KR20140095308A - Connection structure for joining togather with a pluality of UV reactors - Google Patents

Abstract

The present invention relates to an ultraviolet reactor for ultraviolet sterilization of ballast water in a ballast water treatment apparatus, and more particularly, to an ultraviolet reactor for ultraviolet sterilization of ballast water using a plurality of ultraviolet reactor connection structures . The ultraviolet reactor connection structure according to the present invention includes a hollow rectangular columnar body 200 having openings at both ends in the longitudinal direction thereof and a plurality of ultraviolet lamps 200 installed to penetrate across the width direction of the body 200, And a seawater inlet pipe 300 and a seawater outlet pipe 400 disposed at both longitudinal ends of the body 200 in the longitudinal direction and in parallel with the width direction of the body 200, And a plurality of ultraviolet reactors (100) including a plurality of ultraviolet reactors (100); The plurality of ultraviolet reactors 100 are disposed in parallel with each other in a state where the respective seawater inflow pipe 300 and the seawater outlet pipe 400 are parallel to each other; Connecting a longitudinally intermediate portion of a plurality of seawater inlet pipes (100) arranged in parallel to one central distributor pipe (600), connecting a seawater inlet conduit (650) to the central distributor pipe (600); The longitudinal middle portion of the plurality of sea water outflow pipes 400 arranged in parallel is connected to one central collecting pipe 700 and the sea water discharge pipe 750 is connected to the central collecting pipe 700.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ultraviolet reactor,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ultraviolet reactor for sterilizing ultraviolet (UV) water in a ballast water treatment apparatus of a ship. More specifically, the present invention relates to an ultraviolet And more particularly to a plurality of ultraviolet reactor connection structures for reducing the installation area.

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 ship is loaded full of cargo, the vessel's center of gravity is located below sea level even if the ballast tank is not filled with ballast water, so that the ship can safely navigate even if external force is applied. However, The ballast tanks are filled with ballast water so that a certain portion of the vessel can be positioned below the sea level.

As described above, the ballast water used for safe navigation of a ship has a problem in that it is used as a medium for propagating a creature or pathogen in a specific sea area to another sea area.

The ballast water filled in the ballast tank may contain various kinds of marine life and pathogens. Since the inflow and outflow of the ballast water occur 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, the ballast water treatment apparatus 1 is provided with a pretreatment filter 10 and an ultraviolet reactor 20, and is configured 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.

2 and 3 show an example of an ultraviolet reactor of a ballast water treatment apparatus developed by the present applicant, wherein Fig. 2 is a plan view and Fig. 3 is a front view.

2 and 3, the ultraviolet reactor 20 includes a hollow rectangular column-shaped body 30 provided as a passage through which sea water flows in the longitudinal direction, A seawater inflow pipe 40 and a seawater inflow pipe 45 connected to each other in a form extending in parallel to the longitudinal direction of the body 30 and a plurality of ultraviolet lamps 50 arranged to penetrate across the body 30, .

When the ultraviolet reactor 20 is installed horizontally with the ultraviolet reactor 20 having a cylindrical body, the ultraviolet reactor 20 can not be horizontally installed, And the ultraviolet lamp 50 is installed across the width direction of the body so that the ultraviolet lamp 50 is always installed horizontally as shown in the drawing, It is a form.

As shown in the drawing, the ultraviolet reactor 20 has a structure in which the width of the middle portion of the body 30 is wide to match the length of the ultraviolet lamp 50 across the sea, And the seawater inlet pipe 40 and the seawater outlet pipe 45 are arranged in parallel to each other in the longitudinal direction of the body 30 so as to be narrowed toward the inlet and outlet portions in order to fit into the discharge pipe passage 47, to be.

Because of this, it is necessary to further connect the curved pipes 42 and 46 for connection to the sea water introduction duct 43 and the sea water discharge duct 47, so that the construction is very complicated and difficult to manufacture and the height is too high, do.

When the plurality of ultraviolet reactors 20 are to be connected and used due to the increase of the seawater treatment capacity, the seawater inlet conduit 43 and the seawater outlet conduit 47 of each ultraviolet reactor 20 are returned to the common inflow conduit (Not shown) and a common discharge pipe (not shown). Therefore, the ultraviolet reactor and its connection structure should be complicatedly constituted by the bends 42 and 46, the sea water introduction duct 43, the sea water discharge duct 47, the common inflow duct and the common discharge duct, It takes up too much.

Korean Patent Publication No. 10-2008-0090098

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an ultraviolet reactor which can simplify the structure of the ultraviolet reactor and connect the ultraviolet reactor to the seawater pipe, And to provide a connection structure.

