JP6903027B2 - Feeding storage device that can output the remaining amount of feeding - Google Patents

Description

The present invention relates to a bait accommodating device for accommodating fishing bait, and more particularly to a bait accommodating device capable of outputting the remaining amount of bait contained in the bait accommodating device.

As a feeding storage device, there is known a configuration in which a feeding or a squeeze (hereinafter referred to as a feeding) is stored inside and the feeding is discharged into water. In such a bait storage device, a fishing hook is usually attached via Harris, and the bait released from the bait storage device is configured to lure fish around the hook.

Since the bait storage device releases the bait in the water, the angler on the water cannot see the remaining amount of the bait remaining in the bait storage device, but the bait storage device is not emptied. In order to achieve this, the feeding storage device may be pulled out of the water to replenish the feeding at the timing when sufficient feeding remains in the feeding storage device. In this case, a large amount of time is required for pulling up the feeding storage device, replenishing the feeding, and refilling the feeding storage device to a predetermined water depth.

Conventionally, various feeding storage devices have been known that can notify an angler that the internal feeding has been emptied. Patent Document 1 discloses a feeding accommodating device capable of releasing a predetermined amount of feeding for each hiccup operation of an angler. The bait containment device discloses that the angler can know the remaining amount of bait by the number of hiccups. On the other hand, Patent Document 2 discloses a feeding storage device having a reciprocating member configured to push the feeding inside the container into water through an opening provided in the container. It is disclosed that the feeding storage device can determine that the angler has emptied the feeding storage device when the predetermined time has elapsed.

JP-A-2002-345382 Japanese Unexamined Patent Publication No. 2006-333754

However, the conventional feeding storage device cannot accurately detect the timing when the feeding storage device is emptied. In the feeding storage device disclosed in Patent Document 1, since the amount of feeding released per sucking can change depending on the surrounding environment, it is actually possible to accurately estimate the time until the feeding storage device is emptied. There is a problem that it is difficult. On the other hand, in the feeding storage device disclosed in Patent Document 2, even if the displacement speed of the reciprocating member is adjusted, the amount of feeding is released due to the influence of the water flow, so that the time until the feeding storage device is emptied. There is a problem that it is difficult to grasp accurately.

The present invention has been made in view of the above circumstances, and an object of the present invention is a feeding storage device capable of detecting the remaining amount of feeding, measuring the time until the internal feeding is exhausted, and outputting the feeding. Is to provide. Other objectives of the present invention will become apparent by reference to the entire specification.

The feeding storage device according to an embodiment of the present invention includes a main body portion configured to be able to store the feeding food inside, a remaining amount detecting unit for detecting the remaining amount of the feeding food contained in the main body portion, and the feeding food. A charging time determining unit that determines the charging time of the main body in which the sardine is housed, a release time measuring unit that measures the time from the charging time to the exhaustion of the remaining amount of the feed, and the release time are output. It is configured to include an output unit.

According to the feeding storage device according to the embodiment of the present invention, the remaining amount of the feeding is detected, the time until the internal feeding is exhausted is measured, and the output is used to put the feeding storage device containing the feeding in water. It is possible to more accurately grasp the predicted time until the feeding is exhausted in advance when it is put into the water.

The feeding storage device according to the embodiment of the present invention further includes a water depth detecting unit for detecting the water depth and a water temperature detecting unit for detecting the water temperature at which the feeding is released, and the output unit is the remaining amount of the feeding. It is configured to output the water depth and water temperature when there is no more.

The output unit of the feeding storage device according to the embodiment of the present invention is configured to have a wireless transmission unit.

The feeding accommodating device according to an embodiment of the present invention is connected to an electric reel having a control unit, and the output unit wirelessly transmits information including the release time to the control unit of the electric reel, and the control unit. Is configured to control the electric reel to start automatic winding of the electric reel after the lapse of the release time.

The feeding storage device according to an embodiment of the present invention is connected to a reel having a display unit, the output unit wirelessly transmits information including the release time to the display unit, and the display unit wirelessly transmits information including the release time to the display unit. Is configured to output information indicating that has passed to the operator.

According to the feeding storage device according to the embodiment of the present invention, it is possible to efficiently recover the feeding storage device from which the feeding has been exhausted based on the predicted time until the feeding is exhausted.

