KR102489997B1 - Filtration material washing machine - Google Patents

Abstract

The present invention separates suspended matter from the filter medium in a high-pressure washing module that supplies washing water and air to the filter medium transported by the transfer pump, and supplies the separated filter medium and washing water from the open upper part, and a rotating paddle is installed in the center of the circle. By washing the separated suspended matter in the washing tank where the strainer is formed on the lower and inner walls, the filter medium and sewage are separated and discharged through the filter medium discharge unit and the drain water discharge unit, so that the filter medium can be sorted and reused after washing, reducing waste disposal costs. The present invention relates to a filter paper washer that can improve economic feasibility, reduce working time, secure stable water quality, and can be manufactured in a small size to facilitate use of equipment even in small-scale water purification plants.

Description

Filter paper washer {Filtration material washing machine}

The present invention relates to a filter paper filter medium washer, which separates suspended matter from the filter medium in a high-pressure washing module that supplies washing water and air to the filter medium transferred from a transfer pump, and supplies the filter medium separated from the suspended matter and the washing water from an open top, A rotating paddle is mounted at the center of the tank, and the suspended matter separated from the washing tank where the strainer is formed on the lower and inner walls is washed, and the filter medium and wastewater are separated and discharged through the filter medium discharge unit and the waste water discharge unit. After washing, the filter medium is sorted and reused. Since this can reduce waste treatment costs, economic efficiency is improved, work time is shortened, and stable water quality is secured, as well as a filter paper filter media washer that can be manufactured in a small size to facilitate the use of facilities in small-scale water purification plants. .

In general, in water purification facilities, water is purified through processes such as coagulation/precipitation → filtration → disinfection. In the double filtration process, a filter layer is formed inside the filter paper, and sand, sand, granular activated carbon, anthracite and It is progressed by the filtration layer of the same particle type filter medium.

As such, the water purification facility is provided with a sand filter paper, and an activated carbon layer is formed from the bottom of the filter paper, a gravel layer is formed thereon, and a sand layer is formed thereon. By passing the raw water downward through the filter layer, the water is purified and purified.

When the filter paper of such a conventional water purification facility is used for a long period of time, mud or other fine foreign substances contained in the filtered raw water adhere to the surface of the sand forming the uppermost layer of the filter layer and gradually grow, resulting in thick foreign substances such as sludge.

In this way, if a lot of foreign matter including sludge is deposited on the sand layer of the filter paper, a problem arises in the quality of purified water, and the raw water is stagnated in the filter paper, increasing the purification time and greatly reducing the efficiency of water purification.

Since the filter paper of the water purification plant made of such a filter medium is treated with a large amount of water every day, its filtration capacity decreases over time (blockage of the filter paper), so the surface of the upper layer of the filter medium must be washed and backwashed periodically.

For this purpose, the filter paper is washed, but it is difficult to obtain a sufficient cleaning effect in the detained distribution state with a lot of suspended matter on the surface layer, and only backwashing leaves suspended matter on the surface of the filter layer and the cleaning effect is poor. This accumulation not only reduces the turbidity retention capacity of the filtrate layer, but also eventually forms mud balls.

In order to compensate for the above problems, in addition to backwashing, the surface washing of the upper layer of the filter paper is used in combination to obtain a sufficient cleaning effect. At the same time as crushing the upper layer of earth, it enhances the cleaning effect by increasing the collision and friction between the filter media.

That is, through a cleaning process performed by combining surface washing and backwashing, washing water is sprayed on the surface of the filter medium to wash the surface while backwashing water flows backward through the filter medium to remove suspended substances trapped in the pores of the filter medium.

In addition, surface wash water and backwash water, together with the removed suspended matter, enter the recovery tank through the waste trap, wastewater collector and backwash water drain valve.

On the other hand, most of the devices for washing the entire filter material (sand) are large-scale washing structures used at construction sites, and are made of expensive equipment, and are difficult to move due to their large volume. There is no dedicated facility for washing, so it is expensive to bring construction site equipment and use it after assembly, and there is a disadvantage in that labor, waste, purchase of filter media, and waste disposal costs are incurred due to periodic filter media replacement.

