KR101445250B1 - Appratus for sterilization of ballast water - Google Patents

Abstract

A ballast water treatment apparatus of electrolysis auto cleaning type of the present invention includes an electrolysis sterilization device sterilizing marine organism and pollutant included in sea water in a ballast tank of a ship. The electrolysis sterilization device comprises a hollow pipe shaped housing; at least one pair of electrode plates; a disc brush made of an insulation material rotating while contacted with the electrode plate; and a driving unit delivering a rotation driving force to the disc brush, while the electrolysis sterilization device of the present invention has a simple structure to be able to be installed on an intake pipe or a pipe connected with the intake pipe to extremely increase the degree of freedom for installation space compared with an existing ballast water sterilizing treatment apparatus to be finally expected to have an effect of being easily applied to an existing ship by a simple structure change.

Description

Technical Field [0001] The present invention relates to an electrolytic self-cleaning type ballast water treatment apparatus,

The present invention relates to a ship ballast water treatment apparatus for treating ballast water flowing into a ship for safe and efficient operation, and more particularly, to a ballast water treatment apparatus for efficiently removing microorganisms or pollutants remaining in an inflow ballast water, To the electrolytic self-cleaning type ship ballast water treatment apparatus.

Since the gross weight of the ship is limited for safe and efficient operation, the left and right equilibrium of the ship can be adjusted by loading or discharging seawater into the ballast tanks provided on the lower and both sides of the ship in accordance with the loading and unloading of the cargo. And the seawater filled in the ballast tank to hold the center of gravity of the ship is called the equilibrium of the ship.
These ballast water injections are mostly carried out in ports or in the vicinity of cargoes or passengers. As the international trade volume increases, microorganisms, including various marine organisms inhabited in the place where ballast water is injected, And the pollutant sources are discharged along with the ballast water in other regions or third countries after the long-distance movement according to the operation of the ship. As a result, the marine life that survives in the discharge area disturbs the ecosystem of the sea area or causes a serious problem Respectively.
Examples of ecological disturbances caused by the movement of ship ballast water include the European species of speckled mussels that reproduce in the United States causing confusion in the indigenous ecosystem and the harmful aquatic organic matter contained in the ship ballast water has been found in Australia ' In addition to the damage caused by the emergence of aquatic microorganisms that did not live in the ports and coastal waters of Brazil, a small crustacean, which is native to the Mediterranean Sea in Korea, Have been reported.
The International Maritime Organization has been obliged to restrict the exchange of ship equilibrium within the port or to exchange it before the departure from the place where the water depth is deep. In February, the International Convention for the Control of Sediment and Ballast Water (SSTM) was adopted to establish the water quality standards for ballast water discharged from ships. By the end of the year, about 68,000 vessels operating around the world were forced to load ship equilibrium equipment.
In addition, about 65% of the world's outer marine vessels, the US calls for ballast water treatment technology that is 1000 times stronger than the agreed international standard for the protection of the marine environment and plans to control vessels entering the port I have said.
On the other hand, the ship ballast water treatment technology is largely divided into in-line treatment methods at the time of inflow and outflow of the ballast water and in-tank treatment methods during the sailing after the ballast water is introduced. Currently, international ship ballast water treatment technologies are adopting pipeline treatment methods in consideration of miniaturization of processing equipment and operational efficiency.
The ship ballast water treatment apparatus according to the prior art includes a ship ballast water treatment apparatus using seawater electrolysis disclosed in Korean Patent No. 10-1070948, An automatic backwash filter to remove solids and larger marine organisms from the filter; A flow rate adjusting device for adjusting a flow rate of the seawater flowing through the branch flow pipe; A seawater temperature regulating device connected to the flow rate regulating device and appropriately controlling the temperature of the seawater introduced; An electrolytic device connected to the seawater temperature regulating device and generating an oxidant to kill marine life; An oxidant concentration measuring device for measuring a concentration of the oxidant generated in the electrolytic apparatus; A power supply unit for controlling the amount of electric current of the electrolytic apparatus according to the concentration of the oxidant measured by the oxidant concentration measuring apparatus; A temperature controller connected to the seawater temperature controller to control the temperature of the seawater to be maintained properly; And a pressurizing pump connected to the seawater temperature regulating device to control the temperature of seawater to be maintained properly and to supply the oxidant generated in the electrolytic device to the main flow pipe,
The seawater temperature regulating device is a main heat exchanger that can regulate the temperature of seawater supplied through the heat medium and regulate the temperature of the seawater. The seawater thermostat is installed between the heat medium and the main heat exchanger and receives heat source through the heat medium, The main heat exchanger and the auxiliary heat exchanger are provided with a water pipe and an auxiliary pump so as to be circulated so as to perform indirect heat exchange, A temperature controller for controlling the operation of the main heat exchanger according to the temperature of the seawater measured by the temperature sensor so that the temperature of the seawater can be controlled appropriately; Which controls the flow rate of the heating medium of the ship. The ballast water treatment using a water electrolytic apparatus being configured to "is disclosed.
However, the conventional ballast water treatment apparatus using seawater electrolysis requires a relatively large installation space because of its complex structure and many components such as an oxidant concentration measuring device, a seawater temperature control device, and a heat exchanger Accordingly, it is difficult to additionally mount the ship on the existing ship, and the reliability is low due to the trouble of maintenance due to the difficulty in maintenance, which makes it difficult to economically manufacture the ship.
The ship ballast water treatment apparatus according to the prior art includes a ship ballast water sterilization apparatus and a ballast water ballast water sterilization method using the same as disclosed in Korean Patent No. 10-1204879, A ballast water reservoir in which the ballast water is stored; An ozone injection unit connected at one end to the bottom of the ship ballast water storage tank to dissolve the ozone O3 as ballast water stored in the ballast water storage tank; A titanium dioxide (TiO2) plate member having one end connected to the ballast water storage tank for forming a ballast water tank membrane and forming a flow passage through which the water ballast flows; A water-film forming unit including a cooling coil provided in the heating unit; An electron beam accelerator provided at the center of the titanium dioxide plate for irradiating the electron beam with the ship's equatorial water flowing along the titanium dioxide plate material of the water film forming unit; And a ultraviolet ray generator provided on the side surface of the titanium dioxide plate for irradiating the ultraviolet rays to the ballast water flowing along the titanium dioxide plate of the water film forming unit.
Such a ballast water sterilization apparatus has been disclosed to sterilize many ballast water within a short time by using an ozone injection unit and an ultraviolet generator. However, in the case of ozone, it is difficult to quantitatively produce an appropriate concentration for killing marine life In addition, when the ozone is discharged into the ocean as it is, it is necessary to provide an additional ozone neutralizing device in addition to providing a cause of secondary pollution. Finally, there is a problem of corrosion of equipment due to ozone.

