KR20110018758A - Early rain separating apparatus - Google Patents

Abstract

PURPOSE: A device for separating initial rainwater is provided to improve the efficiency of sewage disposal facilities by enabling initial rainwater with multiple non-point pollutants to be separated. CONSTITUTION: A device for separating initial rainwater comprises an initial rainwater separation unit(10), a first screen(11), a water control unit(20), an initial rainwater collection unit(30), and a blocking unit. The initial rainwater separation unit is formed on the inner surface of a rainwater tank(100). The first screen is formed on the top of the initial rainwater separation unit and separate foreign materials from the rainwater tank. The water control unit receives rainwater and gradually discharge the rainwater through a filter(22). The initial rainwater collection unit temporarily stores rainwater when the rainwater exceeds the processing capacity of the water control unit. When the rainwater exceeds the processing capacity of the initial rainwater collection unit, the blocking unit blocks rainwater supplied from the initial rainwater separation unit.

Description

Early Excellent Separation Device {EARLY RAIN SEPARATING APPARATUS}

The present invention relates to an initial excellent separation device for separating the initial excellent rain containing a large amount of non-point pollutants during rainfall.

Water sources are largely divided into point sources and nonpoint sources. Point sources are mainly traceable to the origin and volume of livestock sewage from households or business areas, industrial wastewater from factories, and livestock wastewater from large livestock facilities. These relatively easy ones are the main targets for sewage treatment.

On the other hand, nonpoint source refers to drainage from agricultural drainage, mine wastewater, livestock wastewater of small livestock facilities, and rural sewage or forestry in rural areas without sewerage. These pollutants are less contributing to pollution and rely on natural treatment.

To emphasize, nonpoint sources are also referred to as non-specific sources, cotton sources, mobile sources, or other water sources. Unlike point sources that have specific discharge pathways, nonpoint sources are unspecified, such as urban road drainage or agricultural drainage. Point to a location or area that generates a nonpoint pollutant through an emission pathway.

Aquaculture farming facilities, golf course facilities, transportation equipment, maintenance or junkyard facilities, agricultural and marine products simple processing facilities, photograph processing facilities, etc. Other facilities include loading docks, product yards, and land quality change areas.

Nonpoint pollutants are mainly pollutants that are discharged along with surface runoff when it rains. Fertilizers, pesticides, soil erosions, barn spills, traffic pollutants, urban dust and garbage, residues of natural animals and plants It refers to water and air pollutants that fall on the ground.

Therefore, the rainwater discharged, including all pollutants, is in fact the main nonpoint source. Non-point pollutants are usually discharged only when there is a lot of rain, so they have a large difference in daily and seasonal emissions, difficult to predict and quantify, and are affected by weather conditions, geology, and terrain, which are difficult to control artificially. Therefore, emission standards are not systematically set.

As a result of the 'Non-point Pollution Research Service' (June 2000) on the upstream area of Paldang Dam, the main source of water for residents of the Seoul metropolitan area, as of the end of 1999, Pollutant loads generated from point sources such as industrial wastes and livestock wastes were 13,6509 tons per year, which is 80.4%, and 331 393t / year, which was 19.6%.

In addition, the total discharge load (BOD basis) is estimated to reach 44.5% of nonpoint sources, indicating that nonpoint sources have a significant effect on water pollution. The similarities are found in the Geum, Nakdong, and Youngsan rivers. It is estimated to be. Therefore, as the regulations on point sources with regulatory standards have been strengthened and environmental foundations are expanded, the influence of nonpoint sources on water quality will gradually increase.

On the other hand, in such a problem, conventionally, as a measure to reduce pollution, road drainage in urban areas is to install a storage tank to settle and discharge pollutants caused by the initial rain, and discharged from farmland. • Agricultural drainage containing a large amount of pesticides has been installed with reservoirs, wetland purification facilities, and water plants to prevent direct entry into rivers.

However, this countermeasure reduces the efficiency of the non-point pollution treatment facility by continuously purifying the rainwater after a certain period of time when the concentration of pollutants is reduced. There was a problem that maintenance costs are rising.

