JP4324263B2 - Fishing reel power supply - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a power supply device, and more particularly to a power supply device for a fishing reel for supplying power to an operation means including a display means for displaying water depth provided on a fishing reel and a control means for controlling the operation means. .
[0002]
[Prior art]
  2. Description of the Related Art A fishing reel such as a double-bearing reel is known that has a water depth display portion that is a liquid crystal display, for example, for displaying the water depth of a device. For example, a fishing reel having a water depth display of this type is provided with a control unit comprising a microcomputer, and the control unit measures the feeding length or winding length of the fishing line from the spool. The depth of the device is displayed accordingly.
[0003]
  Power is supplied to these water depth display units and control units from, for example, an internal power source such as a dry cell or a button cell mounted on the reel unit, and power supply / shutoff is performed by a power operation switch provided on the reel unit. It is done on and off. This power operation switch normally does not supply or cut off power from the internal power supply directly to the control unit or the water depth display unit, but indirectly supplies or cuts off power.
[0004]
  Specifically, the power from the internal power supply is supplied / cut off by turning on / off a power supply interrupting circuit having a switching transistor, and the power supply interrupting circuit is on / off controlled by the power supply control circuit. The power control circuit monitors the state of the power operation switch. When the power operation switch is turned on, the power interrupt circuit is turned on to supply power from the internal power supply to the water depth display unit and the control unit. And cut off the power supply from the internal power supply. The power supply control circuit is also supplied with power from the internal power supply.
[0005]
  In this way, if power is supplied and cut off indirectly by the power operation switch, the switch can be downsized.,In addition, it can easily cope with auto-off mode for power saving.
[0006]
[Problems to be solved by the invention]
  In the conventional configuration, since power is supplied from the internal power supply to the power supply control circuit, the power of the internal power supply is consumed even when the power operation switch is turned off. For this reason, when a long time elapses, the internal power supply is consumed even though the power operation switch is not turned on, and the water depth display unit and the control unit may not be operated.
[0007]
  An object of the present invention is to suppress power consumption of a reel control power source when a power operation switch is turned off.
[0008]
[Means for Solving the Problems]
  A power supply device for a fishing reel according to a first aspect of the present invention includes:A reel body having a counter case fixed thereto, a spool rotatably mounted on the reel body, and a spool sensor for detecting the rotation of the spool.An apparatus for supplying power to an operating means including a display means for displaying a water depth provided on a fishing reel and a control means for controlling the operating means, comprising a first power source, a power operation switch, Power supply interrupting means, power supply control means, and a second power supply are provided. The first power supplyPlaced in the reel body,A power supply for supplying power to the control means and the operating means. The power operation switch is a switch whose state changes between an on state and an off state in order to supply and cut off power from the first power source. The power supply interrupting means is a means that is disposed between the first power supply, the control means, and the operation means, and electrically connects / disconnects the first power supply, the control means, and the operation means. The power control means is means for monitoring the state of the power operation switch and controlling the power interrupting means between a connected state and a disconnected state according to the state of the power operation switch. The second power supplyPlaced in the counter case,Power control meansAnd spool sensorIt is a power supply that supplies power to the.When the power operation switch is in the on state and the power interruption means is in the connected state, the power control means turns off the power interruption means if the fishing reel does not operate for a predetermined time or more, and the power operation switch is in the on state and the power interruption. When the means is in the disconnected state, the power supply interrupting means is brought into the connected state when the fishing reel spool rotates.
[0009]
  In this power supply device, when the power operation switch is operated to the on state, the power control means monitoring the power operation switch recognizes the state and puts the power interruption means into the connected state. As a result, the power from the first power source is supplied to the control means and the operation means, and these means start operation. Further, when the power operation switch is turned off, the power supply control means turns off the power supply interruption means, and the supply of power to the control means and the operation means is cut off. The power control means is supplied with power from the second power source. For this reason, when the power operation switch is OFF, only the power of the second power source is consumed and the power of the first power source is not consumed. Therefore, when the power operation switch is in the OFF state, the first power source for reel control is not consumed, and the power consumption of the first power source can be suppressed.