Japanese Patent Application Laid-Open No. 10-2011-0066035, 'Ballast Water Treatment System Using New Filtration Method', page 2, Claim 1, Fig. Patent Document No. 10-1070948, 'Ballast water treatment apparatus using seawater electrolysis', page 2, claim 3, drawing 1. Patent Document No. 10-1204879, 'Ballast water sterilization apparatus and ballast water sterilization method using the same,' page 3, claim 1, drawing 1.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art as described above, and it is an object of the present invention to provide an apparatus and method for disinfecting contaminated sources, including residual marine life included in seawater introduced along a water intake duct, It is an object of the present invention to provide an electrolytic self-cleaning type ship ballast water treatment apparatus including a sterilization apparatus.
It is another object of the present invention to provide an electrolytic self-cleaning type ballast water tank which can simplify the structure of the sterilizing apparatus to minimize the volume and ensure stable sterilizing performance, And an object of the present invention is to provide a processing apparatus.
It is another object of the present invention to provide an electrolytic self-cleaning type ship ballast water treatment apparatus capable of sterilizing a large amount of ballast water within a short time.
Further, according to the present invention, it is possible to eliminate various solid pollutants including marine organisms that are automatically attached to the filter by the inflow pressure of seawater, so that filtration performance with high efficiency can be ensured by a simple structure without a cleaning facility of a complicated structure And to provide a filter device.

