CN114051985A - Parameter setting device, method, program and fishing reel for fishing electric fishing reel - Google Patents

Abstract

The invention provides an electric fishing reel for fishing, which can realize the operation of quickly changing parameters in the electric fishing reel for fishing. The parameter setting unit receives a parameter changing operation for changing a parameter to be changed among predetermined parameters in response to setting of an operation continuation state in which a state in which the first operation element is operated continues, in a state in which an operation mode in which a spool of the electric fishing reel is rotatable is set in accordance with setting of two or more predetermined parameters. Accordingly, the operation of changing the parameters of the electric fishing reel for fishing can be rapidly performed.

Description

Parameter setting device, method, program and fishing reel for fishing electric fishing reel

Technical Field

The present invention relates to a parameter setting device for an electric fishing reel for fishing, an electric fishing reel for fishing having the same, a parameter setting method, and a parameter setting program.

Background

There is known an electric fishing reel for fishing that switches to a time setting mode in which a time is set as an automatic operation condition in response to a long-press switch operation performed on a time setting mode switch in a fishing line length display mode, and returns to the fishing line length display mode in response to a press operation performed on the time setting mode switch (see, for example, patent document 1).

[ Prior art documents ]

[ patent document ]

Patent document 1: japanese patent laid-open publication No. 2813690

Disclosure of Invention

[ problem to be solved by the invention ]

In the above-described electric fishing reel for fishing, when setting the parameter for automatic operation, the user performs an operation of switching from a mode in which the fishing line can be wound up to a mode in which the parameter is set, and then performs an operation of setting the parameter.

In order to cope with the situation in actual fishing as quickly as possible, it is preferable to perform an operation of changing the automatic operation parameter as quickly as possible.

In view of such circumstances, the present invention aims to: provided are a parameter setting device for an electric fishing reel, which can realize the operation of rapidly changing the parameters in the electric fishing reel for fishing, and the electric fishing reel with the device, a parameter setting method and a parameter setting program.

[ solution for solving problems ]

One technical solution of the present invention for solving the above technical problems is: a parameter setting device for an electric fishing reel includes a parameter setting unit that receives a parameter changing operation for changing a parameter to be changed among predetermined parameters in response to setting of an operation continuation state in which a first operation element is operated continues, in a state in which an operation mode capable of rotating a spool of the electric fishing reel is set in accordance with setting of two or more predetermined parameters.

According to the above configuration, in a state where the operation mode in which the spool of the electric fishing reel for fishing can be rotated and driven is set in accordance with the setting of two or more predetermined parameters, the parameter can be changed by setting the first operating element to the operation continuation state without performing an operation for switching from the operation mode to the parameter change mode. Accordingly, the operation of changing the parameters of the electric fishing reel for fishing can be rapidly performed.

In addition, the invention has a technical scheme that: in the above-described parameter setting device, the parameter setting unit may specify the parameter to be changed in the operation continuation state in response to the operation continuation state being released.

According to the above configuration, even if the predetermined operation element is not operated to specify the parameter after the change, the parameter after the change can be specified by releasing the state in which the first operation element has been continuously pressed until then.

In addition, the invention has a technical scheme that: in the above-described parameter setting device, the parameter setting unit may change the parameter to be changed in response to an operation of one or more second operation elements different from the first operation element in the operation continuation state.

According to the above configuration, the user can change the parameter value to be changed by a simple operation of operating the second operation element while the first operation element is in the operation continuation state.

In addition, the invention has a technical scheme that: in the above-described parameter setting device, the parameter setting unit may select a parameter to be changed from the two or more predetermined parameters in response to an operation performed when the operation is not in the operation continuation state.

According to the above configuration, the user can perform an operation of selecting a parameter to be changed from two or more predetermined parameters in a state where the first operation element is not in the operation continuation state.

In addition, the invention has a technical scheme that: in the above-described parameter setting device, the parameter setting unit may select the parameter to be changed from the two or more predetermined parameters in response to an operation of a second operating element that is one or more operating elements different from the first operating element and that is the same operating element as the operating element used for the parameter changing operation.

