KR100605304B1 - The electronic float having the charge system using of the solar cell - Google Patents

Abstract

The present invention relates to a rechargeable electronic fishing bobber using a solar cell, and a built-in solar cell to charge a rechargeable battery from sunlight, and to control the light emitting state of the internal LED by a solar light source and a built-in sleep detection sensor. will be.

The present invention charges the rechargeable battery 22 from the sun by embedding the solar cell 21 inside the body 10 of the bobber, and emits LED 30 by the power of the rechargeable battery 22, the solar The circuit operating unit 20 is configured to control the light emission state by the output of the cell 21 and the sleep detection sensor 25. The circuit operating unit 20 collects sunlight and converts it into electrical energy. The charge control unit 23 controls to charge the rechargeable battery 22 by using the cell 21, and monitors the output of the solar cell 21 to supply power to the rechargeable battery 22 while there is sunlight. Solar output controller 24 to control the light emitting circuit when the solar light disappears, the two terminals A and B exposed to the outside when the bobber hit the water as a conductor, the LED (as the current flows) Sleep detection sensor for controlling the supply power for the light emission of 30 25), a timer 29 for maintaining a light emitting state for a predetermined time even if the bobber comes out of the water for a while in use, IC 1 for starting the light emitting circuit by receiving a signal from the cell output control unit 24 ( 26), the control signal of the IC 1 (26) and the sleep detection sensor (25) are turned on to calculate the applied input signal to control the output of the circuit IC 2 (27), the output from the IC 2 (27) It is configured to include an IC 3 (28) for inverting the signal to emit the LED 30, and the body 10 of the fishing bobber is the upper body 11 and the lower ( 12), a male screw portion 11 'is formed on the lower outer periphery of the upper body 11, and a female screw portion 12' is formed on the upper inner circumference of the lower body 12 corresponding thereto. The waterproof packing 13 is screwed in the inserted state, the lower body 12 The peripheral surface of the water detecting sensor 25 is provided with symmetrically formed on the exposed to the outside and is provided with the balance balance weight 14 of predetermined weight for holding a bottom center of the inner side of float body 10 of.

The present invention has a built-in solar cell inside the fishing bobber to charge and use the rechargeable battery from the solar light source, thereby minimizing the consumption of disposable batteries, preventing environmental pollution due to the use of disposable batteries, as well as frequent use of disposable batteries Reduces the cost of replacement and improves the economics.By recharging the rechargeable battery through the built-in solar cell, there is no need to disassemble the body of the bobber once assembled and produced. In addition, the convenience of use, as well as by the water detection sensor provided to be exposed to the outside of the body of the fishing bobber is thrown into the water to have the built-in light-emitting diode is turned on only in a floating state to eliminate the unnecessary battery consumption.

Fishing Bobber, Cell, Rechargeable Battery, Timer, LED, Sleep Detection Sensor

Description

The electronic float having the charge system using of the solar cell}

1 is a full external perspective view of an electronic fishing bobber according to the present invention;

Figure 2 is an exploded cross-sectional view showing the internal configuration of the fishing bobber according to the present invention

Figure 3 is an assembled cross-sectional view showing the internal configuration of the fishing bobber according to the present invention

Figure 4 is an internal circuit diagram of a fishing bobber according to the present invention

[Description of Symbols for Main Parts of Drawing]

10: body 11: upper body 11 ': male thread portion

12: lower body 12 ': female thread portion 13: waterproof packing

14: balance weight 20: circuit operation portion 21: solar cell

22: rechargeable battery 23: charge control unit 24: cell output control unit

25: sleep detection sensor 26: IC 1 27: IC 2

28: IC 3 29: Timer 30: LED

The present invention relates to a rechargeable electronic fishing bobber using a solar cell, and in particular, a solar cell is built in the fishing bobber to charge a rechargeable battery from sunlight, and a light source and a built-in sleep detection sensor control the light emitting state of the internal LED. By minimizing the battery consumption of the bobber, it is not necessary to replace the battery repeatedly, to increase the watertightness of the bobber, and to increase the economic efficiency through cost reduction.

