KR101692678B1 - Apparatus with Fliter and Back Wash Function of Non-point Pollutants removal facility - Google Patents

Abstract

The present invention relates to a filtration and backwash device non-point pollution reduction facility, comprising: a pretreatment tank provided with an impurity collection net to remove large impurities from rainwater flowing in; a filtration tank which receives the rainwater pretreated on one side of the pretreatment tank, filtrating impurities included in the pretreated water; and a discharge tank which collects and discharges the filtrated water to an external water tank on one side of the filtration tank, wherein a first lifting manhole to draw and remove impurities is formed on the upper portion of the pretreatment tank, a backwash tank storing the filtrated water and used at the time of backwash formed on the upper portion of the filtration tank, a second lifting manhole to check the filtration tank is formed on the upper portion of the discharge tank, a filtration body which filtrates impurities from the pretreated water from which large impurities are removed in the pretreatment tank which is installed in the filtration tank, the filtration body provided with a backwash air supply port which supplies compressed air based on driving of a blower to backwash the filter body at the time of finishing the filtration process on the lower portion thereof, a first water level sensor installed in the ceiling portion of the backwash tank, a third water level sensor installed in a bottom portion of the first water level sensor, a second water level sensor installed in the upper portion of the discharge tank, a sixth water level sensor installed in a bottom portion of the discharge tank, a fourth water level sensor installed in the bottom portion of the pretreatment tank, a fifth water level sensor installed in the upper portion of the pretreatment tank, a control unit which controls a pump and a water gate of the backwash tank in accordance with the detected water levels of the first to sixth water level sensors and controlling driving of the blower installed and charging backwash water, and supply and cutoff of backwash water and backwash air controlled to perform filtration and backwash.

Description

 BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to filtration and backwashing facilities for nonpoint pollution abatement facilities,

 The present invention relates to a technique for reducing nonpoint pollutants that prevent water pollution caused by pollutants discharged from an unspecified area into a sewer pipe or a river. The nonpoint pollutant contained in the rainwater is filtered through a filter And a filtration and backwashing device for a non-point pollution abatement facility that improves filtration performance by cleaning foreign matter adhered to the filtration body when the filtration process is completed.

 In general, various pollutants in unspecified places during rainfall are introduced into rivers or storm sewers together with rainwater, and there is a backwashing device for washing the filtration device and filtration device to filter nonpoint pollutants contained in such rainwater One nonpoint pollution abatement device is widely known.

 In the prior art related to the above non-point pollution abatement apparatus, Korean Patent Registration No. 10-1288331 'Automatic backwash non-point pollution treatment apparatus using floating filter media' is known. As shown in FIG. 1, A filtration chamber 120 formed at an upper end of the main body 110 at one side of the main body and having a plurality of longitudinal inflow passages 121 formed at the lower surface thereof and communicating with the outflow line 112; And a cleaning means 140 formed on the filtration chamber 120 for cleaning the floating filter media 130. The cleaning means 140 may be formed on the bottom of the floating filter media 130, And a plurality of injection nozzles 144 formed on the washing inflow line 141 and the washing inflow line 141 into which the air or the washing water is introduced and the floating filter material is occluded through the water level sensor 160, Rising water level due to leakage is not smooth And the automatic backwashing is carried out by automatically activating the washing means.

 The above-described prior art floating filter backwash means is a device for supplying backwashing air or washing water through a spray nozzle to a floating filter bag containing floating filter media, but air or washing water to be supplied is located on the side facing the lower face of the floating filter bag However, even if the air or wash water supplied does not act or acts on the floating filter media located above the floating filter media in which foreign matter adheres to the outside of the filter media and a large number of floating filter media adhere to the filter media, There is a problem that incomplete cleaning is performed due to a small amount.

 As shown in FIG. 2, the conventional non-point pollution treatment apparatus includes a settling tank 102 and a filtration tank 104, and a filtration tank 124 is connected to the non- Is divided into a distribution space 152 below the filter unit 126, a filtration space 150 above the filter unit and a storage space 154 separated from the filtration space by the separation wall 136. During backwashing, The settling tank pump 114 is operated to remove the wastewater stored in the settling tank 102 and the treated water pump 134 is operated to feed the treated water to the upper portion of the filter unit 126 and the lower distribution space 152 of the filter unit A technique of performing backwashing by spraying is known.

 Another backwashing method of the prior art described above is to spray the water at the upper and lower portions of the filter media portion to clean the filter media so that the backwashing water does not reach the middle portion of the filter media, It is impossible to separate them from each other. As a result, the foreign matter adhered to the middle portion of the filter medium due to the foreign matter does not adhere to the upper and lower portions of the filter medium, .

 In addition, the non-point pollution abatement device having a structure for introducing the rainwater into the upper part of the filtration device in the nonpoint pollution abatement device for filtering and discharging the foreign substances contained in the rainwater through the filtration device, Therefore, the high-quality injection point of the filter media is concentrated in a large amount of foreign matter, and the clogging is rapidly proceeding, thereby causing a problem of deteriorating the performance of the filtration device within a short period of time.

 Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a filtration apparatus for filtration of contaminants having a predetermined size or larger, After completion of the superior filtration process, clean water and pressure air, which have been removed from the filter body in the direction opposite to the filtration progress direction, are sprayed together, and the filtrate is washed back with water and pressure air. And an object of the present invention is to provide a filtration and backwashing apparatus for a nonpoint pollution abatement facility in which filtration performance is improved.

 In order to solve the above-described problems, the present invention provides a pretreatment apparatus comprising: a pretreatment tank (1) having a contaminant collecting net collecting large sized contaminants from an inflowing storm; A filtration tank (2) for supplying foreign substances pre-processed to one side of the pretreatment tank and filtering foreign substances contained in the pretreatment water; And a discharge tank (4) for collecting the filtered treated water at one side of the filtration tank (2) and discharging the filtrated treated water to an external water storage tank, characterized in that at the top of the pretreatment tank (1) A backwash water tank (5) used for backwashing is formed in the upper part of the filtration tank (2), and a filtration tank check is made on the upper part of the discharge tank (4) And a filtration body (7) for filtering foreign substances from the pretreated water from which a large amount of contaminants have been removed is provided in the filtration tank (2), and the filtration body (7) is provided with a backwash air supply port (8) for supplying backward pressure air to the filter body by blowing air at the bottom of the filtration process, and a first level sensor (20) is installed at the ceiling of the backwash water tank , A third water level sensor (21) is installed on the bottom of the water tank (4), and a second water level sensor A water level sensor 22 is installed and a sixth water level sensor 23 is installed at the bottom of the discharge tank and a fourth water level sensor 24 is installed at the bottom of the pre- A water level sensor 25 for detecting the level of the water level of the first to sixth water level sensors and a control unit 27 for controlling the pump and the backwash water level and controlling the operation of the blower, And a filtration and backwashing device for a non-point pollution abatement facility in which filtration and backwashing processes are controlled by controlling supply and shut-off of backwash water and backwash air. The pretreatment tank (1) may further include a dirt collecting tank (13) and a ditch water tank (14) therein.

 The filtration body 7 is formed by forming a perforated plate or a netting in a hexahedron having a predetermined size and filling a filter medium therein, and the filtration body 7 is provided with a plurality of filtration And a filter body (7) is mounted on each of a plurality of grid structures of the filter body mounting frame, and the filter body installation space of the filter body (2) A vertical wall 9 is formed at a predetermined height on the inner bottom surface of the filtration tank 2 and an upper surface and a lower surface of the filtration tank 2 are connected to each other at a predetermined distance from the vertical wall 9, And the outer frame of the filter body mounting frame 18 is formed in a space in which it is closely attached between the vertical wall 9 and the partition wall 10 and between the front and rear walls of the filtration tank 2. [

 A pretreatment water dispersion plate 11 is installed on the upper portion of the filtration body 7 so that pretreatment water containing foreign matter can be dispersed and introduced into the upper portion of the filtration body 7 from the pretreatment tank 1, The plate 11 has a pretreatment water inflow section 11a through which pretreatment water flows and a catching section 11b through which the left and right sides of the pretreatment water dispersing plate 11 are fixed over the upper end of the vertical wall 9, A plurality of protrusions 11d having a plurality of grooves 11c at predetermined intervals are formed on the right and left sides in the longitudinal direction of the water dispersion plate 11 and a plurality of through holes 11d are formed on the entire bottom surface 11e of the pre- And the pedestal 11g is formed at the lower end of the other side of the pretreatment water dispersion plate 11. [

 The contaminant collecting tank 13 is formed of a rectangular tube body 13a which is enclosed by a vertical wall on the side of the storm inflow port 12 of the pretreatment tank 1 and which has a lower portion closed and an upper portion thereof opened, A contaminant collecting net (13c) for collecting large-sized contaminants contained in the stormwater is provided on the end side of the storm inlet (12), and a pretreatment water having the contaminants removed from the vertical wall of the rectangular watertight vessel (13) And the water retention tank 14 is provided at one side of the rectangular tube body 13a so as to prevent the large contaminants from being removed from the contaminant collecting tank 13, Through the through hole (13b) of the cylinder (13a) so as to be discharged in the tangential direction of the outer diameter of the water separator (14).

 The cylindrical body 14a has a cylindrical body 14a having a predetermined length and a cylindrical tube 15 having an open top and a closed bottom at its central portion. The cylindrical body 14a has a circular tube 15, The upper portion of the cylindrical body 13a is closed and the lower portion thereof is opened and the unevenness discharged from the through hole 13b of the rectangular tube body 13a is rotated in the direction of the spiral at a predetermined position of the upper end of the cylindrical body 14a, And the lower end of the cylindrical tube 15 is formed to extend from the lower end of the cylindrical body 14a so as to protrude by a predetermined length , And a plurality of discharge holes (15a) are formed on the lower side of the cylindrical pipe (15) by spacing them at regular intervals on the circumference.

