KR20120033400A - Electronic float for fishing - Google Patents

Abstract

The present invention provides a buoyancy body vertically provided at the top, buoyant body having a buoyancy force to protrude into the water surface, and the first and second light emitting devices which are installed on the top and bottom to emit light, respectively, and the first And powering the battery to the first and second light emitting devices by rotating the battery installed inside the buoyancy body to supply power to the second light emitting device, and the rotary knob rotatably coupled to one side of the buoyancy body. On and off, and having a switch for varying the illuminance of the first and second light emitting elements in stages, and the first and second terminals spaced up and down on the claw saw and exposed to the outside, The second light emitting device is turned off when the second terminal is submerged in water, and the water level detection sensor is turned on when one or both of the first and second terminals are exposed from the water surface. Containing electronic bobbin to provide.
According to the present invention, avoiding the use of environmental pollutants, it is possible to quickly and easily determine the quality of fish and fishing at night as well as daytime, excellent waterproofness, minimizing the battery installation space due to the built-in battery case It is possible to reduce the power consumption of the battery while preventing the fish from accessing due to excessive brightness due to the two-stage illumination control, which can reduce the brightness to a certain amount, for example 50%, depending on the situation.

Description

ELECTRONIC FLOAT FOR FISHING}

The present invention relates to an electronic bobbin for making it easy to determine the quality and fishing of the fish, and to quickly check the position and flow of the bobber during the day and night, especially at night.

In general, fishing requires tools such as fishing rods, fishing lines, fishing needles, bobbers, baits and the like. Among these fishing tackle, steaming fish is attached to a fishing line so as to quickly find out when a fish catches a bait and is floated on the water.It is made of a material such as hard synthetic resin or wood so as to have buoyancy. It has a structure formed hollow to have an air layer.

This steaming is an important tool that can be used to check the quality and fishing of fish generated in the water from the outside, and it is installed at an appropriate position according to the depth of the water. It is a state, and the flow up and down according to the mouth quality of the fish to allow the user to determine the quality of the fish.

However, it is not easy to determine the flow of the conventional steaming fish for the quality of the fish, in particular, it is difficult to determine the flow at night, and had a problem that the fishing is subject to a significant limitation.

In addition, the chemical light consisting of chemicals is inserted into the upper portion of the float detection bobber used for enjoying night fishing, but the chemical light is a one-time use, and the main components are hydrogen peroxide and oxalochloride, which are toxic substances. . Therefore, such chemical light has been considered as the main cause of soil pollution and water pollution along with fishing rods and bongdolnap, rice cakes, which has led to the need to develop eco-friendly night fishing bobbers. Therefore, due to this problem, an electronic bobbin emitting light by the battery has been developed and used.

However, the conventional electronic bobbin lacks waterproofness and requires a puncture on the body of the balsa wood for insertion of the battery case, resulting in condensation due to the difference between the internal temperature and the external temperature due to excessive puncturing, and lack of daytime visibility. At night, excessive light sources prevented fish from approaching, and the battery life was short due to constant lighting.

The present invention is to solve the problems with the conventional bobber as described above, to avoid the use of substances that cause environmental pollution, to facilitate the determination of the quality and fishing of fish, especially at night Make it easy to determine position and flow.

In addition, it is excellent in water resistance to protect internal parts from moisture, and the built-in battery case enables miniaturization of the battery mounting space, and can be manufactured for visibility even during the day, and reduces the brightness to a certain amount, for example, 50%. The two-stage dimming control prevents fish from being accessed by excessive light levels while reducing power consumption.

