KR20110105224A - A waste water processing filtration device which the reclaiming is possible which uses the filter - Google Patents

Abstract

The present invention relates to a filtration device for water treatment using a filter material for reproducible regeneration, the configuration of which has a cylindrical shape, the receiving space is formed therein, the upper portion is open, the lower portion of the plurality of support legs extending downward A container formed therein; and a cover positioned at an upper portion of the container to determine opening and closing of the container, the cover being flanged and fixed to the container; and formed on both sides of the upper outer peripheral surface of the container so as to communicate with the inside of the container. The raw water inlet pipe and the backwash water discharge pipe, and the outer peripheral surface of the lower end of the container, the purified water discharge pipe is formed to communicate with the inside of the container, the bottom surface of the lower surface of the container is formed to communicate with the inside of the container, the bottom surface A backwash water supply pipe branched from the drain pipe and communicating with the bottom drain pipe, and a dog formed in each of the pipes A pipe passage including a closed valve; and a plurality of threaded holes formed in an upper surface thereof, and vertically spaced apart from an inner bottom surface of the container at an inner lower side of the container so that an outer circumferential surface is in contact with the inner circumferential surface of the container to maintain airtightness. And a strainer mounting plate; and a filter medium compression pipe having an inverted truncated conical shape that is located on the upper portion of the strainer mounting plate and gradually decreases in diameter as it extends downward, and is located at an inner lower end of the filter medium compression pipe. A perforated plate having a plurality of through holes formed therein, and a filter medium filtering net stacked on the top of the perforated plate to filter out fine impurities; and a filter material accommodated in the container and composed of a plurality of filtration pieces. Located in the upper portion of the filter medium accommodated in the container, the upper surface is formed with a plurality of screw holes, near the edge of the predetermined The filter medium compression plate is bent to the slope, the outer circumferential surface is formed with an annular rubber packing; and is fixed to the upper portion of the screw hole formed in the strainer mounting plate and the screw hole formed in the filter medium compression plate, respectively, a plurality of slit grooves on the outer peripheral surface A strainer including a conical catchment portion provided with a fastening tube portion at a lower portion thereof, and a fixing bolt positioned at a lower portion of the screw hole to be fastened to an end of the fastening tube portion of the conical catchment portion to prevent the conical catchment portion from being separated; Is formed in the upper center of the cover, by vertically conveying the filter medium compression plate in the vertical direction, the compression plate lifting cylinder comprising a piston rod end is coupled to the upper center of the filter medium compression plate; An air injection unit for injecting air into the container for efficient washing of the filter medium in a backwash process. As to the studs,
A rubber packing having elasticity is formed on the outer circumferential surface of the filter medium compression plate installed in the container so as to be in contact with the inner circumferential surface of the container, as well as smooth up and down transfer of the filter medium compression plate, as well as the inner circumferential surface of the container and the filter medium compression plate by rubber packing. A nonwoven fabric piece, which is a filter medium, is caught in between, thereby removing the cause of a mechanical defect.
In addition, by having a backwash water supply pipe for supplying backwash water and a connection hose for supplying air, respectively, the backwashing water and air are smoothly supplied, thereby increasing the washing efficiency of the nonwoven fabric as a filter medium and reducing the washing time. have.
In addition, the air supplied into the container is discharged at a high injection pressure through a plurality of air spray nozzles, the aggregated non-woven fabric pieces are very well loosened and smoothly washed to increase the cleaning efficiency of the non-woven fabric pieces as a filter medium. have.

Description

A waste water processing filtration device which the reclaiming is possible which uses the filter}

The present invention relates to a water treatment filtration device using a filter material for reproducible regeneration, and more particularly, to form a rubber packing having elasticity in contact with the inner circumferential surface of the container on the outer circumferential surface of the filter medium compression plate installed in the container. Water treatment using a filter material for recyclable water treatment that removes the cause of device defects by removing a piece of nonwoven fabric as a filter material between the inner circumferential surface of the container and the outer circumferential surface of the filter medium compression plate by rubber packing It relates to a filtration device for.

In general, a filter medium for filtering impurities (sludge or debris) contained in water is installed in a container of a water treatment filtration apparatus used to purify water, sewage, waste water, ground water, seawater, and the like.

