KR101760856B1 - Treatment apparatus of first rainwater-spilled water - Google Patents

Abstract

More particularly, the present invention relates to an apparatus for efficiently removing foreign matter contained in an initial rainwater, and a method of removing foreign matter contained in an initial rainwater by rotating the screw using a stagnant water, And to an initial excellent non-point pollution source abatement device which can be used even in a place where there is no electric power.
The present invention is characterized by comprising: a main body; A storage tank which is partitioned by a partition wall inside the main body and which is cleaned by sedimentation of foreign matter while the initial storages are introduced and stored and a purifying filter including a treatment tank which is filtered while passing through the filter medium, part; An exhaust pipe connected to the main body and flowing through the purifying filtration section and flowing through the cleaned and filtered initial storages, and a stagnant water pipe installed in the purifying and filtering section and passing through the stagnant water box A drainage section including a drainage pump for discharging the waste water to an effluent pipe rather than a sewage pipe; A flow sensor unit installed on the main body and detecting whether the water sensor is excellent; A control unit for applying a control signal to the drain pump in accordance with a detection signal input from the flow sensor unit; And a photovoltaic portion including a solar panel that generates sunlight to supply power to the control unit.

Description

[0001] The present invention relates to an apparatus for reducing initial early rainwater-spilled water,

More particularly, the present invention relates to an apparatus for reducing initial non-point pollution source, and more particularly, to an apparatus for reducing initial non-point pollution source by efficiently recovering non-point pollution source by flowing back stagnant water through stagnant water remaining in the initial storm, And more particularly to an initial excellent non-point pollution source abatement device which can be used even in the absence of electric power.

In general, non-point pollution sources in water pollution sources occur in a wide range of areas, such as farmland, grassland, forest, construction site, waste disposal site, and roads.

These non-point pollutants are usually deposited, and rainwater flows along with rainwater to pollute the water resources. Therefore, various water treatment facilities such as artificial wetlands, vegetation filtration basins, ponds, filtration tanks, .

For example, ecologically sound man-made wetlands have been created while eliminating non-point pollution sources.

However, in water treatment facilities such as artificial wetlands, non-point pollution sources are washed by rainwater, and water is purified from the inflowed water through natural environmental processes such as underground penetration and evaporation, and then drained indiscriminately. do.

Therefore, continuous drainage of water in the rainy season causes not only a flood but also a purification function because the water is drained without sufficient purification process.

Accordingly, mechanical equipment such as a water gate and a pump, such as a beam, is constructed so that the water introduced into the recent rainy season can be artificially controlled and drained, and at the same time, an electric facility is constructed to control water drainage .

However, the installation of the gates is costly and time-consuming, and the installation of the gates can interfere with the flow of the surrounding waterways.

It is difficult to check the flow rate of water from the water treatment facility even when the mechanical equipment such as a pump is constructed, and it is difficult to control the facility, and it is difficult to adjust the drainage timing appropriately from the artificial control of the drainage equipment.

In order to solve this problem, recently, a technology has been developed to control water to be automatically drained after a certain period of time since the start of the rainfall. That is, a drainage system is provided with a sensor such as a rainfall gauge capable of detecting rainfall, a signal is sensed, and water is drained by operating the drainage facility automatically after a predetermined set time after the rainfall signal is input.

However, in the rainy season where frequent rainfall occurs, even if the drainage system is operated after a certain time from the start of the rainfall, even if the water is drained, the rainfall will last for a long time. Therefore, there is a great possibility that flood will occur. There is a problem that the on-going drainage system continues to operate due to the initial detection of the storm, so that the flood can be further deteriorated, and there is a problem that the foreign matter contained in the initial storm is still sufficiently cleaned.

Accordingly, it is a time for desirably researching technology development that can remove not only the foreign substances contained in the initial rainwater efficiently, but also use it without power.

Korean Registered Patent Publication No. 10-1556183, 2015.09.22. Korean Registered Patent No. 10-1484030, Jan. 13, 2013.

Disclosure of the Invention The present invention has been made in order to solve the above problems, and it is an object of the present invention to efficiently remove foreign matters contained in the initial rainwater, to easily discharge the water remaining in the initial rainwater after the end of rainfall, And it is an object of the present invention to provide an initial excellent non-point pollution source abatement device capable of using residual stagnant water to an existing high-pressure pipe rather than a sewage pipe.