In general, fishing bobbers are one of the fishing gears that play an important role in visualizing the timing of the fish by sensing the quality of the fish, and are usually divided into freshwater fishing and sea fishing bobs, which are used in combination with those that can be used separately for day and night. There are many kinds, including things that can be done.

In particular, in the case of a light-emitting fishing bobber, that is, an electronic bobber used at night, a coating of luminous paint on the body and a chemical light that generates light by reacting a chemical contained in the outer shell and the capillary tube are used. In addition, the luminous fishing bobber has a weak light intensity or a short luminous time required for night fishing.

In addition, the chemical light has a light emission time of about 6 hours and is a disposable one, and it is inconvenient to be replaced frequently, and above all, when the material is illegally dumped in the natural environment, the material and the inside of the polypropylene jacket and capillary glass There is a problem in that a chemical substance such as oxalate (Oxalate), hydrogen peroxide (H 2 O 2) containing a light emitting material causes serious environmental pollution.

As an alternative to the above-mentioned light-emitting fishing bobber, a light-emitting diode (LED) and a built-in fishing bobber (aka: electronic bobber) inside the body are widely used, and the fishing bobber using the light-emitting diode is simply used at night. Advances have been made in the function of displaying only the location and improved to enable the angler to detect whether or not fishery is detected.

By the way, in the conventional electronic bobbin, usually by increasing the power for night fishing, the power is supplied by the battery in some way, so that the light emitting diode is lit, so that the battery is only consumed during the day even though the light of the light emitting diode is unnecessary. In order to prevent the use of day and night for distinguishing, there was a problem in that the number of fishing items increases and the cost increases.

In addition, when using a fishing bobber for both day and night as described above, the fishing bobbin body must be disassembled and grounded and reassembled so that the built-in LED is not lit during the day, which is very cumbersome and inconvenient to use. There will be, a problem that is not properly waterproof due to the repetitive work of disassembly and reassembly of the bobber body as described above was raised.

In addition, the use of disposable batteries usually causes wear and detachment of the waterproof packing due to frequent battery replacement, which causes a failure and degrades durability, and water quality due to heavy metals discharged from discarded batteries. There was a problem of polluting the environment and the surrounding environment.

The present invention is to solve the problems of the prior art as described above, by embedding a solar cell inside the fishing bobber to charge and use the rechargeable battery from the solar light source, thereby minimizing the consumption of disposable batteries, the environment according to the use of disposable batteries In addition to preventing contamination, the aim is to increase the economics by reducing the cost of frequent replacement of disposable batteries.

In addition, the present invention does not need to disassemble the fishing bobber body once assembled produced by charging the rechargeable battery through the built-in solar cell to maintain a good waterproof state and to prevent failure to increase the durability, enhance the convenience of use Another purpose.

In addition, another object of the present invention is to eliminate unnecessary battery consumption by allowing the built-in light emitting diode to be turned on only when the float is thrown into the water by the water detection sensor provided to be exposed to the outside of the body of the bobber.

In order to achieve the above object, in the present invention, a solar cell is built and the solar cell is collected during the daytime when sunlight shines, and the solar cell is collected and converted into electricity to charge a rechargeable battery, and solar light disappears. At night time, the battery stops charging and floats and detects moisture from the sleep detection sensor.

The present invention relates to a rechargeable electronic fishing bobber using a solar cell, and in particular, a solar cell is built in the fishing bobber to charge a rechargeable battery from sunlight, and a light source and a built-in sleep detection sensor control the light emitting state of the internal LED. By minimizing the battery consumption of the bobber, it is not necessary to replace the battery repeatedly, to increase the watertightness of the bobber, and to increase the economic efficiency through cost reduction.

Electronic fishing bobber according to the present invention has a built-in solar cell and during the daytime when the sunlight shines, using the solar cell to collect the solar light source and convert it into electricity to charge the rechargeable battery, the night time when the sunlight disappears When it stops and floats and detects moisture from the surface detection sensor, it is configured to emit power by receiving power from a charged rechargeable battery.

