JP2005013191A - Fishing tackle and fishing float - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fishing tackle and a fishing float, capable of recognizing the actual presence or absence of fishes, kinds of presenting fishes or what is caught on pulling up a fishing line in the fishing. <P>SOLUTION: The fishing tackle 100 is provided by being equipped with a fishing line 2 for transmitting signals, a picture-taking device 3 and a displaying device 4, connecting the one end part of a signal line 21 with the device 4 and another end part with the device 3 in the fishing line 2, displaying a picture taken by the device 3 with the device 4 and installing a holding part 24 for holding a conventional fishing line G. The fishing float is provided by being equipped with a float case 210, a wireless transmitter 221, a picture taking device 230 and a waterproof cord 240, wireless-transmitting the picture signal taken by the device 230 to a picture-receiving device R as capable of receiving the picture with the device 221 and installing a holding part 231 for holding a fishing line G' at the case 210 and/or device 230. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a fishing fishing tool and a fishing float.
[0002]
[Prior art]
When fishing such as floating fishing in a river or the sea, the fishhook is placed underwater or in the sea, and it is usually difficult to recognize the state of the fish near the fishhook. At this time, the fisherman performs a fishing operation by watching the floating movement, or when the fish or the like comes into contact with the fishhook and feels being transmitted from the fishing line to the fishing rod.
[0003]
[Problems to be solved by the invention]
Therefore, for example, a fisherman selects a place where a fish seems to be likely by reading the flow of a river or waves, and changes bait or lure. However, it is unclear whether fish are actually there or not, and sometimes there are cases where there is no fish, and there are cases where fishing is done, and it is not interesting.
[0004]
Also, when pulling a fishing line, I do not know what fish is hanging, whether it is actually hanging fish, other things, that is, what is hanging, If it is caught and pulled up unnecessarily, it may cut the fishing line.
[0005]
The present invention has been made in view of the above problems, and it is possible to recognize whether fish are actually present or not, what kind of fish are present, or what is incurred when pulling a fishing line. It is an object to provide a fishing fishing tool and a fishing float.
[0006]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the present invention provides the following fishing fishing equipment and fishing float.
[0007]
(1) Fishing equipment
That is, the present invention comprises a fishing line for signal transmission, a display device, and an imaging device configured to be waterproof, and the fishing line for signal transmission provides a video signal obtained by the imaging device to the display device. A signal line for transmitting, and one end of the signal line is connected to the display device and the other end is connected to the imaging device in a waterproof manner, and the display device receives a video signal from the imaging device. A fish fishing tool characterized in that an image captured by the imaging device is displayed by receiving via the signal transmission fishing line, and a holding portion is provided in the vicinity of the other end side of the signal transmission fishing line. provide.
[0008]
(2) Fishing float
The present invention also provides a floating case configured to be waterproof, a wireless transmission device housed in the floating case, an imaging device configured to be waterproof, and a video signal obtained by the imaging device to the wireless Including a signal line for transmitting to the transmission device, one end of the signal line being connected to the wireless transmission device of the floating case and being waterproofly accommodated in the floating case, and the other end of the signal line being connected to the imaging device And a waterproof cord that is connected in a waterproof manner, and the wireless transmission device wirelessly transmits a video signal from the imaging device so as to be received by the image receiving device.
[0009]
In the fishing tackle according to the present invention, for example, a conventional fishing line, typically a fishing hook on the other end side, is provided on the holding portion provided in the vicinity of the other end side of the signal transmission fishing line by a fisherman or the like. One end side of the conventional fishing line is held. In addition, the length of this conventional fishing line can be determined suitably. However, what is hold | maintained at the said holding | maintenance part is not limited to the conventional fishing line, What kind of thing may be sufficient as long as it can attract a fish. The signal transmission fishing line may be supported by a fishing rod. In this case, preferably, the display device is provided on a fishing rod. And when fishing, for example, when a conventional fishing line is provided with a fishing hook, the conventional fishing line fishing hook held in the holding portion of the signal transmission fishing line is arranged in the imaging area of the imaging device, The display device receives the video signal from the imaging device via the signal transmission fishing line, thereby displaying the video imaged by the imaging device.
