KR101149377B1 - Sterilizatation apparatus for fish farm - Google Patents

Abstract

PURPOSE: A sterilization apparatus for a fish farm is provided to be easily installed in a conduit line in which water flows. CONSTITUTION: A sterilization apparatus for a fish farm comprises a main body(110), an insects killing part(120), and a power supply part. The main body is combined with an on/off valve. The insects killing part is installed inside the main body. The power supply part supplies power to the insects killing part. The insects killing part comprises a first electrode part, a second electrode part, and an electrode support part. The electrode support part is combined with the bottom of the main body and delays the flow of a solution.

Description

Water electric insecticide sterilizer for fish farms {STERILIZATATION APPARATUS FOR FISH FARM}

The present invention relates to an electric insecticide sterilization device for fish farming water for insecticide and sterilization by applying electricity to water flowing through a pipeline, and more particularly, it can be easily installed in a pipeline into which water flows, The present invention relates to an electropesticide sterilization device for fish farming water, which can effectively remove infested parasites and microorganisms.

In general, farming is the raising of fish, seaweeds, plants, etc., which produce or grow seedlings for use in food or other purposes.

The water is stored in tanks that raise double fish, and fish are raised for farming in the tanks. At this time, seawater, groundwater, surface water, etc. are used as water for aquaculture according to the type of fish to be farmed.

The aquaculture industry is growing into an important food industry, which occupies 33.3% of the total domestic fishery production. Meanwhile, the development of aquaculture technology has contributed greatly to the economics and supply of food resources due to the production of high-quality fish.

On the other hand, in order to fish farming, various conditions such as fish farming temperature, water temperature, water quality, the size of the tank, the number of farmed fish, etc. must be well matched, and the water quality of water is one of the most important factors.

Normally, fish farms are used for aquaculture water such as groundwater, rivers and seawater, and the incoming water is inhabited by larvae or microorganisms that harm fish. Therefore, if the water is kept in the fish tank, it can cause the death of fish caused by pests or microorganisms, and the mortality rate can be reduced by adding a large amount of chemicals to the reservoir, or by feeding antibiotics to the fish tank. Is reducing.

On the other hand, such a conventional farm water sterilization device is disclosed in the "fish farm water insecticide device" of Korea Patent Publication No. 10-0893536 and "water purification and sterilization device of seawater" of the domestic registered utility model No. 20-0224787 .

Conventional water sterilization apparatus as described above is very difficult to install in the water reservoir, there is a problem that the process of supplying the water is duplicated because the water must be sterilized in a state in which the water is stored.

The present invention was developed to improve the conventional problems, and can be easily installed in the pipe inflow of water, so that the insecticide and sterilization can be performed in the process of water flow to simultaneously supply and kill the insecticide and sterilization. It is an object of the present invention to provide an electropesticide sterilization device for fish farming water.

In order to achieve the above object, the present invention is coupled to the water supply line of the fish farm is provided with a flow path to flow the water into the main body is formed by an insulator; An insecticide installed inside the flow path to delay the flow of water flowing through the flow path, the insecticide being spaced apart from the flow path so as to kill and sterilize parasites and pests of the water by energizing the flow water through the flow path; And an electric supply unit connected to the insecticide unit to supply electricity to the insecticide unit.

In addition, the present invention is provided in the longitudinal direction of the flow path to be supported on the inner surface of the flow path, the first electrode portion which is connected to any one of the electricity supply line of the electricity supply unit; A second electrode part positioned in the flow path so as to be spaced apart from the first electrode part, and to which another one of the electric supply lines of the electric supply part is connected; And it is coupled to the lower end of the main body to be fixed to the second electrode portion, and provides a water insecticide electric sterilization device for fish farms including a pesticide consisting of an electrode support for delaying the flow of water.

In another aspect, the present invention provides a water electropesticide sterilizer for fish farms in which the first electrode portion is formed in the form of a coil along the inner surface of the flow path, and the second electrode portion has a rod shape and is positioned at the center of the first electrode portion.

