KR102060794B1 - FRP non point source contaminant decreasing device and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a nonpoint pollution reduction device with integrated fiber-reinforced plastic (FRP) which filters out nonpoint pollutants included in rainwater by settling and filtering processes, removes floating materials and oil which are nonpoint pollutants by a filtering agent to make purified water of a reference level or lower, backwashes a filter medium layer which has undergone a filtering process by air supplied from below and filtering water supplied from above after rain, and uses fiber-reinforced plastic (FRP) to be finished at a factory to be constructed simply by on-site installation, and a manufacturing method thereof. The device comprises: a device body of a fiber-reinforced plastic (FRP) material provided with an inlet and an outlet formed on one side and the other side thereof and a plurality of manholes on an upper side thereof and divided into a pretreatment tank, a filtering tank, and a treatment water tank by partitions, wherein the tanks communicate with each other by a lower passage formed on a lower side of a partition between the pretreatment tank and the filtering tank and an upper passage formed on an upper side of a partition between the filtering tank and the treatment water tank; a drain pump and a backwashing pump installed in the pretreatment tank and the treatment water tank respectively; a filter medium layer arranged in the filtering tank; and a backwashing spray nozzle which is installed on an upper portion of the filter medium layer, and receives backwashing water from the backwashing pump in the treatment water tank to spray the backwashing water from an upper portion of the filter medium layer towards a lower portion of the filter medium layer.

Description

FRP integrated non-point pollution reducing device and its manufacturing method {FRP non point source contaminant decreasing device and manufacturing method

The present invention relates to an FRP integrated non-point pollution reducing device and a method for manufacturing the same. More specifically, non-point pollutants contained in rainwater are filtered through precipitation and filtration, and suspended solids and oils as non-point pollutants are filtered. After removal of the filter, the filtered media layer can be backwashed with air supplied from the lower side and filtered water from the upper side after the rainfall is completed, and it is completed at the factory using reinforced plastic (FRP). The present invention relates to a FRP-integrated non-point pollution reduction device and a method of manufacturing the same, which can be installed only by installation in the field.

In general, nonpoint source refers to a source that emits unspecified water pollutants at an unspecified place as a city, road, farmland, mountainous area, or construction site.

On the other hand, point source refers to the source of pollutant that is easy to collect because the pollutant flow path is clear, and it is possible to predict the yearly amount due to the relatively small seasonal influence, so it is possible to design and manage treatment facilities such as treatment plants. On the other hand, non-point source is difficult to collect due to the inflow and discharge paths of pollutants, and it is difficult to collect, and the design and maintenance of treatment facilities is difficult because the amount of generation is highly dependent on weather conditions such as precipitation. There is a difficult problem.

These non-point sources are contaminated with water by entering rivers without special treatment along with rainfall, thereby causing fish's death and habitat destruction and disturbance of aquatic ecosystems. In general, the screen type non-point pollution reduction device installs a screen with a perforated plate inside the pretreatment tank so that rainwater can be filtered through the perforated plate of the screen, and the perforated plate is defined by a specific size and inner diameter. .

However, such a conventional non-point pollution reducing device is installed in the concrete structure after the excavation, as shown in Figures 1 to 6, the screen is installed after the piping work, and again to raise the manhole made of concrete structure air delay In addition to the inefficiency of the work due to the difficulty of management there was a problem that the economic feasibility due to the burden of the construction cost.

Republic of Korea Patent Registration No. 10-1666864 (announced on October 24, 2016.) Excellent non-point pollutant treatment device body

Accordingly, the present invention has been made to solve the conventional problems as described above, the purpose is to filter the non-point contaminants contained in rainwater through the precipitation and filtration process, suspended solids and oil such as non-point pollutants The filter media is removed by filtering to make the purified water below the standard value. After finishing the rainfall, the filter media layer can be backwashed with air supplied from the lower side and filtered water supplied from the upper side as well as reinforced plastic (FRP). It is to provide a FRP-integrated non-point pollution reduction device and its manufacturing method that can be completed only by installation on site.

