KR102541602B1 - cleaning system of RO concentrated waste water - Google Patents

Abstract

The present invention relates to an RO water treatment system capable of continuously purifying wastewater by supplying oxygen in a whirlwind manner to the inside of a filter tube to increase cleaning power through bubble generation and to prevent the treatment device from being damaged and stopped operating even in the event of an outside event. .
In the present invention, a filter 10 and a ceramic ball 20 are provided between the filter 10 and the filter inside so that wastewater and chemicals can be introduced to clean the wastewater and then discharged. A filter box 100 provided with a mesh network 30 that borders the filter and the ceramic balls so that the air supply path can pass through and rotate;
It includes an air supply path 150 that penetrates into the filter tube and sprays air in a whirlwind while rotating inside the filter tube, and spraying nozzles for spraying air at equal intervals into the air supply path 150 introduced into the filter tube. A plurality of (160) are provided,
The spray nozzle 160 is provided with an inclined shape so as to spray air in the flow direction of the fluid, and an intaglio groove 162 is provided on the outer periphery of the spray hole 161 to be stepped with the spray hole, , A blocking film 170 is provided to prevent foreign substances from entering the injection hole and the groove,
The filter tube 100 is installed on top of the seismic isolator 200 through a support,
The seismic isolator 200 is characterized in that it is provided with an X-axis seismic isolator 210 and a Y-axis seismic isolator 220 that flow along the X-axis and Y-axis in the outward direction.

Description

RO water treatment system {cleaning system of RO concentrated waste water}

The present invention relates to an RO water treatment system, and more particularly, to supply oxygen to the inside of a filter in a whirlwind to increase cleaning power through bubble generation, and to prevent the treatment device from being damaged and stopped operating even in the event of an outside event, thereby providing continuous wastewater It relates to an RO water treatment system capable of purifying.

Membrane filtration process using a RO (Reverse Osmosis) membrane, a type of water treatment process. Contaminants accumulate on the surface of the membrane as the inflow water permeates through the filtration membrane.

Separation membranes used in such a membrane filtration process are organic membrane fouling (fouling) (organic fouling), inorganic membrane fouling (fouling), biofilm fouling (bio fouling), etc. phenomenon occurs, and its performance is continuously reduced. Therefore, physical cleaning such as chemical cleaning in place (CIP) or flushing or forward osmosis backwashing is performed in order to restore the permeability of the membrane, which has decreased with use.

In the general reverse osmosis membrane filtration process, indirect membrane fouling control technology using strengthening pretreatment or chemical cleaning performed at regular intervals is used, so there are limitations in increasing the operational efficiency of the reverse osmosis membrane filtration process, and excessive design of pretreatment and high concentration There are problems with the use of medicines.

In the case of such maintenance chemical cleaning, the life of the high-pressure membrane can be effectively extended through periodic cleaning, but it is difficult to operate automated facilities for this purpose, and it is necessary to flush for a certain period of time to remove seawater or chemicals inside the piping and vessel before and after cleaning. The operation rate and recovery rate of the reverse osmosis membrane filtration process may be reduced, and overall economic efficiency may be reduced.

In addition, when conventional osmosis reverse cleaning is applied to seawater desalination and sewage reuse processes as physical cleaning, the cleaning efficiency is lower than that of chemical cleaning, and there is a limit to increasing the osmotic pressure on the raw water side to increase the cleaning efficiency.

Therefore, there is a need for an effective cleaning treatment system that can increase the physical removal efficiency of the existing osmotic reverse cleaning to reduce economic feasibility and operational efficiency.

In addition, conventional cleaning treatment systems have a problem in that a lot of time is required for the treatment process due to their structure, and in particular, there is a problem in that continuous cleaning cannot be performed because the operation of the treatment device is stopped when an outside environment occurs.

Patent Document 1: Korean Patent Registration No. 10-1604017 Patent Document 2: Korean Patent Registration No. 10-1804485

The present invention is to solve the above conventional problems and has the following object.

An object of the present invention is to provide an RO water treatment system capable of increasing a mixing rate by injecting air into a filter tube and injecting air into a whirlwind.

