KR101415941B1 - apparatus for treating non-point source pollution - Google Patents

Abstract

The present invention relates to an apparatus for treating non-point source pollutant that has a novel structure capable of increasing the filtering efficiency per unit time of an adsorbing filtering material. The apparatus for treating non-point source pollutant according to the present invention has the adsorbing filtering material (40) with a circumference surface arranged to be separated from the inner wall of a filtering tank (14), wherein the adsorbing filtering material (40) includes an inner drainage pipe (50) having a plurality of discharge holes (51) formed on a circumference surface, and rainwater in the filtering tank (14) is discharged into a storage tank (15) through the inner drainage pipe (50) and an extended drainage pipe (60) after passing the circumference surface of the adsorbing filtering material (40). Therefore, the filtering efficiency per unit time of the adsorbing filtering material (40) can be increased without increasing the area of the filtering tank (14) owing to the expanded surface area of the adsorbing filtering material (40) compared with a traditional apparatus for treating non-point source pollutant, wherein rainwater is discharged after passing the upper surface of the adsorbing filtering material (40).

Description

An apparatus for treating non-point source pollution,

The present invention relates to a novel non-point pollutant treatment apparatus capable of improving filtration efficiency per unit time of an adsorbing filter medium.

Generally, the pollutants are point pollutants, such as domestic sewage, industrial wastewater, or livestock wastewater, which are discharged from point sources with a clear and defined point of discharge, and point pollutants such as agricultural land, It is divided into non-point pollutants emitted from pollution sources.

FIG. 1 shows an example of a non-point pollutant treatment apparatus for treating rainwater, which is the most representative non-point pollutant, and includes a case 10 in which an inlet 11 and a drain 12 are formed on the front and rear surfaces, First and second partition walls 20 and 30 provided in the interior of the case 10 for partitioning the inner space of the case 10 into a settling tank 13, a filtration tank 14 and a storage tank 15; And an adsorbing filter medium 40 provided inside.

At this time, a first drain hole 21 is formed in the first partition 20 so that the rainwater in the settling tank 13 flows into the filtration tank 14, and the second partition 30 is provided with a A second drain hole 31 for introducing the stormwater into the storage tank 15 is formed and the adsorbing filter medium 40 is arranged to block the second drain hole 31 so that the rainwater inside the filtration tank 14 is adsorbed And then flows into the storage tank 15 after passing through the filter medium 40.

Therefore, after the storm water passes through the sedimentation tank 13, the sediment and sediment suspended in the stormwater and the oil are removed and then supplied to the filtration tank 14 through the first drainage hole 21, After passing through the adsorbing filter medium 40, the fine particles are removed from the fine fine contaminants or contaminants contained in the fine particles and then moved to the storage vessel 15 through the second drainage hole 31, And is drained through the drain port (12).

The structure of such a non-point pollutant disposal apparatus is described in detail in a number of prior documents including Patent No. 10-1349741, and a detailed description thereof will be omitted.

By the way. The apparatus for treating non-point pollutants is characterized in that the adsorbing filter medium 40 is disposed on the inner bottom surface of the filtration tank 14 so as to cover the second drain hole 31 of the second partition wall 30 so that the adsorbing filter medium 40 And then supplied to the storage tank 15 through the second drain hole 31. [

Accordingly, it is impossible to enlarge the filtration area through which the rainwater passes from the adsorbing filter medium 40 to be larger than the bottom area of the filtration tank 14, thereby making it difficult to improve the filtration efficiency of the adsorbing filter medium 40.

In order to solve such a problem, a method of increasing the area of the filtration tank 14 may be proposed. However, in this case, the size of the entire non-point pollutant processing apparatus is increased.

Therefore, there is a need for a new method to solve such a problem.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a non-point pollutant treatment apparatus having a novel structure capable of improving the filtration efficiency of the adsorbent filter medium.

In order to achieve the above object, according to the present invention, there is provided a refrigerator comprising: a case having an inlet 11 and a drain 12 formed on the front and rear sides thereof; The first and second partition walls 20 and 30 partitioned by the settling tank 13 and the filtration tank 14 and the storage tank 15 and the adsorbing filter medium 40 provided in the filtration tank 14, Wherein the adsorbing filter medium has a circumferential surface spaced from an inner surface of the case and the first and second partition walls forming the filtration tank, An inner drain pipe 50 having a plurality of exhaust holes 51 formed in a circumferential surface thereof and extending in the vertical direction within the adsorbing filter medium 40 and a water pipe 50 extending laterally from a lower end of the inner water pipe 50 And an extended drain pipe (60) passing through the second partition (30) and extending into the interior of the storage tank (15) The boiling point contaminants processing apparatus is provided.