[0010]
  Further, even if the angler forgets to turn off the power operation switch, the power interrupting means is disconnected after a predetermined time, so that the power consumption of the first power source can be further suppressed.
[0011]
  Furthermore, if the power operation switch is in the on state, power is automatically supplied from the first power source to the control unit and the display unit when the spool rotates without operating the power operation switch. For this reason, even if the power of the first power source is not automatically supplied to the display unit or the control unit when a break is taken during fishing, the original state is easily restored by fishing.
[0012]
  A fishing reel power supply device according to a second aspect of the present invention is the device according to the first aspect, wherein the second power source is a solar cell capable of generating power by light. In this case, since the second power source for supplying power to the power source control means is a solar cell, power is generated while light is irradiated even if power is supplied from the second power source to the power source control means. For this reason, even if the power supply control means continues to monitor the power operation switch and the second power supply is consumed, it is possible to supply power to the power supply control means for a long period of time.
[0013]
  A fishing reel power supply device according to a third aspect of the present invention is the device according to the first or second aspect, wherein the first power source is a non-chargeable primary battery. In this case, if a button type battery such as a lithium battery, a silver oxide battery, or an alkaline button battery is used as the first power source, the first power source can be reduced in size. In addition, if a high-performance alkaline battery is used, the life of the first power supply can be extended, and if a manganese dry battery is used, the cost for replacing the first power supply can be reduced.
[0014]
  A fishing reel power supply device according to a fourth aspect of the present invention is the device according to the first or second aspect, wherein the first power source is a rechargeable secondary battery. In this case, for example, the first power source can be used repeatedly by charging the first power source composed of a secondary battery such as a nickel-cadmium battery or a lithium ion battery, thereby reducing the maintenance cost of the first power source. it can.
[0015]
  The fishing reel power supply device according to a fifth aspect of the present invention is the device according to the fourth aspect, wherein the second power source can supply power to the first power source. In this case, since the second power source can be charged when the first power source is consumed, the life of the first power source can be extended.
[0016]
  A fishing reel power supply device according to a sixth aspect of the present invention is the device according to the fifth aspect, further comprising a boosting means disposed between the first power supply and the second power supply. In this case, since the voltage of the second power source can be increased by the boosting means, the first power source can be charged without increasing the electromotive force of the second power source, and the number of cells of the second power source can be kept small. it can.
[0017]
  A fishing reel power supply device according to a seventh aspect of the present invention is the device according to the fifth or sixth aspect, further comprising a backflow prevention means disposed between the first power supply and the second power supply. In this case, the current flows only from the second power source to the first power source by the backflow prevention means using a diode or the like so that the current does not flow from the first power source to the second power source. Even when the power source is charged, consumption of the first power source can be suppressed.
[0018]
  A fishing reel power supply device according to an eighth aspect of the present invention is the device according to any one of the fifth to seventh aspects, further comprising power storage means disposed between the second power supply and the power supply control means. In this case, even if a solar cell is used as the second power source, the power generated by the second power source can be stored, so that power can be supplied to the power source control means regardless of whether light is irradiated or not. The switch status can be monitored constantly.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
  <Overall configuration>
  1 and 2, a dual-bearing reel adopting an embodiment of the present invention is a manually wound reel having a water depth display function.
[0020]
  The dual-bearing reel includes a reel body 1 mounted on a fishing rod, a spool rotating handle 2 disposed on the side of the reel body 1, and a drag adjusting star drag disposed on the reel body 1 side of the handle 2. 3 and a spool 10 rotatably mounted on the reel body 1 are mainly provided.
[0021]
  The reel body 1 includes a frame 7 including a pair of left and right side plates 7a and 7b and a plurality of connecting portions 7c (FIG. 3) for connecting them, left and right side covers 8a and 8b covering the left and right sides of the frame 7, 7 and a front cover 9 that covers the front portion of 7. A rotating shaft of the handle 2 is rotatably supported on the side cover 8b on the handle 2 side (right side in FIG. 2).