The conventional filter medium used in the water treatment filtration apparatus is a cartridge-type filter medium formed by forming a cylindrical shape by winding a yarn made of polyester (PE: Poly) tightly or by stacking a plurality of filter papers or nonwoven fabrics cut in a ring shape. Was mainly used.

However, the conventional filter medium configured as described above is normally used for one-time use, so once it is used, it cannot be reused anymore, so it must be replaced with a new filter medium, thereby causing a waste of replacement cost and replacement time.

In addition, the conventional filter medium used once, not only takes a separate cost when disposed, but also has a problem of causing environmental pollution as industrial waste.

In order to solve the above problems, the present applicant has developed and proposed a "filtration apparatus for water treatment using a filter material for reproducible regeneration (application number: 10-2009-0050602)".

Looking at the structure of the "filtration apparatus for water treatment using a filter material for reproducible regeneration (application number: 10-2009-0050602)" in detail, as shown in Figure 2 the upper surface is opened and the lower surface is made of a closed cylinder On the outer circumferential surface of the upper surface opening portion is formed a flange plate 4a for cover plate coupling and a housing 4 provided with a plurality of support leg portions 4b on the outer side of the lower surface.

Raw water inlet pipe (5) and backwash water discharge pipe (6) are respectively installed on the upper sides of the outer surface of the housing (4), purified water discharge pipe (7) is installed on the lower side of the outer surface and the bottom drain pipe in the center of the inner bottom (8) is installed to protrude outward and downward, and one side of the bottom drain pipe (8) is provided with a backwash water supply pipe (9) branched with a backwash air supply pipe (9a) on one side,

The inner lower part of the housing 4 is horizontally fixed to the strainer mounting plate 10 through which a plurality of threaded holes 10a are formed so as to be spaced apart from the inner bottom of the housing 4 by a constant height.

The upper portion of the strainer mounting plate 10 fixed to the inner lower portion of the housing 4 is fixed to the filter medium compression tube 11 of the inverted truncated conical shape that narrows the inner diameter toward the lower portion of the housing 4, the inside of the filter medium compression tube 11 The perforated part is installed horizontally spaced apart from the upper surface of the strainer mounting plate 10, the filter medium supporting plate 12 is provided with a filter medium catching net 12a on the upper surface,

Inside the filter medium compression plate 11 is filled with a filter medium for water treatment (1) consisting of a plurality of nonwoven fabric pieces 1a for filtration,

The upper portion of the filter medium for water treatment 1 filled in the filter medium compression pipe 11 is formed through the plurality of screw holes on the upper surface and the filter medium compression plate 13 formed with the filter medium pressing portion 13b convex downward in the center. ) Is installed to move up and down,

In the upper part of the screw hole (10a) formed through the strainer mounting plate 10 and the screw hole formed through the filter medium compression plate 13, a fastening pipe portion protrudes from a lower portion of the conical collecting part provided with a plurality of slit grooves on the outer circumferential surface thereof. A plurality of strainers 16 are each screwed together,

The cover plate 17 having the air discharge pipe 17a is coupled to the cover coupling flange portion 4a of the housing 4, and the bottom surface of the cover plate 17 is located at the center of the top surface of the cover plate 17. The end of the piston rod (18a) protruding to the compression plate lifting cylinder 18, which is coupled to the center of the upper surface of the filter medium compression plate 13 is configured to be vertically fixed.

However, the "filtration apparatus for water treatment using a reproducible filter material for regeneration (application number: 10-2009-0050602)" is the filter medium compression plate 13 by the compression plate lifting cylinder 18 is the housing ( 4) It is repeatedly moved up and down in the inside, when the outer peripheral surface of the filter medium compression plate 13 is in contact with the inner peripheral surface of the housing 4 it is difficult to move up and down are finely spaced apart from each other, the gap due to this separation The non-woven fabric piece 1a, which is the furnace filter medium 1, is introduced, causing a problem such as a mechanical defect such as the operation of the filter medium compression plate 13 being not smooth.

In addition, in the backwash process, compressed air is supplied together with the backwashing water from the bottom of the housing 4 so that the nonwoven fabric pieces 1a that are aggregated for easy cleaning of the nonwoven fabric pieces 1a, which are the filter medium 1, are well released. The air pressure due to the compressed air supplied only at the bottom of the housing 4 is slightly weak, so that the nonwoven fabric piece 1a is not properly loosened, which makes it difficult to efficiently clean it.

