KR101307288B1 - Initial storm runoff particulate pollutant reduction device - Google Patents

Abstract

PURPOSE: A particulate matter reduction apparatus in initial rainfall effluent is provided to enhance the centrifugal force acting to particulate pollutants among non-point pollution sources, to increase the settling speed by an inner container colliding with the particulate pollutants by a spiral current, and therefore, to enhance the separation efficiency of the particulate pollutants. CONSTITUTION: A particulate matter reduction apparatus in initial rainfall effluent comprises a cylindrical main body (10); a cylindrical inner container (20); and a driving motor (30). A rainfall effluent inlet port (11) and an outlet port (12) are equipped in the main body, and a settling tub (15) is equipped in the lower space thereof. The driving motor rotates the inner container. The top and lower parts of the inner container are open. A shaft (21) is vertically installed in the center of the inner container. Multiple impellers (22) are radially installed between the shaft and the cylindrical inner side. Multiple baffles (23) are vertically installed on the inner side to be positioned between impellers. A cone shaped blade (24) is installed under the baffles so that the diameter is gradually enlarged downward.

Description

Initial storm runoff particulate pollutant reduction device

The present invention relates to a particulate contaminant reduction device for sedimenting contaminants mixed in rainfall runoff, and in more detail, to rotate an inner cylinder provided with an impeller and a baffle inside a main body into which rainfall runoff is introduced by driving a motor. By maximizing the swirl flow of rainfall runoff, the centrifugal force acting on particulate pollutants in nonpoint source increases, while the particulate pollutants collide with the inner cylinder by the rotational flow to increase the sedimentation rate, thus increasing the separation efficiency of particulate pollutants in rainfall runoff. The present invention relates to an apparatus for reducing particulate contaminants in initial rainfall effluents, which is high in height and has excellent separation effect of organic and inorganic substances attached to particulate contaminants.

In general, water pollution sources are divided into point source pollution and non-point pollution sources for the convenience of prevention and management. ㆍ A source of wastewater containing pollutants from sewage pipes in certain areas, such as power plants, mines, oil tanks, oil wells, etc., and nonpoint sources are rainwater that has passed through areas such as urban areas, construction sites, parking lots, and roads. It is a pollutant that flows to rivers, lakes, or seas without going through special purification facilities.

In the above point source is a relatively easy treatment and easy to see the seriousness, and since a specific pollutant to be separated from the contaminated water, it is necessary to install a purification facility according to its characteristics. However, non-point sources are pollutants accumulated on the ground and are contaminating water quality as they enter rivers, lakes or seas without going through special purification facilities.

These nonpoint sources usually occur in areas such as parking lots, shopping malls, housing complexes, and industrial complexes during initial rainfall, and they do not have specific discharge paths and are generated through unspecified discharge paths. Together, they are discharged to rivers, lakes, or seas, thereby degrading water quality.

The methods used for the removal of nonpoint source are: reservoir type (reservoir tank, pond, artificial wetland), infiltration type (penetration tank, penetrating trench, perforated pavement), vegetation type (vegetable filtration unit, vegetation channel), device type (storm) Filters, sand filters, storm acceptors, storm gates, etc.). In order to remove pollutants caused by rainfall using the above facilities, there are economic problems such as the need for new treatment sites and expensive equipment. have.

In other words, in the case of the reservoir type, a relatively large site is required, so it is difficult to install due to the rise of land prices in the already developed areas, and in summer, pests such as mosquitoes and flies are generated, causing health problems. Due to the continuous inflow of pollutants and contaminants, it is difficult to maintain due to clogging of pores, and it is more likely to be contaminated with underground water because it penetrates into the basement, and the vegetation type requires more than a certain scale and the vegetation can be maintained. Ideal environmental conditions are required, and the device type has problems such as high installation cost and limited installation location.

