KR101192855B1 - Water treatment apparatus - Google Patents

Abstract

Water treatment apparatus according to the present invention is provided with a receiving space for accommodating contaminated water therein, a water tank formed with a discharge port for discharging the contaminated water contained in the receiving space on one side, and installed in the receiving space in communication with the discharge port, there is pollution A flow space is provided for the flow of water, and an outer circumferential surface has a perforated pipe provided with a plurality of inflow holes so that the contaminated water contained in the tank can flow into the flow space, and a plurality of adsorbed foreign substances contained in the contaminated water. The filter medium is installed in communication with the flow space, and includes a filter medium washing unit configured to suck the filter medium adsorbed with foreign substances, and to wash the sucked filter medium and discharge the filtered medium into the flow space.
The water treatment apparatus according to the present invention has the advantage of increasing the operation rate by washing the filter medium without collecting the foreign matter adsorbed filter medium, and then re-supply, so as not to stop the purification process.

Description

Water treatment apparatus

The present invention relates to a water treatment device, and more particularly, to a water treatment device for purifying contaminated water by adsorbing foreign matter contained in contaminated water to a filter medium, and automatically washing and reusing a filter medium adsorbed with foreign matter.

Non-point source is a pollutant exposed to the surface during rainfall and rainwater flows into sewage pipes, which is difficult to treat because it has a characteristic that concentration is generated early in the rainfall.

In particular, when the nonpoint source contained in the initial rainwater enters public waters, it causes pollution of rivers and lakes, and penetrates into the underground, which is one factor causing pollution of groundwater resources. Therefore, contaminants introduced with the initial stormwater should be discharged into the discharge water after a certain removal process.

Non-point source reduction facilities to prevent water pollution by non-point sources include natural facilities consisting of storage facilities, infiltration facilities, artificial wetlands, filtration type treatment devices, vortex type processing devices, screen type processing devices, flocculation and precipitation types. There is an apparatus-type facility consisting of a treatment apparatus and a biological treatment apparatus.

At this time, the filter type treatment apparatus filters out fine contaminants as a filter medium in which a large amount of pores are distributed, and thus, has an advantage of relatively high efficiency of removing contaminants. There is a problem that is cumbersome for maintenance.

Korean Patent Publication No. 10-0906453 discloses a 'composite type rainfall runoff treatment apparatus capable of automatic washing of media'.

The rainfall runoff treatment apparatus includes a main body and a vortex tank having a cylindrical one having a screen around an upper end of the cylindrical body, an inlet pipe on an outer surface of the middle, and a through hole provided on an inner surface of the lower end of the main body. It is located in the middle part between the vortex tank and the upper and lower two stages in which the filter is filled, and each stage is located in the quadrilateral ring-shaped filter cartridge, and the upper four sides of the filter cartridge, and the arc shape The injection hole is provided in the middle of each, and the water spraying port is provided at the bottom.

However, the rainfall runoff treatment device has a disadvantage in that the filter cartridge is fixed inside the main body and the cleaning process is performed by spraying the washing water onto the fixed filter cartridge to stop the purification process of the rainfall runoff treatment device in order to clean the filter cartridge.

The present invention has been made to improve the above problems, and an object thereof is to provide a water treatment apparatus that can automatically wash the filter medium adsorbed foreign matter contained in the contaminated water during the purification process of contaminated water.

Water treatment apparatus according to the present invention for achieving the above object is provided with an accommodation space for accommodating the contaminated water therein, a water tank formed with a discharge port for discharging the contaminated water contained in the accommodation space on one side, and communicating with the discharge port It is installed in the accommodating space, there is provided a flow space through which the contaminated water flows, the outer circumferential surface is provided with a plurality of inlet holes for the contaminated water accommodated in the water tank into the flow space, and the flow A plurality of filter media filled in the space to adsorb foreign substances contained in the contaminated water, and installed in communication with the flow space to suck the filter medium adsorbed by the foreign substances, and to wash the sucked filter medium into the flow space. It is provided with a filter medium washing unit to discharge.

The filter medium cleaning unit is installed to communicate with the filter medium and the predetermined contaminated water in the flow space, and the suction pipe is installed in communication with the end of the suction pipe, the filter medium transported through the suction pipe therein And an inner space for accommodating the contaminated water, and a washing container having a plurality of discharge holes formed on the outer circumferential surface thereof so that the contaminants detached from the filter medium can be discharged to the outside, and installed in the inner space from the filter medium. Both ends of the interference member interfering with the flow of the filter medium and contaminated water flowing into the inner space to allow debris to be detached, and the filter media from which debris is desorbed through the interfering member to the air hole, respectively. A discharge pipe installed in communication with the container and the air pipe, and installed in the suction pipe. It is preferred that the pumping unit having to be supplied to the washing container by pumping the filter medium and the number of the contamination in the flow space.