An object of the present invention is to prevent dirt from entering the spray nozzle when the operation is stopped by providing a blocking film to the nozzle through which air is sprayed.

An object of the present invention is to provide an RO water treatment system capable of continuously purifying water by preventing the treatment system from being stopped due to an outing.

The present invention for achieving the above object is provided with a filter inside and a ceramic ball between the filter so that wastewater and chemicals can be introduced to clean the wastewater and then discharged, and the filter and the ceramic ball are provided with air to the inside. A filter trough provided with a mesh network bordering the filter and the ceramic ball so that the supply passage can be rotated through;

An air supply path that passes through the inside of the filter tube and sprays air in a whirlwind while rotating inside the filter tube;

It is characterized by including a seismic isolator for absorbing external dust while supporting the filter tube.

A plurality of spray nozzles for spraying air at equal intervals are provided in the air supply path introduced into the filter tube,

The spray nozzle is provided with an inclined shape so as to spray air in the flow direction of the fluid, and an intaglio groove is provided on the outer periphery of the spray hole to be stepped with the spray hole, and foreign substances are prevented from entering the spray hole and the groove. It is characterized in that a blocking film is provided to do so.

Air is injected through the injection nozzle, and a blocking film is further installed to prevent foreign substances from entering the injection nozzle when not in operation,

An injection hole is provided at the upper end of the injection hole of the injection nozzle so that the flow of air can be injected horizontally.

The blocking film is assembled to the fitting piece of the injection hole through the fitting shaft, and the end of the fitting shaft is contracted by air pressure so that the blocking film can be opened and closed, and an elastic part is provided so that the blocking film can block the spray hole by elasticity when not in operation. It has a characteristic.

The seismic isolator is provided with an X-axis seismic isolator and a Y-axis seismic isolator that flow along the X-axis and Y-axis in the outward direction,

The X-axis isolator includes a base on which a filter canister is supported, a plurality of rollers are provided at the lower end of the base, and both side ends of the base are connected to inner walls of the main body through springs so that they can be moved and returned,

The Y-axis seismic isolation unit includes a base provided at the lower end of the X-axis base, a plurality of rollers are provided at the lower end, and both ends of the base are connected to the inner wall of the main body through springs so that they can be moved and returned. It is characterized by being made to flow according to the flow direction of

As described above, the present invention has the effect of shortening the cleaning time by maximizing the mixing and dilution rate of the flowing wastewater by supplying air into the filter tub in a whirlwind manner, and the seismic isolator prevents external vibrations such as earthquakes. Since it is absorbed, there is an effect of preventing the operation of the treatment system from being stopped.

1 and 2 are views for explaining an RO water treatment system according to an embodiment of the present invention.
3 is a view for explaining the configuration of a seismic isolator among the structures of an RO water treatment system according to an embodiment of the present invention.
4 is a view for explaining the structure of a filter tube for cleaning among the structures of an RO water treatment system according to an embodiment of the present invention.
5 and 6 are views for explaining the configuration of the spray nozzle among the configuration of the air supply path for supplying air to the inside of the filter tube.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, the terms to be described later are terms set in consideration of functions in the present invention, and these terms may vary according to the intention or custom of the producer who produces the product, and the definitions of the terms should be made based on the contents throughout this specification.
In the present invention, a filter 10 and a ceramic ball 20 are provided between a filter 10 and the filter so that wastewater and chemicals can be introduced, washed, and then discharged, and air is supplied to the inside in the width where the filter and the ceramic ball are provided. A filter box 100 provided with a mesh network 30 bordering the filter and the ceramic balls so that the furnace can be rotated through it;
An air supply path 150 that penetrates into the filter tube and sprays air in a whirlwind while rotating inside the filter tube,
A plurality of spray nozzles 160 for spraying air at equal intervals are provided in the air supply path 150 introduced into the filter tube,
The spray nozzle 160 is provided with an inclined shape so as to spray air in the flow direction of the fluid, and an intaglio groove 162 is provided on the outer periphery of the spray hole 161 to be stepped with the spray hole, , A blocking film 170 is provided to prevent foreign substances from entering the injection hole and the groove,
The filter box 100 is installed on the upper end of the isolator 200 provided with the X-axis isolator 210 and the Y-axis isolator 220 flowing in the X-axis and Y-axis along the outward direction through the support, ,
The X-axis isolator 210 includes a base 211 on which a filter tube is supported, and a plurality of rollers 212 are provided at the lower end of the base to guide the base when moving in the X-axis (left and right direction) by external movement, , Both side ends of the base are connected to the inner wall of the main body 230 through a spring 213 to return the base 211 moved in the X axis (left and right direction) to its original state,
The Y-axis isolator 220 includes a base 221 provided at the lower end of the X-axis base, and the lower end of the base 221 guides the base 221 when the base 221 moves in the Y-axis (forward and backward direction) by remote movement. A plurality of rollers 222 are provided, and both ends of the base are connected to the inner wall of the body 230 through a spring 223 to return the base 221 moved in the Y-axis (rearward direction) to its original state. .
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