In addition, since the backwash water and the air are supplied together through one of the backwash water supply pipes 9, the backwash water and the air cannot be supplied smoothly, so that the efficiency of washing is low and the washing time is long.

The present invention has been proposed to solve various problems as described above, the object of which is to form a rubber packing having elasticity in contact with the inner circumferential surface of the container on the outer circumferential surface of the filter medium compression plate installed in the container smooth image of the filter medium compression plate Filtering device for water treatment using repeated recyclable water treatment media that eliminates the possibility of mechanical defects due to trapping of nonwoven fabric as filter material between inner circumference of container and outer circumference of filter medium compression plate by rubber packing In providing.

In addition, by having a backwash water supply pipe for supplying backwash water and a connecting hose for supplying air, respectively, it is possible to smoothly supply backwash water and air to increase the washing efficiency of the nonwoven fabric as a filter material and to reduce the washing time. The present invention provides a filtration device for water treatment using a filter medium for water treatment.

In addition, the air supplied into the container is discharged at a high injection pressure through a plurality of air spray nozzles, so that the aggregated non-woven fabric pieces are very well loosened and smoothly washed to increase the washing efficiency of the non-woven fabric pieces as the filter medium. The present invention provides a filtration device for water treatment using a filtration material for water treatment.

Water treatment filtration device using a repeatable regeneration water treatment filter material according to the present invention for achieving the above object has a tubular shape, the receiving space is formed therein, the upper portion is open, the lower portion is a plurality of extending downward A container having a support leg formed therein; and a cover positioned at an upper portion of the container to determine opening and closing of the container, the cover being flanged and fixed to the container; and both sides of the upper outer peripheral surface of the container communicating with the inside of the container. A raw water inlet pipe and a backwash water discharge pipe respectively formed to be connected to each other, a purified water discharge pipe formed on one side of the lower outer peripheral surface of the container to communicate with the inside of the container, and a bottom drain pipe formed on the center of the lower surface of the container to communicate with the inside of the container; A backwash water supply pipe branched from the bottom drain pipe and communicating with the bottom drain pipe; A pipe passage including an open / close valve formed in the upper surface thereof, and a plurality of threaded holes are formed in the upper surface thereof. And a strainer mounting plate formed to be maintained, and a filter medium compression pipe having an inverted truncated conical shape which is located on an upper portion of the strainer mounting plate and gradually extends downward, and is located at an inner lower end of the filter medium compression pipe. A perforated plate having a plurality of through holes formed on an upper surface thereof, and a filtering medium filtering net stacked on the top of the perforated plate to filter out fine impurities; and a filter material accommodated in the container and comprising a plurality of pieces of filtering pieces. And, located in the upper portion of the filter medium accommodated in the container, the upper surface is formed with a plurality of screw holes, near the edge The filter medium compression plate is bent at a predetermined slope into the room, the outer peripheral surface is formed in the annular rubber packing is formed; and the screw holes formed in the strainer mounting plate and the screw holes formed in the filter medium compression plate, respectively, is fastened and fixed to the outer peripheral surface It includes a conical collecting portion is provided with a plurality of slit grooves and a fastening pipe portion is formed in the lower portion, and a fixing bolt which is located in the lower portion of the screw hole is fastened to the end of the fastening tube portion of the conical collecting portion to prevent the conical collecting portion from being separated And a strainer configured to be formed at an upper center of the cover and vertically convey the filter medium compression plate in an upward and downward direction, the end of which includes a piston rod coupled to the upper center of the filter medium compression plate. Cylinder; and an air component for injecting air into the container for efficient washing of the filter medium in a backwash process It characterized by yirueojim including; section.

In addition, the engraving member is recyclable and eco-friendly because no harmful gas is generated when incinerated, and the water absorption rate is very low, so it is easy to reuse by simply washing foreign substances on the surface with water, and has excellent chemical resistance as an acid or basic cleaning chemical. It is characterized in that it is formed of any one selected from non-woven fabric pieces or microfiber pieces made of PP (Polypropylene) material to prevent damage by the chemical during cleaning or the non-woven fabric pieces and microfiber pieces are mixed.

In addition, the non-woven fabric piece is characterized in that it is configured in the shape of a circle or polygon.