In addition, the present invention is a plurality of through-holes are formed so that the water passes through the first electrode plate member is fixed to be spaced apart inside the passage, the electrical supply line is connected; A second electrode plate member fixed to the flow path so as to be positioned between the first electrode plate members, and having a plurality of through holes formed therein and connected to the electric supply line; And a insecticidal portion comprising a connecting member electrically connecting the first electrode plate member and the second electrode plate member to be spaced while maintaining a distance between the first electrode plate member and the second electrode plate member. Provide an electric insecticide sterilization apparatus.

In addition, the present invention provides a water electric insecticide sterilization apparatus for fish farms to prevent the contact hole is formed in the first electrode plate member and the second electrode plate member to prevent contact with the connecting member.

According to the present invention, the electric insecticidal sterilization apparatus for fish farming water according to the present invention, not only can be easily installed in the pipeline into which the water is introduced, but also the insecticide and sterilization is performed in the course of the water flow, thereby supplying and supplying the insecticide and There is an advantage that the sterilization can proceed simultaneously.

1 is a perspective view showing a state in which the electric water insecticide sterilization device for fish farms according to an embodiment of the present invention is applied.
Figure 2 is an exploded perspective view showing the configuration of the electric insecticide sterilizing water for fish farms according to the first embodiment of the present invention.
3 is a cross-sectional view of the combination of FIG.
Figure 4 is an exploded perspective view showing the configuration of the electric insecticide sterilization device for fish farming water according to a second embodiment of the present invention.
5 is a cross-sectional view of the combination of FIG.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It must be interpreted in terms of meaning and concept.

Hereinafter, with reference to the accompanying drawings, a water insecticide sterilization device for fish farming water according to the present invention will be described in detail.

First, with reference to Figures 1 to 3 will be described a water electropesticide sterilizer for fish farms according to a first embodiment of the present invention.

As shown in Figures 1 to 3, fish farming water insecticide sterilization apparatus 100 according to the present embodiment is connected to the water supply pipe 10 for supplying aquaculture water to the reservoir tank for fish farming. At this time, the water supply pipe 10 is provided with an on-off valve 20 to selectively supply water, the water electric insecticide sterilizer 100 is connected to the on-off valve 20.

The water electric insecticidal sterilizer 100 may apply electricity to the water until the water discharged from the water supply pipe 10 flows in and drains, thereby killing and sterilizing larvae, worms, parasites, and the like contained in the water.

To this end, the water electric insecticide sterilizing apparatus 100 according to the present embodiment is installed in the body 110, which is coupled to the on-off valve 20, the body 110 and the water flowing through the body 110 as a medium. It includes a pesticide unit 120 that is energized to kill and sterilize parasites and microorganisms contained in the water, and an electricity supply unit 130 that supplies electricity to the pesticide unit 120.

At this time, the electric insecticide sterilization apparatus 100 could observe the supercritical voltage under a microscope through several experiments. Increasing current in the water causes all objects to be distorted at the critical point, whereby the impact of electricity kills microorganisms, parasites and pests.

The main body 110 has a cylindrical shape to facilitate the coupling with the on-off valve 20, the flow path 111 is formed so that the installation and water flow of the pesticide portion 120. The main body 110 is formed of a synthetic resin, for example, P.V.C series, which is an insulating material so as to prevent safety accidents such as electric shock when electricity is applied to the insecticide unit 120.

The insecticide unit 120 energizes the water flowing through the flow path 111 to kill and sterilize parasites, pests, insects, and microorganisms of the water. At this time, the insecticide unit 120 delays the flow of water flowing through the flow path to improve the insecticidal and sterilization effects such as parasites.

As described above, the insecticidal part 120 includes a first electrode part 121, a second electrode part 123, and a second electrode part 123 which are respectively installed to be spaced apart from the inside of the flow path 111 so as to conduct water through the medium. It includes an electrode support 125 for fixing to the main body 110.

