KR20120050611A - Luminous float using optical fiber - Google Patents

Abstract

PURPOSE: A luminous float using optical fibers is provided to enable users to visually check the movement of the float when fishing in the night time by radiating side light through grooves formed on the surface of a fishing float saw. CONSTITUTION: A luminous float using optical fibers includes a fishing float saw(200), a float body(300), and a float leg(400). The fishing float saw is produced with the optical fibers, and include grooves formed on the surface with the constant interval for radiating side light. The surfaces of the grooves are coated with fluorescent paint and water-proof paint. The float body is connected to the lower side of the fishing float saw, and includes a light source lighting circuit with light sources for radiating light from the fishing float saw. The float body provides the buoyancy to the float. The float leg is connected to the lower side of the float body.

Description

Luminous Float Using Optical Fiber

The present invention relates to a fishing bobber, and more particularly to a light-emitting fishing bobber using an optical fiber that can clearly see the movement of the bobber when fishing at night.

In general, fishing bobbers maintain a constant buoyancy while the rods and bait are sinking to the ground, and convey the quality of the meat delivered by fishing line. Also do.

In addition, the bobber can serve as a pretext for the fishing bobber, and can also determine whether the bumper is on the floor or if it is caught by plants or obstacles.

Conventional fishing bobber simply floated on the water surface to identify the quality of the fish, so at night, the user could not easily identify the status of the bobber and attached a separate light emitting object to the bobbin, and the tip of the bobbin emitted light. Or it was produced to emit light from the side of the chip saw with a plurality of light emitting diodes.

However, there is a problem in that it is inconvenient to attach the light emitting object, and when the light emitting object is attached to the bobber, the light emitting object is separated during use, or the weight center of the bobber is changed so that it is not sensitive to light granules, and the battery is discharged. In order to prevent the battery to be stored separately, so there was the inconvenience of losing the battery.

In addition, it was difficult to check the movement of the bobber by emitting only the tip of the bobber, and a technique of using a plurality of light emitting diodes on the side to emit the bobber of the bobber was disclosed, but the production was cumbersome.

The present invention is to solve the conventional problems as described above, an object of the present invention is to form a scratched groove at a predetermined interval on the surface of the jig made of optical fiber, the side light (side light) through the groove Emission can be easily confirmed the movement of the sawdust, the surface of the scratched grooved tooth saw is coated with a transparent material, the light source and the light source lighting circuit for the photometric emission from the sawdust is connected to the lower end of the sawdust The light source is accommodated in the body, and the light source is to provide a light emitting fishing using the optical fiber that is lit when the body is submerged in water.

In order to achieve the object of the present invention as described above, the light emitting fishing float using the optical fiber according to the present invention is made of an optical fiber, the groove is scratched at a predetermined interval on the surface, the irradiation through the groove A side saw that emits side light for easy identification, and a chip top coated with a fluorescent paint on the surface of the scratched groove and coated with a waterproof paint thereon; A bobbin which is connected to the lower end of the jig and provides a buoyancy while receiving a light source lighting circuit including a light source for emitting light from the jig in a hollow portion therein; It is characterized in that consisting of; and jjigae connected to the lower end of the bobbin.

In the light emitting fishing tackle using the optical fiber according to the present invention, the tail body is formed with a hollow portion and the upper body is accommodated a light source lighting circuit including the light source; A lower body having a hollow part connected to a lower end of the upper body and accommodating a battery; A switch contact formed as a conductor such that a tip is exposed on an outer surface of a lower end of the peg saw 200, and the other tip is connected to a light source lighting circuit housed in the lower body; Consists of a hollow upper projection and a hollow lower projection and a flange connecting the upper projection and the lower projection, the upper body is inserted into the outer surface of the upper projection is sealed and coupled, the sealing member on the outer surface of the lower projection The lower body is screwed to the lower body is sealed and connected to the light source lighting circuit accommodated in the upper body is connected to switch on the light source lighting circuit through the water that serves as a conductor when submerged in water with the switch contact ; And a battery inserted into the lower protrusion of the connection part to supply power to the light source lighting circuit accommodated in the upper body.