In addition, the air injection unit is located in the center of the bottom surface of the container, the first air injection nozzle for injecting air into the container, and at least one agent is located on the outer peripheral surface of the lower end of the container, and injecting air into the container 2 an air spray nozzle, an air compressor for generating air injected from the air spray nozzle, and the air spray nozzle and an air compressor are connected to each other so that the air generated by the air compressor is supplied to the air spray nozzle. Characterized in that it comprises a connection hose.

As described above, according to the filtration device for water treatment using the recyclable filter medium for water treatment according to the present invention, by forming a rubber packing having elasticity to contact the inner circumferential surface of the container on the outer circumferential surface of the filter medium compression plate installed in the container, the filter medium compression plate As well as the smooth up and down of the conveyance, the non-woven fabric of the filter material is caught between the inner peripheral surface of the container and the outer peripheral surface of the filter medium compression plate by the rubber packing, there is an effect that the cause that can cause a mechanical defect can be eliminated.

In addition, by having a backwash water supply pipe for supplying backwash water and a connection hose for supplying air, respectively, the backwashing water and air are smoothly supplied, thereby increasing the washing efficiency of the nonwoven fabric as a filter medium and reducing the washing time. have.

In addition, since the air supplied into the container is discharged at a high injection pressure through a plurality of air spray nozzles, the aggregated non-woven fabric pieces are very well loosened and smoothly washed to increase the washing efficiency of the non-woven fabric pieces as the filter medium. .

1 is a longitudinal cross-sectional view of a water treatment filtration device using a repeatable renewable water treatment media proposed by the applicant.
Figure 2 is a longitudinal cross-sectional view showing the internal structure of the water treatment filtration device using a repeatable renewable water treatment filter material according to an embodiment of the present invention
3 is a perspective view of a porous plate and a filter medium strainer of a water treatment filtration device using the repeatable renewable water treatment filter medium shown in FIG.
Figure 4 is a view showing the engraving member constituting the filter medium of the water treatment filtration device using the repeatable renewable water treatment filter medium shown in FIG.
FIG. 5 is a perspective view of a filter medium compression plate provided with a strainer of a water treatment filtration device using the repeatable renewable water treatment filter medium shown in FIG. 2; FIG.
FIG. 6 is a cross-sectional view taken along AA of the water treatment filtration device using the repeatable renewable water treatment medium shown in FIG.
7 is a state of use of the filtration device for water treatment using the repeatable renewable water treatment filter medium shown in FIG.

Based on the accompanying drawings, a filtration device for water treatment using a reproducible water treatment filtration material according to a preferred embodiment of the present invention will be described in detail.

2 to 7 show a water treatment filtration device using a repeatable regeneration water treatment filter medium according to an embodiment of the present invention, Figure 2 is a water treatment using a recyclable water treatment filter material according to an embodiment of the present invention. Figure 3 is a longitudinal cross-sectional view showing the internal structure of the filtration device, Figure 3 is a perspective view of the porous plate and filter medium screen of the filtration device for water treatment using the repeatable renewable water treatment media shown in Figure 2, Figure 4 is shown in Figure 2 FIG. 5 is a view illustrating a piece of the filter member of the filtration device for water treatment using the reproducible water treatment filter medium, and FIG. 5 is a filter medium provided with a strainer of the filtration device for water treatment using the repeatable renewable water treatment filter material shown in FIG. 2. 6 is a perspective view of the compression plate, Figure 6 is a cross-sectional view AA of the water treatment filtration device using the repeatable regeneration filter material shown in FIG. FIG. 7 is a view illustrating a state of use of the water treatment filtration device using the repeatable renewable water treatment filter medium shown in FIG. 2.

As shown in the figure, the water treatment filtration device 100 using a repeatable renewable water treatment filter material according to an embodiment of the present invention is a container 110, a cover 120, a pipe 130, a strainer Mounting plate 140, filter medium compression pipe 150, porous plate 160, filter medium strainer 170, filter medium 180, filter medium compression plate 190, strainer 210, compression The plate lifting cylinder 220 and the air injection unit 230 is included.

As shown in FIG. 2, the container 110 has a tubular shape, and a receiving space is formed therein so that an upper portion of the container 110 is opened, and a lower portion of the support leg 111 extends downward. .

As shown in FIG. 2, the cover 120 is positioned above the container 110 to determine the opening and closing of the container 110, and is flanged 121 and fixed to the container 110. .

