KR101498072B1 - Apparatus for treating rainwater - Google Patents

Abstract

The present invention relates to a rainwater disposal apparatus that can supply rainwater of improved quality by effectively separating and removing precipitable and floating impurities contained in the rainwater. A rainwater disposal apparatus (10) includes: a grit chamber (100) having a rainwater inflow pipe (110) for receiving rainwater, and a pump (120) for discharging precipitable impurities contained in the rainwater coming in through the rainwater inflow pipe (110) to the exterior; a rainwater storage tank (200) provided to one side of the grit chamber (100), with a partition (20) being interposed therebetween, and communicating with the grit chamber (100) through a space provided on an upper portion of the partition (20) to supply the purified rainwater to a place requiring water; an overflow unit (300) having a double wall structure which is spaced apart from the upper portion of the partition (20) and protrudes upwardly, to guide the rainwater overflowing to the rainwater storage tank (200) to a drain port (340) formed at one side thereof at the full level of the grit chamber (100); and an impurity transfer unit (400) capable of passing the rainwater dropping in the rainwater storage tank (200) through the drain port (340), and filtering the floating impurities contained in the rainwater to transfer the impurities to the outside of the rainwater storage tank (200).

Description

{Apparatus for treating rainwater}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rainwater treatment apparatus, and more particularly, to a rainwater treatment apparatus for supplying rainwater with improved water quality by smoothly filtering and removing precipitable and floating contaminants contained in rainwater.

As we all know, the securing of water resources is a very important issue due to the nature of modern industrial society that requires a large amount of industrial water. Therefore, it is urgently required to manage and utilize water efficiently by the water resources policy to solve the shortage of water resources, and technologies for efficiently recycling rainwater are being developed.

As a method of recycling such rainwater, a rainwater storage tank is installed in a basement, and a large amount of rainwater is stored in a rainy season during heavy rains, thereby regulating the amount of rainwater flowing to the outside. However, the rainwater contains a large amount of contaminants of various sizes and types. Therefore, a rainwater treatment apparatus is required to remove the contaminants contained in the rainwater.

As an example of the prior art relating to such a rainwater treatment apparatus, the non-point pollution source treatment apparatus of the rotary filtration type disclosed in Japanese Patent No. 10-0977877 includes a water supply unit having an inflow pipe and a discharge pipe, A rotating drum installed inside the water receiving part and having a rotating plate rotatably driven by the rain which flows in through the inlet pipe to the inside and having a plurality of filtering holes formed in the circumferential direction to discharge the rainwater; And a filtration tank communicating with the sedimentation tank and having a first filtration layer made of sand and a microorganism carrier and a second filtration layer having a plurality of voids formed therein.

However, such a treatment apparatus is configured to remove large contaminants or precipitate contaminants through the plurality of filtration holes formed in the rotary drum and the first filtration layer and the second filtration layer of the filtration tank. However, There is a disadvantage in that the removal performance of the material is difficult to expect and the separation period of the first filtration layer and the second filtration layer is not provided and the replacement period of the filtration means is short so that maintenance for maintenance of the device is not easy.

As another example of the prior art related to the rainwater treatment apparatus, in the early stage of the excellent pollutant purification treatment apparatus of the packaging section of the registered patent No. 10-0925500, sedimentable contaminants contained in the rainwater are led to the lower portion of the sludge receiver, The settable contaminants are transferred to the sludge storage unit provided at one side by the rotation of the installed transfer screw and the precipitable contaminants stored in the sludge storage unit are moved upward by rotation of the lifting belt having a plurality of buckets spaced up and down A technique for collecting a sample is disclosed.

However, according to this configuration, there is a disadvantage that it is difficult to realize a compact apparatus because of the complexity of the apparatus for collecting, transporting, and collecting sediment-like contaminants and the size of the apparatus.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a rainwater treatment apparatus capable of supplying rainwater with improved water quality by effectively separating and removing precipitable contaminants and floating contaminants contained in rainwater. have.

It is another object of the present invention to provide a rainwater treatment apparatus which can simplify the structure of the apparatus for separating and collecting the contaminants contained in rainwater and which is easy to manage for maintenance of the apparatus.

The rainwater treatment apparatus 1 according to the first embodiment of the present invention includes a rainwater inflow pipe 110 into which rainwater flows and a rainwater inflow pipe 110 through the rainwater inflow pipe 110. [ A sedimentation tank 100 having a pump 120 for discharging sedimentation contaminants contained in the sedimentation tank 100 to the outside; The washing machine is provided with a partition 20 at one side of the settling tank 100 and communicates with the settling tank 100 through a space provided above the partition 20 so that purified rainwater is stored A rainwater storage tank (200) supplied to a water source site; And a drain hole 340 formed on one side of the rainwater storage tank 200 and having a double wall structure that is separated from the upper portion of the partition wall 20 and protruded upward, (300) for guiding the water to flow toward the water tank (300); And the rainwater falling into the rainwater storage tank (200) through the drain hole (340), filtering the floating oil contaminants contained in the rainwater and transferring the rainwater to the outside of the rainwater storage tank (200) And a transfer unit 400.