One embodiment of the FRP integrated non-point pollution reduction apparatus according to the present invention for achieving the object of the present invention, the inlet and the outlet is formed on one side and the other side, has a plurality of manholes on the upper side, the pretreatment tank and filtration tank and A device body made of reinforced plastic (FRP) material which is formed separately from the treatment tank and communicates with each other by a lower passage formed at the lower side of the partition wall between the pretreatment tank and the filtration tank, and an upper passage formed at the upper side of the partition wall between the filtration tank and the treatment tank. Wow; A drain pump and a backwash pump installed in each of the pretreatment tank and the treatment tank; A filter medium layer provided in the filtration tank; It is installed on the top of the media layer, the backwash water injection nozzle for receiving the backwash water from the backwash water pump in the treatment tank to spray the backwash water from the top of the mediator layer to the lower side;

One embodiment of the manufacturing method of the FRP-integrated non-point pollution reduction apparatus according to the present invention comprises the first step of forming a body of the apparatus body of the reinforced plastic (FRP) material having both sides opened by filament winding molding method; A second step of forming a first end cap and a second end cap made of reinforced plastic (FRP) material bonded to both openings of the body formed by the first step; The inlet and outlet of the reinforced plastic (FRP) material is installed on the upper side of the body of the first step and the reinforced plastic (FRP) material installed on the outside of each of the first end cap and the second end cap With three steps; A plurality of holes are drilled on the upper side of the body of the first step to bond the manhole made of reinforced plastic (FRP) material formed by the third step, and each of the first end cap and the second end cap of the second step A fourth step of joining an inlet and an outlet of the reinforced plastic (FRP) material by drilling a hole in the outside; A fifth step of forming a plurality of partitions of a reinforced plastic (FRP) material corresponding to the inner diameter of the first step, forming a lower passage in one partition, and forming an upper passage in the other partition; A sixth step of dividing the inside of the body into a pretreatment tank and a filtration tank by joining one side partition wall having the lower passage of the fifth step to the inside of the body; A seventh step of installing a screen and a drain pump in the pretreatment tank partitioned by the sixth step, and installing a filter medium layer and a backwash jet nozzle in the filter tank; The other partition wall having the upper passage of the fifth step is bonded to the inside of the body to partition the inside of the body into the filtration tank and the treatment tank, and install a backwash pump connected to the backwash water jet nozzle of the filtration tank inside the treatment tank An eighth step; And a ninth step of joining and finishing the first end cap having the inlet at the pretreatment tank side opening portion at both sides of the body of the first step, and the second end cap having the outlet at the treatment water tank side opening portion. It is characterized by.

As described above, the present invention has an inlet, an outlet, and a manhole on one side and the other side, and is formed of reinforced plastic (FRP) material, and is formed by separating the partition into a pretreatment tank, a filtration tank, and a treatment tank, by a lower passage and an upper passage. An apparatus body in communication with each other; A drain pump and a backwash pump installed in each of the pretreatment tank and the treatment tank; A filter medium layer provided in the filtration tank; A backwash jet nozzle installed at each of the upper and lower portions of the filter media layer, and an air spray nozzle configured to receive air from a blower and spray air from the lower part of the filter media layer to the upper side to perform air backwashing on the filter media layer; The nonpoint pollutants contained in rainwater are filtered through precipitation and filtration processes, and suspended solids and oils, which are nonpoint pollutants, are removed with filters to make purified water below the standard value. It is possible to backwash with the air supplied from the air and the filtrate supplied from the upper side, as well as complete installation at the factory using reinforced plastic (FRP), thereby further increasing the speed and efficiency of the installation work due to the shortening of air. It is easy to manage and has the effect of further increasing economics by reducing manufacturing costs.

1 to 6 is a photograph showing the construction process of the conventional non-point pollutant treatment apparatus.
7 is a perspective view showing the main body of the FRP integrated non-point pollution reduction apparatus according to the present invention.
8 is a cross-sectional view of the FRP integrated non-point pollution reduction device according to the present invention.
9 is a photograph showing a state in which the device body of the FRP-integrated non-point pollution reduction apparatus according to the present invention embedded in the ground.