In order to achieve the above object, an electrolytic automatic washing type ship ballast water treatment apparatus according to a preferred embodiment of the present invention is connected to a ballast tank of a ship and connected to a water intake pipe for introducing seawater, 1. An electrolytic self-cleaning type ship ballast water treatment apparatus having an electrolytic sterilization apparatus for sterilizing organisms and contaminants,
The electrolytic sterilization apparatus includes a tubular housing connected to the water intake pipe and having an interior to allow the inflow of seawater therethrough; At least one pair of electrode plates provided inside the housing and arranged to be opposed to each other with an interval provided to receive power from the outside; A disk brush disposed between the pair of adjacent electrode plates and made of an insulating material frictionally rotated in contact with the electrode plate; And a drive unit for transmitting a rotational driving force to the disc brush.
In a preferred aspect of the present invention, the electrode plate and the disk brush are provided in a circular plate shape, and the fixed shaft is integrally inserted and passed through the center.
In another preferred aspect of the present invention, the electrode plate has a plurality of through holes formed therethrough so that seawater can pass therethrough, and at least one of zirconium, zirconium compounds, titanium, and titanium compounds is selected and used.
In another preferred aspect of the present invention, the disk brush includes a plurality of scale bars arranged radially with respect to the electrode plate, the plurality of scale bars being provided at an enlarged size with respect to the electrode plate, And a gear shaft which is connected to the motor and which is meshed with the gear of the disc brush and transmits a rotational driving force to the motor, have.
In another preferred aspect of the present invention, the water intake pipe includes a filter device for filtering marine organisms and contaminants contained in seawater, and the filter device is connected to the water intake pipe and is an element for introducing and supplying seawater. An inlet cover having a plurality of inlet ports to be introduced into the inlet cover; A filter unit provided so as to be able to be inserted into and receive the inside of the induction cover, to filter marine organisms and contaminants mixed in seawater having passed through the inlet port and to pass the marine organisms and contaminants into the inside thereof; And a rotor brush having a spiral water flow guide slot formed in the guide cover to rotate in a state of being in contact with the outer surface of the filter unit to obtain a rotational force for the inflow of seawater
According to another preferred aspect of the present invention, the guide cover has a flange extending from the opened upper surface to abut the flange portion of the intake pipe to form a flange, and the flow of the introduced seawater is guided in a certain direction A bottom portion for receiving the filter unit and the rotor brush provided therein and having a generally cylindrical shape or an entirely downwardly directed path is provided. While reducing the diameter thereof.
In another preferred aspect of the present invention, the filter unit is provided in a cylindrical shape or in a conical shape with its diameter decreasing while proceeding downward,
A micro filter made of a metal mesh network structure to filter seawater having passed through the inlet port; And a filter housing having a size to be inserted and accommodated in the microfilter and supporting the microfilter from the inside, the filter housing having a relatively large size water hole.
In still another preferred aspect of the present invention, the rotor brush includes an upper ring having an annular shape; A lower ring disposed at an interval below the upper ring and having a relatively reduced size and having a boss hole at a center thereof; A plurality of blades for connecting the upper ring and the lower ring in a spiral form to contact the outer surface of the filter unit to scrape out marine organisms or contaminants, and a water induction slot formed between the blades.
In another preferred aspect of the present invention, the filter unit is provided in a conical shape with its diameter decreasing while advancing downward. The filter unit is extended by an upper surface rim to be screwed or welded to an extended upper rim portion of the induction cover, And the rotor brush has a boss hole through which the boss is inserted, and the rotor brush is freely rotated with respect to the filter unit.
According to another preferred aspect of the present invention, there is provided a filter unit comprising: a body part provided at a lower portion of the filter unit, the body part having a reduced diameter while being downwardly moved; a lower part protruding downward from a center of a lower surface of the body part, And a boss inserted into the boss hole formed at the center.