As a reference diagram for explaining the present invention, Figure 1 is an entire external perspective view of the electronic fishing bobber according to the present invention, Figure 2 is an exploded cross-sectional view showing the internal configuration of the fishing bobber according to the present invention, Figure 3 is the inside of the fishing bobber according to the present invention 4 is an internal circuit diagram of a fishing bobber according to the present invention. Hereinafter, a detailed configuration will be described.

First, the body 10 of the electronic fishing bobber according to the present invention is divided into an upper body 11 and a lower body 12 in a streamlined form with good overall floating force, and the upper body 11 and the lower body 12 are screws In other words, a male threaded portion 11 'is formed on the lower outer periphery of the upper body 11 and a female threaded portion 12' is formed on the upper inner circumference of the lower body 12 corresponding thereto. It is to be assembled, but when the screw is coupled between the waterproof packing 13 is inserted to maintain the waterproof state.

In addition, on the outer periphery of the lower body 12 is provided symmetrically so that the water surface detection sensor 25 is exposed to the outside, a portion of the lower body 12 is obtained in the state in which the bobber body 10 is thrown into the water floating When the moisture is detected, the built-in LED 30 is configured to emit light, and at the center lower side of the lower body 12, a balance weight 14 having a predetermined weight for balancing the bobber body 10 is provided.

In addition, such a bobbin body 10, in particular, including a solar cell 21 to collect and convert the sunlight from the solar light source into electrical energy, the rechargeable battery 22 to charge the electricity through the solar cell 21 ), The circuit operation unit 20 is configured to include a light emitting LED (30), etc. to increase the discrimination of the mouth when fishing at night by using the charging electricity of the rechargeable battery 22 as a power source, the lower body The sleep detection sensor 25 provided to be exposed to the 12 is also connected to the circuit operation unit 20 to control the light emitting operation of the LED 30.

In this case, the solar cell 21 is configured to have a power output in the range of 4.5V to 6V to charge the rechargeable battery 22 within a constant voltage of 3V, and in general, the power output per unit area of the standard solar cell is yes. For example, when the size of the cell is 10cm × 10cm, a voltage of DC 0.47V (about 0.5V) and a current of 3A (ampere) can be obtained, and the size of the cell is 1/2 or 1/4 When cut to size, the current is reduced to 1.5A and 0.75A, respectively, but the voltage remains unchanged at 0.47V, so when these three cells are connected in series, they become 0.47V + 0.47V + 0.47V ≒ 1.5V. If you want to get 3V power, you can connect 6 solar cells in series. If you want to increase the amount of current, if you connect solar cells in parallel, only the current increases without any change.

In addition, in the case of the surface detection sensor 25, the fishing bobber is launched to the surface of the water at the same time the two terminals A, B exposed to the outside of the lower body 12 of the fishing bobber body 10, the water is a conductor to the current Accordingly, the power supply for emitting light of the LED 30 is controlled, and the LEDs 30 are symmetrically provided so that the LEDs 30 emit light simultaneously in series.

Looking at a more detailed configuration of the internal circuit operation unit 20 of the present invention, the charge control to charge the electricity to the rechargeable battery 22 by using the solar cell 21 to capture the sunlight and convert it into electrical energy The controller 23 monitors the output of the solar cell 21 to supply power to the rechargeable battery 22 while the solar light is on, and to control the driving of the light emitting circuit when the solar light disappears. When the bobber starts to surface, the two A and B terminals exposed to the outside are water conductors, and the surface detection sensor 25 controls the power supply for emitting the LED 30 as the current flows. Timer 29 for maintaining a light emitting state for a predetermined time even if out of the water for a short time in use, for starting the light emitting circuit by receiving a signal from the cell output control unit 24 for this operation IC 1 (26), the control signal of the IC 1 (26) and the sleep detection sensor 25 is turned on to receive an input signal to control the output of the circuit IC 2 (27), the IC 2 (27) And an IC 3 28 or the like for inverting the output signal from the LED 30 to emit light.