KR 10-0417701 (registration number) 2004.01.27. KR 10-0984863 (registration number) 2010.09.27. KR 10-2010-0132475 (publication number) 2010.12.17.

The present invention is to solve the above conventional problems,

The high-pressure washing module that supplies washing water and air to the filter medium transferred from the transfer pump separates the suspended matter from the filter medium, and the filter medium and washing water transferred from the high-pressure washing module are supplied from the open top. The separated turbidity is washed in the washing tank where the strainer is formed on the wall, and the filter medium and sewage are sorted and discharged through the filter medium discharge unit and the waste water discharge unit, so that the filter medium can be reused after washing, thereby reducing waste treatment costs and achieving economic feasibility. It is an object of the present invention to provide a filter paper washer that can be manufactured in a small size and can be easily used in a small-scale water purification plant, as well as improving, shortening working time, securing stable water quality.

Another object of the present invention is to spray washing water and air through a plurality of nozzles symmetrically formed in polygonal modules in order to exfoliate suspended matter accumulated in the filter medium, and to selectively spray the washing water and air according to the filter medium quickly and effectively. It is to provide a filter medium filter medium washer that cleans the filter medium.

Another object of the present invention is to provide a filter paper washer that maximizes washing efficiency through a high-pressure washing module, is easy to move by miniaturizing equipment, and has an open top vertical washing tank structure so that the washing process can be visually confirmed.

Another object of the present invention is to form a strainer on the lower surface of the washing tank and form an inner space under the strainer to facilitate separation and discharge of water and filter media, as well as a comb filter that is spaced apart from each other at the top of the filter media discharge unit and protrudes sharply It is an object of the present invention to provide a filter paper filter media washer capable of forming a portion to prevent the lamination of the filter media and to select foreign substances larger than the filter media.

Another object of the present invention is to have a structure in which the number of rotary paddles can be additionally assembled according to the size of the filter medium, and brushes are attached to the back of the washing plate mounted at both ends of the rotary paddle to prevent clogging of foreign substances in the strainer It is to provide a filter paper washer.

Another object of the present invention is to form a spiral groove through which washing water and air are discharged on the inner circumferential surface of a nozzle in a high-pressure washing module, so that the washing water and air are discharged while rotating at high speed along the spiral groove, thereby further increasing the cleaning power of the filter paper filter medium. A cleaning device is provided.

Another object of the present invention is to provide a filter paper washer that secures stability during operation of the equipment by driving the rotational speed of the rotary paddle at a low level by connecting a reducer to the drive unit.

The present invention is composed of a housing 120 in which coupling parts 110 are formed at the front and rear ends and the filter medium is transported, and the washing water introduced through the washing water inlet 121 installed outside the housing 120, and the air inlet ( a high-pressure washing module 100 having a plurality of nozzles 123 for discharging air introduced through 122 from the inside of the housing 120 to separate impurities from the filter medium; The filter medium inlet 210 into which the filter medium transported from the high-pressure washing module 100 is introduced and the washing nozzle 220 through which washing water is supplied are spaced apart from each other in the open upper part, and the driving part is formed in a circular shape and is mounted in the center ( A rotary paddle 240 rotated by 230 is mounted, a strainer 250 that does not pass the filter medium is formed on the lower surface, and an inner space in which water discharged from the lower part of the strainer 250 moves ( 260) is formed, and on one side of the lower surface separated from the inner space 260, a filter medium discharge part 270 through which the filter medium riding on the top of the strainer 250 is discharged, and extending from the inner space 260 It includes; a washing tank 200 in which a water discharge unit 280 through which water is discharged is formed to separate and discharge the washed filter media and water.

The washing water inlet 121 of the present invention is formed so that the width of the pipe narrows and then widens in the direction of the outlet 121a, and the air inlet 122 is coupled to allow air to flow in at the narrowest part, and the air inlet An air control valve (122a) is installed in 122.

The high-pressure washing module 100 of the present invention is connected to the outlet 121a from the inside, and the transfer pipe 124 through which air-coupled washing water is transported is branched and connected to the nozzle 123, and the nozzle 123 A cross section of the washing pipe 125 coupled to the coupling part 110 is formed in a polygonal shape, and a plurality of nozzles 123 are symmetrically formed in the washing pipe 125.

