KR100670034B1 - Grit removal system in rectangular grit chamber - Google Patents

Abstract

The present invention relates to an apparatus for removing sedimentation of rectangular settlement paper,

By setting the bottom of the settlement to be inclined to the side and installing a pipe equipped with a nozzle at the bottom, by recycling the sediment feed water flowing into the inlet pumping station is removed by intermittently spraying the bottom of the settlement,

The sand accumulated on the bottom of the settlement is effectively transported, and at the same time, the organic matter attached to the settlement is separated to achieve the settlement cleaning effect.

The present invention is a spray pipe for spraying the sedimentation feed water, a trench formed on the side of the settlement to collect the sand of the bottom of the settlement, a spindleless screw installed in the trench to transfer the sand collected in the trench to the settlement of the saliva, It consists of an air lift system that lifts the sand gathered in the sand, an inclined plate that prevents the sand from rising during the spraying of the sediment feed water, and an overflow prevention baffle, and a sediment separator that separates water and sand from the lifted sand. ,

The present invention is more efficient than the conventional method of mechanical scavenging removal by spraying the sintering feed water to the bottom of the sintered paper to remove the sintering, it is more efficient than the mechanical scavenging method of the conventional bucket, and the scavenging cleaning effect that the organic matter is separated from the sand and at the same time Since there is less organic matter in the sand removed than can be expected, the decay of the sand can be prevented, and thus the final disposal of sand is easy.

In particular, the present invention has the advantages of simple renovation, such as the installation of the injection pipe for the injection of the sediment feed water, along with the cement mortar work for forming the bottom slope of the existing cross-flow sedimentation structure, the transfer of the sediment By using water for this purpose, mechanical driving means are not required and there is no feature of causing mechanical failure.

Rectangle Removal Device of Rectangle Settlement Paper

Description

GRASS REMOVAL SYSTEM IN RECTANGULAR GRIT CHAMBER}

1 is a schematic configuration diagram of a conventional bucket conveyor type sediment removal device,

2 is a process flow diagram of the immersion removal apparatus of one embodiment according to the present invention;

3 is a cross-sectional view taken along the line A-A 'of FIG.

4A is a cross-sectional view taken along the line B-B 'of FIG. 2;

4B is a cross-sectional view taken along the line CC ′ of FIG. 2;

5A is a cross-sectional view taken along line B-B 'of another embodiment of the present invention;

5B is a cross-sectional view taken along the line CC ′ of FIG. 2;

Figure 6 is a longitudinal cross-sectional view showing an operating state of the air lift system applied to the present invention,

Figure 7 is an installation configuration of the immersion feed water injection pipe according to the present invention,

8 is a schematic view showing the form of the spray nozzle according to the present invention;

* Brief description of symbols for the main parts of the drawing

10: settled 10 ': slope

11: injection pipe 12: trench

13: spindle-free screw 14: immersion lifting feet

15: Slope plate 16: Overflow prevention baffle

20: sedimentation separator 21: sedimentation tank

31: Air lift system 32: Vertical spindleless screw

41: Tornado Block 42: Air

43: suction chamber 44: nozzle

51: U band 52: pipe support

53: spray nozzles 54, 55: motor

The present invention relates to an apparatus for removing sedimentation of rectangular settlement paper,

By setting the bottom of the settlement to be inclined to the side and installing a pipe equipped with a nozzle at the bottom, by recycling the sediment feed water flowing into the inlet pumping station is removed by intermittently spraying the bottom of the settlement,

The sand accumulated on the bottom of the settlement is effectively transported, and at the same time, the organic matter attached to the settlement is separated to achieve the settlement cleaning effect.

In general, sewage terminal treatment plants and rainwater pumping stations are used to remove sand from the influent in order to prevent wear or blockage of the treatment facilities due to sand mixed in the influent, to facilitate the treatment process, and sometimes to prevent contamination of the discharged water. I have settled.

The sediment removal device of the settled land includes a crude screen for removing bulky contaminants among various suspended matters contained in the inflowing sewage, a sediment remover for lifting and transporting sedimented sand, and a fine screen for removing relatively small contaminants in sewage. In addition, there is a bucket conveyor type sediment remover using a chain and a bucket as one of the sediment removal device.