The present invention has been made to solve the above problems, the object of the present invention is to focus on the fact that the non-point pollutants included in the rainwater is reduced in the initial excellent, most non-point pollutants, Improve the efficiency of the purification facility for treating non-point pollutants by providing an initial excellent separation device according to the present invention for separating the initial excellent water, and helps to design a suitable size for the newly installed purification facility, maintenance of the purification facility To reduce management costs.

An object of the present invention as described above is the initial excellent separation unit provided on the inner surface of the rainwater receiver corresponding to the direction in which rainwater is introduced; A first screen provided above the initial excellent separation part and separating foreign matters; A permeation control unit provided to gradually discharge the rainwater through a filter for adjusting the permeability coefficient by receiving rainwater separated from the first screen of the initial excellent separation unit; More rainwater is introduced than the rainwater discharged by the water permeation control unit when the excess capacity of the water permeation control unit exceeds the capacity of the permeation control unit is induced and stored temporarily and the rainwater stored in accordance with the rainwater discharge rate of the permeability control unit An initial excellent catchment expansion unit for supplying the water; It is achieved by the initial excellent separation device, characterized in that it comprises a block for blocking the rainwater supply from the initial excellent separation unit when the excellent storage capacity of the initial excellent water collection extension.

According to the initial excellent separation device according to the present invention, separate management / treatment is possible through the separation of the initial excellent water containing a large amount of non-point pollutants.

Therefore, the efficiency of the purification facilities to deal with non-point pollutants is improved, and the new facilities to be installed can be designed as the appropriate size purification facilities. Due to the effect of increasing the replacement cycle of the various consumables required, the maintenance cost of the purification plant is reduced.

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

The initial excellent separation device according to the present invention is composed of the initial excellent separation unit 10 and the permeability control unit 20, in the case of trying to separate a large amount of initial excellent water in the vicinity of the permeability control unit 20 Although the initial excellent catchment expansion unit 30 may be further provided, it is preferable to provide the permeability control unit 20 and the initial excellent catchment expansion unit 30 in one space.

Specific configuration of the present invention, the initial excellent separation unit 10 provided on the inner surface of the rain receiver 100 corresponding to the direction in which the rainwater 300 is introduced;

A first screen 11 provided at an upper portion of the initial excellent separation unit 10 to separate foreign substances;

Permeability control is provided to gradually discharge the rainwater through the filter 22 (eg, sand) to adjust the permeability coefficient received rainwater separated from the first screen 11 of the initial excellent separation unit 10 Part 20;

More rainwater is introduced than rainwater discharged by the pitcher control unit 20, and when the excess capacity of the pitcher control unit 20 is exceeded, the rainwater is continuously stored to induce rainwater that is continuously introduced and the pitcher control unit 20 is used. An initial excellent catchment expansion unit 30 for supplying the stored rainwater to the permeability control unit 20 according to the rainwater discharge amount;

It may include; a blocker for blocking the rainwater supply from the initial rainwater separating unit 10 when the rainwater storage capacity of the initial rainwater collecting unit 30 is exceeded.

Here, the water permeation control unit 20 is a second screen for separating the foreign matter contained in the rainwater again before the rainwater 300 introduced from the initial excellent separation unit 10 is supplied to the filter 22 for adjusting the water permeability coefficient ( 21) is preferably further provided,

The blocking unit is hinged to one end of the inlet pipe 41 which is a flow path of the rainwater 300 flowing from the initial excellent separation unit 10 to block or open the inlet pipe 41, and the blocking It is preferable to comprise a floating port 52 attached to one side of the plate 51, the upper portion of the initial excellent water collecting expansion portion 30 and the water permeation control unit 20 is detachable as a cover that can be opened and closed. And, the inner bottom of the initial excellent water collecting extension 30 may be further provided with a sediment receiver (63, 64).

