JPH10257839A - Lure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lure by which battery exchange is unnecessitated in a light emitting lure for inducing fish by means of light emission and also which is provided with light emitting structure for improving fish gathering. SOLUTION: A substrate 20, etc., on which a solar battery 10, a secondary battery 11, a light emitting diode 12 and an electronic circuit are mounted is contained inside a fish-shaped case which is formed by a transmissive material and light emission is executed by turning on/off the light emitting diode 12 with the second battery 11 charged by the solar battery as a power source. The light emitting diode 12 is arranged at the head part side of the pseudo-fish shape, the light is scattered by glass beads 13 and light emission is executed in an area from the both side parts of the heat part side to the base part with remaining transmissivity. A picture pattern imitating fish appearance is plotted in a part except the light emitting part and also the base surface on which the light receiving surface of the solar battery 10 faces.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pseudo bait which imitates the shape and behavior of a small fish to be baited by a target fisherman,
The present invention relates to a so-called lure, and more particularly, to a lure having a light emitting means therein.

[0002]

2. Description of the Related Art In recent years, an increasing number of people have enjoyed fishing due to an increase in leisure and nature. Fishing is performed using various types of bait preferred by the target fish, but has difficulty in handling such as maintaining freshness of the bait and attaching it to a fishing hook. Against this background, there has recently been an increasing demand for easy fishing, and fishing using pseudo bait, which is easy to handle, has become widespread. There are various types of artificial baits, such as fuzzy needles and pirate needles, depending on the type of fish, but lures formed in the shape of small fish used as fish bait are preferably used.

[0003] The lure is thrown into the water while being attached to the tip of the line, and when the line is pulled by the angler, it mimics the swimming of a small fish. A fish that finds a lure that moves in the water is hooked and caught by a needle attached when approaching the lure.

[0004] Usually, fish are attracted to the vicinity of the bait mainly by diffusion of odor from the bait.

[0005] However, the artificial bait cannot expect a fish collecting effect due to this smell. Therefore, in order to enhance the fish collecting power, it is necessary to adopt a configuration that attracts the interest of the fish in the visual and auditory aspects. Therefore, a configuration is employed in which a large number of fine reflectors are attached to the surface, or sound is emitted from built-in beads or the like due to vibration when moving in water.

[0006] By changing the configuration of the lure, such as its weight and shape, the lure can be moved when pulled from a fishing line,
That is, one that moves near the water surface or one that moves underwater can be selected. In a lure that moves near the water surface, natural light is reflected on a reflector attached to the main body, so that the effect of collecting fish can be enhanced. On the other hand, in a lure that moves in water, the effect of collecting fish on the visual surface decreases because the incidence of natural light decreases. In addition, the effect of collecting fish is reduced even in the early morning or at sunset when natural light is reduced. In order to enhance the fish collecting effect irrespective of such a change in use conditions, various lures provided with a light emitting means inside have been proposed. As the light emitting means, a light emitting diode which is a light source and a lithium battery which is a power source thereof, or a light emitting means which is made of a chemiluminescent body is employed.

[0007]

However, the lure provided with the light emitting means has the following problems in terms of usability and structure.

(1) A lithium battery for lighting a chemiluminescent body and a light emitting diode serving as a light source is consumed for almost one day of fishing because its duration is about several hours. For this reason, it is necessary to replace a new luminous body or a battery every time fishing is performed, which impairs usability.

(2) In order to accommodate the light emitting means inside the case of the lure main body and to easily replace the battery and the chemiluminescent body, it is necessary to adopt a structure in which the main body case can be easily divided into two. At the same time, in order to prevent water from entering the inside of the case, a waterproof structure is adopted. In particular, in order to improve the liquid tightness of a joint portion of the case that is divided into two, packing is provided at the portion. Required, and the case structure becomes complicated.

In order to eliminate the inconvenience associated with frequent battery replacement and to realize liquid tightness inside the main body with a simple structure, an electric float having a solar cell and a secondary battery inside the main body has been known. (Described in JP-A-59-38340). This electric float has a configuration in which a secondary battery incorporated in the main body is charged by a solar cell provided on an exterior part of the float main body, and a light emitting diode is turned on using the secondary battery when used. However, this configuration is limited to the float, and when this configuration is applied to the lure, the following specific problems arise in the method of arranging the solar cells and the circuit configuration.