In the feeding accommodating device according to the embodiment of the present invention, the charging time determining unit detects the clutch operation start time or spool rotation start time of the electric reel or the reel, and the charging time is the clutch operation start time. Alternatively, it is configured to be set based on the spool rotation start time.

The feeding storage device according to an embodiment of the present invention further includes an underwater detection unit that detects whether or not the main body is put into water, and the putting time is set based on the time of putting the main body into water. It is configured to be.

The output unit of the feeding accommodating device according to the embodiment of the present invention is energized when the main body is not in water, and the remaining amount detection unit is energized when the main body is in water. It is composed.

The underwater detection unit of the feeding accommodating device according to the embodiment of the present invention is configured to detect the water pressure by the pressure sensor.

The underwater detection unit of the feeding accommodating device according to the embodiment of the present invention includes a pair of electrodes and is configured to detect energization by water between the pair of electrodes.

The feeding storage device according to an embodiment of the present invention includes a feeding weight measuring unit that measures the weight of the feeding, a storage unit that stores information including the weight of the feeding and the release time at the time of previous use, and the release. A release time estimation unit for estimating the time is further provided, and the release time estimation unit is configured to calculate an estimated value of the release time based on the measured weight of the feed and the information.

According to the above embodiment, by detecting the remaining amount of the feed, measuring the time until the internal feed is exhausted, and outputting the feed, the feed is preliminarily added to the water when the feed storage device containing the feed is put into water. It is possible to provide a feeding storage device that can more accurately grasp the predicted time until it disappears.

The figure which shows typically the feeding accommodating apparatus 100 which concerns on one Embodiment of this invention. A flowchart showing an output method such as a feeding time by the feeding accommodating device 100 according to the embodiment of the present invention. Schematic diagram explaining the cooperation method of the feeding accommodating device 100 and the electric reel which concerns on one Embodiment of this invention. A flowchart showing a display method of an output means by a feeding accommodating device 100 according to an embodiment of the present invention. The figure which shows typically the feeding accommodating apparatus 100 which concerns on other embodiment of this invention. The figure explaining the example of the history information which shows the relationship between the weight of the feeding 105 and the release time T which concerns on other embodiment of this invention. A flowchart showing an input time output method and a history addition method by the feeding storage device 100 according to the embodiment of the present invention.

Hereinafter, various embodiments of the present invention will be described with reference to the drawings as appropriate. The common components in the drawings are designated by the same reference numerals.

First, the feeding storage device 100 according to the embodiment of the present invention will be described with reference to FIG. The feeding storage device 100 shown in FIG. 1 includes a main body 101, a lid 111 that covers the upper part of the main body 101, and a base portion 112 that covers the lower part of the main body 101. One end of the road thread 107 extending from the fishing rod R is attached to the lid 111. A Harris is attached to the lower end of the base portion 112, and a fishing hook 108 is attached to the tip of the Harris.

The main body 101 is formed in a hollow cylindrical shape, for example, and the feeding 105 is housed in the hollow internal space. The sprinkling bait 105 is an arbitrary bait having a fish-collecting effect, and for example, krill, minced fish meat, roasted bran, and sanagi powder (carcass of powdered silk moth) are used. The main body 101 is formed of, for example, a synthetic resin.

The main body 101 has one or more communication holes that communicate the inside and the outside so that the bait can be discharged into the water. The position, size, and number of the communication holes can be appropriately set depending on the type of the bait 105, the fish species to be fished, and other factors. The feeding 105 may be released into water by attaching the lid 111 to the main body 101 so that the lid 111 can be opened and closed with respect to the main body 101 and opening the lid 111 in water.

The illustrated feeding accommodating device 100 includes a remaining amount detecting unit 102 including a light emitting unit 1022 and a light receiving unit 1021, a signal processing unit 103, a transmitting unit 104, and a power supply 106. The remaining amount detecting unit 102 includes a light emitting unit 1022 provided on the lid 111 and a light receiving unit 1021 provided on the base portion 112, and can detect the remaining amount of the feeding 105 in the feeding accommodating device 100. .. In addition to the output from the output unit 113, which will be described later, the signal processing unit 103 generates a remaining amount signal indicating the remaining amount of the feeding 105 detected by the remaining amount detecting unit 102, and the transmitting unit 104 generates a remaining amount signal, if necessary. , The remaining amount signal may be configured to be transmitted to an external device (not shown).

