KR102397456B1 - Back-washing Method for filter part for treating non-point source pollution - Google Patents

Abstract

The present invention relates to a method for backwashing a filter unit for treating nonpoint pollutants. A method of backwashing a filter unit accommodating a filter member for filtering non-point pollutants includes a washing water injection step of injecting washing water into a lower part of the filtering unit provided in a filter tank and flowing the washing water upward; a washing water sustaining step of injecting the washing water until the filter unit is submerged; and a step of discharging the washing water that washes the filter member through an outlet provided in the filter tank accommodating the filter unit and located at a position higher than an upper portion of the filter unit.

Description

Back-washing method for filter part for treating non-point source pollution

The present invention relates to a method for backwashing a filtration unit for treating non-point pollutants, particularly when backwashing a filtration unit accommodating a filter member, effectively discharging pollutants dropped from the filter member to the outside so that contaminants do not remain in the filtration unit It relates to a method for backwashing a filter unit for treating non-point pollution sources to improve backwashing efficiency.

Various pollutants remaining on the surface of the earth are washed away with rainwater during rain. The pollutants include various pollutants piled up on roads, sidewalks, bridges, land surfaces, and the like, and include, for example, household waste and tire dust. When these pollutants are washed in rainwater and directly introduced into rivers, serious water pollution is caused. Therefore, it is required to treat the initial rainwater according to predetermined standards.

1 is a diagram schematically illustrating a conventional backwashing method. 1, the initial rainwater flows into the inlet 7, and the pollutants contained in the initial rainwater are caught by the filter medium (filter member) and then discharged to the outside through the outlet 6, the filter medium Contaminants removed by adsorption are removed and washed by backwashing.

As shown in FIG. 1, while the washing water is injected into the lower side of the filter member, the contaminants adsorbed on the filter member are separated. As shown in FIG. 1 , the washing water is configured to spray the washing water upward through the jet nozzle 71 provided at the lower part of the filtration tank 3 . In this process, the washing water contains a large amount of contaminants removed from the filter member, and when washing is complete, the washing water containing the contaminants is discharged through the filtration tub drain 74 provided at the bottom of the filtration tank 3 . And, the rainwater remaining in the pretreatment tank is drained through the pretreatment tank drain 73, and the rainwater remaining in the treatment tank 4 is drained through the treatment tank drain 75 after the end of rain or backwashing.

However, according to the backwashing method according to this process, when the washing water containing the contaminants dropped from the filter member flows out to the filtration tank drain 74 at the bottom, the contaminants move downward together with the washing water again. There is a problem in that a part is caught again by the filter member and is stenciled. As a result, in the conventional backwashing method, there is a problem in that the contaminants separated by backwashing remain in the filtration tank 3 or are re-adsorbed to the filter member.

The present invention has been devised in response to the above needs, and when backwashing the filter unit accommodating the filter member, the pollutants dropped from the filter member are effectively discharged to the outside so that the pollutants do not remain in the filter member, thereby improving backwashing efficiency. An object of the present invention is to provide a method of backwashing a filter part for treatment of non-point source pollutants that improves.

According to an embodiment of the present invention, in the method of backwashing the filtration unit for non-point source filtration, in the method of backwashing the filtration unit accommodating the filter member for non-point source filtration, washing water is injected into the lower portion of the filtration unit provided in the filtration tank in an upward direction Washing water injection step to flow; a washing water continuation step of injecting the washing water until the filter part is submerged; Discharging the washing water provided in the filtration tank in which the filter part is accommodated, the washing water washing the filter member through an outlet provided at a position higher than the upper part of the filter part.

In addition, it is preferable that air washing in which air is injected into the lower portion of the filter unit is performed together with washing with the washing water.

In addition, after the washing with the washing water and the air washing with air are completed, it is preferable to include the step of pumping and draining the residual water in the filtration tank in which the filtration unit is accommodated.

In addition, the filter part is formed in an open shape at the bottom, and a dispersion inducing part is provided at the lower end of the filter part to pass the incoming contaminated water and disperse the washing water to guide it upward, and the dispersion induction part is the filter member. Forms a bottom surface of the filtering unit to be filled, and when rainwater occurs, the contaminated water flows in from the lower end of the filter unit, passes through the dispersion inducing unit and passes through the filter member, and when washing the filter unit, the washing water flows in from the lower end of the filter unit It is preferable to be sprayed onto the filter member while being dispersed by the dispersion inducing unit.