[0011] That is, the lure has its body formed in a pseudo fish body shape that resembles the shape of a fish, and a pattern that resembles the appearance of a fish is drawn on the surface of the lure to imitate the appearance of a fish serving as a bait. When the solar cell is arranged on the surface, the area where the picture is drawn is reduced, and the degree of simulatedness is reduced. In addition, the above-mentioned electric float, which is assumed to be used at night,
A configuration is used in which lighting is performed in a state where power supply from the solar cell is interrupted. However, a lure used mainly in the daytime requires not only a configuration in which the light emitting diode is turned on only when moving in water, regardless of the amount of incident sunlight, but also a significant improvement in the luminance of the light emitting diode.

(3) In a lure using a light emitting diode as the light emitting means, the light emitting diode is embedded near the end of the longitudinal side surface of the main body case, that is, in a portion corresponding to the eye of the drawn fish pattern. The visibility from the lateral direction with respect to the moving direction of the lure is enhanced, and the effect of appealing to the fish's vision is improved. However, when a fish that is interested in a lure goes behind the lure, or when the fish is oriented parallel to the direction of the lure, the visibility of the lure from the fish decreases significantly. However, the effect of collecting fish is reduced.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a lure with an improved fish collecting effect.

[0014]

In order to achieve the above object, a lure according to the present invention comprises a main body case in which a transparent material is hermetically fixed by sandwiching a plurality of figure-eight fittings and an appropriate portion of the figure-shaped fitting. A treble hook is attached to the main body case, which has a solar cell, a secondary battery and a charging circuit in the main body case, and further operates the light emitting diode with a light emitting diode of a light source and two electrodes for detecting water. A control circuit is built in, the electrodes are exposed on the surface of the main body case, and the light receiving portion of the solar cell, and the light emitting portion of the light emitting diode partially form a light transmitting portion of the main body case. ing.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The invention described in claim 1 of the present application is
A lure consisting of a main body case in which a transparent material resin having translucency is formed in a pseudo fish shape and a pattern imitating the appearance of a fish is drawn, in the main body case, a light emitting means having a light emitting diode, a solar cell, And a secondary battery that is charged by the solar battery. The control unit switches the charging state of the secondary battery and the lighting state of the light emitting diode.

Further, the control means is provided with a detection means for detecting that the light-emitting diode has been thrown into the water. The resistance of the water is detected by two electrodes exposed on the surface of the main body case, and the light-emitting diode is provided. Activate

With this configuration, when not in use, the solar cell arranged facing the uncolored portion on the bottom of the main body case is charged toward the light source, and the resistance of the water when thrown into water is reduced. By adopting a configuration in which light is emitted only during use by detection, it is possible to light a light-emitting diode whose luminance is secured. In addition, since the portion corresponding to the abdomen of the drawn fish pattern is not colored and made of a translucent resin, the fish collecting effect is not affected.

According to a fourth aspect of the present invention, there is provided a lure comprising a main body case in which a transparent material resin having a light-transmitting property is formed in a pseudo fish shape and a pattern imitating the appearance of a fish is drawn. And a glass bead for irregularly reflecting incident light. Further, a plurality of glass beads are accommodated in the accommodating space formed by the ribs of the main body case, the light emitting diodes are arranged in a state facing the accommodating space, and coloring is performed from at least a bottom portion to a lower side surface of the main body case surrounding the accommodating space. This is a configuration made of only a resin having translucency without being applied.

Thus, the light emitted from the light emitting diode is irregularly reflected by the glass beads, leaks out of the partially transparent main body case, and enhances the fish collecting effect. Further, the glass beads housed in the housing space generate sound by moving inside when the lure is used, thereby further enhancing the fish collecting effect.

In the above configuration, the light emitting diode is disposed in the main body case so as to be on the head side, and is not colored from at least the bottom portion to the lower side surface of the main body case, and is made of only a resin having translucency. By doing so, the light emitting diode is arranged on the head side, so that the light is radiated to the outside mainly from the head side of the portion of the main body case from the bottom where the translucency is left to the lower side.
The light emitted from the bottom to the lower part of the side is easily visible to a wide range of fish, and the fish that are interested take the action of approaching and following the lure. It can be attracted by light that is not too bright.