[0022]
  A counter case 4 is fixed to the top of the reel body 1. The inside of the counter case 4 is sealed watertight with respect to the outside. The counter case 4 includes a display unit 5 composed of a liquid crystal display for displaying the water depth and shelf position of the device on the basis of two standards, from the water surface and from the bottom, and three display units 5 arranged on the right side of FIG. An operation key unit 6 including switches 6a to 6c is provided. Among these, the switch 6a on the lower side in FIG. 2 is a power operation switch for turning on / off the power.
[0023]
  <Control system configuration>
  As shown in FIG. 3, the counter case 4 is supplied with power to the display unit 5, the control unit 30 connected to the display unit 5 and the operation key unit 6, and the control unit 30 and display unit 5. The power supply unit 31 is arranged. The control unit 30 includes a microcomputer including a CPU, a RAM, a ROM, an I / O interface, and the like, and executes various control operations such as display control according to a control program.
[0024]
  As shown in FIG. 4, the control unit 30 includes a power supply unit 31, a display unit 5, a spool sensor 32 for detecting the rotation of the spool 10, switches 6 b and 6 c of the operation key unit 6, and various information. Is connected to a storage unit 33 composed of a nonvolatile memory such as an EEPROM and the other input / output unit. The control unit 30 operates with electric power supplied from the power supply unit 31.
[0025]
  <Configuration of power supply unit>
  The power supply unit 31 includes a primary battery (an example of a first power supply) 21 for supplying power to the control unit 30 and the display unit 5, a solar battery (an example of a second power supply) 34, a booster circuit 35, and a backflow prevention. A circuit 36, a capacitor 37, a power control circuit 38, and a power interrupt circuit 39 are provided.
[0026]
  As shown in FIG. 3, the primary battery 21 is detachably attached to the front lower portion of the reel body 1. The primary battery 21 is, for example, a button-type lithium battery, and has an electromotive force of approximately 3 volts.
[0027]
  The solar cell 34 is a power source for supplying power to the power control circuit 38. The solar cell 34 is disposed close to the upper side of the display unit 5 in FIG. Thus, since the solar cell 34 is arrange | positioned in the vicinity of the display part 5, while waterproofing both of them becomes easy, the counter case 4 whole can be comprised compactly. Further, since the solar cell 34 faces the upper surface of the counter case 4, light such as sunlight can easily hit the solar cell 34 whenever fishing is performed, and stable power can be obtained. The solar cell 34 is composed of, for example, five cells (modules) using amorphous silicon, and has an electromotive force of about 2 volts.
[0028]
  The booster circuit 35 is connected to the solar cell 34 and is provided to boost the electromotive force generated in the solar cell 34 to about 3 volts. When such a booster circuit 35 is provided, the electromotive force of the solar battery 34 can be reduced, and the number of cells of the solar battery 34 can be reduced.
[0029]
  The backflow prevention circuit 36 is disposed between the capacitor 37 and the booster circuit 35, and is composed of, for example, a diode. The backflow prevention circuit 36 is provided to prevent current from flowing backward from the capacitor 37 to the solar cell 34 side.
[0030]
  The capacitor 37 is provided to store the electric power generated by the solar cell 34. A power source control circuit 38 is connected to the capacitor 37. By providing such a capacitor 37, power is stably supplied to the power supply control circuit 38 even in an environment where the solar cell 34 is not exposed to light.
[0031]
  The power supply control circuit 38 is constituted by a microcomputer including, for example, a CPU, RAM, ROM, timer, I / O interface, etc., and operates with power supplied from the solar battery 34. The power supply control circuit 38 may be configured using a part of the function of the microcomputer of the control unit 30.
[0032]
  The power control circuit 38 is a circuit that performs on / off control of the power interrupt circuit 39 in accordance with the state of the switch 6a as a power operation switch. The power supply control circuit 38 is connected to the switch 6a, the other two switches 6b and 6c, and the spool sensor 32. The power supply control circuit 38 is connected to the control unit 30 and exchanges signals with the control unit 30. The power supply control circuit 38 constantly monitors the state of the switch 6a. When the switch 6a is turned on, the power supply interrupt circuit 39 is connected (on state) and the power of the primary battery 21 is supplied to the control unit 30 and the display unit 5. Supply. If it is determined from the output of the spool sensor 32 that the reel has not operated for a predetermined time, even if the switch 6a is in the on state, the power interrupt circuit 39 is turned off (off state), and the display unit 5 and the control unit The power supply to 30 is cut off. Further, when the switch 6a is on and the power interrupt circuit 39 is turned off, the power interrupt circuit 39 is turned on by the spool rotation signal from the spool sensor 32 or the operation input of the switches 6b and 6c. The supply of power to the unit 30 is resumed.