[0010]
In the fishing float according to the present invention, the fishing line is held. This fishing line may be held at any location of the fishing float according to the present invention. For example, in the fishing float according to the present invention, the floating case and / or the imaging device is provided with a holding portion for holding a fishing line, and the holding portion is provided in the floating case and / or the imaging device. May be. And when the said holding | maintenance part is provided in the said floating case, it is preferable that the said holding | maintenance part is also provided in the said imaging device, and a fishing line is hold | maintained in any of the said holding | maintenance part of the said floating case and the said imaging device. . Further, an image receiving device is prepared by a fisherman or the like, or an image receiving device is prepared at a fishing ground facility or the like. And when fishing, for example, when a fishing hook is provided on the fishing line, the fishing hook of the fishing line held by the holding portion is arranged in the imaging region of the imaging device and stored in the floating case. However, the video signal from the imaging device is wirelessly transmitted so that the image can be received by the image receiving device, and the image signal captured by the imaging device is displayed on the image receiving device by receiving the wirelessly transmitted video signal by the image receiving device. The
[0011]
As described above, according to the fish fishing tool and the fishing float according to the present invention, in the fish fishing tool, the display device receives the video signal from the imaging device via the fishing line for signal transmission. In addition, in the fishing float, the wireless transmission device wirelessly transmits a video signal from the imaging device so that the image reception device can receive the image, and the wirelessly transmitted video signal is received by the imaging device. Since the video captured by the imaging device is displayed on the image receiving device, anyway, when fishing, the fisherman is underwater or underwater conditions, for example, for example, The situation near the fishing line or hook, and when the bait is provided on the fishing line or hook, the situation near the bait can be visually confirmed on land or on the ship, so whether or not there is actually fish. Or, whether there are any fish, or when pulling up the fishing line, it is possible to recognize what is at stake.
[0012]
In the fish fishing tool according to the present invention, the signal transmission fishing line has, for example, a structure capable of waterproofing the signal line, and preferably has a tensile strength equal to or higher than that of a Tegus line used for a conventional fishing line. . An example of such a signal transmission fishing line is one in which the signal line is covered with a material having a predetermined tensile strength. Further, the signal transmission fishing line may be held floating. In this case, the float can be provided at a predetermined position from the imaging device of the signal transmission fishing line as necessary.
[0013]
In the fish fishing tool and the fishing float according to the present invention, the image pickup device preferably includes a device including a very small type digital camera module which has been widely used in recent years for digital cameras, mobile phones and the like. As an imaging device that can be used for this camera module, a C-MOS sensor (Complementary Metal Oxide Semiconductor: Complementary Metal Oxide Semiconductor Sensor) and a CCD (Charge Coupled Diode) can be typically exemplified. . If this camera module is employed, the imaging device can be configured with low power consumption, space saving, and relatively low cost. Moreover, it is preferable that the imaging device is provided with a lighting device configured to be waterproof. In this case, for example, in the underwater or underwater conditions where light such as sunlight from the water or the sea is difficult to reach or in night fishing or the like, the illumination device irradiates the light to shoot the imaging device. The area can be brightened and photographed. As a typical example of the lighting device, a device including an LED (Light Emitting Diode) can be given. In any case, video signals of the NTSC (National TV Standards Committee) system, PAL (Phase Alternating Line) system, SECAM (Sequential Couleur A Memory) system, etc. can be exemplified as the video signal of the imaging device. In the fishing tackle of the present invention, when such a method is employed, the display terminal may be provided with the input terminal for connecting the signal transmission fishing line. By doing so, it can be connected to a general-purpose NTSC television receiver, an NTSC television monitor, or the like, instead of the display device. Alternatively / further, an output terminal for outputting a video signal from the signal transmission fishing line may be provided on the display device. By doing so, it is possible to connect to the general-purpose television receiver and the television monitor as described above together with the display device. In the fish fishing tool and the fishing float according to the present invention, examples of the signal line typically include metal wires such as copper. However, it is not limited thereto, and an optical fiber or the like may be used.
[0014]
Further, in the fishing tackle according to the present invention, when the illumination device is provided in the imaging device, for example, depending on the type of fish, there is something that dislikes illumination, so it is necessary for the fisherman to determine the light emission timing of the illumination device. There may be. From this point of view, an illumination switch for the illumination device can be provided on the one end side of the signal transmission fishing line (in other words, on the display device side). By doing so, the fisherman can brighten the imaging region of the imaging device as necessary.
[0015]
In the fishing float according to the present invention, examples of the wireless transmission device include wireless transmission by an SS (spread spectrum) wireless system. As a frequency band of the transmission wave of the wireless transmission device, preferably, a VHF (Very High Frequency) frequency band and a UHF (Ultra High Frequency) frequency band can be exemplified. By doing so, a general-purpose television receiver or the like (for example, an LCD (Liquid Crystal Display) type television receiver or the like) can be used as the image receiving device.
