KR101308426B1 - Ballast water sterilizer using UV - Google Patents

Abstract

The present invention relates to an apparatus for sterilizing ballast water using ultraviolet rays, and more particularly, a body having an inlet and an outlet portion through which the ballast water can flow in and out, and an ultraviolet sterilization unit located within the body to ultraviolet sterilize the ballast water. The ultraviolet sterilization unit includes a plurality of ultraviolet lamps that emit ultraviolet rays to the ballast water and are positioned at a predetermined interval from each other, and are disposed at a predetermined distance from the ultraviolet lamp and collide with ballast water that flows inside the body. By including a plurality of water flow converting member for converting the flow toward the adjacent UV lamp, ballast water that has flowed into the body but does not reach the ultraviolet sterilization region, hits the water flow converting member and the ultraviolet rays of the ultraviolet lamp adjacent to the water flow converting member Leads to a sterilization zone , It relates to a ballast water sterilizing apparatus using ultraviolet rays, but uses less ultraviolet lamps to maintain the efficiency of the sterilization of the ballast water.

Description

Ballast water sterilizer using ultraviolet light {Ballast water sterilizer using UV}

The present invention relates to an apparatus for sterilizing ballast water using ultraviolet rays, and more particularly, a body having an inlet and an outlet portion through which the ballast water can flow in and out, and an ultraviolet sterilization unit located within the body to ultraviolet sterilize the ballast water. The ultraviolet sterilization unit includes a plurality of ultraviolet lamps that emit ultraviolet rays to the ballast water and are positioned at a predetermined interval from each other, and are disposed at a predetermined distance from the ultraviolet lamp and collide with ballast water that flows inside the body. By including a plurality of water flow converting member for converting the flow toward the adjacent UV lamp, ballast water that has flowed into the body but does not reach the ultraviolet sterilization region, hits the water flow converting member and the ultraviolet rays of the ultraviolet lamp adjacent to the water flow converting member Leads to a sterilization zone , It relates to a ballast water sterilizing apparatus using ultraviolet rays, but uses less ultraviolet lamps to maintain the efficiency of the sterilization of the ballast water.

Ships operate with ballast water contained in tanks in the vessel to maintain balance when operating without loading, and the indigenous marine ecosystems may be affected by foreign marine species contained in the ballast water used for ships. Frequent incidents occur. Therefore, a treatment for killing the foreign marine species contained in the ballast water is required. Typically, a method by ultraviolet irradiation is widely used.

1 is a block diagram of a conventional UV ballast water treatment system, Figure 2 is a partial cutaway perspective view of a conventional ballast water sterilization apparatus, Figure 3 is a conventional ballast water sterilization apparatus in the direction AA line of Figure 2 4 is a cross-sectional view showing the ultraviolet sterilization process of the ballast water in the enlarged view of part B of FIG. 3, and FIG. 5 is a cross-sectional view of a conventional ballast water sterilization apparatus according to another embodiment. A ballast water treatment system according to the related art will be described with reference to FIGS. 1 to 5.

In the conventional ballast water treatment system, the ballast water is introduced into the ballast water sterilization device 12 by the intake pump 11, ultraviolet sterilized and discharged into the tank 13, and the entire system is controlled by the controller 14. 2 and 3, the conventional ultraviolet sterilizer 12 is a plurality of ultraviolet lamps radially disposed at regular intervals along the inside of the body 121 in parallel to the axial direction of the body 121 ( 122) and a sleeve tube 123 surrounding and protecting the ultraviolet lamp 122, ultraviolet-sterilizing the ballast water introduced through the inlet 121a, and sterilizing the ballast water through the outlet 121b. Discharge.

