KR20210044479A - Underwater fish luring lamp apparatus - Google Patents

Abstract

The present invention relates to an underwater fish luring lamp apparatus in which one or more fish luring lamps are configured to travel from a long distance to a short distance of a fishing vessel, thereby effectively attracting and trapping fish species or plankton having positive phototaxis in the water, thereby increasing the catch. Particularly, the underwater fish luring lamp apparatus comprises: one or more fish luring lamps emitting light in the water; a moving means connected to the fish luring lamps and moving along the water surface to pull the connected fish luring lamps; and a connection cable connecting the moving means and the fish luring lamps.

Description

Underwater fish luring lamp apparatus

The present invention relates to an underwater fishing lamp device in which one or more fishing lamps are configured to move a path from a long distance to a short distance of a fishing boat to effectively attract and capture a fish species or plankton having a positive daylight in the water, thereby increasing the catch.

In general, most of the fish species living in the sea have daylight properties, and typical fish species that respond to bright light with daylight properties include blacktail, rockfish, squid, and jukkumi.

In order to catch fish with the same amount of daylight through fishing, a separate fishing lamp is used.

That is, the fishing lamp as described above will be classified into a water fishing lamp installed directly on a ship and an underwater fishing lamp installed using a rope or fishing line.

This underwater fishing lamp has a waterproof structure and is configured to supply power through wires from a ship, as suggested in Public Utility Model Publication No. 20-2008-0000020, "Cold Cathode Fluorescent Lamps Underwater Fishing Lamps for Fishing". I can.

However, the above-described conventional underwater fishing is used in offshore fishing vessels and is directly submerged from the ship through ropes, so it is possible to collect fish species distributed in a short distance on the ship, but it is distributed over a long distance from the ship. It is difficult to expect an increase in catches because it is difficult to attract fish species only by catching at a short distance.

Republic of Korea Public Utility Model Publication No. 20-2008-0000020

Accordingly, it is an object of the present invention to provide an underwater fishing lamp device capable of increasing catch by effectively attracting and collecting fish species or plankton having positive daylight properties in the water by having one or more fishing lamps configured to move a path from a long distance to a short distance of a fishing boat. It is to do.

An underwater fishing lamp device of the present invention for achieving the above-described objects comprises: one or more fishing lamps that emit light from underwater; A moving means connected to the collecting lamp and moving along the water surface to pull the connected collecting lamp; And a connection cable connecting between the moving means and the collecting lamp.

As an example, the moving means is characterized in that it is a water drone that can move along the surface of the water.

As an example, the moving means includes a buoyancy sphere partially located underwater and floating on the water surface, and a driving motor mounted on a portion of the buoyancy sphere located underwater to allow the buoyancy sphere to move along the water surface. It is a feature.

As an example, the moving means is characterized in that the position moves close to the fishing boat from a distance separated from the set fishing boat.

As an example, the moving means is characterized in that the position moves close to the fishing boat along a spiral path from a distance separated from the set fishing boat.

As an example, two or more of the collecting lamps are provided and connected to each other, and a selected one is connected to the moving means.

As an example, the moving means includes a control module for controlling the operation of the connected gripping lamp, and transmitting a control signal output from the control module to the gripping lamp through the connection cable.

The underwater fishing lamp device of the present invention is configured such that one or more fishing lamps, which are submerged in the water and transmitted and diffused from a light source in the water, move from a long distance to a short distance of the fishing boat, so that a fish species or plankton having positive daylight properties in water There is an advantage that catches can be increased by effectively attracting them to the fishing boat.

In particular, the effect of increasing the catch by allowing the movement of the fishing lamp to move from the distance of the fishing vessel to the close proximity to the fishing vessel along a spiral path, and to capture the attracted species or plankton within the range of the spiral path, thereby minimizing the departure of fish species or plankton There is an advantage that can be multiplied.

1A is a view showing an example in which a drive motor is applied as a moving means of the present invention.
1B is a view showing an example in which a water drone is applied as a moving means of the present invention.
2 is a view showing an operating state according to an embodiment of the present invention.
3 is a view showing an operating state according to another embodiment of the present invention.
4 is a block diagram showing a control configuration of a moving means according to an embodiment of the present invention.

Hereinafter, on the basis of the accompanying drawings the configuration and operation of the present invention will be described in more detail. In describing the present invention, terms or words used in the present specification and claims are the present invention based on the principle that the inventor can appropriately define the concept of terms in order to describe his or her invention in the best way. It must be interpreted as a meaning and concept consistent with the technical idea of

Referring to Figure 1, the underwater fishing lamp device of the present invention is configured to include one or more fishing lamps (10), a moving means (20) and a connection cable (30).