 The filtration body 7 has a hexahedron rim 7a as a frame, a wire mesh plate 7b on each side of the hexahedron and a fibrous filter medium 7c having a predetermined thickness on the bottom wire mesh plate And the wire mesh 7d is stacked on the fibrous media 7. An upper portion of the wire mesh 7d is filled with granular particulate media 7e to form the media material layer 7i, A filter body cover 7f made of a wire mesh plate is disposed so as to have a predetermined space 7j at an upper portion of the granular material 7e while being spaced apart from the upper end of the granular filter medium 7e by a predetermined distance, A plurality of holes 7g are formed in the wire mesh 7c and the wire mesh 7d by spacing the holes 7g at a predetermined distance, and a connection pipe 7h having a predetermined length is inserted into these holes, Is formed to have a length extending to the middle portion of the filter medium 7e, Air inlet (8) is provided between the filtration tank to the bottom surface of the filter element mounting frame and a lower end.

 The backwash air supply port 8 supplies compressed air to the filter material through a connecting pipe 7h provided inside the filter 7 and a plurality of jet nozzles The manifold 19a is formed with a lattice structure in which a plurality of connecting pipes 7h formed in the filtration body 7 are provided with a manifold 19a, So that the supply nozzle 19c is formed.

 The filtration and backwashing apparatus and method of the nonpoint pollutant abatement facility according to the present invention firstly removes contaminants and oil of a predetermined size or more from the initial stormwater and re-filtrates the water from which the first foreign matter is removed through granular filtration media and fibrous media , An effect that SS (suspended matter) is filtered by 80% or more is generated.

 The filtration and backwashing apparatus and method of the nonpoint pollutant abatement facility according to the present invention are characterized in that the rainwater containing the large amount of foreign matter that has been primarily filtered is dispersed through the dispersion plate and introduced into the filter body, There is an effect of preventing the phenomenon that the fine inflow portion of the filtration member is quickly clogged by the foreign substance, thereby improving the filtration membrane performance.

 The filtration and backwashing apparatus and method of the nonpoint pollutant abatement facility according to the present invention simultaneously supplies pressure air for backwashing and water for backwashing in the backwashing so that the pressure air is sprayed toward the filter material in the water for backwashing, The foreign matter adhering to the surface of the substrate can be smoothly removed.

 The filtration and backwashing apparatus and method of the nonpoint pollutant abatement facility according to the present invention allows the backwashing pressure air to be simultaneously sprayed in the lower portion of the filtration body and the granular filtration media in the backwashing, All of which are forcedly scattered and collided, and the effect of smooth separation of the foreign matter adhering to the granular media is generated.

 The filtration and backwashing apparatus and method of the nonpoint pollutant abatement facility according to the present invention separately stores the filtered water for backwashing in the backwashing, detects the water level of the backwash water and the discharged water, The backwashing is repeatedly performed, and the foreign substances adhering to the filter material can be completely washed.

1 and 2 are diagrams showing a conventional technique of a non-point pollution abatement apparatus.
3 is a view schematically showing a front side cross-section of a non-point pollution apparatus according to the present invention.
4 is a schematic plan view of a non-point pollution apparatus according to the present invention.
5 is a view showing a connection structure of the pretreatment tank, the filtration tank and the discharge tank according to the present invention.
FIG. 6 is a view schematically showing a front side cross-section of a non-point pollution apparatus including a clogging treatment tank and a water separation tank according to the present invention.
FIG. 7 is a schematic plan view of a non-point pollution apparatus according to the present invention; FIG.
FIG. 8 is a view showing a connection structure of a pretreatment tank, a filtration tank and a discharge tank of a non-point pollution apparatus according to the present invention.
9 is a view schematically showing a manhole installation state according to the present invention.
10 is a view showing a pretreatment water dispersion plate according to the present invention.
FIG. 11 is a view showing the flow of stormwater flowing through the clogging treatment tank and the water separator included in the pretreatment tank according to the present invention.
12 is a view schematically showing a water distribution tank according to the present invention.
13 is a view schematically showing a filter body according to the present invention.
Fig. 14 is a view showing a filter body mounting frame according to the present invention. Fig.
15 is a view showing a backwashing air supply port according to the present invention.

 The embodiments described in the specification of the present invention and the configurations shown in the drawings are illustrative of preferred embodiments of the present invention and do not represent all the technical ideas of the present invention, It is to be understood that various equivalents and modifications are possible.

 DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a filtration and backwashing apparatus of a nonpoint pollution abatement facility of the present invention will be described in detail with reference to the accompanying drawings.

