KR101160567B1 - Rainwater filtering apparatus with fluidized media and purification system using it - Google Patents

Abstract

PURPOSE: A filtering apparatus based on fluidized bed filtering media and a rainwater purifying apparatus including the same are provided to improve the cleanness of the purifying apparatus by cleaning a filtering bath using filtered rainwater as cleaning water and discharging contaminated cleaning water. CONSTITUTION: A filtering apparatus includes a dehydrating plate(210), a fluidized bed filtering media(220), and a buoyancy-based weight plate(230). The dehydrating plate is horizontally fixed at the lower inner wall of a filtering bath(200). The fluidized bed filtering media is loaded on the upper side of the dehydrating plate. The fluidized bed filtering media filters rainwater. The buoyancy-based weight plate is horizontally loaded on the upper side of the fluidized bed filtering media. The buoyancy-based weight plate vertically moves according to the level of water. When the buoyancy-based weight plate descends, the fluidized bed filtering media is compressed and dehydrated by the buoyancy-based weight plate.

Description

Rainwater filtering apparatus with fluidized media and purification system using it}

The present invention relates to a filtering device for filtering rainwater, and a rainwater purifying device capable of washing the filter medium constituting the filtering device.

In general, water pollutants can be classified into point pollutants and nonpoint pollutants. The former point pollutants are living sewage, livestock waste, or industrial wastewater discharged from a defined and limited point source pollutant, which are relatively easy to treat and can easily identify the seriousness of water pollution. Since specific pollutants need to be separated from the polluted water, an appropriate abatement facility can be installed. The latter Non-Point Source Pollution, however, has a discharge area that remains unclear and remains on a wide surface, but it is introduced into public waters such as rivers, harbors, and lakes, along with rainwater during rainy weather, and into water pollution. In order to treat these nonpoint sources, stormwater purification facilities and early stormwater treatment facilities are needed.

As one of these facilities, the conventional stormwater treatment device (Korean Patent Registration No. 5,515,95) is composed of a rainwater receiving tank 10 including an inlet 11 and an outlet 12, as shown in FIG. If the rainwater is less than the predetermined amount, the initial rainwater flows only to the lower side of the rainwater tank 10, and if it is more than the predetermined amount, the rainwater flows to the upper and lower sides by the cover 20, and the rainwater flowing to the lower side is polluted. The material is first filtered by the material processing means 50, and is secondly processed by the pollutant adsorption means 70, and then immediately discharged to the outside.

However, the rainwater treatment device as described above does not have a separate cleaning means for the pollutant treatment means 50 or the pollutant adsorption means 70 made of media, so that the soil contained in the rainwater is deposited over time, The performance of the filter media is lowered, resulting in a lower processing efficiency. Therefore, the management cost increased because manpower should be put into the facility for dredging or replacement of soil materials about 3 ~ 6 times a year. In addition, most of these facilities were installed at a depth of 7 ~ 8m below the rainwater pipeline, thus increasing the risk of safety accidents. In addition, there is a problem that the replacement is not possible when the target material for replacement is more than the size of the manhole cover, as the manpower and equipment is input through the narrow manhole cover.

In addition, even after the rainfall is over, the rainwater is accumulated inside the rainwater treatment system, so the conditions for insects such as mosquitoes have been created, which raises a hygiene problem.

The present invention is to provide a filtration device using a fluidized bed filter medium to dewater by the gravity of the fluidized bed filter medium to filter rainwater in order to solve the problems of the prior art described above.

It is another object of the present invention to provide a rainwater purification device equipped with a filtration device using a fluidized bed filter to wash the fluidized bed filter medium and discharge contaminated washing water to an external sewer pipe.

Filtration device using the fluidized bed media of the present invention for carrying out the above-described problem,

A dewatering plate fixed to the inner wall of the lower part of the filtration tank for filtering the rainwater in a horizontal direction; A fluidized bed medium loaded on the dewatering plate to filter rainwater; And a buoyancy weight plate which is settled in the horizontal direction on the fluidized bed upper part by the buoyancy according to the water level, and decompresses and dehydrates the fluidized bed filter by the weight when lowered. It includes.

Preferably, the buoyancy weight plate, a frame made of a buoyancy body; And

At least one water permeation network formed inside the frame; It consists of a plurality of weight block body configured to include each other.

Preferably, the apparatus further comprises a washing nozzle for washing the fluidized bed medium on the buoyancy weight plate.