[0033]
  The power supply interrupt circuit 39 has, for example, a switching transistor, and is disposed between the primary power supply 21, the control unit 30, and the display unit 5. The power interrupt circuit 39 is switched between a connected state and a disconnected state by a control signal from the power control circuit 38 to supply / cut off the power of the primary battery 21.
[0034]
  In this way, the power of the primary battery 21 is supplied to the power supply control circuit 38 instead of the power of the primary battery 21, thereby supplying the power of the primary battery 21.ofConsumption can be suppressed and consumption of the primary battery 21 can be suppressed. In addition, when the reel has been stopped for a long time, the power from the primary battery 21 is cut off, whereby the consumption of the primary battery 21 can be further suppressed.
[0035]
  <Battery case configuration>
  As shown in FIGS. 3, 5, and 6, the front cover 9 is provided with a long opening 20 on the left and right in the upper part and a battery case 22 that houses the primary battery 21 in the lower part. The battery case 22 is provided on the lower front side of the level wind mechanism 13 to be described later, and has a storage portion 23 formed at the lower portion of the front cover 9 and a lid portion 24 that covers the storage portion 23 so as to be opened and closed from the front. . The storage portion 23 is provided in the front cover 9 so as to form a recessed space having a circular shape when viewed from the front. Metal fittings for connecting to the positive and negative electrodes of the primary battery 21 are respectively arranged on the bottom and the wall surface of the storage portion 23. A packing 25 for watertightly sealing the closed space formed by the lid portion 24 is mounted around the opening of the storage portion 23. The lid portion 24 is attached to the storage portion 23 so as to be openable and closable by, for example, two screws 26 screwed from the front. A nut 27 that is screwed into the screw 26 is integrally embedded around the storage portion 23 of the front cover 9 at the time of molding. The two screws 26 may be turned with a tool or may be turned with a coin or the like.
[0036]
  <Other configurations>
  A spool 10 connected to the handle 2 is rotatably supported in the frame 7 of the reel body 1. As shown in FIG. 3, the spool shaft 12 passes through the spool 10. A clutch lever 11 for turning on / off the drive transmission between the handle 2 and the spool 10 is disposed at the rear part (lower part in FIG. 1) of the reel body 1. When this clutch is turned on, the yarn unwinding operation can be stopped during the unwinding of the device due to its own weight.
[0037]
  Further, as shown in FIG. 3, a level wind mechanism 13 that operates in conjunction with the spool 10, a transmission mechanism (not shown) that transmits the rotation of the handle 2 to the spool 10, and the like are provided inside the reel body 1. It has been.
[0038]
  The level wind mechanism 13 includes a screw shaft 14 disposed parallel to the spool 10 in front of the spool 10 (right side in FIG. 3), a fishing line guide 15 that engages with the screw shaft 14, and a guide tube that guides the fishing line guide 15. 16. The screw shaft 14 has a spiral groove (not shown) that intersects the surface. The screw shaft 14 is connected to the spool shaft 12 by a gear mechanism (not shown) disposed in the side cover 8a. The fishing line guide 15 includes a guide body 15a, an engaging member 15b that is disposed in a direction perpendicular to the screw shaft 14 at a lower portion of the guide body 15a, and that engages with a spiral groove at an upper end thereof, and is disposed at the front and rear of the guide body 15a. And a hard ring 15c made of ceramic for guiding the fishing line. A screw shaft 14 passes through the central portion of the guide main body 15a, and a guide tube 16 passes through the screw shaft 14. The guide cylinder 16 is a cylindrical member having a U-shaped lower portion, and is disposed so as to surround the screw shaft 14 between the side plates 7a and 7b. As described above, the battery case 22 is provided in the space between the front and lower sides of the level wind mechanism 13.