In the light emitting fishing tackle using the optical fiber according to the present invention, the tail body is formed with a hollow portion and the upper body is accommodated the light source lighting circuit including a reed switch and the light source; A lower body having a hollow part connected to a lower end of the upper body and accommodating a battery; A lift chamber extending from an upper end of the upper body and having a through hole formed on an outer surface thereof soaked in water, the water escapes through the through hole and rises as water is filled to accommodate a buoyant body provided with a magnet to turn on the reed switch. Is formed surrounding the upper body to be provided, the outer shell is formed with a jaw bent end toward the upper body so that the buoyancy body is not separated to the outside; Consists of a hollow upper projection and a hollow lower projection and a flange connecting the upper projection and the lower projection, the upper body is inserted into the outer surface of the upper projection is sealed and coupled, the sealing member on the outer surface of the lower projection A connection part further including the lower body screwed and sealed; And a battery inserted into the lower protrusion of the connection part to supply power to the light source lighting circuit accommodated in the upper body.

In the light emitting fishing accessory using the optical fiber according to the present invention, the light source is characterized in that the LED.

In the light emitting fishing accessory using the optical fiber according to the present invention, the light source lighting circuit is a constant current circuit.

According to the present invention, the irradiation can easily check the movement of the claw saw at night by the light emitted through the scratched groove of the claw saw, the light source accommodated in the bobbin light only when the jimyeo immersed in water, The battery consumption can be minimized.

1 is a plan view according to a first embodiment of the present invention.
2 is a cross-sectional view according to a first embodiment of the present invention.
3 is a constant current circuit diagram according to a first embodiment of the present invention.
4 is a plan view according to a second embodiment of the present invention.
5 is a cross-sectional view according to a second embodiment of the present invention.
6 is a constant current circuit diagram according to a second embodiment of the present invention.

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

[First Embodiment]

1 to 2, the light emitting fishing bobbin (hereinafter referred to as fishing bobber) 100 using the optical fiber according to the first embodiment of the present invention is to check the movement of the fishing bobber 100 when fishing at night. It consists of the 200 and tailings 300 and tailings 400.

The sawdust 200 is made of an optical fiber and the light is not formed only at the top of the sawdust 200, but scratches the surface of the sawdust 200 to form a groove 210 and meter through the groove 210. Is released.

The optical fiber is excellent in strength and resilience of its own, replacing the conventional sawdust.

The groove 210 is preferably scratched in the shape of a dot on the surface of the saw 200, it is also possible to scratch in the shape of a predetermined interval line.

Therefore, the irradiation through the metering can see the light of the entire shape of the sawdust 200, not the light that only brightens the tip of the sawdust 200 can easily check the movement of the fishing bobber (100).

The jig saw 200 is much easier to manufacture than a jigsaw using a plurality of light emitting diodes on its side.

In addition, the scratch surface is coated with a fluorescent paint on the outer surface of the top 200, the groove 210 is formed and a waterproof coating on it to protect the top 200, or transmit the photometry.

The jaw saw 200 may be coated with a transparent coating.

The body 300 is the upper body 310 and lower body 320, the switch wire 330, the connecting portion 340, the battery 350, the light source 360, the sealing member 370, the light source lighting circuit ( 380 and the hollow portion 390 and the sealing member 370.

The bobbin body 300 is a light source lighting circuit including a light source 360 for inserting a lower end of the poke saw 200 in the upper portion, the light emitted from the poke saw 200 in the hollow portion 390 ( 380) while providing buoyancy.

The upper body 310 has a hollow portion 391 is formed, the light source lighting circuit 380 including the light source 360 is accommodated.

The lower body 320 is formed with a hollow portion 392 is connected to the lower end of the upper body 310, the hollow portion 392 is accommodated in the lower portion of the battery 350.

The switch wire 330 is a conductor and is formed such that a tip is exposed on the lower outer surface of the peg saw 310, and the other tip is connected to the light source lighting circuit 380 accommodated in the lower body 320.

The connection part 340 is a conductor and is composed of a hollow upper projection 341 and a hollow lower projection 342 and a flange 343 connecting the upper projection 341 and the lower projection 342, the upper projection The upper body 310 is inserted into the outer surface of the 341 is sealed and coupled, the lower protrusion 342 further includes a sealing member 370 on the outer surface of the lower body 320 is screwed and sealed In addition, the light source lighting circuit 380 connected to the light source lighting circuit 380 accommodated in the upper body 310 is switched on by switching the light source lighting circuit 380 through water as a conductor when submerged in water together with the switch contact 330.

The upper portion of the lower body 320 is coupled to the lower end of the connecting portion 340 (preferably screwed).