According to the invention described in claim 6 of the present application, a light emitting diode is arranged on the head side in a case formed in a pseudo fish shape, and the light from this light emitter emits light from both sides on the head side. It is characterized in that it is configured so as to emit light in an area on the bottom.

According to the above construction, when the lure moves along the line, the bright light emission on the bottom surface from both sides of the lure can be easily recognized by the visual sense of the behavior of a wide range of fish located on the side and below in the lure moving direction. By this light emission, the lure approaches the fish as a habit of the fish visually recognized and tries to recognize it as a bait with a morphological vision that enters the visual field of both eyes. For this reason, the fish must move behind the moving lure and follow it, so it is necessary to attract the approaching fish with a light that is not too bright. Since the side emits light, the light emission is not too bright for the approaching fish, and the prey behavior of the fish can be induced.

Further, by providing a reflection surface for reflecting light from the light emitting diode toward the bottom of the case closer to the head than the position where the light emitting diode is disposed, light is emitted in the direction of the bottom of the case where light is focused. The light of the diode can be reflected, and the light from the light emitting diode can be efficiently radiated to the light emitting portion.

[0024]

Embodiments of the present invention will be described below with reference to the accompanying drawings to facilitate understanding of the present invention. The embodiment described below is an example embodying the present invention, and does not limit the technical scope of the present invention.

FIG. 1 is an external view of a lure provided with the light emitting means of the present invention, which imitates the shape of a small fish.
On its surface, a pattern imitating the appearance of a small fish is drawn.
Further, in the drawing, the light emitting diode of the light emitting means is embedded so as to emit light at a light emitting portion P surrounded by a broken line shown in FIG.

Reference numeral 1 denotes a main body case, which is formed by fitting a left case and a right case which are divided into right and left parts in the longitudinal direction from the upper part of the main body. The main body case 1 is formed of a transparent resin, and has a fish pattern drawn on its surface. A solar cell for charging a secondary battery for driving the light emitting means is disposed inside the center of the main body case 1 and is housed with its light receiving surface facing the bottom surface of the main body case. The bottom surface of the main body case 1, that is, the portion corresponding to the abdomen in the fish pattern is not colored with drawing, and is made of only transparent resin so that light reaches the solar cell. Have. The light receiving portion Q surrounded by a dashed line shown in FIG. 1 corresponds to this. Furthermore, light from the light emitting diode is transmitted by making the vicinity of the periphery of the portion where the light emitting diode is disposed a transparent resin. The light emitting portion P surrounded by a broken line shown in FIG. 1 corresponds to this. In addition, a through hole 6 for accommodating one end of each of the electrodes 14 and 15 for detecting water resistance exposed from the case surface is provided on any one side surface of the main body case 1. It is arranged.

[0027] Either the right case or the left case has a small diameter boss at the center of the recessed fitting portion. The concave fitting portions are provided at three positions corresponding to the head, abdomen, and tail of the fish drawn on the main body case 1. In the other case, a convex portion is formed at a position corresponding to the concave fitting portion, and a small-diameter hole into which the small-diameter boss is fitted is provided at the center of the convex portion. The left case and the right case are bonded together using the boss and the hole as guides to form the main body case 1 which is hermetically bonded and fixed. At this time, the eyelet fittings 3 are set in the recesses, respectively.

The eyelet fitting 3 attached to the head is connected to a line via a split ring 4. Eyelet fittings 3 attached to the abdomen and tail,
Treble hooks 5, 5 are attached to 3 via split rings 4, 4, respectively. The lip 2 protruding from the head in a tongue shape in the forward direction has a characteristic structure of a diving lure such as a minnow type. The shaking and diving depth are changed. By changing the shape and the forming angle, a lure action to seduce a fish can be set.

Next, the internal configuration will be described with reference to FIG. 2 showing the cross-sectional shape of the lure. The output of the solar cell 10 is connected to a substrate 20 on which the electronic circuit 9 is mounted,
The light receiving surface is disposed so as to face the bottom of the lure main body. The substrate 20 accumulates the power supplied from the solar cell 10 and drives the light emitting means.
The light emitting diode 1 supplied with power from the secondary battery 11
2 are connected. The electrodes 14 and 15 detect that the lure is thrown into the water by detecting the resistance of the water. The electrodes 14 and 15 are fitted and held in through holes 6 formed in the main body case 1. One end of each of the electrodes 14 and 15 is exposed on the outer surface of the main body case 1, and this portion is hermetically fixed.