According to the above configuration, in a state where the first operation element is not in the operation continuation state, the second operation element, which is the same as the operation element used for changing the parameter value, can be operated, and the parameter to be changed can be selected. Accordingly, the efficiency of the operation related to the change of the parameter can be improved, and the second operation tool can be shared, thereby saving the operation tool used for the operation related to the change of the parameter.

In addition, the invention has a technical scheme that: in the above parameter setting device, the predetermined parameter includes a rotation speed of the spool, an acceleration at which the rotation speed is reached after the rotation of the spool is started, and a condition determination value for determining a condition for stopping the rotation of the spool started in response to the operation.

According to the above configuration, the parameter of the one automatic fish attracting operation includes an acceleration at which the rotation speed is reached after the spool starts rotating. By changing the parameter of the acceleration, for example, the intensity of the initial shaking in the fish attracting motion can be adjusted.

In addition, the invention has a technical scheme that: in the above-described parameter setting device, the reel drive control unit is provided so as not to accept the operation of rotating the reel in the operation mode in the operation continuation state.

According to the above configuration, even if the operation for rotating the spool is performed to wind up the fishing line in the state where the first operation element is in the operation continuation state, the spool does not rotate. Accordingly, it is possible to prevent the rotation of the spool from becoming unstable due to a change in the parameter when the spool is rotationally driven.

In addition, the invention has a technical scheme that: a fishing reel having the parameter setting device of any one of the above.

In addition, the invention has a technical scheme that: a parameter setting method for an electric fishing reel includes a parameter setting step of receiving a parameter changing operation for changing a parameter to be changed among predetermined parameters in response to setting of an operation continuation state in which a first operation member is operated continues, in a state in which an operation mode in which a spool of the electric fishing reel can be driven to rotate is set in accordance with setting of two or more predetermined parameters.

In addition, the invention has a technical scheme that: a parameter setting program for causing a computer included in an electric fishing reel to function as a parameter setting unit, wherein the parameter setting unit receives a parameter changing operation for changing a parameter to be changed among predetermined parameters in response to setting to an operation continuation state in which a first operation element is operated continues, in a state in which an operation mode in which a spool that can drive the electric fishing reel is rotated is set in accordance with setting of two or more predetermined parameters.

[ Effect of the invention ]

As described above, according to the present invention, an effect of enabling an operation of quickly changing parameters in an electric fishing reel for fishing can be obtained.

Drawings

Fig. 1 is a view showing an example of the appearance of the electric fishing reel for fishing according to the present embodiment.

Fig. 2 is a view showing an example of the appearance of the electric fishing reel for fishing according to the present embodiment.

Fig. 3 is a view showing an example of a display operation panel in the fishing electric reel according to the present embodiment.

Fig. 4 is a diagram showing an example of change in the rotational speed of the spool with time in the automatic winding operation according to the present embodiment.

Fig. 5 is a diagram showing an example of a display mode of the display unit according to the present embodiment.

Fig. 6 is a diagram showing a functional configuration example of the electric fishing reel for fishing according to the present embodiment.

Fig. 7 is a flowchart showing an example of processing steps executed in association with setting of drive control parameters for the automatic winding-up operation of the fishing electric reel according to the present embodiment.

Fig. 8 is a flowchart showing an example of processing steps executed by the fishing electric reel according to the present embodiment in response to the winding-up operation.

[ description of reference numerals ]

1: an electric fishing reel for fishing; 4: a spool; 8: a motor; 41: a display operation panel; 101: an operation section; 102: a display unit; 103: a control unit; 104: a storage unit; 105: a motor drive circuit; 106: a rotation sensor; 131: a parameter setting unit; 132: a winding reel drive control section; 141: a drive control information storage unit; 142: an intermediate winding speed storage unit.

Detailed Description

< embodiment >

Next, an electric fishing reel 1 as a parameter setting device according to the present embodiment will be described with reference to the drawings.

In the present embodiment, the driving of the spool means that the spool is rotated by power obtained by, for example, a driving motor.

In the present embodiment, the control of the driving of the spool refers to control related to the driving of the spool. Such drive control of the spool includes control for rotating the spool, control for stopping the rotation of the spool, control for changing the rotational speed of the spool, and the like.