The rainwater treatment apparatus 1 according to the second embodiment of the present invention includes a rainwater inflow pipe 110 into which rainwater flows and a sedimentation contaminant contained in rainwater flowing through the rainwater inflow pipe 110 to the outside A needle set (100) having a pump (120) for discharging the needle; The sedimentation tank 100 is provided with a partition 20 on one side of the sedimentation tank 100 and communicates with the sedimentation tank 100 through a space provided above the partition 20, A rainwater storage tank 200 provided with a contaminant drainage network 230 for filtering floating contaminants contained in rainwater flowing over the drainage tank 200; The rainwater flowing to the rainwater storage tank 200 side at the time of the full water level of the settling tank 100 is separated from the upper portion of the partition wall 20 by the contaminant drainage network 230 (300) for guiding the water to flow toward the drain port (340) formed on the side where it is located; A water supply tank 500 connected to one side of the rainwater storage tank 200 and supplied to a water supply destination after purified rainwater is stored; And rainwater that is supplied from the rainwater storage tank 200 and falls into the water supply tank 500 is filtered to filter the floating oil contaminants contained in the rainwater and transferred to the outside of the water supply tank 500 And a contaminant transferring unit 400 for separately collecting.

In the first and second embodiments, the ridge portion 300 includes a first partition 310 protruding upward from the upper end of the upper portion of the partition 20 located on the side of the settling tank 100, ; The first partition wall 310 protrudes upward from the other end portion of the upper portion of the partition wall 20 located at the side of the rainwater storage tank 200 at a predetermined distance from the first partition wall 310, A second barrier rib 320 protruding to a higher length; And a sloped surface 330 connecting between a lower end of the first partition 310 and a lower end of the second partition 320 and inclined downward at a predetermined inclination angle with respect to a horizontal plane H, The drain port 340 may be formed to communicate with the rainwater storage tank 200 through the second partition 320 to one side of the downward end of the inclined surface 330.

In the first and second embodiments, the settling tank 100 is formed in a conical shape whose sectional area gradually decreases from the upper portion to the lower portion. In the lower portion of the settling tank 100, And the pump 120 may be provided at a lower central portion of the needle settlement tank 100 located below the inclined surface 101. [

In the first embodiment, the contaminant transferring unit 400 includes a motor 410, a first pulley 420 rotated by driving the motor 410 and positioned outside the rainwater storage tank 200, A second pulley 430 spaced apart from the first pulley 420 and positioned inside the rainwater storage tank 200 and a second pulley 430 transmitting the driving force of the first pulley 420 to the second pulley 430 A conveyor belt 440 which is disposed below the drain 340 and passes through the lower end to convey the floating oil to the first pulley 420 and is porous, And an impregnated receptacle 450 for collecting pseudo-contaminants which are transferred to the lower side of the first pulley 420 and fall down therefrom.

In this case, an injection nozzle 490 may be provided on the inside of the conveyor belt 440 for ejecting fluid to be discharged to the side of the impregnated receptacle 450 by removing the floating contaminants conveyed on the conveyor belt 440 .

In addition, the rainwater inflow pipe 110 is provided with a flow meter 130 for sensing the flow of rainwater, a water level sensor 140 for sensing the level of rainwater collected in the rainwater sink 100, And a controller for controlling the motor 410 to operate only when the flow of rainwater is detected by the flow meter 130 and the level of the rainwater sensed by the water level sensor 140 is equal to or higher than a set water level.

The rainwater storage tank 200 is provided with a temporary storage tank 210 in which a lower portion of the contaminant transferring unit 400 is installed at one side of the sweeping unit 300, A rubber plate 480 may be provided so as to be in close contact with the inner surface of the temporary storage tank 210.

The inner side surfaces of the rubber plate 480 provided at the opposite ends of the impurity conveyance unit 400 are provided with inner side brackets 440 for rotatably supporting the rotary shaft of the first pulley 420 and the rotary shaft of the second pulley 430, And an outer bracket 470 for preventing abrasion of the rubber plate 480 is provided on both side surfaces of the rubber plate 480 provided at the opposite ends and the lower ends of the contaminant transferring unit 400, And guide rails 211 for guiding the outer bracket 470 to slide up and down may be provided on both inner side surfaces of the inner bracket 210.

The lower part of the settling tank 100 is provided with an inclined surface 101 for guiding the precipitable contaminants to be collected toward the lower end of the settling tank 100. The pump 120 is disposed below the inclined surface 101, And rainwater collected in the rainwater storage tank 200 is introduced into the settling tank 100 by the pressure of the pump 220 and flows downward toward the inclined surface 101 A plurality of nozzles 226 for spraying rainwater may be provided at predetermined intervals along the circumferential direction.

