KR101453759B1 - LED device for fishing gear - Google Patents

Abstract

A mounting portion fixed to the flag mounting table, and a display portion on which the LED flashing light is mounted. The solar cell generates its own electric energy, supplies the LED to the LED requiring low energy, and forms the reflection plate at the position facing the LED The efficient light injection makes it possible to check the position of the fish and the farm in day and night. The display unit is manufactured by a watertight process so as to prevent each device mounted in the display unit from being exposed to the outside, and the display unit having the LED flashing unit connected to the mount unit and the display unit by a swivel capable of rotating 360 degrees, It is possible to maintain the horizontal position of the water surface continuously, and thus it is possible to maintain the continuous tag identification ability.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a LED device for fishing gear,

The present invention relates to a fishing line display device for a winning streak, a netting net, and a portable fishing net, and is equipped with a solar cell and an LED reflector to enable charging using sunlight for a long time without replacing the battery. The present invention relates to a fish-eye indicator capable of keeping the light-emitting portion horizontal with respect to the water surface even in a sea wave and a wavy sea.

Generally, a buoy called a buoy or a buoy is used to indicate that a fishing gear such as a winning streak, a nettail, or a shotgun is installed in water. Among the buoys used for this purpose, there are simple buoys used during the day, with a large flagstick hanging up and tied down, with a weight on the underside, a flag on the upper side, a lamp on a wooden frame at night, There is a case in which the battery is lit up. Installed buoys can be written in colors or letters on the flags, allowing the sailing vessel or fishing line to identify the location of the fishery and the fishermen who installed the fishery.

However, conventional buoys for aquaculture and fishing are 50 to 80% made of styrofoam, so typhoons and tsunamis are easily broken or broken, and they can not catch the center of gravity due to sea waves or storms, .

In addition, although the night sailing vessel or fishing line is equipped with a flashing light emitting at a predetermined time interval so as to be easily distinguished from afar, when the battery power for the operation of the flashing light is exhausted, the position of the buoy is checked visually by day and night It was difficult. In order to maintain the discrimination, there is a risk of failure or damage due to maritime work that must be approached by the vessel in order to try to replace the battery. If a large capacity battery is used to reduce the replacement period, the weight and volume of the buoy itself increase more than necessary It was difficult to keep the buoy floating.

Accordingly, in recent years, self-generated electricity using solar energy, wind power, and wave power, and charging technology using a rechargeable battery have been developed to solve the problem of breakage due to battery replacement and the problem of buoy handling, Technology. The battery is a battery in which a voltage is restored by introducing a current that has already been discharged from the outside and uses a solar cell as a charging means of a rechargeable battery to charge the battery with electricity produced during the day, Extend the lifetime of the blinker based on the same battery capacity, while minimizing battery volume and weight.

However, if an additional auxiliary window such as a solar light sensor or a control circuit is not mounted, it is impossible to operate the flashing light due to the time difference between day and night, and unnecessary power is wasted, and the method of generating electric power by using solar energy, wind power, The power generation is not constant and the amount of generated electricity is small according to the change. In the case of using the solar cell, it is necessary to regularly maintain it by the external exposure.

Korean Unexamined Patent Application Publication No. 2003-0010097 discloses a flask having a round top shape filled with styrofoam and having a plurality of supports on a side surface of the flask body, An illuminated flash mounting base installed therein, and a connection ring connected to the lower surface of the container body. Korean Patent Registration No. 10-1109411 discloses an airtight case having an inexpensive portable GPS transmitter, a battery and a blinker, and a deployment plate side portion provided with a deployment plate in which four floating wings are arranged in a cross shape on the lower side of the airtight case . Korean Patent Laid-Open Publication No. 10-2013-0073499 discloses an apparatus for supplying electric power to a buoy by forming electricity by electrochemical reaction under the supply of fuel, which is a fuel supply system for supplying fuel, a fuel A battery system, a control unit for supplying required power of the buoy among the power generated by the fuel cell system to the buoy and supplying the remaining power to the battery, and a battery for supplying the charged power to the control unit, . Korean Patent Registration No. 10-1173082 discloses an EVA molded article having a PE foam inside thereof, an outer EVA molded article formed on the outer surface of the EVA molded article, and a polyurea resin coated layer formed on the outer surface of the EVA molded article, And a buoy table using a buoy capable of preventing flooding and a manufacturing method thereof. However, the above-mentioned prior arts relate to an electric power supply device using a material or a battery, which is used for a display device for winning, traversing and netting. In the marine environment varying with the connection structure of the swivel of the present invention, The present invention has a technical feature different from that of the present invention of the present invention, in which the flashing LED and the reflector are used to efficiently expose the light to the outside.

