KR102621125B1 - Contaminated water treatment system using a filtration module that can be used in military units - Google Patents

Abstract

The present invention can be used in military units and relates to a contaminated water treatment system that purifies contaminated water used for car washing into car washing water, and accepts the contaminated water containing foreign substances and raw water containing rainwater to settle sediments. Sedimentation tank 100;, Oil-water separation tank 200 that receives the raw water from which the sediment has been removed from the sedimentation tank 100 and separates and removes suspended matter including oil;, The suspended matter is removed from the oil-water separation tank 200 A filtration tank 300 that receives the raw water and filters the foreign substances through filtration; an adsorption tank 400 that receives the raw water filtered from the filtration tank 300 and adsorbs the foreign substances; all the foreign substances are removed a reuse tank 600 for discharging the raw water as washing water; and a filtration tank 312 formed in the filtration tank 300, a filtration tube 311 and a filtration filter 312 surrounding the upper part of the filtration tube 311. A filtration module 310, which includes a filtration plate 320 formed in the filtration tank 300 and horizontally separating the internal space of the filtration tank 300; a lower portion of the oil-water separation tank 200 and the and a third flow pipe 330 communicating with the lower part of the filtration tank 300, wherein the lower part of the filtration tank 300 and the space where the filtration filter 312 is located are separated by the filtration plate 320, The oil-water separation tank 200 includes an oil absorption cloth 210 that adsorbs the suspended matter, and a second flow pipe 260 that communicates the raw water from the upper part of the sedimentation tank 100 to the oil-water separation tank 200. In addition, the oil-water separation tank 200 is configured to include a removal hole 230 at the top for connecting and discharging the suspended matter to the outside.

Description

Contaminated water treatment system using a filtration module that can be used in military units}

The present invention relates to a contaminated water treatment system that can purify and recycle the wash water used in a car wash. Specifically, the contaminated water or rainwater used in car washing is purified by sedimentation, filtration, sterilization, etc. and used again for car washing. It is about a system for recycling so that it can be recycled.

Patent Document 001 is a degassing tank that supplies oxygen to wastewater brought in from a water collection tank through a first fluid treatment device to degas the nitrogen contained in the wastewater, and supplies aerobic microorganisms and oxygen to the treated water brought in from the degassing tank. It includes an activated sludge tank that decomposes organic matter by the aerobic microorganisms and a sedimentation tank that coagulates and precipitates sludge contained in the treated water brought in from the activated sludge tank, wherein the first fluid treatment device includes: A wastewater treatment facility is provided that sprays air into the wastewater sucked from an air tank, turns the air into microbubbles within the wastewater, supplies oxygen in the air into the wastewater, and degasses the nitrogen component in the wastewater. Therefore, by refining the oxygen in the air flowing in through the first microbubble generator into microbubbles in the wastewater, the contact area and contact time between oxygen and wastewater are significantly improved, thereby increasing reaction efficiency to suit the wastewater treatment process.

Patent Document 002 relates to a wastewater treatment system using cavitation, comprising a wastewater storage tank, a cavitation device that generates fine bubbles, a supply line including a circulation pump to supply wastewater from the wastewater storage tank to the cavitation device, and ; In the wastewater treatment system using cavitation, which includes a recovery line that returns the fine bubbles of the cavitation device to the wastewater storage tank, compressed air is provided to the wastewater contained inside the cavitation device by an air line connected to the cavitation device. It is composed of a first air supply unit that rotates the rotating disk and the rotating shaft of the cavitation device, and can perform wastewater treatment using the principle of cavitation, which generates fine bubbles in water, and cavitation that can obtain power or power. It is about the wastewater treatment system used.

Patent Document 003 includes an anaerobic tank into which wastewater flows, an anoxic tank into which wastewater that has passed through the anaerobic tank flows, an aerobic tank into which wastewater that has passed through the anoxic tank flows, a separation membrane module installed in the aerobic tank to filter polluting particles in the wastewater, and a separation membrane module. A suction pump installed in the membrane filtrate transfer pipe connected to the separation membrane module to provide suction power to the membrane module, a mixing tank into which membrane filtrate flows through the membrane module and flowing through the membrane filtrate transfer pipe, and the membrane filtrate passing through the mixing tank. An inflow flocculation tank, a flotation tank into which the membrane filtered water that has passed through the flocculation tank flows, an ozone supply device for supplying ozone to the membrane filtered water in the flotation tank through a fine bubble device installed in the flotation tank, and the treated water that has passed through the flotation tank. It includes an inflow treatment water tank and a collection pipe that is installed to connect the floating tank and the treatment water tank to transfer the treated water treated in the floating tank to the treatment water tank and has a plurality of inlets for the inflow of treated water. The wastewater treatment device according to the present invention has excellent wastewater treatment efficiency by maximizing the advantages of the biologically active sludge method, separation membrane technology, and dissolved ozone flotation technology.

