KR20160043238A - Direct-coupled seawater purify filter coupled to the seawater supply pipe of inland fish farm water tank - Google Patents

Abstract

The present invention relates to an apparatus for purifying seawater in a land-based aquaculture tank, and more particularly, to a seawater purification filter which is configured to couple with an end of a seawater inlet pipe of a land-based aquaculture tank, and in which copper ions are naturally eluted and purify seawater. The seawater purification filter is configured to comprise: a coupler, one side of which couples with a seawater inlet pipe that introduces seawater to a land-based aquaculture tank; a first screen which couples with the other side of the coupler and removes foreign materials contained in the seawater; a copper ion elution section which is located posterior to the first screen, and includes a honeycomb copper alloy block that provides a plurality of hexagonal seawater passages formed in parallel to the direction in which seawater is transported, so copper ions are naturally eluted by the seawater; and a second screen which couples with the posterior end of the copper ion elution section and further removes foreign materials contained in the seawater. The present invention provides a sea water purification method that is relatively convenient, economical, and effective, and has the advantage that copper ions can be eluted with a relatively low friction loss. The filter can be easily installed, dissembled, and cleaned by a manager for the land-based aquaculture tank, and is inexpensive to transport and can be easily expanded to accommodate and treat a larger amount of seawater.

Description

[0001] The present invention relates to a direct-coupled seawater purifier filter coupled to a seawater supply pipe of an aquaculture tank,

The present invention relates to a device for purifying seawater to be supplied to an aquaculture tank, and more particularly to a seawater purifying filter for purifying seawater by spontaneously discharging copper ions and binding to the end of a seawater supply pipe of an aquaculture tank.

While the aquaculture has the advantage of being less vulnerable to external influences than the marine caged aquaculture, it has a high mortality rate due to various bacteria.

In the case of fry, the mortality rate is about 40 ~ 50% due to Sukutika slide, white pox, chain staphylococcus, and Vibrio. Therefore, farmers use large amounts of expensive antibiotics and vaccines to eliminate fish diseases, Many of them are killed by infection and the amount of loss is very large.

In particular, land-style aquaculture, unlike caged aquaculture, is a type of aquaculture that contains sea water in the aquaculture tank, and when the aquatic organisms once breed in the aquaculture tank, they multiply rapidly and almost all of the fish in the aquaculture tank are killed.

For this reason, ultraviolet sterilization or ozone sterilization treatment or chemicals are applied to the aquaculture tank in order to remove the harmful organisms contained in the seawater to prevent the fish from being killed during cultivation.

However, it takes a lot of time and cost to purify the seawater in the same way as described above, and there is a limit to purify the seawater.

As a conventional technique for solving the above-mentioned problems, a regeneration utility model No. 0256525 "a sterilizing device using copper and silver" and a patent application No. 2007-0068136 entitled " Seawater supply device for fish culture and a method for supplying seawater " .

The prior art has sterilized seawater by electrolyzing copper (copper) before supplying the seawater to the aquarium to generate ions that act as a sterilizing agent in the seawater.

It is a widely known fact that ions generated by electrolysis as described above have a sterilizing function, and even when applied to a farm, it has a significant effect in preventing the death of aquaculture.

However, the above-mentioned prior art is accompanied by an electric facility for electrolysis of seawater, and there is always a risk of electric accidents due to the use of the electric facility. Accordingly, There is a problem that must be done.

In addition, there is a problem that an operator who operates the onshore farm can not manage easily, a considerable power is consumed in electrolysis, a considerable cost is required for maintenance, and a considerable cost burden is incurred.

Due to the above reasons, many techniques for purifying seawater by the generation of copper ion through electrolysis have been developed, but they have not been applied to the field.

Therefore, there is a desperate need for a new type of seawater purification apparatus that can easily and safely purify seawater using copper ions while reducing the cost burden on land culturing.

It is an object of the present invention to provide a seawater purifying filter which is capable of purifying seawater in a relatively easy, economical and effective manner in purifying seawater with copper ions .

It is another object of the present invention to provide a seawater purifying filter which is easy to maintain.

Another object of the present invention is to provide a seawater purifying filter capable of relatively reducing the friction loss.