As shown in FIG. 2, the conduit 130 has raw water inflow pipes 131 and backwash water discharge pipes 132 formed on both sides of the upper outer circumferential surface of the container 110 to communicate with the interior of the container 110. The purified water discharge pipe 133 is formed to communicate with the inside of the container 110 at one side of the lower outer circumferential surface of the container 110, and is formed to communicate with the inside of the container 110 at the center of the lower surface of the container 110. A bottom drain pipe 134, a backwash water supply pipe 135 branched from the bottom drain pipe 134 and in communication with the bottom drain pipe 134, and an opening / closing valve 136 formed in each of the pipes 131, 132, 133, 134 and 135. It is configured by.

As shown in FIG. 2, the strainer mounting plate 140 has a plurality of threaded holes 141 penetrated at an upper surface thereof, and is formed from an inner bottom surface of the vessel 110 at an inner lower portion of the vessel 110. Vertically spaced outer peripheral surface is formed to be in contact with the inner peripheral surface of the container 110 to maintain the airtight.

As shown in FIG. 2, the filter medium compression tube 150 is positioned above the strainer mounting plate 140, and is formed to have an inverted truncated cone shape in which an inner diameter gradually decreases as it extends downward.

That is, due to the inverted truncated conical shape in which the inner diameter gradually decreases as the filter medium compression pipe 150 extends downward, the filter medium 180 to be housed in the container 110 is pressed into a narrow space. Flocking is easily compressed, and when the pressure is released, the filter medium 180, which is expanded and aggregated in a large space, is easily released.

As shown in Figure 2 and 3, the porous plate 160 is located at the inner bottom of the filter medium compression tube 150, a plurality of through holes 161 are formed on the upper surface.

As shown in Figure 2 and 3, the filter medium screen 170 is stacked on top of the porous plate 160, it is designed to filter out fine impurities.

As shown in FIG. 2, the filter medium 180 is accommodated in the container 110 and includes a plurality of filtration pieces 181.

The engraving member 181 is recyclable, as shown in Figure 4 is not harmful gas generated during incineration, it is environmentally friendly, the water absorption rate is very low, easy to reuse by simply washing the water on the surface with water, chemical resistance It is formed of any one selected from non-woven fabric pieces (181a) or microfiber pieces (181b) made of PP (Polypropylene) material to prevent damage due to chemicals when cleaning with an acid or basic cleaning chemicals or the non-woven fabric pieces (181a) and The microfiber pieces 181b are formed by mixing.

That is, when the nonwoven fabric piece 181a having a predetermined size is used as the filter medium 180, as shown in FIG. 4A, the pore size of the nonwoven fabric piece 181a, which is compressed under pressure, is formed to be somewhat large. It is preferable to use it for the purpose of filtering large impurities, and in this case, the size of the pores formed between the compressed nonwoven fabric pieces 181a is not large to filter out fine impurities, but the speed of filtering the raw water has the advantage of being fast.

As shown in FIG. 4B, when the microfiber pieces 12 such as yarns are used as the filter medium 180, the pore size of the microfiber pieces 181b to be compressed under pressure is formed to be somewhat smaller, so that impurities of fine size are formed. It is preferable to use for filtering purposes, wherein the size of the pores formed between the compressed microfiber pieces (181b) is small, the rate of filtering the raw water is slow, but there is an advantage that can filter out fine impurities,

As shown in FIG. 4C, when the nonwoven fabric piece 181a and the microfiber piece 181b are mixed with the filter material 180, the advantages of the nonwoven fabric piece 181a and the microfiber piece 181b described above may be obtained. All have the effect of being provided.

Here, the nonwoven fabric piece 181a may be configured in a circular or polygonal shape, the nonwoven fabric piece 181a used in the water treatment filtration device 100 using the reproducible water treatment filter material according to the embodiment of the present invention. The silver is formed in a rectangular shape having a width of 2 mm, a length of 5 mm, and a thickness of 0.1 mm so as to be easily lifted and released by the water pressure of the backwash water supplied during the cleaning of the filter medium 180, but is not limited thereto.

As shown in Figure 2 and 5, the filter medium compression plate 190 is located on the upper portion of the filter medium 180 accommodated in the container 110, a plurality of screw holes 191 is formed on the upper surface, It is bent 192 with a predetermined inclination upwards near the edge, and is formed such that an annular rubber packing 193 is formed on the outer circumferential surface.