KR 10-1682392 (Registration date: November 29, 2016) KR 10-2021-0087699 (Publication date: July 13, 2021) KR 10-1253673 (Registration date: April 5, 2013)

The present invention seeks to provide a purification system for purifying water used for washing and reusing it as washing water in washing vehicles and other vehicles using water.

In addition, the purification system of the present invention seeks to provide a more effective moisture purification system by going through various components that perform various processes such as precipitation, filtration, adsorption, and sterilization.

The invention according to an embodiment of the present invention is an invention for a contaminated water treatment system that purifies contaminated water used for car washing into car washing water, and accommodates the contaminated water containing foreign substances and raw water containing rainwater to settle sediments. A sedimentation tank;, an oil-water separation tank that receives the raw water from which the sediments have been removed from the sedimentation tank and separates and removes suspended solids, including oil;, an oil-water separation tank that receives the raw water from which the suspended solids have been removed from the oil-water separation tank and removes the foreign substances through filtration. A filtration tank for filtering; an adsorption tank for receiving the raw water filtered from the filtration tank and adsorbing the foreign substances; and a reuse tank for discharging the raw water from which all foreign substances have been removed into washing water.

The invention according to an embodiment of the present invention is an invention for a contaminated water treatment system for purifying contaminated water used for car washing into car washing water. In the invention presented above, the settling tank is a first silt tank; and a second silt tank connected to the tank and the first flow pipe, wherein the foreign matter precipitated in the first silt tank has a specific gravity greater than that of the foreign matter precipitated in the second silt tank.

The invention according to an embodiment of the present invention is an invention for a contaminated water treatment system for purifying contaminated water used for car washing into car washing water. In the invention presented above, the first flow pipe is connected to the upper part of the first silt tank and the It is configured to communicate with the lower part of the second silt tank.

The invention according to an embodiment of the present invention is an invention for a contaminated water treatment system for purifying contaminated water used for car washing into car washing water. In the invention presented above, the oil-water separation tank includes an oil absorption cloth for adsorbing the suspended matter; It consists of a composition that includes:

The invention according to an embodiment of the present invention is an invention for a contaminated water treatment system that purifies contaminated water used for car washing into car washing water. In the invention presented above, the oil-water separation tank connects the suspended matter to the outside at the top and It consists of a configuration including a removal hole that emits.

The invention according to an embodiment of the present invention is an invention for a contaminated water treatment system that purifies contaminated water used for car washing into car washing water. In the invention presented above, the oil-water separation tank spatially separates the suspended matter from the raw water. a separator plate; and a horizontal actuator that drives the separation plate.

The invention according to one embodiment of the present invention is an invention for a contaminated water treatment system for purifying contaminated water used for car washing into car washing water. In the invention presented above, the filtration tank filters out the foreign substances and filters only the raw water. It consists of a configuration including a filtration module.

The invention according to one embodiment of the present invention is an invention for a contaminated water treatment system that purifies contaminated water used for car washing into car washing water. In the invention presented above, the filtration module is configured to be provided in plural numbers.

The invention according to an embodiment of the present invention is an invention for a contaminated water treatment system for purifying contaminated water used for car washing into car washing water. In the invention presented above, it is formed in the lower part of the filtration tank and the internal space of the filtration tank. It consists of a configuration including a filter plate that separates horizontally.

An invention according to an embodiment of the present invention is an invention for a contaminated water treatment system that purifies contaminated water used for car washing into car washing water. In the invention presented above, the contaminated water treatment system has an internal space, and It consists of a rainwater storage tank that receives rainwater and is in communication with the precipitation tank.

