KR101498352B1 - UV reactor having easy maintenance structure - Google Patents

Abstract

The present invention relates to an ultraviolet reactor for ultraviolet sterilization of a ballast water, and more particularly, to an ultraviolet reactor for a ballast water treatment apparatus which stabilizes the flow of seawater into the ultraviolet reactor to allow uniform sterilization when passing through an ultraviolet lamp. The ultraviolet reactor for a ballast water treatment apparatus of the present invention comprises: a body (200) in the form of a quadrangular column provided as a passage through which seawater flows; A seawater inlet pipe 300 and a seawater outlet pipe 400 formed at both longitudinal ends of the body 200; A plurality of ultraviolet lamps (500) installed across the middle of the body (200); A flow stabilizing member 700 disposed across the seawater inlet portion of the body 200 to induce the seawater introduced into the seawater inlet pipe 300 to collide with and soak into the interior of the body; And a checking hole 210 communicating with the outside is formed on the side surface of the body between the seawater inflow pipe 300 and the ultraviolet lamp 500. The inspection lid 820, And an upper check door 800a.

Description

[0001] The present invention relates to a UV reactor having an easy maintenance structure,

The present invention relates to a structure of an ultraviolet reactor for ultraviolet (UV) sterilization of ballast water in a ballast water treatment apparatus that minimizes variations in the center of gravity of a ship by means of ballast water filled in the ballast tank And more particularly to an ultraviolet reactor for a ballast water treatment apparatus having a structure capable of easily performing maintenance work such as removal and cleaning of debris or foreign matter of an ultraviolet lamp and maintenance and replacement of internal parts .

In general, ballast tanks installed on ships are to minimize the center of gravity of the ship by loading and unloading of cargo to help safe navigation. In other words, if the cargo is loaded full on the ship, the ship's center can be safely sailed even if the external force is applied because the center of gravity of the ship is located below the sea level without filling ballast water in the ballast tank. However, The ballast tank is filled with ballast water so that a certain part of the ship can be positioned below the sea level as the ship is shipped.

As described above, the ballast water used for safe operation of a ship has a problem in that it is used as a medium for propagating organisms or pathogens in a specific area to other seas.

The ballast water filled in the ballast tanks may include various marine organisms and pathogens. Since the inflow and outflow of the ballast water are performed in different areas, when the ballast water is introduced, As it flows out to other waters, causes side effects that disturb the environment and the ecosystem.

Therefore, introduction of facilities for treating marine organisms or pathogens contained in ballast water at the time of leakage of ballast water is obligatory.

Fig. 1 shows the construction of a general ballast water treatment apparatus.

As shown in FIG. 1, a general ballast water treatment apparatus 1 includes a pretreatment filter 10 and an ultraviolet reactor 20 to sterilize the inflow or outflow of ballast water.

First, the inflow process of the ballast water will be described. In FIG. 1, the configuration indicated by "A" becomes the ocean, and the configuration indicated by "B" becomes the ballast tank.

When the ballast water is introduced, the valve 21 of the inlet pipe 11 and the valve 22 of the connection pipe 12 are opened and the valve 23 of the branch pipe 13 is closed. The seawater introduced from the ocean A flows into the pretreatment filter 10 through the inflow pipe 11 and is removed through the ultraviolet reactor 20 through the connection pipe 12, 14 to the ballast tank B.

Conversely, if the ballast water outflows, the configuration indicated by "B" in FIG. 1 becomes the ocean, and the configuration marked "A" becomes the ballast tank (ocean and ballast tanks are connected by a common line ). When the ballast water flows out, the valve 21 of the inlet pipe 11 and the valve 22 of the connecting pipe 12 are closed, and the valve 23 of the branch pipe 13 is opened. The seawater flowing out of the ballast tank A flows into the ultraviolet reactor 20 through the branch pipe 13 and is subjected to a sterilization treatment process and then discharged to the sea B through the discharge pipe 14.