The electrolytic self-cleaning type ship ballast water treatment apparatus according to the present invention simplifies the structure of the sterilizing apparatus and ensures stable performance without deteriorating the sterilizing performance due to adsorption of contaminants, thereby enhancing the reliability of the product, There is an advantage that it can be improved.
Particularly, since the sterilizing apparatus of the present invention is simple in structure and can be installed on a water intake pipe or a pipe connected to the water intake pipe, the degree of freedom of the installation space can be significantly increased as compared with the existing ballast water sterilization apparatus As a result, it is expected that the existing ship can be easily applied through simple structural change.
Further, the present invention provides a brush that rotates by a driving source so that contaminants such as foreign substances are prevented from sticking to an electrode plate constituting an electrolytic sterilizing apparatus, thereby preventing the deterioration of sterilizing performance due to electrode plate contamination And the convenience of maintenance can be improved.
In addition, the filter device installed in the present invention can filter mud, plankton, living matter of a certain size and pollution source, including solids contained in marine water, by taking advantage of the inflow pressure It is possible to guarantee maintenance convenience and stable filtration performance compared to the conventional screen filter by blocking the introduction of various solid foreign substances and contaminants including marine organisms that are automatically fixed to the filter without a separate driving source, Since there is no need for a complex cleaning facility, it is economically feasible to manufacture and has a high degree of freedom in installation for existing vessels.
The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to that, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may properly define the concept of the term in order to best explain its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view for explaining an electrolytic self-cleaning type ship ballast water treatment apparatus according to the present invention;
FIG. 2 is a perspective view showing the outline of the electrolytic sterilizing apparatus of FIG. 1,
3 and 4 are perspective views showing an internal configuration of the electrolytic sterilizer,
FIG. 5 is a perspective view showing the essential parts of the electrolytic sterilizing apparatus according to the present invention. FIG.
6 is a perspective view for explaining an electrode plate and a drive unit in the electrolytic self-cleaning type ship ballast water treatment apparatus according to the present invention,
FIG. 7 is a perspective view for explaining a disk brush and a drive unit in the electrolytic self-cleaning type ship ballast water treatment apparatus according to the present invention,
FIG. 8 is a perspective view for explaining a configuration of a filter device in an electrolytic self-cleaning type ship ballast water treatment apparatus according to the present invention, FIG.
Fig. 9 is an exploded perspective view of Fig. 8,
10 is an exploded perspective view for explaining a coupling relation of the filter unit of the filter device of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an electrolytic automatic washing type ballast water treatment apparatus according to the present invention will be described with reference to the accompanying drawings.
First, it should be noted that the same components or parts among the drawings are denoted by the same reference numerals as possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.
1 to 7 are views for explaining a preferred embodiment of an electrolytic self-cleaning type ship ballast water treatment apparatus according to the present invention.
2 is a perspective view showing the outline of the electrolytic sterilizer, FIGS. 3 and 4 are perspective views for explaining an internal configuration of the electrolytic sterilizer, and FIGS. 5 to 6 are cross- Fig. 7 is a perspective view for explaining a configuration of a main part constituting the electrolytic sterilizer. Fig.
The electrolytic self-cleaning type ship water ballast water treatment apparatus 1 according to the present embodiment is connected to a ballast tank 7 of a ship and connected to a water intake pipe 3 for introducing seawater to guide the marine life And an electrolytic sterilization apparatus 20 using a known electrolytic technique for sterilizing pollutants using electrolysis.
The principle of the electrolytic sterilization apparatus 20 of the present invention is that electrolytic electrolysis, electro-coagulation, electro-flotation, and electric potential generation that treats marine microorganisms and pollutants electrochemically It depends on four electrochemical reactions.
The electrolytic reaction is a method of treating contaminants by decomposing various contaminants by oxidation and reduction reactions occurring when DC power is supplied to the seawater. The electrocoagulation reaction is performed by exchanging electrons emitted from the electrodes The method for treating pollutants by accelerating the precipitation of a substance into a salt and the growth of floc, wherein the electric float is a phenomenon in which oil and suspended matters float on the surface of water by microbubbles generated during electrolysis of water to remove contaminants Finally, the generation of the potential difference occurs when the direct current power is applied to the electrode, and the positive potential difference at the anode has a strong sterilizing effect.
The electrolytic sterilization apparatus 20 using the electrolytic reaction may be performed by a known technique. However, in the present invention, when the electrolytic sterilization apparatus 20 is constructed, the scale attached to the electrode plate is automatically removed Thereby stably maintaining the life of the electrode and the sterilizing efficiency.
The electrolytic sterilization apparatus 20 according to the present invention includes a housing 21 that functions as a duct while forming an outer body, and a plurality of electrolytic sterilization units 20 installed at least one pair in the housing 21, An electrode plate 23 and a disk brush 25 which is a kind of cleaning element which is positioned between the electrode plate and the electrode plate and removes the scale attached to the electrode plate by receiving the driving force from the driving unit 27 .