Another object of the present invention is to provide a seawater purifying filter which can be easily expanded according to the processing capacity of seawater.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

A direct-current type seawater purifying filter connected to a seawater supply pipe of a terrestrial aquaculture tank according to the present invention is a seawater purifying filter for purifying seawater, comprising: a coupler one side of which is connected to a sea water supply pipe supplied to an aquaculture tank; A primary screen coupled to the other side of the coupler to remove foreign matter contained in seawater; A copper ion eluting portion positioned at a rear end of the primary screen and including a honeycomb copper alloy block for providing a plurality of hexagonal sea water through passages formed in parallel with a conveying direction of seawater, wherein copper ions are spontaneously extracted by seawater; And a secondary screen coupled to a rear end of the copper ion eluting unit to further remove foreign substances contained in the seawater.

Further, the present invention further includes a flow rate adjusting cap coupled to a rear end of the secondary screen and having a through hole formed in a relatively small area as compared with an opening area of the copper ion eluting portion.

The vortex generating unit further includes a vortex generating unit inserted longitudinally into the hexagonal water passage of the copper ion dissolution unit and generating a vortex in the seawater passing through the copper ion dissolution unit in the form of a twisted plate. do.

Further, the vortex generating part is made of the same copper alloy material as the honeycomb copper alloy block.

Further, the first screen and the second screen are made of a copper alloy material.

In addition, the honeycomb copper alloy block of the copper ion dissolution part has a plurality of protruding protrusions in the center direction and the longitudinal direction of the hexagonal seawater passageway.

The honeycomb copper alloy block of the copper ion dissolution part is characterized in that a round copper alloy tube is formed in each hexagonal sea water passageway of the copper ion dissolution part in the longitudinal direction.

The present invention has the effect of purifying seawater with copper ion through the technical features described above, by purifying seawater in a relatively easy, economical and effective manner.

In addition, the manager who manages the onshore farm has the effect of facilitating installation / separation / cleaning of the seawater purifying filter.

In addition, there is an effect that copper ions can be spontaneously eluted with a relatively small friction loss.

In addition, it is easy to expand according to the treatment capacity of seawater.

In addition, there is an effect that the operation cost is hardly consumed.

Other advantages of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings. BRIEF DESCRIPTION OF THE DRAWINGS

1 is a view for explaining a direct-coupled seawater purifying filter connected to a seawater supply pipe of an aquacultural water tank according to the present invention,
2 is a view for explaining a structure of a direct-coupled seawater purifier filter coupled to a seawater supply pipe of a terrestrial aquaculture tank of the present invention,
3 is a view for explaining a honeycomb copper alloy block of a direct-coupled seawater purifier filter coupled to a seawater supply pipe of a terrestrial aquaculture tank of the present invention,
4 is a view for explaining a stone substrate of a direct-current type seawater purifying filter coupled to a seawater supply pipe of a terrestrial aquaculture tank of the present invention,
5 is a view for explaining a circular copper alloy tube of a direct-coupled seawater purifier filter coupled to a seawater supply pipe of a terrestrial aquaculture tank of the present invention,
6 is a view for explaining a vortex generating unit of a direct-coupled type seawater purifying filter coupled to a sea water supply pipe of a terrestrial aquaculture tank of the present invention,
7 is a view for explaining a flow rate control cap of a direct-coupled seawater purifier filter coupled to a seawater supply pipe of a terrestrial aquaculture tank of the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It should also be understood that the position or arrangement of individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the present invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

The direct-coupled seawater purifier filter connected to the seawater supply pipe of the aquaculture water tank of the present invention is, as shown in the figure for explaining the direct-coupled seawater purifier filter coupled to the seawater supply pipe of the inventive land- Is directly connected to the sea water supply pipe (2) for supplying seawater to the sea water (1), and purifies the seawater.

1 (b), the direct-coupled-type seawater purifying filter 10 according to the present invention is directly connected to the end of a seawater supply pipe 2 for inputting seawater into the aquaculture water tank 1, The seawater 3 supplied to the aquaculture tank 1 is purified through the spontaneously released copper ions through the spout 2.

