications can be made within the spirit of the invention and the scope of the claims.

[Brief explanation of drawings]

Fig. 1 is a plan view of a wastewater channel in which a clarifier is installed, Fig. 2 is a plan view of the clarifier of the present invention, Fig. 3 is a sectional view taken along the - line in Fig. 2, and Fig. 4 is a sectional view taken along the - line in Fig. 2. Figure 5 is a plan view of another wastewater channel with Clarifire installed, and Figure 6 is a
FIG. 7 is a sectional view taken along the - line in FIG. 5. 3... Sewage waterway, 6... Clarifia, 7...
Opening, 9...Outflow gutter, 11...Front, 12...
Rear part, 13, 14...Side wall, 15...Bottom wall, 16
... Arcuate wall, 17 ... Spherical part, 21 ... Upper panel, 22 ... Lower panel, 23 ... Hollow tube, 24
...Slot, 25, 26, 27... Tank, 41...
...First rear baffle, 42...Second rear baffle, 4
9... Pipe stem, 51... End face, 52... Supporting material.

Claims (1)

[Scope of Claims] 1. A clarifier for removing solids contained in sewage in a sewage channel, comprising a front part, a rear part,
It consists of a bottom wall and an outflow gutter, the front part and the rear part are connected by a side wall, the front part and the side wall are set to be higher than the water level of the waste water, and the water level of the waste water in the rear part is lower than the water level of the waste water. an opening is formed at a position to allow the inflow of sewage into the recess formed by the front, rear and side walls, the bottom wall having inclined partition plates spaced apart at a position below the water level of the sewage; the solids are arranged in the front part and connected to the side wall to allow the solids to be introduced from the hollow into the wastewater channel through slots formed between the partition plates, and the outflow gutter is disposed in the front part. A clarifier characterized in that the clarifier is provided and connected to the side wall, and has a tank, the tank having a mechanism for causing sewage in the hollow to flow into the tank. 2. The clarifier according to claim 1, wherein the front part has a vertical arcuate wall. 3. Claim 2, characterized in that the arcuate wall slopes inward from its upper part to its lower part.
Clarifia as described in section. 4. The clarifier according to claim 3, wherein a spherical portion is formed at the bottom of the arcuate wall. 5. The clarifier according to claim 1, wherein the arranged partition plates are parallel. 6. The clarifier according to claim 1, wherein the partition plate has a hollow space. 7. The clarifier according to claim 1, wherein the side walls are formed by closely joining a flat upper panel and a flat lower panel, the lower panel sloping outward toward the joint. . 8 A clarifier for removing solids contained in sewage in a sewage channel, which has a front part, a rear part,
It consists of a bottom wall, an outflow gutter, and a pipe stem, the front part and the rear part are connected by a side wall, and the front part and the side wall are set to be higher than the water level of the sewage, and the sewage water in the rear part is set to be higher than the water level of the sewage. an opening is formed at a position lower than the water level of the sewage water to allow sewage water to flow into the recess formed by the front, rear and side walls; are arranged spaced apart at positions and connected to the side wall to allow introduction of the solids from the hollow into the wastewater channel through slots formed between the partition plates, and the outflow gutter is connected to the side wall. disposed within the front portion and connected to the side wall, and having a tank, the tank having a mechanism for allowing wastewater in the hollow to flow into the tank, and the pipe stem being coupled to the slot. The clarifier is arranged so as to be inclined with respect to the bottom wall so as not to face the flow of wastewater. 9. The clarifier according to claim 8, characterized in that a supporting member is disposed parallel to one side of the pipe stem along the longitudinal direction of the bottom wall. 10. The clarifier according to claim 8, wherein the end surface of the pipe stem on the downwardly projecting side is perpendicular to the bottom wall. 11 having a first rear baffle in the rear;
9. A clarifier according to claim 8, wherein the rear baffle is disposed between the side walls and extends toward the bottom wall. 12 having a second rear baffle inside the first rear baffle, the second rear baffle being disposed between the side walls and extending toward the bottom wall and having a length different from that of the first rear baffle; The clarifier according to claim 11, characterized in that: 13. A clarifier according to claim 8, characterized in that at least some of the pipe stems located in the front part are closed. 14. The clarifier according to claim 8, wherein the distance between the side walls is narrower than the width of the wastewater channel.