Reference numeral 13 denotes glass beads, and a plurality of the beads are housed around the light emitting diode 12.

The silica gel 16 located at the head and the rear of the main body case 1 is used as a desiccant, and stores an applied amount corresponding to the volume of air in the main body case 1. The silica gel 16 not only prevents malfunctions due to dew condensation on the solar cell 10 and the electronic components of the electronic circuit 9 and enhances reliability, but also, together with the glass beads 13, vibrations generated during the movement of the lure move to accommodate the space. Move in. At this time, when the glass beads 13 and the silica gel 16 collide, a sound is emitted from the lure, and it is possible to draw interest in the auditory surface of the fish.

The substrate 20 is sandwiched between two U-shaped guides provided on the left case and the right case.
Further, the solar cell 10 is bonded and held to one of the plate-shaped ribs of the left case or the right case by a double-sided adhesive tape. The main body case 1 is configured to transmit light around the solar cell 10 and the light emitting diode 12, and light emitted from the light emitting diode 12 is diffusely reflected by the glass beads 13 and scattered.

Next, the configuration of the electronic circuit 9 mounted on the substrate 20 will be described with reference to FIG. A Zener diode ZD is connected to both ends of the solar cell 10, connects the anode of the secondary battery 11 to the anode of the solar cell 10, further connects a diode D 1 in series with the secondary battery 11, and connects the cathode side thereof. It is connected to the cathode of solar cell 10. The resistor R4, the anode of the logic circuit IC, and the emitter of the PNP-junction transistor Q1 are connected to the anode side potential.
Are connected in series with the electrodes 14, 15 and the resistors R5 and R1 and connected to the cathode of the secondary battery 11. The connection point between the resistors R5 and R1 is the first unit IC of the logic circuit IC.
1 and the input terminal of the second unit IC2, the output terminal of which is connected to the base of the transistor Q1. The cathode of the second unit IC2 is the secondary battery 1
Connected to one cathode.

The collector of the transistor Q1 is connected to one of the input terminals of the third unit IC3, and the other input terminal is connected to the output terminal through the resistors R2 and R3 and to the input of the fourth unit. Connected to terminal. The output terminal of the fourth unit IC4 is connected to the connection point between the resistors R2 and R3 via the capacitor C2. The output terminal of the fourth unit IC4 is PN
Connected to the base of a P-junction transistor Q2,
It is also connected to the base of an NPN junction transistor Q3. The collectors of the transistors Q2 and Q3 are connected together, and the cathode side of the capacitor C1 is connected to this. The emitter of the transistor Q2 is connected to the transistor Q2.
1 and connected to the anode of the diode D2. The cathode of the diode D2 is connected to the anode of the capacitor C1 and the anode of the light emitting diode 12. Further, the cathode of the light emitting diode 12 is connected to the emitter of the transistor Q3 and the cathode of the secondary battery 11.

Next, the lure having the above configuration will be described.
The operation will be described. When not in use, the abdomen of the fish drawn on the main body case 1 of the lure is placed on the upper side and fixed toward the light source. Since the abdomen of the main body case 1 has translucency, light is transmitted therethrough and reaches the solar cell 10. The generated electromotive force is supplied to the secondary battery 11. At this time, a charging circuit is formed through the diode D1. When the voltage from the solar cell 10 supplied to the secondary battery 11 rises excessively, the secondary battery 11 is deteriorated. Therefore, the voltage is excessively increased by the Zener voltage set in the Zener diode ZD connected in parallel with the solar battery 10. The voltage is discharged. Further, when the solar cell 10 is not receiving light, the output voltage of the solar cell 10 decreases, so that the diode D1 prevents a reverse flow in which the solar cell 10 is reversely charged from the secondary battery 11.