However, the intensity of the ultraviolet light emitted from the ultraviolet lamp 122 becomes weaker as it moves away from the ultraviolet lamp 122, so that the ultraviolet light emitted from the ultraviolet lamp 122 can sterilize the ballast water as shown in FIG. The area (C, hereinafter referred to as 'ultraviolet sterilization region') is limited, and thus, the region (D, hereinafter referred to as 'ultraviolet ray' between the adjacent ultraviolet lamps 122 that cannot sterilize the ballast water by ultraviolet rays). Non-sterile zone '). Part of the ballast water introduced into the body 121 passes through the non-ultraviolet sterilization area (D). In this case, the ballast water cannot have a sterilizing effect by ultraviolet rays, so that the sterilization efficiency of the entire ballast water is reduced. . In order to solve the above problems, it may be considered to closely arrange the UV lamp 122 'as shown in FIG. 5 so that there is no UV sterilization area D, but in this case, an additional UV lamp is required and a lot of power is required. The problem arises.

Therefore, there is an increasing need for a ballast water sterilization apparatus capable of increasing the sterilization efficiency of seawater while reducing the use of expensive ultraviolet lamps.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems,

It is an object of the present invention to provide a ballast water sterilization apparatus using ultraviolet rays which can effectively sterilize ballast water used in a ship.

In addition, the present invention includes a water flow converting member for hitting the ballast water flowing inside the body to convert the flow of the ballast water toward the adjacent UV lamp, it is possible to increase the sterilization efficiency of the ballast water even using a small number of UV lamps An object of the present invention is to provide a ballast water sterilization apparatus using ultraviolet rays.

In addition, the present invention is made of a transparent material of the water flow conversion member so as not to absorb or reflect the ultraviolet light emitted from the ultraviolet lamp, so that the intensity of the ultraviolet light emitted from the ultraviolet lamp does not change by the water flow conversion member The purpose is to provide a ballast water sterilization apparatus used.

In addition, an object of the present invention is to provide a ballast water sterilization apparatus using ultraviolet rays which can provide improved durability without affecting the ultraviolet rays emitted to the ultraviolet lamp by using a quartz tube as a water flow conversion member.

In addition, it is an object of the present invention to provide a ballast water sterilization apparatus using ultraviolet light that can be easily installed by increasing the compatibility of both the water flow conversion member and the sleeve tube quartz tube.

Ballast water sterilization apparatus using ultraviolet rays for achieving the above object of the present invention includes the following configuration.

According to an embodiment of the present invention, a ballast water sterilization apparatus using ultraviolet rays according to the present invention includes a body having an inlet and an outlet portion through which ballast water can flow in and out, and an ultraviolet sterilization unit positioned within the body to ultraviolet sterilize the ballast water. The ultraviolet sterilization unit includes a plurality of ultraviolet lamps that emit ultraviolet rays to the ballast water and are positioned at a predetermined interval from each other, and are disposed at a predetermined distance from the ultraviolet lamp and collide with ballast water that flows inside the body. By including a plurality of water flow converting member for converting the flow toward the adjacent UV lamp, ballast water that has flowed into the body but does not reach the ultraviolet sterilization region, hits the water flow converting member and the ultraviolet rays of the ultraviolet lamp adjacent to the water flow converting member Reaches the sterilization zone, It is characterized in that of keeping the sterilization efficiency of the ballast water, while using a UV lamp.

According to another embodiment of the present invention, in the ballast water sterilizing apparatus using ultraviolet rays according to the present invention, the water flow converting member is made of a transparent material, characterized in that it does not absorb or reflect the ultraviolet rays emitted from the ultraviolet lamp.

According to another embodiment of the present invention, in the ballast water sterilizing apparatus using ultraviolet rays according to the present invention, the water flow converting member is characterized in that a quartz tube is used.

According to another embodiment of the present invention, in the ballast water sterilizing apparatus using ultraviolet rays according to the present invention, the ultraviolet sterilizing unit further includes a sleeve tube surrounding and protecting the ultraviolet lamp, wherein the water flow converting member is a quartz tube. The sleeve tube is used, characterized in that the same quartz tube as the quartz tube of the water flow converting member is used.

According to another embodiment of the present invention, in the ballast water sterilizing apparatus using ultraviolet rays according to the present invention, the inlet and outlet are formed on the side of the body, the ultraviolet lamp is installed parallel to the axial direction of the body The water flow converting member is installed in parallel with the ultraviolet lamp at a predetermined interval.