That is, the circuit operation unit 20 generates power from the solar light through the solar cell 21 while the sunlight is shining, and charges electricity to the rechargeable battery 22 according to the charge control unit 23, the solar The cell output controller 24 detects the output of the solar cell 21 and starts the light emitting circuit through the IC 1 26 when the solar light disappears. The sleep detection sensor 25 determines whether the bobber is currently under water. By judging and controlling the operation of the circuit, when the bobbin body 10 is thrown into the water and floated, the two terminals of the surface detection sensor 25 exposed to the part of the lower body 12 are immersed in water. In operation 2 (27), the signal of the IC 1 (26) and the sleep detection sensor (25) is input and calculated, and the output is supplied to the light emitting circuit only when the solar light disappears and the bobber is under the water surface.

Then, the IC 3 (28) inverts the output according to the calculation result of the IC 2 (27) to supply and emit power to the two LEDs 30 connected in series, at this time, to the LED (30) The power supplied is controlled by the timer 29 to maintain the state for a predetermined time from the generation of the signal to which the power supply is applied according to the inverted output of the IC 3 28 until after the designated time elapses. Even if it comes out, it is adjusted by the timer 29 to maintain the light emitting state of the LED 30 for a predetermined time.

The present invention has a built-in solar cell inside the fishing bobber to charge and use the rechargeable battery from the solar light source, thereby minimizing the consumption of disposable batteries, preventing environmental pollution due to the use of disposable batteries, as well as frequent use of disposable batteries It has the effect of increasing the economics by reducing the cost of replacement.

In addition, the present invention does not need to disassemble the fishing bobber body once assembled produced by charging the rechargeable battery through the built-in solar cell to maintain a good waterproof state and to prevent failure to increase the durability, the effect of increasing the convenience of use Has

Furthermore, the present invention has the effect of eliminating unnecessary battery consumption by allowing the built-in light-emitting diode to be turned on only when the float is thrown into the water by the water detection sensor provided to be exposed to the outside of the body of the bobber.

Claims (3)

In normal electronic bobber, Built-in solar cell 21 in the body of the bobber to charge the rechargeable battery 22 from the sun, and emits LED 30 by the power of the rechargeable battery 22, the solar cell 21 Rechargeable electronic fishing bobber using a solar cell, characterized in that the circuit operation unit 20 is configured to control the light emission state by the output and the sleep detection sensor (25). The method of claim 1, wherein the circuit operation unit 20 is a charge control unit 23 for controlling the charging of electricity to the rechargeable battery 22 by using a solar cell 21 to capture the sunlight and convert it into electrical energy, The solar cell output controller 24, which monitors the output of the solar cell 21 and supplies power to the rechargeable battery 22 while the solar light is present and drives the light emitting circuit when the solar light disappears, starts to float on the surface of the water. When the two terminals A and B exposed to the outside are water conductors, as the current flows, the surface detection sensor 25 for controlling the power supply for emitting the LED 30 and the bobber for a while in use Control of the IC 1 (26) and the IC 1 (26) to start the light emitting circuit by receiving a signal from the timer 29, the solar cell output control unit 24 to keep the light emitting state for a predetermined time even if it is out of the water Signal and sleep detection sensor 25 And an IC 2 27 for calculating the applied input signal to control the output of the circuit, and an IC 3 28 for inverting the output signal from the IC 2 27 to cause the LED 30 to emit light. Rechargeable electronic bobber with a solar cell, characterized in that configured. According to claim 1 or 2, the body 10 of the fishing bobber is divided into the upper body 11 and the lower body 12 in a streamlined good floating shape as a whole, the lower outer periphery of the upper body 11 A screw thread 11 'is formed and a female thread portion 12' is formed at an upper inner circumference of the lower body 12 corresponding thereto to be screwed in a state where the waterproof packing 13 is inserted therebetween. On the outer periphery of the sieve 12, the water surface detection sensor 25 is symmetrically provided so as to be exposed to the outside, and a balance weight 14 having a predetermined weight is provided at the center lower side thereof to balance the bobber body 10. Rechargeable electronic bobber with solar cell.

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