In addition, due to the rapid development of cities, roads, and factories, aquatic plants are dead and water pollution is intensifying as they are directly introduced into rivers without removing pollutants caused by rainfall. The problem is the difficulty in applying the above techniques. Therefore, there is a need for an apparatus for reducing a nonpoint source that is easy to maintain while reducing equipment costs.

Republic of Korea Patent No. 10-0869775. Republic of Korea Patent No. 10-0906453.

The present invention is a technique proposed to improve the problems such as the installation cost is expensive in the method that is conventionally used for the removal of non-point source, the restriction of the installation location, and the separation efficiency of pollutants, such as the swirl flow of rainfall runoff To increase the centrifugal force acting on particulate contaminants in non-point source, while increasing the sedimentation rate by impinging on the inner cylinder by rotary flow, increasing the separation efficiency of particulate contaminants, and An object of the present invention is to provide an apparatus for reducing particulate contaminants in initial rainfall effluent, which is implemented such that an inner cylinder having an impeller and a baffle is rotated by a motor in order to increase the separation effect of organic matter and inorganic matter.

The present invention has been made to solve the above-

A main body having a cylindrical shape, provided with an inlet and an outlet through which rainfall runoff is introduced and discharged, the inclined panel having an outlet formed in a conical shape in the inner space, and a sedimentation tank provided in the lower space; An inner passage disposed in the inner space of the main body and configured to have a cylindrical shape and having a shaft and an impeller installed therein; It includes a drive motor for providing a drive force to the shaft to rotate the inner cylinder.

In addition, as a preferred embodiment of the present invention, the inner cylinder has a cylindrical shape of up and down upright, the upper and lower openings, the shaft is installed upright in the center while a plurality of impellers are installed radially between the shaft and the inner side of the cylinder. It is characterized by.

In addition, as a preferred embodiment of the present invention, the inner cylinder is installed a plurality of baffles upright on the inner side to be located between the impeller, the impeller is formed in a spiral, configured to have an inclination angle of 7 ° ~ 30 ° down It is characterized by.

According to an embodiment of the present invention, by rotating the inner cylinder provided with the impeller and baffle in the main body into which the rainfall runoff flows by the driving of the motor, the centrifugal force acting on the particulate contaminants in the nonpoint source by maximizing the swirl flow of the rainfall runoff. On the other hand, the particulate contaminants collide with the inner cylinder by the rotational flow to increase the sedimentation rate, thereby increasing the separation efficiency of the particulate contaminants and excellent in the separation effect of organic and inorganic substances attached to the particulate contaminants.

In addition, the embodiment of the present invention can improve the water pollution due to the non-point source because the separation efficiency of the particulate contaminants in the non-point source contained in the rainfall effluent, high separation effect of organic and inorganic matters.

1 is a cross-sectional view showing an installation state according to an embodiment of the present invention.
2 is a cross-sectional view showing an operating state according to an embodiment of the present invention.
Figure 3 is a plan sectional view showing an installation state according to an embodiment of the present invention.
Figure 4 is a perspective view showing the inner cylinder in the embodiment of the present invention.
Figure 5 is a plan view showing the operating state of the inner cylinder in the embodiment of the present invention.
Figure 6 is a sectional view showing an operating state of the inner cylinder in the embodiment of the present invention.
Figure 7 is a plan view of the main portion showing the operating state of the inner cylinder in the embodiment of the present invention.
8 is a sectional view showing main parts of the impeller in the embodiment of the present invention;

In the embodiment of the present invention, the main point is to maximize the swirl flow of rainfall runoff to increase the centrifugal force acting on the particulate contaminants in the nonpoint source, while the particulate contaminants collide with the inner cylinder by the rotational flow to increase the sedimentation rate. It is to increase the separation efficiency of, and to increase the separation effect of organic and inorganic substances attached to the particulate contaminants.