According to an aspect of the present invention for achieving the above object, as an electronic bobbin for fishing, buoyancy body is provided vertically on the top, buoyant body having a buoyancy to protrude the bobbin into the water surface, and positioned vertically on the bobbin First and second light emitting elements installed to emit light, respectively, a battery installed inside the buoyancy body to supply power to the first and second light emitting elements, and rotatably on one side of the buoyancy body. The on / off power of the battery is turned on to the first and second light emitting devices by the rotation of the rotating knob, and the illumination intensity of the first and second light emitting devices is varied step by step. A switch and first and second terminals spaced apart from each other vertically to the claw saw and exposed to the outside, and the second light emitting element is turned off when the first and second terminals are submerged in water. And a water level detection sensor that turns on the second light emitting device when any one or both of the first and second terminals are exposed from the surface of the water.

In addition, the first and second light emitting devices and the water level detection sensor are integrally manufactured to be embedded in the mold of light transmissive material, respectively, and are characterized in that they are assembled to the claw saw.

In addition, the first light emitting device is installed on the top of the jig saw, the second light emitting device is characterized in that it is provided below the first light emitting device and installed above the first and second terminals.

The switch may be rotatably coupled to the buoyancy body in a state where the rotary knob is kept airtight by an O-ring, and the first electrode of the battery mounted inside the rotary knob via a battery case. Second and third contacts having a first contact connected to the second electrode of the battery and selectively connected to the rotary knob by rotation, respectively, to vary the illuminance of the first and second light emitting devices in two stages. It is characterized by having.

According to the electronic bobbin according to the present invention, avoiding the use of environmental pollutants, it is possible to easily determine the quality and fishing of the fish, in particular to allow the user to quickly check the position and flow of the bobber at night, and for such judgment Operational reliability is excellent.

In addition, it is excellent in water resistance to protect the internal parts from moisture, the built-in battery case is possible to minimize the production space of the battery, can be manufactured to be excellent visibility even during the day, depending on the situation, a certain amount of brightness, such as 50 The two-stage dimming control, which can be reduced to%, prevents fish from being accessed by excessive light levels, while also reducing battery power consumption.

1 is a front view showing the electronic bobbin according to the present invention,
Figure 2 is a side cross-sectional view showing a switch of the electronic bobbin according to the present invention,
3 is a plan sectional view showing a switch of an electronic bobbin according to the present invention;
Figure 4 is a circuit diagram showing a water level detection sensor of the electronic member according to the present invention,
5 and 6 are views for explaining the operation of the electronic bobbin according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art, the following examples may be modified in various other forms, the scope of the present invention Is not limited to the following examples.

1 is a front view showing an electronic bobbin according to the present invention.

As shown in FIG. 1, the electronic bobbin 100 according to the present invention includes a buoyancy body 110 having a jig saw 111 and first and second light emitting devices 120 and 130 respectively installed on tops of the jig top 111. And a battery 140 (shown in FIG. 2) installed inside the buoyancy body 110 to supply power to the first and second light emitting devices 120 and 130, and a battery in the first and second light emitting devices 120 and 130. A switch 150 installed in the buoyancy body 110 to turn on / off the power of the 140 and to vary the illuminance of the first and second light emitting devices 120 and 130 step by step; And a water level detection sensor 160 (shown in FIG. 4) having first and second terminals 161 and 162 spaced vertically apart from the peg saw 111 and exposed to the outside.

The buoyancy body 110 is provided with a jigsaw 111 is engraved vertically in the upper portion, and the tail tail 112 is provided vertically in the lower portion, it may be made of synthetic resin, wood, etc. Due to the structural characteristics such as the air layer, the peg saw 111 has buoyancy for protruding to the water surface. In addition, the buoyancy body 110 may be made visible by day and night by applying an optical fiber and a special fluorescent paint, and can increase the durability by using a high-quality launch and high-quality paint.

The first light emitting device 120 may be installed on the top of the jig saw 111, the light is supplied to the battery 140 by the on (on) of the switch 150 to emit light to the electronic bobbin 100 Make the location easy to identify.

The second light emitting device 130 is installed on the claw saw 111, may be located below the first light emitting device 120, and is normally exposed from the surface by the buoyancy of the buoyancy body 110, while the buoyancy body ( 110 may be installed above the first and second terminals 161 and 162 so as to be submerged in the water when descending by the mouth of the fish or fishing.