In order to solve the above-mentioned problems, the present invention is characterized in that it comprises a mounting part fixed to a flag mounting table of a winning streak, a netting net and a catching fish display indicator, and a display part mounted with a LED flashing part, The solar cell and the rechargeable battery supply electric power to the LED blinking part in the display unit which can be maintained in a horizontal state even if the movement of the flag mounting table is disturbed due to the influence of the marine environment due to the connection of the mounting part and the display part, And a reflector is formed at a position corresponding to the light emitting diode, so that light generated from the LED can be efficiently radiated to the outside.

In order to attain the above object, the present invention provides a fishing display having a lure and a bulb at a lower portion connected to a flag mounting table, the display device comprising: a mounting portion fixed to a flag mounting table; and a display portion having an LED flashing portion, And the display unit mounted on the display unit is connected to a connecting member extending outwardly from the mounting portion.

The display unit having the connecting member and the LED blinking unit is connected through a swivel capable of rotating 360 degrees. The cross section of the mounting unit is formed as a concave semicircle, and the outside of the flag mounting base is enclosed by a concave semicircle and fixed by the fixing member. The connecting member provides a catch indicator having an LED flashing part bent downward in an "a" shape.

The display unit mounted with the LED blinking unit is composed of a body and an upper cover so as to be watertightly installed. Inside the display unit having the LED blinking unit, a solar panel for converting sunlight into electricity, one or more LEDs, And the upper cover forms a convex curved shape to minimize the refraction of sunlight transmitted through the inside of the display unit equipped with the LED flash unit and to enhance the projection of light radiated from the inside.

The upper cover of the display unit on which the LED blinking unit is mounted is circular in order to minimize the refraction of sunlight transmitted through the inside of the display unit equipped with the LED blinking unit and to increase the transmittance of light radiated from the inside thereof. And a control circuit formed inside the display unit on which the LED blinking unit is mounted is provided with an illuminance sensor for driving the LED when the external illuminance is detected and the illuminance reaches a predetermined level, The reflection plate provided inside the display unit is conical and has a vertex of the cone facing the LED so that the light emitted from the LED is reflected by the reflection plate and is exposed to the outside.

It produces its own electric energy by solar cell, supplies LED to need less energy, and forms reflection plate facing to LED, so that efficient light injection makes it possible to check the location of fish and farm in day and night. In addition, the display unit is manufactured by the water-tight process to prevent each device mounted inside the display unit from being exposed to the outside, and through the swivel connection structure, the display unit with the LED flashing richness can display It can be kept always horizontal, so that it is possible to maintain the continuous tag identification ability.

FIG. 1 is a diagram showing a fishing net and a fishing net using the LED blinker according to the present invention.
Fig. 2 shows a display unit of the phrase display unit according to the present invention.
3 is a cross-sectional view of Embodiment 1 of the present invention.
4 is a cross-sectional view of still another embodiment 2 of the present invention.
5 shows a solar cell used in the present invention.
6 is a perspective view of a tag display provided with a solar cell.
7 shows a basic circuit for controlling the driving of the present invention.
8 shows an LED driver circuit interlocked with LED flashing.
9 shows an oscilloscope showing the blinking time and period of the LED blinking light.
FIG. 10 shows a configuration of the embodiment of the fishing net and the fishing net using the flashing LED of the present invention, excluding the upper case.
FIG. 11 is a diagram showing a fishing net and a fishing net tag display using LED flashing according to the present invention. FIG.
FIG. 12 shows a predicted state when the turret and the fishing netting indicator using the LED flashing part of the present invention floats on the sea.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a diagram showing a fishing net and a fishing net using the LED blinker according to the present invention. The fishing display unit according to the present invention is connected to the connecting member 22 including the flag fixing member 21 and the display unit 1 on which the LED blinking unit is mounted and the connecting member 22 are connected via the swivel. The display portion 1 has a curved shape with the upper and lower portions closed, and the upper surface has a rounded curved shape. At the center of the uppermost portion of the display unit on which the LED blinking unit is mounted, a ring is formed to be connected to a connecting member connected to the mounting unit 2, and is connected to a connecting member extending outward from the mounting unit.