The upper part of the battery 350 is inserted into the lower protrusion 342 of the connection part 340 and supplies power to the light source lighting circuit 380 accommodated in the upper body 310 and is replaceable.

Although the type of the battery 350 is not limited, it is preferable to use a 3V lithium ion battery.

The light source 360 is in contact with the lower part of the claw saw 200 and shoots light at the claw saw 200.

As the light source 360, a high brightness LED is preferable, and various other light emitting means may be used.

For example, the module of the LED includes at least one of a white light LED module, a multi-color light emitting LED module, and the control unit separately for adjusting the color conversion time of the color conversion unit or LED module for converting the color of the LED module. It may include any one of the timing units, or may include various colors through a signal sent from the controller, including a color converter and a timing unit.

The sealing member 370 is inserted between the connecting portion 340 and the lower body 320 by the O-ring and prevents water from penetrating into the bobbin 300 and the material is preferably formed of rubber.

The light source lighting circuit 380 is preferably a constant current circuit.

The light source lighting circuit 380 is inserted into the upper body 310 and connected to the lower end of the light source 360 to flow a current to emit the light source 360.

In addition, the constant current circuit 380 prevents overcurrent and flows a certain amount of current to protect the LED which is the light source 360 and maintains the brightness of the light constantly, so that the brightness of the peg saw 200 is always constant.

In addition, the substrate of the light source lighting circuit 380 is preferably a PCB panel.

Referring to FIG. 3, the light source lighting circuit 380 enters the bobber 100 into the water. Once the switch is turned on, that is, when the switch wire 330 and the connection part 340 exposed to the lower outer surface of the sawdust 200 are electrically connected to each other through water, current flows from the 3V power supply so that the base and emitter of Q1 The collector and emitter of Q1 are turned on.

Then, the base and emitter of Q2 are turned on so that the collector and emitter of Q2 are turned on so that the light source 360 is turned on and the light saw 200 is turned on by receiving the light emitted from the light source 360.

R1 and R2 shown in FIG. 3 are protection resistors and LEDs emit light to the optical fiber with a light source 360. The switch is composed of a switch wire 330 and a connection part 340 and is submerged in water to serve as a conductor. The switch is turned on.

The constant current circuit 380 is generally a widely used technology, but in the present invention, the constant current flows to make the brightness of the peg top 200 constant, thereby extending the life of the battery 350.

In addition, the light source lighting circuit 380 may be configured in various ways without being limited to those illustrated in the drawings.

The tail leg 400 is formed to extend from the bottom of the tail body 300, that is, the lower end of the lower body 320.

The bobber 100 is buoyancy is formed so that the bobbin 200 floats perpendicular to the water surface.

In addition, the bobbin 300 and the bobbin 400 are immersed in water so that the switch contact 330 and the connecting portion 340 is turned on, the current flows.

Fishing bobber 100 according to the first embodiment of the present invention operates as follows.

The user separates the connecting portion 340 and the lower body 320, which is screwed to the bobber 100, and correctly inserts the battery 350 into the internal space.

The lower protrusion 342 and the lower body 320 of the connecting portion 340 are screwed and fitted with a sealing member 370, which is an O-ring formed of a rubber material, to prevent water from penetrating into the bobbin 300.

The user hung the fishing bobber 100 on the fishing line to be submerged in the water.

The bobber 100 is the float body 300 is buoyancy is formed, the float 200 is floated vertically on the water surface and the bobber body 300 and the tail leg 400 is submerged in the water.

When the tail body 300 and the tail leg 400 are submerged in water, the switch contact 330 and the connection part 340 formed outside the upper body 310 are turned on by conducting water as a conductor.

Thus, the user does not need to switch on or off each time the fishing starts and ends.

When the switch is ON, a current flows in the light source lighting circuit 380, and the light source 360 connected to the light source lighting circuit 380 emits light at the bottom of the jig saw 200, thereby causing the The optical fiber emits light, and not only the top but also the surface on which the groove 210 is formed emits light as a whole so that the user can clearly see the movement of the bobber 100.

The shroud 200 has an effect of extending the life of the battery 350 because the brightness is always constant by the light source lighting circuit 380.

In addition, if the bobbin 200 is a fluorescent color, at night, fishing bobber 100 is more prominent, so it is better for the user.

When the user pulls the fishing rod out of the water, there is no water that electrically connects the switch wire 330 and the connecting portion 340, so that the switch of the light source lighting circuit 380 is turned off, and thus the sawdust 200 ) Stops light emission to prevent the battery 350 from being used up.