The plurality of nozzles 226 are provided at predetermined intervals in an annular tube 225 disposed in a circular shape at a position close to the inner side of the needle settlement vessel 100 at an upper side of the inclined surface 101, Sectional area of the rainwater 225 may be configured to gradually narrow along the direction in which the rainwater flows.

In the second embodiment, the impurity conveyance unit 400 includes a motor 410, a first pulley 420 that is rotated by driving the motor 410 and is located outside the water supply tank 500, A second pulley 430 spaced apart from the first pulley 420 and positioned inside the water supply tank 500 and a second pulley 430 spaced apart from the first pulley 420 by a driving force of the first pulley 420, And the lower end of the rainwater inflow pipe 510 flowing from the rainwater storage tank 200 passes through the lower end of the inflow pipe 510 to convey the floating oil contaminant upward toward the first pulley 420, A belt 440 and an impregnated receptacle 450 for collecting floating oil impurities which are transported on the conveyor belt 440 and fall down to the first pulley 420.

In this case, an injection nozzle 490 may be provided on the inside of the conveyor belt 440 for ejecting fluid to be discharged to the side of the impregnated receptacle 450 by removing the floating contaminants conveyed on the conveyor belt 440 .

A flow meter 241 for sensing the flow of rainwater flowing into the water supply tank 500 from the rainwater storage tank 200, a water level sensor 243 for sensing the level of rainwater collected in the water supply tank 500, And a control unit for controlling the motor 410 to operate only when the flow rate of the rainwater is detected by the flow meter 241 and the level of the rainwater sensed by the water level sensor 530 is equal to or higher than a set water level And the like.

A rubber plate 480 may be provided around both ends of the impurity conveyance unit 400 so as to be in close contact with the inner surface of the water supply tank 500.

The inner side surfaces of the rubber plate 480 provided at the opposite ends of the impurity conveyance unit 400 are provided with inner side brackets 440 for rotatably supporting the rotary shaft of the first pulley 420 and the rotary shaft of the second pulley 430, And an outer bracket 470 for preventing abrasion of the rubber plate 480 is provided on both side surfaces of the rubber plate 480 provided at the opposite ends and the lower ends of the impurity conveyance unit 400, Guide rails for guiding the outer bracket 470 to slide up and down may be provided on both inner side surfaces of the tank 500. [

The lower part of the settling tank 100 is provided with an inclined surface 101 for guiding the precipitable contaminants to be collected toward the lower end of the settling tank 100. The pump 120 is disposed below the inclined surface 101, The rainwater collected in the water supply tank 500 is introduced into the settling tank 100 by the pressure of the pump 540 and is directed downward toward the inclined surface 101. [ A plurality of nozzles 226 for spraying rainwater may be provided at predetermined intervals along the circumferential direction.

The plurality of nozzles 226 are provided at predetermined intervals in an annular tube 225 disposed in a circular shape at a position close to the inner side of the needle settlement vessel 100 at an upper side of the inclined surface 101, Sectional area of the rainwater 225 may be configured to gradually narrow along the direction in which the rainwater flows.

According to the rainwater treatment apparatus according to the first embodiment of the present invention, sedimentable contaminants contained in rainwater are separated and removed by sedimentation in the lower part of the silt bath, and the floating contaminants contained in the rainwater are guided to one side It is possible to effectively improve the quality of the rainwater even by the configuration of the simplified apparatus.

According to the rainwater treatment apparatus according to the second embodiment of the present invention, the precipitable impurities contained in the rainwater are separated and removed by precipitating in the lower part of the silt bath, and the floating contaminants contained in the rainwater are guided to one side The water quality of the rainwater can be effectively improved by secondly separating and removing the rainwater after it has been filtered first from the scum screen and then by the contaminant conveyance unit provided in the water supply tank connected to one side of the rainwater storage tank.

In addition, by providing a plurality of nozzles for forming a slope in the lower part of the silt bath and spraying the fluid toward the sloped surface, sedimentation contaminants can be induced toward the pump installed in the lower part of the silt bath to effectively remove sedimentation impurities.

In addition, it is also possible to form the overflow portion with a double partition structure, wherein the second partition wall is formed higher than the first partition wall, the inclined surface is formed between the first partition wall and the second partition wall to guide the floating contaminant to the drain port side, It is possible to effectively separate and collect the floating contaminants by the contaminant transferring part or the contaminating filtering net.

In addition, a rubber plate for maintaining the watertightness is provided at the both ends and the lower end of the impregnated conveying portion to induce the impounding contaminants to be effectively collected on the conveyor belt, thereby improving the filtration efficiency of the floating contaminants, and, on the inside of the conveyor belt, By providing the spray nozzle for removing the impurities and guiding the impurities to the impregnation receptacle, the collection efficiency of the floating impurities can be increased and the maintenance period for the maintenance of the conveyor belt can be extended.