[0016]
The fishing float according to the present invention may further include a control device housed in the floating case. In this case, the control device can detect a shootable state in which the imaging device can shoot a fish, and when the shootable state is detected, a signal informing the shootable state is wirelessly transmitted from the wireless transmission device. You may control to transmit. Examples of the signal for notifying the photographing enabled state wirelessly transmitted from the wireless transmission device include a signal for notifying a fisherman by a character display, an alarm sound, or the like in the image receiving device. The fisherman further includes a fisherman's radio transmitter, and a radio receiver that is housed in the floating case and receives a signal from the fisherman's radio transmitter, wherein the radio receiver is When the power-on signal or the power-off signal is received from the angler wireless transmission device, the control device may be controlled to turn on or off the power of the wireless transmission device and / or the imaging device. . By doing so, the fisherman can display the video captured by the imaging device on the image receiving device as necessary. In the case where the illumination device is provided in the imaging device, the control device turns on the illumination device when the wireless reception device receives an illumination on signal or an illumination off signal from the angler wireless transmission device. Or you may control to turn off. By doing so, the fisherman can brighten the imaging region of the imaging device as necessary.
[0017]
Furthermore, in the fishing float according to the present invention, it is preferable that the battery is accommodated in the floating case in a replaceable manner (for example, built-in). The battery can supply power to the imaging device and the wireless transmission device. Further, when the control device is provided, power can be further supplied to the control device, and when the illumination device is provided, power can be further supplied to the illumination device, and the wireless When a receiving device is provided, power can be further supplied to the wireless receiving device. A plurality of batteries may be accommodated. For example, in the case where a device including a very small type camera module is employed as the imaging device, generally, the wireless transmission device and the lighting device consume more power than the imaging device. For this reason, when a plurality of batteries are accommodated in the floating case, for example, a battery having a relatively large capacity for the wireless transmission device is provided separately from batteries for other devices, and power is supplied to the wireless transmission device. A battery having a relatively large capacity for the lighting device may be provided separately from a battery for another device, and power may be supplied to the lighting device.
[0018]
Further, in the case of providing the wireless reception device, when the wireless reception device receives a power-on signal or a power-off signal from the angler wireless transmission device, the control device performs the wireless transmission device and / or the imaging. If the device is controlled to be turned on or off, the battery life can be extended accordingly. Further, in the case where the lighting device is provided, the control device turns on or off the lighting device when the wireless receiving device receives a lighting on signal or a lighting off signal from the fisherman wireless transmission device. By controlling to, the life of the battery can be further extended.
[0019]
Also, for example, the control device can detect a shootable state in which a fish can be shot by the imaging device, and when the shootable state is detected, the video signal from the imaging device is wirelessly transmitted from the wireless transmission device. If the transmission is controlled, the battery life can be extended accordingly.
[0020]
In any case, the following cases can be specifically exemplified as the detection of a shootable state in which a fish can be photographed by the imaging device. That is,
(A) An image processing unit that processes a video signal from the imaging device is provided, and the control device detects an object image, for example, an object image such as a fish, based on the video signal image-processed by the image processing unit. By the way, when detecting the shooting possible state,
(B) An image processing unit that processes a video signal from the imaging device, and the control device accelerates a difference in density between successive image frames by the video signal image-processed by the image processing unit. Detecting the above-mentioned shooting possible state by sensing
(C) It further includes an impact sensor that is housed in the floating case and senses a predetermined impact force that is accelerated by an external force, and the control device detects the photographing enabled state by sensing the impact force with the impact sensor. This is the case of detection.
[0021]
In the cases (a) and (b), the imaging device may include the image processing unit. The imaging apparatus having the image processing unit preferably includes a digital camera module, typically a C-MOS sensor, a lens, and a digital signal processor (digital signal processor: DSP) capable of processing data. Adopt what you did. When this digital signal processor is employed, there is an advantage that it is easy to perform image processing.
[0022]
In the case of (a), when an object approaches the imaging device, the gain of the video data image-processed by the imaging device changes. Normally, the reflection intensity of fish is greater than the reflection intensity in water or in the sea, so the sum of density values in the image frame area when there is fish changes compared to the sum of density values in the image frame area when there is no fish. To do. Therefore, for example, by calculating the sum of the density values in the image frame area, calculating the difference between the density values between the image frames, and detecting the change in the difference, the object such as a fish can be approached as the shootable state. Can be sensed. In the case of (b), for example, after the fish has eaten the fishhook, the fish moves violently by pulling the fishhook. Similarly, the imaging device is also forced to move vigorously, and the video imaged by the imaging device shakes greatly. As a result, the gain of video data by the imaging device, specifically, the difference in density between successive image frames changes at an accelerated rate. . At this time, the control device calculates a difference in density between successive image frames, and detects an acceleration temporal change in the difference to detect that a fish has been caught in the fishing line as the photographing enabled state. Can do. Further, in the case of (c), for example, after the fish eats a fishhook, the floating case receives a large impact force. At this time, the control device detects an impact force based on the output signal of the impact sensor, so that it is possible to detect that a fish has been caught on the fishhook as the photographing enabled state.