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(Example)

Hereinafter, the RO water treatment system according to the present invention will be described with reference to the accompanying drawings.

1 and 2 are views for explaining an RO water treatment system according to an embodiment of the present invention.

In the RO water treatment system according to the present invention, a filter 10 and a ceramic ball 20 are provided between the filter and the filter and the ceramic ball so that wastewater and chemicals can be introduced to clean the wastewater and then discharged. A filter box 100 provided with a mesh network 30 that borders the filter and the ceramic balls so that the air supply path can penetrate and rotate inwardly,

An air supply path 150 that penetrates into the filter tube and sprays air in a whirlwind while rotating inside the filter tube;

Seismic isolators including an X-axis isolator 210 and a Y-axis isolator 220 that flow along the X-axis and Y-axis in the direction of the outward movement so that the filter tube 100 can be safely supported in the event of an external earthquake such as an earthquake ( 200).

3 is a view for explaining the configuration of a seismic isolator among structures of an RO water treatment system according to an embodiment of the present invention.

The seismic isolator 200 is provided with an X-axis seismic isolator 210 and a Y-axis seismic isolator 220 that flow along the outward direction.

The X-axis isolator 210 includes a base 211 on which a filter tube is supported, a plurality of rollers 212 are provided at the lower end of the base, and springs ( 213), it is configured to be connected and returned after moving.

Further, the Y-axis isolator 220 includes a base 221 provided at the lower end of the X-axis base, a plurality of rollers 222 are provided at the lower end, and inner walls of the main body 230 are provided at both side ends of the base. It is configured to be connected through the spring 223 and is configured to be returned after moving.

That is, it is configured to flow and return to the X-axis and the Y-axis according to the direction of the flow of an external force such as an earthquake, so that damage to the processing system due to an external shock is prevented and operation is prevented from stopping.

4 is a view for explaining the structure of a filter tube for cleaning among the structures of an RO water treatment system according to an embodiment of the present invention.

The filter tub 100 for cleaning wastewater is made so that wastewater flows in from one side, is cleaned inside, and is discharged from the other side.

In addition, at one side of the filter tube, an air supply path 150 for injecting air into the filter tube is introduced and penetrated, and the air supply path 150 flows into the filter tube and rotates to spray air in a whirlwind.

That is, bearings are provided at one end and the other end of the filter tube through which the air supply path 150 is introduced so that the air supply path 150 can penetrate and rotate through the bearing, and the sprocket (S) is provided on the outdoor side of the air supply path. ) Is provided, the air supply path and the air supply path are made to collide through the chain (C).

In addition, the air supply path on one side is interlocked with the motor M through a chain, and rotation of the air supply path connected through the chain is performed by driving the motor.

Meanwhile, a plurality of filters 10 are provided inside the filter tube, and ceramic balls 20 are filled between the filters.

At this time, the mesh network 30 is installed larger than the radius of rotation of the air supply path so that the rotation of the air supply path 150 flowing into the center of the filter tube is not interfered with by the filter and the ceramic balls 20.

5 and 6 are views for explaining the configuration of the spray nozzle among the configuration of the air supply path for supplying air to the inside of the filter tube.