1 is a schematic configuration diagram of such a conventional bucket conveyor type sediment removal device,

The sewage flowing into the sluice gate (1) is introduced into the settlement (3) after the coarse contaminants are removed from the scum screen (2). In the settling basin 3, the sand is precipitated and lifted by the bucket 4 installed at the bottom of the settling basin 3, and then collected in the settling-out tank 6 through the conveyor 5 for final disposal.

The sewage from which the sand has settled in the settling basin (3) is passed to the inlet pumping station (8) for the aftertreatment process through the fine screen (7).

However, such a conventional method of removing the sedimentation has the following problems.

First, since not only sand but also organic matters are settled in the settlement, the sedimentation of the settlement occurs after a certain time and is not easily removed by the bucket 5, and thus the effective capacity that the bucket 5 can remove. Is also gradually reduced.

Second, since the removal of the sediment is inefficient, the sedimentary deposit layer is formed on the bottom of the sedimentation basin (3), which causes odor due to organic decay, and when a large amount of sediment is introduced during the rainy season, the sedimentation space in the sedimentation basin (3) Decreases.

Third, since the immersion removal apparatus is always operated in contact with water, corrosion and breakdown of chains, buckets, and other driving parts are easily generated, and thus, maintenance costs such as regular replacement or repair are required.

The present invention has been studied in view of all the problems with such a conventional method of removing the sedimentation,

An object of the present invention is to provide a sediment removal device that can more effectively remove the sand sedimented on the bottom of the sedimentation basin, such as sewage terminal treatment plant or rainwater pumping station by partial modification of the existing sedimentation basin structure.

In accordance with the present invention for achieving the above object, there is a

It consists of spray pipe, trench, spindleless screw, air lift system, inclined plate and overflow baffle, sedimentation separator,

By circulating and injecting water from the inflow pumping station through the injection pipe installed at the bottom of the settlement, the sand accumulated in the settlement is transferred to the trench on one side of the settlement, and the sand collected in the trench is settled by the spindleless screw installed inside the trench. Sand, which accumulates in the saliva lifting pit, is lifted out of the settlement by the airlift system.

The main technical features of the present invention,

First, in order to improve the transport efficiency of sand, the slope is formed on the bottom surface, and the sloping feed water is sprayed sequentially from the high to the low slope.

Second, in order to increase the spraying area and to have sufficient water pressure to transport sand, the tip of the spray nozzle was formed in the form of a flat duck mouth.

Third, in order to minimize the overflow of the sand in the subsequent process during the injection of the immersion feed water, and the like to install the slope plate and the overflow prevention baffle.

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

2 is a process flow diagram of the sediment removal apparatus according to the present invention,

Install the injection pipe 11 for injecting the sedimentation transport water on the bottom of the settlement paper 10, the installation direction of the injection pipe 11 is installed to be parallel to the water flow direction or at a predetermined angle, intermittent transfer Water is sprayed to transfer sand deposited on the bottom of the settlement 10 to the trench 12 on one side of the settlement 10. At this time, so that the sand of the immersion paper 10 can be easily transferred to the trench 12, the bottom of the immersion paper 10 forms a low slope on the trench 12 side and a high slope on the opposite side.

The height and the inclination angle of the bottom of the settlement 10 are designed according to the conditions of the site, and the inclined surface 10 'is formed as shown in FIG. 3 through mortar work.

The immersion feed water injection uses water from the inlet pumping station 8, and may combine air injection with the immersion feed water injection. And in order to increase the transfer efficiency of the sedimentation paper 10 is performed sequentially through the opening and closing control of the valve (S) from the lower side of the injection pipe 11 installed on the high side.

In addition, the trench 12 is installed on one side of the settlement paper 10 in the longitudinal direction of the settlement paper to collect sand transported by the injection of the settlement water. In the trench 12, as shown in FIG. 4A, a shaftless screw 13 connected to the motor 54 is installed to transfer sand collected in the trench 12 to the saliva lifting pit 14. The trench 12 is formed by elevating the bottom of the existing settlement land with cement mortar work. The cross-sectional shape of the trench is U-shaped in order to increase the sedimentation transfer efficiency due to the rotation of the spindleless screw 13. The spindleless screw 13 has the advantage that the transportation volume ratio is large, the conveying distance is long, and there is no shaft, so the maintenance is convenient. A liner made of polyethylene or polypropylene is attached between the trench 12 and the screw 13 to prevent wear of the spindleless screw 13.