The present invention relates to a contaminated water treatment system that can purify and recycle the wash water used in car washes, and aims to improve the water recycling rate by additionally using not only the contaminated water used in car washing but also rainwater supplied during precipitation. do.

In addition, the present invention seeks to provide an economical purification system by minimizing externally supplied power and simplifying the structure as much as possible.

1 is a structural diagram of a contaminated water treatment system according to an embodiment of the present invention.
Figure 2 is a structural diagram of an oil-water separation tank according to an embodiment of the present invention.
Figure 3 is a perspective view of a filtration tank according to an embodiment of the present invention.
Figure 4 is a structural diagram of a filtration tank and an adsorption tank according to another embodiment of the present invention.
Figure 5 is a structural diagram of a filtration tank according to another embodiment of the present invention.
Figure 6 is a configuration diagram including a car wash facility according to an embodiment of the present invention.
Figure 7 is a flowchart of the operation of a rainwater separation tank according to an embodiment of the present invention.
Figure 8 is a detailed structural diagram of a rainwater separation tank according to another embodiment of the present invention.

The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments presented below, but may be implemented in various different forms, and should be understood to include all conversions, equivalents, and substitutes included in the spirit and technical scope of the present invention. .

The embodiments presented below are provided to ensure that the disclosure of the present invention is complete and to fully inform those skilled in the art of the scope of the invention. In describing the present invention, if it is determined that a detailed description of related known technologies may obscure the gist of the present invention, the detailed description will be omitted.

The terms used in this application are only used to describe specific embodiments and are not intended to limit the invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, terms such as “comprise” or “have” are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but are not intended to indicate the presence of one or more other features. It should be understood that this does not exclude in advance the possibility of the existence or addition of elements, numbers, steps, operations, components, parts, or combinations thereof.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. In the description with reference to the accompanying drawings, identical or corresponding components are assigned the same drawing numbers and duplicate descriptions thereof are omitted. I decided to do it.

(Example 1-1) A contaminated water treatment system for purifying contaminated water used for car washing into car washing water, comprising: a settling tank (100) that receives the contaminated water containing foreign substances and raw water containing rainwater and settles sediments; , an oil-water separation tank 200 that receives the raw water from which the sediments have been removed from the sedimentation tank 100 and separates and removes suspended matter including oil; , receives the raw water from which the suspended matter has been removed from the oil-water separation tank 200 A filtration tank 300 that filters the foreign substances through a filtration action; an adsorption tank 400 that receives the raw water filtered from the filtration tank 300 and adsorbs the foreign substances; and the raw water from which all the foreign substances have been removed is washed water. Includes a reuse tank (600) discharged into.

The present invention relates to a contaminated water treatment system that purifies contaminated water used for car washing into car washing water. Referring to Figure 1, the present invention may include a sedimentation tank 100, an oil-water separation tank 200, a filtration tank 300, an adsorption tank 400, and a reuse tank 600. The settling tank 100 may be configured to receive contaminated water used in car washing and rainwater supplied by precipitation and allow foreign substances with a high specific gravity to settle to the bottom. The oil-water separation tank 200 may be configured to remove substances suspended in water, such as oil. The filtration tank 300 may be configured to filter foreign substances excluding moisture through micropores. The adsorption tank 400 may be configured to adsorb foreign substances to an adsorption filter. Lastly, the reuse tank 600 may be configured to discharge raw water washed through all of the above configurations as wash water for car washing.

The present invention may be a technology for cleaning contaminated water or rainwater used in car washing through the process of going through the above-described components and purifying it into washing water that can be used again for car washing.

(Example 1-2) In Example 1-1, the sedimentation tank 100 includes a strainer 111 through which the raw water flows.

(Example 1-3) In Example 1-1, the settling tank 100 includes a first silt tank 110; a second needle connected to the first silt tank 110 and the first flow pipe 140; It includes a sand tank 120; and the foreign matter precipitated in the first sand tank 110 has a greater specific gravity than the foreign matter precipitated in the second sand tank 120.

(Example 1-4) In Example 1-3, the first flow pipe 140 is made of PVC100A material.

(Example 1-5) In Example 1-3, the first flow pipe 140 communicates the upper part of the first sand tank 110 and the lower part of the second sand tank 120.