When explaining the configuration in more detail and the operation relationship at the same time,

As rainwater flows from the left side of the road 400 as shown in FIG. 1, the initial excellent separation part 10 is mounted on the upper side of the inner side of the rainwater receiver 100 corresponding thereto. Then, unless it is a heavy rain, the initial rainwater is continuously introduced into the initial rainwater separating part 10, and the rainwater flowing through the inlet pipe 41 connecting the initial rainwater separating part 10 and the initial rainwater separating part 60. It flows into the initial excellent isolation unit (60).

At this time, the first screen surrounding one side of the inlet pipe 41 connected to the inner side of the initial excellent separation unit 10 in order to prevent the inflow pipe 41 from clogging due to the introduction of a relatively large amount of foreign matter into the inlet pipe 41. 11) Install.

On the other hand, the initial excellent isolation unit 60 is composed of a permeability control unit 20 and the initial excellent water collecting expansion unit 30 to distinguish this from the inner wall of the initial excellent isolation unit 60 extending from the lower side to the top ( 61).

Therefore, the initial rainwater introduced through the inlet pipe 41 is primarily introduced into the permeation control unit 20, and if the capacity of the water permeation control unit 20 is exceeded, the rainwater exceeds the partition wall 61 and the initial excellent water. It is moved to the catchment expansion unit 30.

Rainwater introduced into the permeation control unit 20 is discharged to the outside (for example, purification facilities or rainwater receiving) through the permeability coefficient adjusting filter 22 provided at the bottom. At this time, even if the rainwater flowing into the permeation control unit 20 may contain a relatively small foreign matter even if the first screen 11 separates the foreign matter, such foreign matter may accumulate in the filter 22. Then, the efficiency of the filter 22 is reduced so that the rainwater is provided with the second screen 21 as shown in Figs.

And the filter 22 of the water permeation control unit 20 is a configuration for adjusting the water permeability coefficient is less discharged than the rainwater to be introduced, so that after a certain time, the saturation state. Then the rainwater is moved to the initial excellent catchment expansion unit 30, as shown in Figure 1, the rainwater temporarily stored in the initial excellent catchment expansion unit 30 through the communication pipe 62 formed in the lower portion of the partition wall 61 Rainwater is introduced into the pitcher control unit 20 because the initial excellent catchment expansion unit 30 and the permeability control unit 20 is in communication.

On the other hand, if the excellent storage capacity is passed to the initial excellent water collecting expansion unit 30 through the saturation state of the water permeation control unit 20, as shown in Figure 1 by the blocking portion provided on the other side of the inlet pipe 41 Shut off the inflow. The blocking part is composed of a blocking plate 51 mounted with a buoyancy float 52 on one side. The blocking plate 51 is hinged with the inlet pipe 41, but normally opens the inlet pipe 41. It is desirable to hinge to act.

Then, the blocking part normally opens the inlet pipe 41, and if the buoyancy of the floating port 52 is greater than the action force to open the inlet pipe 41 (excellent storage capacity until the initial excellent catchment expansion unit 30 is exceeded). Case) the inlet pipe 41 is blocked.

On the other hand, the upper part of the storm receiver 100 and the permeation control unit 20 can be opened and closed as shown in FIG. Therefore, foreign matters accumulated on the first screen 11 and the second screen 21 can be easily cleaned.

The present invention may be configured as shown in FIG. 4 is consistent with most of the configuration of Figure 1, the other configuration of the cover 90 that can open and close the top of the permeability control unit 20 and the initial excellent water collecting expansion unit 30 and the initial excellent separation unit ( The difference between the configuration of the excess water blocking portion provided on one side of the inlet pipe 41 on the 10) side, and the configuration of the sediment receivers 63 and 64 provided on the lower portion of the initial excellent water collecting expansion portion 30 is further added. .

The cover 90 prevents foreign matter or rainwater from being introduced directly into the water permeability control unit 20 and the initial excellent water collecting expansion unit 30. Therefore, the circumference of the cover 90 is preferably secured by rubber packing or the like, and the sediment receiver 63 of the second screen 21 and the initial excellent water collecting expansion unit 30 of the permeation control unit 20 It is detachably configured for the cleaning request of 64).