Here, the filter medium compression plate 190 compresses the filter medium 180 made of a plurality of pieces 181 accommodated in the container 110, and between the plurality of pieces 181 by the compression force. This allows the formation of fine pores to filter out impurities (sludge, debris, suspended solids, etc.) remaining in the raw water. In this case, the rubber packing 193 is formed on the outer circumferential surface of the filter medium compression plate 190 which is conveyed up and down to apply pressure to the filter medium 180 or release the pressure, and the filter medium compression plate 190 Of course, the upper and lower conveyance of the), as well as the encapsulation member 181, the filter material 180 is caught between the inner peripheral surface of the container 110 and the outer peripheral surface of the filter medium compression plate 190 by the rubber packing (193). It is effective to eliminate the cause of the occurrence of a mechanical defect.

In addition, as shown in Figure 2 has a structure that is bent 192 by a predetermined slope upwards near the edge of the filter medium compression plate 190, thereby pressurizing the filter medium 180 accommodated in the container 110 When the high pressure is prevented from being formed at the edge portion of the filter medium compression plate 190 at the time, the central portion and the periphery of the filter medium compression plate 190 are formed to have a uniform pressure as a whole. It is possible to prevent the difference in the filtration performance of the central portion and the peripheral portion of the filter medium 180 accommodated in 110.

2 and 5, the strainer 210 is fastened to the upper portion of the screw hole 141 formed in the strainer mounting plate 140 and the screw hole 191 formed in the filter medium compression plate 190, respectively. Being fixed, a plurality of slit grooves (211a) is provided on the outer circumferential surface and the conical collecting portion 211 formed with a fastening pipe portion (211b) at the bottom, and located in the lower portion of the screw holes (141, 191) and the conical collecting portion (211) It is configured to include a fixing bolt 212 is fastened to the end of the fastening pipe portion (211b) of the) to prevent the conical collector 211 is separated.

Here, the strainer 210 filters out some large impurities remaining in the raw water and prevents the plurality of pieces 181 constituting the filter medium 180 from being discharged to the outside together with the filtered filtrate.

As shown in Figure 2, the compression plate lifting cylinder 220 is formed in the upper center of the cover 120, by vertically conveying the filter medium compression plate 150 in the vertical direction, the end is It comprises a piston rod 221 coupled to the upper center of the filter medium compression plate 150.

Here, of course, the pressure plate lift cylinder 220 may be used by a hydraulic or pneumatic cylinder by the user's selection.

As shown in Figure 2 and 6, the air injection unit 230 is to inject air into the container 110 in order to efficiently wash the filter medium in the backwash process,

Located in the center of the bottom surface of the container 110, the first air injection nozzle 231 for injecting air into the container 110, and is located on the outer peripheral surface of the lower end of the container 110, the container 110 One or more second air jet nozzles 232 for injecting air therein, an air compressor 233 for generating air jetted from the air jet nozzles 231, 232, the air jet nozzles 231, 232, and an air compressor ( It is configured to include a connection hose 234 for connecting the 233 to communicate with each other to supply the air generated in the air compressor 233 to the air injection nozzles (231,232).

When the backwash water flows in order to clean the filter medium 180 accommodated in the container 110, the air spraying unit 230 has a high injection pressure to a plurality of pieces 181 constituting the filter medium 180. By discharging the air, the aggregated piece member 181 is very well released and at the same time smooth cleaning is performed to increase the washing efficiency of the piece member 181, the filter material 180.

In addition, the backwash water supply pipe 135 to which the backwash water is supplied and the connection hose 234 to which the air is supplied, respectively, the backwash water and the supply of air is smooth to wash the piece member 181 which is the filter medium 180. Increasing the efficiency, the washing time can be reduced.

The second air spray nozzles 232 used in the water treatment filtration device 100 using the reproducible water treatment filter material according to the embodiment of the present invention, as shown in FIG. Of course not.

The water treatment filtration device 100 using the repeatable regeneration water treatment filter material according to the embodiment of the present invention having the configuration as described above operates as follows.

First, in order to filter out the impurities remaining in the raw water, the filter medium compression plate 150 formed in the container 110 by the compression plate lifting cylinder 220 as shown in Figure 7a is lowered, the container 110 The filter medium 180 is formed of a plurality of pieces 181 accommodated therein to be compressed.

At this time, the filter medium 180 is shrunk by the compressive force of the filter medium compression plate 150, a gap of a minute size is formed between the plurality of pieces 181.