The feeding storage device according to the embodiment of the present invention has a main body 101 configured to be able to store the feeding 105 inside, and a remaining amount detection for detecting the remaining amount of the feeding 105 housed in the main body 101. The charging time determination unit 109 for determining the injection time of the main body portion in which the feeding is contained (the timing at which the main body 101 in the state where the feeding is contained) into the water is determined. It is configured to include a release time measuring unit 110 for measuring the time from the feeding time to the exhaustion of the remaining amount of the feeding 105, and an output unit 113 for outputting the release time.

The charging time determination unit 109 can determine the timing at which the feeding 105 is housed in the main body 101 by a method described later. The release time measuring unit 110 is connected to the charging time determining unit 109 and the remaining amount detecting unit 102, and measures the time (referred to as the release time) from when the feeding 105 is housed in the main body 101 until the remaining amount of the feeding 105 is exhausted. can do. The output unit 113 is configured to output the closing time measured by the release time measuring unit 110.

The power supply 106 supplies necessary power to the remaining amount detection unit 102, the signal processing unit 103, the transmission unit 104, the closing time determination unit 109, the emission time measurement unit 110, the output unit 113, and other electronic components. The power source 106 may be, for example, a small button battery, an energy harvesting type battery that converts environmental temperature difference, vibration, and light energy into electric power, and any other battery. The remaining amount detection unit 102, the signal processing unit 103, the transmission unit 104, the input time determination unit 109, the release time measurement unit 110, the output unit 113, and the power supply 106 are appropriately waterproofed to prevent electric leakage. ing.

According to the feeding storage device 100 according to the embodiment of the present invention, the remaining amount of the feeding 105 is detected, the time until the internal feeding 105 disappears is measured, and the output is obtained to store the feeding. When the device is put into water, it is possible to more accurately grasp the predicted time until the feeding is exhausted in advance as compared with the conventional case.

Although not shown, the feeding storage device 100 according to the embodiment of the present invention is further provided with a water depth detecting unit 114 for detecting the water depth and a water temperature detecting unit 115 for detecting the water temperature at the time of discharging the feeding 105. Will be done. In this case, the output unit 113 is configured to output the water depth and the water temperature when the remaining amount of the feeding 105 is exhausted. Although not shown, the output unit 113 of the feeding accommodating device according to the embodiment of the present invention may be configured to further include a wireless transmission unit 116 for transmitting output information to the outside. As a result, by measuring the water depth and water temperature when the remaining amount of the bait 105 is exhausted, it is possible to inform the operator of information on the underwater environment, which leads to improvement of fishing results.

The light receiving unit 1021 shown in FIG. 1 is provided on the base portion 112 so as to face the light projecting unit 1022, and is configured to receive light emitted from the light projecting unit 1022 and transmitted through the internal space of the main body 101. Will be done. The floodlight unit 1022 is, for example, a light emitting diode (LED) and can emit light in a predetermined band. The floodlight unit 1022 is configured to emit light in a band that is highly transparent in water and is easily blocked (attenuated) by the feeding 105. The light emitted from the floodlight unit 1022 may be, for example, visible light, infrared light, or light in a frequency band near the visible light band other than these.

The light receiving unit 1021 includes a photoelectric conversion element such as a photodiode. This photoelectric conversion element is, for example, a known cadmium sulfide cell. The photoelectric conversion element of the light receiving unit 1021 can generate an electric charge corresponding to the amount of received light, read an electric signal (for example, a voltage value) corresponding to the amount of the generated electric charge, and output it as an output signal. A condenser lens may be provided in the light projecting unit 1022 so that the light receiving unit 1021 can receive a sufficient amount of light. Further, in order to prevent ambient light from the surroundings of the feeding accommodating device 100 from entering the light receiving unit 1021 and generating noise, a light-shielding member that does not transmit light is attached to the main body 101, or a composite that does not transmit light. The main body 101 may be formed from the resin.

