KR101051049B1 - Early rainwater purification equipment - Google Patents

Abstract

PURPOSE: An initial rainwater purifying apparatus is provided to improve the convenience of a user by easily implementing a maintenance process with respect to the initial rainwater purifying apparatus. CONSTITUTION: An inlet(200) passes through the front wall(110) of a housing(100), and initial rainwater is introduced through the inlet. An outlet(300) passes through the rear wall(120) of the housing, and the initial rainwater is discharged through the outlet. Precipitates contained in the initial rainwater are precipitated in a precipitating bath(400). A filtering media layer is arranged at the rear side of the precipitating bath and filters the initial rain water contained in the precipitating bath.

Description

Early Rainwater Purification Equipment {Early Rainwater Purification Equipment}

The present invention relates to an initial excellent purification device, and more particularly, to an initial excellent purification device having excellent purification performance, easy maintenance, and easy construction and low cost.

Various environmental pollutions are caused by humans. The source of such environmental pollution is largely the point where the discharge points of pollutants such as household sewage, industrial wastewater and livestock wastewater are clear. It is classified as a nonpoint source that is both nonspecific and unclear.

Nonpoint sources are pollutants with a wide range of discharge paths, most of which remain on the ground and are introduced into rivers or groundwater by early rainwater, causing water pollution. Therefore, in order to prevent contamination from these nonpoint sources, a facility for purifying initial rainwater is required.

Various techniques have been proposed for early stormwater purification plants. In particular, Republic of Korea Patent Publication No. 0987316 (registered October 10, 2010) discloses a non-point contaminant treatment device and purification method of the combined separation and upfiltration. In order to purify the contaminants contained in the initial rainwater, most of the floating non-contaminant pollutants, including oil, are separated before being introduced into the filtration device, and then purified by an upward filtration method using a filter medium filter.

In addition, the Republic of Korea Patent Publication No. 0991492 (2010. 10. 27. registration) discloses a natural initial rainwater purification device and its purification method through a multi-stage treatment.

Although the above-described prior arts describe excellent purification performance, improved lifespan, and easy maintenance, there is still room for improvement or change in view of overall convenience of maintenance, ease of installation, low cost, and excellent performance. .

Accordingly, an object of the present invention is to provide an initial excellent purification device having excellent purification performance for initial excellent water, easy maintenance, and simple construction and low cost.

An initial excellent purification device according to the present invention for achieving the above object is an initial excellent purification device having a housing having a rectangular parallelepiped shape, the inlet pipe is installed through the front wall of the housing and the initial rainfall is introduced; A discharge pipe installed through the rear wall of the housing and discharged with the initial rainwater discharged, wherein the highest point of the discharge port of the discharge pipe is located at a position below the lowest point of the inlet of the inlet pipe; A precipitation tank in which the initial rainwater introduced through the inflow pipe falls and is collected and the sediment contained in the initial rainwater is precipitated; A pre-filter layer positioned at the rear of the settling tank and filtering the initial excellent water of the settling tank; A first screen connecting both sidewalls of the housing in front of the prefilter layer to a height between them between the first and second positions of the outlet of the outlet pipe; A second screen connected between both side walls at the rear of the prefilter layer and installed between them; A first partition wall made of concrete located on the second screen and connected to both side walls to be installed at a height up to a position above a peak of the outlet of the discharge pipe between them; A second partition wall disposed between the two side walls at a position spaced apart from the rear of the second screen and the first partition wall by a predetermined distance; A third screen disposed on the second partition wall and connected to both side walls and installed between the side walls at a height up to a position higher than the highest point of the discharge port of the discharge pipe; A buffer tank positioned between the first partition wall and the second partition wall to change a flow direction of the initial excellent water flowing downward from the settling tank through the prefilter layer; A downstream filtration tank which is filtered while the initial rainwater having passed through the buffer tank and passed through the third screen flows downstream; At least one perforated tube positioned horizontally below the downstream filtration tank to collect the initial excellent water passing through the downstream filtration tank; And a vertical pipe connected to the air hole and vertically connected along the rear wall to be connected to the outlet of the discharge pipe.

The downstream filtration tank includes a main filter material layer filled at a position equal to or higher than the highest point of the outlet of the discharge pipe, and the surface of the main filtration layer of the downstream filter tank is exposed without being submerged in water. In particular, the downstream filter tank comprises a main filter medium layer filled between a position above the highest point of the discharge port of the discharge pipe and a position below the lowest line of the third screen; A sand layer filled under the main filter material layer; A gravel layer filled under the sand layer; And a nonwoven fabric or a woven fabric placed between the sand layer and the gravel layer, wherein the surface of the main filtration layer of the downstream filtration tank is exposed without being submerged in water.