[0039]
  <Control operation of power supply control circuit>
  In the dual-bearing reel configured as described above, when the solar cell 34 generates power, the electromotive force thereof is boosted to about 3 volts by the booster circuit 35 and stored in the capacitor 37 via the backflow prevention circuit 36. The electric power stored in the capacitor 37 is supplied to the power supply control circuit 38. When power is supplied to the power supply control circuit 38, the power supply control circuit 38 performs a power supply control operation.
[0040]
  An outline of the power control operation will be described below.
[0041]
  In the power supply control circuit 38, when the switch 6a which is a power supply operation switch is operated, the power supply interruption circuit 39 is on / off controlled to supply / cut off the power from the primary battery 21 to the control unit 30 and the display unit 5. Further, if the reel does not operate for a predetermined time in a state where power is supplied, a sleep mode is entered in which the supply of power to the control unit 30 and the display unit 5 is temporarily stopped, and the power interruption circuit 30 is controlled to be turned off. Shut off the supply. At this time, the switch 6a is maintained in the ON state, and the control unit 30 stores the control state in the storage unit 33 including a nonvolatile memory. Thereby, when the sleep mode is canceled, the previous control state can be restored. When in the sleep mode (when the switch 6a is on and the power is cut off), when the spool 10 starts to rotate or when the other switches 6b and 6c are operated, the sleep mode is canceled and the power is supplied. Resumed.
[0042]
  Next, a specific control operation will be described with reference to FIG.
[0043]
  When power is supplied from the solar cell 34 via the capacitor 37, initialization is performed in step S2 of FIG. In this initial setting, various flags and various control variables are reset. In step S4, it is determined whether or not the spool 10 has started rotating based on the output of the spool sensor 32. This determination is used to determine whether to cancel the sleep mode. In step S6, it is determined whether or not the timer T1 is on. The timer T1 is a timer for determining whether or not the reel operation (specifically, the rotation of the spool 10) has been performed for a predetermined time or more, and is used to determine whether or not to enter the sleep mode. The In step S8, it is determined whether or not the switch 6a has been pressed. As described above, the switch 6 a is a power operation switch. When the switch 6 a is turned on, the power of the primary battery 21 is normally supplied to the control unit 30 and the display unit 5. In step S10, it is determined whether any of the other switches 6b and 6c is pressed. This determination is also used to determine whether or not to cancel the sleep mode. In step S12, it is determined whether or not the timer T1 has exceeded a predetermined time TS. This determination is used to determine whether to enter the sleep mode.
[0044]
  If it is determined that the spool 10 has started rotating, the process proceeds from step S4 to step S14. In step S14, it is determined whether or not a flag SW indicating whether or not the switch 6a is on is set to “1” (on state). When the flag SW is set to “1”, the process proceeds to step S16, and whether or not the flag PW indicating whether or not the power interrupt circuit 39 is in the on state is reset to “0” (off state). Determine whether. It can be seen from these two judgments whether the sleep mode is entered. When the sleep mode is entered (when SW = 1 and PW = 0), the process proceeds to step S18, and the flag PW is set to “1”. As a result, the power interruption circuit 39 is turned on, and the supply of power to the primary battery 21 is resumed.
[0045]
  If it is determined that the switch 6a has been pressed, the process proceeds from step S8 to step S22. In step S22, it is determined whether or not the flag SW is set to “1”. That is, it is determined whether or not the switch 6a is in an on state (SW = 1). When the switch 6a is in the off state (when SW = 0), the process proceeds to step S24, the flag SW is set to “1”, and the switch 6a is turned on. In step S26, the flag PW is set to “1”. As a result, the power control circuit 38 controls the power interrupt circuit 39 to be in an on state, and the power from the primary battery 21 is supplied to the display unit 5 and the control unit 30.