The insecticidal part 120 is water when water flows between the first electrode part 121 and the second electrode part 123 while electricity is applied to the first electrode part 121 and the second electrode part 123. As the first electrode portion 121 and the second electrode portion 123 are energized through the medium, electricity flows.

For this reason, electricity is applied to the water while the water passes through the flow path 111, and parasites and the like contained in the water are insecticide and sterilization by electricity.

In addition, the insecticide part 120 is configured such that the insecticidal and sterilizing effect of the water by the first electrode part 121 and the second electrode part 123 can be further improved.

Specifically, the first electrode 121 is installed in the longitudinal direction of the flow path 111 so as to be supported on the inner surface of the flow path 111, and any one of the power supply lines 133 of the power supply 130 is connected. The first electrode 121 is formed in the form of a coil along the inner surface of the flow path 111 to increase the contact time with the water flowing through the flow path 111 as well as to conduct conductivity with the second electrode part 123 at all sites. Can be kept uniform.

The first electrode part 121 is coupled to the inner surface of the flow path 111 by indentation to prevent flow in the flow path 111.

In addition, a terminal 121a is formed at the lower end of the first electrode portion 121 so as to easily connect the electric supply line 133 to the lower end portion thereof, and a connection hole 121b for fastening the bolt B to the terminal 121a. Is formed. At this time, the electric supply line 133 is stably connected to the terminal 121a through the bolt B and the nut N. FIG.

In the present embodiment, for example, the electric supply line 133 is connected to the first electrode portion 121 by the bolt (B) and nut (N), but the electric supply line (using welding or a separate terminal) 133 and the first electrode 121 may be connected.

The second electrode part 123 is positioned in the flow path 111 so as to be spaced apart from the first electrode part 121, and the other electric supply line 131 of the electric supply part 130 is connected. The second electrode part 123 has a rod shape to maintain a constant distance from the first electrode part 121, and is inserted into the flow path 111 so as to be positioned at the center of the first electrode part 121.

In addition, the second electrode portion 123 has a screw portion 123a protruding from the lower end portion of the second electrode portion 123 so as to be easily connected to the electricity supply line 131 and the electrode support portion 125, and the electricity supply line 131 is formed on the screw portion 123a. It is fixed. At this time, the screw portion 123a is formed smaller than the outer diameter of the second electrode portion 123, which is to stably fix the electric supply line 131 between the second electrode portion 123 and the electrode support portion 125.

The first electrode portion 121 and the second electrode portion 123 according to the present embodiment are made of light metal titanium to prevent electrolysis from being released due to the alternating current of the electricity supply unit 130. Is formed. For this reason, the contamination of the water by electrolysis can be prevented.

The electrode support part 125 is coupled to the lower end of the main body 110, and the second electrode part 123 is fixed to the center part. This electrode support 125 is formed by an insulator.

In addition, the electrode support part 125 has a screw groove 125a formed at the center of the upper surface such that the screw part 123a of the second electrode part 123 is fastened, and an outer surface of the electrode support part 125 is pressed into the inner surface of the flow path 111. Is coupled to. At this time, the electrode support 125 is fixed by screws or adhesives to be more stably coupled to the main body 110.

The electrode support part 125 covers a part of the flow path 111 so that water flowing through the flow path 111 can stay between the first electrode part 121 and the second electrode part 123 for a longer time. 111) to delay the flow of water. To this end, the electrode support 125 is formed in a cross shape.

On the other hand, the electricity supply unit 130 is connected to a distribution panel or an electrical outlet so that the commercial power source used in the fish farm, for example, 220v as it is, and uses a common power line including (-), (+) wire. In particular, the electricity supply unit 130 supplies alternating current to the insecticide unit 120 and applies a low voltage below the ventricular defibrillation current. As a result, not only the insecticidal effect is improved compared with the use of the direct current, but also the electrolytic action does not occur in the first electrode member 121 and the second electrode part 123, thereby preventing the release of contaminants.