The sedimentation tank 100 of the present invention may include a strainer 111. The strainer 111 may be provided to allow contaminated water to flow as it passes through the process of being accepted into the silt tank. For example, if contaminated water flows from the top of the silt tank, it may be formed in a structure that closes the upper side.

Additionally, the sedimentation tank 100 of the present invention may include a first sediment tank 110 and a second sediment tank 120. The first silt tank 110 and the second silt tank 120 may be communicated through the first flow pipe 140, and the first flow pipe 140 moves moisture after foreign substances with a large specific gravity in the contaminated water have settled. It may be a configuration that is ordered. Accordingly, the first flow pipe 140 can receive water from the upper part of the first grit tank 110 and move it to the second grit tank 120. The inflow of water from the top of the first sand tank 110 may be to limit the movement of foreign substances in the lower part of the first sand tank 110 to the second sand tank 120.

The first flow pipe 140 may be made of a material that can be used as a pipe, such as plastic, synthetic resin, or stainless steel, but is preferably made of PVC100A. This is because these materials can secure better specifications than other materials in terms of corrosion, flow resistance, durability, etc.

(Example 2-1) In Example 1-1, the oil-water separation tank 200 includes an oil absorption fabric 210 that adsorbs the suspended matter.

(Example 2-2) In Example 2-1, a vertical actuator 220 is engaged with the oil absorption cloth 210 and controls the vertical movement of the oil absorption cloth 210 by a drive motor. .

The oil-water separation tank 200 of the present invention may be configured to remove foreign substances such as oil floating in water. For this purpose, an oil absorption cloth 210 may be included. The oil adsorption cloth 210 may be configured to absorb oil from the upper part of the oil-water separation tank 200.

The oil adsorption cloth 210 may be configured to remove oil floating on the upper side of the contaminated water contained in the oil-water separation tank 200, and may be equipped with a vertical actuator 220 that controls the vertical movement of the oil adsorption cloth 210. It can be included. The vertical actuator 220 allows the oil absorption cloth 210 to move to the upper surface of the contaminated water, absorb the oil, and move it again to remove it. The vertical actuator 220 can be controlled by a drive motor, and the drive motor can receive power from a solar panel 910 battery 920, which will be described later.

(Example 2-3) In Example 2-1, the oil-water separation tank 200 includes a removal hole 230 at the top for connecting and discharging the suspended matter to the outside.

(Example 2-4) In Example 2-1, the oil-water separation tank 200 includes a separation plate 240 that spatially separates the suspended matter from the raw water; a horizontal actuator that drives the separation plate 240; Includes (250);

The oil-water separation tank 200 of the present invention may include a removal hole 230. The removal hole 230 may form an opening communicating with the outside on the upper side of the oil-water separation tank 200 by utilizing the property of oil floating in water. As the contaminated water fills the oil-water separation tank (200), the oil automatically floats to the top. Therefore, when the contaminated water fills and the water level reaches the removal hole (230), floating matters such as oil can be naturally discharged through the removal hole (230). there is.

Additionally, the oil-water separation tank 200 may include a separation plate 240 and a horizontal actuator 250. The separation plate 240 may be configured to physically separate the oil suspended on the contaminated water from the moisture in the contaminated water. The separation plate 240 does not close the upper part of the oil-water separation tank 200 until the oil-water separation tank 200 is sufficiently filled with foreign substances such as oil or contaminated water, but after it is sufficiently filled, the horizontal actuator 250 By providing the driving force, the separation plate 240 can be driven to separate and close the upper side of the oil-water separation tank 200. In this way, the suspended matter is separated from the moisture of the contaminated water, and suspended matter such as oil can be removed more smoothly. For example, after separation by the separation plate 240, the oil can be removed through the oil absorption cloth 210.

(Example 2-5) In Example 2-1, a second flow pipe 260 communicating the raw water from the sedimentation tank 100 to the oil-water separation tank 200 is included.

(Example 2-6) In Example 2-5, the second flow pipe 260 receives the raw water from the upper part of the sedimentation tank 100.

Raw water can be moved from the sedimentation tank 100 to the oil-water separation tank 200 through the second flow pipe 260. The second flow pipe 260 can receive raw water from the upper part of the sedimentation tank 100 and flow it into the oil-water separation tank 200. The reason for providing it from the top may be to not allow sediment to flow, as in the reason for the first flow pipe 140.