In addition, the rainwater purifying device having a filtration device using the fluidized bed medium of the present invention for performing the above-mentioned other problems, the precipitation tank is introduced rainwater; A filter tank connected to an upper portion of the settling tank and the rainwater is supplied to an upper portion of the buoyancy weight plate and discharged downward through the dehydration plate; It includes.

In addition, the rainwater purifying device having a filtration device using the fluidized bed medium of the present invention for carrying out the above-mentioned another object, the precipitation tank is introduced rainwater; A filter tank connected to an upper portion of the settling tank and the rainwater is supplied to an upper portion of the buoyancy weight plate and discharged downward through the dehydration plate; A washing water storage tank connected to the filtered water discharge valve installed under the filtration tank to store the rainwater and supply the supernatant water to the storage tank; A pump for supplying rainwater stored in the wash water reservoir to the wash nozzle; And a washing water discharge valve installed at the lower portion of the filtration tank and discharging the washing water supplied through the washing nozzle to the settling tank in a state in which the filtering water discharge valve is blocked. It includes.

Preferably, the rainwater is supplied from one side of the buoyancy weight plate from the settling tank.

Preferably, the bottom of the settling tank is installed lower than the bottom of the filtration tank.

According to the filtration device using the fluid filter medium according to the present invention, while maintaining the high filtration efficiency by the fluid bed filter while compressing the fluid bed filter by the buoyancy weight plate at the end of the rainfall, it is possible to keep the fluid bed filter in a clean state .

In addition, according to the rainwater purifying apparatus according to the present invention, after washing the filtration tank by using the filtered rainwater as washing water, it is possible to discharge the contaminated washing water to the outside can improve the cleanliness of the entire purification apparatus.

1 is a cross-sectional view of a conventional stormwater treatment apparatus.
Figure 2 is a cross-sectional configuration of the rainwater purifier according to the present invention.
Figure 3 is a perspective view of one embodiment of a buoyancy weight plate.
Figure 4 is a block diagram showing a stormwater purification step according to the present invention.
Figure 5 is a block diagram showing a washing step of the media in accordance with the present invention.

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

Rainwater purification device of the present invention, as shown in Figure 2, the settling tank 100 for precipitating the sand and the like contained in largely supplied rainwater, 'flow bed filter medium of the present invention to filter the rainwater treated first in the precipitation tank It consists of a filtration tank 200 including a 'filtration apparatus using the' and the wash water storage tank 300 to store some of the filtered rainwater for washing the filtration tank 200 and supply the rest to the storage tank (2).

The sedimentation tank 100 receives rainwater from the rainwater inlet pipe 1 connected to the upper portion, and the foreign matter such as sand having a high specific gravity precipitates to the bottom while the rainwater supplied by the flow of the return wall 101 is installed vertically inside. do. In FIG. 2, one return wall 101 is provided in the vertical direction. However, by using an inclined plate or installing a plurality of return walls as necessary, the rainwater may extend the time for flowing inside the settling tank 100.

Filtration tank 200 is installed on one side of the settling tank 100, the rainwater treated first through the inlet 201 connected to the settling tank 100 is supplied. Inside the filtration tank 200, the dehydration plate 210, the fluidized bed medium 220, and the buoyancy weight plate 230 are installed from below, and rainwater is supplied to the upper portion of the buoyancy weight plate 230 and filtered downward. Hereinafter, each configuration will be described in detail.

The dewatering plate 210 is fixed to the inner wall of the lower portion of the filtration tank 200 in a horizontal direction, and a plurality of dehydration holes 211 are formed so that the filtered rainwater is discharged downward.

The fluidized bed filter 220 is loaded on the dewatering plate 210, and each filter forming the fluidized bed filter 220 may be a cube or sphere having a diameter of 1 to 10 cm made of a material of PE and other synthetic resins. This is possible. These fluid bed media have buffering capacity and chemical resistance between pH 5-9. The media should have a uniform coefficient of 1.5 to 2.5, specific gravity of 1.0 or less, and it is desirable to have a porous form that can easily trap suspended solids in the voids.

In the case of using the fluidized bed mediator 220, contaminants are adsorbed to the particles constituting the mediator and sink down due to the change in specific gravity of the media to which the contaminants are adsorbed. Therefore, as shown in FIG. 2, when rainwater continues to be supplied to one side of the buoyancy weight plate 230, the fluidized bed medium 220 in the part where rainwater is mainly supplied goes preferentially compared to the fluidized bed medium 220 in other parts. The fluidized bed mediator 220 is rotated counterclockwise in FIG. 2 while the rainfall continues because the nearby fluidized bed mediator 220 takes its place again. Not decreasing, the use time is long and high filtration efficiency can be maintained. In addition, the biofilm is formed on the particle surface is effective in removing the organic matter contained in the rainwater, the facility cost is lower than the membrane filtration.