 As shown in FIGS. 3, 4 and 5, the filtration and backwashing apparatus of the nonpoint pollution abatement facility according to the present invention is an apparatus for filtering nonpoint pollutants contained in rainwater flowing in rainfall, A pretreatment tank (1) having a trapping net collecting a large amount of contaminants; A filtration tank (2) for supplying foreign substances pre-processed to one side of the pretreatment tank and filtering foreign substances contained in the pretreatment water; The filtration tank 2 is formed at one side thereof with a discharge tank 4 for collecting the filtered treatment water and discharging the treated water to the outside.

 As shown in FIGS. 6, 7 and 8, the pretreatment tank 1 is provided with a scum trapping net 13c to collect and remove large-sized scum, And a water tank (14) for removing water from the water tank.

 As shown in FIGS. 3 and 5, a first impression manhole 3 for drawing out and removing contaminants is formed in the upper portion of the pretreatment tank 1, and filtered water is stored in the upper part of the filtration tank 2 A backwash water tank 5 used for backwashing is formed and a second impression manhole 6 for checking the filtration tank is formed in the upper part of the drainage tank 4. The first and second impression manholes are provided with a lid 28 And can be manually opened and closed by the operation of the cylinder 28a as shown in Fig. 9, and the lower portion of the partition dividing the backwash water tank 5 and the second impression manhole 6 is provided with a backwash water tank (G1) for supplying or blocking the backwash water filled in the filtration tank (5) to the lower side of the filtration tank (2) through the discharge tank (4).

 As shown in FIGS. 3 to 8, the filtration unit 2 is provided with a filtration unit 7 for filtering foreign substances from the pretreated water from which large contaminants have been removed in the pretreatment tank 1, and the filtration unit 7 Is provided with a backwash air supply port (8) for supplying backward the pressure air from the lower part of the filtration body in the direction opposite to the filtration direction and backwashing the pressure air by the blower (26) at the end of the filtration process.

 3, 6 and 13, the filtration body 7 is formed in a hexahedron having a predetermined size, and the filter medium 7 is filled in the filtration body 7, A filter body mounting frame 18 having a lattice structure for mounting a plurality of filter bodies in a body installation space is provided and the filter bodies 7 are mounted on each of the plurality of lattice structures of the filter body mounting frames.

 5 and 8, the vertical wall 9 is formed at a predetermined height on the inner bottom surface of the filtration tank 2, And the upper and lower surfaces of the filtration tank 2 are connected to each other at a distance to form a partition wall 10 so that the outer frame of the filtration body mounting frame 18 is sandwiched between the vertical wall 9 and the partition wall 10, And the space between the front and rear walls of the main body 2.

 As shown in FIGS. 5 and 8, the vertical wall 9 is provided at a lower portion thereof with an upper end portion of an excellent vertical wall 9 from which large contaminants are removed from the pretreatment tank 1, (10) is formed by connecting the upper plate and the bottom plate of the filtration tank (2), and the lower bottom plate side of the partition wall (10) Thereby forming a plurality of through-water gates 1a through which the treated water is transferred to the discharge tank 4. [

 As shown in FIGS. 5 and 8, a pretreatment water dispersing plate (not shown) is provided on the upper portion of the filtration body 7 so that pretreatment water containing foreign substances from the pretreatment tank 1 can be dispersed into the upper portion of the filtration body 7 11).

 10, the preprocessed water distributing plate 11 has a structure in which right and left sides of the pretreatment water inflow portion 11a and the pretreatment water dispersing plate 11 through which the pretreated water flows into one side are disposed over the upper end of the vertical wall 9 A protruding step 11d having a plurality of grooves 11c at predetermined intervals is formed on the left and right of the longitudinal direction of the pretreatment water dispersion plate 11 and a pretreatment water dispersing plate 11 A plurality of through holes 11f are formed at a predetermined distance on the entire bottom surface 11e of the pre-treatment water distribution plate 11 and a pedestal 11g is formed on the other side lower end of the pre-

 The upper end of the vertical wall 9 is formed by protruding both ends so that the pretreatment water inflow portion 11a of the pretreatment water dispersion plate 11 is seated and the latching hole 11b can be installed, And a space of a predetermined size is formed between the pretreatment water dispersion plate 11 provided at the upper end of the vertical wall and the filtration body 7 by being formed higher than the upper surface of the filtration body 7 by a predetermined length.

 When the pretreated water flows into the pretreatment water inflow portion 11a of the dispersion plate 11 by installing the pretreatment water dispersion plate 11 on the upper portion of the filtration body 7, A predetermined amount of the pretreated water falls down to the upper portion of the filtration body 7 through the small through-hole 11f formed in the bottom surface 11e, while the protruding protrusion 11d formed on the left and right sides, The remaining pretreatment water drops into the filtration body 7 through the groove 11c of the protruding step 11d formed on the right and left sides of the pretreatment water dispersion plate so that the pretreated water flowing into the filtration body 7 So that they can be scattered and not concentrated.