In addition, the dispersion induction unit is rotatably coupled to the filter unit, and it is preferable to rotate the dispersion induction unit to open the lower side of the filter unit to clean and manage the bottom of the filtration tank.

According to the method of backwashing a filtration unit for non-point pollution source treatment according to the present invention, when the filtration unit housing the filter unit is backwashed, contaminants dropped from the filter unit are easily discharged to the outside so that contaminants do not remain in the filtration unit. It provides the effect of improving the backwashing efficiency.

1 is a view schematically showing a conventional backwashing method;
2 is a view showing the state of the non-point pollution source treatment device after the end of the rain;
3 is a view showing a state in which the pretreatment tank and the filtration tank are drained before backwashing is performed;
4 is a view showing a state in which backwashing is performed;
5 is a view showing a state in which the backwash water of the filtration tank and the filtered water of the treatment tank are drained;
6 is a perspective view of a dispersion inducing part;
7 is an exploded perspective view of the dispersion induction part;
8 is a plan view of a state in which the dispersion inducing unit is installed in the non-point pollution source treatment device;
9 is a flowchart of a backwashing method according to an embodiment of the present invention.

Hereinafter, various embodiments of the present invention will be described in connection with the accompanying drawings. Various embodiments of the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and related detailed description is described. However, this is not intended to limit the various embodiments of the present invention to specific embodiments, and should be understood to include all changes and/or equivalents or substitutes included in the spirit and scope of the various embodiments of the present invention. In connection with the description of the drawings, like reference numerals have been used for like elements.

Expressions such as “comprises” or “may include” that may be used in various embodiments of the present invention indicate the existence of a corresponding disclosed function, operation, or component, and may include one or more additional functions, operations, or Components, etc. are not limited. In addition, in various embodiments of the present invention, terms such as "comprise" or "have" are intended to designate that a feature, number, step, action, component, part, or combination thereof described in the specification exists, It should be understood that this does not preclude the possibility of addition or existence of one or more other features or numbers, steps, operations, components, parts, or combinations thereof.

When a component is referred to as being “connected” to another component, the component may be directly connected to the other component, but a new component is formed between the component and the other component. It should be understood that there may be

Terms used in various embodiments of the present invention are only used to describe a specific embodiment, and are not intended to limit various embodiments of the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by those of ordinary skill in the art to which various embodiments of the present invention pertain.

Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in various embodiments of the present invention, ideal or excessively formal terms not interpreted as meaning

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

Figure 2 is a view showing the state of the non-point source treatment apparatus after the end of the rain, Figure 3 is a view showing the state in which the pre-treatment tank and the filtration tank are drained before backwashing is performed. 4 is a view showing a state in which backwashing is performed, and FIG. 5 is a view showing a state in which the backwashing water of the filtration tank and the filtered water of the treatment water tank are drained. 6 is a perspective view of the dispersion inducing unit, and FIG. 7 is an exploded perspective view of the dispersion inducing unit. 8 is a plan view of a state in which the dispersion inducing unit is installed in the non-point pollution source treatment apparatus, and FIG. 9 is a flowchart of a backwashing method according to an embodiment of the present invention.

First, in the non-point pollution source treatment apparatus (1) for filtering polluted water generated from the non-point pollution source, the present invention includes a filtering unit (9) accommodating the filter member (8) for filtering the pollutants included in the contaminated water. It relates to the method of backwashing.

In general, sources of polluted water are divided into point sources and non-point sources. A point source is defined as a case where the outlet of polluted water is specified in a certain place, and a non-point source is defined as a case where the outlet of polluted water is not constant. Examples of point sources include sewage treatment plants, livestock livestock, manure, wastewater, domestic wastewater, wastewater treatment plants of industrial plants, and leachate. and plant residues, air pollutants that have fallen to the ground, and the like.

Non-point pollution sources are washed together with rainwater and flow directly into rivers during rain, which is a representative cause of water pollution. Therefore, it is required to treat the initial rainwater according to a predetermined standard. Non-point pollutants are discharged through drainage channels together with rainwater, and since the initial rainwater contains a large amount of pollutants, purification work is very important in the initial rainwater.

As shown in FIG. 2, the non-point pollution source treatment device 1 removes the pollutants contained in the contaminated water through the pretreatment tank 2 provided with an inlet 7 through which rainwater flows, and the pretreatment tank 2 It includes a filtration tank 3 for filtering, a treatment water tank 4 disposed at the rear end of the filtration tank 3 and provided with an outlet 6 for discharging the treated water. An inlet tank 5 into which contaminated water passed through the pretreatment tank 2 flows may be provided at the front end of the filtration tank 3 , and the contaminated water flows into the filtering tank 3 from the lower portion of the inlet tank 5 . It overflows the filtration tank 3 and is discharged after moving to the treatment tank.