A plurality of spray nozzles 160 for spraying air at regular intervals are provided in the air supply path 150 introduced into the filter tube.

The spray nozzle 160 is provided with an inclined shape so as to spray air in the flow direction of the fluid, and an intaglio groove 162 is provided on the outer periphery of the spray hole 161 to be stepped with the spray hole, , A blocking film 170 is provided to prevent foreign substances from entering the injection hole and groove.

Air is injected through the injection nozzle 160, and a blocking film 170 is further installed to prevent foreign matter from entering the injection nozzle when not in operation,

An injection hole 161a is provided at the upper jaw of the injection hole 161 of the injection nozzle 160 so that air flow can be injected horizontally.

The blocking film 170 is assembled to the fitting piece of the injection hole through the fitting shaft 171, and the end of the fitting shaft is contracted by air pressure so that the blocking film can be opened and closed. An elastic part 172 is provided so as to be able to.

As described above, there is an advantage in that the cleaning time can be shortened because the mixing rate can be increased by spraying air in a whirlwind into the inside of the filter, and the nozzle through which the air is sprayed is equipped with a blocking film so that the spray nozzle There is an advantage in that it can prevent contamination by the inflow of dirt, and there is an advantage in that continuous cleaning can be performed by preventing the operation of the treatment system from being stopped due to an outing.

In the above, specific embodiments of the present invention have been described.

However, the spirit and scope of the present invention is not particularly limited to these specific embodiments, and it is common knowledge in the technical field pertaining to the present invention that various modifications and variations are possible within the scope of not changing the gist of the present invention. If you have , you should understand.

Therefore, since the above-described embodiments are provided to fully inform those skilled in the art of the scope of the invention to which the present invention pertains, it should be understood that they are illustrative and not limiting in all respects, and the present invention is only defined by the scope of the claims.

100: filter box 110: injection furnace
120: discharge path 150: air supply path
160: injection nozzle 161: injection hole
161a: injection hole 162: groove
170: blocking film 171: fitting shaft
172: elastic part 200: seismic isolator
210: X-axis isolator 220: Y-axis isolator
211, 221: base 212, 222: roller
213, 223: spring M: motor

Claims (3)

A filter 10 and a ceramic ball 20 are provided between the filter 10 and the filter so that wastewater and chemicals can be introduced, washed, and then discharged. A filter box 100 provided with a mesh network 30 that borders the filter and the ceramic ball so as to be rotated;
An air supply path 150 that penetrates into the filter tube and sprays air in a whirlwind while rotating inside the filter tube,
In the air supply passage 150, spray nozzles 160 for spraying air at equal intervals are provided inclined to spray air in the flow direction of the fluid, and the spray nozzle 160 is horizontally positioned around the spray hole 161. A spray hole 161a is provided, and an intaglio groove 162 is provided stepwise with the spray hole, and air is sprayed through the spray nozzle 160 to prevent foreign substances from entering the spray nozzle when not in operation. A blocking film 170 is further installed,
The blocking film 170 is assembled to the fitting piece of the injection hole through the fitting shaft 171, and the end of the fitting shaft is contracted by air pressure so that the blocking film can be opened and closed. An elastic part 172 is provided so that
The filter box 100 is installed on the upper end of the isolator 200 provided with the X-axis isolator 210 and the Y-axis isolator 220 flowing in the X-axis and Y-axis along the outward direction through the support, ,
The X-axis isolator 210 includes a base 211 on which a filter tube is supported, and a plurality of rollers 212 are provided at the lower end of the base to guide the base when moving in the X-axis (left and right direction) by external movement, , Both side ends of the base are connected to the inner wall of the main body 230 through a spring 213 to return the base 211 moved in the X axis (left and right direction) to its original state,
The Y-axis isolator 220 includes a base 221 provided at the lower end of the X-axis base, and the lower end of the base 221 guides the base 221 when the base 221 moves in the Y-axis (forward and backward direction) by remote movement. A plurality of rollers 222 are provided, and both ends of the base are connected to the inner wall of the body 230 through a spring 223 to return the base 221 moved in the Y-axis (rearward direction) to its original state. Characterized in that, RO water treatment system. delete delete

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