KR100224497B1 - Rectangle settling pond for waste water disposal - Google Patents

Abstract

It is an object of the present invention to completely remove the spherical sedimentation basin and the light floating material floating on the upper part for the water and sewage purification of the structure which precipitates the sludge and sends the purified water to the next process according to the designed capacity regardless of the external influence such as wind. In addition, the present invention provides a spherical sedimentation basin capable of eliminating the effect of sludge caused on the inner wall surface due to the inflow water flow rate.

The present invention to achieve the above object

In the old sedimentation basin for water and sewage purification, heavy foreign matters from the water flowing from one side are settled into sludge, and the light suspended sludge floating on the surface is taken out and flows only the purified water to the next process by design capacity.

A plurality of purification water pipes extending from the one side wall surface opposite to the water inflow side and extending toward the water inflow side;

A plurality of small holes formed on the tip end side of the plurality of purification water pipes;

A common catchment pipe for collecting the water flowing through each of the purification water pipes and flowing them to the next process; Characterized in that configured to have.

Description

Spherical sedimentation basin for water and sewage purification

The present invention relates to a spherical sedimentation basin for water and sewage purification treatment.

For the conventional water and sewage purification treatment, the foreign matter contained in the water is precipitated and purified through the spherical sedimentation basin 21 having the V notch wear 20 as shown in FIGS. 5 and 6.

The spherical sedimentation basin 21 is formed by digging a huge groove in the shape of a cuboid under the ground or by stacking concrete structures on the ground to make a space for storing a certain water, by providing a plurality of spherical sedimentation basins 21, each spherical The sedimentation basin is sequentially purified with clean water as the water flows through it.

The spherical sedimentation basin 21 is provided with two V notch wear 20 on both sides of the upper side opposite to the direction supplied through the water supply pipe 22, the V groove 23 on the upper surface of the V notch wear 20 This is continuous and has the same shape as the surface of a washboard.

Heavy debris contained in the water flow introduced into the spherical sedimentation basin 21 through the water supply pipe 22 forms a sludge deposition layer 24 on the bottom with time, and the water purified by the debris settled is V notchware. It overflows through the V-groove 23 of 20, and it takes the drainage path 25 and moves to the next process.

And the light foreign matter 26 floating on the surface of the sludge removal mechanism 27 is kicked out by the operation of reciprocating along the surface of the water.

However, according to the conventional structure described above, the V notch wear 20 is installed on the upper part of the sedimentation basin 21 so that the water surface 28 is frequently shaken severely under the influence of the wind, and thus overflows through the V groove 23. Problems that the quantity fluctuates so much that it does not function at the design flow rate and the problem that the light foreign matters floating on the surface of the water flows through the V notch wear 20 together with the purified water.

In addition, the width (b) of the portion where the V notch wear 20 is installed is different from the width (B) of the portion where the V notch wear 20 is installed, so that when the sludge removal mechanism 27 reciprocates by the piston means, the floating sludge 26 has a wide width ( There was also a problem that the sludge was not completely removed because it was pushed to both sides in the B) part.

On the other hand, the inflow of water impinges on the inner wall surface 29 of the V notchware side and flows in the direction indicated by the arrow to generate turbulence, so that the sludge that has sunk on the lower side of the V notchware 20 rises together, and the V groove immediately rises. There was a problem that the purification efficiency is lowered by being included in the purified water through (23).

Accordingly, the present invention has been proposed in view of the above problems, and its object is to purify the purified water after sedimentation of sludge, for the water and sewage purification of the structure that flows to the next process according to the design capacity regardless of the external influence such as wind. To provide spherical clarifiers.

Another object of the present invention is to provide a spherical sedimentation basin having a structure capable of completely removing the light suspended solids floating on the top.

Another object of the present invention is to provide a spherical sedimentation basin that can eliminate the effect of the sludge that is raised during the impact on the inner wall surface according to the flow rate of the inflow water.

Spherical precipitate of the present invention to achieve the above object

In the old sedimentation basin for water and sewage purification, heavy foreign matters from the water flowing from one side are settled into sludge, and the light suspended sludge floating on the surface is taken out and flows only the purified water to the next process by design capacity.

A plurality of purification water pipes extending from the one side wall surface opposite to the water inflow side and extending toward the water inflow side;

A plurality of small holes formed on the tip end side of the plurality of purification water pipes;

A common catchment pipe for collecting the water flowing through each of the purification water pipes and flowing them to the next process; It is configured to have.

According to the second aspect of the present invention, the rear end of the purification water pipe is configured to be supported by a support partition wall.

