KR101730411B1 - Integrated Type Filtering Apparatus For Reusing Rainwater Or Graywater - Google Patents

Abstract

The present invention relates to an integrated filtering apparatus for recycling rainwater or graywater. The integrated filtering apparatus for recycling rainwater or graywater comprises: an outer case (11) in which an internal space is partitioned to a pre-treatment tank (21) and a post-treatment tank (23); a cleaning screen (13) which is disposed to extend vertically from the primary inlet (41) of the pre-treatment tank (21) inside the pre-treatment tank (21); a micro-filter (15) which is disposed to extend vertically adjacent to the secondary inlet (45) of the post-treatment tank (23) inside the post-treatment tank (23); and a transfer pump (17) which transfers the raw water of the pre-treatment tank (21) to the post-treatment tank (23). Accordingly, operation efficiency attributable to installation and management can be improved by simplifying an overall structure, and the maintenance and management of the filtering apparatus can be further improved by installing a floating brush inside the cleaning screen and providing self-cleaning capability.

Description

TECHNICAL FIELD [0001] The present invention relates to an integrated filtering apparatus for treating rainwater or sewage water as reused water.

The present invention relates to a monolithic filtration apparatus for treating rainwater or sewage water with recycled water, and more particularly to a monolithic filtration apparatus for filtering raw water, which comprises low-contamination water generated from various facilities such as houses and buildings, rainwater from roofs, The present invention relates to a monolithic filtration apparatus for treating a monolithic or multifunctional sewage water with reusing water so that the structure of the filter used for filtration can be simplified and maintenance can be facilitated in deodorizing and reuse as domestic water.

Generally speaking, heavy water is a facility that treats water such as tap water that has already been used or water collected through water collecting facilities so that it can be reused, thereby reducing the difficulty due to lack of water.

One example of such a water drainage facility is a wastewater treatment apparatus (Patent Document No. 2001-0102655) shown in Fig. 1. This treatment apparatus 101 is a wastewater treatment apparatus for treating waste water flowing through a screen tank 103, After adjusting the concentration through the adjustment tank 105, the concentration is adjusted by the feed pump 107 to the first filtration tank 109. Accordingly, the wastewater fed into the first filtration tank 109 is separated into organic pollutants and suspended matters, and then separated into organic pollutants and suspended solids.

The treated water having passed through the first and second filtration tanks 109 and 111 is stored in the treatment water tank 113 and then discharged to the outside or supplied back to the first filtration tank 109 or the second filtration tank 111, Is recycled for cleaning.

The wastewater treatment apparatus 101 includes first and second filtration units 109 and 111 connected to a flow rate control tank 105 for storing wastewater in the first stage, There is a problem that the efficiency of operation is inferior in terms of construction and maintenance.

In addition, since the filter media in the first and second filtration bases 109 and 111 are aged due to filtration and separated contaminants as the use time elapses, the filtration efficiency is lowered. As a result, The maintenance is also troublesome.

Published Patent Application No. 2001-0102655

The present invention has been proposed in order to solve the problems of the conventional wastewater treatment apparatus as described above, and it is an object of the present invention to simplify the structure of the filtration system, thereby improving work efficiency due to construction and maintenance of the system .

Another object of the present invention is to improve the maintenance performance of a filter by providing a self-cleaning function to a filter portion having a large amount of foreign matter.

In order to achieve the above object, the present invention provides an outer case of an outer body of the secondary filter, the inner space being divided into a pretreatment tank and a post treatment tank; A cleaning screen installed to extend vertically from the primary inlet of the pretreatment bath in the pretreatment bath; A microfilter provided so as to extend vertically adjacent to the secondary inlet of the post-treatment tank in the post-treatment tank; And a transfer pump installed between the first outlet of the pre-treatment tank and the second inlet of the post-treatment tank for transferring the raw water of the pre-treatment tank to the post-treatment tank, and a monolithic filtration device Lt; / RTI >

The cleaning screen may be a hollow cylinder vertically installed on the bottom plate of the pretreatment tank, and a buoyant brush that moves up and down according to the level of the raw water to be filled in the pretreatment tank may be installed so as to be movable along the inner circumferential surface.