In order to achieve the above object, an ultraviolet reactor connection structure according to one aspect of the present invention includes: a hollow rectangular column-shaped body having both longitudinal ends open at both sides thereof; And a plurality of ultraviolet lamps having a seawater inflow tube and a seawater outflow tube which are clogged at both ends in the longitudinal direction and are disposed at both longitudinal ends of the body in a direction parallel to the width direction of the body, Arranging the plurality of ultraviolet reactors in parallel with each of the seawater inlet pipe and the seawater outlet pipe side-by-side in parallel with each other; Connecting a longitudinal middle part of a plurality of seawater inflow pipes arranged in parallel to one central distribution pipe and connecting a sea water introduction pipe to the central distribution pipe; A longitudinally middle portion of a plurality of sea water outflow pipes arranged in parallel is connected to one central collecting pipe and a sea water discharge pipe is connected to the central collecting pipe.

The ultraviolet reactor connection structure according to another aspect of the present invention includes: a hollow square column-shaped body having openings at both ends in the longitudinal direction; a plurality of ultraviolet lamps installed in such a manner as to penetrate across the width direction of the body; And a plurality of ultraviolet reactors having seawater inlet pipes and seawater outlet pipes disposed at both longitudinal end sides of the body in a direction parallel to the width direction of the body, Arranging the plurality of ultraviolet reactors in parallel with each of the seawater inlet pipe and the seawater outlet pipe side-by-side in parallel with each other; A central distribution pipe extending vertically toward a sea water inflow pipe or a sea water introduction pipe of a neighboring ultraviolet reactor is formed in the longitudinal middle portion of a plurality of sea water inflow pipes arranged in parallel, Wherein the connection flanges of the adjacent central distribution pipes are detachably coupled to each other and the connection flanges of the neighboring central distribution pipes are detachably coupled to the connection flanges of the sea water introduction pipe; A central collecting pipe extending vertically toward the sea water discharge pipe or the sea water discharge pipe of the neighboring ultraviolet reactor is formed in the longitudinal middle portion of the plurality of sea water discharge pipes arranged in parallel and connected to the axial end of each central collecting pipe And a connecting flange of the adjacent central collecting tubes is detachably coupled to the connecting flanges of the neighboring collecting collecting tubes.

In the ultraviolet reactor connection structure according to the present invention, the body of the ultraviolet reactor has a first body located in the longitudinal center, a second body on the sea water inflow tube side, and a third body on the sea water outflow tube side. In a divided form; The second body extending monolithically from the seawater inlet pipe and the third body extending monolithically from the seawater outlet pipe; It is preferable that the first body and the second body that face each other and the first body and the third body that face each other are detachably coupled by the connecting flange.

According to the ultraviolet reactor connection structure of the present invention, a plurality of ultraviolet reactors are arranged in parallel in a state that the bodies are arranged side by side in the width direction, and the neighboring seawater inflow pipes and the sea water outflow pipes are respectively connected to a central distribution pipe By providing a new structure connecting to the collecting pipe, the connection structure between ultraviolet reactors becomes very simple, the height is very low, the width is narrow and the installation space is small.

In addition, the above-described improved structure makes it possible to directly connect the seawater inlet pipe and the sea water discharge pipe to the axial ends of the central distributing pipe and the central collecting pipe, respectively, thereby simplifying the construction of the piping system of the ballast water treating apparatus.

1 is a block diagram of a general ballast water treatment apparatus.
2 is a front view showing an example of an ultraviolet reactor designed by the present applicant.
Figure 3 is a side view of Figure 2;
4 is a perspective view of a connection structure of an ultraviolet reactor according to an embodiment of the present invention.
5 is a front view of Fig.
6 is a plan view of Fig.
Fig. 7 is a front sectional view of Fig. 4. Fig.

4 to 7 are views showing an ultraviolet reactor according to an embodiment of the present invention.

4 through 7, the ultraviolet reactor 100 includes a body 200 provided as a passage through which seawater flows, and an ultraviolet reactor 200 for introducing seawater into the body 200 from a marine or ballast tank (not shown) And includes a seawater inflow pipe 300, a seawater discharge pipe 400 for discharging the seawater passing through the body 200, and an ultraviolet lamp 500 for sterilizing the seawater passing through the body 200 by irradiating ultraviolet rays do.

Specifically, the body 200 is formed in the form of a hollow rectangular column in which both end portions in the longitudinal direction are opened.

The seawater inflow pipe 300 and the seawater inflow pipe 400 are disposed at both ends in the longitudinal direction of the body 200 in a direction parallel to the width direction of the body 200.