In the following description, the "driving" of the spool is sometimes referred to as "rotational driving" for the purpose of clearly showing the aspect of imparting rotational operation or the like.

In the following description, the case where the electric fishing reel 1 for fishing is a dual-bearing reel is exemplified. In fig. 1 and 2, the scale of each component may be appropriately changed as necessary in order to make each component visually recognizable.

[ example of electric fishing reel for fishing ]

Fig. 1 and 2 show an example of the appearance of the electric fishing reel 1 for fishing according to the present embodiment. The electric fishing reel 1 according to the present embodiment mainly includes: a reel unit 2 that can be attached to a fishing rod not shown; a handle 3 attached to the reel unit 2 so as to be rotatable about a handle axis O1 with respect to the reel unit 2; a spool 4 that is rotatable about a spool axis O2 parallel to the handle axis O1 with respect to the reel unit 2, and around which a fishing line, not shown, is wound; and a clutch mechanism 6 having a clutch lever 5.

The electric fishing reel 1 according to the present embodiment includes a motor (not shown in fig. 1 and 2) that is disposed in a motor housing 7 provided in the reel unit 2 and rotates and drives the spool 4.

The fishing electric reel 1 includes a motor base (not shown) that is combined with the reel unit 2 so as to close the motor housing tube 7, and fixes the motor to the reel unit 2.

In the present embodiment, the handle axis O1 and the spool axis O2 are arranged parallel to each other, and a direction along these axes is defined as the left-right direction L1. A direction perpendicular to the left-right direction L1 and along the direction in which the fishing line wound on the spool 4 is paid out is defined as a front-rear direction L2.

Further, in the front-rear direction L2, the direction in which fishing line is paid out from the spool 4 is defined as the front, and the opposite direction is defined as the rear, and the left and right are defined as the viewpoint of the fishing electric reel 1 viewed from the rear side (the side of the fisherman). Accordingly, fig. 1 is a perspective view of the electric fishing reel 1 for fishing viewed from obliquely above and from the rear left.

The reel unit 2 includes a main body frame 10, side covers 20 covering both left and right sides of the main body frame 10, and a front cover 30 covering a front portion of the main body frame 10.

The main body frame 10 is a molded member made of, for example, synthetic resin or metal (e.g., aluminum die-cast). The main body frame 10 has a first side wall 11, a second side wall 12, and a connecting member 13, wherein the first side wall 11 and the second side wall 12 are disposed facing each other in the left-right direction L1 with the spool 4 interposed therebetween; the connecting member 13 connects the first side wall 11 and the second side wall 12 to each other in the left-right direction L1.

The first side wall 11 is configured as a left side wall disposed on the left side (LH) of the spool 4. On the other hand, the second side wall 12 is configured as a right side wall disposed on the right side (RH) with respect to the spool 4. The handle 3 is disposed on the right side (RH) of the second side wall 12, and is attached to the main body frame 10 by the second side wall 12.

Therefore, the electric fishing reel 1 according to the present embodiment is configured as a right-hand grip type reel. The second side wall 12 is formed to protrude downward from the first side wall 11 in relation to the attachment of the connector portion 23 and the like.

The connecting member 13 is formed in a plate shape that connects the first side wall 11 and the second side wall 12 to each other in the left-right direction L1, and is arranged near a lower portion of the first side wall 11. Accordingly, the first side wall 11 and the second side wall 12 are firmly connected via the connecting member 13.

Further, a mounting leg piece 14 for mounting the electric fishing reel 1 for fishing on a fishing rod is formed at a central portion in the left-right direction L1 of the link member 13 so as to extend in the front-rear direction L2.

In the main body frame 10 configured as described above, at least the motor housing tube 7 housing the motor therein, the spool 4, the clutch lever 5, and the like are disposed between the first side wall 11 and the second side wall 12.

The spool 4 is disposed between the first side wall 11 and the second side wall 12 so as to be positioned rearward of the handle axis O1. The motor accommodating tube 7 is disposed between the first side wall 11 and the second side wall 12 so as to be positioned on the front side of the handle axis O1. Therefore, the electric fishing reel 1 for fishing according to the present embodiment is configured as a so-called bobbin-outside motor type (a type in which the motor is provided outside the bobbin) in which the motor is disposed at a position forward of the bobbin 4.