The bottom plate may include a horizontal piece having one end thereof attached to the inner wall of the pretreatment vessel above the inlet port formed at the bottom of the outer case and extending through the first inlet port; And an inclined piece having one end connected to the other end of the horizontal piece and the other end attached to the inner wall of the pretreatment vessel below the primary outlet formed at the lower portion of the outer case and inclined downward toward the primary outlet, .

It is further preferable that the apparatus further comprises an ultraviolet lamp installed in the post-treatment tank and sterilizing the raw water that has passed through the microfilter before the effluent is drained to the secondary effluent outlet of the post-treatment tank.

Further, it is preferable to further include an activated carbon filter installed to be connected to the secondary outlet in the post-treatment tank so that raw water passing through the microfilter and the ultraviolet lamp passes before flowing out to the secondary outlet Do.

According to the monolithic filtration apparatus of the present invention, the raw water (excellent and dried water) collected from the outside without a separate water storage tank is immediately introduced into the secondary filter and is filtered at the same time as the water is stored, And the post-treatment tank provided with the microfilter are integrated with the secondary filter. In addition, since the ultraviolet lamp and the activated carbon filter are installed together in the post-treatment tank, the secondary filter is entirely simplified, The economic efficiency and efficiency according to the present invention can be improved.

In addition, since the buoyancy brush is installed inside the cleaning screen which takes a lot of foreign substances, the cleaning performance of the primary screen of the filtration apparatus is given to the self-cleaning ability, so that the maintenance performance of the filter can be further improved.

Furthermore, when the buoyancy brush is installed inside the cleaning screen, the structure of the bottom plate supporting the cleaning screen is changed so that the minimum water level of the pre-treatment tank is lower than the height of the first inlet that introduces the raw water (high and low water) into the pretreatment tank. So that the buoyant brush can be lowered to the lowermost end of the cleaning screen. Thus, the inner surface of the cleaning screen can be reliably cleaned, particularly the bottom end of the inner circumferential surface where the foreign matter is most frequently caught, It is possible to further improve the self-cleaning ability.

1 is a block diagram schematically showing a conventional wastewater treatment apparatus.
FIG. 2 is a schematic view of a heavy water filtration system to which a monolithic filtration apparatus for treating rainwater or sewage water as reused water according to an embodiment of the present invention is applied; FIG.
FIG. 3 is a detailed view of an integrated filtration apparatus for treating the rainwater or the sewage water as reused water shown in FIG. 2; FIG.
Figure 4 is a plan view of Figure 3;
Figure 5 is a left side view of Figure 3;
FIG. 6 is a side cross-sectional view of the water inlet and pretreatment vessel shown in FIG. 3;
FIG. 7 is a left sectional view of the post-treatment tank shown in FIG. 3; FIG.
8 is a side cross-sectional view of the treatment tank after the ultraviolet lamp shown in Fig.
9 is a side cross-sectional view of the aftertreatment vessel viewed along the activated carbon filter shown in Fig. 3;
10 is a side cross-sectional view of the water intake tank and the pretreatment tank shown in Fig. 3 in a state where the buoyancy brush is elevated.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an integrated filtration apparatus for treating an odd or odd lot with reused water according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The integrated filtration apparatus of the present invention has a water filtration system (1) as shown in FIG. 2, so as to self-purify and recycle heavy water such as rainwater or seawater discharged from a facility such as a house or a building. This heavy water filtration system 1 includes a treatment water tank 7 on the downstream side thereof in addition to the filtration apparatus 5 of the present invention.

Here, the treatment water tank 7 is a means for storing the filtered water, the sterilized water, and the deodorized treated water while passing through the filtration apparatus 5 of the present invention as described later. As shown in FIG. 2, And is connected to the filtration device 5 through the line L3 and supplies the stored reused water to the use place by the reuse pump 9 installed on the channel L4 for reuse.

3 to 5, the filtration apparatus 5 of the present invention includes an outer case 11, a cleaning screen 13, a microfilter 15, and a transfer pump 17 .

