KR101013091B1 - Purification structure for rainwater - Google Patents

Abstract

PURPOSE: A rainwater purification structure is provided to ensure efficient removal of dirt through the double purification using precipitation and filtering and prevent overload by concentrically collecting the initial rainwater containing a relatively large amount of dirt. CONSTITUTION: A rainwater purification structure comprises an outer module(100), a rainwater inlet pipe(110), an inner module(200), an initial rainwater outlet pipe(220), and a continuous rainwater outlet pipe(120). The outer module has an accommodation space inside. The rainwater inlet pipe is coupled to one side of the outer module. The inner module, installed in the accommodation space, has an accommodation space inside and is formed with a filter(210) on a sidewall. The initial rainwater outlet pipe is extended downward from the inside of the inner module. The continuous rainwater outlet pipe is coupled to the other side of the outer module, above the inner module.

Description

Excellent Purification Structure {PURIFICATION STRUCTURE FOR RAINWATER}

TECHNICAL FIELD The present invention relates to the field of environment, and in particular, to a purifying structure of rainwater.

Rainwater discharge and purification device is a facility for collecting and discharging rainwater formed on the upper surface of roads and bridges during rainfall.It is specified in the facility standard to be installed for drainage of roads during construction of roads and bridges. Certain purification facilities may be provided to reduce the inflow of sewage pipes to fallen leaves and other pollutants.

Pollutants (sand, fallen leaves, tire dust, dust, heavy metals, snow removers, oil contaminants, etc.) accumulated on the upper surface of the road are washed in the rainwater during rainfall and flow into the drain pipe through rainwater discharge devices. Looking at the distribution of, it can be seen that the contaminants are concentrated only in the case of the initial excellent, and the contaminants are rarely included in the case of the sustained excellent after a certain time.

That is, since most of the pollutants such as the upper surface of the road is washed in the initial rainwater and introduced into the rainwater discharge device, the sustained rainwater flowing into the rainwater discharge device thereafter contains little contaminants.

By the way, the conventional rainwater discharge and purification device has a configuration that does not take into account these characteristics of rainwater, it has a problem that it is not efficient.

In other words, all rainwater was uniformly passed through the structure of the purification filter and flowed into the drain pipe without distinguishing the initial rainwater and the sustained rainwater. In case of heavy rain such as rainy season, the rainwater discharge and purification device is It will not endure the overload, so that the sewage backflow will occur.

In addition, in order to prevent such an overload phenomenon, when a contaminant is removed by precipitation, contaminants that are dissolved in rainwater and do not precipitate are discharged without being filtered out. In order to purify the water, the problems such as artificial wetland, vegetation filtration, etc., which occupy a large area of land, must be applied.

In addition, in the conventional purifier using a filtering method, a filter clogging occurs due to contaminants of particulate matter that are not removed even by precipitation, and thus there is a problem that smooth drainage performance is not exhibited.

The present invention was derived to solve the above problems, while intensively removing the pollutants related to rainwater by the double purification method of the precipitation function and the filtering function, intensively only the initial excellent water containing many pollutants It is an object of the present invention to provide a stormwater purification structure that can be discharged as it is, and the continuous rainwater containing little contaminants can be discharged as it is to prevent overload during discharge of rainwater from heavy rains.

In order to solve the above problems, the present invention is an outer module 100 formed therein receiving space; Rainwater inlet pipe 110 coupled to one side of the outer module 100; An inner module 200 formed inside the receiving space, a filtering network 210 formed on the side wall, and installed inside the outer module 100; An initial excellent outflow pipe 220 extending downward from the inside of the inner module 200; As the upper side of the inner module 200, it presents an excellent purification structure comprising a; continuous continuous outflow pipe 120 coupled to the other side of the outer module (100).

The inlet of the initial excellent outlet pipe 220 is preferably formed on the upper side than the bottom of the inner module 200.