In the present specification and claims, the 'longitudinal direction' of the body 200 is a direction in which sea water flows or a direction connecting the sea water inflow pipe 300 and the sea water outflow pipe 400, Is a direction parallel to the long side when the cross section of the passage is rectangular, and the direction " height direction " is the direction parallel to the short side when the cross section of the passage is rectangular. In the case where the cross section of the passage is a square, any pair of opposite sides of the two pairs of opposing sides is in the width direction, and the other pair of opposite sides in the vertical direction is the height direction.

According to one embodiment, the seawater inlet pipe 300 and the seawater outlet pipe 400 are disposed in parallel with the width direction of the body 200 for stabilizing the flow of seawater, while considering connecting multiple ultraviolet reactors.

The plurality of ultraviolet lamps (500) are disposed in such a manner as to penetrate the hollow square columnar body (200) across the width direction, and sterilize by irradiating ultraviolet rays to seawater flowing in the body (200). The ultraviolet lamp 500 has a cylindrical discharge tube, and a protective tube made of quartz tube or the like is wrapped around the discharge tube, and both ends of the tube are fixed to a boss formed on the body 200. In the drawing, a portion visible to the outside of the body 200 is a boss, and a discharge tube and an end portion of a protective tube are coupled to the inside of the boss.

A plurality of ultraviolet reactors (100) are connected in parallel with each other in a state in which the respective bodies (200) are arranged side by side in the width direction. In other words, the sea water inflow pipe 300 and the sea water outflow pipe 400 of a plurality of ultraviolet reactor 200 are arranged in parallel with each other.

The central portion of the respective ultraviolet reactor 100 in the longitudinal direction of the seawater inlet pipe 300 is connected to a central portion extending vertically toward the seawater inlet pipe 300 or the seawater inlet pipe 650 of the neighboring ultraviolet reactor 100, And a connecting flange (not shown) for connecting the central distribution pipe of the neighboring ultraviolet reactor or the flange 652 of the sea water introduction pipe 650 to the end of each central distribution pipe 600 602 are formed.

The connection flanges 602 and 602 of the central distribution pipes 600 and 600 of the neighboring ultraviolet reactors 100 and 100 and the connection flanges 602 and 602 of the central distribution pipe 600 adjacent to the sea- Is coupled to the flange 652 of the seawater inlet conduit 650 and the two butted two flanges are detachably joined together using fasteners such as bolt-nuts (not shown) do.

Therefore, the seawater introduced through the seawater introduction pipe 650 is distributed to the seawater inflow pipe 300 of each ultraviolet reactor 100 through one common inflow passage, that is, the central distributor pipe 600.

Similarly, a central collecting pipe 700 extending vertically toward the adjacent ultraviolet reactor 100 or toward the seawater discharge line 750 is provided in the longitudinal middle portion of each of the ultraviolet reactor 100, And a connecting flange 702 is formed at the end of each central collecting pipe 700 for connecting the central collecting pipe of the neighboring ultraviolet reactor or the flange 752 of the sea water discharging pipe 750.

The connecting flanges 702 of the central collecting tubes 700 adjacent to the seawater discharge line 750 and the connecting flanges 702 and 702 of the central collecting tubes 700 and 700 of the neighboring ultraviolet reactors 100 and 100, (Not shown), such as a bolt-nut, against the flange 752 of the sea water discharge line 750, or connected by welding as necessary.

Thus, the seawater that has passed through the body 200 of each ultraviolet reactor 100 escapes to the next seawater discharge line 750, which is collected in one common discharge passage called the central collecting line 700.

The central distribution pipe 600 and the open end portions of the central collecting pipe 700 are formed opposite to each other so that the sea water introduction pipe 650 and the sea water discharge pipe passage 750 are disposed in opposite directions However, the direction may be provided in the same direction or in the opposite direction depending on the structure of the ship or the piping design.

As described above, according to the present invention, the body 200 is formed into a hollow rectangular column shape, and a plurality of the sea water inflow pipe 300 and the sea water outflow pipe 400 are arranged side by side in the width direction of the body 200 The ultraviolet reactor 100 may be disposed in parallel with the body 200 in parallel with each other in the width direction so that the adjacent ultraviolet reactors 100 are connected to the neighboring sea inflow pipes 300 and the sea water outflow pipe 400 are connected to each other through a central distribution pipe 600 and a central collecting pipe 700 which are common passages, the connection structure between ultraviolet reactors is very simple as shown in FIG. 5, and the height is very low and the width is narrow And takes up a small space (compare FIGS. 2 and 3).

Since the seawater inlet conduit 650 and the seawater outlet conduit 750 can be directly connected to the ends of the central distribution pipe 600 and the central collecting pipe 700 in the axial direction by the above structure, The piping system of the present invention can be simply constructed.