In order to accomplish the above object, there is provided an initial fine non-point pollution source reduction apparatus according to the present invention, comprising: a body having an inlet formed at one side and an outlet formed at the other side; A reservoir communicated with the inlet and purified by sedimentation of foreign matter while flowing into the reservoir, and an initial storm that flows through the reservoir and flows into the reservoir, A filtration unit having a filtration space in which a filtration space is formed separately so as to be filtered; An exhaust pipe connected to the main body and passing through the purifying and filtering unit to purify and filter the initial ozone; and a purifier unit installed in the purifying and filtering unit, A drainage unit including a drainage pump for discharging the waste water to the discharge pipe, A flow sensor unit installed in the main body and detecting presence or absence of excellent flow; A control unit for applying a control signal to the drain pump in accordance with a detection signal input from the flow sensor unit; And a photovoltaic portion including a solar panel for generating solar light to supply power to the control portion, wherein a mesh-type screening network is installed inside the inlet to prevent foreign matter contained in the initial rainwater from being caught, The lower end of the upper outflow plate is spaced apart from the lower outflow plate by a predetermined distance. The lower end of the upper outflow plate is connected to the lower outflow plate, A connection bar in the form of a rod connecting the outlet plate and the lower outlet plate; a filter box surrounding the connection bar and filled with a plurality of high-elastic fiber filter media; and a pair of auxiliary connection bars installed on both sides of the connection bar Wherein a plurality of screws are provided along the longitudinal direction of the auxiliary connection bar, The high-elastic fibrous filter media are collided with each other to back up contaminants contained in the initial clearance, and the concrete outlet plate is provided with an automatic opening / closing device capable of opening and closing the hole so that the filtration space and the storage tank are communicated with each other, The automatic opening / closing apparatus is configured to prevent the water remaining in the filtration space from flowing into the treatment tank after the foreign material contained in the initial rainwater is backwashed during the rainfall and to prevent the water trapped in the filtration space And the hole is opened so as to come out.

Preferably, the upper portion of the filter medium is connected to a buoy ascending and descending according to the level of the initial storm that has flowed into the treatment tank. At the time of rainfall, the buoy is raised to compress the filter medium, Is relaxed.

Preferably, when the completion of the rainfall is detected by the flow sensor unit, the control unit operates the drain pump to discharge the stagnant water remaining in the treatment tank to the bypass pipe rather than the sewage pipe. do.

Preferably, the backwash water pipe for injecting backwash water and washing the filter material is installed in the treatment tank.

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According to an aspect of the present invention, there is provided an initial excellent non-point pollution source reduction apparatus capable of effectively removing foreign matter and contaminants contained in initial rainwater, And it is effective to reduce the backwashed stagnant water to the stagnant water pipe through the stagnant water receiving box and the stagnant water pipe to the stagnant water pipe.

1 is an installation state diagram according to a preferred embodiment of the present invention;
2 is a plan view in accordance with a preferred embodiment of the present invention.
3 is a sectional view taken along line AA 'of FIG. 2;
4 is a sectional view taken along the line BB 'in Fig. 2;
5 is a plan view of a filter medium according to a preferred embodiment of the present invention.
6 is a sectional view taken along the line AA 'of FIG. 5;
7 is a cross-sectional view taken along line BB 'of FIG. 5;
8 is a view showing a state of the filter media by rainfall according to a preferred embodiment of the present invention.

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

1 is an installation state diagram according to a preferred embodiment of the present invention. As shown in FIG. 1, the initial excellent non-point pollution source reduction apparatus of the present invention is installed in various forms in a road or a complex.

FIG. 2 is a plan view according to a preferred embodiment of the present invention, FIG. 3 is a sectional view taken along the line A-A 'of FIG. 2, and FIG. 4 is a sectional view taken along the line B-B' of FIG. 2 to 4, the initial non-point pollution source abatement apparatus of the present invention includes a main body 100, a purifying filtration unit 200, a drainage unit 300, a flow sensor unit (not shown), a control unit 400, And a photovoltaic portion 500.

The main body 100 of the present invention is constituted by one frame so that the purifying filtration unit 200 is accommodated.

That is, the main body 100 forms an outer tube for receiving the purifying filtration unit 200 according to the present invention. One end of the main body 100 is connected to an inlet port 110 through which the initial storm flows from the outside, And the discharge port 122 of the through hole is connected to the other side of the main body 100 so that the discharge flow path 120 through which the cleaned and filtered initial clearance flows is connected to the purifying and filtering part 200 of the main body 100 .

The inlet 112 communicates with the storage tank 210 inside the main body 100 and the discharge port 122 communicates with the processing tank 220 inside the main body 100. In this case, It works to help.

It is preferable that the inflow channel 110 and the discharge channel 120 are installed to be connected to the excellent channel 310 provided outside the main body 100. [

The purifying filtration unit 200 of the present invention is partitioned by a partition wall 200a inside the main body 100 and includes a storage tank 210 for purifying the foreign material by precipitation of foreign matter while flowing the initial storages therein, 210, and flows through the filter media 240 to be filtered.