[0023]
As described above, in any of the cases (a) to (c), when the control device wirelessly transmits a signal that informs the shootable state from the wireless transmission device, the photographer can shoot the image. The state can be notified, and when the video signal from the imaging device is wirelessly transmitted from the wireless transmission device by the control device, the fisherman can be shown the shootable state.
[0024]
Moreover, when the said illuminating device is provided in the said imaging device, the said control apparatus may control so that the said illuminating device may be lighted, when the said imaging | photography possible state is detected. In this case, since the control device turns on the illumination device when detecting the photographing enabled state, the life of the battery can be further extended.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments according to the present invention will be described below with reference to the drawings. FIG. 1 is a schematic view showing a state where a fisherman M is fishing using an example 100 of a fishing tool according to the present invention.
[0026]
A fish fishing tool 100 shown in FIG. 1 includes a fishing line 2 for signal transmission, an imaging device 3, and a display device 4, and the fishing line 2 is supported by a fishing rod 1.
[0027]
The fishing rod 1 is provided with a reel D, and when fishing, the fishing line 2 is pulled out from the reel D, and a fishing hook H is disposed underwater or in the sea. When the fishing line 2 is pulled up, the fishing line 2 is wound up by the reel D.
[0028]
FIG. 2A shows an enlarged schematic cross-sectional view of the imaging device 3 and a connecting portion between the imaging device 3 and the fishing line 2, and FIG. 2B shows the fishing line 2 of the fishing tackle 100 shown in FIG. Shows the state.
[0029]
Here, the fishing line 2 includes a signal line 21 made of a metal wire for transmitting a video signal obtained by the imaging device 3 to the display device 4, and one end of the signal line 21 is electrically connected to the display device 4. As shown in FIG. 2 (A), the other end is electrically connected to the image pickup device 3 and the periphery of the connection portion 2a to the image pickup device 3 is a waterproof member 23 made of a material such as rubber. By being covered, it is connected to be waterproof. Further, the fishing line 2 has a structure capable of waterproofing the signal line 21, has a tensile strength equal to or higher than that of the Teggs thread used in the conventional fishing line, and can waterproof the signal line 21. And coated with a material 22 having a predetermined tensile strength.
[0030]
The imaging device 3 is provided with a lighting device 7. The imaging device 3 includes an image processing unit (here, a digital signal processor (DSP)) that can perform image processing, and includes a digital camera module. More specifically, the imaging device 3 includes a C-MOS sensor 31, a lens 32, and the DSP 33 described above, and these are supported by a support member 34. Moreover, the illuminating device 7 contains LED71 here, and LED71 is supported by the bottom face of the supporting member 34. FIG. The imaging device 3 and the illumination device 7 are configured to be waterproofed by being covered with a waterproof member 41 made of a material such as rubber and covered with a glass plate 42 supported by the waterproof member 41.
[0031]
The display device 4 shown in FIG. 1 is provided in the fishing rod 1 in this example, and displays a video imaged by the imaging device 3 by receiving a video signal from the imaging device 3 through the fishing line 2. Here, it is a small liquid crystal display type NTSC television monitor.
[0032]
Further, in this fishing fishing tool 100, a holding portion 24 for holding a conventional fishing line G is provided in the vicinity of the other end portion side of the fishing line 2 (in other words, in the vicinity of the imaging device 3 side) (see FIG. 2 (B)). Thereby, the fishing hook H of the conventional fishing line G can be arrange | positioned in the imaging | photography area | region P of the imaging device 3, for example. Further, the fishing line 2 is held by a float 6 here as shown in FIG. The float 6 can be provided at a predetermined position from the imaging device 4 of the fishing line 2 as necessary.
[0033]
In the fish fishing tool 100 shown in FIG. 1, a fisherman M holds one end side of a conventional fishing line G having a fishhook H on the other end side by a holding portion 24 provided in the vicinity of the imaging device 3 side of the signal transmission fishing line 2. The The length of the conventional fishing line G is appropriately determined. Then, when fishing, the fishing hook H of the conventional fishing line G held by the holding portion 24 (see FIG. 2B) of the fishing line 2 is disposed in the shooting area P of the imaging device 3, for example. The provided display device 4 receives the video signal from the imaging device 3 via the fishing line 2, thereby displaying the video imaged by the imaging device 4.
[0034]
As described above, according to the fishing tackle 100 of FIG. 1, the display device 4 displays the video imaged by the imaging device 3 by receiving the video signal from the imaging device 3 via the fishing line 2. In addition, when the fisherman M is in the water or in the sea, more specifically, the situation near the fishhook H, for example, when the fishhook H is provided with the food E, the situation near the food E is It can be visually recognized in the image, and it can be recognized whether the fish F is actually present, what kind of fish is present, or what is being applied when the fishing line 2 is pulled up.