The nozzle 123 of the high-pressure washing module 100 of the present invention has a spiral groove 123a formed on the inner circumferential surface.

The drive unit 230 of the present invention is connected to the reducer 231.

The rotary paddle 240 of the present invention has a coupling groove formed in the center so that water can be additionally mounted, and a brush 241a on the back of the washing plate 241 mounted on both ends of the rotary paddle 240 is installed

In the filter medium discharge unit 270 of the present invention, a comb filter unit 271 is formed in which a plurality of sharp protrusions protruding upward are spaced apart from each other.

The washing tub 201 of the present invention is erected from the floor by a plurality of supports 201, and one of the supports 201 is provided as a pipe to which the high-pressure washing module 100 is coupled and transports the filter media.

The filter medium discharge unit 270 of the present invention is provided where the strainer 250 is not formed.

Therefore, in the filter paper washer of the present invention, suspended matter is separated from the filter medium in a high-pressure washing module that supplies washing water and air to the filter medium transferred from the transfer pump, and the filter medium from which the suspended matter is separated and the washing water are supplied from the open upper part to a circular shape. A rotary paddle is installed in the center, and the separated suspended matter is washed in the washing tank with a strainer formed at the bottom, and the filter medium and waste water are separated and discharged through the filter medium discharge unit and the waste water discharge unit, so that the filter medium can be reused after washing. By reducing treatment costs, economic feasibility is improved, working time is shortened, stable water quality is secured, and it is manufactured in a small size so that it can be easily used in small-scale water purification plants.

In addition, the present invention sprays washing water and air through a plurality of nozzles symmetrically formed in polygonal modules in order to exfoliate suspended matter accumulated in the filter medium, and selectively sprays the washing water and air according to the filter medium to quickly and effectively remove the filter medium. can be washed

In addition, the present invention maximizes washing efficiency through a high-pressure washing module that can be additionally installed, and is easy to move by miniaturizing the equipment.

On the other hand, the present invention installs a strainer on the inner wall surface and lower surface of the washing tank and forms an inner space on the side and bottom of the strainer to facilitate separation and discharge of the filter medium and waste water, and a comb filter protruding upward to the top of the filter medium discharge unit By installing a part, it is possible to prevent the lamination of filter media and to select foreign substances larger than the filter media.

In addition, the present invention has a structure in which the number of rotary paddles can be additionally assembled according to the size of the filter medium, and brushes are attached to the back of the washing plate installed at both ends of the rotary paddle to prevent clogging of foreign substances in the strainer. there is.

In addition, the present invention has the advantage of further increasing the cleaning power of the filter medium by forming a spiral groove on the inner circumferential surface of the nozzle through which the washing water and air are discharged in the high-pressure washing module so that the washing water and air are discharged while rotating at high speed along the spiral groove.

The present invention has the effect of securing stability during operation of the equipment by driving the rotational speed of the rotating paddle low by connecting a reducer to the drive unit.

1 is an overall perspective view of a filter paper filter media washer according to an embodiment of the present invention;
2 is a perspective view of a filter paper washer according to an embodiment of the present invention viewed from the top;
3 is a perspective view of a state in which a part of the washing tub is cut in the filter paper washer according to an embodiment of the present invention;
4 is a perspective view of a high-pressure washing module in a filter paper washer according to an embodiment of the present invention;
5 is a perspective view of a state in which a high-pressure washing module is cut in a filter paper washer according to an embodiment of the present invention;
6 is a cross-sectional view of a high-pressure washing module in a filter paper washer according to an embodiment of the present invention;
7 is a cross-sectional view showing a process in which the filter media passing through the high-pressure washing module of the filter media washer is washed in the washing tank and discharged to the filter media discharge unit according to an embodiment of the present invention;
8 is a cross-sectional view showing the process of discharging the washing water introduced from the washing nozzle to the water discharge unit in the washing tank of the filter paper washer according to an embodiment of the present invention;
9 is a perspective view in which a rotary paddle is added in the washing tub of the filter paper washer according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the present invention will be described so that those skilled in the art can easily implement it.