 That is, when the pretreatment water containing foreign matter is concentratedly introduced into one portion of the filtration body, the portion where the pretreatment water concentrates is rapidly clogged by foreign matter, and then spreads to the entire filtration body 7, The pretreatment water introduced into the filtration body 7 is uniformly dispersed in the upper portion of the filtration body 7 through the pretreatment water dispersion plate 11 so as to be introduced.

 As shown in Figs. 6, 7 and 8, the contaminant collecting tank 13 formed inside the pretreatment tank 1 is surrounded by a vertical wall on the side of the inflow port 12 of the pretreatment tank 1, (13c) for collecting large-sized contaminants contained in the storm is provided on the end side of the inner storm inlet (12) of the square tube (13a) A through hole (13b) for supplying the pretreated water from which contaminants have been removed to the water / oil separation tank (14) is formed in the vertical wall of the tubular body (13a)

 6, 7, and 11, the water repelling tank 14 is installed at one side of the inner square cylinder 13a of the pretreatment tank 1, Is disposed so as to be discharged in the tangential direction of the outer diameter of the water separator tank (14) through the through hole (13b) of the square cylinder (13a).

 11 and 12, the cylindrical body 14a is formed to have a predetermined length, and a cylindrical tube 15 having an upper portion opened and a lower portion sealed is installed in the center portion , The cylindrical body 14a seals the upper portion around the circular tube 15 and opens the lower portion. A guide plate (not shown) having a predetermined height to be able to flow into the cylindrical tube 15 while rotating in the direction of the spiral from the through hole 13b of the rectangular tube 13a is provided at a predetermined position of the upper end of the cylindrical body 14a 16).

 12, the upper end of the cylindrical pipe 15 is closed, the lower end thereof is closed, and the lower end portion of the cylindrical pipe 14 is extended to protrude a predetermined length from the lower end of the cylindrical body 14a. On the lower side, a plurality of discharge holes 15a are formed on the circumference at regular intervals.

 As shown in FIG. 12, the rainwater flowing through the circular pipe 15 is discharged through the discharge hole 15a to reduce the flow velocity, thereby raising the oil contained in the rainwater and precipitating foreign matter The clean water is discharged through the open lower portion of the cylindrical body 14a and guided by the vertical wall 9 of the filtration tank 2 to be supplied to the pretreatment water dispersion plate 11 So that it can be introduced into the filtration tank 2. As shown in Fig. 11, the oil suction pipe 17 is installed at one side of the upper part of the oil separator tank 14 so that oil raised to the upper side of the oil can be sucked and removed.

 As shown in Fig. 13, the filtration body 7 has a frame 7a in the form of a frame, and a frame 7a in the form of a hexahedron, A wire mesh plate 7b is provided on each side, a fibrous filter medium 7c of a certain thickness is provided on the top of the bottom side wire mesh plate, a wire mesh 7d is laminated on the top of the fibrous filter medium, The filter material cover 7f made of a wire mesh plate is formed so as to have a predetermined space 7j on the upper portion of the filter material layer 7i by filling the particulate particulate filter material 7e on the upper surface 7d of the filter material layer 7i, 7f are spaced apart from the upper end of the particulate media 7e by a predetermined distance.

 A plurality of holes 7g are formed in the wire mesh plate 7b, the fibrous filter media 7c and the wire mesh 7d provided on the bottom surface with a predetermined spacing therebetween. Is inserted and fixed. The connection pipe 7h is formed to have a length extending to the middle portion of the particulate filter medium 7e constituting the filter medium layer.

 As shown in FIG. 14, the filter body mounting frame 18 having a plurality of lattice structures for providing a plurality of filter bodies 7 is provided at a predetermined height from the bottom surface of the filtration tank 2, 19, and a backwash air supply port 8 is provided between the lower end of the filtration body mounting frame 18 and the bottom surface of the filtration tank 2.

 3, 6, and 15, the backwash air supply port 8 is connected to the bottom of the filtration body 7 by supplying compressed air to the filtration media through a connection pipe 7h provided inside the filtration body 7, A manifold 19a having a lattice structure provided with a plurality of injection nozzles 19b is formed so as to inject compressed air and a plurality of connection pipes 7h formed in the filtration body 7 are formed in the manifold 19a, The supply nozzle 19c is formed at a position where the pressure air can be supplied to any one of the plurality of nozzles.

 That is, when the filter medium is backwashed, compressed air is supplied through one of the plurality of connection tubes formed in one filter body 7, and when the compressed air is supplied to the particulate filter medium, Due to the space provided at the upper portion of the filter media, the filter particles are scattered in the filtration body, and at this time, the filter media particles can bite each other and easily separate the foreign substances adhered to the particles.

 The non-point pollution reduction facility filtration and backwashing apparatus according to the present invention detects the water level of the nonpoint pollution reduction facility and installs a plurality of water level sensors in the nonpoint pollution reduction facility so that the backwash process control is performed based on the detected water level.

