KR101952333B1 - Counteragent supplying apparatus - Google Patents

Abstract

The present invention relates to a counteragent supplying apparatus including: a main body in which a receiving unit is provided on an upper side and a discharging unit is provided on a lower side; a plate type heater installed on the receiving unit in a lateral direction and having a plurality of penetrating holes spaced at regular intervals; and a partition wall slopingly extended upward from one side of the bottom of the main body toward the other side at a predetermined angle and discharged into the discharging unit after the liquid counteragent dissolved by the plate type heater and inserted into the inside of the main body through the penetrating hole stays therein for a predetermined time. Therefore, the apparatus is easy to handle, can feed a fixed amount of the counteragent, and does not require additional crushing and mixing means.

Description

Counteragent supplying apparatus

The present invention relates to a neutralizer feeder of a marine ballast water treatment system.

Ship ballast water is the water to be filled in the vessel to maintain the equilibrium of the vessel when the vessel cargo is unloaded and the vessel ballast water is taken in the storage tank without loading the cargo in a certain area, The ballast water is discharged from the ballast water storage tank according to the progress of the loading, and drains the ballast water to an area having a completely different ecological environment than the ordinary ballast water storage tank. At this time, there is a concern that marine life in a certain area contained in the ballast water to be taken may be moved to another area and exposed to a new environment, and the marine ecosystem is destroyed due to the introduction of alien species into the native species, And it is also implicated in human harmfulness by various pathogenic bacteria.

For this reason, the International Maritime Organization (IMO) in 2004 established a convention on the management of ship ballast water and sediment in ships to prevent destruction and pollution of ecosystems. In September 2017, the Convention on Ballast Water Management And from September 2019, after a two-year grace period, vessel ballast water treatment systems must be mandatory for all vessels.

In general, the ship ballast water treatment system uses an oxidant to kill the microorganisms contained in the ballast water and to neutralize the concentration of the oxidant in accordance with the legislation and regulations.

For such a neutralization treatment, Korean Patent Registration No. 10-1199911 discloses an apparatus and a method for producing a neutralized liquid capable of neutralizing residual chlorine in ballast water by mixing and mixing a neutralizing agent and water in an inline mixer.

Such a neutralizer should be handled with care because it may cause safety problems due to skin contact or inhalation with a worker when the worker directly supplies it to the neutralizer storage tank. For example, a worker must open a neutralizing agent bag containing a neutralizing agent in a solid state, and then supply the neutralizing agent to the storage tank. In this process, the operator is in contact with the neutralizing agent or inhaling the neutralizing agent powder.

In the conventional ballast water treatment system, a neutralizer is mixed with water to supply a fixed amount in the case of a solid or powdered neutralizer. However, in this case, the concentration of the neutralizer is changed according to the change of saturation according to temperature, It was difficult. Moreover, the conventional neutralizer feeder additionally required crushing and mixing means to crush and mix the neutralizer.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a neutralizing agent supply device that is easy to handle and can supply a fixed amount and does not require additional crushing and mixing means.

According to an aspect of the present invention, there is provided an electronic apparatus comprising: a main body having an inlet portion on an upper side and a discharge portion on a lower side; A plate-like heater disposed laterally on the inflow portion side and having a plurality of through holes spaced apart from each other by a predetermined distance; And a liquid neutralizing agent which is dissolved by the plate heater and flows into the main body through the through-hole, for a predetermined period of time, A neutralizing agent supply device including a partition wall for discharging the neutralizing agent is disclosed.

Preferably, the apparatus further includes a plurality of vertical protrusions extending upward from the plate-shaped heater to tear the neutralizer bag to place a neutralizing agent in a solid or powder state on the plate-shaped heater.

More preferably, the apparatus further includes a bushing installed at an upper side of the end portion of the partition wall at a lower portion of the plate-shaped heater and preventing the neutralizing agent passing through the through-hole of the plate-shaped heater from being discharged directly to the discharge portion without passing through the partition .