The present invention is a filter paper filter medium washer that separates and separates the suspended matter of the filter medium (filter medium) transferred by the transfer pump, and then sorts and separates it, as shown in FIGS. 1 to 9,

It consists of a cylindrical housing 120 with coupling parts 110 formed at the front and rear ends and transporting the filter media, and the washing water introduced through the washing water inlet 121 installed outside the housing 120, and the air inlet 122 A high-pressure washing module 100 having a plurality of nozzles 123 discharging air introduced through the housing 120 from the inside of the housing 120 to separate suspended matter from the filter media;

A filter medium inlet 210 into which the filter medium transported from the high-pressure washing module 100 is introduced and a plurality of washing nozzles 220 through which washing water is supplied are spaced apart from each other in the open upper part, formed in a circular shape and mounted in the center An internal space in which a rotating paddle 240 rotated by a driving unit 230 is mounted, an inner wall surface and a lower surface are made of a strainer 250, and water discharged from the side and lower portion of the strainer 250 moves 260 is formed, and a filter medium discharge unit 270 is formed on one side of the lower surface separated from the inner space 260, through which filter medium is discharged, and a water discharge unit 280 extending from the inner space 260 and discharged water. ) is formed and includes a washing tank 200 for separating and discharging the washed filter media and wastewater.

The high-pressure washing module 100 has coupling parts 110 formed at the front and rear ends, connected to the filter medium transfer pump at the front end, and coupled with the transfer pipe through which the filter medium is transported, and attached to the support 201 of the washing tank 200 at the rear end. It is coupled to the protruding high-pressure washing module coupling part 201a and is provided to smoothly transfer the filter media. The coupling part 110 has a front end and a rear end in the form of a female thread and a male thread, and is formed in a structure in which a high pressure washing module 100 can be additionally connected and installed according to the size of the filter media, and is detachable from the high pressure washing module coupling part 201a. It is possible to smoothly replace and repair.

The high-pressure washing module 100 is installed in the middle of transferring the denitrifying filter medium to the washing tank 200.

The high-pressure washing module 100 is equipped with a washing water inlet 121 on the upper part of the outer side so that washing water and air are introduced from the outside and discharged from the inside, so that washing water flows in, and an air inlet 122 is provided in the washing water inlet 121 It is formed by bending and air is introduced, and the washing water and air meet and move.

At this time, as shown in FIG. 6, the washing water inlet 121 is formed so that the width of the pipe narrows and then widens in the direction of the outlet 121a through which washing water and air are discharged, and air is sucked in and introduced at the narrowest part. An air inlet 122 is coupled so as to be formed, and an air control valve 122a is installed in the air inlet 122.

The washing water inlet 121 ejects the washing water combined with highway air from the outlet 121a using a Venturi tube and transfers it to the nozzle 123.

At this time, the air control valve 122a is installed to selectively supply water or air according to the filter medium or to control the amount of air.

On the other hand, the high-pressure washing module 100 is connected to the outlet 121a inside the housing 120, and the transfer pipe 124 through which air-coupled washing water is transferred is branched to discharge the air-coupled washing water. 123), the nozzle 123 is installed through, and the coupling part 110 extends from the front and rear ends, so that the filter medium is transported and washed. The cross section of the washing pipe 125 is provided in an octagonal shape. In the tube 125, three nozzles 123 are installed at regular intervals in the filter medium transport direction and formed symmetrically with the three nozzles 123 on the opposite side. In this way, nozzles 123 are symmetrically mounted on both sides of the washing pipe 125, and the washing water combined with the air discharged from the nozzle 123 is ejected at high speed and bumps into each surface inside the washing pipe 125 and is transported Wash the filter media and separate the suspended matter. In the present invention, although three nozzles are shown on each side in the drawing, it is not limited thereto.

In the present invention, suspended matter attached to the filter medium and subject to washing has smaller particles than the filter medium, like mud, and is separated from the filter medium by high-pressure washing water.

The high-pressure cleaning module 100 has a structure in which air flows into the siphon from the air inlet 122, and the nozzle 123 has a spiral groove 123a formed on the inner circumferential surface as shown in FIG. The washing water mixed with the whirlpool forms a vortex and is discharged into the washing pipe 125 to effectively wash the filter medium.