Here, the amount of the filter medium 180 accommodated in the container 110 is appropriately adjusted according to the quality and quantity of the raw water to be filtered.

Then, as shown in FIG. 7B, raw water is introduced through the raw water inlet pipe 131, and the introduced raw water passes through a plurality of strainers 210 formed on the filter medium compression plate 150, and somewhat larger impurities are introduced. The primary water is filtered, and the raw water passing through the strainer 210 is filtered to the second fine impurities while passing through the pores of the fine size formed by the filter medium 180 consisting of a plurality of engraving members 181, and finally While passing through the filter medium filter network 170, the finely purified impurities are filtered out and discharged to the outside through the purified water discharge pipe 133.

When this filtration process is repeated, the pores formed by the strainer 210 and the filter medium 180 are almost blocked by impurities remaining in the raw water, thereby limiting the filtration capacity. The filtration process is stopped and a cleaning operation is performed to restore the filtration capacity of the strainer 210 and the filter medium 180.

In order to perform the cleaning operation, as shown in FIG. 7C, as the filter medium compression plate 150 formed in the container 110 is lifted and lifted by the compression plate lifting cylinder 220, The compressive force of the filter member 180 made of a piece member 181 to be released.

Then, the clean water is supplied into the container through the backwash water supply pipe 132. At this time, a predetermined amount of cleaning chemicals are supplied to the container 110 together with water through the backwash water supply pipe 132, and then left for a predetermined time to remove the plurality of pieces 181 and the strainer 210 by the cleaning chemicals. After the impurities buried in the) to be decomposed, as shown in Figure 7d through the air injection unit 230 to discharge the air in a strong injection pressure in the container 110 to loosen the plurality of pieces pieces 181 agglomerated. At the same time, after cleaning to clean, as shown in Figure 7e in the washing process, the impurities separated from the plurality of pieces 181 or strainer 210 to be discharged to the outside through the backwash water discharge pipe 132 with the backwash water. do.

As described above, the water treatment filtration device 100 using the reproducible water treatment filter material according to the embodiment of the present invention expands the volume of the constricted filter medium 180 by releasing the compressive force applied to the filter medium 180 during cleaning. After removing the impurities, the filter medium 180 is removed by using a cleaning chemical capable of cleaning impurities and a backwash water having a constant hydraulic pressure and an air injection unit 230 having a strong injection pressure. Repeated playback and use are possible.

Although the present invention has been described with reference to the embodiments illustrated in the accompanying drawings, this is by way of example and not limited to the above-described embodiments, various modifications and equivalent embodiments are possible from those skilled in the art. You will understand the point. In addition, modifications by those skilled in the art can be made without departing from the scope of the present invention. Therefore, the scope of the claims in the present invention will not be defined within the scope of the detailed description, but will be defined by the following claims and their technical spirit.

1. Filter media for water treatment 1a. Filtration Nonwoven Fragment
4. Housing 4a. Flange for cover plate joining
4b. Support leg 5. Raw water inlet pipe
6. Backwash water discharge pipe 7. Purified water discharge pipe
8. Bottom drain pipe 9. Backwash water supply pipe
9a. Backwashing air supply pipe 10. Strainer mounting plate
10a. Screw hole 11.filter media
12. Perforated plate for filter media 12a. Filter media
13. Filter media compression plate 13b. Filter media press
16. Strainer 17. Cover plate
17a. Air exhaust pipe 18. Compression plate lifting cylinder
18a. Piston rod
100. Filtration device for water treatment using repeatable regeneration filter media
110. Container 111. Supporting Leg
120. Cover 121. Flange
130. Pipe line 131. Raw water inlet pipe
132. Backwash water discharge pipe 133. Purified water discharge pipe
134. Bottom drain pipe 135. Backwash water supply pipe
136. On-off valve 140. Strainer mounting plate
141, 191. Threaded hole 150. Filter medium compression plate
160. Perforated Plate 161.Through Hole
170. Filter media 180. Filter media
181. Engraving member 181a. Nonwoven pieces
181b. Microfiber Flake 190. Filter Media Compression Plate
192. Bending 193. Rubber packing
210. Strainer 211. Conical collector
211a. Slit groove 211b. Fastening pipe part
212. Fixed bolt 220. Cylinder for compression plate lift
221. Piston rod 230. Air injection unit
231. 1st air spray nozzle 232. 2nd air spray nozzle
233. Air compressor 234. Connection hose