In addition, since the contaminant transferring unit is configured to be detachably inserted into the temporary storage tank or the water supply tank by a sliding method, the convenience of installation and maintenance of the contaminant transferring unit can be increased.

In addition, it is possible to prevent unnecessary waste of energy by sensing the flow of the rainwater in the flow meter and controlling the motor of the obstacle conveyance unit to operate only when the level of the rainwater sensed by the water level sensor reaches the set water level, Efficient operation is possible.

1 is a sectional view of a rainwater treatment apparatus according to an embodiment of the present invention,
2 is a plan view showing an internal structure of a rainwater disposal apparatus according to an embodiment of the present invention,
3 is a plan view of a settling tank,
4 is a perspective view of the overflow portion,
5 is a perspective view showing a state in which the contaminant transporting unit is separated to the outside of the temporary storage tank,
6 is a sectional view of a rainwater treatment apparatus according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 5, a rainwater disposal apparatus 1 according to an embodiment of the present invention includes a housing 10 having a partition wall 20 interposed therebetween, And a rainwater storage tank 200 is provided on the other side of the partition 20. The settling tank 100 and the rainwater storage tank 200 communicate with each other through a space provided between the upper end of the partition 20 and the upper portion of the housing 10, And is provided with a sweeping part 300 which provides a flow path of rainwater overflowing from the needle-catching vessel 100 of the needle set 100 to the rainwater storage tank 200 side. The rainwater storage tank 200 is provided with a temporary storage tank 210 in which rainwater flowing after passing through the sweeping unit 300 is temporarily stored. The temporary storage tank 210 is included in the rainwater flowing into the temporary storage tank 210 And a contaminant transferring unit 400 for transferring the contaminants to the exterior of the rainwater storage tank 200 for collection. The upper portion of the housing 10 is provided with openings 31 and 32 for entrance and exit of the operator during the maintenance of the inside of the settling tank 100 and the rainwater storage tank 200 and the manholes 41 and 42 for opening and closing them, 400 are formed in the opening 33 for inserting /

The settling tank 100 is connected to a sludge (hereinafter referred to as 'precipitable sludge') such as soil, asphalt powder, tire powder, cement lime powder, solid matter and the like contained in rainwater flowing from the outside through the rainwater inflow pipe 110 ), And separates and removes it to the outside. In this configuration, the entire internal shape of the settling tank 100 is formed in a conical shape whose sectional area gradually decreases from the upper portion to the lower portion, and the precipitable contaminant slides downward at the lower portion of the settling tank 100 The inclined surface 101 is formed. A pump 120 for sucking the sedimentable contaminants and sending the sedimentable contaminants to the outside of the settling tank 100 is provided at the lower center portion of the settling tank 100 located below the inclined surface 101, And a sludge discharge pipe 121 for providing a passage for discharging the precipitable impurities to the outside of the settling tank 100 is connected.

3, a plurality of nozzles 226 for introducing rainwater collected in the rainwater storage tank 200 and spraying rainwater downward toward the inclined surface 101 are formed in the interior of the needle- So that the sedimentation scum that flows down along the inclined surface 101 can be smoothly guided toward the pump 120. As shown in FIG. The plurality of nozzles 226 are connected to annular pipes 225 (225-1, 225-2, 225-3, 225-4) arranged in a circular shape at a position close to the inner side surface of the needle set 100 on the upper side of the inclined surface 101 at predetermined intervals 225-2, 225-3, and 225-4 are configured to gradually narrow the cross-sectional area along the direction in which the rainwater flows, and the plurality of nozzles (225-1, 225-2, 225-3, 225-4) disposed at predetermined intervals along the circumferential direction 226 are configured such that rainwater at a uniform flow rate can be injected. That is, the connection pipe 225-1 of the region where the nozzle 226 located at the tip is located with respect to the flow direction of the rainwater has a large cross-sectional area so that a large amount of rainwater flows into the connection pipe 225-1, The connection pipes 225-2, 225-3, and 225-4 are configured such that the cross-sectional area of the connection pipes 225-2, 225-3, and 225-4 is gradually reduced, thereby allowing rainwater to flow smoothly from the nozzle 226 located at the tip end to the connection pipe 225-4 located at the rearmost end So that it can be sprayed at a uniform flow rate.

The rainwater inflow pipe 130 is provided with a flow meter 130 for sensing the flow of rainwater and a water level sensor 140 for sensing the level of rainwater collected in the rainwater sink 100. The flow rate of the rainwater in the flow meter 130 is detected and at the same time the level of the rainwater sensed by the level sensor 140 is set to a predetermined level, for example, the rainwater in the sedimentation tank 100 flows over the upper end of the partition wall 20 Only the motor 410 driving the contaminant conveyance unit 400, which will be described later, is operated.