1 is a perspective view showing a spherical sedimentation basin for water and sewage purification according to the present invention

2 is a sectional front view of the frostbite sedimentation basin

3 is a plan view of the frostbite settling basin

Figure 4 is an enlarged cross-sectional view of the purification water pipe of the present invention

5 and 6 are a cross-sectional view and a plan view of a conventional spherical sedimentation basin.

※ Explanation of code for main part of drawing

1: spherical sedimentation basin 2: space

3: water supply pipe 4: one side wall surface

5: purification water pipe 6: common catch pipe

7: small hole 8: support bulkhead

9: sludge deposition 10: sludge

11: suspended sludge

Hereinafter, the configuration and operation of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a spherical sedimentation basin for water and sewage purification according to the present invention, Figure 2 is a front sectional view of the frost-phase sedimentation basin, Figure 3 is a plan view of the frost-phase sedimentation basin, Figure 4 is a detailed cross-sectional enlarged view of the purification water pipe of the present invention.

The spherical sedimentation basin indicated by reference numeral 1 in the figure is formed by digging a huge groove of rectangular shape under the ground, or by stacking blocks and the like on the ground.

One side of the spherical sedimentation basin 1 is provided with a water supply pipe 3 for introducing water and sewage to be purified into the space 2, and a plurality of purification water pipes on one side wall 4 facing the water inflow side. 5) are installed side by side to extend towards the water inlet side.

The purification water pipes 5 are drawn out through the one side wall 4 so as to be located under the water surface S, and are branched from the common water collecting pipe 6.

In addition, a plurality of small holes 7 are formed at the distal end of the purification water pipe 5 so that the total cross-sectional area is designed to flow through a certain amount of flow per unit time, and the end of the pipe 5 may be designed to be open. Clogging or puncturing pores as much as possible is desirable for accurate flow rate design.

The rear end of the purification water pipe (5) is supported by a support bulkhead (8) which is constructed to cross at right angles to the longitudinal direction of the pipe, and this support bulkhead (8) is likewise found when the sedimentation basin (1) is filled with water. Located below the surface of the water, it is always submerged in water.

The purification of the water according to the present invention as described above is as follows.

When water such as water and sewage to be purified is introduced into the sedimentation basin 1 through the water supply pipe 3, the water flows on one side wall by the supply flow rate and density difference (the inflow side is high density and the opposite side is low). 4) flows to the side and hits one side wall surface (4) is U-turn.

And the heavy ones of the foreign matter contained in the incoming water sinks to the bottom to form a sludge sediment layer (9), and the light ones float on the water to form a floating sludge (11), so that the water between them becomes purified. will be.

On the other hand, when the supplied water becomes U-turn, turbulence is formed, so that the sludge 10 settled on the floor near one wall surface 4 rises, and the water of the U-turn portion becomes rather turbid.

However, the sludge 10 in which the upper side is blocked by the protruding support bulkhead 8 gradually sinks, and the small holes drilled in the distal end of the purified water pipe 5 located outside the area of the injured sludge 10 ( 7) the purified water flows out through the common catch pipe 6 and is supplied to the next process through the common catch pipe 6.

The sludge deposited layer 9 deposited on the bottom is taken out every predetermined time, and the suspended sludge 11 floating on the top reciprocates along the surface of the sludge removal mechanism 12 (not shown in detail because it is a known mechanism). Kicked off.

In this way, only the purely purified water located at the tip end side of the purification water pipe 5 and the upper side of the support bulkhead 8 flows out through the purification water pipe 5.

As described above, the present invention has a configuration in which a plurality of purification water pipes are installed so that they are always submerged under water instead of V notchware and perforated a plurality of small pores in the front end thereof, so that they are not affected by wind, so they are always designed at a flow rate. Purification water can be flowed out, and sedimentation and suspended solids are not mixed with the purification water and discharged, thereby greatly improving the purification capacity and completely removing the floating sludge floating on the surface of the water.

Claims (1)

Heavy debris from the water flowing from one side is settled into sludge, and the light floating sludge floating on the surface is taken out, and only the purified water from the opposite side opposite to the water inflow side is separated by the design capacity through the common catch pipe installed outside the sedimentation basin. In the spherical sedimentation basin for water and sewage purification to flow to the process, A plurality of purification water pipes extending from the one side wall surface opposite to the water inflow side and extending toward the water inflow side; A plurality of purifying water pipes horizontally installed toward the water inflow side while being located under the water surface from one side wall facing the water inflow side, and allowing the inflow of water by the design capacity on the distal end side of the purification water leaf A spherical sedimentation basin for water and sewage purification, characterized in that it comprises a plurality of small pores formed so as to support, and a support bulkhead for supporting the rear end of the purification water pipe.

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