Looking at the main configuration according to an embodiment of the present invention with reference to the accompanying drawings, it is configured in a cylindrical shape, the inlet 11 and the outlet 12 is provided with the inflow and outflow of the rainfall outflow water, the outlet 14 is A main body 10 having an inclined panel 13 having a conical shape in the inner space and a settling tank 15 in the lower space; An inner cylinder 20 disposed in an inner space of the main body 10 and configured in a cylindrical shape and provided with a shaft 21 and an impeller 22; It includes a drive motor 30 for providing a drive force to the shaft 21 to rotate the inner cylinder 20.

In the main configuration of the embodiment, the main body 10 has a function in which rainfall runoff is introduced and the particulate contaminants are precipitated by centrifugal separation, and the main body 10 has a cylindrical shape of up and down uprights, as shown in FIGS. The inner space is configured to be sealed, and an inlet 11 through which the rainfall flow water flows into the inner space is installed at the upper side, while an outlet 12 through which the rainfall flow water is discharged to the outside is installed.

In addition, the inclined panel 13 is installed in a conical shape so that the diameter gradually decreases downward in the middle portion of the inner space, while the outlet 14 is provided in the central portion of the inclined panel 13, and the inclined panel 13 A sedimentation tank 15 in which particulate contaminants are settled is provided in the lower space.

The settling tank 15 is provided with an inclined surface 16 in a conical shape so as to gradually decrease in diameter toward the bottom at the bottom, while the valve 17 for discharging particulate contaminants deposited at the lower center of the inclined surface 16 to the outside is provided. Is installed.

Meanwhile, in the main configuration of the embodiment, the inner cylinder 20 rotates with the power of the driving motor 30 to be described later to maximize the swirl flow of the rainfall effluent including the nonpoint source, thereby increasing the centrifugal force acting on the particulate contaminants in the nonpoint source. As the inner cylinder 20, as shown in Figure 1 to 7, in the upper and lower upright cylindrical shape is configured to open the upper and lower.

The inner cylinder 20 has a diameter smaller than that of the main body 10 and is disposed in the upper inner space of the main body 10, and the shaft 21 is installed upright at the center, while the shaft 21 and the cylindrical A plurality of impellers 22 are radially installed between the inner surfaces, and the impellers 22 are spaced apart at a predetermined distance from the upper and lower portions of the shaft 21.

The impeller 22 is formed in a spiral shape and is configured to have an inclination angle R of 7 ° to 30 ° down as shown in FIG. 8, and in this case, maximizes the swirl flow of rainfall runoff by the rotation of the impeller 22. It increases the centrifugal force acting on the particulate contaminants and maximizes the downflow to increase the sedimentation effect.

In addition, the inner cylinder 20 is provided with a plurality of baffles 23 upright on the inner side, as shown in Figure 3 so as to be located between the radially installed impeller 22, the baffle 23 When the inner cylinder 20 rotates in a form protruding on the inner side, it functions to induce a collision of particulate contaminants on the inner side.

On the other hand, the lower end of the inner cylinder 20 is formed with a blade 24 in the form of a cone so as to gradually increase in diameter toward the bottom, the blade 24 induces the sliding of the particles that settle down to the particles settling tank 15 This function guides you to move quickly.

In addition, the driving motor 30 in the main configuration of the embodiment as a function to rotate the inner cylinder 20 by providing a driving force to the shaft 21, the drive motor 30, as shown in Figs. Attached to the upper portion of the 10 is preferably installed, the drive shaft of the drive motor 30 and the shaft 21 is connected by coupling.

The shaft 21 of the inner cylinder 20 penetrates the upper portion of the main body 10 and is inserted into the housing of the driving motor 30, and the driving shaft and the shaft 21 are connected to each other by a coupling in the housing, thereby providing a main body 10. The inner cylinder 20 is rotatably disposed in the inner space of the upper side, and the driving force of the driving motor 30 is transmitted to the shaft 21 to rotate the inner cylinder 20.