Further, the plurality of vertical protrusions and the plurality of through holes are alternately arranged.

Here, the vertical protruding portion is formed by cutting the end portion thereof and includes a heater or a plate-shaped heater.

The through hole may be formed by partially cutting the plate heater, and the vertical protrusion may be formed by vertically bending a portion cut through the through hole, Followed by post-heat treatment.

Preferably, a heater for further dissolving a neutralizing agent is installed in the space between the partition or the partition and the main body.

The present invention is also characterized in that a plate-shaped heater is provided on the inflow portion side in a lateral direction and has a plurality of through holes spaced apart from each other at a predetermined interval; And a plurality of vertical protrusions extending upward from the plate-shaped heater, the plurality of vertical protrusions being adapted to tear the neutralizing agent bag to place a neutralizing agent in a solid or powder state on the plate-shaped heater.

Preferably, the liquid neutralizer, which is upwardly extended from one side of the bottom surface of the main body toward the other side by a predetermined angle, is dissolved by the plate type heater and flows into the main body through the through holes, And a partition wall which is discharged to the discharge portion side.

The neutralizing agent supply means may further comprise a neutralizing agent supply means for supplying the neutralizing agent supply means to the inlet portion of the main body, wherein the neutralizing agent supply means includes a vertical movement means including a laminating plate for stacking the neutralizing agent bags and a driving portion for pushing up the laminating plate upward Instrument; And a horizontal moving mechanism including a pressure plate which is installed at the same height as the inflow portion and pushes the neutralization agent bag stacked on the lamination plate toward the inflow portion side and a driving portion which pushes the pressure plate in the horizontal direction.

Preferably, the plate heater has a sidewall extending a predetermined length upward from an opposite end of the pressure plate, the sidewall having a plurality of horizontal protrusions extending in the horizontal direction toward the pressure plate, Is characterized in that the end portion is formed to be sharp and is integrally formed with the plate heater or the heater.

Preferably, the pressure plate of the horizontal movement mechanism includes clamping means for fixing and releasing the neutralization agent bag.

The neutralizing agent supply device according to the present invention does not need to carry or unseal the neutralization agent bag directly by the operator, so that the handling is easy and the safety of the operator can be ensured.

Further, since the neutralizing agent is dissolved by the plate heater, it is not necessary to mix the neutralizing agent with water, and it is easy to supply the neutralizing agent in a fixed amount, and it is not necessary to provide the milling and mixing means for mixing the neutralizing agent.

Further, the liquid neutralizing agent dissolved by the plate heater can be discharged to the discharging portion side of the main body after staying for a predetermined time by the partition, and even if the neutralizing agent flows into the main body without being completely dissolved by the plate- Can be further completely dissolved in the space between the partition wall and the inner wall of the body.

1 is a side view schematically showing a neutralizing agent supply apparatus according to a first embodiment of the present invention,
Fig. 2 is a plan view schematically showing a plate heater of the neutralizer supply apparatus of Fig. 1,
FIG. 3 is a partial perspective view schematically showing an example of a vertical protrusion and a through hole of the plate heater of the neutralizer supply device of FIG. 1;
4 is a side view schematically showing a neutralizing agent supply apparatus according to a second embodiment of the present invention;

Hereinafter, preferred embodiments of a neutralizing agent supply apparatus according to the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, it is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the technical scope of the present invention. Will be.

Referring to FIG. 1, the neutralizer supply apparatus according to the first embodiment of the present invention includes a main body 100 for dissolving a neutralizing agent and supplying a dissolved neutralizing agent to a marine equilibrium water pipe 10, A plate heater 200 for dissolving a neutralizer in a solid or powder state injected into a liquid phase and a partition 300 for supplying the dissolved neutralizer to the ship ballast water pipe 10 after a predetermined residence time .