The direct-coupled seawater purifi- cation filter 10 according to the present invention includes a coupler 110 (as shown in FIG. 2) for explaining a structure of a direct-coupled seawater purifier filter coupled to a seawater supply pipe of the inventive land- , A primary screen 120, a copper ion eluting unit 130, and a secondary screen 140. [

2, the coupler 110 has a function of coupling one end of the coupler 110 to a sea water supply pipe 2 for supplying seawater to the aquaculture water tank 1 and coupling the present invention to the sea water supply pipe 2 .

The coupler 110 according to the present invention corresponds to a pipe connecting means used in a conventional technology for connecting pipes, and is not limited to couplers of any particular form or structure.

The primary screen 120 is connected to the other side of the coupler 110 having one side connected to the seawater supply pipe 2 and is supplied through the seawater supply pipe 2 as a normal pull- And prevents the foreign substances contained in the seawater from being introduced into the aquaculture tank (1).

Thus, the primary screen 120 according to the present invention may be various means of screening for foreign matter and is not limited to any particular screen.

The copper ion eluting unit 130 is positioned and fixed at the rear end 120 of the primary screen. The seawater flowing through the seawater supply pipe 2 passes through the copper ion eluting unit 130.

At this time, the honeycomb copper alloy block 140 includes a plurality of honeycomb copper alloy blocks 140 that provide a plurality of hexagonal sea water passages formed in parallel to the sea water conveying direction for guiding the penetrating seawater. In the process of passing the honeycomb copper alloy block 140 through the sea water Copper ions spontaneously leach out from the honeycomb copper alloy block 140 made of a copper alloy.

The eluted copper ions exert the germicidal effect of the copper ions and purify (sterilize) the seawater.

The honeycomb copper alloy block 140 is made of copper as a main material, as shown in the figure for explaining the honeycomb copper alloy block of the direct-coupled seawater purifying filter that is connected to the sea water supply pipe of the inventive land- A plurality of hexagonal water passage passages 141 are formed in a honeycomb structure in the longitudinal direction (sea water traveling direction).

The plurality of hexagonal sea water passages 141 are formed in a honeycomb structure so that the seawater penetrating through the honeycomb copper alloy block 140 can be penetrated without a large resistance and a stable structure strong against bending or pressing can be provided, Providing a sufficient contact surface of the honeycomb copper alloy block 140.

Therefore, the seawater passing through the honeycomb copper alloy block 140 passes through the hexagonal sea water passage 141 and sufficiently contacts the wall surface of the hexagonal sea water passage 141 to induce spontaneous dissolution of the copper ion, Sterilizes the seawater and stored seawater supplied to the aquaculture tank (1).

The honeycomb copper alloy block 140 of the copper ion dissolution part 130 may be formed as shown in FIG. 4 for explaining a stone substrate of a direct-coupled seawater purifier filter coupled to a seawater supply pipe of the inventive land- Similarly, it may further include a plurality of protruding boards 142 protruding in the center direction and the longitudinal direction of the hexagonal seawater passageway 141.

The stone substrate 142 is made of the same copper alloy material as the honeycomb copper alloy block 140 and is integrally formed on the wall surface of the hexagonal water passage 141.

Such a stone substrate 142 relatively increases the surface contacting with the sea water without significantly affecting the transfer of seawater, so that the natural leaching of the copper ion is relatively increased.

The honeycomb copper alloy block 140 of the copper ion eluting portion 130 is a diagram for explaining a circular copper alloy tube of a direct connection type seawater purifying filter which is coupled to a seawater supply pipe of the inventive land aquarium, The circular copper alloy pipe 143 may be formed in the hexagonal water passage 141 of the copper ion dissolution part 130 in the longitudinal direction.

The circular copper alloy tube 143 may be integrally formed with the honeycomb copper alloy block 140 as shown in FIG. 5A or may be formed integrally with the inner space of the hexagonal water- So that the natural contact of the copper ions is relatively increased by relatively increasing the surface contacting with the seawater without significantly affecting the transfer of the seawater.

The honeycomb copper alloy block 140 as described above is formed by an injection method and is cut and used by a predetermined length.

Therefore, by determining the length of the honeycomb copper alloy block 140 in consideration of the seawater capacity, the flow rate, and the like, the application of the product according to the seawater treatment capacity is easy.