The first and second light emitting devices 120 and 130 may be made of, for example, LEDs, and are embedded in a chip top 111 made of a synthetic resin of a light transmissive material, thereby allowing light to be emitted to the outside while maintaining airtightness with water.

The battery 140 (shown in FIG. 2) is connected to a connection member, a circuit, etc. made of a conductor so as to supply power to the first and second light emitting devices 120 and 130, respectively, and the first and second light emission by the switch 150. The connection with the devices 120 and 130 may be opened and closed, and a battery having various structures and methods for power supply may be used. For example, a 3V lithium battery may be used.

As shown in FIGS. 2 and 3, the switch 150 is rotatably coupled to one side of the buoyancy body 110, for example, a rotary knob 151 at an airtight state by the O-ring 152. And a first contact 153 connected to the first electrode 141 of the battery 140 mounted inside the rotary knob 151 via the battery case 143, and the second electrode of the battery 140. Second and third contact points for selectively changing the illuminance of the first and second light emitting elements 120 and 130 to two stages, for example, 100% and 50%, by being selectively connected to the rotary knob 151 by rotation, respectively. 154, 155). Here, the battery 140 is mounted on one side of the rotary knob 151 so as to coincide with the center of rotation, and the first electrode 141 provided along the longitudinal direction from the center protrudes to one side of the battery case 143. The second electrode 142 is provided, the second electrode 142 is installed to protrude to one side from the rotary knob 151. Meanwhile, a washer-type packing may be interposed between the rotary knob 151 and the buoyancy body 110 together with the O-ring 152 to maintain the airtightness of the rotary knob 151. It may be.

The first contact 153 is formed in a tube shape to be fitted to the first electrode 141, and the second and third contacts 154 and 155 are provided around the rotation radius of the second electrode 142, respectively. Accordingly, the switch 150 has the second electrode at the second contact 154 by the rotation of the rotary knob 151 while the first contact 153 is connected to the first electrode 141 of the battery 140. When 142 contacts, the power supply of the battery 140 is turned on, and the amount of light emitted from the first and second light emitting devices 120 and 130 is maximized, and the second electrode is connected to the third contact 155. When 142 contacts, the power supply of the battery 140 is turned on and the amount of light emitted from the first and second light emitting devices 120 and 130 is minimized, and the second and third contacts 154 and 155 are provided. When the second electrode 142 is not in contact with the second electrode 142, the power of the battery 140 is turned off. The circuit for the operation may be configured to be electrically connected to the first and second light emitting devices 120 and 130. On, off, and two-stage brightness of the first and second light emitting devices 120 and 130 may be adjusted.

The water level detection sensor 160 (shown in FIG. 6) has first and second terminals 161 and 162 attached to the shroud 111 to be exposed to the outside, and the first and second terminals 161 and 162 are underwater. The second light emitting device 130 is turned off when locked to the second light emitting device 130. When either or both of the first and second terminals 161 and 162 are exposed from the water surface, the second light emitting device 130 is turned on. .

As shown in FIG. 4, the water level detection sensor 160 includes a PCB (first and second terminals 161 and 162 electrically connected to each other and mounted inside the buoyancy body 110 to be configured as a circuit for detecting the water level). 163 (shown in FIG. 1), in which the first and second light emitting devices 120 and 130 are turned on, when the buoyancy body 110 descends due to the fish's mouth or fishing, The second terminals 161 and 162 are locked below the surface of the water to cancel the bias current of TR1 due to the resistance of water so that the second light emitting device 130 is turned off and waits, and the buoyancy body 110 is raised to the first and second. When some or all of the terminals 161 and 162 are exposed in water, a bias current of TR1 flows to turn on the second light emitting device 130, thereby enabling the fish to check the quality of the fish from outside.