At the inlet of the inlet pipe, a hole is drilled downward so that the direction of initial inflow is downward, and an inflow direction adjusting means having a blocking cover is provided to prevent the downward inflow of strong initial inflow and extend downward. It is preferable that it is done.

In particular, the blocking cover is placed in a position to block the extension to the rear of the initial excellent by its own weight or by its own weight and the restoring force of the elastic body, the force extending to the rear of the initial excellent than the blocking force of the blocking cover In the strong case, the blocking cover is rotated upward in proportion to the extending force, and the initial superiority extending backward is hit by the blocking cover, and thereafter, a gap between the main body of the inflow direction adjusting means of the blocking cover. Downward through the blocking cover has a fastening means for fastening with the main body of the inflow water direction adjusting means, and when fastening by the fastening means, the blocking cover is separated from the main body even if the initial rainwater extends strongly backward. It is preferable not to.

It is preferable that a valve is provided in the downward hole of the inflow direction adjusting means.

A sieve is installed on the downward hole of the inflow direction adjusting means, and a transparent window is installed on the upper portion of the main body of the inflow direction adjusting means so as to visually grasp the amount of the residue accumulated in the sieve.

The buffer tank may be composed of an upstream auxiliary filter tank including a gravel layer, a sand layer on the gravel layer, an auxiliary filter medium layer on the sand layer, and a nonwoven or woven fabric disposed between the sand layer and the gravel layer.

The vertical tube preferably has an opening formed at the distal end at a position higher than the surface of the main filter medium layer of the downstream filter tank.

The initial excellent purification device of the present invention has the advantages of excellent initial purification performance, easy maintenance, easy construction, and low cost.

1 is a cross-sectional view of the initial excellent purification device according to an embodiment of the present invention.
FIG. 2 is a partially cutaway perspective view of the initial excellent purification device of FIG. 1, in which the housing is turned upside down to show the arrangement of the bottom of the housing, and the bottom of the housing is changed upward.
3 is a view for explaining the purifying action and maintenance according to the flow of the initial excellent in the purification process of the steady state in the cross-sectional view of FIG.
4 is a cross-sectional view of the initial excellent purification device according to another embodiment of the present invention.

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

1 is a cross-sectional view of the initial excellent purification device according to an embodiment of the present invention, Figure 2 is a partial cutaway perspective view of the initial excellent purification device of Figure 1, the bottom portion of the housing upside down to show the arrangement of the bottom of the housing It is a figure of the state changed to the upper part.

As shown in Figures 1 and 2, the initial excellent purification device of the present invention has a housing 100 of a rectangular parallelepiped shape. One portion of the front wall 110 of the housing is provided with an inlet pipe 200 through which the initial rainwater flows. The inlet 210 of the inlet pipe 200 coincides with the inner wall of the front wall 110 of the housing and the inlet pipe 200 extends to the outside of the housing 100 through the outer wall of the front wall 110 to supply the initial excellent water. It is connected to a valve (not shown). The initial rainwater supply valve sends the initial rainwater to the initial rainwater purifier according to the present invention when it rains and bypasses the rainwater without sending the rainwater to the initial rainwater purifier after a certain time after rain or after a certain amount of rain.

One portion of the rear wall 120 of the housing is provided with a discharge pipe 300 through which it is discharged initial rainwater. The discharge port 310 of the discharge pipe 300 coincides with the inner wall of the rear wall 120 of the housing and the discharge pipe 300 extends outside the housing 100 through the outer wall of the rear wall 120. The highest point 312 of the outlet 310 of the discharge pipe 300 is installed to be located at a position below the lowest point 214 of the inlet 210 of the inlet pipe 200. Except in the case of the rapid inflow of the initial rain by this positioning, the inlet initial rain does not increase the water level above the highest point 312 of the discharge port 310 of the discharge pipe 300 and the inflow pipe 200 There is no backflow to the inlet 210 of.

The initial rainwater introduced through the inlet pipe 200 falls from the inlet 210 and is collected first in the settling tank 400. At this time, in the precipitation tank 400, the precipitate contained in the initial excellent precipitation. The sedimentation tank 400 may be formed by only a space partitioned within the housing 100, but the front wall 110 may be minimized to minimize the rise of sediment that has sunk due to the initial rain falling and to facilitate the collection and removal of the sediment. It is preferable that it is a concave shape in which the inclination part is provided in the side of 1st side and the 1st screen 510 demonstrated below, respectively. This concave shape continues from one side wall 130 to the other opposite side wall. This concave shape may be formed of concrete.