 The interference member is installed in the inner space, the central rod extending in parallel to the flow direction of the filter medium, and protruding to the outer peripheral surface of the central rod, to generate a vortex in the flow of the contaminated water introduced into the washing container It is provided with a spirally formed blade.

The filter medium includes a main body and a plurality of contact protrusions protruding from the outer circumferential surface of the main body to expand a contact area between the main body and the contaminated water.

The main body and the contacting protrusions are formed on the outer circumferential surface of the concave-convex surface provided with a plurality of concave-convexities to adsorb foreign substances contained in the contaminated water.

On the other hand, the filter medium according to another embodiment of the present invention is provided with a main body through which the through-hole is formed so that the contaminated water flows through the inside, and a plurality of contact protrusions protruding on the inner surface of the through-hole of the main body and ,

The inner surface of the through hole of the main body and the outer surface of the contact protrusion is preferably formed with a concave-convex surface provided with a plurality of concavo-convex to adsorb foreign substances contained in the contaminated water.

The water treatment apparatus according to the present invention has the advantage of increasing the operation rate by washing the filter medium without collecting the foreign matter adsorbed filter medium, and then re-supply, so as not to stop the purification process.

1 is a perspective view of a water treatment apparatus according to the present invention,
2 is a cross-sectional view of a water treatment apparatus according to the present invention,
3 is a perspective view of a filter medium of the water treatment device according to the present invention;
Figure 4 is a perspective view of the filter medium of the water treatment device according to another embodiment of the present invention.

Hereinafter, a water treatment apparatus according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in more detail.

1 to 2 show a water treatment apparatus 100 according to the present invention.

Referring to the drawings, the water treatment apparatus 100 includes a water tank 200, a hole tube 300 installed inside the tank 200, a plurality of filter mediums 400 filled in the hole tube 300, and a filter medium 400. ) And a filter medium washing unit 500 for washing the sucked filter medium 400 and supplying the suctioned filter medium 400 to the oil hole pipe 300.

The water tank 200 is provided with a receiving space 210 for receiving the contaminated water therein, the cross section is formed in a square. The water tank 200 has an inflow pipe 230 is installed in communication with the receiving space 210 to allow the contaminated water to be purified from the outside, the inner wall surface of the water tank 200 facing the end of the inflow pipe 230 A discharge port 220 is provided to allow the polluted water accommodated in the accommodation space 210 to be discharged to the outside.

At this time, the outlet 220 is formed to be located below the end of the inlet pipe 230 connected to the water tank 200, the number corresponding to the number of flow pipes installed in the water tank 200 is formed.

The contaminated water flowing into the accommodation space 210 is preferably contaminated water including a nonpoint source such as initial rainwater.

The flow pipe is installed in the receiving space 210 so as to communicate with the outlet 220 of the water tank 200, and is formed in a cylindrical shape provided with a flow space 310 through which the contaminated water can flow. On the outer circumferential surface of the flow tube, a plurality of inflow holes 320 are formed to allow the contaminated water contained in the accommodation space 210 to flow into the flow space 310.

The flow pipe is formed to extend in the longitudinal direction of the water tank 200 to accommodate the plurality of filter media 400 to be described later in the flow space 310, the foreign material is formed by the filter medium 400 on the side contacting the outlet 220 A plurality of discharge holes 330 are formed to discharge the contaminated water.

At this time, the inlet hole 320 and the outlet hole 522 is preferably formed of a smaller size than the filter medium 400 to prevent the filter medium 400 filled in the inside of the flow pipe to be discharged to the outside of the flow tube.

Meanwhile, in the illustrated example, three flow tubes are installed in the water tank 200, but the number of the flow pipes installed in the water tank 200 is not limited to the illustrated example, but the installation place and the amount of contaminated water to be purified. Depending on one, two or more may be installed.

The filter medium 400 according to the present invention will be described in detail with reference to FIG. 3 as follows.

The filter medium 400 is filled in the flow space 310 of the flow tube to adsorb foreign substances contained in the contaminated water. The filter medium 400 includes a main body 410 and a plurality of contact protrusions 420 protruding from the outer circumferential surface of the main body 410.