It describes the action of the electric shock insecticide sterilizer for fish farming water according to an embodiment of the present invention configured as described above.

First, since the main body 110 coupled to the open / close valve 20 is formed in a cylindrical shape, it may be easy to disassemble and assemble the open / close valve 20. That is, the electric shock insecticide sterilizer 100 can be easily installed.

In addition, since the first electrode part 121 formed in the form of a coil can be installed in the flow path 111 by press-in, and the second electrode part 123 can be installed in the flow path 111 through the electrode support part 125, The unit 120 can be easily installed in the main body 110.

In particular, since the first electrode part 121 is formed in a coil shape and coupled in the longitudinal direction of the flow path 111, and the second electrode part 123 is positioned at the center of the first electrode part 121, the flow path 111. Electricity can be uniformly applied to the water in all areas of). For this reason, the electric insecticidal effect in the flow path 111 can be improved.

Next, with reference to Figures 1, 4 and 5 will be described a water electropesticide sterilizer for fish farms according to a second embodiment of the present invention.

In describing the water insecticide sterilization apparatus for fish farms according to the second embodiment, the same reference numerals are used for the same components as those of the first embodiment, and a detailed description thereof will be omitted.

Fish electric shock insecticide sterilization apparatus 100 according to the second embodiment is the main body 110, the insecticide 140 is installed on the main body 110 and the electricity supply unit for supplying electricity to the insecticide 140 130.

The insecticidal part 140 according to the present embodiment may include a first electrode plate member 141 which is spaced apart from the inside of the flow path 111, and a second electrode plate member provided between the first electrode plate member 141. 143 and a connecting member 145 electrically connecting the first electrode plate member 141 and the second electrode plate member 143 to be spaced apart from each other.

At this time, the first electrode plate member 141 is fixed to be spaced apart from each other through the connecting member 145 as well as electrically energized. In addition, the second electrode plate member 143 is also fixed to be spaced apart from each other through the connecting member 145 as well as electrically connected.

In the present exemplary embodiment, two first electrode plate members 141 and two second electrode plate members 143 are illustrated. However, the first electrode plate member 141 may be provided according to a user's needs or the length of the main body 110. ) And one or three or more second electrode plate members 143 may be provided.

The first electrode plate member 141 is formed with a plurality of through holes 141a to allow water to pass therethrough, and the connection member 145 is coupled to the through holes 141a. The first electrode plate member 141 is provided with a contact preventing hole 141c to prevent the connecting member 145 connecting the second electrode plate member 143 from being contacted. At this time, the contact preventing hole 141c is formed larger than the thickness of the connection member 145.

The first electrode plate member 141 is installed on the main body 110 so that its outer surface is in contact with the inner surface of the flow path 111, and the electric supply line 131 of the electric supply unit 130 is connected to the first electrode plate member 141.

The second electrode plate member 143 is fixed to the flow path 111 so as to be positioned between the first electrode plate member 141 and is connected to the electricity supply line 133 of the electricity supply unit 130. The second electrode plate member 143 also includes a plurality of through holes 143a to allow water to pass therethrough, and the contact preventing hole part to prevent the connection member 145 connecting the first electrode plate member 141 from being contacted. 143c is formed in the edge portion.

The connection member 145 fixes the electric supply lines 131 and 133 of the electric supply unit 130 to the first electrode plate member 141 and the second electrode plate member 143, respectively, and the first electrode plate member 141. And the interval of the second electrode plate member 143 is kept stable.

At this time, the connecting member 145 connecting the first electrode plate member 141 is fastened to the first electrode plate member 141 through the through hole 141a, and the contact preventing hole portion of the second electrode plate member 143 is formed. Passed through 143c is fastened to the other first electrode plate member 141.