A swivel (23) is formed at one end of the connecting member so as to be rotatable by 360 degrees. The swivel (23) is connected to the display unit (1) equipped with the LED blinking unit so that the display unit is kept parallel to the surface of the water.

The mounting portion 2 has a horizontal cross section of a flag fixing member 21 of the mounting portion 2 so as to be able to fix the fishing indicator to the flag mounting base, With a rope or other fixing member. The concave inner surface of the flag fixing member is made of a non-slip material and squeezes the flag mounting base, and is wound around the outside with a rope or the like to securely fix it.

2 shows an example of a display unit on which an LED flashing unit of a fish display unit according to the present invention is mounted. The display unit 1 includes a top cover 11 and a body 12 and is assembled and assembled in a watertight manner. The body 12 is coupled with an upper cover constituting the display unit 1, As shown in Fig.

A solar cell 13 that receives solar light and converts it into electrical energy is formed on the uppermost portion of the body of the display unit 1. A charging means 17 for storing electric energy converted from the solar cell 13 . A reflection plate 14 for reflecting the light generated from the LED is installed at a position corresponding to the center of light emission of the LED 15 and a control circuit 16 for controlling the components Is installed.

The upper cover 11 is made of a transparent plastic material, which is watertightly processed, and is structured so as to be sealed so as to be protected from the external environment with respect to each device installed inside the display unit 1 together with the body 12. [ And can be produced by extrusion molding a resin selected from high-density polyethylene, polypropylene, polycarbonate, polyethylene terephthalate, polyvinyl chloride, nylon and ABS resin having excellent durability as a material.

It is preferable that the rechargeable battery 17 formed as a charging means capable of storing the electric energy converted from the solar battery 13 is installed at a lower portion of the plane of the solar battery. The rechargeable battery and the control circuit are connected and the LED is formed in the control circuit. A conical reflector is formed below the solar cell 13. The reflection plate is conically shaped so that the cone vertex faces the LED so that the light generated from the LED is reflected by the reflector to be exposed to the outside and the upper cover 11 is provided with a spherical portion It is preferable to be curved to the curved surface portion.

The upper cover 11 is sealed in a cylindrical shape so that the upper portion thereof is rounded so as to minimize breakage due to changes in the external environment and to secure sufficient space between the upper cover 11 and the solar cell 13, The light is directly transmitted to the solar cell 13 without changing the angle of refraction according to the thickness of the cover 11 so that the solar light can be efficiently converted into electricity and the light emitted from the LED can be radiated to the outside of the display device.

A suitable material for manufacturing the body 12 is preferably Bakelite. Bakelite is a thermosetting resin produced by condensation polymerization reaction of phenol and formaldehyde as one of synthetic resins. Bakelite is a chemical resistant plastic that has the property of an insulator that does not conduct electricity. Therefore, since Bakelite is particularly widely used in all kinds of electric apparatuses, it is an object of the present invention to protect the electric apparatus installed in the environment It is suitable as material of.

Fig. 3 is a cross-sectional view of an embodiment of the present invention, and Fig. 4 is a cross-sectional view of another embodiment of the present invention. 3 and 4 show the positions of the reflector 14, the LED 15, the control circuit 16, and the rechargeable battery 17, except for the solar battery 13, in the display unit 1, But it is preferable that the solar cell 13 is located at the uppermost part of the inside of the display unit 1 in order to efficiently receive sunlight.

3, the solar cell 13 is formed at the top of the inside of the display unit 1, the conical reflecting plate 14 is located at the lower end of the solar cell 13, At least one LED 15 is formed at the corresponding position to be reported and connected to the control board. At the lower end of the control board, one or more rechargeable batteries (17) and an illuminance sensor for flashing driving are connected to the control circuit (16).

4, the solar cell 13 is formed at the uppermost part of the inside of the display unit 1, one or more rechargeable batteries 17 are installed at the lower end of the solar cell 13, A control circuit 16 and a LED 15 for flicker driving are located at the lower end and a conical reflector is formed at a position facing the LED 15. [ In this case, the reflector is formed by processing the body as a reflector, so that the light emitted from the LED is reflected upward.

