KR200308327Y1 - High Brightness Freshwater Electronic Bobber Using Fine Optical Fiber - Google Patents

Abstract

This design is made by using a bobber used for freshwater fishing. It is made by integrating an optical fiber rod used by embedding a light emitting diode and a battery inside the bobber to emit light when needed. High brightness freshwater electronics using fine optical fiber developed for the purpose of not only sprinkling a strong fisheye at night, but also giving a strong light at the same time as a thin jigsaw. It is about.

The top of the upper body (1) of the present invention is integrally integrated into the top tube tube (3) fluorescently painted in a plurality of colors in multiple stages and the optical fiber (7) in the through hole (10) in the center of the upper body (1) Insert the black dust collection center cover 11 into which the light emitting diodes 5 processed at the top of the flat surface 4 are embedded, and the socket 6 having the light emitting diodes is combined with the lower body ( It is characterized in that it is integrated by fitting 2).

Description

High brightness freshwater electronic bobber using fine optical fiber

This design is made by using a bobber used for freshwater fishing. It is made by integrating an optical fiber rod used by embedding a light emitting diode and a battery inside the bobber to emit light when needed. High brightness freshwater electronics using fine optical fiber developed for the purpose of not only dispersing strong light at night, but also allowing you to feel sensitive fishery at night as well as use it for a long time without sprinkling. It is about.

Conventionally, electronic bobbins using optical fibers have been used for dark night fishing.

However, in the conventional electronic bobbin structure, as shown in FIG. 5, the socket 22 having the light emitting diodes 21 integrated into the inner space of the upper body 20 is coupled, and the optical fiber bobbin 23 is formed at the upper end of the upper body 20. However, when the thickness of the saw blade (23) is less than 1mm, the phenomenon of bending and folding occurs due to the change of temperature due to the characteristics of the optical fiber of acrylic material, and the phenomenon of being broken even in the small impact during the winter season is inevitable. Thick and heavy optical fiber with a thickness of about 1.5 ~ 2mm or more is used. .

In the above electronic bobbin, a plurality of colors are used as fluorescent colors so that they can be easily identified at a distance by the naked eye, but in order to be more easily identified at a distance, the optical fiber bobbin 23 is absorbed using a knife or a sharp tool as shown in FIG. (24) is made out.

When the absorption occurs on the surface of the optical fiber characteristics, the absorption portion 24 emits a stronger light than other portions.

In order to make the best use of the characteristics of the optical fiber to give a strong light, the absorbing 24 is used in multiple stages with partial spacing on the optical fiber bobbin used as the electronic bobber.

As a problem in using as described above, in order to use as a bobber for fishing, the bobbin part must be kept in a straight shape with the upper body 20 in order to be productive and easy to identify during use, so that the bobbin is not easily bent. Coarse optical fiber bobbin (23) is to be used because of this, the fishing bobber becomes heavy as a whole.

When the light is turned on, the distance between the tip of the inner side of the optical fiber shroud 23 is as far apart as the thickness of the light emitting diode, and the optical fiber jig is not exactly aligned at the center of the light emitting diode 13 of the light emitting diode to collect the light. It is not spread to the whole of the upper body 20, due to this, the cohesive force of the light transmitted to the optical fiber claw saw (23) is not good to give a bright light, as well as to ensure a uniform quality of light in various ways during mass production there is a problem.

The bigger problem is that the intake (24) part of the surface of the peg saw, which is made to expose the bright light, tends to be scattered easily even in the minute impact during use.In winter, when the water temperature is low, the problem occurs much more. It has a defect that bends easily when used.

The present invention was developed to improve the above problems, and the optical fiber bobbin used for the transmission of light uses a fiber of fine thickness, and the structure of the bobbin is double structured to be strong against external impacts, thus maintaining the straightness of the bobbin. Thin and light weight can be obtained, and the top surface of the light emitting diode was processed in a flat surface and dust collection center cover was put on the light emitting diode to produce uniform quality. It is explained in detail according to the attached drawings as follows. .

