KR101819059B1 - Flushing system and method for pipe using micro bubble and the ship or offshore plant having the same - Google Patents

Abstract

The present invention relates to a micro-bubble generating system in a piping system, and a micro-bubble generating system using compressed air / ozone gas is used to increase fluid flow in a piping to generate micro bubbles, The present invention relates to a piping flushing system using bubbles, and more particularly, to a piping flushing system using bubbles, comprising: a first filter unit installed in a connection line installed in a piping for filtering foreign substances contained in a fluid flowing in a piping; A micro bubble generator connected to the water pump and the pipeline by a connection line to generate a micro bubble and inject the micro bubble into the pipeline; Installed as a connection line between water pump and micro bubble generator to sterilize fresh water And a second 1UV sterilizer.
According to another aspect of the present invention, there is provided a method of flushing a pipe using microbubbles, comprising the steps of: filtering a fluid flowing through a pipe in a first filter unit to supply the purified water to a fresh water tank; And injecting micro bubbles generated in the micro bubble generator when fresh water is supplied to the piping by the operation of the water pump to increase the flow rate of the fluid flowing in the pipeline to flush the pipeline.

Description

Technical Field [0001] The present invention relates to a piping flushing system using a micro bubble, a method thereof, and a ship or an offshore plant having the piping flushing system using the micro bubble,

The present invention relates to a system and method for flushing pipes using micro bubbles, and more particularly, to a system and method for flushing pipes using micro bubbles, And more particularly, to a piping flushing system and method using micro bubbles capable of simultaneously performing removal and sterilization of foreign matter by bubbles.

Generally, various types / types of foreign substances are flowing into the piping during the production process of fresh water (water) pipes installed in the manufacturing process of ships and offshore plants.

Particularly, in the case of drinking water piping, in the flushing of the inside of the piping using internal fresh water (water), the foreign substances inside the piping are removed, but various germs remaining in the water are left intact. .

1 is a flow chart illustrating a conventional flushing system.

1, a conventional piping flushing system includes a filtration filter 20 installed on a connection line 10a connected to a piping 10 to filter foreign matter in the piping 10 through a filtration filter 20, To the sea water or to the fresh water tank 30 to which the heater 31 is connected.

A water pump 40 for transferring fresh water to the fresh water tank 30 is connected to the pipe 10 so that clean water in the fresh water tank 30 is supplied to the pipe 10 by the operation of the water pump 40 .

The fresh water in the pipe 10 is flowed at a high speed by using the water pump 40 to remove the foreign substances in the pipe 10 to remove the foreign substances adhering to or existing in the pipe 10. [

Conventionally, in the case of various cooling / service fresh water lines, when the internal flushing operation is performed, a water pump 40 is used to flow a fluid to induce a turbulent flow, but it is composed of complicated piping structure and pipes of various sizes There is a problem in that a lot of difficulty is caused in the flushing operation.

Korean Patent Publication No. 10-2001-0045080

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a microbubble generator, which uses compressed air or ozone gas in a fluid to inject the fluid through the microbubble generator, The present invention provides a piping flushing system using microbubbles capable of removing and simultaneously sterilizing a flushing pipe and maximizing the efficiency of the operation.

According to an aspect of the present invention, there is provided a piping flushing system using micro bubbles, comprising: a first filter unit installed in a connection line installed in a piping to filter foreign substances contained in a fluid flowing in the piping; A water pump connected to the fresh water tank and capable of supplying and circulating fresh water, and a water line connected between the water pump and the pipeline by a connection line to generate micro bubbles And a first UV sterilizer installed between the water pump and the micro bubble generator as a connection line for sterilizing fresh water.

The fresh water tank may be provided with a tank sterilizer for sterilizing the inside of the fresh water tank.

Inside the tank sterilizer, a plurality of UV lamps may be installed to smoothly sterilize fresh water in the fresh water tank.

The micro bubble generator may be connected to an air compressor for supplying compressed air to the micro bubble generator so as to increase the flow rate of the fluid flowing in the piping.

The micro bubble generator may be connected to an ozone generator for supplying ozone gas so as to desorb and sterilize contaminants flowing in the piping.

The first filter unit may include a first magnet filter for adsorbing and filtering metallic foreign substances contained in the flowing fluid in the piping, and a first filtering filter for filtering foreign matter contained in the flowing fluid in the piping.