It is preferable that the reflector 14 is used in a state in which the ABS resin is subjected to aluminum vacuum deposition using a deposition facility in a state of mirror polishing after the lathe processing. ABS resin is a polymer (copolymer) composed of acrylonitrile (A), futashen (B), and styrene (S), which is superior in mechanical strength and heat resistance to other plastics. Especially, it has excellent secondary workability such as injection molding, extrusion molding and coloring, and is excellent in compatibility with another resin.

The rechargeable battery 17 used in the embodiment of the present invention is a Ni-MH rechargeable battery having a voltage of 1.2 V and a capacity of 2000 mAh and is used at a system voltage of 2.4 to 4.8 V . A rechargeable battery is a device in which the discharged current is re-introduced from the outside and the voltage is restored, that is, the current is supplied to the used battery in the reverse direction to return the contents to the original state.

The types of rechargeable batteries are mainly composed of nickel cadmium (Ni-Cd), alkaline batteries, Ni-Mh, sealed lead acid (SLA), lithium ion (Li-ion) Li-polymer). In the present invention, a Ni-MH rechargeable battery is used. The Ni-MH rechargeable battery has a large capacity among batteries using reversible characteristics of other electrochemical reactions, and has a natural discharge and a memory effect, and it is preferable to use the rechargeable battery as a rechargeable battery Do.

Fig. 5 shows a solar cell used in the present invention, and Fig. 6 shows a photograph of a fish-eye indicator provided with a solar cell. The solar cell 13 used in the present invention preferably uses a polycrystalline silicon solar cell 1.5W having Vmax = 4V and Imax = 350mA. Polycrystalline silicon for solar cells is an aggregate of single-crystal silicon regions and has superior properties to conductors and electrodes in integrated circuits, though it is superior in electrical properties to single-crystal silicon.

Other solar cells that can be used include dye-sensitized solar cells and dielectric solar cells. The dye-sensitized solar cell is a solar cell developed with cheap organic dyes and nanotechnology to achieve low cost and high energy efficiency. Since it can transmit visible light, it can be used in glass windows or automobile glass It has the advantage that it is superior in price competitiveness because it is much lower in manufacturing cost than conventional silicon solar cell. In addition, organic solar cells have functionality as a lightweight plastic solar cell. They are produced by spraying organic materials onto a substrate that can be freely and inexpensively produced, enabling mass production in various shapes. It is expected to be applicable to more kinds of electronic devices in the future.

As described above, in addition to the silicon solar cell, the dye-sensitized solar cell, or the oil-based solar cell, if the solar cell can be easily deformed in any shape or can be manufactured in accordance with the required shape, it is possible to use a GaAs compound solar cell, a CuInSe2 compound solar cell, , CdTe compound solar cell as well as any kind of solar cell.

Fig. 7 shows a basic circuit for controlling the driving of the present invention, and Fig. 8 shows an LED driving circuit interlocked with LED flashing. The control circuit 16 provided inside the display portion 1 includes the basic circuit shown in Fig. 7 and the LED driver circuit shown in Fig. The control circuit 16 is internally mounted with a micro controller (MCU) which controls the driving of the LED 15 to blink and detects the external illuminance.

Microcontroller (MCU) is a general-purpose microprocessor, which has a built-in memory (ROM, RAM) and input / output control interface circuit as well as a CPU function in one chip. Or to lower the unit price, which is preferable for use since it is consistent with the object of the present invention.

9 shows an oscilloscope showing the blinking time and period of the LED blinking light. The blinking period is set to 2 seconds and the blinking period is set to 0.3 second by the control circuit 16 of the present invention. One LED used in the embodiment of the present invention is a 1W Power LED, the LED driving current is 150mA, the driving voltage is 2.3V, and the output is 0.35W. The blinking period is set to 2 seconds and the blinking time is set to 0.3 seconds. The driving power consumption per day is 0.35 W × (0.3 seconds / 2 seconds) × 15 hours = 0.78 W, and the operation power required for 5 days is 0.78 W × 5 days = 3.9 W. The charging time is 37h / (5h / day) = 7.4 days only for the time required for charging (2000mA / 70mA) x 1.3 = 37 hours.

