KR100797196B1 - Inclined settling tank - Google Patents

Abstract

An inclined plate type settling tank for treating wastewater is provided to maximize settling efficiency by forming a plurality of inclined plates such that safety zones which are not influenced by a water current are formed, uniformly distributing wastewater flown into a settling tank onto the entire area of the inclined plates, and improving silence within the settling tank. In an inclined plate type settling tank for treating wastewater, comprising a settling space(12) for settling sludge contained in wastewater, and a plurality of inclined plates(15) disposed in the settling space such that the inclined plates are spaced from one another in a predetermined distance in a state that the inclined plates are slantly laid down at a predetermined inclination angle, the inclined plate type settling tank for treating wastewater is characterized in that the inclined plates have a waveform shape in which valleys and mountains are laterally formed continuously and repeatedly, and safety zones deviated from water current zones in which a convection current is generated by the waveform shape are formed on inner side parts of the inclined plates. The inclined plate type settling tank for treating wastewater further comprises a flow distribution plate(16) which is installed between an inflow port(11) and the inclined plates, in which channels(16a) are alternately disposed in a zigzag shape in a row such that a flow path is formed in a labyrinth structure, and which spreads a flow of wastewater over the entire part of the inclined plates.

Description

Inclined plate settling tank for wastewater treatment

1 is a plan view of the inclined plate settling tank for wastewater treatment according to the present invention

2 is a front configuration diagram of an inclined plate settling tank for wastewater treatment according to the present invention

3 is a right side view of the present invention

4 is an operation diagram showing a state in which precipitation occurs in the inclined plate

Figure 5 is an enlarged view of the main portion of the flow distribution plate of the present invention

*** Explanation of symbols for main parts of drawing ***

10: sedimentation tank 11: inlet port

12: settling space 13: discharge port

14: sludge discharge port 15: inclined plate

15a: Current Area 15b: Safe Area

16: flow distribution plate 16a: U channel

16b: maze structure

The present invention relates to an inclined plate sedimentation tank for wastewater treatment, and in particular, in order to increase the sedimentation efficiency, a wave wave made of bone and acid is formed to form a safety zone that does not affect the flow of water on a plurality of inclined plates installed at a random interval. It relates to an inclined plate sedimentation tank for inclined plate wastewater treatment to maximize the sedimentation efficiency by increasing the quietness in the sedimentation tank as well as to distribute the waste water flowing into the sedimentation tank in one place evenly.

Inclined plate sedimentation tank is a device that improves the water quality by sedimentation of suspended solids by gravity by gravity. In general, sedimentation of single particles in a gradient plate settling tank is known to be directly related to the settling velocity, regardless of the depth of the tank. In order to optimize the flotation efficiency of the settling tank, the settling tank should be as shallow as possible. Inclined plate sedimentation tank is used in place of the shallow tank based on the above analysis, it is widely used because of the excellent sedimentation effect of the suspended matter.

The inclined plate settling tank can maintain the overall settling distance as a multi-layered inclined tube (precipitated water channel) is formed using the inclined plate in the settling tank, so that the settling process can be speeded up, and the sediment required for the settling process is discharged. It is known to have an advantage.

At this time, the inclined plate is supposed to have the best settling efficiency at 0 °, but a certain inclination angle is required in order to allow the sediment deposited on the inclined plate to naturally flow continuously to the bottom. In experiments and experience, it is known that a deposit of about 60 ° can generally flow down without any problems. On the other hand, the inclined plate settling tank is arranged while maintaining the inclination angle of about 45 ° to 60 ° so that the sediment that precipitates smoothly slide down the plurality of inclined plates at equal intervals in the settling tank.

However, since the conventional inclined plate is generally composed of flat plates, sedimentation efficiency may be superior to that without the inclined plate, but convection occurs in the space between the inclined plate and the inclined plate.

In addition, the conventional sedimentation tank has a problem that the sedimentation efficiency in the inclined plate opposed to this by concentrating the waste water flowing into the inlet port in one place has no problem at all.

Therefore, the present invention was created to solve the above problems, the object of which is made of bone and acid to form a safety zone that does not affect the flow of water on the inclined plate installed in a plurality at random intervals to increase the precipitation efficiency It is formed into a wave wave, and it provides a sloped plate sedimentation tank for slanted plate wastewater treatment that maximizes sedimentation efficiency by increasing the quietness in the sedimentation tank as well as distributing the wastewater flowing into the sedimentation tank in one place. Is in.

The present invention for achieving the above object is a sedimentation space for sedimentation sludge contained in the waste water, and for sewage water treatment having a plurality of inclined plates are spaced apart from each other at a predetermined interval in a state lying obliquely at a predetermined inclination angle on the sedimentation space In the inclined plate settling tank,

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The inclined plate has a corrugated shape in which valleys and mountains are formed repeatedly repeatedly with respect to the lateral direction, and the inner parts of the inclined plates which are spaced apart from each other have a safe area formed from the water flow region where convection occurs by the corrugated shape.