The buoyancy weight plate 230 is lifted and lowered by buoyancy according to the rainwater level supplied from the inlet 201, and the fluidized bed medium 220 is compressed and dehydrated by the weight when lowered. In this case, the stopper 202 installed on the inner wall of the filtration tank 200 may be installed so as to limit the lifting height of the buoyancy weight plate 230.

As shown in FIG. 3, the buoyancy weight plate 230 according to an embodiment of the present invention may be used by combining a plurality of weight block bodies 231. As shown in FIG. 3, each of the weight block bodies 231 passes downwards between the frames 232 using the hollow buoyancy pipes, but the fluidized bed media 220 does not escape upwards. A permeation net 235 is formed of a mesh net formed with a degree of holes. In addition, fasteners 233 and 234 are installed on each side of the weight block body 231 so as to be coupled with the different weight block body 231. At this time, the weight block body 231 is preferably manufactured to a size of about 60 × 60 (cm) to facilitate carrying in and out through the manhole. In addition, when the buoyancy weight plate 230 is lowered to the lowest point because there is no or less supply of rainwater, it is desirable to increase the weight in the limit to maintain the buoyancy state so that the fluidized bed media 220 can be compressed and dehydrated.

On the other hand, the buoyancy weight plate 230 and the fluidized bed filter 220 and the dehydration plate 210 described above is attached to the contaminants as the use period is longer, the filter water to the bottom of one side of the filter tank 200 as a configuration for washing it Wash water storage tank 300 for storing the rainwater filtered through the discharge valve 250 as the washing water. The supernatant of the upper part of the washing water storage tank 300 is supplied to the storage tank 2 through the outlet 301.

When the rainfall is finished, the rainwater filtered to remain below the level of the outlet 301 inside the wash water storage tank 300, this rainwater is used as the wash water. In detail, the washing nozzle 240 is installed on the buoyancy weight plate 230 as shown in FIG. 2 so that the rainwater may be pumped using the pump 310 to be sprayed onto the buoyancy weight plate 230. At this time, the first water level sensor 320 and the relatively low position to start the operation of the pump 310 at a predetermined height to control the operation of the pump 310 by sensing the amount of rain remaining in the wash water reservoir 300 The second water level sensor 330 for stopping the operation of the pump 310 is provided.

In the process of washing by the operation of the pump 310, the filtered water discharge valve 250 installed at the bottom of one side of the filtration tank 200 is closed, and the washing water discharge valve 260 installed at the other bottom of the filtration tank 200 is opened, after washing Contaminated washing water is to be discharged to the settling tank (100). To this end, the bottom of the settling tank 100 is configured to be lower than the bottom of the filtration tank 200. The contaminated washing water discharged to the settling tank 100 and the earth and sand deposited on the bottom are pumped by the pump 110 and discharged to the sewage pipe 3.

On the other hand, although not shown, according to another embodiment of the present invention, the washing nozzle 240 may be coupled to the lower portion of the buoyancy weight plate 230 may be configured to wash the fluidized bed medium 220 and the dehydration plate 210. . In this case, the interference of the water permeable net 235 provided in the buoyancy weight plate 230 may be further improved to improve the washing efficiency for the fluidized bed medium 220.

In addition, according to another embodiment of the present invention, a separate device for sludge discharge may be provided in the lower portion of the settling tank (100).

The operation procedure of the filtration device according to the present invention configured as described above and the rainwater purification device having the same will be described with reference to FIGS. 4 and 5.

First, as shown in Figure 4, the process of filtering rainwater is rainwater is supplied from the rainwater introduction pipe (1) to the settling tank 100 when the rainfall starts. The rainwater supplied to the settling tank 100 precipitates sand having a high specific gravity in the course of flowing the circulating wall 101.

The first rainwater treated as described above is supplied to the upper part of the filtration tank 200 and the top of the water permeable net 235 of the buoyancy weight plate 230, the fluidized bed medium 220 and the dewatering hole 211 of the dewatering plate 210 in a top-down manner. After passing, it is supplied to the wash water storage tank 300 through the open filtered water discharge valve 250.