The present invention can obtain the following effects by the above-described embodiment, the constitution described below, the combination, and the use relationship.

The present invention has the effect of efficiently sterilizing the ballast water used in the vessel.

In addition, the present invention includes a water flow converting member for hitting the ballast water flowing inside the body to convert the flow of the ballast water toward the adjacent UV lamp, it is possible to increase the sterilization efficiency of the ballast water even using a small number of UV lamps It works.

In addition, the present invention has an effect that the water flow conversion member is made of a transparent material so as not to absorb or reflect the ultraviolet light emitted from the ultraviolet lamp, so that the intensity of the ultraviolet light emitted from the ultraviolet lamp does not change by the water flow conversion member. have.

In addition, the present invention has the effect that can be used to provide improved durability without affecting the ultraviolet rays emitted to the ultraviolet lamp by using a quartz tube as a water flow conversion member.

In addition, the present invention has the effect that both the water flow converting member and the sleeve tube is used because the quartz tube is used to increase compatibility.

1 is a block diagram of a conventional UV ballast water treatment system.
Figure 2 is a partially cut perspective view of a conventional ballast water sterilization apparatus.
3 is a cross-sectional view of a conventional ballast water sterilizer cut in the direction AA of FIG.
4 is a reference diagram showing the ultraviolet sterilization process of the ballast water in an enlarged view of the portion B of FIG.
5 is a sectional view of a conventional ballast water sterilization apparatus according to another embodiment.
Figure 6 is a partially cut perspective view of the ballast water sterilization apparatus according to an embodiment of the present invention.
7 is a cross-sectional view of the ballast water sterilization apparatus according to an embodiment of the present invention in the direction AA line of FIG.
8 is a reference diagram showing an ultraviolet sterilization process of the ballast water in an enlarged view of portion C of FIG.
9 is a cross-sectional view of the ballast water sterilization apparatus according to an embodiment of the present invention in the direction BB of FIG.
10 is a cross-sectional view of the ballast water sterilization apparatus according to another embodiment of the present invention.

Hereinafter, a ballast water sterilization apparatus using ultraviolet rays according to the present invention will be described in detail with reference to the accompanying drawings. Unless defined otherwise, all terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs and, if conflict with the meaning of the terms used herein, It follows the definition used in the specification. Further, the detailed description of known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

6 is a partially cutaway perspective view of the ballast water sterilizing apparatus according to an embodiment of the present invention, Figure 7 is a cross-sectional view cut the ballast water sterilization apparatus according to an embodiment of the present invention in the direction AA line of Figure 6, 8 is a reference view showing the ultraviolet sterilization process of the ballast water in the enlarged view of the portion C of Figure 7, Figure 9 is a cross-sectional view of the ballast water sterilization apparatus according to an embodiment of the present invention in the direction of BB of FIG. 10 is a cross-sectional view of a ballast water sterilizer according to another embodiment of the present invention.

6 to 9, the ballast water sterilization apparatus using ultraviolet rays according to an embodiment of the present invention is a body (2), ultraviolet sterilization unit (3), cap (4), buffer support (5), washing unit (6) ), Etc. are included.

The body 2 is a part constituting the body of the ballast water sterilization apparatus, preferably formed in a cylindrical shape having a predetermined top and bottom open, the inlet portion 21 and the ultraviolet sterilization treatment in which the ballast water flows into the side And an outlet portion 22 through which the ballast water flows, and the upper and lower portions of the body cover 23 are detachably coupled to the body 2 by screwing or the like. The inlet part 21 and the outlet part 22 formed on the side of the body 2 allows the ballast water introduced into the body 2 to pass through the ultraviolet sterilization part 3 vertically to increase sterilization efficiency. To increase.