According to the exemplary embodiment of the present invention having such a configuration, as shown in FIG. 5, as the inflow opening 11 into which the rainfall outflow water flows into the upper space of the main body 10 is installed toward the upper inner surface of the inner cylinder 20. Rainfall runoff flows in the tangential direction of the inner cylinder 20 to form a swirl flow.

In addition, looking at the operation process according to an embodiment of the present invention, first the initial rainfall outflow water is introduced into the upper portion of the inner cylinder 20 through the inlet 11 to form a swirl flow, and also the driving force of the drive motor 30 shaft The inner cylinder 20 and the impeller 22 are rotated in the swirl flow direction of the rainfall runoff.

When the inner cylinder 20 and the impeller 22 rotate by the operation of the drive motor 30 in the above, as shown in Figure 6 to Figure 7, rainfall flow water while maximizing the swirl flow of the rainfall flow water accommodated in the inner cylinder 20 Since the centrifugal force acting on the particulate contaminants in the non-point pollutant included in the increase, the particulate contaminants collide with each other while moving toward the inner side of the inner cylinder 20, and agglomeration occurs, and at this time, the baffle 23 installed in the inner cylinder 20 is formed. ) Induces collision of particles, increasing sedimentation rate.

Meanwhile, the particulate contaminants aggregated while colliding with each other gradually move downward by the downward flow acting as the rotation of the impeller 22, and slide on the blade 24 formed at the lower end of the inner cylinder 20. The settled particles, which are settled in the inclined panel 13, are introduced into the settling tank 15 through the outlet 14, and the particles accumulated in the settling tank 15 are periodically discharged to the outside by opening and closing the valve 17. .

Rainwater outflow water in which the particulate contaminant is separated from the inner cylinder 20 is discharged to the outside through the outlet 12 while upwardly through the space between the inclined panel 13 and the blade 24 as shown in FIG. 2. The particulate contaminants discharged to the lake or the sedimentation tank 15 are passed through a purification facility.

Therefore, in the embodiment of the present invention, the inner cylinder 20 and the impeller 22 are rotated by the operation of the driving motor 30 to maximize the swirl flow of the rainfall runoff, thereby increasing the centrifugal force acting on the particulate contaminants in the nonpoint source, while increasing the particle size. Since the sedimentation rate is increased by inducing collisions, the separation efficiency of particulate contaminants is excellent, and water pollution due to nonpoint source can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It is possible to carry out various changes in the present invention.

10: main body 11: inlet
12: outlet 13: inclined panel
14: outlet 15: sedimentation tank
16: slope 17: valve
20: inner cylinder 21: shaft
22 impeller 23 baffle
30: drive motor

Claims (5)

It has a cylindrical shape, is provided with an inlet 11 and an outlet 12 through which rainfall runoff flows in and out, and an inclined panel 13 having an outlet 14 is conical in the inner space while A main body 10 provided with a settling tank 15; An inner cylinder 20 disposed in an inner space of the main body 10 and configured in a cylindrical shape and provided with a shaft 21 and an impeller 22; And a drive motor 30 for rotating the inner cylinder 20 by providing a driving force to the shaft 21.
The inlet 11 through which the rainfall outflow water flows into the upper space of the main body 10 is installed toward the upper inner surface of the inner cylinder 20,
The inner cylinder 20 has a cylindrical shape of up and down upright, the upper and lower portions are opened, and the shaft 21 is installed upright in the center, while the plurality of impellers 22 are radially disposed between the shaft 21 and the inner side of the cylinder. ) Is installed, and a plurality of baffles 23 are installed upright on the inner side so as to be located between the impellers 22, and the blades 24 are conical in shape so as to gradually increase in diameter toward the lower end thereof. Formed,
The drive motor (30) is attached to the upper portion of the main body 10, the drive shaft and the shaft 21 is characterized in that the initial rainfall outflow particulate matter reduction device, characterized in that the coupling is installed. delete delete delete delete

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