At the rear of the settling tank 400, the prefilter layer 500 is formed. Zeolite is mainly used as the filter medium used in the prefilter layer, and in addition, a filter medium commonly used such as activated carbon may be used. In order to form the prefilter layer 500, a first screen 510 is installed between the side wall walls 130 of the housing 100 in front of the prefilter layer 500. The first screen 510 is preferably installed at a height up to a position below the highest point 312 of the discharge port 310 of the discharge pipe 300. Meanwhile, the second screen 520 is installed between the side wall walls 130 of the housing 100 at the rear of the prefilter layer 500. The second screen 520 is typically installed to a position lower than the height at which the first screen 510 is installed. Next, both side walls 130 are connected to the second screen 520, and a first partition 530 is installed therebetween. The first partition 530 is installed at a height up to a position of the highest point 312 of the discharge port 310 of the discharge pipe 300. By this structure, the initial rainwater introduced into the settling tank 400 passes through the first screen 510 and is filtered by the prefilter layer 500 and then flows down through the second screen 520. At this time, since the initial excellent flow is blocked by the first partition 530, the initial excellent flow only flows from the bottom of the settling tank 400, and does not flow backward from the top of the settling tank 400.

The second partition wall 540 is installed between the second screen 520 and the first partition wall 530 by connecting both sidewalls 130 at positions spaced apart by a predetermined distance from each other. The second screen 540 is connected to both side walls 130, and a third screen 550 is installed therebetween. The third screen 550 is installed at a height up to a position above the highest point 312 of the discharge port 310 of the discharge pipe 300. Typically, the third screen 550 is installed at a height up to a position where the first partition 530 is installed. That is, the position of the upper end of the first partition wall and the position of the upper end of the third screen coincide.

Thus, the buffer tank 600 is formed between the first partition wall 530 and the second partition wall 540. The buffer tank 600 is for changing the flow direction of the initial excellent water flowing downward from the settling tank 400 through the prefilter layer 500 upward. Since the initial excellent water gradually flows upward in the buffer tank 600, the fine impurities passing through the prefilter layer 500 are precipitated in the buffer tank 600 without being gradually transported by the initial excellent upward. Therefore, the buffer tank 600 not only serves to change the initial excellent flow upward, but also serves as a second settling tank.

A downstream filtration tank 700 is installed behind the buffer tank 600, that is, between the second partition wall 540 and the rear wall 120 on which the third screen 550 is installed. The downstream filtration tank 700 allows the initial rainwater passing through the buffer tank 600 to pass through the third screen 550 to be filtered while flowing downstream.

Above the screens are preferably formed of a durable material, for example stainless steel, without corrosion. And the partitions are preferably formed of concrete.

The downstream filter tank 700 specifically comprises a main filter media layer 710. The filter media included in the main filter media layer is typically the same filter media used for the prefilter media 500 but may be other filter media. The main filter medium layer 710 is filled between a position above the highest point 312 of the discharge port 310 of the discharge pipe 300 and a position below the lowest line of the third screen 550. Thus, the rapid inflow of the initial rainfall Except for the case, since the water level does not increase above the highest point 312 of the discharge port 310 of the discharge pipe 300, the surface of the main filter medium layer 710 is always exposed out of the water. Exposure of the filter medium is useful because it can prevent the development of odors or pests such as mosquitoes breed by the water accumulated in the housing 100 when there is no rain.

The sand layer 720 is filled under the main filter medium layer 710, and the gravel layer 730 is filled under the sand layer 720. Between the sand layer 720 and the gravel layer 730, a nonwoven or woven fabric having a smaller eye size than the sand is placed. Thus, the sand of the sand layer 720 does not penetrate into the gravel layer 730. The average size of the gravel is about 30 to 40 mm, the average size of the zeolite particles as the filter medium is about 7 mm, and the sand is a royal sand, the average size of about 5 mm can be used. The filter media does not penetrate the sand layer by itself because it uses larger than sand, but the dust net 750 between the main filter media layer 710 and the sand layer 720 to prevent mixing with the sand at the boundary and to facilitate management. Can be installed. In addition to the functions as described above, the dust network provides a function of preventing the fine dust included in the initial excellent water from penetrating into the sand layer 720 as described in the name. The dust net may be formed of nonwovens, woven fabrics and other materials.