In addition, the user does not need to separate and store the battery 350 whenever the fishing bobber 100 is not used.

[Second Embodiment]

1 to 2, the light emitting fishing bobber using the optical fiber according to the second embodiment of the present invention (hereinafter referred to as fishing bobber) 100 is for checking the movement of the fishing bobber 100 when fishing at night. It consists of the 200 and tailings 300 and tailings 400.

The sawdust 200 is made of an optical fiber and the light is not formed only at the top of the sawdust 200, but scratches the surface of the sawdust 200 to form a groove 210 and meter through the groove 210. Is released.

The optical fiber is excellent in strength and resilience of its own, replacing the conventional sawdust.

The groove 210 is preferably scratched in a point shape on the surface of the jaw saw 200, it is also possible to scratch a linear interval.

Therefore, the irradiation through the metering can see the light of the entire shape of the sawdust 200, not the light that only brightens the tip of the sawdust 200 can easily check the movement of the fishing bobber (100).

The jig saw 200 is much easier to manufacture than a jigsaw using a plurality of light emitting diodes on its side.

In addition, the scratch surface is coated with a fluorescent paint on the outer surface of the top 200, the groove 210 is formed and a waterproof coating on it to protect the top 200, or transmit the photometry.

The jaw saw 200 may be coated with a transparent coating.

The body 300 is the upper body 310 and lower body 320, the outer shell 331, the reed switch 337, the connecting portion 340, the battery 350, the light source 360, the sealing member 370 And a light source lighting circuit 380.

The bobbin body 300 is a light source lighting circuit including a light source 360 for inserting a lower end of the poke saw 200 in the upper portion, the light emitted from the poke saw 200 in the hollow portion 390 ( 380) while providing buoyancy.

The upper body 310 has a hollow portion 391 is formed, the light source lighting circuit 380 including the light source 360 is accommodated.

The lower body 320 has a hollow portion 392 is connected to the lower end of the upper body 310 and the lower portion of the battery 350 is accommodated.

The outer shell 331 has a plurality of through-holes 332 is formed on the outer surface, extending from the upper end of the upper body 310 and provided with a lifting chamber 334 to the lifting of the buoyancy body 336 is provided. It is formed surrounding the upper body 310.

The lifting chamber 334 accommodates the buoyancy body 336.

In addition, the outer shell 331 is formed with a jaw 333 bent end toward the upper body 310 so that the buoyancy body 336 is not separated to the outside.

The buoyancy body 336 is accommodated in the lifting chamber in the form of an O-ring surrounding the upper body 310 and a portion of the buoyancy body 336 is provided with a magnet 335.

When the outer shell 331 is immersed in water, the water is drawn out through the plurality of through holes 332 and the buoyancy body 336 rises as water is filled in the lifting chamber 334.

As the buoyancy body 336 rises, the reed switch 337 is turned on by the magnet 335.

Since the reed switch 337 is connected to the light source lighting circuit 380, current can be supplied through the light source lighting circuit 380 as the reed switch 337 is turned on.

In the present invention, the light source lighting circuit 380 does not constitute a lead relay, but the light source lighting circuit 380 may be fabricated by changing the light source lighting circuit 380 to a circuit constituting the lead relay according to the manufacturer's selection.

The connection part 340 connects the lower end of the upper body 310 and the upper end of the lower body 320.

The connecting portion 340 is composed of a hollow upper protrusion 341 and a hollow lower protrusion 342 and a flange 343 connecting the upper protrusion 341 and the lower protrusion 342, the upper body 310 The bottom of the light source lighting circuit 380 is fixed to the bottom of the ().

The upper body 310 is inserted into the outer surface of the upper protrusion 341 is sealed and coupled, the lower protrusion 342 further includes a sealing member 370 on the outer surface and screwed with the lower body 320 And sealed.

The lower end of the connection portion 340 is coupled to the upper portion of the lower body 320 (preferably screwed).

The upper part of the battery 350 is inserted into the lower protrusion 342 of the connection part 340 and supplies power to the light source lighting circuit 380 accommodated in the upper body 310 and is replaceable.

Although the type of the battery 350 is not limited, it is preferable to use a 3V lithium ion battery.

The light source 360 is in contact with the lower part of the claw saw 200 and shoots light at the claw saw 200.