[0035]
Further, here, since the imaging device 3 is provided with the illumination device 7 configured to be waterproof, for example, in a situation in water or underwater where light such as sunlight from the water or the sea is difficult to reach or reach. Or, in night fishing or the like, by irradiating the light L (see FIG. 2A) from the illumination device 7, the photographing region P (see FIG. 2B) of the imaging device 3 can be brightened and photographed. it can.
[0036]
In the fish fishing implement of this example, the illumination device 7 is provided in the imaging device 3. However, depending on the type of the fish F, there are those that dislike lighting, so the fisherman M determines the light emission timing of the illumination device 7. There may be a need. From this viewpoint, an illumination switch for the illumination device 7 can be provided on the fishing rod 1 side of the fishing line 2. By doing so, the fisherman M can brighten the imaging region P of the imaging device 3 as necessary.
[0037]
Next, another embodiment of the present invention will be described. FIG. 3 is a schematic view showing a cross section of a part of an example fishing float 200 according to the present invention.
[0038]
As shown in FIG. 3, the fishing float 200 includes a floating case 210, a circuit board 220, an imaging device 230, and a waterproof cord 240.
[0039]
FIG. 4 shows an enlarged schematic cross-sectional view of the imaging device 230 and a connecting portion between the imaging device 230 and the waterproof cord 240.
[0040]
The imaging device 230 is the same as the imaging device 3 shown in FIGS. 1 and 2, and the description thereof is omitted here. In FIG. 4, parts having the same configuration and function as those of the imaging device 3 shown in FIGS. 1 and 2 are denoted by the same reference numerals.
[0041]
Each of the floating cases 210 is made of a resin material, and includes an upper case 211 and a lower case 212 having screwing portions 211a and 212a. The upper case 211 and the lower case 212 are screwed together by the screwing portions 211 a and 212 a being screwed together and a waterproof member 213 made of a material such as rubber being sandwiched between the cases 211 and 212. Intrusion of water and seawater from the portions 211a and 212a can be prevented.
[0042]
The circuit board 220 is accommodated in the floating case 210. FIG. 5 is a view showing the circuit board 220 extracted from the floating case 210 shown in FIG. 3. FIG. 5A shows a schematic view of one side of the circuit board 220 as viewed from the side, and FIG. The schematic diagram which looked at the other side of this circuit board 220 from the side surface is shown.
[0043]
The circuit board 220 includes a wireless transmission device 221 and a control device 222 as shown in FIG. 5A, and also includes an impact sensor 223 as shown in FIG. 221, a control device 222, an imaging device 230, and a battery B that supplies power to the illumination device 7 are incorporated in a replaceable manner.
[0044]
The wireless transmission device 221 wirelessly transmits a video signal from the imaging device 230 so as to be received by an image receiving device R described later. Here, the video signal from the imaging device 230 is a YUV signal, that is, a luminance signal (Y), The signal is decomposed into three signals, ie, a difference between the luminance signal and the red component (U) and a difference between the luminance signal and the blue component (V) and wirelessly transmitted by the SS wireless method. The wireless transmission device 221 includes an antenna line 221a and an antenna 221b, and can transmit radio waves from the antenna 221b via the antenna line 221a. In addition, the frequency band of the transmission wave of the wireless transmission device 221 is a VHF frequency band or a UHF frequency band here. The antenna 221b is provided so as to extend upward from the top of the upper case 211. Therefore, since the antenna 221b does not sink in water or in the sea, the radio wave transmitted by the wireless transmission device 221 can be transmitted from the water or the sea, and radio transmission can be performed satisfactorily.
[0045]
The impact sensor 223 senses a predetermined impact force that is accelerated by an external force. Here, the impact sensor 223 is a voltage-sensitive or charge-sensitive impact sensor.
[0046]
The control device 222 can detect a shootable state in which the imaging device 230 can shoot a fish, and wirelessly transmit a signal informing the shootable state from the wireless transmission device 221 when the shootable state is detected. In addition, the wireless transmission device 221 wirelessly transmits a video signal from the imaging device 230, and further controls the lighting device 7 (see FIG. 4) to be turned on when the photographing enabled state is detected. . Here, the signal for informing the photographing enabled state is a signal for informing the fisherman by a character display, an alarm sound or the like in the image receiving device R. Further, the control device 222 can perform the following detection. That is,
(A) The imageable state is detected by sensing an object image such as a fish from a video signal image-processed by the DSP 33 of the imaging device 230.