The main body 100 has an inlet 110 through which the neutralizing agent bag 20 can be inserted and an outlet 120 through which the neutralizing agent can be discharged. The inlet 110 has a size such that the neutralizing agent bag 20 containing the neutralizing agent in a solid or powder state can be put in a state of lying in the horizontal direction. The discharge unit 120 is connected to the ship ballast water pipe 10 that has been subjected to the death process, that is, discharges the ship ballast water containing the oxidant to the outside of the ship.

The plate heater 200 is installed laterally on the inlet 110 side of the main body 100. Accordingly, the neutralizing agent bag 20 injected into the inlet 110 can be horizontally mounted on the plate-shaped heater 200. The neutralizing agent bag 20 placed on the plate heater 200 is heated by the plate heater 200 over time and accordingly the neutralizing agent in the solid or powder state contained in the neutralizing agent bag 20 is in a liquid state Lt; / RTI > Here, it is preferable that the neutralizing agent bag 20 is made of a material in which the heated liquid neutralizing agent can be discharged outside the bag. In addition, the plate heater 200 has a plurality of through holes 210 (see FIG. The through holes 210 serve to pass a neutralizing agent dissolved in a liquid state to a lower portion of the main body 100.

The partition wall 300 extends from one side of the bottom surface of the main body 100 toward the other side of the main body 100 at a predetermined angle. The upper end of the partition wall 300 and the inner wall of the main body 100 are spaced apart from each other by a predetermined distance so that the dissolved neutralizing agent can move to the discharge portion 120 under the main body 100. The partition wall 300 dissolves on the plate type heater 200 and a liquid neutralizing agent is added to the predetermined retention space A formed between the partition wall 300 and the inner wall of the main body 100 through the through hole 210 And may have a predetermined residence time until the neutralization agent is filled up to the upper end of the partition wall 300.

As described above, even if the neutralizing agent bag 20 is seated on the plate-shaped heater in the unsealed state, the neutralizing agent supply apparatus according to the first embodiment of the present invention can dissolve the neutralizing agent in the solid or powder state by the plate- There is no risk of the operator coming into direct contact with the neutralizing agent or inhaling the neutralizing agent.

Further, since the neutralizing agent is dissolved by the plate heater 200, there is no need to mix the neutralizing agent with water, and it is easy to supply the neutralizing agent in a fixed amount, and it is not necessary to provide a crushing and mixing means for mixing the neutralizing agent.

The liquid neutralizing agent dissolved by the plate heater 200 can be discharged to the discharging portion 120 side of the main body 100 after staying in the holding space A for a predetermined time by the partition wall 300, Even if it is completely dissolved by the plate-shaped heater 200 on the inlet 110 side and is introduced into the main body 100, it is further dissolved in the retention space A between the partition wall 300 and the inner wall of the main body 100, The neutralizing agent can be completely dissolved.

Preferably, the partition 300 may be a plate heater. Alternatively, a heater (not shown) may be installed in the retention space A between the partition wall 300 and the inner wall of the main body 100. With this additional configuration, the neutralizing agent contained in the retention space A can be further dissolved for a predetermined period of time and completely dissolved in the liquid neutralizing agent.

The neutralizing agent supply device according to the first embodiment of the present invention is a device for supplying a neutralizing agent to the plate heater 200 of the inflow section 110, And includes vertical protrusions 220. The vertical protrusions 220 extend upward from the plate heater 200 by a predetermined length and serve to tear and open the neutralizer bag 20 inserted into the plate heater 200.

The neutralizer bottle 20 inserted into the plate heater 200 is easily opened by the vertical protrusions 220. The neutralizer in the solid or powder state is dissolved in the plate heater 200 and then the through holes 210 are formed. (A) of the lower portion of the main body (100).

Therefore, the operator does not need to directly open the neutralizing agent bag 20, and safety of the operator can be ensured.