The suspended matter separated from the filter medium transported in the high-pressure washing module 100 is sorted and separated into water and sand (filter medium) in the washing tank 200.

The washing tub 200 is not only erected from the floor by a plurality of supports 201, but also a support to which the high-pressure washing module 100 is coupled by extending and forming a high-pressure washing module coupling part 201a to one of the supports 201 ( 201) is provided as a pipe for transporting the filter media, enabling the support 201 to perform two roles and reducing the transport space for the filter media.

A filter media inlet 210 is formed extending from the top of the support 201 where the high-pressure washing module coupling portion 201a is formed so that the transferred filter media flows in from the top of the washing tank 200, and is spaced apart from the filter media inlet 210. A plurality of washing nozzles 220 are installed.

The filter medium inlet 210 may be coupled to the support 201 provided as a pipe through which the filter medium is transported, or may be formed as a separate pipe connected to the high-pressure washing module 100 through which the filter medium may be introduced.

The washing nozzle 220 cleans the filter medium and supplies washing water for facilitating separation from suspended matter to the filter medium that is less separated from suspended matter in the high-pressure washing module 100, and the amount of washing water can be adjusted.

The driving unit 230 installed in the center of the washing tub 200 is a motor that allows the rotary paddle 240 to rotate for washing the filter media, and is installed on the rotary shaft 232 by connecting and installing a reducer 231 The rotational speed of the rotating paddle 240 is driven low to ensure stability during operation of the equipment.

On the other hand, the rotary paddle 240 has a coupling groove (not shown) formed in the center so that water can be additionally mounted, so that the rotary paddle 240 can be additionally mounted and washed according to the state of the filter medium ( 9), a cleaning brush 241a is installed on the rear side of the washing plate 241 installed at both ends of the rotating paddle 240 to prevent foreign substances from clogging the through hole of the strainer 250 together with the transport of the filter media. to prevent

In addition, in the washing tub 200, the drive unit 230 is installed in the center, installed inside the inner partition wall 202 to block the washing water, and covers the cover unit 203 on the top so that the drive unit 230 and the electric device have a sealed structure. is provided to prevent an electric shock accident.

On the other hand, the cover part 203 has a through hole through which the rotary shaft 232 to which the rotary paddle 240 is mounted passes through, so that the rotary paddle 240 coupled to the rotary shaft 232 rotates smoothly. .

With the inner bulkhead 202 therebetween, the inside is formed by the bottom surface 204 where the driving unit 230 is installed, and the outside is formed by the strainer 250 on the bottom.

The strainer 250 is formed with a plurality of holes to serve as a sieve to separate the filter media and water (withdrawal), and is installed spaced apart from the bottom strainer 250a located on the bottom surface and the internal partition wall 202 It consists of an inner wall strainer (250b) and an outer wall strainer (250c) spaced apart from the inner circumferential surface of the washing tank (200).

The plurality of holes formed in the strainer 250 have diameters smaller than those of the filter medium and larger than particles of denitrification. The filter medium does not pass through the strainer 250, and denitrification and water pass through holes formed in the strainer 250 while the filter medium is moved by the rotary paddle 240.

The strainer 250 allows the washing water introduced from the outer side of the inner bulkhead 202 to wash the filter medium and be discharged to the separately formed filter medium discharge unit 270, and the upper part of the washing tank 200 is opened so that the washing process can be visually observed. This allows you to check and fix immediately if something goes wrong.

The strainer 250 is spaced apart from the double bottom surface 205 formed under the bottom surface 204, the internal partition wall 202, and the inner circumferential surface of the washing tank 200 at a predetermined interval, and an internal space 260 is formed therebetween provided as possible

As shown in FIG. 8, the inner space 260 is a space in which washing water is moved and temporarily stored, and is separated from the filter media washed through the drain water outlet 280 formed on one side of the double bottom surface 205. It ensures that discharged water containing turbidity is smoothly discharged. The water discharge unit 280 is connected to the water discharge pipe to transfer the discharged water to a water treatment facility. At this time, the water discharge unit 280 may be installed as a separate pipe at the bottom of the washing tank 200 as shown in FIG. It may be discharged by connecting a pipe in the middle of the pedestal 201.