The ballast water used in ships in accordance with the recent IMO (International Maritime Organization) agreement requires sterilization treatment.

Various methods such as electrolysis, heat treatment, ultraviolet light irradiation, and membrane separation can be applied to the sterilization treatment for the ballast water treatment. However, since the ultraviolet light irradiation treatment does not require addition of a chemical substance and is easy to control, .

The ultraviolet reactor 20 described above is for irradiating ultraviolet rays to seawater and has a plurality of ultraviolet lamps for irradiating ultraviolet rays. The seawater passing through the ultraviolet reactor 20 is sterilized by the ultraviolet rays irradiated from the ultraviolet lamp.

Such an ultraviolet lamp usually comprises a bulb having a long length, such as a fluorescent lamp, and when installed on the ultraviolet reactor body, a protective tube made of quartz or the like is placed outside the bulb of the ultraviolet lamp.

However, since such an ultraviolet lamp is disposed across the body in a direction orthogonal to the flow direction of seawater, it is inevitably structured to be vulnerable to seawater pressure or flow velocity.

Therefore, when the pressure or flow of seawater or the vibration of equipment such as an engine in a ship is repeatedly or largely received, the ultraviolet lamp may be damaged.

If the ultraviolet lamp is damaged in this way, maintenance work should be performed to remove the fragments from the inside of the body.

In addition, when the inside of the body is contaminated, it is necessary to perform not only cleaning the inside of the body of the ultraviolet reactor but also maintenance work to check the condition of the parts inside the body.

Korean Patent Publication No. 10-2008-0090098

The present invention has been developed in view of the above needs, and it is an object of the present invention to provide a ballast capable of easily and quickly performing maintenance work such as removal and cleaning of debris or foreign matter of an ultraviolet lamp, And an object thereof is to provide an ultraviolet reactor for a processing apparatus.

In order to achieve the above object, the ultraviolet reactor for a ballast water treatment apparatus according to the present invention comprises: a rectangular column-shaped body provided as a passage through which seawater flows; A seawater inlet pipe and a seawater outlet pipe formed at both longitudinal ends of the body; A plurality of ultraviolet lamps installed across the middle of the body; A flow stabilizing member disposed across the seawater inlet portion of the body to cause seawater entering the seawater inlet pipe to collide against the seawater inlet so as to enter the inside of the body; And a check hole communicating with the outside on the side surface of the body between the seawater inflow pipe and the ultraviolet lamp and an upper check door formed with a check lid for opening and closing the check hole.

In one embodiment, a flange having an entrance port corresponding to the check hole is formed on the outer wall of the body around the check hole, and the check door is fastened to the flange by a detachable fastener, .

As another embodiment, a lower check door may be further provided for maintenance of the inside of the seawater inflow pipe by opening the distal end of the seawater inflow pipe and blocking the opening by a check door that can be opened and closed.

Here, a flange is formed at the open end of the end of the seawater inflow pipe, a flange is formed at the open end of the seawater inflow pipe, an opening for communicating with the seawater inflow pipe is formed in the flange, and the inspection door is fixed to the flange with a detachable fastener .

Further, it is also possible to adopt a structure in which an extension portion protruding from the body is formed at the distal end of the sea water inflow pipe, and the flange is formed at the end portion of the extension portion.

According to the ultraviolet reactor for a ballast water treatment apparatus according to the present invention, since the ultraviolet ray reactor has a structure in which a check door communicating with the inside of the ultraviolet ray reactor is provided, the operation of removing ultraviolet lamp fragments, It is possible to easily perform the maintenance work such as inspection, maintenance, replacement, and the like, thereby reducing the maintenance time.

1 is a block diagram of a general ballast water treatment apparatus.
2 is a perspective view of an ultraviolet reactor according to the present invention.
3 is a longitudinal sectional view of the ultraviolet reactor shown in Fig.
4 is a perspective view of the ultraviolet reactor according to the present invention viewed from the other direction.
Fig. 5 is a longitudinal sectional view seen from the back side of Fig. 2;
Fig. 6 is a left side view of Fig. 5. Fig.