Although not shown in the drawing, a seal (not shown) such as a gasket (including a liquid gasket), a seal, or the like is provided between the facing connecting flanges 602 and 602 (602 and 652) Are coupled through a member.

Next, in one embodiment of the present invention, the body 200 of the ultraviolet reactor 100 is divided into three parts by a first body 210, a second body 220 and a third body 230 (Detachably) connected to each other.

In this case, the second body 220 is integrated with the sea water inflow pipe 300, and the third body 230 is integrated with the sea water outflow pipe 400.

By combining the sea water inflow pipe 300 and the central distributor pipe 600 and the sea water outlet pipe 400 and the central collecting pipe 700 separately and assembling the body 200 with the body 200, Separation becomes easy. In addition, since the body 200, the sea water inflow pipe 300 and the sea water outflow pipe 400 can be separated from each other after the installation, the internal cleaning, maintenance, and replacement operations can be performed more easily.

Connection flanges 211 and 221 are formed at opposite ends of the divided first body 210 and the second body 220 and the end faces of the divided first body 210 and third body 230, And the coupling flanges 212 and 231 are formed so that the coupling flanges 211 and 221 facing each other are coupled to each other in a detachable state by fasteners (not shown) such as bolts and nuts.

Of course, although not shown in the drawings, a sealing member such as a gasket (including a liquid gasket) or a seal is interposed between the facing coupling flanges 211 and 221 (212 and 231).

In the ultraviolet reactor 100 shown in the figure, a flow stabilizing member 350 is disposed across the inlet of the body 200, which is a portion into which seawater flows from the seawater inflow pipe 300.

The flow stabilizing member 350 is composed of, for example, a perforated plate, so that the seawater entering the seawater inlet pipe 300 first collides against the perforated plate and is then passed through the inside of the body 200 Thereby stabilizing the intense flow of seawater.

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: first body
211, 212, 221, 231, 602, 702, 652, 752:
300: Seawater inflow pipe
400: Seawater drainage pipe
500: ultraviolet lamp
600: Central distribution pipe
650: sea water introduction duct
700: central collecting tube
750: Sea water discharge pipe

Claims (3)

A plurality of ultraviolet lamps installed in a form to penetrate across the width direction of the body, both end portions in the longitudinal direction being clogged, and both longitudinal end portions of the body And a plurality of ultraviolet reactors including a seawater inlet pipe and a seawater outlet pipe arranged in a direction parallel to the width direction of the body, respectively;
Arranging the plurality of ultraviolet reactors in parallel with each of the seawater inlet pipe and the seawater outlet pipe side-by-side in parallel with each other;
Connecting a longitudinal middle part of a plurality of seawater inflow pipes arranged in parallel to one central distribution pipe and connecting a sea water introduction pipe to the central distribution pipe;
Wherein a longitudinal center portion of a plurality of seawater outlet pipes arranged in parallel is connected to one central collecting pipe and a seawater discharge pipe is connected to the central collecting pipe. A plurality of ultraviolet lamps installed in a form to penetrate across the width direction of the body, both end portions in the longitudinal direction being clogged, and both longitudinal end portions of the body And a plurality of ultraviolet reactors including a seawater inlet pipe and a seawater outlet pipe arranged in a direction parallel to the width direction of the body, respectively;
Arranging the plurality of ultraviolet reactors in parallel with each of the seawater inlet pipe and the seawater outlet pipe side-by-side in parallel with each other;
A central distribution pipe extending vertically toward a sea water inflow pipe or a sea water introduction pipe of a neighboring ultraviolet reactor is formed in the longitudinal middle portion of a plurality of sea water inflow pipes arranged in parallel, Wherein the connection flanges of the adjacent central distribution pipes are detachably coupled to each other and the connection flanges of the neighboring central distribution pipes are detachably coupled to the connection flanges of the sea water introduction pipe;
A central collecting pipe extending vertically toward the sea water discharge pipe or the sea water discharge pipe of the neighboring ultraviolet reactor is formed in the longitudinal middle portion of the plurality of sea water discharge pipes arranged in parallel and connected to the axial end of each central collecting pipe And a coupling flange of the adjacent central collecting tube is detachably coupled to the coupling flange of the adjacent central collecting tube by fitting the coupling flanges of the neighboring central collecting tubes in a detachable manner. . 3. The method according to claim 1 or 2,
The hollow quadrangular columnar body has a rectangular cross-
A first body located at the center in the longitudinal direction, a second body at the sea water inflow pipe side, and a third body at the sea water outflow pipe side,
The second body extending from the seawater inlet pipe to the first body, and the third body extending from the seawater outlet pipe into a single body,
Wherein the first body and the second body facing each other and the first body and the third body facing each other are detachably coupled to each other by connecting flanges thereof.

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