A filter member 8 for filtering contaminants contained in the contaminated water is provided in the filtration tank 3 . The filter member 8 is accommodated in the filtration unit 9 provided in the filtration tank 3 . The filter member 8 is a particulate member that absorbs the pollutants and removes the pollutants from the polluted water. Contaminants adsorbed to the filter member 8 may be removed and washed by backwashing. In the present invention, the filter unit (9) housing the filter member (8) is backwashed, and contaminants dropped from the filter member (8) can be discharged without remaining in the filter unit (9). It relates to a method of backwashing.

2 to 5 , the method for backwashing the filter unit for treating non-point pollution sources according to an embodiment of the present invention includes a washing water injection step, a washing water continuation step, and a washing water discharge step.

First, when the rain ends, the non-point pollution source treatment apparatus 1 maintains the state in which rainwater is filled in the state as shown in FIG. 2 . Rainwater from which pollutants are removed by moving to the pre-treatment tank 2, the filtration tank 3, and the treatment tank 4 is discharged through the outlet 6, and when the rain ends, the non-point pollution source treatment device 1 has The rainwater that could not be drained remains filled. In this state, for backwashing of the filtration unit 9, all of the rainwater remaining in the pretreatment tank 2, the inflow tank 5, and the filtration tank 3 is discharged as shown in FIG. Rainwater remaining in the treatment water tank 4 is maintained in a state in which it is not discharged to be reused for backwashing.

The washing water injection step is a step of injecting washing water into the lower part of the filter unit 9 provided in the filtration tank 3 and flowing it upward. The end of the washing water inlet pipe 40 is connected to the lower part of the filtering unit 9 to spray the washing water upward. As the washing water, rainwater remaining in the treatment water tank 4 may be used, or washing water may be provided from a separate water source.

The washing water continuation step is a step of injecting the washing water until the filter unit 9 is submerged. As shown in FIG. 4 , the washing water is continuously sprayed from the lower side to the upper side of the filter unit 9 to backwash the filter member 8 accommodated in the filter unit 9 .

The washing water discharging step is a step of discharging the washing water washing the filter member 8 through the outlet 61 provided in the filtration tank 3 in which the filter unit 9 is accommodated. The outlet 61 is provided at a position higher than the upper portion of the filter unit 9 . The washing water flows into the outlet 61 and is discharged along the washing water discharge pipe 60 . As the washing water is continuously introduced, the filter member 8 is backwashed, and the contaminants separated from the filter member 8 float in the washing water and flow upward. At this time, since the washing water is discharged through the outlet 61 provided at the upper side of the filter unit 9 , the floating contaminants are discharged through the outlet port 6 at the upper side of the filter unit 9 to be removed.

According to the embodiment of the present invention, along with the washing with the washing water, air washing by injecting air into the lower part of the filter unit 9 may be performed. According to this embodiment, the air washing may be performed simultaneously with washing with the washing water. Of course, the air washing may be performed separately from washing with the washing water. For example, after performing washing with the washing water first, air washing may be performed subsequently.

According to the embodiment of the present invention, it includes the step of pumping and draining the residual water in the filtration tank 3 in which the filtration unit 9 is accommodated. The residual water pumping step is performed after the washing with the washing water and the air washing with the air are completed. In the residual water pumping step, a residual water discharge pipe (not shown) having one end extending to the bottom of the filtration tank 3 is installed, and the residual water is pumped to the upper side of the filtration tank 3 through the residual water discharge pipe and removed. is carried out

According to the present embodiment, backwashing of the filter unit 9 is performed in the washing water injection step and the continuous step, and the dispersion inducing unit 100 is provided to effectively disperse the washing water or air during the backwashing process. According to this embodiment, the filtration unit 9 is formed in an open downward form, and the dispersion inducing unit 100 is installed under the open filtration unit 9 . The dispersion inducing unit 100 forms a bottom surface of the filter unit 9 in which the filter member 8 is filled.

The dispersion inducing unit 100 causes the contaminated water to flow to the filter member 8 of the filtration unit 9, and the washing water is dispersed upward. That is, the dispersion inducing unit 100 passes the contaminated water flowing in from the lower part of the filter unit 9 as it is, and the washing water flows while dispersing it upward. Specifically, the dispersion inducing unit 100 includes a lower surface portion 10, an upper surface portion, a side portion, and an induction tube.