According to another aspect of the present invention, there is provided an apparatus for treating non-point pollutants, wherein an upper end of the inner drain pipe (50) extends upward from an upper surface of the adsorbing filter medium (40) and an upper end thereof is opened.

According to another aspect of the present invention, a height of the auxiliary partition wall 70 is set to be lower than that of the first partition wall 20 so as to be positioned in front of the adsorbing filter medium 40 in the filtration tank 14, And a water separation filter (80) provided on the upper side of the auxiliary partition wall (70).

According to another aspect of the present invention, there is provided a method for controlling the pH of a liquid stored in a storage tank, comprising: a PH sensor 90 provided in the storage tank 15 for sensing the acidity of stormwater stored in the storage tank 15; Further comprising an alarm means (100) for outputting an alarm when the acidity of the stored storm exceeds a preset reference.

According to another aspect of the present invention, there is provided an apparatus for treating non-point pollutants, which further comprises an opening / closing damper (110) provided in the drain hole (12) for opening / closing the drain hole (12).

According to another aspect of the present invention, the opening / closing damper 110 closes the drain hole 12 when the acidity of the storm measured by the PH sensor 90 is out of a preset reference, and is stored in the storage tank 15 Thereby preventing the discharge of the rainwater.

According to another aspect of the present invention, there is further provided a screen (16) provided at an inlet (11) of the case (10) to filter contaminants contained in the storm introduced through the inlet (11) An apparatus for treating non-point pollutants is provided.

In the non-point pollutant treatment apparatus according to the present invention, the adsorbing filter medium (40) has a circumferential surface spaced from an inner wall of the filtration tank (14), and a plurality of discharge holes 51 is formed in the filtration tank 14 so that the rainwater in the filtration tank 14 passes through the peripheral surface of the adsorbing filter medium 40 and flows through the inner drain pipe 50 and the extension drain pipe 60 to the storage tank 15 ).

Therefore, the surface area of the adsorbing filter medium 40 is enlarged as compared with the conventional non-point contaminant treating apparatus in which the storm water is drained after passing through the upper and lower surfaces of the adsorbing filter medium 40, There is an advantage that the filtration efficiency of the adsorbing filter medium 40 can be improved.

1 is a sectional side view showing a conventional non-point pollutant treatment apparatus,
FIG. 2 is a sectional side view showing a non-point pollutant treatment apparatus according to the present invention,
3 is a plan view of a non-point pollutant treatment apparatus according to the present invention,
FIG. 4 is a reference diagram for explaining the operation of the apparatus for treating non-point pollutants according to the present invention,
5 is a side cross-sectional view showing a second embodiment of a non-point pollutant treatment apparatus according to the present invention.

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

2 to 4 show a non-point pollutant treatment apparatus according to the present invention. The apparatus includes a case 10 having an inlet 11 and a drain 12 formed on the front and rear surfaces thereof, First and second partition walls 20 and 30 partitioning the inner space of the case 10 into a settling tank 13, a filtration tank 14 and a storage tank 15; And a filter medium 40.

At this time, a drain hole 22 is formed in the middle part of the first partition 20 so that the rainwater introduced into the precipitation tank 13 flows into the filtration tank 14 through the drain hole 22, High suspended matter substances and oil are removed.

According to the present invention, the adsorbing filter medium 40 is configured such that the circumferential surface thereof is spaced from the inner surface of the case 10 and the first and second partitions 20 and 30 forming the filtration tank 14 And an inner drain pipe 50 in which a plurality of exhaust holes 51 are formed on the circumference of the adsorbing filter medium 40. The inner drain pipe 50 extends laterally to the lower end of the inner drain pipe 50, (60) extending through the storage tank (30) to the inside of the storage tank (15).

In detail, the adsorbing filter medium 40 is formed in a vertically elongated rectangular tube shape and extends upward from the inner bottom surface of the filtration tank 14.

At this time, the adsorbing filter medium 40 is formed by filling zeolite or charcoal-based activated carbon inside the permeable case.

Since the adsorbing filter medium 40 made of zeolite or coal-based activated carbon is made of microporous material, it is capable of adsorbing and removing fine pollutants contained in the fine particles, pollutants such as ammonia nitrogen or various noxious gases .

A filtration filter (52) is provided on the circumferential surface of the inner drain pipe (50) so that the remaining non-point pollutant passing through the adsorbing filter medium (40) can be filtered once more.

4, the inner drain pipe 50 extends upward from the upper surface of the adsorbing filter medium 40, and the upper end of the inner drain pipe 50 opens to the upper side of the filtration tank 14 When the internal water level of the filtration tank 14 is increased, the rainwater in the filtration tank 14 flows directly through the upper end of the internal drain pipe 50 without passing through the adsorbing filter medium 40.