 More specifically, as shown in Figs. 3 and 6, a first water level sensor 20 for detecting the full charge state is provided on the ceiling portion of the backwash water tank 5 for storing the reverse water wash water, and the first water level sensor 20 for charging the backwash water tank And a second water level sensor 22 for detecting the full state of the filtered water (treated water) transferred from the filtration tank to the upper portion of the discharge tank 4. The third water level sensor 21 detects the presence / And a sixth water level sensor 23 for detecting the presence or absence of the treated water filled in the discharge tank is provided at the bottom of the discharge tank 4. The presence or absence of the pretreated water is detected at the bottom of the pretreatment tank 1 A fourth water level sensor 24 is provided and a fifth water level sensor 25 for detecting the full filling state of the pre-treatment water is provided on the upper part of the pre-treatment tank.

 A controller 27 for controlling the pump G1 and the water gate G1 of the backwash water tank and controlling the operation of the blower 26 is installed in accordance with the detection of the water level of the first to sixth water level sensors, And the supply and shut-off of the backwash air are controlled so that the filtration and the backwashing process can be performed.

 Next, in the filtration and backwashing apparatus of the non-point pollution abatement facility according to the present invention, the water level is detected from the water level sensors, and the filtration and backwashing process proceeding will be described in detail.

 First, the filtration process for filtering rainwater by the filtration body 7 causes the large-sized contaminants and oil fractions contained in the rainwater to be collected through the contaminant collecting net 13c and the water separating tank 14 installed in the pretreatment tank 1, (Step 1).

 Next, as shown in Figs. 5 and 8, the pretreated water in the pretreatment tank is introduced into the filtration tank 2, and the pretreatment water is passed downward from the upper portion of the filtration body 7 to the granular filtration media 7e of the filtration body 7, And the foreign matters are filtered through the fibrous filter medium 7c of the filter body (process 2).

 As shown in FIGS. 5 and 8, the treated water filtered in the filtration tank 2 is transferred to the discharge tank 4 through the through-water gates 1a formed in the bottom of the filtration tank, and the second water level sensor When the water level is not detected by the third water level sensor 21 installed at the bottom of the backwash water tank 5, the backwash water pump P2 is driven When the treated water charged in the discharge tank 4 is supplied to the backwash water tank 5 and the water level is detected by the first water level sensor 20 installed on the ceiling portion of the backwash water tank 5, And stops charging the treated water to the backwash water tank 5 (step 3).

 3 and 6, when the treated water filtered from the filtration tank 2 flows in excess of the second water level sensor 22 installed on the upper part of the discharge tank 4, And discharge through the discharge pipe (Process 4).

 In the process of backwashing the filter body 7, when the rainfall is terminated, the pretreated water of the pretreatment tank 1 is driven to discharge the fresh water pump P4 to the sewage line within 48 hours, and then, through the first impression manhole 3 Removal of residual contaminants and floating oil in the pretreatment tank (Process 5).

 If the water level is not detected by the fourth water level sensor 24 installed at the bottom of the pretreatment tank shown in FIGS. 3 and 6 as the pretreatment water is discharged from the pretreatment tank 1, the blower 26 is driven to remove the backwash air supply port The pressure air is supplied to the filtration body 7 through the filter 8 and the pressure air is sprayed to the filtration body 7 in the water so that the particulate matter attached to the outside of the filtration body and the particulate matter in the filtration body and the foreign matter adhered to the fibrous filter medium (Course 6).

 After 15 seconds have elapsed after the driving of the blower, the water pump P1 is driven to feed the water (sewage) of the filtration tank 2 containing the foreign matter desorbed from the filter material of the filtration body 7 to the pretreatment tank 1, and when the water level is detected by the fifth water level sensor 25 provided on the upper part of the pretreatment tank shown in FIGS. 3 and 6, the fresh water P4 is driven so that the water (sewage) And drained through the pipe (S6). In the case of a nonpoint burning abatement facility not provided with a sewer pipe, it is filtered through a backwash water discharge filtration device (not shown), and then discharged to a discharge pipe of a gut pipe (process 7).

 When 15 seconds have elapsed after driving the fresh water pump P4, the water gate G1 of the backwash water tank 5 shown in Figs. 3 and 6 is opened, and clean reverse water- The pressure air and the clean water are jetted together with the pressure air so as to smoothly perform the cleaning operation of the filtration body, and the water (sewage) that has been cleaned by the filtration body is water And transferred to the pretreatment tank 1 via the pump P1 through the filtration tank 2 (step 8).