As the light source 360, a high brightness LED is preferable, and various other light emitting means may be used.

For example, the module of the LED includes at least one of a white light LED module, a multi-color light emitting LED module, and the control unit separately for adjusting the color conversion time of the color conversion unit or LED module for converting the color of the LED module. It may include any one of the timing units, or may include various colors through a signal sent from the controller, including a color converter and a timing unit.

The sealing member 370 is inserted between the connecting portion 340 and the lower body 320 by the O-ring and prevents water from penetrating into the bobbin 300 and the material is preferably formed of rubber.

The light source lighting circuit 380 is preferably a constant current circuit.

The light source lighting circuit 380 is inserted into the upper body 310 and connected to the lower end of the light source 360 to flow a current to emit the light source 360.

In addition, the constant current circuit 380 prevents overcurrent and flows a certain amount of current to protect the LED which is the light source 360 and maintains the brightness of the light constantly, so that the brightness of the peg saw 200 is always constant.

In addition, the substrate of the light source lighting circuit 380 is preferably a PCB panel.

Referring to FIG. 6, the light source lighting circuit 380 has a current at 3V when the bobbin 100 enters the water and the switch is turned on, that is, when the reed switch 337 is turned on by the magnet 335. Flows through the base and emitter of Q1 and turns on the collector and emitter of Q1.

Then, the base and emitter of Q2 are turned on so that the collector and emitter of Q2 are turned on so that the light source 360 is turned on and the light saw 200 is turned on by receiving the light emitted from the light source 360.

R1 and R2 shown in FIG. 6 are protection resistors and LEDs emit light to the optical fiber with the light source 360.

The constant current circuit 380 is generally a widely used technology, but in the present invention, the constant current flows to make the brightness of the peg top 200 constant, thereby extending the life of the battery 350.

In addition, the light source lighting circuit 380 may be configured in various ways without being limited to those illustrated in the drawings.

The tail leg 400 is formed to extend from the bottom of the tail body 300, that is, the lower end of the lower body 320.

The bobber 100 is buoyancy is formed so that the bobbin 200 floats perpendicular to the water surface.

In addition, since the body 200 and the leg 300 are immersed in water, the buoyancy body 336 rises and the magnet 335 provided in the buoyancy body 336 turns on the reed switch 337 so that current flows. .

Fishing bobber 100 according to the second embodiment of the present invention operates as follows.

The user separates the screwed connection 340 and the lower body 320 of the bobber 100 and correctly inserts the battery 350 into the internal space.

The lower protrusion 342 and the lower body 320 of the connecting portion 340 are screwed and fitted with a sealing member 370, which is an O-ring formed of a rubber material, to prevent water from penetrating into the bobbin 300.

The user hung the fishing bobber 100 on the fishing line to be submerged in the water.

The bobber 100 is the float body 300 is buoyancy is formed, the float 200 is floated vertically to the water surface and the float body 300 and the tail leg 400 is submerged in the water.

When the tail body 300 and the tail leg 400 are submerged in water, the air in the lifting chamber 334 is filled with water through the through hole 332 formed outside the upper body 310, and the buoyancy body 336 is filled with water. The buoyancy rises inside the hoisting chamber 334.

When the buoyancy body 336 rises, the magnet 335 formed inside turns on the reed switch 337 accommodated in the upper body 310.

Thus, the user does not need to switch on or off each time the fishing starts and ends.

When the reed switch 337 is turned on, a current flows in the light source lighting circuit 380, and the light source 360 connected to the light source lighting circuit 380 shoots light at the bottom of the peg saw 200, thereby. The optical fiber of the bobbin 200 emits light, and not only the top but also the surface on which the groove 210 is formed emits light as a whole, so that the user can clearly see the movement of the bobber 100.

The shroud 200 has an effect of extending the life of the battery 350 because the brightness is always constant by the light source lighting circuit 380.

In addition, if the coating is a fluorescent color, the bobber 100 in the dark night is more visible, so it is better for the user.

As the buoyancy disappears because the water inside the lifting chamber 334 disappears, the buoyancy body 336 provided with the magnet 335 is lowered inside the lifting chamber 334, and the reed switch of the light source lighting circuit 380 is turned off. Accordingly, the peg saw 200 stops light emission to prevent the battery 350 from being exhausted.

In addition, the user does not need to separate and store the battery 350 whenever the fishing bobber 100 is not used.