Therefore, the rainwater flowing into the filtration tank 14 flows into the inner drain pipe 50 through the entire circumferential surface of the adsorbing filter medium 40, and then is discharged to the storage tank 15 through the extended drain pipe 60.

The inlet (11) of the case (10) is provided with a screen (16) for filtering contaminants contained in the storm water flowing through the inlet (11).

The screen (16) is formed in the form of a net having a plurality of through holes. The screen (16) is provided inside the case (10), and the air introduced through the inlet (11) passes through the screen So that the contamination is filtered.

A secondary partition 70 having a height lower than that of the first partition 20 is disposed in front of the adsorbing filter medium 40 in the interior of the filtration tank 14, A water separation filter 80 is provided.

The oil-water separation filter 80 is formed in the form of a filter for adsorbing and removing oil, and the lower end thereof is tightly fixed to the upper end of the auxiliary partition 70.

Therefore, the rainwater flowing into the filtration tank 14 passes through the oil separation filter 80 while passing over the auxiliary partition wall 70, and the oil contained in the rainwater is removed at this time.

The pH sensor 90 is connected to the alarm means 100 and the case 10 is connected to the pH sensor 90. The pH sensor 90 is connected to the pH sensor 90, The opening and closing damper 110 for opening and closing the drain hole 12 is provided in the drain hole 12 of the housing 12.

The PH sensor 90 measures the acidity of the liquid and is widely used, so that detailed description thereof will be omitted.

The alarm means 100 is provided with a speaker and a lightening lamp so as to output an alarm sound and a light signal. When the signal of the PH sensor 90 is received and the acidity of the storm stored in the storage tank 15 reaches a preset reference And outputs an alarm sound and a light signal.

The opening / closing damper 110 uses a manual opening / closing damper for manually opening and closing the drain hole 12 by an operator.

Therefore, the rainwater flowing through the inlet 11 passes through the screen 16 and is collected in the sedimentation tank 13 after the contaminants contained in the rainwater are removed.

The stormwater introduced into the sedimentation tank 13 flows into the filtration tank 14 through the drain hole 22 in a state in which the sediment or sediment suspended solids contained in the stormwater and the oil having a high specific gravity are removed first, After passing through the oil water separating filter 80, oil is further removed, and fine contaminants and contaminants contained in the rainwater are removed while passing through the peripheral surface of the adsorbing filter medium 40.

The rainwater that has passed through the adsorbing filter medium 40 passes through the filtration filter 52 and then flows into the storage tank 15 through the internal water pipe 50 and the extension water pipe 60, And is discharged to the drain port 12 after staying for a predetermined time.

In the non-point pollutant treatment apparatus thus constructed, the adsorbing filter medium 40 is separated from the inner surface of the case 10 and the first and second partitions 20 and 30, the circumferential surface of which forms the filtration tank 14 And an inner drain pipe 50 in which a plurality of exhaust holes 51 are formed on a circumferential surface of the adsorbing filter medium 40 so that the inside of the filter tank 14 is filled with the adsorbing filter medium 40, And then discharged to the storage tank 15 through the inner drain pipe 50 and the extension drain pipe 60. [

Therefore, the surface area of the adsorbing filter medium 40 is enlarged as compared with the conventional non-point contaminant treating apparatus in which the storm water is drained after passing through the upper and lower surfaces of the adsorbing filter medium 40, It is possible to increase the filtration efficiency of the adsorbing filter medium 40 to about 1.8 to 2 times. In addition, it is possible to increase the filtration efficiency of the adsorbing filter medium 40 by improving the environmental design standard of the filtration type apparatus (reference value of sedimentation tank capacity, filtration linear velocity, TSS removal efficiency, etc.) can be satisfied.

Since the upper end of the inner drain pipe 50 extends upward from the upper surface of the adsorbing filter medium 40 and the upper end of the inner drain pipe 50 opens to a greater extent than the throughput of the adsorbing filter medium 40, When the water level of the inside of the filtration tank 14 is increased at the same time as the storm of the internal filtration tank 14 and the exterior of the filtration tank 14, So that the stormwater inside the filtration tank 14 can be quickly discharged to the storage tank 15.

The auxiliary partition 70 has a height lower than that of the first partition 20 and is disposed in front of the adsorbing filter medium 40 in the filtration tank 14, The oil contained in the rainwater flowing into the filtration tank 14 can be removed once again and the excessive amount of excess water can be supplied into the precipitation tank 13, The oil contained in the rainwater can be removed and the oil contained in the rainwater can be minimally discharged to the storage tank 15 when the water flows over the sedimentation tank 13 at a time.

The PH sensor 90 is provided with an alarm means 100. When the acidity of the storm stored in the storage tank 15 deviates from a preset reference, So that the non-point pollutant processing apparatus can be alerted to the manager promptly.