On the other hand, as shown in FIG. 3, on one side of the bottom strainer 250a, a filter media discharge unit 270 provided to a space different from the inner space 260 by a partition wall is formed so as to be separated from the double bottom surface 205. And, the filter medium discharge unit 270 is composed of a space through which the filter medium is discharged. The filter medium discharge unit 270 is formed deep downward at a position where the strainer 250 is not formed, and the filter medium moved along the strainer 250 freely falls by the rotation of the rotary paddle 240. The filter medium discharge unit 270 is separated from the inner space 260 at the side without the strainer 250 formed at the top, and formed to the bottom of the inner space 260 as shown in FIG. 1 to separate suspended matter The filtrate is temporarily stored.

In the middle of the filter medium discharge unit 270, a comb filter unit 271 is installed in the form of comb teeth, in which a plurality of projections protruding sharply and spaced apart from each other are formed. The comb filter unit 271 allows to sort foreign substances larger than the filter medium. Since the hole formed in the strainer 250 has a smaller diameter than the filter medium, if there is a foreign substance larger than the filter medium, it is not separated by the strainer. These foreign substances are typically leaves or tree branches. Foreign substances larger than the filter medium pass over the strainer 250 like the filter medium and fall from the filter medium discharge unit 270 .

The comb filter unit 271 is provided so that the filter media passes through the space between the protrusions, but it protrudes sharply to the top so that the sand is not stacked, and is separated and passed out, while filtering out large foreign substances such as leaves and branches. .

In addition, the filter medium discharge unit 270 transfers the filter medium so that the filter medium can be reused as the discharge pipe coupling part 272 formed at the lower end is connected to the filter medium discharge pipe.

On the other hand, the washing tub 200 is formed in a small size with a total weight of less than 80 kg, and a moving means 206 made of wheels is installed under the support 201 to be easily moved by two people, so that labor is reduced. and reduce costs as well.

In addition, since the filter paper washer of the present invention is formed in a small washing structure, it is possible to stably manage the water quality of the filter paper even in a small-scale water purification plant.

In addition, a plurality of supports 201 are installed through the washing tub 200 to form a supporting portion 207 connecting the supports 201 to each other to stably support the washing tub 200 and to can be put up.

Therefore, the filter paper filter material washer of the present invention separates suspended matter from the filter medium in the high-pressure washing module 100 that supplies washing water and air to the filter medium transferred from the transfer pump, and supplies the filter medium separated from the suspended matter and the washing water at the open top. and a rotary paddle 240 rotated by a drive unit 230 at the center of the circle is mounted, and a filter medium discharge unit 270 is separated from the washing tank 200 in which a strainer 250 is formed on the lower and inner walls to wash the suspended matter. ) and the wastewater discharge unit 280 to separate and discharge the filter media and waste water, so that the filter media can be reused after washing, reducing waste treatment costs, improving economic feasibility, reducing work time, and providing stable water quality. In addition to securing it, it can be manufactured in a small size so that it can be easily used in small-scale water purification plants.

In addition, the present invention sprays washing water and air through a plurality of nozzles 123 symmetrically formed in polygonal modules in order to exfoliate the suspended matter accumulated in the filter medium, and selectively sprays the washing water and air according to the filter medium to quickly and efficiently It can effectively clean the filter media.

In addition, the present invention maximizes washing efficiency through the high-pressure washing module 100 that can be additionally installed, makes the equipment compact and easy to move, and consists of an upper open vertical washing tank 200 structure so that the washing process can be visually confirmed. .

On the other hand, the present invention installs the strainer 250 on the inner wall surface and the lower surface of the washing tank 200 and forms the inner space 260 on the side and bottom of the strainer 250 to facilitate the separation and discharge of the filter medium and the waste water, By installing the comb filter unit 271 in the filter medium discharge unit 270, stacking of the filter medium can be prevented and foreign substances larger than the filter medium can be sorted out.