To this end, the connection member 145 includes a bolt member 145a and a nut member 145b fastened to the bolt member 145a. In this case, the nut member 145b is provided on the upper and lower surfaces of the other first electrode plate member 141 to stably fix the first electrode plate member 141 spaced apart from each other.

The second electrode plate member 143 is also coupled through the connection member 145 in the same manner as the first electrode plate member 143.

On the other hand, in the first electrode plate member 141 and the second electrode plate member 143, the positions of the through holes 141a and 143a are shifted from each other so as to delay water flow in the flow path 111 (alternatively). It is installed in).

On the other hand, the main body 110 is the first electrode plate member 141 and the second electrode plate member (141) so that the first electrode plate member 141 and the second electrode plate member 143 are installed in the flow path 111 more stably. 143 further includes a flow preventing member 113 and the cap member 115 to prevent the separation of the induction preventing member 113, respectively. Here, the flow preventing member 113 is formed in a ring shape by the insulator, the cap member 115 is coupled to the upper and lower portions of the main body 110, respectively.

It will be apparent to those skilled in the art that the present invention is not limited to the embodiment described above, but may be embodied in various other forms without departing from the spirit of the invention, It will be understood by those of ordinary skill in the art that various changes and modifications may be made without departing from the scope of the present invention.

100: electric insecticide device 110: main body
111: Euro 120, 140: insecticide
121: first electrode portion 123: second electrode portion
125: electrode support 130: electricity supply
131 and 133: electricity supply line 141: first electrode plate member
143: second electrode plate member

Claims (5)

delete A main body coupled to the water supply line of the fish farm and having a flow path to flow water therein, the main body being formed by an insulator; An insecticide installed inside the flow path to delay the flow of water flowing through the flow path, the insecticide being provided to be spaced apart from the flow path so as to kill parasites and pests of the water by energizing the flow water through the flow path; And an electricity supply unit connected to the insecticide unit to supply electricity to the insecticide unit, and applying an alternating current to the insecticide unit.
The insecticide part may include: a first electrode part installed in the longitudinal direction of the flow path so as to be supported on an inner surface of the flow path, and to which an electricity supply line of the electricity supply part is connected; A second electrode part disposed in the flow path so as to be spaced apart from the first electrode part, and to which an electric supply line of the electric supply part is connected; And an electrode support part coupled to a lower end of the main body to fix the second electrode part and retarding the flow of water.
Water electric insecticide sterilization device for fish farms comprising a. The method of claim 2,
The first electrode portion is formed in the form of a coil along the inner surface of the flow path, the second electrode portion has a rod-shaped, it is located in the central portion of the first electrode portion water electropesticide sterilizer for fish farms. A main body coupled to the water supply line of the fish farm and having a flow path to flow water therein, the main body being formed by an insulator; An insecticide installed inside the flow path to delay the flow of water flowing through the flow path, the insecticide being provided to be spaced apart from the flow path so as to kill parasites and pests of the water by energizing the flow water through the flow path; And an electricity supply unit connected to the insecticide unit to supply electricity to the insecticide unit, and applying an alternating current to the insecticide unit.
The insecticidal portion may include: a first electrode plate member having a plurality of through-holes formed to be spaced apart from each other to allow water to pass through, and fixed to be spaced apart from the inside of the flow path, and connected to the (-) line of the electricity supply unit; A second electrode plate member fixed to the flow path so as to be positioned between the first electrode plate members, the second electrode plate member being connected to the (+) line of the electric supply part and having a plurality of through holes formed therein; And a connecting member electrically connecting the first electrode plate member and the second electrode plate member spaced apart while maintaining a distance between the first electrode plate member and the second electrode plate member.
Water electric insecticide sterilization device for fish farms comprising a. The method of claim 4, wherein
And the first electrode plate member and the second electrode plate member further include a contact preventing hole through which the connection member passes to prevent contact with the connection member.

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