The drain hole 12 is provided with an opening / closing damper 110. When the acidity of the stormwater stored in the storage tank 15 is higher or lower than the reference value, the operator uses the opening / closing damper 110 to open the drain hole 12 By sealing, there is an advantage that it is possible to prevent draining of rainwater whose acidity is out of the standard.

In addition, since the screen 16 provided at the inlet 11 of the case 10 to filter the contaminants contained in the stormwater flowing through the inlet 11 is provided, it is possible to effectively remove contaminants contained in the storm There are advantages.

The first and second partition walls 20 and 30 and the upper end of the oil water separating filter 80 are spaced from the inside of the case 10 in the present embodiment, The two partition walls 20 and 30 and the upper end of the oil water separating filter 80 are in close contact with the inner upper surface of the case 10.

In addition, although the adsorbing filter medium 40 is exemplified as a rectangular tube, the adsorbing filter medium 40 may have a cylindrical shape or various other shapes.

5 shows another embodiment according to the present invention in which the opening / closing damper 110 is composed of an electronic opening / closing damper operated by a control signal, and the opening / closing damper 110 is provided with a control unit 111 .

The control unit 111 receives the signal of the PH sensor 90 and operates the opening / closing damper 110 when the acidity of the rainfall measured by the PH sensor 90 is out of a preset reference, .

Therefore, when the acidity of the stormwater stored in the storage tank 15 is in the normal range, the outlet is opened, the stormwater stored in the storage tank 15 is discharged through the drain hole 12, and a large amount of pollutants or contaminants The opening and closing damper 110 closes the drain port 12 to prevent the stormwater stored in the storage tank 15 from being discharged to the drain port 12 when the acidity of the stormwater stored in the storage tank 15 is excessively high or low. do.

When the acidity of the stormwater stored in the storage tank 15 deviates from a preset reference, the non-point pollutant treatment apparatus configured as described above closes the drain hole 12 to prevent the stormwater stored in the storage tank 15 from being discharged to the outside, So that the storm that has flowed into the inlet 11 of the case 10 is stored in the case 10.

Accordingly, it is possible to prevent the pollutants or contaminants contained in the rainwater from being diffused by preventing the pollutants or the contaminated contaminants from being discharged to the outside.

The opening and closing damper 110 is connected to the alarm means 100 so that the operation of the alarm means 100 can be controlled by the operation of the alarm means 100. In the present embodiment, It may be configured to seal the drain hole 12 at a time.

10. Case 20. First partition
30. Second bulkhead 40. Adsorption filter
50. Internal drain pipe 60. Extended drain pipe
70. A secondary bulkhead 80. An oil separation filter
90. PH sensor 100. Alarm means

Claims (7)

A case 10 having an inlet 11 and a drain 12 on the front and rear surfaces, respectively,
First and second partition walls 20 and 30 provided in the case 10 to partition the internal space of the case 10 into a settling tank 13, a filtration tank 14 and a storage tank 15,
And an adsorbing filter medium (40) provided inside the filtration tank (14), the apparatus comprising:
The adsorbing filter medium 40 is constructed such that the circumferential surface thereof is spaced from the inner surface of the case 10 and the first and second partitions 20 and 30 forming the filtration tank 14,
An inner drain pipe (50) having a plurality of exhaust holes (51) formed on the peripheral surface thereof and arranged to extend in the vertical direction inside the adsorbing filter medium (40)
Further comprising an extension drain pipe (60) extending laterally from a lower end of the internal drain pipe (50) and extending through the second partition (30) to the interior of the storage vessel (15) Processing device.
The method according to claim 1,
Wherein the upper end of the inner drain pipe (50) extends upwardly from the upper surface of the adsorbing filter medium (40), and the upper end thereof is opened.
The method according to claim 1,
A secondary partition wall 70 formed to be lower in height than the first partition 20 and positioned in front of the adsorbing filter medium 40 in the interior of the filtration tank 14,
Further comprising a water separation filter (80) disposed above the auxiliary partition (70).
The method according to claim 1,
A PH sensor 90 provided in the storage tank 15 for sensing the acidity of stormwater stored in the storage tank 15,
Further comprising an alarm means (100) connected to the PH sensor (90) for outputting an alarm when the acidity of stormwater stored in the storage tank (15) exceeds a preset reference value.
5. The method of claim 4,
Further comprising an opening / closing damper (110) provided in the drain hole (12) for opening / closing the drain hole (12).
6. The method of claim 5,
The opening and closing damper 110 closes the drain hole 12 and prevents the storm stored in the storage tank 15 from being discharged when the acidity of the storm measured by the PH sensor 90 is out of a preset reference A device for treating non-point pollutants.
The method according to claim 1,
Further comprising a screen (16) provided at an inlet (11) of the case (10) to filter contaminants contained in the rainwater flowing through the inlet (11).

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