3, the outer case 11 is a part of the outer body of the filtration apparatus 5. The inner space is divided into a pretreatment tank 21 and a post treatment tank 23, Respectively. The pretreatment tank 21 is a part for primarily filtering the raw water (rainwater and sewage water) that has flowed into the filtration unit 5 and has an inlet 25 connected to the pipeline L1 as shown in FIG. 2 The raw water that has been primarily filtered from the primary filter 3 is supplied to the filtration device 5 and thus the raw water introduced into the filtration device 5 is subjected to filtration before the post-treatment tank 23. To this end, a cleaning screen 13, which will be described later, is provided inside the pretreatment tank 21, and a water level measuring electrode 27 is provided adjacent to the cleaning screen 13 in a vertical direction. An upper surface of the outer case 11 is opened so that the cleaning screen 13 can be inserted and removed from the outside, and a cleaning screen lid 29 is attached to the opening.

The post-treatment tank 23 is a portion that flows into the filtration device 5 and precisely filters raw water that has been previously subjected to the filtration treatment in the pretreatment tank 21, and as shown in FIG. 3 to FIG. 5, The raw water supplied from the pre-treatment tank 21 connected through the microfilter 15 is finely filtered. To this end, the post-treatment tank 23 is partitioned by the pre-treatment tank 21 by a partition 29, and a transfer pump 17, which will be described later, is provided on the pipeline L2. Like the cleaning screen lid 31, the upper surface of the outer case 11 is opened so that the micro filter 15 can be inserted and removed from the outside, and the micro filter lid 33 is attached to the opening.

The outer case 11 is connected to the primary filter 3 through the pipeline L1 and connected to the process water tank 7 through the pipeline L3. The outlet 25 is formed on the sidewall of the pretreatment vessel 21 and the outlet 26 to which the conduit L3 is connected is formed on the sidewall of the post- 6, the lower end portion of the pretreatment tank 21 is divided into upper and lower portions by the bottom plate 35, and the bottom plate 35 is provided with a water inlet tank 37 at a lower half portion thereof, The primary inlet 41 connecting the tank 37 and the pretreatment tank 21 is passed through and the primary outlet 43 is formed in the outer case 11 at the lower end of the pretreatment tank 21, The raw water supplied to the water inlet tank 37 is introduced into the pretreatment tank 21 through the primary inlet 41. The raw water introduced into the pretreatment tank 21 is filtered by the cleaning screen 13, And flows into the post-treatment tank 23 from the primary outlet 43 through the pipeline L2.

3 and 7, the post-treatment tank 23 is provided with a bottom plate 36 having a cross-sectional shape on one side of the lower end portion, dividing the inner space, and the bottom of the outflow tank 39 ). A second outlet port 47 for connecting the outlet tank 39 and the post-treatment tank 23 is passed through the bottom plate 36 and the outer case 11 at the upper end of the post- The raw water flowing into the post-treatment tank 23 from the pipeline L2 through the secondary inlet 45 is filtered in the post-treatment tank 23 and then discharged through the secondary outlet 47. [ And flows into the treatment water tank 7 through the pipeline L3.

As described above, the cleaning screen 13 roughly filters the raw water in the pretreatment tank 21 prior to microfiltration. The filtration precision is relatively low compared to the microfilter 15, It primarily filters large foreign matter. The cleaning screen 13 is vertically installed on the bottom plate 35 so as to include the first inlet 41 of the pretreatment tank 21 as a hollow cylindrical body so that the cleaning screen 13 is guided through the first inlet 41, The raw water flowing into the post-treatment tank 21 must pass through the primary outlet 43 to be transferred to the post-treatment tank 23.

Therefore, in order to prevent the foreign substances from being removed from the cleaning screen 13 during the filtration process, the cleaning screen 13 of the present invention may be provided with a floating brush (51). 3, the buoyancy type brush 51 is disposed in a circumferential direction along the outer circumferential surface of the body 52 and has a distal end formed on the inner circumferential surface of the cleaning screen 13 And a cleaning cloth 53 which is closely attached. Therefore, the buoyancy type brush 51 is moved up and down along the water level of the raw water flowing in from the water inlet tank 37 through the primary inlet 41, By cleaning the inner circumferential surface, various foreign substances hanging inside the cleaning screen 13 are removed.