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

FIG. 2 is a perspective view of the ultraviolet reactor 100 according to the present invention, FIG. 3 is a vertical cross-sectional view of the ultraviolet reactor 100 of FIG. 2, FIG. 4 is a perspective view of the ultraviolet reactor 100, Fig. 6 is a left side view of Fig. 5; Fig.

2 to 6, the ultraviolet reactor 100 includes a body 200 provided as a passage through which seawater flows, a seawater inflow port for introducing seawater from the sea or a ballast tank (not shown) into the body 200, And a plurality of ultraviolet lamps 500 for sterilizing the ultraviolet rays by irradiating ultraviolet rays to the seawater passing through the body 200. The ultraviolet lamps 500 include a tube 300, do.

According to the present embodiment, the body 200 is formed in the shape of a hollow square column having both longitudinal ends thereof opened, and the seawater inlet pipe 300 and the seawater outlet pipe 400 are formed to have a length And is disposed parallel to the width direction of the body 200 at the direction end.

A plurality of ultraviolet lamps (500) are disposed across the body (200) to sterilize seawater by irradiating ultraviolet rays. The ultraviolet lamp 500 includes a tubular tube having a long length and is wrapped around a protective tube made of a quartz tube or the like. The ends of the ultraviolet lamp 500 are fixed to the body 200 by the boss 510 and the connecting structure 520 do. In the drawing, an ultraviolet lamp 500 is shown coupled to a protective pipe.

In the ultraviolet reactor 100 of the present invention, the flow stabilizing member 700 is disposed across the body 200, particularly at the inlet of the body 200, which is a portion into which seawater flows from the seawater inflow pipe 300 have.

The flow stabilizing member 700 stabilizes the intense flow of the seawater by allowing the seawater entering the seawater inflow pipe 30 to collide with the seawater first and passing through the seawater inflow pipe 30, ).

The flow stabilizing member 700 illustrated in the drawing includes a perforated plate 710, 720 on which through holes for passing seawater are formed. In addition to the perforated plates 710 and 720, the fluid stabilizing member 700 may be constructed to have a structure in which a wire mesh is knitted and then introduced through a space between the wire meshes.

The seawater entering from the lower seawater inflow pipe 300 first collides with the flow stabilizing member 700 before entering the body 200 so that the intense flow is attenuated and then passed through the flow stabilizing member 700, ). Passes through the passageway of the body 200, is sterilized by the ultraviolet lamp 500, and is discharged through the seawater outlet pipe 400.

The debris generated by the foreign material or the ultraviolet ray lamp 500 is dropped to the flow stabilizing member 700. The larger particles remain on the upper surface of the flow stabilizing member 700 and the smaller particles stay on the flow stabilizing member 700 And falls to the bottom of the sea water inflow pipe 300.

The inspection hole 210 communicating with the outside is formed on the side surface of the body 200 between the seawater inflow pipe 300 and the ultraviolet lamp 500 and the inspection hole 210 is opened / An upper check door 800a in the form of a membrane is provided with a possible inspection cover 820.

A flange 810 is formed on the outer wall of the body 200 around the inspection hole 210 of the upper inspection door 800a and the inspection lid 820 is attached to the flange 810 And fastened with a fastener 821 which can be detached like a bolt. An entrance 811 corresponding to the check hole 210 is formed in the flange 810.

Although not shown, a sealing member such as a gasket is interposed between the flange 810 and the inspection lid 820 naturally.

The upper check door 800a can open the check lid 820 to remove debris and particles remaining on the upper surface of the flow stabilizing member 700. The inside of the body 200 can be cleaned, It is possible to easily confirm whether or not the member 700 is damaged and replace it.

In another embodiment of the present invention, a lower check door 800b in the form of a check door 840 that opens and closes the distal end (end opposite to the inlet) of the seawater inlet pipe 300 is provided do.