In the first and second embodiments, the reference numerals 391 and 392 are not illustrated in the drawings, but are described by dividing the reference numeral 390 to describe the upper body and the lower body.

As an embodiment for carrying out the light-emitting fishing tackle using the optical fiber according to the present invention described above, the present invention is not limited to the above-described embodiment, the present invention without departing from the gist of the invention claimed in the claims below Anyone with ordinary knowledge in the field to which the invention belongs will have a technical spirit of the present invention to the extent that it can be variously modified and implemented.

100: light emitting fish using optical fiber according to the present invention
200: Chipsaw 210: Home
300: tail body 310: upper body
320: lower body 330: switch wire
331: jacket 332: through hole
333 jaw 334 elevator
335 magnet 336 buoyancy body
337: reed switch 340: connection
341: upper protrusion 342: lower protrusion
343: flange 350: battery
360: light source 370: sealing member
380: light source lighting circuit 390: hollow part
391: upper body hollow 392: lower body hollow
400: Fears

Claims (5)

The groove 210 is made of an optical fiber, and scratches are formed on the surface at regular intervals, and side light is emitted through the grooves 210 so that irradiation can easily check movement. A chip top 200 coated with a fluorescent paint on a surface on which the groove 210 is formed and coated with a waterproof paint thereon;
It is connected to the lower end of the sawdust 200, and provides a buoyancy while receiving a light source lighting circuit 380 including a light source 360 to emit light from the sawdust 200 in the hollow portion 390 therein Tailing body 300; And
Tail bridge 400 connected to the lower end of the tail body 300;
Light emitting fish using optical fiber, characterized in that consisting of. According to claim 1, wherein the tailings 300
An upper body 310 in which a hollow part 391 is formed and in which a light source lighting circuit 380 including the light source 360 is accommodated;
A lower body 320 formed with a hollow portion 392 and connected to a lower end of the upper body 310 to accommodate the battery 350;
A switch wire 330 connected to a light source lighting circuit 380 housed in the upper body 310 by forming a switch contact by exposing a tip of the lower end of the bobbin 200 as a conductor;
The hollow upper protrusion 341 and the hollow lower protrusion 342 and the flange 343 connecting the upper protrusion 341 and the lower protrusion 342, the upper portion on the outer surface of the upper protrusion 341 The body 310 is inserted and sealed and coupled, and further including a sealing member 370 on the outer surface of the lower protrusion 342, the lower body 320 is screwed and sealed, the upper body 310 A connection part 340 connected to the received light source lighting circuit 380 to switch on the light source lighting circuit 380 by water as a conductor when submerged in water together with the switch contact point 330; And
A battery 350 inserted into the lower protrusion 342 of the connection part 340 to supply power to the light source lighting circuit 380 accommodated in the upper body 310;
Light emitting fish using optical fiber, characterized in that consisting of. According to claim 1, wherein the tailings 300
An upper body 310 in which a hollow part 391 is formed and in which a light source lighting circuit 380 including a reed switch 337 and the light source 360 is accommodated;
A lower body 320 formed with a hollow portion 392 and connected to a lower end of the upper body 310 and accommodating a battery 350;
Extending from the upper end of the upper body 310, when the through hole 332 is formed on the outer surface is immersed in water as the water escapes through the through hole 332 and as the water is filled up the reed switch 337 It is formed surrounding the upper body 310 so that the lifting chamber 334 to accommodate the buoyancy body 336 is installed, the magnet 335 to turn on, the end so that the buoyancy body 336 is not separated to the outside The outer shell 331 is formed with a jaw 333 bent toward the upper body 310;
The hollow upper protrusion 341 and the hollow lower protrusion 342 and the flange 343 connecting the upper protrusion 341 and the lower protrusion 342, the upper portion on the outer surface of the upper protrusion 341 Body 310 is inserted and sealed, coupled, and further comprising a sealing member 370 on the outer surface of the lower protrusion 342, the lower body 320 is screwed to seal the connection portion 340; And
A battery 350 inserted into the lower protrusion 342 of the connection part 340 to supply power to the light source lighting circuit 380 accommodated in the upper body 310;
Light emitting fish using optical fiber, characterized in that consisting of. The method of claim 1, wherein the light source 360 is a light emitting fishing fish using an optical fiber, characterized in that the LED. According to claim 1, wherein the light source lighting circuit (380) is a light emitting fish using an optical fiber, characterized in that the constant current circuit.

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