In order to clean the cleaning screen 13 from the lower end, the water level of the raw water is equal to the lower end of the cleaning screen 13 Should be located below the bottom. 3 and 6, the bottom plate 35, which forms the bottom of the cleaning screen 13, can be composed of a horizontal piece 55 and an inclined piece 56, 6, the rear end, that is, the left end in the drawing is attached to the inner wall of the outer case 11 and extends horizontally, as shown in FIG. 6 so as to support the cleaning screen 13, (56). The front end of the inclined piece 56 is connected to the front end of the horizontal piece 55 and the front end is attached to the inner wall of the outer case 11 below the primary outlet 43 so that the primary outlet 43 And tilted downward. 3, the bottom plate 35 is located above the inlet 25 formed in the lower portion of the outer case 11 as shown in Fig. 3, and the front end of the inclined piece 56 Is located below the primary outlet (43) formed in the lower portion of the outer case (11) as shown. As a result, since the lowest level of the pretreatment tank 21 can be lower than the first inlet 41, the buoyancy brush 51 can be lowered to the lower end of the cleaning screen 13, Can be cleaned from the lowermost end.

3 and 7, the microfilter 15 is a means for precisely filtering the raw water introduced into the post-treatment tank 23 through the conduit L2 from the pretreatment tank 21. As shown in FIGS. 3 and 7, And is vertically extended to one side of the treatment tank 23 so as to be adjacent to the secondary inlet 45. Even if it is made of cloth or synthetic resin, it is accommodated in the multi- So that the outer shape capable of being filtered can be maintained.

2 and 3, the transfer pump 17 is a means for providing a pumping force to the entire filtration apparatus 5. The transfer pump 17 is connected to the primary outlet 43 of the pretreatment tank 21, Is provided on a pipeline (L2) connecting the secondary inlet (45) of the treatment tank (23), and transfers the raw water contained in the pretreatment tank (21) to the post treatment tank (23).

3 and 8, one or more ultraviolet lamps 65 are provided on the bottom plate 36 of the post-treatment tank 23 of the filtration apparatus 5. The ultraviolet lamps 65 Passes through the microfilter 15, sterilizes the ultrafiltered raw water, and then flows out through the secondary outlet 47 to the outlet water tank 39. At this time, the upper end of the ultraviolet lamp 65 passes through the ultraviolet lamp cover 34 and is connected to the lid 34 so that it can be easily inserted and removed from the outside.

3 and 9, at least one activated carbon filter 67 is provided on the bottom plate 36. The activated carbon filter 67 is connected to the bottom plate The raw water filtered and sterilized by passing through the microfilter 15 and the ultraviolet lamp 65 is passed through the secondary outlet 47 before being discharged to the raw water, Removes remaining odor and improves color and turbidity. At this time, the activated carbon filter 67 is similarly attached to the ultraviolet lamp cover 34 so that it can be easily inserted and removed from the outside.

Hereinafter, the operation of the integral filtration apparatus 5 for treating the rainwater or the sewage water with the reused water according to the preferred embodiment of the present invention will be described.

As shown in FIG. 2, the heavy water filtration system 1 to which the filtration apparatus 5 of the present invention is applied is configured such that, when the feed pump 17 is operated, heavy water such as rainwater or heavy water is supplied from a facility such as a house, Lt; RTI ID = 0.0 > (3). ≪ / RTI > The primary filtered primary water is transferred to the filtration apparatus 5 of the present invention along the pipeline L1 when the amount of heavy water supplied from the outside is large. And the rest is discharged to the outside through the outdoor pipeline.