Advantages and features of the embodiments of the present invention, and methods of achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings.

 However, the present invention is not limited to the embodiments disclosed below, but may be embodied in various different forms, and the present embodiments merely make the disclosure of the present invention complete and common knowledge in the technical field to which the present invention belongs. It is provided to fully inform the person having the scope of the invention, and the invention is defined only by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

In describing the embodiments of the present invention, if it is determined that a detailed description of a known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

The terms to be described below are terms defined in consideration of functions in the embodiments of the present invention, which may vary depending on the intention or custom of the user or operator. Therefore, the definitions should be made based on the contents throughout the specification.

Hereinafter, with reference to the accompanying drawings will be described in detail the FRP-integrated non-point pollution reducing apparatus and its manufacturing method according to the present invention.

7 is a perspective view showing the main body of the FRP integrated non-point pollution reduction apparatus according to the present invention, Figure 8 is a cross-sectional view of the FRP integrated non-point pollution reduction apparatus according to the present invention, Figure 9 is a FRP integrated non-point pollution reduction apparatus according to the present invention It is a photograph showing a state where the device body of the device is embedded in the ground.

As shown therein, the present invention constitutes the device body 110 having the inlet port 110a, the outlet port 110b, and the manhole 110c on one side and the other side, and the device body 110 is reinforced plastic (FRP) material. It is characterized in that formed integrally with. In addition, the apparatus main body 110 is provided with a pretreatment tank 111, a filtration tank 113, and a treatment water tank 119 for supplying necessary filtered water to the filtration tank 113 by the partition wall 110d, and the pretreatment tank 111. The drain pump 112 is installed therein, the filtration tank 113 includes a filter medium layer 114, the treatment tank 119 is provided with a backwash water pump 115 therein.

Fiber Reinforced Plastics (FRP) refers to fiber-reinforced plastics, which are composited with fiber-like reinforcement materials to improve mechanical strength and heat resistance.强 樹脂) also called reinforced plastics.

As the reinforcing material, glass fibers, carbon fibers and aromatic nylon fibers called Kevlar (trade name DuPont, USA) are used, and plastics (called matrices) include thermosetting resins such as unsaturated polyester and epoxy resins. Resin is used a lot

Such FRP is a semi-permanent material with excellent resistance to corrosion of acid, alkali, salt, solvents, etc., which is excellent in corrosion resistance, lighter than aluminum and stronger in corrosion resistance, heat resistance and corrosion resistance than iron. It is widely used in industrial processes in the US, Japan and Europe. FRP with excellent heat resistance, water resistance, corrosion resistance and corrosion resistance is used in modern industrial fields such as architecture, petrochemical, leisure, automobile industry and environmental business as well as in the high-tech industries of the 21st century. Back box, ancient pillar, ceiling DENjo, relief, signboard, frame, trash can, chair, table, fountain, statue, artificial rock, artificial waterfall, exterior panel.It is used for various sculptures such as shape sculpture related to landscape. have.

Representative molding methods of such FRP pipes include pull molding and filament winding molding. The filament winding molding method is a method of demolding after forming in a rotating mandrel shape while impregnating several to several tens of continuous reinforcing agent in a matrix resin. Since the molded article manufactured by the filament winding molding method has the advantage of high strength, it is applied to the forming of pressure-resistant pipes and tank containers.

The filter tank 113 is provided in the lower portion of the filter medium (114) made of a polymer filter and is supplied with air from a brower 117 installed outside the apparatus main body (110). An air spray nozzle 118 is provided to perform air backwashing on the filter medium layer 114 by spraying the backwash water, and a backwash water spray nozzle 116 is provided on the upper portion of the filter medium layer 114 to backwash water of the filtration tank 113. The required filtered water supplied through the pump 115 is configured to spray the filtered water from the upper side to the lower side of the filter medium layer 114 so that the washing of the filter medium layer 114 is performed.