The body cover 23 is a part covering the upper side and the lower side of the body 2, respectively, is detachably coupled to the body 2 by screwing, etc., the body cover 23 to the body cover 23 Without opening, the through-hole 231 is formed so that the sleeve tube 32 and the water flow conversion member 33 into which the ultraviolet lamp 31 is inserted can be easily inserted into and removed from the body 2 without being opened. The through hole 231 is preferably formed corresponding to the number of the sleeve tube 32 and the water flow conversion member (33). The through hole 231 is fitted with a cap 4 to be described later to be covered.

The ultraviolet sterilization unit 3 is a portion for sterilizing by irradiating ultraviolet rays to the ballast water flowing through the body 2, the plurality of ultraviolet lamps 31 which emits ultraviolet rays to the ballast water and are positioned at a predetermined interval from each other. And a sleeve tube 32 surrounding the ultraviolet ray lamp 31 to protect the ultraviolet ray lamp 31 and a ballast water which is positioned at a predetermined distance from the ultraviolet ray lamp 31 and flows inside the body 2. And a plurality of water flow converting members 33 which collide with and convert the flow of ballast water toward the adjacent ultraviolet lamp 31.

The ultraviolet lamp 31 emits ultraviolet rays and is located inside the body 2 in a rod or rod shape, preferably in a cylindrical shape parallel to the axial direction of the body 2. A plurality of radially arranged at regular intervals along the inside, so that the ballast water flowing through the inlet 21 and outlet 22 passes vertically between the ultraviolet lamp 31.

The sleeve tube 32 is configured to protect the ultraviolet ray lamp 31 by surrounding the ultraviolet ray lamp 31, and when the foreign matter adheres to the surface, the intensity of ultraviolet rays emitted is lowered. The surface of is to be washed by the washing unit 6 to be described later. The sleeve tube 32 may be a tube made of various materials, but it is preferable that a quartz tube having excellent durability and minimizing absorption and reflection of ultraviolet rays may be used.

The water flow conversion member 33 is provided with a plurality of parallel to the ultraviolet lamp 31 at a predetermined interval from the ultraviolet lamp 31, the ballast water flowing through the interior of the body 2, the flow of ballast water Is converted to the adjacent UV lamp 31. The water flow converting member 33 may be made of a transparent material that does not absorb or reflect ultraviolet rays emitted from the ultraviolet lamp 31, but preferably a quartz tube is used, and more preferably, the sleeve tube 32 The same quartz tube as the quartz tube used in the above is used. In the ultraviolet sterilization unit 3 shown in FIG. 7, six ultraviolet lamps 31 covered with a sleeve tube 32 are radially disposed in parallel to the axial direction of the body 2, and the water flow converting member 33 4. The dog is disposed in parallel to the ultraviolet lamp 31 inwardly than the ultraviolet lamp 31, which is just one example, and the ultraviolet lamp 31 'covered with the sleeve tube 32' as shown in FIG. The water flow conversion member 33 ′ may be arranged, and the number and arrangement of the ultraviolet light lamp and the water flow conversion member may be modified in a range capable of increasing the sterilization efficiency of the ballast water while reducing the use of the ultraviolet lamp.

Hereinafter, a method of connecting the ultraviolet sterilization unit 3 including the above configuration into the body 2 and the principle of sterilizing the ballast water introduced into the body 2 using the ultraviolet sterilization unit 3 will be described. This will be described with reference to FIGS. 6 to 8.

Looking at the method of connecting the ultraviolet sterilization unit 3 in the body 2, the open upper and lower surfaces of the body 2 is closed by the body cover 23, respectively, flowing inside the body 2 A space for temporarily accommodating ballast water (S, hereinafter referred to as 'ballast water accommodating space') is formed, and the sleeve tube 32 into which the ultraviolet lamp 31 is inserted is a cap 4 to be described later. Is inserted into the one end is connected to the body cover (23a) located on the upper side and the other end is connected to the body cover (23b) located on the lower side, the water flow conversion member 33 is inserted into the cap (4) It is connected to the body cover (23a) located on the upper side and the other end is coupled to the body cover (23b) located on the lower side, the UV lamp 31 and the water flow conversion member 33 is covered with the sleeve tube 32 is one end It is connected to the upper surface of the ballast receiving space (S) and the other end of the ballast water receiving space (S) ) Will be connected to the lower surface.