The lure in which the rechargeable battery 11 is charged by the solar cell 10 is connected to a line and is put into water. When the lure is put into water, the space between the electrodes 14 and 15 exposed to the outside from the side surface of the main body case 1 becomes water. As a result, the potential of the input terminal of each of the first and second units IC1 and IC2 of the logic circuit IC increases, and the potential of the output terminal decreases. As a result, the base current of the transistor Q1 flows. The state between the emitter and the collector of the transistor Q1 is ON. The control circuit (control means) 6 is configured by a configuration in which the transistor Q1 is turned on by conducting the water between the electrodes 14 and 15 by water.

When the transistor Q1 enters the 0N state, the potential of one input terminal of the third unit IC3 of the logic circuit IC increases, and the potential of the output terminal decreases.
In tandem with this, the potential of the output of the fourth unit IC4 increases, the capacitor C2 starts charging, and the potential of one input terminal of the third unit IC3 decreases due to the time constant with the resistor R3. At this time, the potentials of the output terminals of the third and fourth units IC3 and IC4 are inverted. When the potential is inverted, the capacitor C2 is discharged, and the third unit IC
The potential of the input terminal 3 becomes high. Since this repetition is performed by the time constant, the third and fourth units I
C3, IC4 and capacitor C2, resistor R2, resistor R3
This forms the oscillation circuit 7a.

As a result of this oscillation, the potential of the output terminal of the fourth unit IC4 rises or falls.
When the potential is high, the transistor Q3 is turned on, and the capacitor C1 is charged through the diode D2. At this time, since the operating voltage of the light emitting diode 12 is higher than the voltage of the secondary battery 11, no current flows and the light emitting diode 12 does not light. Conversely, when the potential of the output terminal of the fourth unit IC4 rises, the transistor Q2 is turned on, the voltage of the capacitor C1 is added to the voltage of the secondary battery 11, and the voltage of the secondary battery 11 Is applied to the light emitting diode 12, the voltage of the light emitting diode 12
Lights when current flows through the As described above, the booster circuit 7b is configured to turn on the light emitting diode 12 having an operation voltage higher than the voltage of the secondary battery 11 using the change in the potential of the output terminal of the fourth unit IC4 by the oscillation circuit 7a. A light emission drive circuit (light emission means) 7 is constituted by the circuit 7b and the oscillation circuit 7a.

The oscillation frequency of the oscillation circuit 7a can be changed by a time constant determined by the values of the capacitor C2 and the resistor R3 of the oscillation circuit 7a in the above configuration. When the frequency is high, the light emission is similar to continuous lighting, and when the frequency is low, the light flashes. By making this blinking light emission, the total current consumption of the light emitting diode 12 is reduced, and the battery life of the secondary battery 11, in other words, the discharge duration time can be extended.
A battery with a small battery capacity can be used, and the lure can be reduced in size.

If the secondary battery 11 employs a 3 V lithium secondary battery, the light emitting diode 1 having an operating voltage of 1.7 V is used.
The lighting circuit can be formed by connecting 2 as it is. However, the charging circuit of a 3V lithium secondary battery is complicated because the charging conditions are strictly set. Therefore, in this embodiment, a titanium lithium ion secondary battery, which is a 1.5 V lithium secondary battery, is employed. Since the discharge voltage of this battery is low, the light emitting diode 12 cannot be turned on. Therefore, as described above, the light emitting diode 12 is driven by the secondary battery 11 having a voltage lower than the operating voltage of the light emitting diode 12 by boosting using the oscillation of the light emitting drive circuit 7.
Is realized. In addition, by adjusting the oscillation frequency, the battery life can be selected, so that a secondary battery 11 having a small capacity can be used.
There is an effect that 0 can be reduced.

The light emitting diode 12 of the main body case 1
A housing space 17 surrounded by ribs is provided so as to surround a portion for holding glass beads, and a plurality of glass beads 13 are housed in this space. Since the glass beads 13 are movable in the accommodation space 17, the light emitted from the light emitting diode 12 is reflected on the glass beads 13. The light is reflected at various angles and can be scattered at a wide angle, and the reflection of light is moving, which is effective in attracting fish. Since the light emitting diode 12 is mounted so as to face the bottom side of the head side as shown in FIG. 2, it mainly emits light toward the bottom side of the head side, but is irregularly reflected by the glass beads 13 as described above. Therefore, light scattering occurs over a wide range. However, light was not scattered upward or backward from the inside of the main body case 1 due to the substrate 20, the solar cell 10, or the formed partition disposed in the main body case 1, and the light was applied to the bottom from both sides on the head side. Light is diffused in one area, and when a pattern imitating the appearance of a fish is applied to the surface of the main body case 1 made of a transparent resin as shown in FIG. It is mainly radiated from the part P to the outside of the lure.
That is, a lure extending from both sides on the head side of the pseudo fish shape to the bottom thereof becomes a light emitting lure, and a light emitting state with a high fish collecting effect can be obtained.