The purifying filtration unit 200 is provided for purifying and filtering the initial storm that flows along with the nonpoint source at the time of rainfall, and is installed so that the initial storm can be introduced and discharged so as to be purified and filtered from the nonpoint source.

The initial rainwater that has been contaminated from the outside flows along the inflow channel 110 and falls into the storage tank 210 through the inlet 112 of the main body 100. That is, when the initial rainwater flows into the storage tank 210, The water level gradually increases from the bottom surface of the water tank 210.

At this time, the storage tank 210 and the treatment tank 220 are divided by the partition 200a protruding from the bottom surface of the purifying filtration unit 200. When the initial storages first flow into the storage tank 210, And the foreign matter contained in the contaminated initial rainwater is deposited, so that the water is primarily purified.

A mesh-shaped sieve 112a may be provided inside the inlet 112 of the storage tank 210. The initial sludge 112a flowing into the storage tank 210 through the inlet passage 110 through the sieve 112a, It is possible to preferentially filter relatively large foreign matter (e.g., stones) contained in the storm.

In addition, a flow valve 112b, which can sense and control the initial storm that flows into the reservoir 210, is provided on the inner surface of the reservoir 210 below the sieve 112a, Can be installed. Such a flow valve 112b also acts to supply or block the entire power source.

The initial storm that has been purified in the storage tank 210 is transferred to the treatment tank 220 through the partition 200a. The initial storm that flows into the bottom of the treatment tank 220 after being purified is deposited, The foreign matter is removed. If the inflow of the initial storm continues, the initial height is introduced into the filtration space 230 formed in the treatment tank 220 while the level of the treatment tank 220 is increased. It is preferable that a backwash water pipe 260 for washing the filter media 240 by injecting backwash water into the treatment tank 220 is provided in communication with the outlet port 122 formed in the treatment tank 220, (Not shown).

The lower part of the filtration space 230 has an open box shape. A concrete discharge plate 231 having a hollow center frame (for example, a circular or rectangular shape) at the bottom of the filtration space 230 is formed in the filtration space 230 As shown in FIG.

That is, a circular or square hole 232a through which the filtration space 230 and the treatment tank 220 are communicated is punched through the concrete outlet plate 231, and an automatic opening and closing device 232 is installed in the hole 232a, Thereby preventing the non-point source of the tank 220 from flowing out into the filtration space 230.

The automatic opening and closing device 232 closes the hole 232a when the water pressure between the filtration space 230 and the treatment tank 220 becomes equal to the amount of the water remaining in the filtration space 230 after the congestion, The air filter 240 may be installed to cover the upper surface of the concrete outlet plate 231 after the air hole 232a is opened to block the opening 232a.

On the contrary, after the rain is over, the hole 232a may be opened so that the water trapped in the filtration space 230 is backwashed to the treatment tank 220,

In particular, the description of the filter medium 240 will be described in more detail.

FIG. 5 is a plan view of the filter medium 240 according to a preferred embodiment of the present invention, FIG. 6 is a cross-sectional view taken along line A-A 'of FIG. 5, and FIG. 7 is a cross-sectional view taken along the line B-B' of FIG. As shown in FIGS. 5 to 7, it can be seen that the filter medium 240 is installed in the filtration space 230 separately provided inside the treatment tank 220 to remove contaminants contained in the initial rainwater.

The filter media 240 is installed on the upper portion of the hollow concrete form plate 231 provided inside the filtration space 230. The filter media 241 and the upper flow- A connecting bar 243 in the form of a rod connecting the upper outlet plate 241 and the lower outlet plate 242 and a plurality of high elastic fiber filter media 243 surrounding the connecting bar 243, And a filter media box 244 that is filled with the filter 244a, and is installed on the upper surface of the concrete outlet plate 231.

In other words, the filter media box 244 has a ball-shaped, highly elastic fiber filter material 244a densely arranged in a plurality of densities. When the gap between the high-elasticity fiber filter media 244a is small, foreign matter is efficiently filtered, When the gap between the fibrous filter media 244a is large, only a relatively large foreign material is filtered, so it is preferable to make the gap between the high-elastic fiber filter media 244a small. This is because the size of the pores can be adjusted to be different according to how much the high elastic fiber material 244a is accommodated in the filter box 244.