(B) The imaging enabled state is detected by sensing an acceleration change in the difference in density between successive image frames from a video signal image-processed by the DSP 33 of the imaging device 230.
(C) The photographing enabled state is detected by sensing the impact force by the impact sensor 223.
[0047]
As shown in FIG. 4, the waterproof cord 240 includes a signal line 241 made of a metal wire for transmitting a video signal obtained by the imaging device 230 to the wireless transmission device 221, and the signal line 241 is made of a material such as rubber. It is coated with a waterproof material 242 made of As shown in FIG. 3, the waterproof cord 240 is electrically connected to the circuit board 220 including the wireless transmission device 221 of the floating case 210 at one end of the signal line 241 and accommodated in the floating case 210 in a waterproof manner. The other end portion is waterproofed and electrically connected to the imaging device 230. Here, the waterproof portion made of a material such as rubber for preventing water and seawater from entering between the lower case 212 and the waterproof cord 240 at the connection portion between the lower case 212 and the waterproof cord 240 of the floating case 210. A seal 214 is provided, and as shown in FIG. 4, the periphery of the connecting portion 240 a between the waterproof cord 240 and the imaging device 230 is covered with a waterproof member 243 made of a material such as rubber.
[0048]
In this example, the floating case 210 and the imaging device 230 are provided with first and second holding portions 215 and 231 for holding the fishing line G ′, as shown in FIG.
[0049]
The first holding portion 215 is formed of a conical cone member that penetrates in the axial direction and has a hole for allowing the waterproof cord 240 to pass through. The first holding portion 215 has an arrow in FIG. 3 along the waterproof cord 240 with the bottom surface facing the floating case 210. The waterproof cord 240 is fitted so as to be able to reciprocate in the direction X. The holding portion 215 has a hole diameter that is substantially the same as or slightly smaller than the diameter of the waterproof cord 240 and is adjacent to the floating case 210 while receiving a certain frictional resistance with the waterproof cord 240 with the fishing line G ′ in between. can do. Thereby, the fishing line G ′ can be held between the holding portion 215 and the floating case 210.
[0050]
As shown in FIG. 4, the second holding portion 231 includes a substantially ring-shaped hook portion 231a for hooking the fishing line G ′ and a support portion 231b that supports the hook portion 231a. The support portion 231b is an imaging device. 230.
[0051]
6 is provided with the fishing float 200 shown in FIG. 3 on the conventional fishing rod S. More specifically, the fishing line M ′ is held by the holding portion 231 of the floating case 210 and the fisherman M is fishing. Indicates.
[0052]
In the fishing float 200 described above, the fishing line G ′ is held by the first and second holding portions 215 and 231 provided in the floating case 210 and the imaging device 230, as shown in FIG. Further, the image receiving device R is prepared by a fisherman M or the like, or the image receiving device R is prepared in a fishing ground facility or the like. The image receiving device R is, for example, a general-purpose LCD type television receiver. When fishing, the fishing hook G of the fishing line G ′ held by the holding portions 215 and 231 is disposed in the imaging region P of the imaging device 230, for example, and the wireless transmission device 221 stored in the floating case 210 is The image signal from the imaging device 230 is wirelessly transmitted so that the image receiving device R can receive the image, and the image signal captured by the imaging device 230 is displayed on the image receiving device R when the wirelessly transmitted video signal is received by the image receiving device R. Is done.
[0053]
Thus, according to the fishing float 200, the wireless transmission device 221 wirelessly transmits the video signal from the imaging device 230 so that the image receiving device R can receive the image, and the wirelessly transmitted video signal is received by the image receiving device R. Thus, since the image captured by the imaging device 230 is displayed on the image receiving device R, when fishing, the fisherman M is in a situation in the water or in the sea, more specifically, a situation near the fishhook H, for example, When the bait E is provided on the fishhook H, the situation near the bait E can be visually confirmed on land or on the ship, so that there is actually a fish or not, what kind of fish is there Alternatively, it is possible to recognize what is going on when the fishing line G ′ is pulled up.
[0054]
Further, the fishing float 200 shown in FIG. 3 has the following advantages. 7 and 8 are schematic views in which video data obtained by the imaging device 230 is divided and displayed in the X direction (horizontal direction in the figure) and the Y direction (vertical direction in the figure). ) Shows a state in which the fish F is shown far away, FIG. 7B shows a state in which the fish F is approaching, and FIG. 8A shows a state in which the fish F is about to eat the bait E of the fishhook H. FIG. 8B shows a state in which the fish F bites on the bait E of the fishhook H and moves violently.