The main body 410 is formed of a hollow cylinder formed with a through hole so that the contaminated water can flow through the inside. The main body 410 is preferably formed of a synthetic resin material such as plastic having a specific gravity smaller than that of water so as to float in contaminated water introduced into the flow pipe.

The contact protrusion 420 protrudes to the outer circumferential surface of the main body 410 so as to expand the contact area with the contaminated water, and is formed to extend in correspondence with the main body 410 along the longitudinal direction of the main body 410. Meanwhile, in the example illustrated in the drawings, the structure in which five contact protrusions 420 are formed along the circumferential direction on the outer circumferential surface of the main body 410 has been described, but the contact protrusions 420 are not limited to the illustrated example. A plurality of may be installed on the outer peripheral surface of the).

At this time, the outer circumferential surface of the main body 410 and the contact protrusion 420 is preferably formed with a concave-convex surface 421 is provided with a plurality of concavo-convex to adsorb foreign substances contained in the contaminated water.

The plurality of filter media 400 configured as described above is filled in the flow space 310 of the flow pipe to remove foreign substances from the contaminated water because foreign matters such as earth and sand contained in the contaminated water are adsorbed on the uneven surface 421.

On the other hand, Figure 4 shows a filter medium 450 according to another embodiment of the present invention.

Elements having the same functions as those in the previous drawings are denoted by the same reference numerals.

Referring to the drawings, the filter medium 450 includes a main body 451 and a contact protrusion 452 protruding from the inner surface of the main body 451.

The main body 451 is formed of a hollow cylinder in which a through hole is formed so that the contaminated water can flow therethrough. The main body 451 is preferably formed of a synthetic resin material such as plastic having a specific gravity smaller than that of water so as to float in contaminated water introduced into the flow pipe.

The contact protrusion 452 protrudes from the inner side of the through hole of the main body 451 so as to expand the contact area with the contaminated water and extends to correspond to the main body 451 along the longitudinal direction of the main body 451. . Meanwhile, in the example illustrated in the drawings, the structure in which four contact protrusions 452 are formed along the circumferential direction on the inner surface of the main body 451 has been described, but the contact protrusions 452 are not limited to the illustrated example, but the main body ( A plurality of may be installed on the inner side of the 451.

At this time, the inner surface of the through hole of the body 451 and the outer surface of the contact protrusion 452 is preferably formed with a concave-convex surface 453 is provided with a plurality of concavo-convex to adsorb foreign substances contained in the contaminated water.

The plurality of filter mediums 450 configured as described above are filled in the flow space 310 of the flow pipe to remove foreign substances from the contaminated water since foreign substances such as soil and sand contained in the contaminated water are adsorbed on the uneven surface 453.

On the other hand, the filter medium washing unit 500 according to the present invention will be described in detail as follows.

The filter medium washing unit 500 is installed to communicate with the flow space 310 of the flow tube to suck the filter medium 400 adsorbed with foreign matter, and wash the supplied filter medium 400 and supply it to the flow tube. The filter medium washing unit 500 includes a suction pipe 510, a washing container 520, an interference member 530, a discharge pipe 540, and a pumping unit 550.

The suction pipe 510 is installed in the flow pipe so as to communicate with the flow space 310 so that the filter medium 400 and the predetermined contaminated water can be sucked in the flow space 310. The suction pipe 510 is formed in a pipe shape having a flow path formed therein, and is formed to extend a predetermined length upward.

At this time, the suction pipe 510 is preferably installed in communication with the flow pipe through the venturi tube 551 which will be described later to be installed on the rear side with respect to the flow direction of the contaminated water in the flow pipe.

The washing container 520 is installed so that the end portion of the suction pipe 510 communicates with one side, and the inner space 521 is provided to accommodate the filter medium 400 and the contaminated water transferred through the suction pipe 510 therein. It is formed into a cylindrical shape. On the outer peripheral surface of the lower side of the washing container 520, a plurality of discharge holes 522 are formed to allow the foreign substances detached from the filter medium 400 to be discharged to the outside of the washing container 520 by the interference member 530 which will be described later. .

The washing container 520 may filter the filter medium 400 and the contaminated water through the suction pipe 510 so that the filter medium 400 introduced therein may pass through the interference member 530 and then be discharged to the discharge pipe 540 which will be described later. It is preferable that the one side surface being inclined is formed to be located above the other side surface to which the discharge pipe 540 is connected.

In addition, the cleaning container 520 is formed such that the other side surface is smaller toward the rear with respect to the flow direction of the filter medium 400 so that the filter medium 400 can be easily introduced into the discharge pipe 540.