The side cover 20 has: a first side cover 21 which is combined with the main body frame 10 in a manner of covering the first side wall 11 formed with the opening part of the motor accommodating cylinder 7 from the left side (LH); and a second side cover 22 combined with the main body frame 10 in such a manner as to cover the second side wall 12 from the right side (RH).

The first side cover 21 is formed to bulge to the Left (LH) and is fixed to the first side wall 11 by, for example, screws.

The second side cover 22 is formed so as to bulge out to the Right (RH) and is fixed to the second side wall 12 by, for example, screws.

A connector portion 23 is attached to a portion of the second side cover 22 located at the front lower portion, with a connection end not shown facing downward, and the connector portion 23 is used to connect a power supply reel electric wire for supplying electric power from an external power supply or a portable battery. In addition, in the drawings, the state in which the connection end is protected by the protective end cap 24 is illustrated.

The front cover 30 is combined with the main body frame 10 so as to cover the front of the main body frame 10 from the front. Specifically, the front cover 30 is combined with the front portions of the first and second side walls 11 and 12 so as to cover the motor housing cylinder 7 from the front, and is fixed to the first and second side walls 11 and 12 by, for example, screws. The front cover 30 is attached so as not to close a movement area of a level winder (uniform-wiring winder) (not shown) described later.

The counter case 40 is provided on the upper portion of the main body frame 10 configured as described above. The counter case 40 is fixed to the upper portion of the first side wall 11 and the upper portion of the second side wall 12 by, for example, screw fixing or the like in a state of being disposed between the first side wall 11 and the second side wall 12.

The upper surface of the main body of the counter case 40 is configured to display an operation panel 41. The display operation panel 41 is a portion for displaying to a user who uses the electric fishing reel 1 for fishing and for operating an operation member such as a button or a switch by the user.

Fig. 3 shows a display operation panel 41 of the fishing electric reel 1. As shown in fig. 3, the display operation panel 41 includes an operation unit 101 and a display unit 102.

The operation unit 101 is a part operated by a user as a button. In the example of fig. 3, three buttons, i.e., a first button 111-1 (an example of a first operation element), a second button 111-2 (an example of a second operation element), and a third button 111-3 (an example of a second operation element) are arranged as buttons for performing button operations in the operation unit 101. In the following description, the first button 111-1, the second button 111-2, and the third button 111-3 will be referred to as the buttons 111 unless otherwise specified.

The buttons 111 in fig. 3 are arranged in the vertical direction in a positional relationship in which the second button 111-2 is located at the top and the third button 111-3 is located at the bottom. The first button 111-1 is located on the left side of the position where the second button 111-2 and the third button 111-3 are arranged, and is arranged at a position corresponding to the middle position of the second button 111-2 and the third button 111-3 in the up-down direction.

The second button 111-2 and the third button 111-3 in such a configuration of the buttons 111 easily adapt to the operation feeling of the user even if they function as an up button and a down button in operations such as parameter value change and item selection, respectively.

In addition, a roll-up switch 112 is provided in the operation unit 101. The winding switch 112 is an operation member for rotating the spool 4 to wind up the fishing line.

The winding switch 112 is a switch for performing an operation for automatically winding up a fishing line. The roll-up switch 112 is a seesaw type pressure sensitive switch, and is operable to press the upper switch portion 112a and to press the lower switch portion 112 b.

The display unit 102 is a part for displaying predetermined contents in response to the operation of the fishing electric reel 1. The display device included in the display unit 102 is not particularly limited, and examples thereof include a liquid crystal display device and an organic EL display device.

The description returns to fig. 1 and 2. The handle 3 is used for manually winding up the fishing line. The handle 3 is disposed on the right side (RH) of the main body frame 10 and the first side cover 21. The handle 3 has: a handle shaft 50 configured to be rotatable about a handle axis O1; a handle arm 51 attached to the handle shaft 50 so as to be non-rotatable with respect to the handle shaft 50; and a handle grip 52 mounted on an end of the handle arm 51 so as to be rotatable about an axis parallel to the handle axis O1.