[0055]
When the control device 222 shown in FIG. 5A performs the detection of (a), when the fish F approaches the imaging device 230, the image of the imaging device 230 shown in FIG. The gain of the video data image-processed by the DSP 33 changes with the image of the imaging device 230 shown in B). Normally, the reflection intensity of fish is greater than the reflection intensity in water or in the sea, so the sum of density values in the image frame area when there is fish changes compared to the sum of density values in the image frame area when there is no fish. To do. Therefore, here, the control device 222 calculates the sum of the density values in the image frame region, calculates the difference between the density values between the image frames, and detects the change in the difference, so that the imaging device 230 can detect the change. The approach of the fish F can be detected as a photographing enabled state. When the control device 222 performs the detection of (b), for example, as shown in FIG. 8, after the fish F bites the fishhook H, the fish F pulls the fishhook H and moves vigorously. (See FIG. 8B). Similarly, the imaging device 230 is also forced to move vigorously, and the video by the imaging device 230 is greatly shaken. As a result, the gain of the video data image-processed by the DSP 33 of the image of the imaging device 230, specifically, a continuous image frame The difference in density between the samples changes at an accelerated rate. At this time, the control device 222 calculates a difference in density between successive image frames and detects an acceleration temporal change in the difference, so that the imaging device 230 sets the fish F to the fishing line G ′ as the above-described photographing enabled state. It is possible to sense that it has been applied.
[0056]
Furthermore, when the control device 222 performs the detection of (c), for example, after the fish F bites the fishhook H, the floating case 210 receives a large impact force. At this time, the control device 222 detects the impact force based on the output signal of the impact sensor 223 shown in FIG. Can be detected.
[0057]
As described above, in any of the cases (a) to (c), when the control device 222 wirelessly transmits a signal informing the photographing enabled state from the wireless transmission device 221, the fisherman M is notified of the photographing. When the control device 222 wirelessly transmits the video signal from the imaging device 230 from the wireless transmission device 221, the imaging device 230 can be made to show the photographing possible state by the imaging device 230. .
[0058]
Moreover, in this fishing float 200, since the imaging device 230 is provided with the illumination device 7 that is configured to be waterproof, for example, underwater or light that is difficult to reach, such as sunlight from the water or from the sea. By irradiating light from the illuminating device 7 in an underwater situation or night fishing, the photographing region P (see FIG. 3) of the 230 imaging device can be brightened and photographed.
[0059]
Moreover, in this fishing float 200, since the frequency band of the wireless transmission device 221 is a VHF frequency band or a UHF frequency band, a general-purpose television receiver R can be used as the image receiving device.
[0060]
As described above, the battery B is built in the floating case 210 and supplies power to the imaging device 230, the wireless transmission device 221, and the lighting device 7. By the way, generally, the power consumption of the wireless transmission device (for example, about 100 mA) and the power consumption of the lighting device (for example, about 500 mA) are larger than the power consumption of the imaging device. In this respect, in this fishing float 200, the control device 222 wirelessly transmits a video signal from the imaging device 230 from the wireless transmission device 221 when detecting the photographing enabled state, so that the life of the battery B can be extended accordingly. it can. Moreover, since the illumination device 7 is turned on when the photographing enabled state is detected, the life of the battery B can be further extended.
[0061]
In the fishing float 200 shown in FIG. 3, a fisherman wireless transmission device for operation by the fisherman M and a wireless reception that is housed in the floating case 210 and receives a signal from the fisherman wireless transmission device. And when the wireless receiver receives a power-on signal or a power-off signal from the fisherman's wireless transmitter, the controller 222 turns on the power of the wireless transmitter 221 and / or the imaging device 230. You may control to turn on or off. By doing so, the fisherman M can display the image captured by the image capturing device 230 by the image receiving device R as necessary, and can extend the life of the battery B accordingly. The control device 222 may control the lighting device 7 to be turned on or off when the wireless reception device receives the lighting on signal or the lighting off signal from the angler wireless transmission device. By doing so, the fisherman M can brighten the imaging region P of the imaging device 230 as necessary, and can further extend the life of the battery B.
[0062]
【The invention's effect】
As described above, according to the present invention, when fishing, a fishing tackle that can recognize whether or not there is actually a fish, what kind of fish is present, or what is being applied when lifting a fishing line, and Fishing floats can be provided.
[Brief description of the drawings]
FIG. 1 is a schematic view showing a state in which a fisherman is fishing using an example of a fishing tool according to the present invention.
2A is an enlarged schematic cross-sectional view of an imaging device and a connecting portion between the imaging device and a fishing line, and FIG. 2B is a state where the fishing line of the fishing tackle shown in FIG. 1 is in water or in the sea. FIG.
FIG. 3 is a schematic view showing a part of an example of a fishing float according to the present invention in section.
FIG. 4 is an enlarged schematic cross-sectional view of an imaging device and a connection portion between the imaging device and a waterproof cord.