An important point of the filter media 240 is that a pair of auxiliary connecting bars 243a may be provided in the interior of the filter box 244 or on both sides of the connecting bar 243, And a plurality of screws 244b are installed along the longitudinal direction. That is, as the screw 244b is installed in the filter box 244 and rotated, the high-elasticity fiber filter media 244a collide with each other more uniformly and efficiently, and the foreign matter contained in the initial filter is backwashed.

At this time, the screw 244b can be rotated for 5 minutes. Due to the rotation of the screw 244b, the high-elasticity fiber filter media 244a collide with each other, .

A buoy 245 may be connected to the upper portion of the filter box 244 by a connecting bar 243 so that the buoy 245 connected to the upper portion of the filter box 244 during the rainfall rises, When the flow sensor unit (not shown) senses the end of rainfall, the drain pump 320 is operated by the control unit 400 so that the initial rainwater remaining in the treatment tank 220 is taken out to the stagnant water discharge pipe 250, The water level in the treatment tank 220 is lowered by 0.1 m to descend the buoy to form a space in the filter box 244.

Thereafter, the backwash is started by the backwash pump 261 provided in the purifying and filtering unit 200, and the screw 244b is rotated to efficiently collide with the high-elasticity fiber filter media 244a in the filter media box 244, Pollutants will fall off. Next, when the control unit 400 controls the drain pump 320 to discharge the stagnant water through the stagnant water discharge pipe 250, the buoy 245 descends.

However, the stagnant water flowing out to the stagnant water discharge pipe 250 flows to the stagnant water receiving box 251 provided outside the main body 100.

8 is a state diagram of the filter medium 240 due to rainfall according to a preferred embodiment of the present invention. 8 (a) shows the state of the filter medium 240 during the rainfall. As the water level of the treatment tank 220 increases during the rainfall, the buoy 245 connected to the filter medium 240 rises, 8B shows the state of the filter medium 240 at the end of the rainfall and when the rainwater is terminated, the buoy 245 connected to the filter medium 240 as the water level of the treatment tank 220 is lowered, And the filter box 244 is relaxed.

In addition, the storage tank 210 and the treatment tank 220 may be provided with a water level sensor 200b capable of sensing the level of the initial stormwater.

The drainage unit 300 of the present invention includes an exhaust pipe 310 connected to the main body 100 and flowing through the purifying and filtering unit 200 and purified and filtered, A drainage pump 320 installed in the storage tank 210 and the treatment tank 220 for discharging the remaining water from the storage tank 210 and the treatment tank 220 through a stagnant con- tainer box 251 provided outside, .

The introduction pipe 310 is installed on the outside of the main body 100 so that the inflow channel 110 and the discharge channel 120 are connected to each other. A phenomenon in which the water does not flow to the filtration unit 200 but flows directly to the gutter path 310 and a phenomenon in which the phenomenon of by-pass occurs immediately after passing through the main body 100 It is preferable that the supporting wall 311 is formed to protrude.

The drain pump 320 is installed in the purge filtration unit 200 and is operated by application of a control unit 400 that receives a sensing signal from the flow sensor unit. The control unit 400 stops the operation of the drain pump 320. When the control unit 400 receives the control signal to operate the drain pump 320, the control unit 400 operates.

The flow sensor unit of the present invention is installed in the main body 100 to detect whether or not it is excellent.

In other words, the flow sensor unit may be installed outside the main body 100 (for example, on the ground) to detect the presence or absence of rain outside the main body 100.

In other words, the flow sensor unit detects rainfall using a rainfall gauge or a rainfall sensor, and the flow sensor unit senses the rainfall and then transmits a detection signal to the controller 400. [

The control unit 400 of the present invention is configured to apply a control signal to the drain pump 320 according to a sensing signal input from the flow sensor unit.

That is, the control unit 400 receives a sensing signal for sensing the start and end of the rainfall through the flow sensor unit, and controls the drain pump 320 to operate the drain pump 320 after a predetermined time elapses from the sensing signal .

The flow valve 112b is operated when the initial storm is introduced into the purifying filtration unit 200 at the time of rainfall and the power supply is supplied while the flow valve 112b is stopped at the end of the rainfall so that the drain pump 320 is operated. And the stagnant water is discharged through the water discharge pipe 250. At this time, the control unit 400 operates the drain pump 320 to lower the water level of the treatment tank 220 by 0.1 m to lower the buoy 245 to form a space in the filter box 244, It is preferable to operate the drain pump 320 to discharge the congestion water through the congestion receiving box 251 to the drain pipe rather than the drain pipe.

In other words, the power supply is normally shut off and the flow valve 112b is actuated during the rainfall, so that the power supply is prepared. When the flow valve 112b is stopped at the end of the rainfall, ), The stagnant water is discharged, and when the water level is lowered, the power is shut off to maintain the normal state.