A flange 830 having a diameter enlarged at the open end of the end of the sea water inflow pipe 300 is formed and an entrance 831 communicating with the sea water inflow pipe 300 is formed in the flange 830 And a fastening member 850 or 851 which can separate the inspection door 840 from the flange 830 as a bolt.

In this case, the end portion of the seawater inlet pipe 300 is extended to the extension portion 301 so as to protrude from the body 200, and the flange 830 is formed at the end portion of the extension portion 301 .

Although not shown, a sealing member such as a gasket is interposed between the flange 830 and the inspection door 840 naturally.

The lower check door 800b opens the door for inspection 840 to remove debris or particles remaining on the bottom of the seawater inlet pipe 300 and checks whether the upper flow stabilizing member 700 is damaged Replacement can also be done.

Further, the lower check door 800b is formed by opening the distal end of the sea water inflow pipe 300, so that it is structurally simple and easy to access and work.

When installing both the upper check door and the lower check door, the maintenance work can be performed more easily and effectively because two passages are used.

The inspection door 840 of the lower check door 800b is installed at the distal end of the seawater inlet pipe 300 and the check cover 820 of the upper check door 800a By installing in the same direction, it is advantageous to install peripherals and to utilize space because the operator's path for maintenance can be installed only in one place.

The foregoing is a description of certain preferred embodiments of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, .

100: ultraviolet reactor
200: Body
210: inspection hole
300: Seawater inflow pipe
301: Extension
400: Seawater drainage pipe
500: ultraviolet lamp
510: Boss
520: connection structure
700: flow stabilization member
710, 720: Perforated plate
810: Flange
811: Entrance and exit
820: Cover for inspection
821: Fastener
830: Flange
831: Entrance and exit
840: Inspection door
850, 851: fastener

Claims (5)

A body 200 in the form of a quadrangular column having a lower end and an upper end opened in the longitudinal direction as a passage through which seawater flows;
A seawater inlet pipe 300 disposed in parallel with a width direction of the body 200 at a lower opening of the body 200 and configured to communicate with a lower opening of the body 200 and a side surface thereof;
A seawater outlet pipe 400 disposed at an upper opening of the body 200 in parallel with a width direction of the body 200 and configured to communicate with an upper opening of the body 200 and a side surface thereof;
A plurality of ultraviolet lamps (500) installed across an intermediate portion of the body (200);
And a flow stabilizing member (700) disposed across the lower opening portion of the body (200) to induce the seawater introduced into the seawater inlet pipe (300) to collide with the seawater to rise into the body (200)
The fluid stabilizing member 700 is formed to communicate with the outside of the side of the body 200 adjacent to the upper surface of the flow stabilizing member 700 to clean debris and foreign matter accumulated on the upper surface of the flow stabilizing member 700, And an opening 811 corresponding to the inspection hole 210. The outer surface of the outer surface of the inspection hole 210 and the outer surface of the body 200 around the inspection hole 210, And the flange 810 is detachably coupled to the flange 810 by a fastener 821 so as to seal the entrance 811 of the flange 810 and to separate the flange 810 in the cleaning operation and the replacement operation And an upper check door (800a) having a lid (820). delete The method according to claim 1,
An opening 831 is further formed by opening the distal end of the sea water inflow pipe 300 and a door 840 for opening and closing the entrance 831 is provided to normally open the door 831 through the door for inspection 840 And to perform the operation of cleaning debris and foreign matter accumulated on the bottom of the sea water inflow pipe 300 and the operation of replacing the flow stabilizing member 700 by moving downward from the flow stabilizing member 700, Further comprising a lower check door (800b) for opening the door (840). The method of claim 3,
The lower check door 800b is formed by forming a flange 830 extending in the entrance 831 at the end of the seawater inlet pipe 300 and separating the check door 840 from the flange 830 (850, 851) of the ultraviolet reactor. delete

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