The polymer filter is made of a high density polymer polyethylene (HIGH MOLECULAR WEIGHT POLYETHYLENE) material, to prevent tangling between the filters, and to minimize the deposition of solids of the SS component attached to the filter to improve the oil-water separation performance and solids removal performance Can be.

The present invention configured as described above enters the inside of the apparatus main body 110 through the rainwater inlet 110a during rainfall, and if there is no rainfall again within a predetermined time after the end of the rain, the drainage pump 112 of the pretreatment tank 111 To allow drainage.

Then, after draining, the blower 117 is operated to supply air from the lower part of the filter medium layer 114 to the upper side. When the blower 117 operates, the air is sprayed into the air spray nozzle 118 installed under the filter material layer 114. Is supplied, and the supplied air is sprayed from the lower portion of the filter medium layer 114 to the upper side through the air spray nozzle 118 to perform the air backwashing on the filter medium layer 114.

After that, the secondary drainage is performed, and the backwash water pump 115 inside the treatment tank 119 is operated to supply the necessary filtered water in the treatment tank 119 from the upper side of the filter medium layer 114 to the lower side. It is to be able to simultaneously wash the water (114).

That is, the necessary filtered water in the treatment tank 119 is supplied to the backwash jet nozzle 116 provided on the upper side of the filter medium layer 114 by the operation of the backwash pump 115 in the treatment tank 119. The backwash water spray nozzle 116 sprays the filtered water from the upper portion of the filter medium layer 114 to the lower side, so that the washing of the filter medium 114 with the required filtered water supply to the pretreatment tank 111 and the filter tank 113 is performed. It can be done at the same time.

After washing with water, the blower 117 is operated to supply air from the lower portion of the filter medium layer 114 to the upper side. When the blower 117 is operated, air is supplied to the air spray nozzle 118 installed under the filter material layer 114. The supplied air is sprayed upward from the lower part of the filter medium layer 114 through the air spray nozzle 118 to perform air backwashing on the filter medium layer 114.

On the other hand, the FRP integrated non-point pollution reducing apparatus according to the present invention is manufactured through the ninth step in the following first step, the first step is a device of reinforced plastic (FRP) material is open on both sides by filament winding molding method The body A of the body 110 is molded, and the second step is a first end cap B made of reinforced plastic (FRP) material bonded to both openings of the body A formed by the first step. ) And the second end cap (C).

In addition, the third step is the manhole 110c, the first end cap (B) and the second end cap (C) of the reinforced plastic (FRP) material is installed on the upper side of the body (A) of the first step, respectively The inlet 110a and outlet 110b of the reinforced plastic (FRP) material is installed on the outside, the fourth step is a third step by drilling a plurality of holes in the upper side of the body (A) of the first step Bonding the manhole (110c) of the reinforced plastic (FRP) material formed by the hole, and drilled the outside of each of the first end cap (B) and the second end cap (C) of the second step of the reinforced plastic (FRP) ) To join the inlet (110a) and outlet (110b) of the material.

In the fifth step, after forming the plurality of partitions 110d made of reinforced plastic (FRP) material corresponding to the inner diameter of the first step A, a lower passage 120 is formed in one partition 110d. The upper passage 121 is formed on the other side partition wall 110d, and the sixth step is to join the one side partition wall 110d having the lower passageway 120 of the fifth step to the inside of the body A. (A) The interior is partitioned into a pretreatment tank 111 and a filtration tank 113.

In the seventh step, the screen 111a and the drain pump 112 are installed in the pretreatment tank 111 partitioned by the sixth step, and the filter layer 114 is disposed inside the filtration tank 113. The backwash water spray nozzle 116 is installed, and the eighth step is to join the other partition 110d having the upper passage 121 of the fifth step to the inside of the body A to filter the inside of the body A into the filtration tank. It is divided into the 113 and the treatment tank 119, and the backwash pump 115 is connected to the backwash jet nozzle 116 of the filtration tank 113 in the treatment tank 119.

In the ninth step, the first end cap B having the inlet port 110a is joined to the open end of the pretreatment tank 111 in both sides of the body A of the first step, and the treatment tank 119 is finished. By joining and finishing the second end cap C having the outlet 110b at the side opening, a series of FRP-integrated non-point pollution reduction devices can be manufactured.