When the flow rate of the rainwater flowing into the settling tank 100 exceeds the full water level, the moving unit 300 provides the moving path of the rainwater overflowing from the settling tank 100 toward the rainwater storage tank 200, (Hereinafter, referred to as " floating contaminant ") having a specific gravity smaller than that of water is guided toward the contaminant transferring unit 400. The first barrier rib 310 protrudes upward from one side of the upper end of the barrier rib 20 located on the side of the settling tank 100, A second barrier rib 320 protruding upward from the other end of the upper portion of the barrier rib 20 located at the side of the rainwater storage vessel 200 at a predetermined interval from the lower end of the first barrier rib 310, And a sloped surface 330 connecting the lower end of the horizontal plate 320 and inclined downward at a predetermined angle? A drain port 340 communicating with the rainwater storage tank 200 through the second partition 320 is formed at one side of the downward end of the inclined surface 330. The upper part of the second bank 320 is positioned higher than the upper end of the first bank 310 so that the rainwater flowing through the first bank 310 can not flow over the second bank 320, So that it can be guided in a direction toward the drain port 340. [ The rainwater moved along the moving part 300 is discharged to the contaminant conveyance part 400 through the drain port 340.

The contaminant transferring unit 400 functions to filter out the floating contaminants contained in rainwater and to transfer and collect the contaminants to the outside of the rainwater storage tank 200. The contaminant transferring unit 400 includes a motor 410, a first pulley 420 that is rotated by driving of the motor 410 and is located outside the rainwater storage tank 200, A second pulley 430 located inside the temporary storage vessel 210 provided inside the rainwater storage vessel 200 spaced apart from the first pulley 420 and a second pulley 430 located inside the temporary storage vessel 210, 430 to the lower side of the drain port 340 and the lower end of the drain port 340 to move the floating contaminants upward in the direction toward the first pulley 420 and to pass the rainwater through the perforations, A porous conveyor belt 440 formed on the conveyor belt 440 and an impregnation receptacle 450 for collecting puddleous contaminants falling on the lower side of the first pulley 420 while being conveyed on the conveyor belt 440.

The contaminant transferring unit 400 is detachably attached to the inside of the temporary storage tank 210 by an up-and-down sliding manner in an oblique direction. When the contaminant transferring unit 400 is installed inside the temporary storage tank 210, The entire rainwater flowing into the temporary storage tank 210 passes through the conveyor belt 440 and then flows into the rainwater storage tank 200 through the drain pipe 211 formed on the other side of the upper side of the temporary storage tank 210, The gap between the opposite side ends and the lower end of the temporary storage tank 440 and the inner side surface of the temporary storage tank 210 can be minimized.

5, an inner bracket 460 is provided at both ends of the conveyor belt 440 with a small gap therebetween. An outer bracket 460 is provided at a position spaced apart from the inner bracket 460 A rubber plate 480 having elasticity is interposed between the inner bracket 460 and the outer bracket 470 and a conveyor belt 440 is disposed between the lower ends of the outer bracket 470 disposed on both sides. And the rubber plate 480 is provided with a small gap.

The inner bracket 460 rotatably supports the rotary shaft of the first pulley 420 and the rotary shaft of the second pulley 430 while the outer bracket 470 functions to support A function of preventing abrasion of the rubber plate 480 due to the friction between the inner surface of the temporary storage tank 210 and sliding movement of the rubber plate 480 and allowing the rubber plate 480 to smoothly move on the guide rail 211 provided on both inner side surfaces of the temporary storage tank 210 And the rubber plate 480 is brought into close contact with the inner surface of the temporary storage tank 210 by the expansion and contraction function when the lower portion of the contaminant transferring unit 400 is installed inside the temporary storage tank 210, And prevent the rainwater flowing through the conveyor belt 440 from flowing to the lower portion of the temporary storage tank 210 without passing through the conveyor belt 440.

The rainwater flowing into the temporary storage tank 210 can be discharged all the way to the conveyor belt 440 by minimizing the occurrence of the gap between the opposite ends of the conveyor belt 440 and the inner surface of the temporary storage tank 210. [ Flows into the lower part of the temporary storage tank 210 and then flows into the purified rainwater storage tank 200 through the water discharge pipe 211 formed on the upper side of the temporary storage tank 210.

The conveyor belt 440 may include various types of porous filter layers that allow rainwater to pass through and filter the contaminants contained in the rainwater. The contaminants collected on the conveyor belt 440 may be removed by driving the motor 410 After being moved in the upward direction in which the first pulley 420 is located, it is collected and transported separately in the impregnation receptacle 450 provided below the first pulley 420. The motor 410 is operated only when the inflow of rainwater is detected by the flow meter 130 and the water level detected by the water level sensor 140 reaches a predetermined level It is possible to prevent unnecessary power consumption.