The electrodes 14, 15 for detecting the resistance of water
Is often used in water containing impurities such as river water and seawater. At this time, an insulating coating is easily formed on the surfaces of the electrodes 14 and 15 due to a reaction with metal ions contained in the impurities. For this reason, the electrodes 14 and 15 were made of gold exhibiting a stable performance with respect to these impurities or gold-plated. Furthermore,
Regarding the arrangement of the electrodes 14 and 15, it is preferable to arrange the two electrodes 14 and 15 on the same plane and as close as possible as a measure against static electricity in the electronic circuit 9. As a result, even when static electricity is applied to the electrodes 14 and 15, the static electricity is applied to both the electrodes 14 and 15 at the same time, and it is possible to prevent a potential difference between the electrodes 14 and 15 from adversely affecting the electronic circuit 9. .

As in the configuration shown in the above embodiment, the light emitting portion P of the lure is formed so as to extend from both sides on the head side of the pseudo-fish shape to the bottom thereof, so that the fish collecting effect by the light emitting lure is obtained. Can be improved. Another embodiment in which the position of the light emitting portion P is specified as described above will be described below as a second example.

FIG. 4 shows the appearance of a lure according to the second embodiment, which is configured as a hopper type lure used on the water surface. This hopper type lure is formed in a shape like a fish with its mouth opened, and floats and sinks from the water surface by being drawn by a line connected to an eyelet fitting 3 attached to the head, and makes a water sound. Attract fish. As shown in the cross-sectional view of FIG. 5, a light-emitting lure including a battery 24 and a light-emitting diode 25 that emits light using the battery 24 as a power source is provided inside the fish-shaped case 21.
It also has the effect of attracting fish by light.

The fish-shaped case 21 accommodating the battery 24 and the light-emitting diode 25 is formed in a quasi-fish shape by a translucent resin, and emits light from the both sides on the head side indicated by broken lines in FIG. The other parts are painted in a pattern imitating the appearance of fish, leaving the translucency of P. In addition, hooks 5 and 5 are hung around the abdomen, and fish that has preyed on this lure is hooked and caught.

The fish-shaped case 21 includes a main body 22 and a lid 23 for closing an opening in which the internal space of the main body 22 opens rearward. The body portion 22 has a hollow structure at a predetermined portion of each of the left and right cases divided into a left case and a right case at a center line from the head to the tail of the fish-shaped case 21 and is formed at a position facing each of the left and right cases. The concavo-convex portions are fitted together and the surrounding opposing surfaces are adhered to each other to form a hermetically sealed structure that opens to the outside only through the opening. The eyelet fittings 3 at three places used for connecting lines and hanging the hooks 5 are attached using fitting projections formed at predetermined positions when the left and right cases are joined. The hook 5 is connected to the eyelet fitting 3 as shown in the figure.
Are connected via a split ring 4 so that they can swing freely.

The lid 23 is configured to be detachable with respect to the main body 22 by an operation of being inserted and removed in the longitudinal direction of the main body 22, and when the lid 23 is attached to the main body 22, FIG. As shown in the figure, a light-emitting diode 25 is housed in the fish-shaped case 21, and the light of the light-emitting diode 25 turned on by the battery 24 is reflected by the reflector 31 to illuminate the bottom direction, and the direct light is emitted to the head side. Illuminate both sides of the These illumination parts are light emission parts P in which the translucency of the fish-shaped case 1 is left when painted in a pattern imitating the appearance of a fish. Further, glass beads 32 are sealed in a space below the light emitting diode 25 to generate light scattering, vibration and sound in accordance with the movement of the lure.