(Example 3-1) In Example 1-1, the filtration tank 300 includes a filtration module 310 that filters the foreign substances and filters only the raw water.

(Example 3-2) In Example 3-1, the filtration module 310 includes a filtration tube 311; and a filtration filter 312 surrounding the upper part of the filtration tube 311.

(Example 3-3) In Example 3-2, a plurality of filtration modules 310 are provided.

The filtration tank 300 of the present invention may include a filtration module 310. The filtration module 310 may be configured to separate foreign substances and moisture components of raw water. Foreign substances can be filtered out and filtration can be provided by using a filtration filter 312 that allows water powder to pass through.

The filtration module 310 may include a filtration tube 311 and a filtration filter 312. The moisture component that has passed through the filtration filter 312 can be moved to another location through the filtration tube 311. A plurality of filtration modules 310 may be provided. Moisture components filtered from a plurality of filtration modules 310 may be collected and moved to the adsorption tank 400.

(Example 3-4) In Example 3-2, the filtration tube 311 is formed parallel to gravity, and the filtration filter 312 seals the upper side of the filtration tube 311.

(Example 3-5) In Example 3-3, the formation position of the filtration filter 312 formed in each of the plurality of filtration modules 310 is irregular.

The filter pipe 311 of the present invention can be supported perpendicular to the ground. The filtration filter 312 can seal the upper side of the filtration tube 311, and the moisture filtered through the filtration filter 312 can be moved to the filtration tube 311 and flow.

Additionally, the filtration filter 312 may not only be shaped to seal the upper side of the filtration tube 311, but may also be shaped to surround the middle or lower portion as needed. However, since the moisture that has passed through the filtration filter 312 must be moved to the filtration tube 311, it may be desirable to seal the upper side.

(Example 3-6) In Example 3-3, a filter plate 320 is formed in the lower part of the filtration tank 300 and horizontally separates the internal space of the filtration tank 300.

(Example 3-7) In Example 3-1, a third flow pipe 330 communicating between the oil-water separation tank 200 and the filtration tank 300 is included.

(Example 3-8) In Example 3-7, the third flow pipe 330 communicates with the lower part of the oil-water separation tank 200 and the lower part of the filtration tank 300.

(Example 3-9) In Example 3-8, the third flow pipe 330 includes a first pressure pump 340 that provides driving force for the flow of the raw water.

Raw water may be moved from the oil-water separation tank 200 to the filtration tank 300. The third flow pipe 330 may be a flow path that communicates the oil-water separation tank 200 and the filtration tank 300. The third flow pipe 330 may communicate with the lower part of the oil-water separation tank 200 and the lower part of the filtration tank 300. The reason for communicating with the lower part of the oil-water separation tank 200 is that the oil-water separation tank 200 is configured to remove foreign substances floating in the water, so the overall purpose of the present invention is to communicate and move raw water from the oil-water separation tank 200 through the lower part. This may be because it is consistent with purifying phosphorus-contaminated water.

Additionally, the third flow pipe 330 may communicate with the lower part of the filtration tank 300. This allows foreign matter or raw water moved from the oil-water separation tank 200 to flow from the bottom of the filtration tank 300 and fill it. The present invention may include a filter plate 320 that horizontally separates the internal space of the filter tank 300. The filter plate 320 may be made of a material that allows only moisture to pass through. In the process of filling the filtration tank 300, moisture may be formed to pass through the filtration plate 320. Of course, the filter plate can be made of a material that performs physical filtration and adsorption, and can also form a chemical bond with foreign substances to remove them. Substances that have passed through the filter plate 320 may later pass through the filtration filter 312 of the filtration module 310 and be filtered once more.

Therefore, the filtration tank 300 of the present invention can provide a primary filtration action in the filter plate 320 and a secondary filtration action in the filtration filter 312 of the filtration module 310, through which foreign substances are removed. Only the removed raw water can flow into the filtration tube (311).

The third flow pipe 330 may include a first pressure pump 340 that assists the flow of raw water. The third flow pipe 330 communicates with the lower part of the oil-water separation tank 200 and the lower part of the filtration tank 300, and the third flow pipe 330 may have an inverted U shape. Therefore, raw water may not flow smoothly, and to assist this, the first pressure pump 340 may provide flow driving force.