By using the initial excellent purification device according to the present invention, fine dusts contained in the initial excellent water accumulate and degrade the purification performance of the device. In such a case, each layer of the downstream filtration tank must be removed and then formed again. Particularly, when fine dust accumulates in the sand layer, the initial excellent flow rate becomes very slow, and thus practical purification is not performed. In the present invention, if the dust network is installed on the sand layer 720, this phenomenon can be prevented. When the fine dust is accumulated in the dust network and the flow rate of the initial excellent flow becomes very slow, the main filter medium layer 710 and the dust network are collected, and after the new dust network is installed, the main filter medium layer 710 is refilled thereon. Maintenance is simplified because the purification performance of the initial excellent purification device is restored.

At least one perforated pipe 800 is installed at a lower portion of the downstream filtration tank 700. As shown in FIG. 2, a plurality of hole tubes 800 having a plurality of holes 805 are typically arranged horizontally at appropriate intervals. The space between the perforations 800 is filled with gravel 730. Each hole 800 collects the initial excellent water passing through the downstream filtration tank (700).

The plurality of perforated pipes 800 are connected to one vertical pipe 900. To this end, the perforated pipes 800 arranged horizontally on the bottom wall 160 of the housing 100 are connected to one connecting pipe 810 perpendicular to them, and the connecting pipe 810 is connected to the vertical pipe 900. Connected. The connecting oil pipe 810 typically has a plurality of holes 815, but may not have such holes. The vertical pipe 900 is vertically erected along the rear wall and connected to the discharge port 310 of the discharge pipe 300. In FIG. 2, the upright tube is shown facing down since, as described above, FIG. 2 is a view in which the bottom part is located upside down and the housing is reversed to explain the arrangement of the bottom part of the housing.

The distal end of the vertical tube 900 may have a closed shape, but preferably has an open shape. If it has an open end, the end should be formed at a position higher than the surface of the main filter media layer 710 of the downstream filter bath 700. In the case of having such an open end, the vertical pipe (900) can be smoothly flooded without lifting the manhole cover even if the water overflows in the housing 100 due to the rapid inflow of the initial excellent water It can be discharged to outside through intuition to prevent safety accidents.

On the other hand, the buffer tank 600, as shown in Figures 1 and 2, may be configured in the form without the filling of the filter medium, as shown in Figure 4, from below, the auxiliary gravel layer 630, auxiliary gravel layer 630 The auxiliary sand layer 620 and the auxiliary filter medium layer 610 may be filled on the auxiliary sand layer. An auxiliary nonwoven fabric layer 640 is disposed between the auxiliary sand layer 620 and the auxiliary gravel layer 630, and an auxiliary dust network 650 is disposed between the auxiliary filter medium layer 610 and the auxiliary sand layer 620. In this case, the term "auxiliary" is used to distinguish it from the downstream filtration tank 700, and the same material may be used. Therefore, in the case of filling the filter medium layer and the like to the buffer tank 600, in addition to the above-described function serves as an upstream auxiliary filter tank.

On the other hand, the inlet 210 of the inlet pipe 200 is provided with an inflow water direction control means (410). The inflow water direction adjusting means 410 has a blocking cover 414 to prevent a strong extension from the inlet 210 to the rear when the initial rain is strongly introduced, and downwards so that the direction of the initial rain flows downward. It has a hole, ie, a downward hole 418. Typically, the main body 412 of the inflow direction adjusting means 410 may be formed in a rectangular or cylindrical pipe shape, the lower portion 418 is formed in the lower portion of the main body 412.

The blocking cover 414 is located at the rear of the pipe-shaped main body 412 to block the extension to the rear of the initial excellent by its own weight or by its own weight and the restoring force of the elastic body. If the force extending to the rear of the initial superiority is stronger than the blocking force of the blocking cover 414, the blocking cover 414 is rotated upward in proportion to the extending force and lifted up. If the force extending to the rear of the initial rain is not strong enough to completely lift the blocking cover 414, the initial rain extending to the rear strikes the blocking cover 414 and then between the blocking cover 414 and the main body 412. Downward through the gap.

The blocking cover 414 is provided with a fastening means (not shown) for fastening with the main body 412 of the inflow water direction adjusting means 410, and the blocking cover 414 is fastened to the main body 412 by the fastening means. In this case, the blocking cover 414 is not separated from the main body 412 even if the initial excellent stretching strongly rearward. Such fastening means can be usefully used when an administrator urgently takes appropriate measures when a problem occurs in the housing 100 while it is raining a lot.