Additionally, in order to eliminate heat loss to the outside and prevent the inflow of heat, the control part 400 is preferably coated with a heat insulating material.

The photovoltaic portion 500 of the present invention includes a solar panel 510 that generates sunlight to supply power to the controller 400. [

Prior to this, the photovoltaic part 500 of the present invention is desirably installed in order to solve the problem, in order to supply power to the roads where it is difficult to install a separate electric power facility.

That is, the solar panel 510 of the photovoltaic part 500 supplies power by generating electricity using sunlight, and may be installed singly or in a plurality depending on the size of the purifying filter part 200.

The photovoltaic portion 500 may further include a rechargeable battery (not shown) that can charge the electricity generated by the solar panel 510 and supply the power to the controller 400. In particular, it is preferable that the rechargeable battery is connected to supply power to the drain pump 320 or the backwash pump 261 while supplying power to the control unit 400.

Accordingly, since the power can be supplied through the photovoltaic unit 500 even if there is no additional power, the construction cost can be reduced, the drainage can be efficiently performed by supplying the power by the power generated by the natural power, It is possible to provide an efficient installation even in a region where supply is difficult.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention may be embodied otherwise without departing from the spirit and scope of the invention.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to illustrate them, and the scope of the technical idea of the present invention is not limited by these embodiments.

The scope of protection of the present invention should be construed according to the claims, and all technical ideas within the scope of the claims should be construed as being included in the scope of the present invention.

100: main body 110: inflow channel
112: inlet 112a:
112b: Flow valve 120:
122: exhaust port 200: purifying filter section
200a: partition wall 200b: water level sensor
210: storage tank 220:
230: Filtration space 231: Concrete spill plate
232: automatic opening and closing device 232a: hole
240: filter media 241: upper spill plate
242: Lower spillway 243: Connection bar
243a: auxiliary connection bar 244: filter box
244a: Highly elastic fiber material 244b: Screw
245: Buoy 250: Stagnation water discharge pipe
251: Congestion Award Box 260: Backwash water pipe
261: backwash pump 300: drainage part
310: Excellent Pavilion Road 311:
320: drain pump 400: control unit
500: Solar part 510: Solar plate

Claims (5)

A body having an inlet formed on one side and an outlet formed on the other side;
A reservoir communicated with the inlet and purified by sedimentation of foreign matter while flowing into the reservoir, and an initial storm that flows through the reservoir and flows into the reservoir, A filtration unit having a filtration space in which a filtration space is formed separately so as to be filtered;
An exhaust pipe connected to the main body and passing through the purifying and filtering unit to purify and filter the initial ozone; and a purifier unit installed in the purifying and filtering unit, A drainage unit including a drainage pump for discharging the waste water to the discharge pipe,
A flow sensor unit installed in the main body and detecting presence or absence of excellent flow;
A control unit for applying a control signal to the drain pump in accordance with a detection signal input from the flow sensor unit; And
And a photovoltaic portion including a solar panel that generates sunlight to supply power to the control portion,
A mesh-type sieve mesh is installed inside the inlet so as to catch foreign matter contained in the initial mesh,
Wherein a hollow frame-shaped concrete drainage plate is installed at a lower portion of the filtration space,
The filter material is installed on the concrete spill plate,
A connection bar in the form of a rod connecting the upper and the lower outflow plates to each other; a plurality of high elastic fibers surrounding the connection bars; A filter box filled with filter media and a pair of auxiliary connection bars installed on both sides of the connection bar,
A plurality of screws are installed along the longitudinal direction of the auxiliary connection bar so that the high elastic fiber filter media collide with the rotation of the screw,
Wherein the concrete outlet plate is provided with an automatic opening / closing device capable of opening and closing the hole,
Wherein the automatic opening /
The hole is closed so that water remaining in the filtration space can not flow into the treatment tank after the foreign matter contained in the initial rainwater is backwashed,
Wherein the hole is opened so that the water trapped in the filtration space is lowered to the treatment tank at the end of rainfall. The method according to claim 1,
On top of the filter material,
A buoy ascending and descending according to a level of an initial storm introduced into the treatment tank is connected,
During rainfall, the buoy is elevated to compress the filter media,
Wherein the buoy is lowered at the end of rainfall to relax the filter medium. The method according to claim 1,
Wherein,
Wherein when the completion of the rainfall is detected by the flow sensor unit, the drainage pump is operated to discharge the stagnant water remaining in the treatment tank to the canal pipe rather than the sewage pipe. . The method according to claim 1,
In the treatment tank,
And a backwash water line for washing the filter material is connected to the backwash water pipe. delete

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