A second filter unit installed at a connection line of the pipeline for filtering out foreign substances contained in the fluid flowing through the pipeline, and a second filter unit connected to the second filter unit through a connection line to sterilize the fluid passing through the second filter unit, And a second UV sterilizer for discharging the second UV sterilizer.

The second filter unit may include a second magnet filter for adsorbing and filtering metallic foreign substances contained in the flowing fluid in the pipe, and a second filter for filtering foreign matter contained in the flowing fluid in the pipe.

A plurality of UV lamps may be installed inside the first UV sterilizer to smoothly sterilize the fluid flowing in the pipe.

According to another aspect of the present invention, there is provided a piping flushing method using micro bubbles, comprising the steps of: filtering a fluid flowing through a pipeline in a first filter unit to supply the purified water to a fresh water tank; And injecting microbubbles generated in the micro bubble generator when the fresh water is supplied to the piping by the operation of the water pump to increase the flow rate of the fluid flowing in the pipeline to flush the pipeline have.

In the step of supplying the filtered fluid from the first filter unit to the fresh water tank, the inside of the fresh water tank can be sterilized by a tank sterilizer installed in the fresh water tank.

In the step of supplying fresh water to the inside of the pipe by operating the water pump, the first UV sterilizer is installed in the water pump and the micro bubble generator to sterilize the fresh water supplied to the pipe.

In the step of flushing the microbubbles generated by the microbubble generator, an air compressor or an ozone generator is connected to the microbubble generator to inject compressed air or ozone gas into the microbubble generator, The flow rate can be increased to remove the foreign matter and sterilize the same.

According to another aspect of the present invention, compressed air or ozone gas is injected into the microbubble generator in the fluid flowing through the pipe to increase the flow rate of the fluid flowing in the microbubble through the microbubble, It is possible to provide a ship or an offshore plant having a piping flushing system using micro bubbles so as to remove and sterilize foreign matters.

According to the piping flushing system and method using the micro bubble according to the present invention, a micro bubble generator is installed and an air compressor or an ozone generator is connected to the micro bubble generator to inject compressed air or ozone gas when micro bubbles are generated, By increasing the flow rate of the flowing fluid, it is possible to smoothly remove the foreign matter, and it is possible to sterilize the fluid flowing through the pipe by installing the UV sterilizer, thereby reducing the inspection fee by meeting the drinking water test standard value, Thereby maximizing the trust of the user.

1 is a flow chart illustrating a conventional flushing system.
2 is a flowchart illustrating a piping flushing system using a micro bubble according to the present invention.
3 is a perspective view illustrating a tank sterilizer of a pipe flushing system using microbubbles according to the present invention.
4 is a front view showing a UV sterilizer of a pipe flushing system using microbubbles according to the present invention.
5 is a block diagram illustrating a method of flushing a pipe using a micro bubble according to the present invention.

The specific structure or functional description presented in the embodiment of the present invention is merely illustrative for the purpose of illustrating an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention can be implemented in various forms. And should not be construed as limited to the embodiments described herein, but should be understood to include all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Meanwhile, in the present invention, the terms first and / or second etc. may be used to describe various components, but the components are not limited to the terms. The terms may be referred to as a second element only for the purpose of distinguishing one element from another, for example, to the extent that it does not depart from the scope of the invention in accordance with the concept of the present invention, Similarly, the second component may also be referred to as the first component.

Whenever an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, but it should be understood that other elements may be present in between something to do. On the other hand, when it is mentioned that an element is "directly connected" or "directly contacted" to another element, it should be understood that there are no other elements in between. Other expressions for describing the relationship between components, such as "between" and "between" or "adjacent to" and "directly adjacent to" should also be interpreted.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. It will be further understood that the terms " comprises ", or "having ", and the like in the specification are intended to specify the presence of stated features, integers, But do not preclude the presence or addition of steps, operations, elements, parts, or combinations thereof.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a flow chart showing a piping flushing system using microbubbles according to the present invention, FIG. 3 is a perspective view showing a tank sterilizer of a piping flushing system using microbubbles according to the present invention, FIG. FIG. 5 is a block diagram showing a method of flushing a pipe using microbubbles according to the present invention. FIG. 5 is a front view showing a UV sterilizer of a pipe flushing system using microbubbles.