 When the water level of the pretreatment tank is detected by the fifth water level sensor 25 shown in Figs. 3 and 6 as the water in the filtration tank in which the filtration body 7 is washed is transferred to the pretreatment tank 1, The water is discharged to the sewage connection pipe, the water gate G1 of the backwash water tank 5 is closed, and the water pump P1 for feeding the water in the filtration tank to the pretreatment tank is stopped. At this time, the blower for supplying the pressurized air for the stationary washing is continuously driven to supply the pressurized air to the filter body (S8). In the case of a non-effluent reduction facility not provided with a sewer pipe, it is filtered through a backwash water discharge filtration device (not shown) and then discharged to a discharge pipe of a gut pipe (process 9).

 In the process 9, both the water in the filtration tank 2 and the water in the pretreatment tank are drained, and a sixth water level sensor 23 provided at the bottom of the discharge tank 4 shown in Figs. 3 and 6 and a fourth water level sensor 23 provided at the bottom of the pre- When the water level is not detected by the water level sensor 24 and the backwash water remains in the backwash water tank 5 and the water level is detected by the third water level sensor 21, And the backwash water is supplied to the upper portion of the filtration body 7 from the lower portion of the filtration body 7 again by using the bottom portion of the filtration body 7, (Step 10).

 In the process 10, the washed water is transferred to the pretreatment tank 1 via the filtration tank 2 through the water pump P1 installed in the discharge tank 4, After the water level sensor 25 detects the level of the transferred water, the fresh water pump P4 installed in the pretreatment tank is driven to discharge the water (sewage) into the pretreatment water to the sewage connection pipe (S10). In the case of a nonpoint burning abatement facility not provided with a sewer pipe, the water is filtered through a backwash water discharge filtration device (not shown) and discharged to a discharge pipe of a gut pipe (process 11).

 When the water level is detected by the third water level sensor 21 installed on the bottom of the backwash water tank 5 shown in Figs. 3 and 6 and the backwash water remains in the backwash water tank, the processes 8 and 9 are performed again, If it is not detected, the operation of the blower is stopped and the back flushing is completed by closing the water gate G1 of the backwash water tank 5 (process 12).

 The filtration and backwashing system of the nonpoint pollution abatement facility according to the present invention can prevent the clogging of the filtration body by performing the filtration of the rainwater and the backwashing by the structure and the process described above to secure remarkably excellent filtration performance .

1: Pretreatment tank 2: Filtration tank
3: First impression manhole 4: Discharge tank
5: Backwash water tank 6: 2nd impression manhole
7: Filter body 8: Backwash air supply port
9: vertical wall 10: bulkhead
11: pretreatment water dispersion plate 12: stormwater inlet
13: Contaminant collecting tank 14:
15: circular tube 16: guide plate
17: Oil suction pipe 18: Filter body mounting frame
19: support 20: first level sensor
21: third water level sensor 22: second water level sensor
23: sixth water level sensor 24: fourth water level sensor
25: fifth water level sensor 26: blower
27: control unit 28:
1a: penetrating water gate 7a: hexahedron border
7b: wire mesh plate 7c: fibrous filter medium
7d: wire mesh 7e: granular media
7f: filter body cover 7g: hole
7h: Connector 7i: Filter layer
7j: constant space 11a: pre-treatment water inlet
11b: stopper 11c: groove
11d: protruding jaw 11e: bottom surface
11f: through hole 11g: pedestal
13a: square cylinder 13b: through hole
13c: Contaminant collecting net 14a: Cylindrical body
15a: Discharge hole 19a: Manifold
19b: injection nozzle 19c: supply nozzle
28a: cylinder

Claims (8)