As described above, the light receiving unit 1021 is provided so as to face the light projecting unit 1022, and is configured to receive the light transmitted from the light projecting unit 1022 through the internal space of the main body 101. When the amount of the feeding 105 remaining in the internal space of the unit 101 is large, the light from the light emitting unit 1022 is blocked by the feeding 105, and the voltage output from the light receiving unit 1021 becomes small. When the bait 105 is discharged into water and the amount of the bait 105 remaining in the bait accommodating device 100 decreases, the amount of incident light on the light receiving unit 1021 increases, and the voltage output from the light receiving unit 1021 increases. In this way, the remaining amount of the bait 105 in the main body 101 can be detected by the output of the light receiving unit 1021.

Further, the signal processing unit 103 modulates the carrier wave with the remaining amount signal to generate a modulated wave, and transmits this modulated wave from the transmission unit 104 into water. Modulation of the remaining amount signal is performed using various analog or digital modulations. When analog modulation is used, the remaining amount signal is D / A converted before modulation. Various known modulation schemes can be used to modulate the remaining amount signal. For example, amplitude modulation, frequency modulation, phase modulation, and various other modulation schemes can be used.

Next, with reference to FIG. 2, the output method such as the feeding time by the feeding storage device 100 according to the embodiment of the present invention will be described.

First, the feeding storage device 100 is prepared (step S0). Next, the feeding 105 is housed in the feeding storage device 100 (step S1). It is detected whether the main body 101 containing the feeding 105 has been put into water (step S2). The feeding 105 is housed in the feeding storage device 100, but when the main body 101 containing the feeding 105 is not put into water (NO in step S2), it is confirmed again after a lapse of a predetermined time, and the said This is repeated until the main body 101 is put into water. When the main body 101 containing the feeding 105 is thrown into the water (YES in step S2), the time (timing) when the main body 101 is thrown into the water is defined as the throwing time (T = 0). After the lapse of a predetermined time, it is confirmed whether the main body 101 is in water (step S4). When the main body 101 is not in water, the feeding accommodating device 100 is displayed as “remaining amount” (step S5).

On the other hand, it is confirmed whether the main body 101 is in water (step S4), and when the main body 101 is in water, it is confirmed whether the remaining amount of the bait 105 of the bait accommodating device 100 is zero (step S6). .. If the remaining amount is not zero, steps S4 and S6 are repeated again after the elapse of a predetermined time (T = T + 1). It is confirmed whether the remaining amount of the feeding 105 of the feeding storage device 100 is zero, and if the remaining amount is zero, the time T at that time is determined as the release time (step S7). At that time, the water depth is measured by the water depth detection unit 114, and the water temperature is measured by the water temperature detection unit 115 (step S7). Next, it is confirmed whether the main body 101 of the feeding storage device 100 is in water (step S8), and if it is in water, it is repeated after a lapse of a predetermined time. On the other hand, it is confirmed whether the main body 101 of the feeding storage device 100 is in water (step S8), and if it is not in water, the release time T, the water depth when the remaining amount of the feeding 105 is exhausted, and the water depth when the remaining amount of the feeding 105 is exhausted in the output unit 113. The water temperature is output (step S9). The output unit 113 may be configured to output only the release time T. Further, the output other than these may be configured to be performed together.

In this way, by detecting the remaining amount of the feed, measuring the time until the internal feed is exhausted, and outputting it, the feed storage device containing the feed is put into the water until the feed is exhausted in advance. It will be possible to grasp the predicted time of. For example, if the amount of feeding is kept constant, the time until the feeding is exhausted is generally reproducible unless there is a sudden change in the ocean current. Therefore, it is possible to reduce the state in which the storage device 100 is held in the water in a state where there is no feeding inside, and improvement in fishing results can be expected.

Next, with reference to FIG. 3, a method of cooperating with the feeding accommodating device 100 connected to the thread 107 extending from the fishing rod R (referred to as an electric reel) including the control unit 40 and the electric reel will be described. As shown in FIG. 3A, the feeding storage device 100 according to the embodiment of the present invention is connected to an electric reel having a control unit 40, and the output unit 113 transmits information including a release time T1 to the electric reel. Wireless transmission is performed to the control unit 40 of the reel. After that, as shown in FIG. 3B, the time T2 from when the feeding storage device 100 is put into water until the internal feeding 105 disappears is measured. After that, as shown in FIG. 3C, the control unit 40 controls the electric reel so as to start automatic winding of the electric reel after the release time T1 elapses. At that time, as shown in FIG. 3C, the feeding storage device 100 can transmit the newly measured release time T2 to the electric reel.