In addition, the neutralizing agent supply apparatus according to the first embodiment of the present invention is configured such that the neutralizing agent dissolved by the plate heater 200 does not flow into the retention space A on the partition wall 300, To be discharged directly to the water pipe (10). Specifically, a bushing 400 having a predetermined width is provided at a lower portion of one side of the plate-shaped heater 200, more precisely at the upper side of the end of the partition 300. The bushing 400 blocks the gap between the upper end of the partition 300 and the inner wall of the main body 100 so that the liquid neutralizing agent that has passed through the through hole 210 of the plate heater 200 flows into the retention space A .

Referring to FIG. 2, a plurality of vertical protrusions 220 and a plurality of through holes 210 provided in the plate-shaped heater 200 may be alternately arranged. Alternatively, the vertical protrusions 220 and the through holes 210 may be alternately arranged in a row.

Preferably, the vertical protrusions 220 can be sharpened at their ends so that the neutralizing agent bag 20 is torn well. For example, the vertical protrusions 220 may have sharp and sharp features such as a blade. Further, in order to more effectively dissolve the neutralizing agent, the vertical protrusions 220 may include a heater or a plate-shaped heater.

Referring to FIG. 3, the vertical protrusions 220 may be integrally formed with the plate-shaped heater 200. The through holes 210 may be formed by cutting the plate heater 200 partially. At this time, the vertical protrusion 220 can be manufactured by bending a portion cut through the through hole 210 in the vertical direction and then performing heat treatment.

Referring to FIG. 4, the neutralizer feeder according to the second embodiment of the present invention further comprises a neutralizer feeder for feeding the neutralizer 20 to the inlet 110 of the main body 100. The neutralizing agent feeding means includes a vertical moving mechanism for moving the neutralizing agent bag 20 in the vertical direction and a horizontal moving mechanism for moving the neutralizing agent feeding bin 20 in the horizontal direction.

The vertical movement mechanism 500 includes a laminating plate 510 on which the neutralizing agent bags 20 can be stacked and a driving unit (not shown) for pushing up the laminating plate 510 upward. The laminating plate 510 is installed to be movable in a vertical direction from one side of the main body 100. The driving unit is configured such that the neutralizing agent bag positioned at the uppermost one of the neutralizing agent turrets 20 stacked on the laminate plate 510 is moved toward the inlet 110 side So that the laminated plate 510 is raised substantially on the same plane as the plate heater 200 so that the plate can be moved horizontally.

Here, the driving unit may be a driving motor that allows the laminate plate 510 to vertically move like a piston. In addition, the driving unit may be constituted by a spring for pushing up the laminate plate 510 upward.

The horizontal movement mechanism includes a pressure plate 610 for pushing the neutralizer bag 20 stacked on the laminate plate 510 onto the plate heater 200 on the inlet 110 side and a driving unit for pushing the pressure plate 610 in the horizontal direction (Not shown). The pressurizing plate 610 is installed at substantially the same height as the inlet 110 and pushes the neutralizing agent turret positioned at the uppermost one of the neutralizing agent turrets 20 stacked on the laminate plate 510 toward the inlet 110, ) So that the neutralization agent bag 20 is positioned. The driving unit may be a driving motor that reciprocates the pressure plate 610 in the horizontal direction.

Preferably, the plate heater 200 has a sidewall 230 extending upward by a predetermined length at substantially the same height as the height of one end of the neutralization agent bag 20. The side wall 230 is formed by extending a predetermined length upward from the end of the plate heater 200, which is located far away from the pressure plate 610, that is, on the opposite side of the pressure plate 610. The side wall 230 has a plurality of horizontal protrusions 240 extending in the horizontal direction toward the pressure plate 610. The horizontal protrusion 240 may be formed as a sharp end portion and may have a built-in heater or may be integrally formed with the plate-shaped heater 200, as in the case of the vertical protrusion 220 described above.