Additionally, the first pressure pump may be configured as an air lift device. An airlift device may be a device that induces the flow of fluid within a treatment system by spraying fluid containing bubbles. Specifically, in FIGS. 1 and 4, the first pressure pump 340 or the second pressure pump 430 may provide various fluid flow driving forces, but is preferably configured as an error lift device as described above. .

(Example 4-1) In Example 3-1, a raw water purification tank 500 is provided with a UV lamp 510 that receives the raw water from the adsorption tank 400 and provides sterilization and deodorization effects. .

The present invention may further include a raw water purification tank (500). The raw water purification tank 500 may be equipped with a UV lamp 510 that provides sterilization and deodorization effects. However, of course, it is possible to provide infrared rays such as an IR lamp as well as an ultraviolet lamp.

(Example 4-2) In Example 4-1, a fourth flow pipe 420 communicating from the adsorption tank 400 to the raw water purification tank 500 is included.

(Example 4-3) In Example 4-2, the fourth flow pipe 420 includes a second pressure pump 430 that provides driving force for the flow of the raw water.

(Example 4-4) In Example 4-1, the adsorption tank 400 includes an adsorption module 410 that adsorbs and filters the foreign substances.

The adsorption module 410 of the present invention may have a similar configuration to the filtration module 310 described above. If the filtration module 310 is configured to filter out foreign substances through filtration, the adsorption module 410 may be configured to filter out foreign substances through adsorption. In addition, the fourth flow pipe 420 and the second pressure pump 430 may have the same technical content as the third flow pipe 330 and the first pressure pump 340.

(Example 5-1) In Example 1-1, the contaminated water treatment system includes a rainwater storage tank 700 having an internal space, receiving rainwater, and communicating with the settling tank 100. .

The present invention may include a rainwater storage tank 700, and the rainwater storage tank 700 may be configured to pass through rainwater due to precipitation before flowing into the settling tank 100. Referring to FIGS. 6 and 7, the rainwater storage tank 700 may be configured to initially receive rainwater and flow the rainwater into the settling tank 100.

In addition, the rainwater storage tank 700 can discharge the initial rainwater to the outside as it contains many foreign substances, as shown in the sequence shown in FIG. 7, and only rainwater with relatively few foreign substances can be supplied to the treatment system of the present invention.

(Example 5-2) In Example 5-1, the rainwater storage tank 700 includes a first mesh network 710 that closes the upper part of the internal space; a rainwater hole communicating with the sedimentation tank 100 ( 720);, a separation membrane 730 that separates the internal space and separates the rainwater hole 720 from sediment generated from the rainwater.

(Example 5-3) In Example 5-2, the separator 730 is formed from the superior hole 720 to the upper side of the inner space to separate the inner space, and the upper side of the separator 730 The rainwater flows into the rainwater hole 720 through the opening.

Referring to FIG. 8, the rainwater storage tank 700 of the present invention may include a first mesh network 710, a rainwater hole 720, and a separation membrane 730. The first mesh network 710 may be a mesh network that closes the internal space of the rainwater storage tank 700 from the top. The rainwater hole 720 may serve as an entrance to transport rainwater to the sedimentation tank 100. The separator 730 may be configured to prevent foreign substances from flowing into the rainwater hole 720.

The separation membrane 730 can partially divide the internal space of the rainwater storage tank 700 into a space including the rainwater hole 720 and other spaces. Referring to FIG. 8 , a separation membrane 730 may be formed from the rainwater hole 720 to the upper side of the inner space of the rainwater storage tank 700 to block foreign substances from entering through the rainwater hole 720. In order for rainwater to move through the rainwater hole 720, the rainwater must move through the upper opening of the separator 730. Since these rainwater must flow in from the top of the internal space, foreign substances that settle in the water can be blocked from flowing into the rainwater hole 720.

(Example 5-4) In Example 5-2, the rainwater separation system initially receives the rainwater, communicates with the rainwater storage tank 700, and is provided with a second mesh net 810 at the top to filter out foreign substances. Includes trillion (800);

The present invention may further include a good selection tank 800. The rainwater sorting tank 800 may be configured to primarily select foreign substances of large size or volume in preparation for foreign substances flowing in along with rainwater. As shown in Figures 6 and 7, before flowing into the rainwater storage tank 700, rainwater may be moved after first passing through the rainwater separation tank 800. The waste sorting unit 800 can select and remove foreign substances through the second mesh network 810.