FIG. 6 shows a state in which the lid 23 is pulled out from the main body 22. The pulling-out operation of the lid 23 is performed by one of the fin-shaped projecting portions formed on the upper part of the lid 23. Since the nail can be hooked on the nail hooking portion 27 formed by cutting out the portion, the attachment / detachment of the lid portion 23 can be operated with one touch, and the extraction operation is easy. This lid 2
3 is an opening 2 in which the internal space of the main body 22 opens rearward.
The insertion portion 28 is fitted into the main body 22 by fitting the insertion portion 28 into the insertion portion 6, and the end of the opening 26 is sealed in an air-tight structure by an O-ring 33 fitted into the neck of the insertion portion 28, and the O-ring 33 is attached. The spring member 35 attached to the main body 22 is fitted into a groove 34 formed on the insertion direction side from the fitting position of the cover 23 to hold the lid 23 mounted.

FIG. 7 is an enlarged view of a fitting structure between the main body 22 and the lid 23. An O-ring is provided at the neck of the insertion portion 28 inserted into the main body 22 of the lid 23. A groove 34 is formed on the circumference parallel to the O-ring 33 on the side of the insertion direction. When the insertion portion 28 of the lid 23 is inserted into the opening 26 of the main body 22, the spring member 35 whose one end is embedded and held at the bottom of the main body 22 and is cantilevered as shown in FIG. 34, and holds the lid 23 so as to be pulled in the insertion direction, so that the O-ring 33 is in close contact with a flange 36 formed in the circumferential direction of the opening 26 toward the center of the opening. The opening 26 is closed and the lid 23 is closed.
Is securely held by the main body 22.

When the cover 23 is pulled out from the main body 22, when the claw is hooked on the hook portion 27 and pressure is applied in the pull-out direction, the spring member 35 is disengaged from the groove 34, and the insertion portion is smoothly inserted. The battery 24 and the light emitting diode 25 held in the hollow structure of the insertion portion 28 can be pulled out. The battery 24 and the light emitting diode 25 are integrally formed as a light emitting unit 29 as shown in FIG. 9, and the cylindrical battery 24 is detachably held in a holding unit 30 to which the light emitting diode 25 is attached. .

As shown in FIG. 6, when the lid 23 is pulled out of the main body 22, the light emitting unit 29 is taken out of the main body 22 to the outside. Since the light emitting unit 29 is detachably held by the insertion portion 28 and the battery 24 is detachably held by the holding portion 30, when the lure is not used, as shown in FIG. 9A. Batteries 24
When the electrode portion 24a of the battery 24 is inserted into the holding portion 30 with the electrode portion 24a outside, the light emitting diode 25 does not turn on and the electrode portion 24a of the battery 24 is inserted into the holding portion 30 as shown in FIG. Then, the electrode portion 24a is connected to the light emitting diode 25, and the light emitting diode 25 is turned on. In this manner, switching between lighting and extinguishing as a light emitting lure can be easily performed by removing and inserting the battery 24. Therefore, even when the battery 24 is exhausted, the battery can be replaced by the same operation.

When the lid 23 is pulled out of the main body 22 to perform the operation of replacing the battery and turning on / off the light emitting diode 25, the finger nail is hooked on the nail hooking portion 27 as described above, so that one-touch operation is performed. Operation is possible,
You only have to insert it when inserting it. Therefore, since no large action is involved, the risk of catching a finger on the hook 5 and injuring the lid 5 when attaching or detaching the lid 23 is avoided. Further, in the configuration of the present embodiment, since the hook 5 is not attached to the lid 23, the degree of the finger being hooked on the hook 5 is further reduced.

The light emitting lure having the above structure is shown in FIG.
When the battery 24 is inserted into the holder 30 in the direction shown in FIG.
Can be used as a light emitting lure by attaching the cover 23 to the main body 22. The light emitted from the light emitting diode 25 is emitted from the lower portion to the bottom portion on both sides on the head side where the reflected light reflected by the reflecting plate 31 and the direct light are scattered by the glass beads 32 and the translucency is left by painting. The light is radiated outside from the portion P. If both sides of the lure glow brightly like this, it is easy to be recognized by distant fish on the side, and in the hopper type that moves near the water surface like this lure, the light emission at the bottom is It can be easily recognized by fish below.