1 is an exploded perspective view of the present invention

2 is a partial longitudinal cross-sectional view of the present invention

3 is a partial longitudinal sectional view of another embodiment of the present invention;

Figure 4 is a front view of the state processed the upper end of the light emitting diode used in the present invention

5 is a front view before processing a light emitting diode used in the present invention

Figure 6 is a partial cross-sectional view of the conventional fresh water electronic bobbin

Figure 7 is an illustration of the scratches on the optical fiber rod portion used in conventional freshwater electronic bobber

Explanation of symbols on the main parts of the drawing

1: upper body 2: lower body

3: crowbar tube tube 4: flat

5: light emitting diode 6: socket

7: optical fiber 10: through hole

11: Dust collection center cover 30: Shape memory wire

The present invention is integral to the top of the upper body (1) in a multi-stage fluorescent paint-painted tube tube (3) integrally and the optical fiber (7) in the through-hole (10) in the center of the upper body (1) The black dust-collecting center cover 11 into which the light emitting diode 5 is processed is embedded in the plane 4, and the socket 6 in which the light emitting diode is integrated is combined.

Then, the lower body 2 is inserted into the lower part of the socket 6, and the lower body 2 is inserted into the lower part of the upper body 1 only when using the present invention. Then insert the lithium battery (12) into the socket (6) and then insert the lower body (2) to integrate and then use.

In the above, the light emitting diode 5 may be used in a state in which the upper end is rounded as shown in FIG. 4, but the upper end of the light emitting diode 5 may be processed so that the light emitting diode 5 of the light emitting diode 5 has an optical fiber ( 7) in order to make the illuminance as high as possible.

And when the socket 6 is fixed to the lower portion of the upper body 1, the optical fiber 7 is slowly inserted into the space portion 8 of the top tube tube 3, and then the socket 6 is coupled.

When the lithium battery 12 is inserted into the socket 6 in order to use the present invention, the current flows through the light emitting diodes 5 to emit light.

In this case, the light emitted from the light emitting diodes 5 is collected by the black dust collecting center cover 11 so that the light does not flow to the outside and is sent intensively to only one through-hole 10 in the center.

The light collected in the central through hole 10 of the black dust collecting center cover 11 is transmitted to the optical fiber 7 inserted into the through hole 10, and the light transmitted to the optical fiber 7 is returned to the top tube tube. 3) It is easy to identify from the outside because it emits light to the outside.

The black dust-collecting center cover 11 used by covering the light emitting diodes 5 has a through hole 10 formed in the center portion of the light emitting diodes 5 so as to be positioned at the center of the light emitting element 14 of the light emitting diodes 5 so that the light is at the highest luminance. Delivers to optical fiber,

In addition, to brighten the top tube tube 3 as much as possible by using a knife or a sharp tool on the surface of the optical fiber (7) inserted into the space (8) will be able to produce a brighter light.

In the freshwater electronic bobbin, the shape memory wire 30 is adhesively fixed to the optical fiber 7 at the point where the top tube tube 3 and the upper body 1 are coupled to reinforce the most vulnerable part to the impact. give.

The thickness of the shape memory wire 30 bonded to the optical fiber 7 at the point where the top tube tube 3 and the upper body 1 are joined is used to a thickness of about 30 to 50 mm.

The embedding of the shape memory wire 30 distributes the force evenly to the entire area of the saw blade even when the impact is bent during use to reinforce the scattering phenomenon of the saw blade, so that it can be restored in a straight line immediately after the bend so as to accurately detect the fisherman. It was.

In this way, the present invention can use optical fiber of 0.25mm, 0.5mm, 0.75mm thickness by using the saw tube tube tube, so that it can reduce the weight of the electronic bobber to a minimum. Reinforcement of cracking of the sawdust by the light-reinforcement and by connecting the optical fiber and the light emitting diode to the dust collection center cover, the light is not dispersed to the outside and the top of the light emitting diode is processed flat so that the optical fiber is in close contact with the light emitting body. The light coming from can keep the same quality in all products during mass production.

In addition, the dual structure inserting the optical fiber into the tube tube tube is excellent in elasticity, it is developed to produce a fine-grained electronic jig saw by obtaining a high brightness light using a very fine thickness optical fiber.

Claims (2)

The upper body (1) is integrated into the top tube tube (3) fluorescently painted in a plurality of colors in multiple stages on the upper body (1) and the optical fiber (7) is inserted into the through hole (10) in the center of the upper body (1) The black dust collecting center cover 11 is fitted with a light emitting diode 5 processed by the upper surface of the flat surface 4 so that the lower body 2 is attached to the lower portion after engaging the socket 6 having the light emitting diode integrated therein. High-brightness freshwater electronics using fine optical fiber, characterized by integrated one piece. The fine optical fiber according to claim 1, wherein the shape memory wire 30 is adhesively fixed to the optical fiber 7 at a point where the top tube tube 3 and the upper body 1 are coupled to each other. High brightness fresh water electronic bobber.