The lower surface portion 10 is a flat plate-shaped member, and the washing water inlet hole 11 through which the washing water is introduced and the air inlet hole 12 through which the air is injected are formed. The washing water is injected for water washing, and the air is injected for air washing. At an edge of the lower surface portion 10 , a coupling protrusion 14 protruding upward for coupling with the upper surface portion 14 is formed.

The upper surface portion 14 is disposed to be spaced apart from the upper side of the lower surface portion 10 , and is coupled to the lower surface portion 10 . A dispersion hole 21 for dispersing washing water and air to flow upward is formed in the upper surface portion 14 . According to this embodiment, the dispersion hole 21 is provided in plurality. In addition, a coupling hole 23 into which the coupling protrusion 14 provided on the bottom 10 is inserted is formed in the upper surface portion 14 . The lower surface portion 10 and the upper surface portion 14 are easily coupled to each other by fitting.

The side portion 30 is a portion coupled to the edge side of the upper surface portion 14 and the lower surface portion 10 in a state where the upper surface portion 14 and the lower surface portion 10 are spaced apart from each other and coupled. When the upper surface portion 14 , the lower surface portion 10 , and the side portion 30 are coupled in this way, a predetermined space is formed between the upper surface portion 14 and the lower surface portion 10 . According to the present embodiment, the lower surface portion 10, the upper surface portion 14, and the side portion 30 are coupled to each other to form a rectangular parallelepiped shape.

The guide pipe 13 is provided to flow the contaminated water flowing in from the lower surface 10 through the lower surface 10 and the upper surface 14 to the upper side of the upper surface 14 . . According to this embodiment, the guide tube 13 is integrally formed with the lower surface portion 10 , and the guide tube 13 is formed to protrude upward from the lower surface portion 10 .

According to this embodiment, the guide tube 13 is provided in plurality, and the upper surface portion 14 is provided with a fitting hole 22 into which the upper end of each guide tube 13 is fitted. When the contaminated water flows into the lower surface portion 10, it can quickly flow upward by the guide tubes 13 provided in sufficient number. The guide pipe 13 serves to guide the contaminated water upward and to support the upper surface portion 14 and the lower surface portion 10 apart from each other.

Contaminated water containing pollutants by rainwater flows into the lower part of the filtration tank 3 , flows in from the lower surface 10 , passes through the guide pipe 13 , and then moves to the upper side of the upper surface 14 . and the washing water flows into the washing water inlet hole 11, spreads between the lower surface part 10 and the upper surface part 14, and is dispersed and discharged to the upper side of the upper surface part 14 through the dispersion hole 21 do.

In the backwashing method according to the present invention, an air injection pipe for injecting air is connected to the air inlet hole 12, so that cleaning by air can be performed. Of course, the energy is injected together with the injection of the washing water, so that the air washing can be performed simultaneously with the water washing.

In this way, the guide pipe 13 guides the contaminated water flowing in from the lower surface 10 to the filter member 8 accommodated on the upper side of the upper surface 14 while rapidly flowing the contaminated water upward. Ensure that the contaminants contained are filtered out. Accordingly, the contaminated water does not flow in the space between the upper surface portion 14 and the lower surface portion 10 , but passes through the lower surface portion 10 and the upper surface portion 14 .

On the other hand, the washing water and air are respectively introduced into the washing water inlet hole 11 and the air inlet hole 12 of the lower surface portion 10 via the washing water inlet pipe 40 and the air inlet pipe 50, respectively. do. Washing water and air introduced into the washing water inlet hole 11 and the air inlet 12 are introduced into the space between the upper surface part 14 and the lower surface part 10, and the dispersion hole of the upper surface part 14 It rises as it is dispersed upward through (21) and discharged. The dispersion holes 21 are formed over the entire area of the upper surface portion 14 , and each dispersion hole 21 performs a function similar to that of the injection nozzle 71 . Therefore, since the plate-shaped upper surface portion 14 performs the functions of the plurality of injection nozzles 71, the efficiency of backwashing is dramatically improved by the washing water and air that are dispersed upward from the entire area of the upper surface portion 14 and rise. is improved with

In addition, the dispersion inducing unit 100 is rotatably coupled to the filtering unit 9 . According to an embodiment of the present invention, the method may further include cleaning and managing the bottom of the filtration tank 3 by rotating the dispersion inducing unit 100 to open the lower side of the filtration unit 9 .