The housing (21) is connected to the water intake pipe (3) and has an inner hollow shape so that the inflowed seawater can be discharged through the water intake pipe (3).
It is preferable that the housing 21 is provided as a tube having a size proportional to the water intake pipe 3, and as shown in the figure, the front and rear surfaces are provided in an open form.

The electrode plate 23 is disposed inside the housing 21 so as to be supplied with power from the outside and spaced apart from each other with a space therebetween. The electrode plate 23 is composed of at least one pair of electrodes. In the present invention, And the fixed shaft s is inserted through the center thereof.
The electrode plate 23 has a plurality of through holes 23h through which seawater can pass, and is manufactured by selecting at least one of a zirconium-zirconium compound, a titanium-titanium compound, and the like.
Meanwhile, the electrode plate 23 preferably has an interval of 5 mm to 50 mm in consideration of the size and the like. In order to increase the electrolysis efficiency, the distance between the electrodes is preferably 5 mm or less.

The disk brush 25 is a rotary element disposed between the adjacent pair of electrode plates 23 and frictionally rotating in a state of being in contact with the electrode plate 23 and has a circular plate shape, So that the fixing shaft (s) is inserted therethrough integrally with the electrode plate (23).
The disc brushes 25 are provided in a size enlarged in diameter with respect to the electrode plate 23 so as to be in frictional contact with the electrode plate 23 to remove the scale. The plurality of scale bars 25a, And a gear 25g formed on the outer peripheral surface.
Meanwhile, the disc brush 25 in the present invention is preferably provided as a fluororesin compound or an insulating material coated with the fluororesin compound.

The drive unit 27 is a component that provides a rotational driving force to the disc brush 25. The drive unit 27 includes a motor 27m that receives power from the outside to generate rotational driving force, And a gear shaft 27g which is engaged with the gear 25g of the disc brush 25 and transmits a rotational driving force.

The electrolytic sterilizing apparatus 20 according to the present invention configured as described above is configured such that when power is supplied to a plurality of electrode plates 23, And sterilization of pollutants.
At the same time, a plurality of disk brushes 25 arranged on the plurality of electrode plates 23 are engaged with gear teeth 25g provided on the outer circumferential surface of the plurality of disk brushes 25 to engage with the motor 27m constituting the drive unit 27, Directional rotation by the driving of the motor 27m. At this time, the disk brush 25 rotates in a direction in which the radially disposed scale bar 25a is in contact with the adjacent electrode plate By rotating the electrode plate in contact with the resultant scale, the scale attached to the electrode plate can be removed, thereby prolonging the life of the electrode plate and maintaining good electrolysis efficiency.

Meanwhile, in the electrolytic self-cleaning type ship ballast water treatment apparatus according to the present invention, a filter device as shown in FIGS. 8 to 10 may be additionally constructed.
8 is a perspective view for explaining a configuration of a filter device in an electrolytic self-cleaning type ship ballast water treatment apparatus according to the present invention, FIG. 9 is an exploded perspective view of FIG. 8, And FIG.
As shown in the drawing, the electrolytic self-cleaning type ship equilibrium water treatment apparatus 1 according to the present embodiment includes a water intake pipe 3 connected to a ballast tank 7 of a ship, And a filter device (10) provided on an inlet (not shown) side of the water intake pipe (3) for filtering marine organisms and contaminants contained in seawater.

That is, the filter device 10 according to the present invention mainly comprises the inductive cover 11, the filter unit 13, and the rotor brush 15, and includes the marine life included in the process of introducing seawater, And the filtered water is supplied to the electrolytic sterilizer 20 so that the inflow of various pollutants is prevented from occurring and the marine organisms and various contaminants are naturally separated from the outside.
The induction cover 11 is connected to the water intake pipe 3 and is a kind of suction element that inflows and supplies seawater. The induction cover 11 has a shape in which the diameter thereof is reduced while being downward as a whole. The inlet 11a is formed.
The guide cover 11 has an open top surface and a rim of the open top surface is extended to form a flange 11b which abuts against the flange of the intake pipe 3 , And a plurality of vanes (11v) are provided at intervals to induce the flow of the incoming seawater in a constant direction.
A bottom portion 11c for structurally supporting the filter unit 13 and the rotor brush 15, which will be described later, is formed in the inlet 11a through which the seawater flows into the space between the vane and the vane. .