Looking at the principle of sterilizing the ballast water by using the ultraviolet sterilization unit 3, the ballast water introduced through the inlet 21 is passed to the ultraviolet lamp 31 while passing between the sleeve tube (32) It is sterilized by ultraviolet rays emitted by the ultraviolet rays, and there is a limit in the region (E, hereinafter referred to as 'ultraviolet ray sterilization region') in which ultraviolet rays emitted from the ultraviolet lamp 31 can sterilize the ballast water. As described above, an area (F, hereinafter referred to as an 'ultraviolet non-sterile area') in which the ballast water cannot be sterilized by ultraviolet rays is formed between the adjacent sleeve pipes 32a and 32b. A portion of the ballast water flowing inside passes through the ultraviolet non-sterile region (F). The water flow conversion member 33a is positioned at the rear side of the ultraviolet non-sterile area at adjacent intervals in the sleeve tubes 32a and 32b, respectively, and the number of ballasts that have been sterilized by passing through the ultraviolet non-sterile area F. After hitting the side surface of the water flow converting member 33a, the flow reaches the ultraviolet sterilization area E and is sterilized, and then is discharged through the discharge part 22.

The ultraviolet sterilizer 3 having the above configuration has a sleeve tube 32a adjacent to the water flow converting member 33 by which the ballast water, which has flowed into the body 2 but has not passed the ultraviolet sterilization region E, is not passed. , The flow is converted into the ultraviolet sterilization area E toward 32b), so that the sterilization efficiency of the ballast water can be increased while using a small ultraviolet lamp.

The cap 4 covers the through hole 231 and is configured to receive and fix one end of the sleeve tube 32 or the water flow conversion member 33, and is separated from the body cover 23 by screwing or the like. Combine as much as possible. The cap 41 has a predetermined shape, preferably has a cylindrical shape with an open upper surface, and a support jaw 411 protruding along the inner circumferential surface is formed below the inner surface. A watertight member 42 is installed between the outer surface of the cap 4 and the inner surface of the through hole 231, and the watertight buffer member between the inner surface of the cap 4 and the inner surface of the sleeve tube 32. 43 is installed, and a buffer member 44 is installed between the upper surface of the sleeve tube 32 and the lower surface of the support jaw 41, so that the cap 4 and the sleeve tube can be effectively sealed while absorbing shock. (32) can be coupled to the body (2). The watertight member 42, the buffer watertight member 43 and the buffer member 44 may be used, for example, O-ring. 9 shows only a state in which the sleeve tube 32 is inserted into the cap 4 and coupled to the body 2, but a quartz tube such as the sleeve tube 33 is used for the water flow conversion member 33. Therefore, the water flow converting member 33 is also accommodated in the cap 4 in the same manner as the sleeve tube 32 is coupled to the body (2).

The buffer support part 5 is positioned in the sleeve tube 32 to support the ultraviolet lamp 31 and to prevent the ultraviolet lamp 31 from colliding with the sleeve tube 32. ), A buffer member 52, and an elastic member 53.

The support body 51 is configured to receive the ultraviolet lamp 31 in the sleeve tube 32 to support the ultraviolet lamp 31, and preferably have a cylindrical shape having a penetrated hollow. Has

The buffer member 52 is positioned between the inner surface of the sleeve tube 32 and the outer surface of the support body 51 to firmly fix the support body 51 to the sleeve tube 32 and to support the body. Absorbs the left and right vibrations of (51).

The elastic member 53 is positioned between the upper surface of the support body 51 and the lower surface of the cap 4 to press the end of the support body 51 to absorb up and down vibration of the support body 51. As an example, an elastic spring or the like can be used.