(Example 6-1) In Example 4-1, the contaminated water treatment system includes a car wash facility (900) where the vehicle is stopped during car washing and is provided with a roof, and the roof is a solar collector (910). It is formed at an angle with respect to the ground, forming a structure in which rainwater is collected into the rainwater storage tank 700 during precipitation.

(Example 6-2) In Example 6-1, a battery 920 that stores the power generated from the solar collector 910 is included.

(Example 6-3) In Example 6-2, the power stored in the battery 920 is used for the UV lamp 510.

Referring to FIGS. 6 and 7 of the present invention, a car washing facility 900 may be further included. The car wash facility 900 may refer to a space or facility where a vehicle can be stopped during a car wash. The car wash facility 900 may be equipped with a roof, and the roof may be formed of a solar heat collection plate 910. In addition, the roof is formed to be inclined with respect to the ground, so that during precipitation, rainwater can be naturally transferred to the rainwater storage tank 700 or the rainwater separation tank 800.

In addition, the power generated from the solar panel 910 can be stored in the battery 920, and the power stored in the battery 920 can later be used to operate the UV lamp 510 or the first and second pressure pumps 430. Shiki can be provided as an energy source.

In the specification (particularly in the claims) of the present invention, the use of the term “above” and similar referential terms may refer to both the singular and the plural. In addition, when a range is described in the present invention, the invention includes the application of individual values within the range (unless there is a statement to the contrary), and each individual value constituting the range is described in the detailed description of the invention. It's the same.

The use of any examples or illustrative terms (e.g., etc.) in the present invention is merely for explaining the present invention in detail, and unless limited by the claims, the scope of the present invention is limited by the examples or illustrative terms. It doesn't work. Additionally, those skilled in the art will recognize that various modifications, combinations and changes may be made according to design conditions and factors within the scope of the appended claims or their equivalents.

Therefore, the spirit of the present invention should not be limited to the above-described embodiments, and the scope of the patent claims described below as well as all scopes equivalent to or equivalently changed from the scope of the claims are within the scope of the spirit of the present invention. It will be said to belong to

100: sedimentation tank 110: first sediment tank
120: Second silt tank 200: Oil-water separation tank
210: Oil absorption cloth 240: Separation plate
250: horizontal actuator 300: filtration tank
310: Filtration module 311: Filtration tube
312: filtration filter 320: filtration plate
400: adsorption tank 500: raw water purification tank
600: Reuse tank 700: Rainwater storage tank
800: Excellent selection group 900: Car washing facility

Claims (2)

delete In the contaminated water treatment system that can be used in military units and purifies contaminated water used for car washing into car washing water,
A sedimentation tank (100) that receives the contaminated water containing foreign substances and raw water containing rainwater and settles sediments;
An oil-water separation tank (200) that receives the raw water from which the sediment has been removed from the sedimentation tank (100) and separates and removes suspended solids including oil;
A filtration tank (300) that receives the raw water from which the suspended matter has been removed from the oil-water separation tank (200) and filters out the foreign substances through a filtration action;
An adsorption tank 400 that receives the raw water filtered from the filtration tank 300 and adsorbs the foreign substances;
It includes a reuse tank 600 for discharging the raw water from which all foreign substances have been removed into washing water,
A filtration module 310 is formed in the filtration tank 300 and includes a filtration tube 311 and a filtration filter 312 surrounding an upper portion of the filtration tube 311,
A filter plate 320 formed in the filtration tank 300 and horizontally separating the internal space of the filtration tank 300;
It includes a third flow pipe 330 communicating between the lower part of the oil-water separation tank 200 and the lower part of the filtration tank 300,
The lower portion of the filtration tank 300 and the space where the filtration filter 312 is located are separated by the filtration plate 320,
The oil-water separation tank 200 includes an oil absorption fabric 210 that adsorbs the suspended matter,
It includes a second flow pipe 260 communicating the raw water from the upper part of the sedimentation tank 100 to the oil-water separation tank 200,
The oil-water separation tank 200 includes a separation plate 240 that spatially separates the suspended matter from the raw water; and
A contaminated water treatment system including a horizontal actuator 250 that drives the separation plate 240.