The filter unit 13 is a filtration element for filtering marine organisms and contaminants mixed in seawater having passed through the inlet 11a of the guide cover 11 and passing the filtered seawater into the inside thereof, In a state in which it can be inserted and received. In addition, the filter unit 13 is provided in a cylindrical shape as a whole, or in a conical shape in which the diameter of the filter unit 13 is reduced while being downward, and is provided in a conical shape in the present invention.
The filter unit 13 filters the seawater that has passed through the inlet 11a and has a mesh-like structure of a micro filter 13b made of a metal mesh and a size that is inserted and accommodated in the micro filter 13b And a filter housing 13a which supports the micro filter 13b from the inside and is fixedly coupled to the induction cover 11. [ Here, the size of the micro filter 13b to be filtered with respect to the filter housing 13a should be relatively small. That is, the filter housing 13a has a relatively large size of the cylinder receiving hole with respect to the micro filter 13b.
On the other hand, the filter housing 13a constituting the filter unit 13 is fixed to the flange 11b, which is the extended upper edge portion of the guide cover 11, by screwing or welding. And a boss 17b protrudes from the bottom.
The bosses 17b may be provided integrally with the elements constituting the filter unit 13, but it is proposed that the bosses 17b are separately manufactured in the present invention for the convenience of manufacturing. That is, the filter unit 13 includes a body portion 17a which is located at a lower portion of the filter unit 13 and is formed to have a reduced diameter while being downwardly moved. The body portion 17a protrudes downward from the center of the lower surface of the body portion 17a, And a boss 17b inserted into the boss hole 15h formed in the lower center of the brush 15. [

The rotor brush 15 is a rotary element which is located inside the induction cover 11 and rotates while its inner surface is in contact with the outer surface of the filter unit 13, And it is proposed in the present invention to form a spiral water induction slot 15d.
The rotor brush 15 includes an upper ring 15a having an annular shape, a lower ring 15a disposed below the upper ring 15a and spaced apart from the upper ring 15a, and a boss hole 15h The lower ring 15c and the upper ring 15a and the lower ring 15c so as to be in contact with the outer surface of the micro filter 13b constituting the filter unit 13, And a plurality of blades 15b for scraping contaminants, and a water induction slot 15d is located between the blades 15b.
The rotor brush 15 includes a lower boss hole 15h through which the boss 17b is inserted and rotates freely relative to the filter unit 13.
The rotor brush 15 according to the present invention is configured to rotate by the inflow pressure of the seawater passing through the water induction slot 15d. However, in order to increase the inflow amount of the ballast water or to improve the washing performance, It is also possible to connect the drive source to the rotor brush 15 for forced rotation.
In the filter device 10 according to the present invention configured as described above, the pump 5 provided at one side of the water intake pipe 3 is driven to draw seawater. At this time, the inlet of the water intake pipe 3 The filter device 10 installed on the side of the water separator 10 prevents the entry of solid contaminants including marine organisms contained in seawater.
That is, in the filter device 10 of the present invention, the seawater flows into the intake pipe 3 after passing through the filter unit 13 provided inside the inlet cover 11a of the guide cover 11 The micro filter 13b constituting the filter unit 13 can not pass marine organisms or contaminants larger than the mesh size by a kind of filtering net having a mesh net structure, (13b). At this time, the rotor brush 15 provided on the outer surface of the microfilter 13b is rotated in one direction by the inflow pressure of the seawater by the spiral blade 15b.
At this time, since the inner surface of the blade 15b is in contact with the outer surface of the micro filter 13b, the blade 15b scrapes marine organisms or contaminants adsorbed on the outer surface of the micro filter 13b. In addition, since the blade 15b is formed in a spiral shape as a whole, the blade 15b is formed to be downwardly moved and narrows the distance between the blades. As a result, the marine organisms or contaminants adsorbed on the outer surface of the micro- If you look at it, you will scratch it downward.