A drag member 53 (star-shaped drag member) disposed coaxially with the handle axis O1 is provided between the handle arm 51 and the first side cover 21. The drag member 53 applies an arbitrary drag force to the spool 4 to brake the rotation of the spool 4 when the fishing line is wound up, thereby contributing to the suppression of the cutting of the fishing line.

When the clutch mechanism 6 is in the clutch engaged state, the rotational torque from the handle 3 configured as described above is directly transmitted to the spool 4 via a rotation transmission mechanism not shown.

In the present embodiment, a so-called single-handle type in which the handle grip 52 is attached to one end portion of the handle arm 51 is described as an example, but the present invention is not limited to this. For example, the so-called double-handle type electric fishing reel 1 may be configured such that the handle grips 52 are attached to both end portions of the handle arm 51 and the center portion of the handle arm 51 is non-rotatably attached to the handle shaft portion 50.

The spool 4 is disposed between the first side wall 11 and the second side wall 12 in the frame body, and is supported rotatably about the spool axis O2 by the first side wall 11 and the second side wall 12, respectively, via bearings not shown.

The spool 4 has: a spool rotation shaft, not shown, which rotates about a spool axis O2; and a spool body 4a which is disposed coaxially with the spool rotation shaft and rotates in conjunction with the spool rotation shaft.

The clutch mechanism 6 is switchable between a clutch engaged state in which rotational torque from the handle 3 can be transmitted to the spool 4 via a rotation transmission mechanism, not shown, and a clutch disengaged state by operation of the clutch lever 5; in the clutch-disengaged state, the rotational torque from the handle 3 cannot be transmitted to the spool 4. Therefore, by rotating the handle 3 in the clutch engaged state, the rotational torque generated by the rotation of the handle 3 can be transmitted to the spool 4, and the spool 4 can be rotated about the spool axis O2. Accordingly, the manual winding operation can be performed.

When the clutch mechanism 6 is in the clutch disengaged state, the rotational torque generated by the rotational operation of the handle 3 is not transmitted to the spool 4, and the spool 4 is in a freely rotatable state (spool idling state).

The clutch lever 5 is a switching lever for switching the clutch mechanism 6 between a clutch engaged state and a clutch disengaged state. The clutch lever 5 is disposed between the first side wall 11 and the second side wall 12 at a position rearward of the spool 4, and is vertically movable so as to be swingable around the spool axis O2.

The rotation transmission mechanism is configured to transmit the rotation torque to the spool 4 while increasing the speed of rotation of the handle 3. The rotation transmission mechanism is configured to transmit the rotation torque generated by the rotation operation of the handle 3 not only to the spool 4 but also to the level wind mechanism (not shown) when the clutch mechanism 6 is in the clutch engaged state. The level wind mechanism is a mechanism for winding the fishing line on the spool 4 uniformly without any bias.

When the motor is driven with the clutch mechanism 6 in the clutch disengaged state, the rotation transmission mechanism can transmit the rotation torque generated by the driving of the motor to the spool 4. Accordingly, an automatic winding operation can be performed. The rotation transmission mechanism transmits the rotation torque to the spool 4 while decelerating the rotation of the motor.

[ concerning electric iron plate fishing (jigging) mode ]

The electric fishing reel 1 according to the present embodiment can perform the fishing line winding operation in response to the operation of the winding switch 112 by the user as follows in the state where the electric iron plate fishing mode is turned on. The electric tepping reel mode is an example of an operation mode in which the spool of the electric fishing reel for fishing can be rotated and driven in accordance with setting of two or more predetermined parameters.

In the electric board fishing mode, the upper switch portion 112a of the wind-up switch 112 is assigned to an operation of turning on or off the rotational driving of the spool 4 for winding up a fishing line.

That is, when the user starts to press the upper switch portion 112a, the rotation driving of the spool 4 is started, and the winding up of the fishing line is also started. While the user keeps pressing the upper switch portion 112a, the spool 4 is also continuously rotated, and the fishing line is continuously wound up. When the user releases the pressing of the upper switch 112a, the rotation driving of the spool 4 is stopped, and the winding up of the fishing line is also stopped.