The collecting lamp 10 may be a conventional underwater lamp emitting light from underwater.

For example, although not shown in the drawing, the collecting lamp 10 may include a light source unit, a power supply unit, and a cover unit 110.

The light source unit may be composed of an LED module 100 on which at least one LED element is mounted so as to extend the service life while having excellent power consumption, and an arrangement in which light of the LED element can be emitted in multiple directions in an underwater environment. It is desirable to have a structure.

In addition, a diffusion lens protruding in a curved surface is mounted in front of the LED element in the light source unit, so that the pick-up function can be doubled through effective diffusion of light underwater.

In other words, the light source unit directly transmits and diffuses all of the light source into the water, unlike the method of indirectly irradiating light from the water or using the lighting inside the fishing lamp as in the prior art. It will be able to induce enough fish species.

The power unit may control power supplied to the LED module 100 of the light source unit, and may be composed of a lithium ion battery having excellent charging and discharging efficiency.

The power supply unit may have a unit form integrated with the light source unit, and it is preferable to be advantageous in terms of maintenance by being configured in a structure that is detachable from the collecting lamp 10.

The cover unit 110 is made of a transparent material that can transmit light while protecting the light source unit and the power unit from water pressure in an underwater environment. For example, the cover part 110 may be tempered glass or polycarbonate.

Such a catch lamp 10 directly attracts fish species having a daylight by emitting light from underwater, or indirectly through the attraction of plankton having a daylight property, etc. to attract fish or shellfish to a short distance of the fishing boat (1). To be able to.

And the catch lamp 10 may be provided with two or more depending on the fish species or plankton to be attracted, in this case, two or more catch lamps 10 may also be connected through the connection cable 30, etc. It is connected to the means 20 and can be pulled from the moving means 20 in a lump.

The moving means 20 may be connected to the gripping lamp 10 through a connection cable 30 described below, and the like, and moves along the water surface to pull the connected gripping lamp 10.

That is, the moving means 20 is to move one or more connected fishing lamps 10 to be located in a short distance of the fishing boat 1.

As an example, as shown in FIG. 1A, the moving means 20 is partially mounted on the buoyancy sphere 200 floating on the water surface and a portion of the buoyancy sphere 200 located in the water to follow the water surface. It includes a driving motor 210 to move the buoyancy sphere 200.

At this time, the driving motor 210 includes one or more propellers for linear motion of the buoyancy sphere 200 as well as a rudder that performs a steering function for changing the direction of the buoyancy sphere 200.

In addition, since the buoyancy sphere 200 can be applied by selecting a suitable one of conventionally known buoyancy bodies, a detailed description thereof will be omitted.

As another example, the moving means 20 includes a water drone 220 that can move along the surface of the water as shown in FIG. 1B.

Both the driving motor 210 or the floating drone 220 presented as an embodiment of the moving means 20 may be operated by receiving a control signal from a manager through a wireless communication network.

The connection cable 30 connects the moving means 10 and the collecting lamp 10, and controls power of the collecting lamp 10 in addition to the traction function of the collecting lamp 10 through a physical connection. It is preferable to use an electric cable so that the electrical connection for this can be performed in parallel.

Referring to FIG. 4, the moving means 20 may include a communication module 230, a driving module 240, and a control module 250.

The communication module 230 receives a control signal from the manager terminal 2 for inputting a manager's command.

In this case, the control signal includes a driving signal for controlling the movement of the moving means 20 as well as a switching signal for controlling the power of each of the collecting lamps 10 connected to the moving means 20 through an electric cable.

The driving module 240 receives a driving signal for controlling the movement of the moving means 20 in the control signal received from the communication module 230, and drives the moving means 20, that is, the driving motor 210 Or, it controls the operation of the drone 220.

The control module 250 receives a switching signal for controlling the power of the collecting lamp 10 in the control signal received from the communication module 230, and turns ON/OFF the power of the connected collecting lamp 10. A control signal is output and the control signal output through the connection cable 30 is transmitted to the collecting lamp 10 so that the power of the collecting lamp 10 can be selectively turned ON or OFF underwater.

At this time, when a plurality of collecting lamps 10 are connected to one moving means 20, the control signal output from the control module 250 includes a unique identification code for each collecting lamp 10, thereby selecting a collecting lamp ( 10) Only power control is possible.

Meanwhile, the moving means 20 may gradually move closer to the fishing boat 1 from a distance separated from the fishing boat 1 set as shown in FIG. 2.

That is, the moving means 20 of the present embodiment is to increase the catch by effectively attracting a distant fish species or plankton to a position close to the fishing boat 1 by moving a path from a long distance to a short distance of the fishing boat 1.