It is to be understood that the present invention is not limited to the disclosed embodiment and that various changes and modifications may be made without departing from the spirit and scope of the present invention as set forth in the appended claims. It is obvious to those who have knowledge. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

1: Electrolysis automatic washing type ship ballast water treatment system
3: intake pipe 5: pump 7: ballast tank
10: Filter device 11: Induction cover 11a:
11b: flange 13: filter unit 13a: filter housing
13b: Microfilter 15: Rotor brush 15a: Upper ring
15b: blade 15c: lower ring 15d: water current induction slot
15h: boss hole 20: electrolytic sterilization device 21: housing
22: wiring 23: electrode plate 23h: water hole
25: Disc brush 25a: Scale bar 25g: Gear
27: drive unit 27g: gear shaft

Claims (10)

1. An electrolytic self-cleaning type ship ballast water treatment device connected to a ballast tank of a ship and connected to a water intake pipe for introducing seawater to sterilize marine organisms and pollutants contained in seawater,
The electrolytic sterilization apparatus includes a tubular housing connected to the water intake pipe and having an interior to allow the inflow of seawater therethrough; At least one pair of electrode plates provided inside the housing and arranged to be opposed to each other with an interval provided to receive power from the outside; A disk brush disposed between the pair of adjacent electrode plates and made of an insulating material frictionally rotated in contact with the electrode plate; And a driving unit for transmitting rotational driving force to the disc brush,
Wherein the disk brush includes a plurality of scale bars radially disposed on the electrode plate, the gear brush having a size enlarged in diameter and frictionally contacting the electrode plate to remove scale, and a gear formed on an outer circumferential surface of the disk brush, Wherein the unit further comprises a motor for generating a rotational driving force by being supplied with power from the outside, and a gear shaft connected to the motor and being engaged with the gear of the disc brush to transmit a rotational driving force. Ship ballast water treatment system. The apparatus of claim 1, wherein the electrode plate and the disk brush are provided in a circular plate shape, and the fixing shaft is integrally inserted into the center of the electrode plate and the disk brush. The electrolytic water purifier of claim 1, wherein the electrode plate has a plurality of through holes formed therein for allowing seawater to pass therethrough, and at least one of a zirconium-zirconium compound, a titanium-titanium compound, Type ballast water treatment apparatus. delete The water treatment system according to claim 1, wherein the water intake pipe includes a filter device for filtering marine organisms and contaminants contained in seawater,
The filter device includes an induction cover connected to the intake pipe and configured to introduce and supply seawater, the induction cover having a plurality of inlet ports for introducing seawater into the interior; A filter unit provided so as to be able to be inserted into and receive the inside of the induction cover, to filter marine organisms and contaminants mixed in seawater having passed through the inlet port and to pass the marine organisms and contaminants into the inside thereof; A rotor brush having a helical water flow guide slot formed therein to obtain a rotational force for the inflow of seawater by rotating in contact with the outer surface of the filter unit to the inside of the guide cover,
Further comprising: an electrolytic self-cleaning type vessel ballast water treatment apparatus comprising: [6] The apparatus according to claim 5, wherein the guide cover has a flange extending from the opened upper surface to abut the flange portion of the intake pipe to form a flange, A bottom portion for supporting the filter brush and the rotor brush is provided, and the filter unit is provided in a cylindrical shape as a whole, or as a whole, Wherein the ballast water treatment apparatus is provided in a reduced shape. [6] The filter unit of claim 5, wherein the filter unit is provided in a cylindrical shape or conically shaped to have a reduced diameter while proceeding downward, and filters a seawater having passed through the inlet port, the filter unit comprising a metal mesh network structure; And a filter housing having a size to be inserted and accommodated in the micro filter and having a relatively large size water hole to support the micro filter from the inside thereof, Water treatment device. 6. The method of claim 5, wherein the rotor brush comprises an upper ring having an annular shape; A lower ring disposed at an interval below the upper ring and having a relatively reduced size and having a boss hole at a center thereof; A plurality of blades for connecting the upper ring and the lower ring in a spiral form to contact the outer surface of the filter unit to scrape out marine organisms or contaminants, and a water induction slot formed between the blades. Electrolytic self - cleaning type ship ballast water treatment system. 6. The inductive cover according to claim 5, wherein the filter unit is provided in a conical shape with its diameter decreasing while proceeding downward, the upper surface rim is extended and fixed to the extended upper rim portion of the induction cover by screws or welding, Protruded,
Wherein the rotor brush has a boss hole through which the boss is inserted, and is rotatably rotated with respect to the filter unit. [6] The dust collecting apparatus according to claim 5, further comprising: a body provided at a lower portion of the filter unit and having a reduced diameter while being downwardly moved; And a boss to be inserted into the boss hole.

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