According to the feeding storage device 100 according to the embodiment of the present invention, the feeding storage device is efficiently wound from water by automatically winding the electric reel at the timing when the feeding will run out, based on the predicted time until the feeding 105 runs out. It becomes possible to collect the waste, and the burden on the operator can be reduced.

Although not shown, the feeding storage device 100 according to the embodiment of the present invention is connected to a reel having a display unit, the output unit 113 wirelessly transmits information including a release time to the display unit, and the display unit , It is configured to output information indicating that the release time has passed to the operator. Here, the reel may be a reel other than the electric reel, and can be applied to any reel as long as it has a display unit capable of indicating the passage of the release time. If the reel is other than the electric reel, the operator manually winds the reel. In this case, it is not necessary to provide the display unit on the feeding storage container 100, and the device can be downsized and the cost can be reduced. Further, the receiving destination for wirelessly transmitting the information including the release time is not limited to the reel, and may be a mobile phone, a computer, or a fish finder having a display unit. Further, it may be a means for transmitting the voice to the operator by a speaker or the like. With these configurations, it is not necessary to provide a display unit on the sprinkled food storage container 100, and it is possible to realize miniaturization, cost reduction, and power saving of the device.

Further, although not shown, the feeding time determining unit 109 in the feeding accommodating device 100 according to the embodiment of the present invention detects the clutch operation start time or the spool rotation start time of the electric reel or the reel, and the feeding time is the said. It may be configured to be set based on the clutch operation start time or the spool rotation start time. As a result, the charging time determination unit 109 can be held on the reel side instead of the feeding storage container 100, and the feeding storage container 100 can be reduced in power consumption and size.

Further, although not shown, the feeding storage device 100 according to the embodiment of the present invention further includes an underwater detection unit that detects whether or not the main body 101 is put into water, and the putting time is set to the underwater of the main body. It may be configured to be set based on the input time to. The underwater detection unit of the feeding accommodating device according to the embodiment of the present invention may be configured to detect the water pressure by the pressure sensor. Further, the underwater detection unit of the feeding accommodating device according to the embodiment of the present invention may be provided with a pair of electrodes and may be configured to detect energization by water between the pair of electrodes.

The output unit 113 of the feeding storage device 100 according to the embodiment of the present invention is energized when the main body 101 is not in water, and the remaining amount detection unit 102 is energized when the main body is in water. It may be configured.

Next, with reference to FIG. 4, a method of displaying the output means by the feeding storage device 100 according to the embodiment of the present invention will be described.

First, the feeding storage device 100 is prepared (step S10). Next, the feeding 105 is stored in the feeding storage device 100 (step S11). It is detected whether the main body 101 containing the feeding 105 has been put into water (step S12). The feeding 105 is housed in the feeding storage device 100, but when the main body 101 containing the feeding 105 is not put into water (NO in step S12), it is confirmed again after a lapse of a predetermined time, and the said This is repeated until the main body 101 is put into water. When the main body 101 containing the feeding 105 is thrown into the water (YES in step S12), the time (timing) when the main body 101 is thrown into the water is set as the throwing time (T = 0). , The output unit 113 is turned off, and the remaining amount detection unit 102 is turned on (step S13). After a lapse of a predetermined time, it is confirmed whether the main body 101 is in water (step S14). When the main body 101 is not in water, the feeding accommodating device 100 is displayed as “remaining amount” and the remaining amount detecting unit 102 is turned off (step S15).

On the other hand, it is confirmed whether the main body 101 is in water (step S14), and when the main body 101 is in water, it is confirmed whether the remaining amount of the bait 105 of the bait accommodating device 100 is zero (step S16). .. If the remaining amount is not zero, steps S4 and S6 are repeated again after the elapse of a predetermined time (T = T + 1). It is confirmed whether the remaining amount of the feeding 105 of the feeding storage device 100 is zero, and if the remaining amount is zero, the time T at that time is determined as the release time (step S17). Then, while the output unit 113 remains off, the remaining amount detection unit 102 is turned off (step S18). Next, it is confirmed whether the main body 101 of the feeding storage device 100 is in water (step S19), and if it is in water, it is repeated after a lapse of a predetermined time. On the other hand, it is confirmed whether the main body 101 of the feeding accommodating device 100 is in water (step S19), and if it is not in water, the output unit 113 is turned on and the output time T is output by the output unit 113 (step S19). Step S20). In step 20, the water depth and the water temperature when the remaining amount of the feeding 105 is exhausted may be output. In that case, in step S17, the water depth can be measured by the water depth detection unit 114, and the water temperature can be measured by the water temperature detection unit 115. Information other than these may be output to the output unit 113.