5 is a diagram showing a circuit board extracted from the floating case shown in FIG. 3, FIG. (A) shows a schematic view of one side of the circuit board viewed from the side, and FIG. (B) shows the circuit board. The schematic which looked at the other from the side is shown.
6 is a schematic view showing a state in which a fisherman is fishing by providing a fishing rod shown in FIG. 3 on a conventional fishing rod and, more specifically, holding a fishing line on a holding part of a floating case. .
FIG. 7 is a schematic view of image data obtained by the imaging device divided and displayed in the X direction (horizontal direction in the figure) and the Y direction (vertical direction in the figure), and FIG. The state in which the image is reflected is shown in FIG.
FIG. 8 is a schematic view in which video data obtained by the imaging device is divided and displayed in the X direction (horizontal direction in the figure) and the Y direction (vertical direction in the figure), and FIG. FIG. (B) shows a state where the fish is biting into the bait and moving violently.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Fishing rod 2 ... Fishing line for signal transmission 3 ... Imaging device 4 ... Display apparatus
DESCRIPTION OF SYMBOLS 7 ... Illuminating device 21 ... Signal line 33 ... Image processing part 100 ... Fishing tackle
DESCRIPTION OF SYMBOLS 200 ... Fishing float 210 ... Floating case 221 ... Wireless transmitter
222 ... Control device 223 ... Shock sensor 230 ... Imaging device
240 ... waterproof cord

Claims (16)

A fishing line for signal transmission, a display device, and an imaging device configured to be waterproof,
The signal transmission fishing line includes a signal line for transmitting a video signal obtained by the imaging device to the display device, and one end portion of the signal line is connected to the display device, and the other end portion is connected to the display device. Connected to the imaging device in a waterproof manner,
The display device displays a video imaged by the imaging device by receiving a video signal from the imaging device via the fishing line for signal transmission,
A fish fishing tool characterized in that a holding portion is provided in the vicinity of the other end portion side of the fishing line for signal transmission. The fishing tackle according to claim 1, wherein the imaging device is provided with a lighting device configured to be waterproof. A floating case configured to be waterproof,
A wireless transmission device housed in the floating case;
An imaging device configured to be waterproof;
Including a signal line for transmitting a video signal obtained by the imaging device to the wireless transmission device, one end of the signal line being connected to the wireless transmission device of the floating case and waterproofing to the floating case A waterproof cord that is connected to the imaging device in a waterproof manner.
The fishing float according to claim 1, wherein the wireless transmission device wirelessly transmits a video signal from the imaging device so as to be received by an image receiving device. The fishing float according to claim 3, wherein a battery is accommodated in the floating case. The fishing float according to claim 3 or 4, further comprising a control device housed in the floating case. The fishing float according to claim 3, wherein the imaging device is provided with a lighting device configured to be waterproof. A fisherman's radio transmitter for operation by a fisherman; and a radio receiver that is housed in the floating case and receives a signal from the fisherman's radio transmitter; 6. The control device according to claim 5, wherein when the power-on signal or the power-off signal is received from the wireless transmission device for a person, the control device controls the power of the wireless transmission device and / or the imaging device to be turned on or off. Fishing float. The fishing float according to claim 7, wherein the imaging device is provided with a lighting device configured to be waterproof. The fishing device according to claim 8, wherein when the wireless reception device receives an illumination on signal or an illumination off signal from the fisherman wireless transmission device, the control device controls the illumination device to be turned on or off. float. The control device can detect a shootable state where a fish can be shot by the imaging device, and wirelessly transmits a signal informing the shootable state from the wireless transmission device when the shootable state is detected. The fishing float according to claim 5 or 7, which is controlled as follows. The control device can detect a shootable state where the imaging device can shoot a fish, and when the shootable state is detected, the wireless transmission device wirelessly transmits a video signal from the imaging device. The fishing float according to claim 5, 7 or 10 to be controlled. An image processing unit that processes a video signal from the imaging device; The fishing float according to claim 10 or 11. An image processing unit that processes a video signal from the imaging device, and the control device senses an acceleration change in a difference in density between successive image frames based on the video signal image-processed by the image processing unit. The fishing float according to claim 10 or 11, wherein the photographing enabled state is detected. And further comprising an impact sensor that is housed in the floating case and senses a predetermined impact force that is accelerated by an external force, and the control device detects the photographing enabled state by sensing the impact force by the impact sensor. Item 10. A fishing float according to item 10 or 11. The fishing float according to claim 10, wherein the imaging device is provided with a lighting device configured to be waterproof. The fishing float according to claim 15, wherein the control device controls to turn on the illumination device when the photographing enabled state is detected.

Images