On the other hand, if the initial rainwater does not flow strongly enough to hit the blocking cover 414, the initial rainwater flowing in falls down through the downward hole 418. A valve 430 is installed below the downward hole 418, which can be used when an administrator urgently takes appropriate action in the event of a problem in the housing 100 during rain, as mentioned above. That is, the manager opens the manhole cover 180 and enters the housing 100 through the manhole 170, and fastens the blocking cover 414 to the main body 412 by the fastening means, and also the initial excellent by the valve 430. After blocking the inflow of water, the initial water purification system can be urgently repaired.

On the downward hole 418 of the inflow direction adjusting means 410 may be provided with a strainer 420 having a mesh of an appropriate size. As the initial rainwater flows in, debris such as deciduous leaves, plant twigs, roots, etc. may be introduced along the rainwater, and this residue may be sieved through the strainer 420. The administrator can then enter the housing periodically or as needed to open the barrier cover 414 and remove debris that has accumulated on the strainer 420. This simple configuration makes it easy to remove the debris introduced into the housing, thereby simplifying the maintenance of the device. For more convenient maintenance, the transparent window 416 may be installed on the main body 412 of the influent direction adjusting means 410. The transparent window 416 may be formed by, for example, acrylic resin, and may be coupled to the main body 412 made of stainless steel by screwing or otherwise. Since the manager can visually grasp the amount of the residue accumulated on the sieve 420 through the transparent window 416, it is convenient.

Next, with reference to Figure 3 will be described how the initial excellent purification device of the present invention. When the rain is in the initial state in which the housing 100 is empty, initial rainwater flows in through the inlet 210. Then, water starts to fill from the settling tank 400, and water fills the settling tank 400, and the water flows through the first screen 510 to the prefilter layer 500, and then the buffer tank through the second screen 520. Slowly fill at 600. Thus, the water in the settling tank 400, the prefilter layer 500 and the buffer tank 600 is raised to almost the same level. If the first screen 510 and the prefilter layer 500 are formed lower than the first partition wall 530, the upper surface of the prefilter layer 500 may be formed in addition to the flow of water through the first screen 510 while the water level rises. Some downward water flow is formed.

When the initial rainwater is introduced into the settling tank 400 and the buffer tank 600, and the water level is higher than the position of the second partition wall 540, the initial excellent water is transferred to the downstream filtration tank 700 through the third screen 550. The water passed to the downstream filtration tank 700 passes through the main filter layer 710, the sand layer 720, and the gravel layer 730 in order to form a hole in the perforated hole 800 disposed on the bottom wall 160 of the housing 100. After being collected, it gradually rises upward again through the vertical pipe 900 and is discharged to the outside through the discharge port 310 of the discharge pipe 300.

Therefore, the initial rainwater introduced from the apparatus of the present invention forms a downward flow in the sedimentation tank 400 and the prefilter layer 500, such a flow is changed to an upward flow in the buffer tank 600, the downstream filter tank The flow is changed back to the downward flow at 700 and finally discharged to the outside after the flow is changed back to the upward flow at the vertical pipe 900. This alteration of the water flow not only lengthens the substantial path of the water, but also provides sufficient time to purify the water by moderately slowing the flow rate of the water.

As the water flow is formed and the water level becomes stable, that is, in a steady state, the water level due to the initial rain introduced is between the lowest point 314 and the highest point 312 of the discharge port 310 of the discharge pipe 300. Is formed somewhere. Therefore, in the apparatus of the present invention, first of all, the surface of the main filter medium layer 710 of the downstream filter tank 700 is always exposed to the outside of the water without being submerged by the initial rainwater. Even when there is no rain, the water level is formed up to the lowest point 314 of the discharge port 310 of the discharge pipe 300, and odors may occur due to water accumulated in the housing 100, or pests such as mosquitoes may breed. . Therefore, such exposure of the filter medium is useful because it can prevent the generation of such odors and the reproduction of pests.