2 to 4, a piping flushing system using microbubbles according to the present invention includes a first filter unit 200, a fresh water tank 300, a water pump 400, A first UV sterilizer 600, a second filter unit 210, and a second UV sterilizer 610. The first UV sterilizer 600,

The first filter unit 200 is installed in a connection line 100a provided in the piping 100 and filters foreign substances contained in the fluid flowing in the piping 100. [

The first filter unit 200 includes a first magnet filter 201 for adsorbing and filtering metallic foreign substances contained in the fluid flowing in the pipe 100 and a second magnet filter 201 for filtering the metallic foreign substances contained in the fluid flowing through the pipe 100 while passing through the first magnet filter 201. [ And a first filtration filter (202) capable of filtering foreign matters contained in the flowing fluid.

That is, the fluid flowing in the pipe 100 passes through the first magnet filter 201 and filters the metallic foreign substances contained in the pipe during the manufacturing process of the pipe 100 by the first magnet filter 201, The foreign matter can be filtered while passing through the first filter (202).

The fluid filtered in the first filter unit 200 is supplied to the fresh water tank 300 through the connection line 100a.

A tank sterilizer 310 is installed inside the fresh water tank 300 to sterilize the inside of the fresh water tank 200 and the fluid.

That is, the fluid in the fresh water tank 300 is sterilized by the tank sterilizer 310.

3, a plurality of UV lamps L are installed inside the tank sterilizer 310 to smoothly sterilize the fluid flowing into the fresh water tank 300 through the pipe 100 do.

A heater 320 is connected to the fresh water tank 300 to heat the fresh water supplied thereto through heat exchange.

The water pump 400 is connected to the fresh water tank 300 so that the fresh water supplied to the charge tank 300 can be supplied to the pipe 100 and circulated.

Accordingly, by operating the water pump 400, the fluid flowing in the pipe 100 can be circulated through the connection line 100a.

On the other hand, the connection line 100a is provided with an on-off valve V for controlling the flow of the fluid in accordance with the operation of the water pump 400. [

The micro bubble generator 500 is connected between the water pump 400 and the pipe 100 by a connection line 100a to generate micro bubbles and injects the micro bubbles into the pipe 100 to fi xing the pipe 100 .

That is, micro bubbles are generated through the micro bubble generator 500, and the bubble gas is injected into the pipe 100 through which the fluid is circulated to remove the foreign matter.

Since the technical structure of the micro bubble generator 500 is already known and used, detailed description thereof will be omitted.

The micro bubble generator 500 is provided with an air compressor (not shown) for supplying compressed air to the micro bubble generator 500 so that the flow rate of the fluid flowing through the pipe 100 can be increased to remove and remove foreign substances in the pipe 100 700 are connected.

The compressed air generated in the air compressor 700 is supplied to the micro bubble generator 500 to increase the flow rate of the fluid flowing in the micro bubble generator 500 while the compressed air is being injected into the micro bubble generator 500. [ So that the foreign matter in the pipe 100 can be easily removed.

The micro bubble generator 500 is connected to an ozone generator 800 that supplies ozone gas to the micro bubble generator 500 to sterilize the fluid flowing through the pipeline 100.

The ozone gas generated by the ozone generator 800 is supplied to the micro bubble generator 500 so that ozone gas is introduced into the micro bubble generator 500 together with the micro bubble generated by the micro bubble generator 500, The inside of the piping 100 can be sterilized.

The first UV sterilizer 600 is installed as a connection line 100a between the water pump 400 and the micro bubble generator 500 to sterilize the fluid circulated by the operation of the water pump 400 .

As shown in FIG. 4, a plurality of UV lamps L are installed inside the first UV sterilizer 600 to smoothly sterilize the fluid flowing in the pipe 100 in a short time.

The second filter unit 210 is installed in a connection line 100a provided in the piping 100 to filter foreign substances contained in the fluid flowing in the piping 100. [

The second filter unit 210 includes a second magnet filter 201a that adsorbs and filters metallic foreign substances contained in the fluid flowing in the pipe 100 and a second magnet filter 201b that passes through the second magnet filter 201a, And a second filtration filter 202a capable of filtering foreign matters contained in the flowing fluid in the first and second filtration fluids 100 and 100, respectively.

That is, while the fluid flowing in the pipe 100 passes through the second magnet filter 201a, the second magnet filter 201a filters metallic foreign substances contained in the pipe during the process of manufacturing the pipe 100, So that foreign substances can be filtered while passing through the second filtration filter 202a.

The second UV sterilizer 610 is connected to the second filter unit 210 through a connection line 100a and sterilizes the filtered fluid while passing through the second filter unit 210 to be discharged into the seawater.