[0046]
  When the switch 6a is on (when SW = 1), the process proceeds from step S22 to step S28, the flag SW is reset to “0”, and the switch 6a is turned off. In step S30, the flag PW is reset to “0”. As a result, the power supply control circuit 38 controls the power supply interruption circuit 39 to be turned off, and the power from the primary battery 21 is cut off.
[0047]
  When the other switches 6b and 6c are pressed, the process proceeds from step S10 to step S32. In steps S32 to S36, the sleep mode canceling process is executed by the same process as in steps S14 to S18. That is, in step S32, it is determined whether or not the flag SW is set to “1”. In step S34, it is determined whether or not the flag PW is reset to “0”. In step S36, the flag PW is set to “1” in order to cancel the sleep mode.
[0048]
  When the timer T1 exceeds the predetermined time TS, the process proceeds from step S12 to step S38. When the timer T1 exceeds a predetermined time TS (for example, 1 hour), a determination is made to enter the sleep mode. In step S38, it is determined whether or not the flag SW is set to “1” after the timer T1 is turned off, that is, whether or not the switch 6a is already on. If the switch 6a is in the off state, it is not necessary to enter the sleep mode because the power is not yet turned on. When the switch 6a is on, the process proceeds to step S40. In step S40, it is determined whether or not the flag PW is set to “1”. That is, it is determined whether the power is turned on. When the switch 6a is in the on state and the power is not turned on (when SW = 1 and PW = 0), it is determined that the sleep mode has already been entered, and therefore it is not necessary to enter the sleep mode. If the power is on, the process proceeds to step S42, and the flag PW is reset to “0”. As a result, the power interrupt circuit 39 is controlled to be turned off, the power is shut off, and the sleep mode is entered. At this time, a signal to that effect is output from the power supply control circuit 38 to the control unit 30, and the control unit 30 stores the control state at that time in the storage unit 33 and outputs a signal indicating the completion to the power supply control circuit 38. . The power supply control circuit 38 waits for the signal to turn off the power supply interruption circuit 39.
[0049]
  <General operation of reel>
  When fishing, the switch 6a is pressed to turn on the power. The details of this control are as described above. Subsequently, the clutch is turned off by the clutch lever 11, the spool 10 is freely rotated, and the fishing line is fed out by the weight of the weight attached to the fishing line. When the fishing line is fed out, the water depth display on the display unit 5 increases in accordance with the feeding amount. When the fishing line is fed out, the rotation of the spool 10 is transmitted to the screw shaft 14 via the gear mechanism, and the screw shaft 14 rotates to reciprocate the fishing line guide 15 along the spool 10. When the device reaches the shelf, the clutch is turned on by the clutch lever 11 to stop feeding the fishing line.
[0050]
  When the fish hits, the handle 2 is operated to wind up the fishing line. When the fishing line is wound up, the water depth display on the display unit 5 decreases according to the winding amount. Also during the winding, the rotation of the spool 10 is transmitted to the screw shaft 14 via the gear mechanism, and the screw shaft 14 rotates to reciprocate the fishing line guide 15 along the spool 10. As a result, the fishing line is wound almost uniformly on the spool.
[0051]
  On the other hand, when the primary battery 21 is exhausted, a message to that effect is displayed on the display unit 5. When the angler learns that the primary battery 21 has been exhausted, the angler turns the two screws 26 and removes the lid 24. Then, the old primary battery 21 is taken out and replaced with a new primary battery 21. Note that a backup capacitor is attached to the control unit 30, and various data displayed and stored for an appropriate period of time will not be erased even if power is not supplied at the time of battery replacement. Note that power may be supplied from the capacitor 37 instead of the backup capacitor.
[0052]
  Here, since the power source (solar cell 34) of the power control circuit 38 is provided separately from the power source (primary battery 21) of the control unit 30, the primary battery 21 is not consumed when the power is shut off, and the power consumption of the primary battery 21 is reduced. Can be suppressed. Moreover, since the power source on the power control circuit 38 side is the solar cell 34, it can supply power over a long period of time. In addition, since the capacitor 37 is disposed therebetween, electric power can be supplied to the power supply control circuit 38 regardless of the presence or absence of light irradiation.