The cleaning unit 6 is a portion for removing foreign matter attached to the surface of the sleeve tube 32, the wiper 61 attached to the outer circumferential surface of the sleeve tube 32 and the wiper 61 to connect And a driving unit 63 connected to the driving shaft 62 to operate the driving shaft 62.

The wiper 61 is a portion for removing foreign matter attached to the outer circumferential surface of the sleeve tube 32, and preferably may be formed in an annular shape surrounding the entire outer circumferential surface of the sleeve tube 32. Synthetic resin or synthetic rubber may be utilized, and when the sleeve tube 32 is present in plural, the wiper 61 is also present in plural and in this case, each wiper 61 is mutually connected through the arm 611. The arm 611 may be connected to the driving shaft 62.

The drive shaft 62 is connected to the wiper 61 to move the wiper 61 so that the wiper 61 can remove the foreign matter attached to the outer peripheral surface of the sleeve tube (32). The inner center of the body 2 may be disposed parallel to the axial direction of the body 2 and the outer peripheral surface thereof may be formed in the form of a thread. One end of the drive shaft 62 is connected to the drive unit 63.

The drive unit 63 is connected to one end of the drive shaft 62 to provide a power for operating the drive shaft 62 and the wiper 61 may be used a motor generally used. Although not shown, the water flow conversion member may be fitted with a wiper and connected to the drive shaft by an arm.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Should be interpreted as falling within the scope of.

2: body 3: UV sterilizer 4: cap
5: buffer support 6: washing 21: inlet
22: outlet 23: body cover 31: UV lamp
32: sleeve tube 33: water flow converting member 41: support jaw
42: watertight member 43: watertight buffer member 44: buffer member
51: support body 52: buffer member 53: elastic member
61 wiper 62 drive shaft 63 drive unit
231: through-hole 611: cancer

Claims (5)

In the ballast water sterilizer for sterilizing the ballast water using ultraviolet rays,
The ballast water sterilizer includes a body having an inlet and an outlet through which the ballast water can flow in and out; An ultraviolet sterilization unit positioned in the body to emit ultraviolet rays to the ballast water and having a plurality of ultraviolet lamps positioned at predetermined intervals from each other; An ultraviolet sterilization region which is an area in the body capable of sterilizing ballast water by ultraviolet rays emitted from the ultraviolet lamp; It is located between the adjacent ultraviolet lamps, the ultraviolet non-sterile area that is an area in the body that can not sterilize the ballast water by the ultraviolet light emitted from the ultraviolet lamp;
The ultraviolet sterilization unit is positioned at a predetermined distance from the ultraviolet lamp, and hits the ballast water flowing inside the body to convert the flow of ballast water of the non-ultraviolet sterilization zone into a plurality of ultraviolet sterilization zones of the adjacent ultraviolet lamp. A water flow converting member, wherein the water flow converting member is made of a transparent material so as not to absorb or reflect the ultraviolet light emitted from the ultraviolet lamp,
The ballast water, which flows into the body but does not reach the ultraviolet sterilization zone, reaches the ultraviolet sterilization zone of the ultraviolet lamp adjacent to the water flow converting member by the water flow converting member, thereby maintaining the sterilization efficiency of the ballast water while using a small amount of ultraviolet lamps. Ballast water sterilization apparatus using ultraviolet light, characterized in that it can be. delete The method of claim 1, wherein the water flow conversion member
Ballast water sterilization apparatus using ultraviolet light, characterized in that the quartz tube is used. The method of claim 1,
The ultraviolet sterilization unit further includes a sleeve tube surrounding and protecting the ultraviolet lamp,
The water flow converting member is a quartz tube,
The sleeve tube is a ballast water sterilizing apparatus using ultraviolet rays, characterized in that the same quartz tube as the quartz tube of the water flow conversion member is used. The method of claim 1,
The inlet and outlet are formed on the side of the body,
The ultraviolet lamp is installed parallel to the axial direction of the body,
The water flow conversion member is a ballast water sterilization apparatus using ultraviolet light, characterized in that installed in parallel with the ultraviolet lamp at a predetermined interval.

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