10 and 11 are produced directly on the basis of the embodiment of the present invention shown in FIG. 3, and FIG. 10 is an embodiment of a fishing net and a fishing net using a LED flasher according to the present invention, FIG. 11 is a diagram showing a fishing net and a fishing net tag display using the LED flashing unit according to the present invention.

10 shows a display portion 1 in which the upper cover 11 is removed and includes a solar cell 13 which is divided into upper and lower portions inside the display portion 1 and provided on the upper surface of the body 12, 13, a battery 17 having a charging means, a LED 15 as a blinker, and a reflection plate 14 for reflecting light generated from the LED at a position corresponding to the LED are inserted into the battery 17, A control circuit 16 relating to driving is mounted.

FIG. 11 shows a state in which the upper case is watertightly connected in the embodiment of the fishing net and the fishing netting tag display using the LED flashing part of the present invention described above. There is shown an embodiment in which, in addition to the basic structure disclosed in the present invention, a connecting cable for connecting the respective components, a charging cable, and one or more supporting rods connecting the body 12 located at the upper and lower portions are included. In the case where necessary components other than the basic components described are not shown, those skilled in the art can change and apply them, and a detailed description thereof will be omitted.

FIG. 12 shows a predicted state when the turret and the fishing netting indicator using the LED flashing part of the present invention floats on the sea. The phrase display device shown in Fig. 12 is for explaining the concept of the combination of the display part and the mount part by swiveling. A flags for connecting the flags from the lower weights, a flag for the tag markings, a mounting part connected to the flags, and a display unit. However, the display unit connected by the swivel capable of 360 revolutions is kept horizontal even if the mounting unit has a violent movement, so that the display unit is less influenced by the movements of the flags, And the like.

The present invention relates to an apparatus for displaying marine fishes such as fish farms, fishery markings, net markings, etc., which can be used without replacement for a long time by providing solar cells and LEDs, And the mounting part are connected by the swivel so that the display part with the LED can be maintained in equilibrium even in the fluidic change of the sea and can be used as a notification device for various purposes and forms as well as a fishing display.

1: display portion 11: upper cover
12: Body 13: Solar cell
14: reflector 15: LED
16: control circuit 17: rechargeable battery
2: mounting part 21: flag fixing member
22: connecting member 23: swivel

Claims (8)

Claims: What is claimed is: 1. A tag display comprising a flagpole,
A mounting portion fixed to an upper portion of the flag mounting table and a display portion mounted with an LED blinking portion,
The horizontal section of the mounting portion is formed as a concave semicircle and is fixed by a fixing member by wrapping the outside of the flag mounting base with a concave semicircle, and the connecting member connected to the mounting portion is bent downwardly in a "
Wherein the display unit on which the LED blinking unit is mounted is connected to a connection member extending outwardly from the mount.
The display device according to claim 1, wherein the display unit having the connecting member and the LED blinking unit is connected via a swivel capable of rotating 360 degrees.
The display device according to claim 2, wherein the display unit on which the LED blinking unit is mounted is formed of a body and an upper cover so as to be watertightly mounted, and a solar battery panel for converting sunlight into electricity, one or more LEDs, And a rechargeable battery that is connected to the rechargeable battery via a control circuit.
[4] The apparatus of claim 3, wherein the upper cover has a convex curved shape to minimize refraction of sunlight transmitted through the display unit having the LED flashing unit and to enhance projection of light radiated from the inside thereof, Fish marker
The display device according to claim 3, wherein the upper cover of the display unit on which the LED blinking unit is mounted is formed in a circular shape so as to minimize the refraction of sunlight transmitted through the inside of the display unit on which the LED blinking unit is mounted and to increase the transmittance of light radiated from the inside, Wherein the LED indicator is formed in a conical shape so as to be capable of functioning as an LED indicator
The LED display device according to claim 3, wherein the control circuit formed inside the display unit on which the LED blinking unit is mounted is provided with an illuminance sensor for sensing the external illuminance and driving the LED when the illuminance reaches a predetermined level.
The display device according to claim 3, wherein the reflector provided inside the display unit on which the LED flashing unit is mounted is formed in a conical shape so that the cone vertex faces the LED, and the light emitted from the LED is reflected by the reflector to be exposed to the outside. A flip indicator delete

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