On the other hand, the switch 150 may directly include a circuit for performing a function for turning on / off (power) of the power supply and illuminance control, the circuit portion for this function is different from the PCB 163 It may be implemented to be included.

The first and second light emitting devices 120 and 130 and the water level detection sensor 160 are integrally manufactured to be embedded in a mold made of a synthetic resin made of a light transmissive material, and the like. The tube may be assembled to maintain airtightness, and at this time, the first and second light emitting elements 110 and 130 and the water level sensor 160 may be connected to the battery 140 and the switch inside the parts connected to each other. A connection for connecting to 150 may be provided.

Referring to the operation of the electronic bobbin according to the present invention having such a configuration as follows.

When the electronic bobbin 100 according to the present invention is brought into the water while the power of the battery 140 is supplied to the first and second light emitting devices 120 and 130 by the rotation of the switch 150, the buoyancy body 110 is provided. Due to the buoyancy of the peg saw 111 protrudes upwards. Meanwhile, before the acquisition, the light amount of the first and second light emitting devices 120 and 130 may be varied in two stages according to the rotation angle of the rotary knob 151.

When the electronic device 100 is obtained, the first light emitting device 120 is constantly turned on by the on of the switch 150 so that its position can be easily confirmed from the outside.

The second light emitting device 130 turns on the power of the battery 140 when some or all of the first and second terminals 161 and 162 of the detection sensor 160 are exposed from the water with the switch 150 turned on. 5, the first and second terminals 161 and 162 are locked below the surface of the water when the buoyancy body 110 descends due to the fish's mouth or fishing. 4, the light is turned off by canceling the bias current of FIG. 4, and as shown in FIG. When is exposed to the water, the bias current of TR1 (shown in Figure 4) is turned on, which makes it easy to check the quality and fishing of fish at night.

As described above, the electronic bobbin according to the present invention has been described with reference to the accompanying drawings, but various modifications and changes can be made without departing from the technical spirit of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the following claims.

110: buoyancy body 111: saw
112: tail tail 120: first light emitting element
130: second light emitting element 140: battery
141: first electrode 142: second electrode
143: battery case 150: switch
151: rotary knob 152: O-ring
153: first contact 154: second contact
155: third contact point 160: water level detection sensor
161: first terminal 162: second terminal
163: PCB

Claims (4)

As an electronic bobber for fishing,
A buoyancy body provided vertically on an upper part and having a buoyancy force for protruding from the water surface;
First and second light emitting devices positioned up and down on the peg top to emit light, respectively;
A battery installed inside the buoyancy body to supply power to the first and second light emitting elements;
The power of the battery is turned on / off by the rotation of the rotary knob rotatably coupled to one side of the buoyancy body, and the first and second A switch for varying the illuminance of the light emitting device in stages,
The first and second terminals are spaced up and down and exposed to the outside, and the second light emitting device is turned off when the first and second terminals are submerged in water, and the first and second terminals are turned off. Water level detection sensor to turn on the second light emitting device when any one or both of the terminals are exposed from the surface
Electronic bobber comprising a.
The method of claim 1, wherein the first and second light emitting elements and the water level detection sensor,
The electronic bobbin is characterized in that it is integrally manufactured so as to be embedded in the mold of the light-transmitting material, respectively, and assembled to the bobbin.
The method of claim 1 or 2, wherein the first light emitting device is installed on the top of the jig saw,
The second light emitting device is located on the lower side of the first light emitting device, characterized in that installed on the upper side of the first and second terminals.
The method of claim 1, wherein the switch,
A first contact connected to the buoyancy body rotatably with the rotary knob in an airtight state by an O-ring, and connected to a first electrode of the battery mounted inside the rotary knob via a battery case; And a second and a third contact point which is selectively connected to the second electrode of the battery by rotation to the rotary knob, respectively, to change the illuminance of the first and second light emitting elements in two stages. .

Images