At this time, in this embodiment, as shown in FIG. 2, an example in which the four moving means 20 are configured to have a radial arrangement around the fishing boat 1 is presented, but the present invention is not limited thereto, and the fishing boat 1 It is preferable to appropriately select and apply the number of means of movement 20 and the number of fishing lamps 10 connected thereto in consideration of the size and species of fish.

More preferably, the moving means 20 is moved in close proximity to the fishing boat 1 along a spiral path from a remote distance from the fishing boat 1 set as shown in FIG. 3.

This is a fish species or plankton that is attracted by the light of the helical path of the moving means 20 and the light of the fishing lamp 10 accordingly in the process of attracting a fish species or plankton at a distance from the fishing boat (1) to a short distance of the fishing boat (1). It is possible to minimize the separation of fish species or plankton by collecting them within the range of the spiral path, and as a result, the effect of increasing the catch amount can be doubled through the movement of the moving means 20.

In FIG. 3, one of the moving means 20 according to the present embodiment is shown to be moved in a spiral path, but is not limited thereto, and a plurality of moving means 20 are sequentially moved along a spiral path or a plurality of It is natural that the moving means 20 can be simultaneously moved in a helical path having the same radius of rotation.

On the other hand, the underwater fishing lamp device of the present invention further includes an olfactory catch and a sound wave catch so that not only the attraction of fish species or plankton using light, but also picking using the sense of smell and picking using the hearing can be performed together or selectively.

The olfactory picker may contain amino acids including alanine, arginine, glycine, proline, and the like.

Unlike humans, fish do not have a nose through their mouth, but the front and rear nostrils are connected like a tunnel, so you can feel the smell dissolved in seawater. In addition, since fish has a considerable sense of smell, which is more than 10,000 times that of humans, it can effectively attract fish species by using smell.

This olfactory catcher may be mounted on any part of the catch lamp 10 located underwater that does not interfere with the transmission of light, and is manufactured in a net shape to attract fish species through odor in the water.

In addition, the olfactory picker may be configured in a liquid form that can be slowly dissolved in water.

The acoustic collector may be mounted in any part of the collecting lamp 10 that is also located underwater that does not interfere with the transmission of light, and is operated by an external power source to output a specific wavelength that induces the collection. It is done.

In this case, the supply of power may share the power supply of the collecting lamp 10.

The sonic catcher can attract fish by creating an illusion that there is food by using the sound that fishes make when they balance their bodies and when they eat their favorite food (that is, a swimming poking sound).

For example, the sound wave collector outputs a wavelength frequency in the range of 250 to 300 Hz so that a picking function using sound waves can be given.

As described above, since the underwater fishing lamp device according to the present embodiment further includes an olfactory catch and a sound wave catcher together with the catch lamp 10 using light in the water, various types of fish responding to the sense of smell and hearing as well as daylight fish species or plankton Since it is possible to attract fish species, it is possible to perform the picking activity by selectively using the catch lamp 10 or the olfactory catcher or the sonic catcher according to the target fish species.

As described above, although the present invention has been described by a limited embodiment, the present invention is not limited thereto, and the technical idea of the present invention and the patents to be described below by those of ordinary skill in the art to which the present invention pertains. It will be said that various modifications and variations are possible within the scope of the claims.

10: catch lamp 20: means of transportation
30: connection cable 100: LED module
110: cover part 200: buoyancy sphere
210: drive motor 220: water drone
230: communication module 240: drive module
250: control module

Claims (7)

One or more collection lamps that emit light from underwater;
A moving means connected to the collecting lamp and moving along the water surface to pull the connected collecting lamp; And
An underwater fishing lamp device comprising: a connection cable connecting between the moving means and the fishing lamp.
The method of claim 1,
The moving means,
An underwater fishing lamp device, characterized in that it is a floating drone that can move along the surface of the water.
The method of claim 1,
The moving means,
Some buoyancy spheres are located in the water and floating on the surface, and
An underwater fishing lamp device, characterized in that it comprises a driving motor mounted on a part of the buoyancy sphere located in the water to move the buoyancy sphere along the water surface.
The method of claim 1,
The moving means,
Underwater fishing lamp device, characterized in that the position moves close to the fishing boat from a distance separated from the set fishing boat.
The method of claim 4,
The moving means,
An underwater fishing lamp device, characterized in that the position moves close to the fishing boat along a spiral path from a distance spaced apart from the set fishing boat.
The method of claim 1,
Two or more of the catch lamps are provided to be interconnected, and the selected one is connected to the moving means.
The method of claim 1,
The moving means,
And a control module for controlling the operation of the connected catch lamp, and transmitting a control signal output from the control module to the catch lamp through the connection cable.

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