As described above, the present invention has an inlet, an outlet, and a manhole on one side and the other side, and is formed of reinforced plastic (FRP) material, and is separated into a pretreatment tank, a filtration tank, and a treatment tank by partition walls, and communicated with each other by a lower passage and an upper passage. An apparatus body; A drain pump and a backwash pump installed in each of the pretreatment tank and the treatment tank; A filter medium layer provided in the filtration tank; A backwash jet nozzle installed at each of the upper and lower portions of the filter media layer, and an air spray nozzle configured to receive air from a blower and spray air from the lower part of the filter media layer to the upper side to perform air backwashing on the filter media layer; The nonpoint pollutants contained in rainwater are filtered through precipitation and filtration processes, and suspended solids and oils, which are nonpoint pollutants, are removed with filters to make purified water below the standard value. It is possible to backwash with the air supplied from the air and the filtrate supplied from the upper side, as well as complete installation at the factory using reinforced plastic (FRP), thereby further increasing the speed and efficiency of the installation work due to the shortening of air. It is easy to manage, and it is possible to further increase the economic efficiency by reducing the manufacturing cost.

In the above, the FRP integrated non-point pollution reducing apparatus and its manufacturing method according to the present invention have been described in detail. However, the present invention is not limited thereto, and the present invention is not limited thereto. The range is determined and defined by. In addition, anyone of ordinary skill in the art will be able to make various modifications and imitations according to the description of the specification of the present invention, but it will be apparent that this is also outside the scope of the present invention.

110: device body 110a: inlet
110b: outlet 110c: manhole
110d: bulkhead 111: pretreatment tank
112: drain pump 113: filtration tank
114; Media layer 115: backwash pump
116: backwash jet nozzle 117: Brow
118: air spray nozzle 119: treatment tank
120: lower passage 121: upper passage

Claims (5)

delete delete delete A first step of forming the body A of the apparatus main body 110 of the reinforced plastic (FRP) material having both sides opened by a filament winding molding method;
A second step of forming a first end cap (B) and a second end cap (C) of a reinforced plastic (FRP) material bonded to both openings of the body A formed by the first step;
Reinforced plastics installed on the outer side of the manhole (110c) and the first end cap (B) and the second end cap (C) of the reinforced plastic (FRP) material is installed on the upper side of the body (A) of the first step A third step of forming the inlet (110a) and the outlet (110b) of the (FRP) material;
Punch a plurality of holes in the upper side of the body (A) of the first step to bond the manhole (110c) of the reinforced plastic (FRP) material formed by the third step, the first end cap of the second step ( A fourth step of joining the inlets 110a and the outlets 110b of the reinforced plastic (FRP) material by drilling holes on the outside of each of the B) and the second end caps (C);
After forming a plurality of partitions 110d of reinforced plastic (FRP) material corresponding to the inner diameter of the first step A, a lower passage 120 is formed in one partition 110d, and the other partition 110d. A fifth step of forming an upper passage (121);
A sixth step of joining the one side partition wall 110d having the lower passage 120 of the fifth step to the inside of the body A and partitioning the inside of the body A into the pretreatment tank 111 and the filtering tank 113; ;
The screen 111a and the drainage pump 112 are installed in the pretreatment tank 111 partitioned by the sixth step, and the filter media layer 114 and the backwash jet nozzle 116 are disposed in the filtration tank 113. A seventh step of installing;
The other partition wall 110d having the upper passage 121 of the fifth step is bonded to the inside of the body A to partition the inside of the body A into a filtration tank 113 and a treatment tank 119, and the treatment tank An eighth step of installing a backwash pump 115 connected to the backwash jet nozzle 116 of the filtration tank 113 in the interior of the 119;
The first end cap (B) having the inlet port (110a) is joined to the opening of the pretreatment tank (111) side in both sides of the body (A) of the first step, and the outlet ( A ninth step of joining and finishing the second end cap (C) having a 110b); manufacturing method of the FRP integrated non-point pollution reduction device comprising


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