A pretreatment tank (1) having a contaminant collecting net collecting large contaminants from the inflowing storm; A filtration tank (2) for supplying foreign substances pre-processed to one side of the pretreatment tank and filtering foreign substances contained in the pretreatment water; And a discharge tank (4) for collecting the filtered treated water to one side of the filtration tank (2) and discharging the filtered treated water to an external water storage tank,
A first impression manhole 3 is formed at the upper part of the pretreatment tank 1 to remove contaminants. A filtration tank 2 is provided with a backwash water tank 5 for storing filtered water to be used for backwashing, , A second impression manhole (6) for checking the filtration tank is formed on the upper part of the discharge tank (4)
The filtration body 2 is provided with a filtration body 7 for filtering foreign substances from the pretreated water from which large contaminants have been removed in the pretreatment tank 1, And a backwashing air supply port (8) for backwashing the filtration body by supplying pressure air by means of the backwashing air supply port
A third water level sensor 21 is installed at the bottom of the first water level sensor 20 at the ceiling portion of the backwash water tank 5 and a second water level sensor 22 is provided above the water level tank 4, A sixth water level sensor 23 is installed at the bottom of the pretreatment tank 1 and a fourth water level sensor 24 is provided at the bottom of the pretreatment tank 1. A fifth water level sensor 25 is provided on the upper part of the pre-
And a control unit (27) for controlling the operation of the blower and controlling the water gate of the pump and the backwash water tank according to the detection of the water level of the first to sixth water level sensors,
The pretreatment tank (1) further includes a contaminant collecting tank (13) and a water separating tank (14)
A pretreatment water dispersing plate (11) is provided on the upper portion of the filtration body (7) so that pretreatment water containing foreign matter can be dispersed and introduced into the upper portion of the filtration body (7) from the pretreatment tank (1) Filtration and backwashing facilities of abatement facilities. delete The method according to claim 1,
The filtration body 7 is formed by forming a perforated plate or a netting in a hexahedron having a predetermined size and filling a filter medium therein, and the filtration body 7 is provided with a plurality of filtration A filtration body mounting frame (18) having a lattice structure for mounting a filtration body (18) is installed, a filtration body (7) is attached to each of a plurality of grid structures of the filtration body installation frame
A vertical wall 9 is formed at a predetermined height on the inner bottom surface of the filtration tank 2 and the upper surface of the filtration tank 2 is spaced a predetermined distance from the vertical wall 9, The outer peripheral edge of the filter body mounting frame 18 is closely attached between the vertical wall 9 and the partition wall 10 and between the front and rear walls of the filtration tank 2, Wherein the filtration and backwashing apparatus of the non-point pollution abatement facility comprises: The method according to claim 1,
The pretreatment water dispersing plate 11 has a pretreatment water inflow portion 11a through which the pretreatment water flows and a catching hole 11b through which the right and left sides of the pretreatment water dispersing plate 11 are fixed over the upper end of the vertical wall 9 Forming,
A plurality of protrusions 11d having a plurality of grooves 11c at predetermined intervals are formed on the left and right sides of the pretreatment water dispersion plate 11 in the longitudinal direction and a plurality of protrusions 11d are formed on the entire bottom surface 11e of the pretreatment water dispersion plate 11. [ Wherein the through holes (11f) are spaced apart from each other by a predetermined distance, and a pedestal (11g) is formed at the other lower end of the pretreatment water dispersion plate (11). The method according to claim 1,
The contaminant collecting tank 13 is formed of a rectangular tube body 13a which is enclosed by a vertical wall on the side of the storm inlet 12 of the pretreatment tank 1,
A trash collection net (13c) for collecting large-sized contaminants contained in the storm is installed on the end side of the inner storm inlet (12) of the square tube (13a)
A through hole (13b) for supplying the pretreated water, from which contaminants have been removed, to the water / water separation tank (14) is formed in the vertical wall of the square tube (13a)
The water retention tank 14 is installed on one side of the rectangular tubular body 13a and the rainwater from which large contaminants are removed from the trapping tank 13 is passed through the through hole 13b of the rectangular tubular body 13a, ) Is installed so that it can be discharged in the tangential direction of the outer diameter. 6. The method of claim 5,
The cylindrical body 14a has a cylindrical body 14a having a predetermined length and a cylindrical tube 15 having an open top and a closed bottom at its central portion. The cylindrical body 14a has a circular tube 15, The upper portion of the cylindrical body 13a is closed and the lower portion thereof is opened and the unevenness discharged from the through hole 13b of the rectangular tube body 13a is rotated in the direction of the spiral at a predetermined position of the upper end of the cylindrical body 14a, A guide plate 16 having a predetermined height is formed,
The lower end of the cylindrical tube 15 is formed to extend from the lower end of the cylindrical body 14a by a predetermined length. The lower end of the cylindrical tube 15 has a plurality of discharge holes 15a ) Are spaced apart from each other at regular intervals on the circumference of the filtration and backwashing apparatus. The method according to claim 1,
The filtration body 7 has a hexahedron rim 7a as a frame, a wire mesh plate 7b on each side of the hexahedron and a fibrous filter medium 7c having a predetermined thickness on the bottom wire mesh plate A wire mesh 7d is laminated on the fibrous filter medium and the granular filter medium 7e in the form of particles is filled on the wire mesh 7d to form the filter medium layer 7i,
A filter body cover 7f made of a wire mesh plate is provided so as to have a certain space 7j at the upper portion of the filter medium layer 7i by being spaced apart from the upper end of the particulate filter medium 7e by a predetermined distance,
A plurality of holes 7g are formed in the wire mesh plate 7b, the fibrous filter media 7c and the wire mesh 7d by spacing the holes 7g at a predetermined distance. The length of the connecting pipe is formed to a length extending to the middle portion of the granular material 7e constituting the filter medium layer,
And the backwash air supply port (8) is installed between the lower end of the filtration body mounting frame and the bottom surface of the filtration tank. 8. The method of claim 7,
The backwashing air supply port 8 supplies the compressed air to the filter material through the connecting pipe 7h provided inside the filter body 7,
A manifold 19a having a lattice structure provided with a plurality of injection nozzles 19b is formed and the manifold 19a is provided with a plurality of connecting pipes 7h formed in the filter body 7, And a supply nozzle (19c) is formed at a position where the supply nozzle (19c) can supply the non-point pollution reduction facility.

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