The filter net 210 is formed in the lower region of the side wall of the inner module 200, the inlet of the initial excellent outlet pipe 220 is preferably formed above the filter net 210.

It is preferable that the filtration filter 230 is installed at the inlet of the initial excellent outlet pipe 220.

As the upper side of the inner module 200, a diaphragm 130 is installed on the upper portion of the outer module 100, the continuous excellent outflow hole 131 is formed in the diaphragm 130, the continuous excellent outflow pipe ( 120 is preferably coupled to the upper side of the diaphragm 130.

It is preferable that the cleaning tool 132 is formed in the diaphragm 130 to be opened and closed.

The initial excellent outflow pipe 220 and the sustained excellent outflow pipe 120 is preferably coupled to the purified water outlet pipe 300 in common.

The present invention faithfully performs the removal of contaminants related to rainwater by the double purification method of the precipitation function and the filtering function, while intensively purifying only the initial excellent water containing many contaminants and the sustained excellent water containing little contaminants. It provides a stormwater purification structure that can be discharged as it is so as to prevent overload during the discharge of rainwater from heavy rains.

Figure 1 below shows an embodiment of the storm water purifying structure according to the present invention,
1 is a state diagram used in the first embodiment.
2 is a cross-sectional view of the first embodiment.
3 is a sectional view of a second embodiment;
4 is a sectional view of a third embodiment.
5 is a plan view of the diaphragm.

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

As shown in FIG. 1, the rainwater purification structure according to the present invention basically includes an outer module 100 having an accommodation space therein; Rainwater inlet pipe 110 coupled to one side of the external module 100; An inner module 200 formed inside the receiving space, a filtering network 210 formed on the side wall, and installed inside the outer module 100; An initial excellent outflow pipe 220 extending downward from the inside of the inner module 200; As the upper side of the inner module 200, the sustained excellent outflow pipe 120 coupled to the other side of the outer module 100; is configured to include.

In this case, the initial excellent flow rate having a low flow rate and flow rate flowing through the upper portion of the road 10, etc., is introduced into the external module 100 through the grating 20 and the rainwater inlet pipe 110, and the filtering network 210 is opened. After being filtered through the inner module 200, it flows out through the initial excellent outlet pipe 220 (Fig. 2) (solid arrow).

The contaminants filtered by the filtering network 210 are deposited on the bottom surface of the outer module 100, which is outside of the inner module 200.

Sustained rainfall introduced into the external module 100 through the rainwater inlet pipe 110 overflows to the upper side of the inner module 200 and flows out through the sustained rainwater outlet pipe 120 (FIG. 2) (dashed arrow).

Because of this, the initial excellent water containing a lot of pollutants are purified while passing through the filter network 210 is discharged through the initial excellent outflow pipe 220, the sustained rain that contains little contaminants is bypassed by the above overflow It is discharged through the continuous excellent outflow pipe (120).

Therefore, intensive purification of initial rainwater containing many pollutants and continuous rainwater containing little pollutants can be discharged as it is. There is an effect.

The inlet of the initial excellent outflow pipe 220 may be formed on the bottom surface of the inner module 200, but if formed above the bottom surface, the initial excellent outflow pipe 220 introduced through the filtering network 210 is the initial excellent outflow pipe 220 Because of the upward flow back to the inlet of (), it is added that the contaminants that were included in the initial rainwater is purified again by precipitation on the bottom of the inner module 200 (Fig. 3).

Further, the filtering net 210 is formed only in the lower region of the side wall of the inner module 200, the inlet of the initial excellent outlet pipe 220 takes the configuration formed above the filtering net 210, through the filtering net 210 It is more preferable in that all the initial rainwater introduced takes the upward countercurrent filtration method described above (FIG. 3).

Here, when the filtration filter 230 is installed at the inlet of the initial excellent outlet pipe 220, it is preferable in that it can take the double filtration structure of the filter network 210 and the filtration filter 230 described above (Fig. 3). ).