Specifically, as shown in FIG. 4, the dispersion inducing part 100 is formed in a rectangular parallelepiped shape and a pair is installed facing each other at the lower end of the filtering part 9. One side of the dispersion inducing part 100 is An installation frame installed at the lower center of the filter unit 9 is seated, and the other side is rotatably installed at the edge of the filter unit 9 . The backwash water dispersing device is installed in a structure that is lifted upward from the installation frame and rotated toward the edge of the filter unit 9 to open.

Accordingly, the dispersion inducing unit 100 may be rotated based on the edge of the filtering unit 9 so that the lower portion of the filtering unit 9 may be opened. When the lower portion of the filtration unit 9 is opened, an operator may access the bottom of the filtration tank 3 to perform cleaning and management. By configuring the dispersion inducing unit 100 to be rotatable at the edge of the filtering unit 9 , it provides an effect that an operator can easily access the bottom of the filtering tank 3 .

As such, in the method of backwashing the filter unit for treating non-point pollution sources according to the embodiment of the present invention, the pollutants dropped from the filter member 8 are drained from the upper side of the filter unit 9 while flowing the washing water from the bottom to the top. It provides the effect of improving the cleaning efficiency of the filter member (8) by preventing the pollutants from being trapped in the filter member (8) again.

In addition, by effectively dispersing and flowing the washing water and air by the dispersion inducing unit 100 , the filter member 8 is effectively washed to improve backwashing efficiency.

In addition, the dispersion inducing unit 100 is rotated with respect to the filtration unit 9 so that the filtration unit 9 can be selectively opened, thereby facilitating access to the bottom of the filtration tub 3, and the bottom of the filtration tub 3 It provides the effect of simplifying the cleaning and management of

In the above, the present invention has been described in detail with reference to a preferred embodiment, but the present invention is not limited to the above embodiment, and various modifications may be provided without departing from the scope of the present invention.

1.... Non-point source pollutant treatment device 2... Pre-treatment tank
3... Filtration tank 4... Treatment tank
5... Inlet tank 6... Outlet
7... Inlet 8... Filter element
9... Filtration part 10... Bottom part
11... Washing water inlet hole 12... Air inlet hole
13... Guide tube 14... Linkage
20... Upper part 21... Dispersion hole
22... Fitting hole 23... Joining hole
30... Side part 40... Washing water inlet pipe
50... Air inlet pipe 60... Washing water outlet pipe
61... Outlet 71... Spray nozzle
73... pretreatment tank drain 74... filter tank drain
75... Treatment water tank drain 100... Dispersion induction part

Claims (5)

In the method of backwashing the filter unit (9) accommodating the filter member (8) for non-point source filtration,
a washing water injection step of injecting washing water into the lower part of the filtration unit 9 provided in the filtration tank 3 and flowing it upward;
a washing water continuation step of injecting the washing water until the filter part 9 is submerged;
discharging the washing water provided in the filtration tank 3 in which the filter part 9 is accommodated, the washing water washing the filter member 8 is provided through the outlet 61 provided at a position higher than the upper part of the filter part 9; including,
The filtration unit 9 is formed in an open downward form,
A dispersion inducing part 100 is provided at the lower end of the filtering part 9 to pass the incoming contaminated water and to disperse the washing water and guide it upward, and the dispersion inducing part 100 is not filled with the filter member 8. Forms the bottom surface of the filtration part (9),
When rainwater is generated, the contaminated water flows in from the lower end of the filter unit 9, passes through the dispersion induction unit 100, and passes through the filter member 8. When the filter unit 9 is washed, the washing water is filtered. A filter backwashing method for non-point pollution source treatment, characterized in that it is introduced from the lower end of the part (9) and is sprayed onto the filter member (8) while being dispersed by the dispersion inducing part (100). According to claim 1,
Air washing in which air is injected into the lower portion of the filter unit (9) is performed together with washing with the washing water. According to claim 1,
After the washing with the washing water and the air washing with the air are completed, the residual water in the filtration tank 3 in which the filtration unit 9 is accommodated is pumped and drained. backwash method. delete According to claim 1,
The dispersion induction unit 100 is rotatably coupled to the filter unit 9, and rotates the dispersion induction unit 100 to open the lower side of the filter unit 9 to clean the bottom of the filtration tank 3 and Filter part backwashing method for non-point pollution source treatment, comprising the step of managing.

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