[0053]
  [Other Embodiments]
  (A) Instead of the primary battery 21, as shown in FIG. 8, a rechargeable secondary battery 28 may be used as a power source for the control unit 30 and the display unit 5. In this case, the backflow prevention circuit 36 may be connected to the secondary battery 28, and the secondary battery 28 may be charged by the electromotive force of the solar battery 34. As the battery used for the secondary battery 21, a small and lightweight secondary battery such as a nickel / cadmium battery or a lithium ion battery is preferable. A capacitor may be used instead of the secondary battery.
[0054]
  (B) The primary battery 21 is not limited to the button battery, and may be a manganese dry battery such as an AA size battery or an alkaline dry battery.
[0055]
  (C) Instead of the solar battery 34 as the power source of the power control circuit 38, a normal primary battery or secondary battery may be used.
[0056]
  (D) In this embodiment, the power supply device according to the present invention is mounted on a manually wound dual-bearing reel. You can also.
[0057]
【The invention's effect】
  According to the present invention, when the power operation switch is off, only the power of the second power source is consumed and the power of the first power source is not consumed. Therefore, when the power operation switch is in the OFF state, the first power source is not consumed, and the power consumption of the first power source can be suppressed.
[Brief description of the drawings]
FIG. 1 is a perspective view of a dual-bearing reel according to an embodiment of the present invention.
FIG. 2 is a plan view thereof.
FIG. 3 is a longitudinal sectional view thereof.
FIG. 4 is a block diagram showing a configuration of a control system.
FIG. 5 is a front view of a dual-bearing reel.
6 is a cross-sectional view taken along the line IV-IV in FIG.
FIG. 7 is a flowchart showing a power supply control operation.
FIG. 8 is a diagram corresponding to FIG. 4 in another embodiment.
[Explanation of symbols]
    1 Reel body
    4 Counter case
    5 display section
    6 Operation keys
    6a, 6b, 6c switch
  10 spools
  21 Primary battery
  28 Secondary battery
  31 Power supply
  32 Spool sensor
  34 Solar cell
  35 Booster circuit
  36 Backflow prevention circuit
  37 capacitors
  38 Power control circuit
  39 Power interruption circuit

Claims (8)

Display means for displaying water depth provided on a fishing reel having a reel body to which a counter case is fixed, a spool rotatably mounted on the reel body, and a spool sensor for detecting the rotation of the spool. A fishing reel power supply device for supplying power to the operating means including the control means and the control means for controlling the operating means,
A first power source disposed in the reel body for supplying power to the control means and the operating means;
A power operation switch whose state changes between an on state and an off state in order to supply / shut off power from the first power source;
A power supply interrupting means disposed between the first power supply and the control means and the operating means, and electrically connecting / disconnecting the first power supply and the control means and the operating means;
Power control means for monitoring a state of the power operation switch and controlling the power interrupting means in a connected state and a disconnected state in accordance with the state of the power operation switch;
Wherein disposed in the counter case, and a second power supply for supplying power to said power control means and the spool sensor,
The power control means includes
When the power operation switch is on and the power interrupting means is in a connected state, if the fishing reel does not operate for a predetermined time or more, the power interrupting means is turned off,
A fishing reel power supply device that, when the power operation switch is on and the power interrupting means is disconnected, turns the power interrupting means into a connected state when the spool of the fishing reel rotates .   The fishing reel power supply device according to claim 1, wherein the second power supply is a solar cell capable of generating electricity by light.   The fishing reel power supply device according to claim 1, wherein the first power supply is a primary battery that cannot be charged.   The fishing reel power supply device according to claim 1, wherein the first power supply is a rechargeable secondary battery.   The fishing reel power supply device according to claim 4, wherein the second power supply is capable of supplying power to the first power supply.   The fishing reel power supply device according to claim 5, further comprising a boosting unit disposed between the first power supply and the second power supply.   The fishing reel power supply device according to claim 5 or 6, further comprising a backflow prevention means disposed between the first power supply and the second power supply.   The power supply device for a fishing reel according to any one of claims 5 to 7, further comprising a power storage unit disposed between the second power source and the power source control unit.

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