In addition, the present invention is partitioned between the inlet port and the inclined plate in which waste water flows into the sedimentation tank, while the U-shaped channels are arranged in a zigzag form in a row, the flow path is formed in a maze structure and the flow rate of wastewater flows throughout the slope plate It has the characteristics which further comprised the distribution plate.

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

1 is a plan configuration diagram of the inclined plate settling tank for wastewater treatment according to the present invention, Figure 2 is a front configuration diagram of the inclined plate settler for wastewater treatment according to the present invention, Figure 3 is a right side view of the present invention, 4 is an operation diagram showing a state in which precipitation occurs in the inclined plate, Figure 5 is an enlarged view of the main portion of the dispersion distributor of the present invention.

Basically, the sedimentation tank 10 of the present invention has an inlet port 11 for introducing waste water, as shown in FIGS. 1 to 3, and has a predetermined volume of precipitation space for sedimenting sludge contained in the waste water ( And a sludge discharge port 14 for discharging the sludge at the bottom thereof, and the like.

In addition, a plurality of inclined plates 15 spaced apart from each other by a predetermined interval in a state lying obliquely at a predetermined inclination angle on the settling space 12 of the settling tank 10.

The inclined plate 15 according to the present invention has a shape in which valleys and mountains are continuously formed like a wavy wave based on the lateral direction rather than a flat plate as shown in FIG. 4, and the slope plate 15 is fixed. A safety zone 15b is formed which is spaced apart from the water flow zone 15a where convection occurs when spaced apart.

Since the safety zone 15b of the inclined plate 15 is a region where convection does not occur, the sedimentation effect is remarkable as compared with the case of the flat plate.

In addition, as shown in FIG. 5, the present invention is partitioned between the inlet port 11 and the inclined plate 15 through which wastewater flows into the settling tank, and the U-shaped channel 16a is arranged in a row in a zigzag fashion in a row. As the flow path is formed into the labyrinth structure 16b, the flow rate distribution plate 16 is further configured in which the wastewater flow rate spreads over the entire portion of the inclined plate 15.

The flow distribution plate 16 is for dispersing the concentration of wastewater coming in through the inlet port 11, and greatly contributes to the stabilization or quietness of the water flow zone 15a and the safety zone 15b of the inclined plate 15, and thus the wastewater. It will double the sedimentation effect of.

Referring to the operating state of the present invention configured as described above are as follows.

In the present invention, when the waste water is introduced through the inflow port 11, the first portion to pass through is the flow distribution plate 16.
The maze structure of the flow distribution plate 16 serves to evenly distribute the waste water through the inlet port 11 having a concentrated inlet structure to the inclined plate 15 of the settling tank 10.

As such, the wastewater introduced through the labyrinth structure 16b of the flow distribution plate 16 gradually erodes the inclined plate 15. The wastewater is minimized by the inclined plate 15 provided with the safety zone 15b. The settling space 12 in the settling tank 10 is stabilized, and the settling efficiency is greatly increased.

In addition, even if the flow distribution plate 16 is installed in the spaced space between the inclined plate 15 and the inclined plate 15, the water flow region 15a in which convection still occurs is generated. It is formed in a continuous wave form, and the safety zone 15b is provided inside the space spaced from the inclined plate 15 and out of the range of the water flow zone 15a. This is doubled.

As described above, in the present invention, the flow rate of the wastewater flowing into the sedimentation tank in the concentrated form of the maze structure of the flow distribution plate is weakly and evenly distributed throughout the entire sedimentation tank, so that the sedimentation tank is increased by the quietness and stabilization. Not only has the efficiency been increased, but the shape of the inclined plate is not a flat plate but a wavy wave, and a structural combination is formed in the inclined plate to form a safe area away from the water flow area. There is this.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, changes, and modifications are possible in the technical field of the present invention without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

Claims (2)

For sewage water treatment having a sedimentation space 12 for sedimentation of sludge contained in the wastewater, and a plurality of inclined plates 15 spaced apart from each other by a predetermined interval in a state lying obliquely at a predetermined inclination angle on the sedimentation space 12. In the inclined plate settling tank 10, The inclined plate 15 has a corrugated shape in which valleys and mountains are formed repeatedly repeatedly with respect to the lateral direction, and an inner portion of the inclined plate 15 spaced apart from each other is separated from the water flow region 15a where convection occurs due to the corrugated shape. Inclined plate settling tank for waste water, characterized in that the safety zone (15b) is formed. The labyrinth structure according to claim 1, wherein a partition is installed between the inlet port 11 and the inclined plate 15 through which wastewater flows into the settling tank, and the U-shaped channel 16a is arranged in a zigzag shape in a direction opposite to each other in a line. Inclined plate settling tank for waste water, characterized in that further comprises a flow distribution plate 16 formed in addition to the waste water flow rate spread over the entire inclination plate (15).

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