4, a plurality of UV lamps L are installed inside the second UV sterilizer 610 to smoothly sterilize the fluid flowing in the pipe 100. [

5, in the pipe flushing method using micro bubbles according to the present invention, a step of filtering the fluid flowing in the pipe 100 by the first filter unit 200 and supplying the filtered fluid to the fresh water tank 300 A step S200 of operating the water pump 400 to supply the fluid supplied to the fresh water tank 300 into the pipe 100 by operating the water pump 400, (S300) of injecting the micro bubble generated in the micro bubble generator (500) to increase the flow rate of the fluid flowing in the pipe (100) to flush the pipe (100).

The fluid filtered by the first filter unit 200 is supplied to the fresh water tank 300 by the tank sterilizer 310 installed in the fresh water tank 300 in the fresh water tank 300 ) Can be sterilized.

The first UV sterilizer 600 is installed in the water pump 400 and the micro bubble generator 500 in step S200 of operating the water pump 400 to supply clean water into the pipeline 100 The first UV sterilizer 600 can sterilize the fresh water supplied to the piping 100.

When fresh water is supplied to the pipeline 100 from the fresh water tank 300 by operating the water pump 400, the fresh water is sterilized by the first UV sterilizer 600 and the microbubble generator 500 is connected to the pipeline 100 .

An air compressor 700 or an ozone generator 800 is connected to the micro bubble generator 500 in a step S300 of injecting micro bubbles generated in the micro bubble generator 500 and flushing the pipeline 100 The compressed air or the ozone gas generated in the air compressor 700 or the ozone generator 800 is injected into the micro bubble generator 500 to increase the flow rate of the fluid flowing in the pipe 100, (Step S400).

According to another aspect of the present invention, the fluid flowing in the pipe 100 is filtered through the first filter unit 200 and the filtered fluid passes through the first filter unit 200 to the fresh water tank 300 Fresh water sterilized by the first UV sterilizer 600 by the operation of the water pump 400 generates microbubbles in the microbubble generator 500 and is supplied to the air compressor 700 or The ozone generator 800 injects compressed air or ozone gas into the micro bubble generator 500 to increase the flow rate of the fluid to remove the foreign substances in the piping 100 and to sterilize the same so that the efficiency of the operation can be maximized It will be applied to ships or offshore plants with pipeline flushing systems using micro bubbles.

That is, a micro bubble generator 500 in which micro bubbles are generated in the piping 100 is installed, the fluid flowing in the pipeline 100 is filtered by the first filter unit 200, the water pump 400 is operated, The compressed air or the ozone gas is injected into the micro bubble generator 500 through the air compressor 700 or the ozone generator 800 while sterilizing the fluid in the micro bubble generator 300 with the first UV sterilizer 600, 100 so that it can be sterilized together with the removal of foreign substances in the piping 100, so that it can be applied to all vessels or offshore plants which can reduce inspection costs and improve production quality.

According to the piping flushing system and method using the microbubble of the present invention as described above, when the fluid in the piping 100 is circulated through the connection line 100a, the foreign matter is filtered while passing through the first filter unit 200 And the filtered fluid passing through the first filter unit 200 is introduced into the fresh water tank 300.

In addition, the fluid flowing into the fresh water tank 300 can be sterilized by the tank sterilizer 310, so that the inflow of the bacteria into the pipeline 100 can be blocked.

In addition, when the water in the fresh water tank 300 flows into the pipeline 100 according to the operation of the water pump 400, the fluid can be sterilized by the first sterilizer 600, The impact force is transmitted to the foreign matter generated in the pipe 100 by the micro bubbles while the micro bubble is generated in the pipe 500 and the foreign substance is released from the inside of the pipe 100 so that the first filter part 200 as well as the second filter part 210 So that it can be removed.

When an air compressor 700 or an ozone generator 800 is connected to the microbubble generator 500 to generate microbubbles in the microbubble generator 500, the air compressor 700 or the ozone generator 800 The compressed air or ozone gas is injected into the micro bubble generator 500 to increase the flow rate of the fluid flowing in the pipe 100, thereby increasing the efficiency of disinfection as well as desorption of foreign substances by micro bubbles.