In this case, the filter network 210 can firstly filter a large volume of contaminants and the like, and the filter filter 230 can filter fine contaminants such as turbidity, salt, nitrogen, phosphorus, heavy metals, etc. secondly. As a result, the structure of efficient filtering can effectively prevent the occurrence of overload due to filter clogging.

That is, the filtering network 210 serves to prevent the overload of the filtration filter 230 in advance by removing contaminants having a large volume in advance.

In order to clarify the distinction between the initial excellent and the sustained excellent, as the upper side of the inner module 200, the diaphragm 130 is installed on the upper portion of the outer module 100, the diaphragm 130, the continuous excellent outflow hole 131 It is formed, it is preferable that the sustained excellent outflow pipe 120 has a configuration coupled to the upper side of the diaphragm 130 (Fig. 4).

In this case, the sustained rainwater introduced through the rainwater inlet pipe 110 flows upward through the diaphragm 130 through the continuous rainwater outlet 131, and then opens the upper surface of the diaphragm 130 regardless of the internal module 200. Accordingly, the discharged to the sustained excellent outflow pipe 120, it is possible to achieve a more efficient bypass structure of the sustained excellent.

In addition, since the initial excellent water introduced into the internal module 200 is prevented further upward flow by the diaphragm 130, the continuous excellent outflow pipe 120 without the initial rain requiring filtering by the filtration filter 230 is purified. It can prevent the discharge through.

In order to facilitate the cleaning of the outer module 100 and the inner module 200 for maintenance, it is preferable to take a configuration in which the cleaning opening 132 is formed in the diaphragm 130 so as to be open and closed (FIGS. 4 and 5). .

In addition, the upper portion of the external module 100 may take a normally open structure, or may take a closed structure in which a maintenance tool 101 for maintenance is formed.

The rainwater discharged through the initial excellent outflow pipe 220 is purified by the filtering network 210 and the filter 230, and the rainwater discharged through the continuous rainwater discharge pipe 120 does not need purification, so these outflows Rainwater discharged through the pipe (120,220) is preferably to be discharged through one of the purified water outflow pipe (300) in common.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

100: external module 110: rainwater inlet pipe
120: continuous excellent outflow pipe 130: diaphragm
131: excellent continuous discharge hole 132: cleaning equipment
200: internal module 210: filter network
220: initial excellent outflow pipe 230: filtration filter

Claims (7)

An external module having an accommodation space formed therein;
Rainwater inlet pipe 110 coupled to one side of the outer module 100;
An inner module 200 formed inside the receiving space, a filtering network 210 formed on the side wall, and installed inside the outer module 100;
An initial excellent outflow pipe 220 extending downward from the inside of the inner module 200;
As the upper side of the inner module 200, the continuous excellent outflow pipe 120 coupled to the other side of the outer module 100;
Storm water purification structure containing. The method of claim 1,
The inlet of the initial excellent outlet pipe 220 is excellent water purification structure, characterized in that formed on the upper side than the bottom of the inner module (200). The method of claim 2,
The filter net 210 is formed in the lower region of the side wall of the inner module 200, the excellent inlet structure of the excellent excellent outlet pipe 220, characterized in that formed on the upper side than the filter net 210. The method of claim 3,
Water purification structure, characterized in that the filtration filter 230 is installed in the inlet of the initial excellent outlet pipe 220. The method of claim 1,
As the upper side of the inner module 200, the diaphragm 130 is installed on the upper portion of the outer module 100,
The partition 130 has a sustained excellent outflow hole 131,
The excellent drainage pipe 120 is characterized in that the superior purification structure, characterized in that coupled to the upper side of the diaphragm (130). The method of claim 2,
The cleaning device 132, characterized in that the cleaning device 132 is formed to be opened and closed on the diaphragm 130. The method of claim 1,
The excellent excellent discharge structure, characterized in that the initial excellent outflow pipe 220 and the continuous excellent outflow pipe 120 is commonly coupled to the purified water outflow pipe (300).

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