Meanwhile, an injection nozzle 490 is provided inside the conveyor belt 440 for discharging the floating contaminants conveyed on the conveyor belt 440 and injecting the fluid to be guided to the impregnation receptacle 450 side.

The purified rainwater from which the floating contaminants are removed by the contaminant transferring unit 400 is pumped through the discharge pipe 211 by the pump 200 installed in the water of the rainwater storage tank 200. On the flow path of the discharge pipe 221, Way valve 224 is provided so that most of the water is supplied to the water supply source through the water supply pipe 222 and a part of the water is branched to the settling tank 100 side via the branch pipe 223, 100 and a plurality of nozzles 226, and is sprayed toward the inclined surface 101. The ring-

Hereinafter, another embodiment of the present invention will be described with reference to FIG. Hereinafter, the same reference numerals are assigned to the same components as those of the above-described embodiment, and redundant description will be omitted.

The rainwater disposal apparatus 1 according to the present embodiment has the same structure as the above embodiment and includes the settling tank 100, the rainwater storage tank 200, the sweeping unit 300, and the contaminant transferring unit 400, The contaminant transferring unit 400 is disposed in a water supply tank 500 connected to one side of the rainwater storage tank 200 through a connection pipe 240 and an inflow pipe 510 so as to be vertically housed. The inner surface of the water supply tank 500 is provided with guide rails 211 provided on the inner surface of the temporary storage tank 210 in the above embodiment, A guide rail (not shown) having the same structure as that of FIG.

The rainwater that has passed through the dew condensation unit 300 is collected in the rainwater storage tank 200 after passing through the contaminant drainage network 230 made of the porous material provided below the drain 340, And the oil-based contaminants are primarily collected in the contaminant-draining net 230.

The flow meter 241 for sensing the flow of the rainwater is provided in the flow path inside the connection pipe 240 and the water level sensor 530 for sensing the level of the rainwater collected in the water supply tank 500 is provided The flow of the rainwater is detected by the flow meter 241 and the motor 410 of the contaminant conveyance unit 400 is operated only when the level of the rainwater sensed by the water level sensor 530 reaches a predetermined level .

The purified rainwater which is collected in the water supply tank 500 after the secondary contaminants are filtered while passing through the contaminant transferring unit 400 is discharged to the outlet side of the water supply tank 500 by the operation of the pump 540 And a three-way valve 224 is provided on the flow path of the discharge pipe 221 so that most of the water is supplied to the water supply source through the water supply pipe 222 and a part of the water is supplied to the branch pipe 223 and then supplied to an annular pipe 225 provided in the needle bed 100 to be sprayed toward the inclined surface 101 through a plurality of nozzles 226. [

As described above, the rainwater disposal apparatus 1 according to the present invention is configured so that the precipitable impurities and the floating contaminants are sequentially filtered by the simple structure, and the purified rainwater can be supplied to the water supply destination to efficiently recycle the water resources, Energy can be saved and the convenience of device management can be increased.

Further, the rainwater disposal apparatus 1 of the present invention can minimize the restriction of the installation place by a compact structure. Further, the rainwater disposal apparatus of the present invention may be constructed by recycling a place where a conventional waste water purification tank is installed.

As described above, the present invention is not limited to the above-described embodiments, and various changes and modifications may be made without departing from the scope of the present invention as defined in the appended claims. And such modifications are within the scope of the present invention.

1: Rainwater treatment apparatus 10: Housing
20: partition wall 31, 32, 33:
41, 42: Manhole 100:
101: slope 110: rainwater inflow pipe
120: pump 121: sludge discharge pipe
130: Flow meter 140: Water level sensor
200: Rainwater storage tank 210: Temporary storage tank
211: guide rail 220: pump
221: discharge pipe 222: water supply pipe
223: branch pipe 224: three-way valve
225: annular tube 226: nozzle
230: Contaminant filter 240: Connector
241: Flow meter 300:
310: first barrier rib 320: second barrier rib
330: bottom surface 340: drain
400: impurity conveying unit 410: motor
420: first pulley 430: second pulley
440: Conveyor belt 450: Impregnation receptacle
460: Inner bracket 470: Outer bracket
480: Rubber plate 490: Spray nozzle
500: Water supply tank 510: Inflow pipe
520: discharge pipe 530: water level sensor
540: Pump B: Horizon
[theta]: inclination angle

Claims (18)