On the other hand, the lower portion of the washing container 520 corresponding to the discharge hole 522 of the washing container 520 can collect the foreign substances discharged to the outside of the washing container 520 through the discharge hole 522 to discharge to the outside. The discharge hopper 523 is installed.

The interference member 530 is installed in the inner space 521 of the washing container 520 to interfere with the flow of the filter medium 400 and contaminated water so that foreign matters can be detached from the filter medium 400. The interference member 530 has a center rod 531 and a blade 532.

The central rod 531 is installed in the inner space 521 of the washing container 520 and extends side by side with respect to the flow direction of the filter medium 400, and is formed in a round bar shape having a predetermined radius.

The blade 532 protrudes from the outer circumferential surface of the central rod 531, and is formed spirally so as to generate a vortex in the flow of contaminated water introduced into the washing container 520. The contaminated water introduced into the inner space 521 of the washing container 520 is generated by the blade 532, the debris adsorbed to the filter medium 400 is desorbed by the vortex generated in the contaminated water.

The discharge pipe 540 is connected to the other side of the washing vessel 520 so that the foreign matter is separated through the interference member 530 to transfer the filter medium 400 to the hole hole 300, the other end is connected to the hole hole Is connected in communication with 300.

The discharge pipe 540 is formed in a pipe shape with a flow path formed therein, and the other end communicating with the oil hole pipe 300 is forward with respect to the direction of the flow of contaminated water in the oil hole pipe 300 than the position of the suction pipe 510 installed in the oil hole pipe 300. It is preferably installed in.

The pumping unit 550 is installed in the suction pipe 510 to pump the filter medium 400 and the contaminated water in the flow space 310 to be supplied to the washing container 520. The pumping unit 550 includes a venturi tube 551, a connection tube 552, and an air pump 553.

One end of the venturi pipe 551 is connected to the suction pipe 510, and a flow path is provided therein so that the high pressure air supplied through the air pump 553 described later can flow. At this time, the flow path of the venturi tube 551 is provided with a reduced portion that the cross-sectional area is reduced so that the venturi effect occurs to suck the filter medium 400 and the contaminated water in the flow tube.

The reduced portion has a smaller cross-sectional area than the surrounding area, so that the flow rate is faster, and when the flow rate is faster, the pressure is lowered so that the filter medium 400 and the contaminated water are accommodated in the flow space 310 of the flow pipe, and the conduit tube 552 is described below. 551).

One end of the connection pipe 552 is installed in communication with the reduced portion of the venturi pipe 551, the other end is installed in the flow pipe. The other end of the connecting pipe 552 is preferably formed to extend downward to easily suck the contaminated water and the filter medium 400 contained in the flow pipe.

The air pump 553 is connected to the other end of the venturi tube 551 through a pneumatic tube 553, and supplies high pressure air to the venturi tube 551. On the other hand, in the illustrated example, the pumping unit 550 has been described a structure for transferring the filter medium 400 and the predetermined contaminated water to the suction pipe 510 by using the air pump 553 and the venturi tube 551, the pumping unit 550 is not limited to the illustrated example, but may be any pumping means capable of supplying the filter medium 400 and contaminated water from the inside of the flow pipe to the washing container 520.

Referring to the operation of the water treatment device 100 according to the present invention configured as described above in detail as follows.

The contaminated water containing a nonpoint source such as initial rainwater is introduced into the receiving space 210 of the water tank 200 through the inflow pipe 230. The contaminated water introduced into the accommodation space 210 is introduced into the flow space 310 inside the oil hole 300 through the inflow hole 320.

The contaminated water introduced into the flow space 310 is purified by adsorbing foreign substances on the plurality of filter media 400 filled in the oil hole 300. The purified polluted water is discharged to the discharge port 220 of the water tank 200 through the discharge hole 330 of the oil hole (300).

At this time, the filter medium 400 adsorbed the contaminated water and foreign substances contained in the oil hole 300 is introduced into the washing container 520 through the suction pipe 510 by the pumping unit 550. The filter medium 400 and the contaminated water introduced into the washing container 520 are interfered with the flow by the interference member 530, and foreign substances adsorbed to the filter medium 400 are separated.

The foreign matter detached from the filter medium 400 is discharged to the outside of the cleaning container 520 through the discharge hole 330 of the cleaning container 520, and the discharged foreign matter is collected and discharged by the discharge hopper 523.

On the other hand, the filter medium 400 from which foreign matters are separated is re-supplied into the oil hole pipe 300 through the discharge pipe 540.