In this way, when the feeding accommodating device 100 is underwater, the power can be saved by turning off the output unit. Further, when the feeding accommodating device 100 is above the water surface or when the remaining amount of the feeding is detected by the remaining amount detecting unit, the remaining amount detecting unit can be turned off to save power. it can. Furthermore, by measuring and outputting the time until the feeding is exhausted, it is possible to more accurately grasp the predicted time until the feeding is exhausted in advance when the feeding storage device containing the feeding is put into water. become.

Next, the feeding storage device 100 according to the embodiment of the present invention will be described with reference to FIG.

First, as in FIG. 1, the illustrated feeding accommodating device 100 includes a remaining amount detecting unit 102 including a light emitting unit 1022 and a light receiving unit 1021, a signal processing unit 103, a transmitting unit 104, and a power supply 106. The remaining amount detecting unit 102 includes a light emitting unit 1022 provided on the lid 111 and a light receiving unit 1021 provided on the base portion 112, and can detect the remaining amount of the feeding 105 in the feeding accommodating device 100. .. In addition to the output from the output unit 113, the signal processing unit 103 generates a remaining amount signal indicating the remaining amount of the feeding 105 detected by the remaining amount detecting unit 102, and the transmitting unit 104 generates a remaining amount signal. The quantity signal may be configured to be transmitted to an external device (not shown).

Further, the feeding storage device according to the embodiment of the present invention stores information (history information) including the feeding weight measuring unit 117 for measuring the weight of the feeding and the weight and release time of the feeding in the previous use. A storage unit 118 and a release time estimation unit 119 for estimating the release time are further provided, and the release time estimation unit 119 is an estimated value of the release time based on the measured weight of the bait and the history information. Is configured to calculate.
The output unit 113 can be configured to display the estimated value of the release time calculated in this way.

Next, with reference to FIG. 6, historical information showing the relationship between the weight of the feeding 105 and the release time T will be described. As shown in the figure, the horizontal axis shows the weight m of the bait 105, and the vertical axis shows the release time T of the bait 105. Each of the plotted ◯ in FIG. 6 is historical information showing the relationship between the weight m of the feeding 105 and the release time T so far. By accumulating the history information so far in this way, when the feeding storage device 100 newly containing the feeding 105 is thrown into the water, it is assumed based on the weight m of the feeding 105 to be thrown. By outputting the expected release time Tp, it is possible to obtain a more accurate prediction of the release time in advance. Details will be described with reference to FIG.

Next, with reference to FIG. 7, the input time output method and the history addition method by the feeding storage device 100 according to the embodiment of the present invention will be described.

First, the feeding storage device 100 is prepared (step S20). Next, the feeding 105 is stored in the feeding storage device 100 (step S21). Then, the weight m of the bait 105 housed in the main body 101 is measured (step S22). Next, the expected release time Tp is calculated based on the historical information showing the relationship between the weight of the feeding 105 and the release time T described in FIG. 6 (step S23). Then, the Tp is output based on the calculated expected release time Tp (step S24). After that, it is confirmed whether the main body 101 containing the feeding 105 is put into the water (step S25). When the main body 101 containing the feeding 105 is not put into the water (NO in step S25), it is confirmed again after a lapse of a predetermined time, and this is repeated until the main body 101 is put into the water. When the main body 101 containing the feeding 105 is put into the water (YES in step S25), the time (timing) when the main body 101 is put into the water is set as the throwing time (T = 0) (T = 0). Step S26). Then, after a lapse of a predetermined time, it is confirmed whether the main body 101 is in water (step S27). When the main body 101 is not in water, the feeding accommodating device 100 is displayed as “remaining amount” (step S28).