Claims (4)

In the filtration device for water treatment,
The container 110 has a cylindrical shape, the receiving space is formed therein, the upper portion is open, the lower portion is formed with a plurality of support legs 111 extending downward;
Located at the top of the container 110 to determine the opening and closing of the container 110, the cover 120 is fixed to the flange 110 and the container 110 is fixed;
Raw water inlet pipe 131 and the backwash water discharge pipe 132 are formed on both sides of the upper outer peripheral surface of the container 110 to communicate with the inside of the container 110, and the container (one side of the lower outer peripheral surface of the container 110). 110, the purified water discharge pipe 133 is formed so as to communicate with the inside, the bottom surface of the container 110, the bottom drain pipe 134 is formed to communicate with the inside of the container 110, and the bottom drain pipe 134 A conduit line 130 including a backwash water supply pipe 135 branched to communicate with the bottom drain pipe 134, and an on / off valve 136 formed in each of the pipes 131, 132, 133, 134 and 135;
A plurality of threaded holes 141 are formed in an upper surface thereof, and vertically spaced apart from an inner bottom surface of the container 110 at an inner lower portion of the container 110 so that an outer circumferential surface is in contact with the inner circumferential surface of the container 110 to be hermetically sealed. A strainer mounting plate 140 formed to be maintained;
Located in the upper portion of the strainer mounting plate 140, the filter medium compression pipe 150 having an inverted truncated conical shape that gradually decreases in diameter as it extends downward;
A porous plate 160 positioned at an inner lower end of the filter medium compression tube 150 and having a plurality of through holes 161 formed on an upper surface thereof;
A filter medium filtering network 170 laminated on the porous plate 160 and filtering fine impurities;
A filter material 180 accommodated in the container 110 and formed of a plurality of pieces of filtration pieces 181;
Located in the upper portion of the filter medium 180 accommodated in the container 110, a plurality of screw holes 191 is formed on the upper surface, bent 192 with a predetermined inclination upwards near the edge, the outer peripheral surface of the annular A filter medium compression plate 190 on which a rubber packing 193 is formed;
The screw holes 141 formed on the strainer mounting plate 140 and the screw holes 191 formed on the filter medium compression plate 190 are fastened and fixed, respectively, and a plurality of slit grooves 211 a are provided on the outer circumferential surface thereof and Conical catch portion 211 is formed with a fastening pipe portion 211b,
Located in the lower portion of the screw holes (141, 191) is fastened to the end of the fastening pipe portion (211b) of the conical collecting portion 211 is a strainer including a fixing bolt (212) to prevent the departure of the conical collecting portion (211) ( 210);
Is formed in the upper center of the cover 120, by vertically conveying the filter medium compression plate 150 in the vertical direction, the end of the piston rod 221 is coupled to the upper center of the filter medium compression plate 150 Compression plate lifting cylinder 220 comprising a; And
And an air injection unit (230) for injecting air into the container (110) for efficient washing of the filter medium in the course of backwashing.
The method of claim 1,
The engraving member 181,
It is recyclable and is eco-friendly because no harmful gas is generated when incinerated, and its water absorption rate is very low, so it is easy to reuse by simply cleaning the foreign substances on the surface with water, and it is excellent in chemical resistance. It is formed of any one selected from non-woven fabric pieces (181a) or microfiber pieces (181b) made of a polypropylene (PP: Polypropylene) material to prevent damage, or is formed by mixing the nonwoven fabric pieces (181a) and microfiber pieces (181b) Filtration device for water treatment using a repeatable renewable water treatment filter medium.
The method of claim 2,
The nonwoven fabric piece 181a,
Filtration device for water treatment using a filter material for reproducible water treatment, characterized in that configured in the shape of a circle or polygon.
The method of claim 1,
The air injection unit 230,
Located at the center of the bottom surface of the container 110, the first air injection nozzle 231 for injecting air into the container 110,
Located at the outer peripheral surface of the bottom of the container 110, at least one second air spray nozzle 232 for injecting air into the container 110,
An air compressor 233 generating air injected from the air injection nozzles 231 and 232;
And a connection hose 234 connecting the air spray nozzles 231 and 232 to the air compressor 233 so that the air generated by the air compressor 233 is supplied to the air spray nozzles 231 and 232. Filtration device for water treatment using a reproducible water treatment filter material, characterized in that the regeneration.

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