The water treatment apparatus 100 of the present invention configured as described above collects and washes the filter medium 400 adsorbed with foreign matter, and then supplies the oil pipe 300 again to stop the purification process of the water treatment apparatus 100. There is an advantage that can increase the operation rate can be washed filter medium 400 without work.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

100: water treatment device
200: countertop
300: flow tube
400: filter medium
500: filter medium cleaning unit
510: suction pipe
520: washing container
530: interference member
550: pumping part

Claims (5)

delete delete delete A water tank having an accommodating space for accommodating contaminated water therein and having an outlet for discharging the contaminated water accommodated in the accommodating space on one side;
It is installed in the receiving space in communication with the discharge port, a flow space for providing the contaminated water flows therein, the outer circumferential surface is provided with a plurality of inlet holes for the contaminated water contained in the water tank to enter the flow space and;
A plurality of filter media filled in the flow space to adsorb foreign substances contained in the contaminated water;
And a filter medium washing unit installed in communication with the flow space to suck the filter medium into which the foreign matter is adsorbed, and to wash the sucked filter medium and discharge it to the flow space.
The filter medium cleaning unit
A suction pipe installed in communication with the flow space such that the filter medium and the predetermined contaminated water are sucked in the flow space;
It is installed in communication with the end of the suction pipe, there is provided an inner space for accommodating the filter medium and the contaminated water transported through the suction pipe therein, the contaminant detached from the filter medium can be discharged to the outside Washing vessel formed with a plurality of discharge holes,
An interference member installed in the inner space and interfering with the flow of the filter medium and contaminated water introduced into the inner space so that foreign matters can be detached from the filter medium;
A discharge pipe installed at both ends thereof in communication with the washing container and the air hole to discharge the filter medium from which foreign matter is separated through the interference member to the hole hole;
A pumping part installed at the suction pipe and pumping the filter medium and the contaminated water in the flow space to the washing container;
The interference member is
A central rod installed in the inner space and extending in parallel to the flow direction of the filter medium;
Protruding on the outer circumferential surface of the central rod, provided with a spirally formed blade to generate a vortex in the flow of the contaminated water introduced into the washing container,
The filter medium
With the body,
It is provided with a plurality of contact protrusions protruding on the outer peripheral surface of the main body to expand the contact area with the contaminated water,
The main body and the contact protrusion is a water treatment device, characterized in that formed on the outer circumferential surface is formed with a plurality of irregularities so that the foreign matter contained in the contaminated water is adsorbed.
A water tank having an accommodating space for accommodating contaminated water therein and having an outlet for discharging the contaminated water accommodated in the accommodating space on one side;
It is installed in the receiving space in communication with the discharge port, there is provided a flow space for flowing the contaminated water therein, the outer circumferential surface has a plurality of inlet holes provided with a plurality of inlet holes to be introduced into the flow space and;
A plurality of filter media filled in the flow space to adsorb foreign substances contained in the contaminated water;
And a filter medium washing unit installed in communication with the flow space to suck the filter medium into which the foreign matter is adsorbed, and to wash the sucked filter medium and discharge it to the flow space.
The filter medium cleaning unit
A suction pipe installed in communication with the flow space such that the filter medium and the predetermined contaminated water are sucked in the flow space;
It is installed in communication with the end of the suction pipe, there is provided an inner space for accommodating the filter medium and the contaminated water transported through the suction pipe therein, the contaminant detached from the filter medium can be discharged to the outside Washing vessel formed with a plurality of discharge holes,
An interference member installed in the inner space and interfering with the flow of the filter medium and contaminated water introduced into the inner space so that foreign matters can be detached from the filter medium;
A discharge pipe installed at both ends thereof in communication with the washing container and the air hole to discharge the filter medium from which foreign matter is separated through the interference member to the hole hole;
A pumping part installed at the suction pipe and pumping the filter medium and the contaminated water in the flow space to the washing container;
The interference member is
A central rod installed in the inner space and extending in parallel to the flow direction of the filter medium;
Protruding on the outer circumferential surface of the central rod, provided with a spirally formed blade to generate a vortex in the flow of the contaminated water introduced into the washing container,
The filter medium
A main body having a through hole formed to allow the contaminated water to flow therethrough;
And a plurality of contact protrusions protruding from the inner surface of the through hole of the main body.
The inner surface of the through hole of the main body and the outer surface of the contact projection is a water treatment apparatus characterized in that the concave-convex surface is provided with a plurality of concave-convex to be adsorbed foreign matter contained in the contaminated water.

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