100: housing 110: front wall
120: rear wall 130: side wall
150: top wall 160: bottom wall
170: manhole 180: manhole cover
200: inlet 210: inlet
300: discharge pipe 310: discharge port
400: sedimentation tank 410: influent direction control means
412: main body 414: blocking cover
416: transparent window 418: downward hole
420: sieve 430: valve
500: prefilter layer 510: first screen
520: second screen 530: first partition wall
540: second partition 550: third screen
600: buffer tank 610: auxiliary filter medium layer
620: auxiliary sand layer 630: auxiliary gravel layer
640: secondary nonwoven layer 650: secondary dust network
700: downstream filtration tank 710: main filter medium layer
720: sand layer 730: gravel layer
740: nonwoven layer 750: dust network
800: merit pipe 810: connection pipe
900: vertical tube

Claims (8)

An initial excellent purification apparatus having a rectangular parallelepiped shaped housing, comprising: an inlet pipe installed through a front wall of the housing and receiving an initial excellent rainfall; A discharge pipe installed through the rear wall of the housing and discharged with the initial rainwater discharged, wherein the highest point of the discharge port of the discharge pipe is located at a position below the lowest point of the inlet of the inlet pipe; A precipitation tank in which the initial rainwater introduced through the inflow pipe falls and is collected, and the sediment contained in the initial rainwater is precipitated; A pre-filter layer positioned at the rear of the settling tank and filtering the initial excellent water of the settling tank; A first screen connecting both sidewalls of the housing in front of the prefilter layer to a height between them between the first and second positions of the outlet of the outlet pipe; A second screen connected between both side walls at the rear of the prefilter layer and installed between them; A first partition wall made of concrete positioned on the second screen and installed at a height between the two side walls so as to be positioned at a position up to a position above the highest point of the outlet of the discharge pipe; A second partition wall disposed between the two side walls at a position spaced apart from the rear of the second screen and the first partition wall by a predetermined distance; A third screen disposed on the second partition wall and connected to both side walls and installed between the side walls at a height up to a position higher than the highest point of the discharge port of the discharge pipe; A buffer tank positioned between the first partition wall and the second partition wall to change a flow direction of the initial excellent water flowing downward from the settling tank through the prefilter layer; A downstream filtration tank which is filtered while the initial rainwater having passed through the buffer tank and passed through the third screen flows downstream; At least one perforated tube positioned horizontally below the downstream filtration tank to collect the initial excellent water passing through the downstream filtration tank; And a vertical pipe connected to the air hole and vertically connected along the rear wall to be connected to the outlet of the discharge pipe.
The downstream filtration tank includes a main filter material layer filled at a position equal to or higher than the highest point of the outlet of the discharge pipe, so that the surface of the main filtration layer of the downstream filtration tank is exposed to water without being submerged. Device. The method of claim 1,
At the inlet of the inlet pipe, a hole is drilled downward so that the direction of initial inflow is downward, and an inflow direction adjusting means having a blocking cover is provided to prevent the downward inflow of strong initial inflow and extend downward. Early excellent purification device, characterized in that. The method of claim 2,
The blocking cover is placed in a position to block the extension to the rear of the initial excellent by its own weight or by its own weight and the restoring force of the elastic body, and the force extending to the rear of the initial excellent is stronger than the blocking force of the blocking cover The blocking cover is to be lifted by rotating upward in proportion to the extending force, the initial superiority extending to the rear through the gap between the main body of the inflow direction control means of the blocking cover after hitting the blocking cover Downwards,
The blocking cover is provided with a fastening means for fastening with the main body of the inflow water direction adjusting means, and when the fastening means is fastened by the fastening means, it is not separated from the main body even if the initial excellent strength is strongly extended to the rear. Initial excellent purification device. The method of claim 3,
The initial excellent purification device, characterized in that the valve is installed in the downward hole of the inflow direction adjusting means. The method of claim 2,
A sieve is installed on the downward hole of the inflow direction adjusting means,
The initial excellent purification device, characterized in that the upper portion of the main body of the inflow water direction adjusting means is provided with a transparent window for visually grasping the amount of the residue accumulated in the sieve. The method of claim 1,
The buffer tank is an initial excellent purification device, characterized in that consisting of an upstream auxiliary filter tank including a gravel layer, a sand layer on the gravel layer, an auxiliary filter medium layer on the sand layer, and a nonwoven or woven fabric disposed between the sand layer and the gravel layer. The method of claim 1,
And said vertical pipe has an opening formed at an end at a position higher than the surface of said main filter medium layer of said downstream filter tank. The method of claim 1,
The downstream filter tank comprises a main filter medium layer filled between a position above the highest point of the discharge port of the discharge pipe and a position below the lowest line of the third screen; A sand layer filled under the main filter material layer and a gravel layer filled under the sand layer; And a nonwoven fabric or a woven fabric disposed between the sand layer and the gravel layer, wherein the surface of the main filtration layer of the downstream filtration tank is exposed to water without being submerged.

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