Since the fish has eyes on both sides of the head,
More often than not seeing one thing with both eyes, looking at each other with monocular vision, in this state of monocular vision it is not possible to clearly see things in the lateral direction but sensitively search for wide-ranging movements Can be. This monocular vision is a state of action vision in which an enemy is searched for food, and the light of the light emitting lure of this configuration is recognized from a distance by the action vision. Therefore, the light-emitting lure is more visible to fish than a normal lure. In particular, in a time zone where it is easy to obtain fishing results for several hours from dawn and sunset, a normal lure is hard to be visually recognized, but a light emitting lure exerts an effective fish collecting property by its light emission.

If the fish is interested in what is caught by the behavioral vision, the fish approaches the body and looks into the field of view of both eyes. In the state of tracking the moving light emitting lure, the fish looks at the light emitting lure from the rear, so the light on the head side of the light emitting lure shines weakly backward, giving a feeling of strangeness to the approaching fish Does not produce strong light. Therefore, the fish that has been tracked does not feel uncomfortable even when the light-emitting lure is clearly recognized by the morphological vision, and is caught by the hook 5 and caught when preying.

[0056]

As described above, the lure according to the present invention can provide an economically highly effective lure which does not require battery replacement. In addition, since the luminescent site of the illuminant matches the behavioral physiology of the fish, it attracts fish to a wide area,
It becomes easier to evoke prey behavior, and it is easier to obtain fishing results in lure fishing using a luminescent lure.

[Brief description of the drawings]

FIG. 1 is a side view showing the appearance of a lure according to an embodiment of the present invention.

FIG. 2 is a sectional view showing the internal structure of the lure according to the embodiment.

FIG. 3 is a circuit diagram illustrating a configuration of an electronic circuit.

FIG. 4 is a side view showing the appearance of a lure according to a second embodiment.

FIG. 5 is a sectional configuration diagram showing an internal configuration of a lure according to a second embodiment.

FIG. 6 is a cross-sectional configuration diagram showing a state where a lid body is extracted.

FIG. 7 is a partially enlarged cross-sectional view showing a fitting structure between a main body and a lid.

FIG. 8 is a diagram showing a mounting structure of a spring member.

FIGS. 9A and 9B are side views showing a connection state between a light emitting diode and a battery, wherein FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Main body case 6 Control circuit (control means) 7 Light emission drive circuit (light emission means) 7a Oscillation circuit 7b Boost circuit 10 Solar cell 11 Secondary battery 12 Light emitting diode 13 Glass beads 14, 15 Electrode

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Junichi Matsumoto 1006 Oaza Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Industrial Co., Ltd.

Claims (7)

[Claims] 1. A lure comprising a body case in which a transparent material resin having a light-transmitting property is formed in a pseudo fish shape and a pattern imitating the appearance of a fish is drawn, wherein a light emitting means having a light emitting diode in the body case is provided. A solar cell, a secondary battery charged by the solar cell, and control means for switching a state of charge to the secondary battery and a lighting state of the light emitting diode. A lure characterized by being arranged facing the bottom of the case and having the bottom of the main body case made of only a resin having translucency. 2. The lure according to claim 1, further comprising an oscillation circuit and a booster circuit. 3. The lure according to claim 1, wherein an electrode for detecting the resistance of water is provided on a side surface of the main body case, and the electrode is connected to the control means. 4. A lure comprising a main body case in which a transparent material resin having a light-transmitting property is formed in a pseudo fish shape and a pattern imitating the appearance of a fish is drawn, and a light emitting device having a light emitting diode in the main body case. Means, and glass beads for irregularly reflecting incident light, a plurality of glass beads being housed in a housing space formed by ribs of the main body case, and a light emitting diode on a head in a state facing the housing space. Characterized in that the lure is not colored from at least the bottom to the lower side of the main body case surrounding the housing space, and is made of only a light-transmitting resin. 5. A light-emitting diode is disposed on the head side in the main body case, and is not colored from at least a bottom portion to a lower side portion of the main body case, and is made of only a translucent resin. Lure. 6. A light emitting diode is arranged on the head side in a case formed in a pseudo fish shape, and light from the light emitting diode emits light from both sides on the head side to the bottom thereof. A light emitting lure characterized by comprising. 7. The lure according to claim 6, further comprising a reflection surface for reflecting light from the light emitting diode toward a bottom portion of the case closer to the head than the position where the light emitting diode is provided.