If the rainfall gradually increases, the buoyancy weight plate 230 is raised until the movement is restricted by the stopper 202. At this time, the fluidized bed mediator 220 eventually sinks due to the change in specific gravity of the medial by the hydraulic or adsorbed contaminants of rainwater continuously flowing into the upper portion of the buoyancy weight plate 230.

Since the fluidized bed filter 220 is filled with the fluidized bed filter 220 adjacent to the portion where the fluidized bed filter 220 sinks, the entire fluidized bed filter 220 rotates slowly, thereby increasing the filtration efficiency.

When the rainfall is terminated and the water level is lowered accordingly, the buoyancy weight plate 230 compresses and dehydrates the fluidized media 220 by weight while being lowered, thereby contaminating the pollutants with the water absorbed in the fluidized media 220. It is discharged to the lower through the dehydration hole (211).

And the rainwater supplied to the wash water storage tank 300 is discharged to the storage tank (2) only the upper water of a predetermined level or more.

Next, as shown in FIG. 5, the washing process of the filtration tank 200 uses the pump 310 in a state in which the rainwater remaining in the washing water storage tank 300 blocks the filtered water discharge valve 250 when the rainfall is completed. After the pumping is injected through the washing nozzle 240 to the buoyancy weight plate 230.

The buoyancy weight plate 230, the fluidized bed medium 220, and the dewatering plate 210 are sequentially washed by the sprayed washing water.

After washing, the contaminated washing water is discharged to the settling tank 100 through the open washing water discharge valve 260.

The contaminated washing water discharged to the settling tank 100 is discharged to the sewage pipe 3 using the pump 110 to terminate the washing process. Therefore, when the rainfall is over, there is almost no rainwater remaining in the rainwater purifier, thereby minimizing the conditions for insects to inhabit due to the decay of rainwater.

The embodiments of the present invention have been described above with reference to the drawings, but the scope of the present invention is not limited thereto, and the scope of the present invention is apparent to the equivalents of the technical spirits determined from the detailed description and the drawings.

100: sedimentation tank 110: pump
200: filtration tank 210: dehydration plate
220: fluid bed medium 230: buoyancy weight plate
240: washing nozzle 250: filtered water discharge valve
260: washing water discharge valve 300: washing water storage tank
310: first water level sensor 320: second water level sensor

Claims (7)

A filtration device using a fluidized bed filter installed inside a filtration tank for filtering rainwater,
A dewatering plate fixed to the inner wall of the lower portion of the filtration tank in a horizontal direction;
A fluidized bed medium loaded on the dewatering plate to filter rainwater; And
A buoyancy weight plate which is settled in the horizontal direction on the fluidized bed upper part by the buoyancy according to the water level, and decompresses and dehydrates the fluidized bed filter on the dewatering plate by the weight when lowered;
Filtration device using a fluidized bed filter, characterized in that it comprises a. The method of claim 1,
The buoyancy weight plate,
A frame made of buoyancy body; And
At least one water permeation network formed inside the frame;
Filtration device using a fluidized bed filter, characterized in that a plurality of weight block body configured to comprise a mutually coupled. The method of claim 1,
And a washing nozzle for washing the fluidized bed medium on the buoyancy weight plate. A rainwater purifier having a filtration device using the fluidized bed filter according to any one of claims 1 to 7,
A precipitation tank into which rainwater is introduced;
A filter tank connected to an upper portion of the settling tank and the rainwater is supplied to an upper portion of the buoyancy weight plate and discharged downward through the dehydration plate;
Excellent purification apparatus comprising a. A rainwater purifier comprising a filtration device using the fluidized bed filter of claim 3,
A precipitation tank into which rainwater is introduced;
A filter tank connected to an upper portion of the settling tank and the rainwater is supplied to an upper portion of the buoyancy weight plate and discharged downward through the dehydration plate;
A washing water storage tank connected to the filtered water discharge valve installed under the filtration tank to store the rainwater and supply the supernatant water to the storage tank;
A pump for supplying rainwater stored in the wash water reservoir to the wash nozzle; And
A washing water discharge valve installed under the filtration tank and discharging the washing water supplied through the washing nozzle to the settling tank in a state in which the filtering water discharge valve is blocked; Excellent purifier, characterized in that comprises a. The method of claim 5,
The rainwater purifier is characterized in that the supply from the settling tank is supplied from the upper side of the buoyancy weight plate. The method of claim 5,
The bottom of the settling tank is an excellent purifier, characterized in that installed lower than the bottom of the filtration tank.

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