On the other hand, it is confirmed whether the main body 101 is in water (step S27), and when the main body 101 is in water, it is confirmed whether the remaining amount of the bait 105 of the bait accommodating device 100 is zero (step S28). .. If the remaining amount is not zero, steps S27 and S28 are repeated again after the elapse of a predetermined time (T = T + 1). It is confirmed whether the remaining amount of the feeding 105 of the feeding storage device 100 is zero (step S28), and if the remaining amount is zero, the time T at that time is determined as the release time (step S29). Next, it is confirmed whether the main body 101 of the feeding storage device 100 is in water (step S30), and if it is in water, it is repeated after a lapse of a predetermined time. On the other hand, it is confirmed whether the main body 101 of the feeding storage device 100 is in water (step S30), and if it is not in water, the previously determined release time T and the weight m are added to the history information (step S30). .. Here, in addition to the release time T and the weight m, the water depth and the water temperature when the remaining amount of the feeding 105 is exhausted may be added to the history information.

In this way, even when the amount of the feed is changed, when the feed storage device containing the feed is put into water in advance based on the historical information showing the relationship between the release time T of the feed and the weight m. It will be possible to more accurately grasp the estimated time until the feeding is exhausted.

The embodiment of the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the gist thereof. For example, the material, shape, dimensions, form, number, arrangement, etc. of each member in the above-described embodiment can be appropriately changed. For example, the specific method for detecting the remaining amount of the feed in the feed storage device is not limited to that specified in the present specification. As a specific detection method of the remaining amount of the feed, the optimum detection method can be used according to the type of the feed to be used.

100 Feeding storage device 101 Main body 102 Remaining amount detection unit 103 Signal processing unit 104 Transmission unit 105 Feeding 106 Power supply 107 Road thread 108 Fishing line 109 Input time determination unit 110 Release time measurement unit 111 Lid 112 Base 113 Output unit 114 Water depth detection unit 115 Water temperature detection unit 116 Radio transmission unit 117 Feeding weight measurement unit 118 Storage unit 119 Emission time estimation unit 120 Information output device 121 Reception unit 122 Demodition unit 123 Output unit 1021 Light receiving unit 1022 Light emitting unit 1022

Claims (11)

The main body is configured to accommodate the bait inside,
A remaining amount detecting unit that detects the remaining amount of the bait contained in the main body, and a remaining amount detecting unit.
An injection time determination unit that determines the injection time of the bait into water,
A release time measuring unit that measures the time from the feeding time to the exhaustion of the remaining amount of the feeding,
An output unit that outputs the release time and
A feeding storage device. Further provided with a water depth detecting unit for detecting the water depth and a water temperature detecting unit for detecting the water temperature at which the feeding is released.
The feeding accommodating device according to claim 1, wherein the output unit outputs the water depth and the water temperature when the remaining amount of the feeding is exhausted. The feeding accommodating device according to claim 1 or 2, wherein the output unit includes a wireless transmission unit. Connected to an electric reel with a control unit,
The output unit wirelessly transmits information including the release time to the control unit of the electric reel.
The feeding accommodating device according to any one of claims 1 to 3, wherein the control unit controls the electric reel so as to start automatic winding of the electric reel after the lapse of the release time. Connected to a reel with a display
The output unit wirelessly transmits information including the release time to the display unit.
The feeding storage device according to any one of claims 1 to 3, wherein the display unit outputs information indicating that the release time has elapsed to the operator. The charging time determining unit detects the clutch operation start time or spool rotation start time of the electric reel or the reel, and detects it.
The feeding accommodating device according to claim 4 or 5, wherein the charging time is set based on the clutch operation start time or the spool rotation start time. An underwater detection unit for detecting the presence or absence of the main body in water is further provided.
The feeding storage device according to any one of claims 1 to 5, wherein the charging time is set based on the charging time of the main body into water. The output unit is energized when the main body unit is not in water.
The feeding accommodating device according to claim 7, wherein the remaining amount detecting unit is energized when the main body unit is in water. The feeding accommodating device according to claim 7 or 8, wherein the underwater detection unit is configured to detect water pressure by a pressure sensor. The feeding accommodating device according to claim 7 or 8, wherein the underwater detection unit includes a pair of electrodes and is configured to detect energization by water between the pair of electrodes. It further includes a feeding weight measuring unit for measuring the weight of the feeding, a storage unit for storing information including the weight of the feeding and the release time at the time of previous use, and a release time estimating unit for estimating the release time. ,
The bait according to any one of claims 1 to 10, wherein the release time estimation unit calculates an estimated value of the release time based on the measured weight of the bait and the information. Containment device.

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