In the electric hook mode, when the upper switch 112a is pressed for the first time, the fishing line is wound up at a spool rotation speed (intermediate winding speed) lower than a preset maximum speed. After that, when the upper switch part 112a is further pushed in and operated while the upper switch part 112a is continuously pushed, the fishing line is wound up in a state where the winding speed is increased to the maximum.

In the electric tepping mode, the lower switch portion 112b of the wind-up switch 112 is assigned to an operation for executing an automatic fish attracting operation (an example of an automatic spinning operation, a rotational driving operation of a spool of an electric fishing reel for fishing in accordance with setting of two or more predetermined parameters).

That is, in response to the user's operation (click operation) of pressing the lower switch portion 112b once, the spool 4 is rotationally driven for a certain period based on the preset drive control information, and the fishing line is wound up.

The drive control parameters (examples of two or more predetermined parameters) constituting the drive control information corresponding to the automatic fish attracting operation according to the present embodiment are three parameters of the roll-up LENGTH [ LENGTH ] (examples of the condition determination value), the SPEED [ SPEED ], and the acceleration [ ACCEL ].

The winding LENGTH [ LENGTH ] is the LENGTH of the fishing line wound up in one automatic fish attracting operation. The winding LENGTH [ LENGTH ] corresponds to the LENGTH of the fishing line wound around the spool 4.

The SPEED [ SPEED ] is the rotational SPEED of the spool 4 when the fishing line is wound up in the automatic fish attracting operation.

The acceleration [ ACCEL ] is an acceleration (angular acceleration) when the reel 4 reaches a SPEED [ SPEED ] after starting rotation in the automatic fish attracting operation.

Fig. 4 shows an example of the behavior of the spool 4 corresponding to one automatic fish attracting operation based on the setting of the drive control parameters of the winding LENGTH [ LENGTH ], the SPEED [ SPEED ], and the acceleration [ ACCEL ]. In fig. 4, the horizontal axis represents time, and the vertical axis represents rotational speed.

At time t0, when the user performs an operation of pressing the lower switch portion 112b of the wind-up switch 112 once, the spool 4 starts to rotate from time t1 at time t1 after a certain time lag (delay) has elapsed from time t 0.

The spool 4, which starts rotating at time t1, increases the rotational speed at an acceleration corresponding to the set acceleration [ ACCEL ]. Then, at time t2, the rotational SPEED of the spool 4 reaches SPEED. The inclination of the rotational speed from time t1 to time t2 in this fig. 4 varies depending on the value of the acceleration [ ACCEL ]. After time t2, the spool 4 rotates at a constant SPEED based on the SPEED [ SPEED ].

For example, as the drive control parameter, the spool 4 may be rotationally driven so as to always reach the SPEED [ SPEED ] at a constant acceleration without providing the acceleration [ ACCEL ]. However, for example, in a fishing operation performed while a user actually moves a fishing rod, the intensity of initial shaking in the fishing operation may be changed depending on the situation, and the fishing result may be affected. Therefore, if the drive control parameter of the acceleration [ ACCEL ] is set as in the present embodiment, the intensity of the initial sway in the fish attracting action as described above can be changed according to the intention of the user in the automatic fish attracting action.

The fishing electric reel 1 measures the length of the fishing line wound on the spool 4 after the spool 4 starts to rotate at time t 1. When the LENGTH of the fishing line wound up by the time t3 reaches the winding LENGTH [ LENGTH ], the supply of the current to the motor is stopped to stop the rotational driving of the spool 4. The winding LENGTH [ LENGTH ] is a condition determination value for determining whether or not the rotation of the spool 4 is stopped.

The motor generates a phenomenon called over run (over run) in which the motor is not immediately stopped by inertia even if the supply of current is stopped, but is stopped after rotating to some extent. In the example of fig. 4, while the overrun operation occurs after the time t3, the rotation speed of the spool 4 is reduced, and the rotation of the spool 4 is stopped at a time t 4.

In response to the lower switch portion 112b of the wind-up switch 112 being operated once, the fishing electric reel 1 changes the rotation speed of the spool 4 as shown in fig. 4, and performs an automatic fish attracting operation once. By winding up the fishing line at the winding-up speed that varies with the rotation speed of the spool 4, an automatic fish attracting operation can be obtained.