Therefore, when the neutralizing agent bag 20 is supplied to the inflow portion 110 side by the pressure plate 610 of the neutralizing agent supply means, the lateral side of the neutralizing agent bag 20 is easily torn by the horizontal direction protrusions 240 . Although not shown in FIG. 4 for the sake of explanation, the plate-shaped heater 200 is also provided with the vertical protrusions 220 described above, so that the neutralizing agent bag 20 can be easily opened. At this time, it is preferable that the vertical protrusions 220 are formed in the shape of a sharp blade toward the pressing plate 610.

On the other hand, the pressure plate 610 of the horizontal movement mechanism may include clamping means (not shown) for fixing and releasing the neutralizing agent bag 20. The clamping means serves to grasp the empty neutralizing agent bag and remove it from the main body 100 after a certain period of time has elapsed since the neutralizing agent bag was placed on the plate heater 200.

As described above, the neutralizing agent supply apparatus according to the present invention does not require the user to directly move the neutralizing agent turntable or open the neutralizing agent turntable, thereby facilitating handling and securing the safety of the operator.

The embodiments of the present invention described above are merely illustrative of the technical idea of the present invention, and the scope of protection of the present invention should be interpreted according to the claims. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It should be interpreted that it is included in the scope of right.

Claims (12)

A main body having an inlet portion on an upper side and a discharge portion on a lower side;
A plate-like heater disposed laterally on the inflow portion side and having a plurality of through holes spaced apart from each other by a predetermined distance;
A liquid neutralizing agent which is dissolved by the plate heater and flows into the main body through the through hole, is discharged to the discharge portion side after the liquid neutralizing agent has stayed for a predetermined time, ; And
And a plurality of vertical protrusions extending upward from the plate type heater to tear the neutralizing agent cell to cause a neutralizing agent in a solid or powder state to be placed on the plate type heater.
The method according to claim 1,
And a barrier to prevent the neutralizing agent that has passed through the through hole of the plate heater from being discharged directly to the discharge section without passing through the partition wall. Neutralizer feeder.
The method according to claim 1,
Wherein the plurality of vertical protrusions and the plurality of through holes are arranged alternately with each other.
The method of claim 3,
Wherein the vertical protrusion is formed with a sharp edge and comprises a heater or a plate-like heater.
The method according to claim 1,
Wherein the plate heater is integrally formed with the vertical protrusion, the through hole is formed by partially cutting the plate heater, the vertical protrusion is formed by vertically bending a portion cut through the through hole, Wherein the neutralizing agent supply device comprises:
The method according to claim 1,
Wherein a heater for further dissolving a neutralizing agent is installed in the space between the partition or the partition and the main body.
A main body having an inlet portion on an upper side and a discharge portion on a lower side;
A plate-like heater disposed laterally on the inflow portion side and having a plurality of through holes spaced apart from each other by a predetermined distance; And
And a plurality of vertical protrusions extending upward from the plate-shaped heater to tear the neutralizing agent cell so that a neutralizing agent in a solid or powder state is placed on the plate-shaped heater.
8. The method of claim 1 or 7,
Further comprising a neutralizer tank supply means for supplying a neutralizer tank to the inlet portion of the main body,
A vertically moving mechanism including a laminating board on which the neutralizing napkins are stacked and a driver for pushing up the laminating board upward; And
And a horizontal movement mechanism including a pressure plate which is installed at the same height as the inflow portion and pushes the neutralization agent bag stacked on the lamination plate toward the inflow portion side and a driving portion which pushes the pressure plate in the horizontal direction, .
9. The method of claim 8,
Wherein the plate heater has a side wall extending a predetermined length upward at an opposite end of the pressure plate, the side wall having a plurality of horizontal protrusions extending in the horizontal direction toward the pressure plate, wherein the horizontal protrusions are sharp And the heater is integrally formed with the heater or the plate heater.
9. The method of claim 8,
Wherein the pressure plate of the horizontal movement mechanism includes clamping means for fixing and releasing the neutralizing agent bag. delete delete

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