A rainwater treatment apparatus for separating and removing contaminants and supplying purified rainwater,
A sedimentation tank 100 having a rainwater inflow pipe 110 into which rainwater flows and a pump 120 discharging sedimentation contaminants contained in rainwater flowing through the rainwater inflow pipe 110 to the outside;
The washing machine is provided with a partition 20 at one side of the settling tank 100 and communicates with the settling tank 100 through a space provided above the partition 20 so that purified rainwater is stored A rainwater storage tank (200) supplied to a water source site;
And a drain hole 340 formed on one side of the rainwater storage tank 200 and having a double wall structure that is separated from the upper portion of the partition wall 20 and protruded upward, (300) for guiding the water to flow toward the water tank (300); And
The rainwater falling into the rainwater storage tank 200 through the drain 340 is filtered to remove the floating oil contaminants contained in the rainwater and transferred to the outside of the rainwater storage tank 200 to be separated and collected. (400)
The swirling unit 300 includes:
A first partition 310 protruding upward from a side of the upper end of the partition 20 located at the side of the settling tank 100 by a predetermined length;
The first partition wall 310 protrudes upward from the other end portion of the upper portion of the partition wall 20 located at the side of the rainwater storage tank 200 at a predetermined distance from the first partition wall 310, A second barrier rib 320 protruding to a higher length;
And an inclined surface 330 connecting the lower end of the first partition 310 and the lower end of the second partition 320 and inclined downward at a predetermined inclination angle?
Wherein the drain hole (340) is formed to communicate with the rainwater storage tank (200) through the second partition wall (320) to one side of the downward end of the inclined surface (330). A rainwater treatment apparatus for separating and removing contaminants and supplying purified rainwater,
A sedimentation tank 100 having a rainwater inflow pipe 110 into which rainwater flows and a pump 120 discharging sedimentation contaminants contained in rainwater flowing through the rainwater inflow pipe 110 to the outside;
The sedimentation tank 100 is provided with a partition 20 on one side of the sedimentation tank 100 and communicates with the sedimentation tank 100 through a space provided above the partition 20, A rainwater storage tank 200 provided with a contaminant drainage network 230 for filtering floating contaminants contained in rainwater flowing over the drainage tank 200;
The rainwater flowing to the rainwater storage tank 200 side at the time of the full water level of the settling tank 100 is separated from the upper portion of the partition wall 20 by the contaminant drainage network 230 (300) for guiding the water to flow toward the drain port (340) formed on the side where it is located;
A water supply tank 500 connected to one side of the rainwater storage tank 200 and supplied to a water supply destination after purified rainwater is stored; And
The rainwater that is supplied from the rainwater storage tank 200 and falls into the water supply tank 500 is filtered to filter the floating contaminants contained in the rainwater and transferred to the outside of the water supply tank 500 And a contaminant transferring unit (400) for collecting the contaminants,
The swirling unit 300 includes:
A first partition 310 protruding upward from a side of the upper end of the partition 20 located at the side of the settling tank 100 by a predetermined length;
The first partition wall 310 protrudes upward from the other end portion of the upper portion of the partition wall 20 located at the side of the rainwater storage tank 200 at a predetermined distance from the first partition wall 310, A second barrier rib 320 protruding to a higher length;
And an inclined surface 330 connecting the lower end of the first partition 310 and the lower end of the second partition 320 and inclined downward at a predetermined inclination angle?
Wherein the drain hole (340) is formed to communicate with the rainwater storage tank (200) through the second partition wall (320) to one side of the downward end of the inclined surface (330). delete 3. The method according to claim 1 or 2,
The needle set 100 has a conical shape whose sectional area gradually decreases from the upper portion to the lower portion,
A sloping surface 101 is formed at a lower portion of the settling tank 100 to guide sedimentation contaminants to be collected toward the lower end,
Wherein the pump (120) is provided at a lower central portion of the needle settlement tank (100) located below the inclined surface (101). The method according to claim 1,
The contaminant transferring unit (400)
A first pulley 420 which is rotated by driving the motor 410 and is located outside the rainwater storage tank 200 and a second pulley 420 which is spaced apart from the first pulley 420, A second pulley 430 disposed inside the first pulley 420 and a second pulley 430 disposed inside the second pulley 430 to transmit the driving force of the first pulley 420 to the second pulley 430, A conveyor belt 440 configured to convey the floating contaminants upward in the direction toward the first pulley 420 and configured to be porous, and a conveyor belt 440 conveyed on the conveyor belt 440 and falling to the lower side of the first pulley 420 And an impregnation tank (450) in which floating contaminants are collected. 6. The method of claim 5,
And an injection nozzle 490 for injecting a fluid to the side of the impregnated receptacle 450 by removing the floating contaminants conveyed on the conveyor belt 440 is provided inside the conveyor belt 440 Rainwater treatment system. 6. The method of claim 5,