The acupuncture lifting pit 14 is provided with an air lift system 31 for lifting sand. The air lift system 31 will be described in detail with reference to FIG. 6. By the air lift system 31, sand is lifted by the sedimentation separator 20, and sand and water are separated. The sand is collected in the sedimentation discharge tank 21 and finally disposed of, and the water is returned to the settlement paper 10.

In addition to the method of using the air lift system 31 in lifting the needle, it is also possible to lift the needle using the vertical spindleless screw 32 as shown in FIG. 5.

The acupuncture lifting using the vertical spindleless screw 32 raises the sand collected at the needle tipping feet 14 to the top by the rotation of the vertical spindleless screw 32 to which the motor 55 is connected. It is discharged through the outlet installed on one side.

5, the inclined plate 15 and the overflow prevention baffle 16 are installed to prevent sand from floating and overflowing in a subsequent process, as shown in FIG. This is to minimize the sand overflowing to subsequent processes.

The sewage from which the sand has been removed from the settling basin is passed through a known fine screen (7) to an inlet pumping station (8).

6 is a detailed view of an air lift system 31 according to the present invention.

The air lift system 31 is configured with a tornado block 41. The tornado block 41 is installed at the bottom of the pit lift 14 to remove the dead area where the tack is not lifted. When the tip is lifted, the air 42 injected for air lifting is sucked into the suction chamber 43. When sprayed through the nozzle 44 installed in the flow, the flow is generated 45 to the sedimented sand above the tornado block 41 so that all the sediment is sucked into the suction chamber 43 is discharged (46).

7 is a configuration diagram of the settling feed water injection pipe 11 according to the present invention.

The immersion feed water injection pipe 11 is fixed to the U band 51 on the pipe support 52 installed on the bottom surface of the inclined settlement 10 so as not to disturb the transfer of the immersion. The spray nozzles 53 are installed to face the bottom surface of the immersion paper 10 in the trench direction.

8 is a schematic view showing the form of the spray nozzle according to the present invention;

In order to transfer sand at the bottom of the settlement 10, sufficient spraying area and water pressure must be secured, which is appropriately designed according to the site conditions such as the settlement area and the deposited sand, and the number of spray nozzles 53 and the applied hydraulic pressure are appropriately designed. Lose. In general, in the case of a nozzle having a circular cross section, the spray area is limited even with strong water pressure, and thus, there may be a problem in that the use of this type of nozzle increases the number of nozzles installed in the injection pipe and the amount of circulation from the inflow pump station. Accordingly, in the present invention, in consideration of this point, the end of the injection nozzle 53 has a flat duck mouth shape, thereby increasing the injection area, reducing the number of nozzles required, and at the same time, spraying strong hydraulic pressure with a small amount of circulation. Was made.

As described above, the present invention is more efficient than the conventional method of mechanical scavenging by using a bucket or the like by spraying sintered transport water on the bottom of the sintered paper to remove the sintered sand, and the organic matter is separated from the sand at the same time. Since the cleaning effect can be expected and the removed sand has less organic matter than the conventional method of removing the sand, the decay of the sand can be prevented, and thus the final disposal of the sand is easy.

In particular, the present invention has the advantages of simple renovation, such as the installation of the injection pipe for the injection of the sediment feed water, along with the cement mortar work for forming the bottom slope of the existing cross-flow sedimentation structure, the transfer of the sediment By using water for this purpose, mechanical driving means are not required and there is no feature of causing mechanical failure.

Claims (4)

In the well-known acupuncture removal apparatus provided with the injection nozzle in the bottom of the settled slope in which the inclination surface was formed, and the acupuncture lifting pit, the air lift system, and the settling separator were continuously connected to the trench formed in the bottom of the settlement, The spindleless screw 13 is installed inside the trench 12, The inclined plate 15 and the overflow prevention baffle 16 is mounted on the upper side of the settlement 10, An end portion of the spray nozzle 53 is formed in the form of a flat duck spout, the needle removal device of the rectangular settler paper, characterized in that the combined use of the air injection together with the injection of the immersion feed water. (delete) (Correction) The method according to claim 1, An apparatus for removing the oblique needles of the rectangular needle paper, characterized in that a vertical shaftless screw (32) is installed on the needle lift lifting pit (14) instead of the air lift system (31). (delete)

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