As shown in FIG. 6, the copper ion eluting unit 130 includes a hexagonal sea water passage 141 (see FIG. 6) And a vortex is generated in the seawater passing through the copper ion eluting portion 130 in the form of a twisted plate so that the seawater passing through the respective seawater penetration passages 141 is relatively much larger than the honeycomb copper alloy block 130 And a vortex generating unit 150 which allows the vortex generating unit 150 to be drained quickly while being in contact with the vortex generating unit 140.

At this time, the vortex generating unit 150 is made of the same copper alloy material as that of the honeycomb copper alloy block 140, and it is preferable that the spontaneous dissolution of copper ions occurs relatively much.

As shown in FIG. 2, the secondary screen 160 has the same structure and function as the primary screen 120, and is coupled to the rear end of the copper ion eluting unit 130, It also serves to filter out foreign matter.

The first screen 120 and the second screen 160 described above perform a function of removing foreign substances contained in the seawater through the second order so that the foreign substances contained in the seawater do not flow into the aquaculture water tank 1 It is preferable that the first screen 120 and the second screen 160 are made of a copper alloy material.

The direct-coupled seawater purifying filter 10 according to the present invention is also applicable to a direct-current-type seawater purifier filter coupled to a seawater supply pipe of a terrestrial aqua- And a flow rate adjusting cap 170 coupled to a rear end of the screen 160 and having a through hole 171 formed in an area relatively small compared to an opening area of the copper ion dissolving unit 130.

7, a through hole 171 is formed in the flow rate adjusting cap 170 so as to be smaller than an area through which the seawater penetrates through the copper ion dissolving unit 130, so that the direct-current type seawater purifying filter 10, The flow rate of the seawater can be controlled within.

The structures of the direct current type seawater purifie filter 10 of the present invention as described above are coupled and fixed to each other with a coupling structure as shown in FIG.

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, And such variations and modifications are intended to fall within the scope of the appended claims.

1: Athletic aquarium
2: Seawater supply piping
3: Seawater
10: Direct connection type seawater purifying filter
110: Coupler
120: Primary screen
130: Copper ion dissolution part
140: Honeycomb copper alloy block
141: Hexagonal seawater penetration
142: Stone substrate
143: Circular copper alloy tube
150: vortex generator
160: Secondary screen
170: Flow rate adjusting cap
171: Through hole

Claims (7)

1. A seawater purifying filter for purifying seawater, comprising:
A coupler to which one side is connected to the sea water supply pipe supplied to the aquaculture tank;
A primary screen coupled to the other side of the coupler to remove foreign matter contained in seawater;
A copper ion eluting portion positioned at a rear end of the primary screen and including a honeycomb copper alloy block for providing a plurality of hexagonal sea water through passages formed in parallel with a conveying direction of seawater, wherein copper ions are spontaneously extracted by seawater; And
And a secondary screen coupled to a rear end of the copper ion eluting unit to further remove foreign substances contained in seawater. The direct-coupled seawater purifying filter according to claim 1, The method according to claim 1,
And a flow rate adjusting cap coupled to a rear end of the secondary screen and having a through hole formed in a relatively small area as compared with an opening area of the copper ion eluting unit. Seawater Purification Filter. The method according to claim 1,
And a vortex generating part inserted longitudinally into each of the hexagonal sea water passages of the copper ion dissolution part and generating a vortex in the seawater passing through the copper ion dissolution part in the form of a twisted plate screw, A direct-coupled seawater purifier filter coupled to a seawater supply pipe in a tank. 4. The vortex generator according to claim 3,
Wherein the honeycomb copper alloy block is made of the same copper alloy material as the honeycomb copper alloy block. The apparatus of claim 1, wherein the first and second screens
And a copper alloy material. The direct-coupled seawater purifier filter is coupled to the seawater supply pipe of the aquaculture tank. The copper-alloy-alloy block according to claim 1, wherein the honeycomb copper alloy block of the copper-
And a plurality of stones protruding in the center direction and the longitudinal direction of the hexagonal sea water passageway, the seawater supply pipe being connected to the sea water supply pipe of the aquaculture water tank. The copper-alloy-alloy block according to claim 1, wherein the honeycomb copper alloy block of the copper-
And a circular copper alloy tube is formed in each of the hexagonal sea water passageways of the copper ion dissolution part in the longitudinal direction, and is connected to the sea water supply pipe of the aquaculture water tank.

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