The excess excellent blocking part is the same structure as the structure of the blocking part of FIG. That is, it has an action force to open the inlet pipe 41 normally, and if the force of the buoyancy is greater than the action force to open the inlet pipe 41 blocks the inlet pipe 41. Therefore, as shown in FIG. 4, when the water level S of the initial excellent separation unit 10 is about, the superior force is continuously introduced into the permeation control unit 20 because the working force to open the inlet pipe 41 is greater than the buoyancy force. 4, when the rainwater exceeds the storage capacity of the initial excellent separation unit 10 as shown in the bottom view of FIG. 4, the excess water blocking unit is larger than the acting force to open the inlet pipe 41. ), Do not flow rainwater to the permeability control unit 20 anymore.

Such a structure does not flow into the permeation control unit 20 any more than the initial excellent water. In other words, if the rainfall is continued, the initial excellent separation unit 10 maintains the saturation state of the rainwater because no further rainwater flows into the water permeation control unit 20. Therefore, even if all of the initial excellent water in the permeation control unit 20 is no longer rainwater is not introduced into the permeation control unit 20, the rainfall of the initial rainwater separation unit 10 is dried slowly only when the rainfall is inlet pipe 41 only The configuration of the 54 to open is increased than the force of the buoyancy to open the inlet pipe 41 is in place.

Unexplained sign 401 is boundary stone, 500 is India.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications, and variations will readily occur to those skilled in the art without departing from the spirit and scope of the invention. Therefore, it should be understood that the disclosed embodiments are to be considered in an illustrative rather than a restrictive sense, and that the true scope of the invention is indicated by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof, .

1 is a basic conceptual view of the initial excellent separation device according to the present invention,

2 is a view showing the initial excellent separation device according to another embodiment of the present invention,

3 is a view separately showing a part of the configuration of FIG.

4 is a view showing another embodiment of the initial excellent separation device according to the present invention.

Description of the Related Art

10: initial excellent separation section 11: the first screen

20: water pitcher 21: second screen

22: filter 30: initial excellent sump extension

41: inlet pipe 42: outlet pipe

51: blocking plate 52: floating sphere

63, 64: sediment receiver 90: cover

100: Excellent 300: Excellent

Claims (4)

An initial excellent separation unit 10 provided on the inner side of the rain receiver 100 corresponding to the direction in which the rainwater 300 is introduced; A first screen (11) provided at an upper portion of the initial excellent separation unit (10) for separating foreign matters; Permeability control unit 20 is provided to gradually discharge the rainwater through the filter 22 for adjusting the permeability coefficient received rainwater separated from the first screen 11 of the initial excellent separation unit 10; More rainwater is introduced than rainwater discharged by the pitcher control unit 20, and when the excess capacity of the pitcher control unit 20 is exceeded, the rainwater is continuously stored to induce rainwater that is continuously introduced and the pitcher control unit 20 is used. An initial excellent catchment expansion unit 30 for supplying the stored rainwater to the permeation control unit 20 according to the rainwater discharge amount; Blocking unit to block the rainwater supply from the initial rainwater separating unit 10 when the rainwater storage capacity of the initial excellent water collecting expansion unit 30 exceeds; Initial excellent separation device, characterized in that configured to include. The method of claim 1, The permeation control unit 20 is a second screen 21 for separating the foreign matter contained in the rainwater before the rainwater 300 introduced from the initial excellent separation unit 10 is supplied to the filter 22 for adjusting the permeability coefficient. An excellent initial separation device characterized in that it further comprises). 3. The method of claim 2, The blocking unit is hinged to one end of the inlet pipe 41 which is a flow path of the rainwater 300 flowing from the initial excellent separation unit 10, the blocking plate 51 for blocking or opening the inlet pipe 41, and Initial excellent separation device, characterized in that consisting of a float (52) attached to one side of the blocking plate (51). The method of claim 3, wherein The upper part of the initial excellent catchment expansion unit 30 and the permeation control unit 20 has a cover that can be opened and closed as a detachable type, and the inner bottom of the initial excellent catchment expansion unit 30 is a sediment receiver 63, 64. An excellent initial separation device characterized in that it further comprises).

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