In addition, the present invention has a structure in which the number of rotary paddles 240 can be additionally assembled according to the size of the filter medium, and the brush 241a is installed on the back of the washing plate 241 installed at both ends of the rotary paddle 240. ) is attached to prevent clogging of foreign substances in the strainer 250.

In the present invention, a spiral groove 123a is formed on the inner circumferential surface of the nozzle 123 through which washing water and air are discharged from the high-pressure washing module 100, so that the washing water and air rotate at high speed along the spiral groove 123a and are discharged. Therefore, it has the advantage of further increasing the cleaning power for the filter media.

100: high pressure washing module 110: coupling part
120: housing 121: washing water inlet
121a: outlet 122: air inlet
122a: air control valve 123: nozzle
123a: groove 124: transfer pipe
125: washing pipe
200: washing tank 201: support
201a: high pressure washing module coupling part 202: internal bulkhead
203: cover part 204: bottom surface
205: double bottom surface 206: means of transportation
207: supporting part 210: filter medium inlet part
220: washing nozzle 230: driving unit
231: reducer 232: rotation shaft
240: rotary paddle 241: washing plate
241a: brush 250: strainer
250a: bottom strainer 250b: inner wall strainer
250b: outer wall strainer 260: inner space
270: filter medium discharge unit 271: comb filter unit
272: discharge pipe coupling part 280: water discharge part

Claims (9)

Consisting of a housing 120 in which coupling parts 110 are formed at the front and rear ends and the filter medium is transported, the washing water introduced through the washing water inlet 121 installed outside the housing 120 and the air inlet 122 a high-pressure washing module 100 having a plurality of nozzles 123 discharging air introduced through the housing 120 to separate suspended matter from the filter medium;
The filter medium inlet 210 into which the filter medium transported from the high-pressure washing module 100 is introduced and the washing nozzle 220 through which washing water is supplied are spaced apart from each other in the open upper part, and the driving part is formed in a circular shape and is mounted in the center ( A rotary paddle 240 rotated by 230) is mounted, and a strainer 250 having a plurality of diameters through which the filter medium does not pass is formed on the lower surface, and discharged from the lower part of the strainer 250 An inner space 260 through which water moves is formed, and a filter medium discharge unit 270 through which the filter medium riding on the top of the strainer 250 is discharged on one side of the lower surface separated from the inner space 260, and the inside A filter paper washer comprising a washing tank 200 in which a water discharge unit 280 extending from the space 260 and discharging water is formed to separate and discharge the washed filter medium and water.
According to claim 1,
The washing water inlet 121 is formed so that the width of the pipe narrows and then widens in the direction of the outlet 121a, and the air inlet 122 is coupled to allow air to flow in at the narrowest part, and the air inlet 122 A filter paper filter media washer in which an air control valve 122a is installed.
According to claim 2,
The high-pressure washing module 100 is internally connected to the outlet 121a, and the transfer pipe 124 through which air-coupled washing water is transported is branched and connected to the nozzle 123, the nozzle 123 is installed, A filter paper filter media washer device in which a cross section of the washing pipe 125 coupled to the coupling part 110 is formed in a polygonal shape, and a plurality of nozzles 123 are symmetrically formed in the washing pipe 125.
According to claim 1,
The nozzle 123 of the high-pressure cleaning module 100 has a spiral groove 123a formed on an inner circumferential surface of the filter paper filter media washer.
According to claim 1,
The drive unit 230 is a filter paper filter media washer to which a reducer 231 is connected.
According to claim 1,
The rotary paddle 240 has a coupling groove formed in the center thereof so that water can be additionally mounted, and a filter paper on which a brush 241a is installed on the back of the washing plate 241 mounted on the end of the rotary paddle 240. Filter media washer.
According to claim 1,
The filter media discharge unit 270 is a filter paper filter media washer device in which a comb filter unit 271 is formed with a plurality of sharp protruding protrusions spaced apart from each other.
According to claim 1,
The washing tank 200 is erected from the floor by a plurality of supports 201, and one of the supports 201 is provided as a pipe for transporting the filter media to which the high-pressure washing module 100 is coupled. Filter paper washer.
According to claim 7,
The filter media discharge unit 270 is provided in a place where the strainer 250 is not formed.

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