Accordingly, the heavy water supplied to the filtration device 5 is supplied to the inside of the outer case 11 through the first inlet port 25 to fill the inlet tank 37. After the inlet tank 37 is filled, (41) to the pretreatment tank (21). At this time, the raw water that has passed through the first inlet 41 is filtered again after passing through the cleaning screen 13, and then the water level in the pretreatment tank 21 is increased. 10, the buoyancy type brush 51 ascending along the water level of the raw water is moved upward along the inner circumferential surface from the bottom of the cleaning screen 13, and the inner circumferential surface of the cleaning screen 13 Cleaned. Particularly, the buoyancy type brush 51 effectively cleans the lower end portion of the inner circumferential surface of the cleaning screen 13 where filtration occurs most frequently.

The raw water contained in the pretreatment tank 21 is supplied to the post-treatment tank 23 through the primary inlet port 43 and the secondary inlet port 45 along the conduit L2. Accordingly, the raw water discharged from the second inlet 45 is subjected to microfiltration while passing through the microfilter 15 provided adjacent to the first secondary inlet 45. At this time, the raw water is ultimately filtered to filter all the fine particles having small particle size.

Then, the raw water passes through the ultraviolet lamp 65, and various harmful substances such as bacteria are removed by the sterilizing action of the ultraviolet lamp 65 in this process.

The raw water is then discharged to the discharge water tank 39 through the secondary outlet 47. The odor is removed by passing through the activated carbon filter 67 surrounding the secondary water outlet 47 and the chromaticity or turbidity is improved do.

In this way, the raw water discharged to the discharge water tank 39 is transferred to and stored in the treatment water tank 7 along the pipeline L3 through the outlet port 26. In the treatment water tank 7, And is supplied to the reuse source through the conduit L4 in accordance with the operation of the reed unit.

1: Filtration system 3: Primary filter
5: filtration device 7: treated water tank
9: reuse pump 11: outer case
13: Cleaning screen 15: Micro filter
17: Feed pump 21: Pretreatment tank
23: post-treatment tank 25:
26: Outlet 27: Electrode
35: bottom plate 37:
39: Outlet tank 41: Primary inlet
43: Primary outlet 45: Secondary inlet
47: secondary outlet 51: buoyancy brush
55: horizontal piece 56: inclined piece
65: ultraviolet lamp 67: activated carbon filter

Claims (5)

An outer case 11 constituting an outer body and having an inner space defined by a pretreatment tank 21 and a post-treatment tank 23;
A cleaning screen 13 vertically extending from the primary inlet 41 of the pretreatment tank 21 in the pretreatment tank 21;
A microfilter 15 installed in the post-treatment tank 23 so as to extend vertically adjacent to the secondary inlet 45 of the post-treatment tank 23; And
Is provided between the primary outlet 43 of the pretreatment tank 21 and the secondary inlet 45 of the post treatment tank 23 so that the raw water of the pretreatment tank 21 is supplied to the post treatment tank 23 And a transfer pump (17)
The bottom plate (35) of the pretreatment tank (21)
A horizontal piece 55 attached to the inner wall of the pretreatment tank 21 at one end above the inlet 25 formed at the lower part of the outer case 11 and through which the primary inlet 41 penetrates; And
One end is connected to the other end of the horizontal piece 55 and the other end is attached to the inner wall of the pretreatment tank 21 below the primary outlet 43 formed in the lower portion of the outer case 11, And an inclined piece (56) inclined to incline downward toward the upper portion (43). The method according to claim 1,
The cleaning screen 13 is a hollow cylinder vertically erected on the bottom plate 35 of the pretreatment tank 21. The buffing brush 21 is lifted and lowered according to the level of the raw water filled in the pretreatment tank 21, (51) is provided so as to be able to move up and down along the inner circumferential surface thereof. delete The method according to claim 1 or 2,
An ultraviolet lamp 65 provided in the post-treatment tank 23 for sterilizing the raw water that has passed through the microfilter 15 before being discharged to the secondary outlet 47 of the post-treatment tank 23 And an integrated filtration device that treats the stormwater or sewage water as reused water. The method of claim 4,
And is connected to the secondary outlet 47 in the post-treatment tank 23 so that raw water that has passed through the microfilter 15 and the ultraviolet lamp 65 flows out to the secondary outlet 47 Characterized by further comprising an activated carbon filter (67) adapted to pass through before it is treated.

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