Accordingly, it is possible to filter metallic foreign substances in the fluid through the first filter unit 200, sterilize the fluid by the tank sterilizer 310 and the first sterilizer 600, Bubbles are generated in the micro bubble generator 500. Compressed air or ozone gas is injected into the micro bubble generator 500 from the air compressor 700 or the ozone generator 800 to increase the flow of the fluid in the micro bubble generator 500, It is possible to simultaneously perform sterilization as well as removal of foreign substances.

As described above, the present invention is not limited to the preferred embodiment of the above-described features, and any person skilled in the art can make various modifications without departing from the gist of the invention claimed in the claims. It is to be understood that such changes and modifications are intended to fall within the scope of the appended claims.

100: piping 100a: connection line
200: first filter unit 201: first magnet filter
201a: second magnet filter 202: first filter
202a: second filter 210: second filter
300: fresh water tank 310: tank sterilizer
320: heater 400: water pump
500: micro bubble generator 600: first UV sterilizer
610: 2nd UV sterilizer 700: air compressor
800: ozone generator L: UV lamp
V: opening / closing valve

Claims (15)

A first filter unit installed in a connection line installed in a pipe to filter out foreign matter contained in the fluid flowing in the pipe;
A fresh water tank in which fresh water having passed through the first filter unit is stored;
A water pump connected to the fresh water tank to supply and circulate fresh water;
A micro bubble generator connected between the water pump and the pipeline by a connection line to generate a micro bubble to be injected into the pipeline; And
A first UV sterilizer installed as a connection line between the water pump and the micro bubble generator to sterilize fresh water;
/ RTI >
The fresh water tank is provided with a tank sterilizer for sterilizing the inside of the fresh water tank,
The tank sterilizer is provided with a plurality of UV lamps for smoothly sterilizing fresh water in the fresh water tank,
Wherein the first filter unit comprises:
A first magnet filter for adsorbing and filtering metallic foreign substances contained in the flowing fluid in the pipe; And
A first filtration filter capable of filtering foreign matter contained in the flowing fluid in the pipe to be filtered;
Lt; / RTI >
A second filter unit installed on a connection line provided in the pipe to filter out foreign matter contained in the fluid flowing in the pipe; And
A second UV sterilizer connected to the second filter unit by a connection line to sterilize the fluid passing through the second filter unit and discharge the fluid through the seawater;
Wherein the flushing system comprises a micro bubble. delete delete The method according to claim 1,
Wherein the micro bubble generator is connected to an air compressor for supplying compressed air to the micro bubble generator so as to increase the flow rate of the fluid flowing in the micro bubble generator. The method according to claim 1,
Wherein the microbubble generator is connected to an ozone generator for supplying ozone gas to sterilize the fluid flowing in the microbubble generator. delete delete The method according to claim 1,
The second filter unit includes:
A second magnet filter for adsorbing and filtering metallic foreign substances contained in the flowing fluid in the pipe; And
A second filtration filter connected to the pipe through a connection line to filter foreign substances contained in the fluid flowing in the pipe to filter the foreign matter;
A flushing system using micro bubbles. The method according to claim 1,
Wherein a plurality of UV lamps are installed inside the first UV sterilizer to smoothly sterilize a fluid flowing in the pipe. Filtering the flowing fluid in the piping by the first filter unit and supplying the filtered fluid to the fresh water tank;
Supplying fresh water supplied to the fresh water tank into the pipeline by operating a water pump; And
Injecting micro bubbles generated in the micro bubble generator when the fresh water is supplied to the piping by the operation of the water pump to increase the flow rate of the fluid flowing in the pipeline to flush the pipeline;
/ RTI >
In the step of supplying the filtered fluid from the first filter unit to the fresh water tank, the inside of the fresh water tank can be sterilized by the tank sterilizer installed in the fresh water tank,
Wherein the first micro-bubble generator is installed between the water pump and the micro-bubble generator in the step of supplying the fresh water to the inside of the pipe by operating the water pump, so that the fresh water supplied to the pipe can be sterilized Flushing method of pipe using bubble. delete delete 11. The method of claim 10,
In the step of flushing the microbubbles generated by the microbubble generator, an air compressor or an ozone generator is connected to the microbubble generator to inject compressed air or ozone gas into the microbubble generator, And the microbubbles can be sterilized together with the removal of foreign substances by increasing the flow velocity. A ship having a piping flushing system using micro bubbles according to any one of claims 1 to 5 and 8 to 9. An offshore plant having a piping flushing system using microbubbles according to any one of claims 1, 4, 5, and 8 to 9.

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