The rainwater inflow pipe 110 is provided with a flow meter 130 for sensing the flow of rainwater and a water level sensor 140 for sensing the level of rainwater collected in the rainwater sink 100,
Further comprising a controller for controlling the motor (410) to operate only when a flow of rainwater is detected in the flow meter (130) and a level of the rainwater sensed by the water level sensor (140) is equal to or higher than a predetermined level. 6. The method of claim 5,
The rainwater storage tank 200 is provided with a temporary storage tank 210 in which a lower portion of the contaminant transferring unit 400 is installed at one side of the sweeping unit 300,
And a rubber plate (480) extending and contracted to be in close contact with the inner surface of the temporary storage tank (210) is provided around the both ends and the lower end of the contaminant transferring unit (400). 9. The method of claim 8,
An inner side surface of the rubber plate 480 provided at both ends of the contaminant transferring part 400 is provided with an inner bracket rotatably supporting a rotary shaft of the first pulley 420 and a rotary shaft of the second pulley 430 460,
On both sides of the rubber plate 480 provided at the opposite ends and the lower ends of the contaminant transferring unit 400, an outer bracket 470 for preventing wear of the rubber plate 480 is provided,
Wherein the guide rails (211) for guiding the outer brackets (470) to slide up and down are provided on both inner side surfaces of the temporary storage tank (210). The method according to claim 1,
In the lower portion of the settling tank 100, an inclined surface 101 for guiding the precipitable contaminants to be collected toward the lower end is formed,
The pump 120 is provided at a lower central portion of the settling tank 100 located below the inclined surface 101,
A plurality of nozzles (not shown) for introducing rainwater collected in the rainwater storage tank 200 by pressure feeding by the operation of the pump 220 and spraying rainwater downward toward the inclined surface 101 are provided in the settling tank 100, (226) are provided at predetermined intervals along the circumferential direction. 11. The method of claim 10,
The plurality of nozzles 226 are provided at predetermined intervals in an annular tube 225 disposed in a circular shape at a position close to the inner side of the needle settlement vessel 100 at an upper side of the inclined surface 101, 225) is configured to be gradually narrowed along the direction in which the rainwater flows. 3. The method of claim 2,
The contaminant transferring unit (400)
A first pulley 420 which is rotated by driving the motor 410 and is located outside the water supply tank 500 and a second pulley 420 which is spaced apart from the first pulley 420, A second pulley 430 located inside the tank 500 and a second pulley 430 which transmits the driving force of the first pulley 420 to the second pulley 430 and is connected to the inlet pipe of the rainwater flowing from the rainwater storage tank 200 A conveyor belt 440 which is disposed below the lower end of the conveyor belt 510 and is configured to convey the floating oil contaminants upward toward the first pulley 420 and is made porous, And a contaminant collecting container (450) for collecting floating oil contaminants falling down to the lower side of the first pulley (420). 13. The method of claim 12,
And an injection nozzle 490 for injecting a fluid to the side of the impregnated receptacle 450 by removing the floating contaminants conveyed on the conveyor belt 440 is provided inside the conveyor belt 440 Rainwater treatment system. 13. The method of claim 12,
A flow meter 241 for sensing the flow of rainwater flowing from the rainwater storage tank 200 to the water supply tank 500 and a water level sensor for sensing a level of rainwater collected in the water supply tank 500 530,
Further comprising a controller for controlling the motor (410) to operate only when a flow of rainwater is detected in the flow meter (241) and a level of the rainwater sensed by the water level sensor (530) is equal to or higher than a predetermined level. 13. The method of claim 12,
Wherein a rubber plate (480) is provided around the both ends of the impurity conveyance part (400) and at a lower end thereof so as to be in close contact with the inner surface of the water supply tank (500). 16. The method of claim 15,
An inner side surface of the rubber plate 480 provided at both ends of the contaminant transferring part 400 is provided with an inner bracket rotatably supporting a rotary shaft of the first pulley 420 and a rotary shaft of the second pulley 430 460,
On both sides of the rubber plate 480 provided at the opposite ends and the lower ends of the contaminant transferring unit 400, an outer bracket 470 for preventing wear of the rubber plate 480 is provided,
Wherein the guide rails are provided on both inner side surfaces of the water supply tank (500) to guide the outer bracket (470) to slide up and down. 3. The method of claim 2,
In the lower portion of the settling tank 100, an inclined surface 101 for guiding the precipitable contaminants to be collected toward the lower end is formed,
The pump 120 is provided at a lower central portion of the settling tank 100 located below the inclined surface 101,
In the settling tank 100, a plurality of rainwater, which is introduced into the water supply tank 500 by the pressure of the pump 540 and is sprayed downward toward the inclined surface 101, Characterized in that the nozzles (226) are provided at predetermined intervals along the circumferential direction. 18. The method of claim 17,
The plurality of nozzles 226 are provided at predetermined intervals in an annular tube 225 disposed in a circular shape at a position close to the inner side of the needle settlement vessel 100 at an upper side of the inclined surface 101, 225) is configured to be gradually narrowed along the direction in which the rainwater flows.

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