[ setting of drive control parameters corresponding to automatic fish attracting action ]

Next, an example of the procedure of the setting operation of the drive control parameters (the winding LENGTH [ LENGTH ], the SPEED [ SPEED ], and the acceleration [ ACCEL ]) corresponding to the automatic fish attracting operation will be described. In this embodiment, the setting operation of the drive control parameters corresponding to the automatic fish attracting operation can be performed in the state where the electric board fishing mode is on.

The drive control parameter setting in the present embodiment includes selection of a drive control parameter to be changed as a parameter value and change of a parameter value of a drive control parameter selected as a change target.

Fig. 5 shows a display example of the display portion 102 in the electric teppanyaki mode on state. The display unit 102 in fig. 5 includes a speed area AR10, a water depth area AR20, and a parameter display area AR 30.

The speed area AR10 is an area for displaying the currently set rotational speed of the spool 4 by a number of steps.

The water depth area AR20 is an area showing the water depth at which the hook assembly is currently located.

The parameter display area AR30 is an area that displays the currently set parameter value of each drive control parameter. The parameter display area AR30 includes a roll-up length display area AR31-1, a speed display area AR31-2, and an acceleration display area AR 31-3. Without particularly distinguishing the roll-up length display area AR31-1, the speed display area AR31-2, and the acceleration display area AR31-3, they are described as the individual parameter display area AR 31.

The roll-up LENGTH display area AR31-1 is an area for displaying a parameter value of a drive control parameter that is the roll-up LENGTH [ LENGTH ].

The SPEED display area AR31-2 is an area that displays parameter values of the drive control parameter as the SPEED [ SPEED ].

The acceleration display area AR31-3 is an area that displays parameter values as drive control parameters of the acceleration [ ACCEL ].

Fig. 5 shows an example of a state in which the rolled length display area AR31-1 is highlighted in the parameter display area AR 30. The state in which the roll-up LENGTH display area AR31-1 is highlighted in this manner indicates that the roll-up LENGTH [ LENGTH ] of the drive control parameters (roll-up LENGTH [ LENGTH ], SPEED [ SPEED ], and acceleration [ acel ]) is selected as the target of changing the parameter value.

The parameter display area AR30 is in a state of highlighting one of the winding LENGTH display area AR31-1, the SPEED display area AR31-2, and the acceleration display area AR31-3, depending on which of the drive control parameters (winding LENGTH, SPEED, and acceleration ACCEL) is selected as the object of change.

In fig. 5, the individual parameter display area AR31 to be selected is displayed in a manner of being inverted in brightness with respect to the other individual parameter display areas AR31 as a highlight display mode. The manner of highlighting is not particularly limited, and for example, a frame or characters of the individual parameter display area AR31 to be selected may be thickened, or in the case of color display, the background color or character color may be changed.

Further, in the parameter display area AR30 when the initial display is performed in response to the power-on hook mode being turned on, for example, the individual parameter display area AR31 may be highlighted following the state when the power-on hook mode is turned off last. Alternatively, the individual parameter display area AR31 corresponding to a predetermined specific drive control parameter may be highlighted.

When the parameter display area AR30 in the state of fig. 5 is displayed in the electric board fishing mode, the user can change the parameter value of the roll-up LENGTH [ LENGTH ] selected as the change target by the operation described below.

In this case, the user continues to press the first button 111-1 of the operation unit 101. That is, the user is in an operation continuation state in which the pressing operation of the first button 111-1 is continued. Accordingly, the fishing electric reel 1 can receive the operation of the second button 111-2 or the third button 111-3 as the operation of changing the parameter value.

When the user increases the parameter value of the roll-up LENGTH [ LENGTH ], the user operates the second button 111-2 while continuing the state in which the first button 111-1 is pressed. Each time the second button 111-2 is pressed, the parameter value is incremented in an incremental manner.

When the parameter value of the roll-up LENGTH [ LENGTH ] is decreased, the user operates the third button 111-3 while continuing the state in which the first button 111-1 is pressed. Each time the third button 111-3 is pressed, the parameter value is decreased in a decreasing manner.

Further, it is also possible that the parameter value is continuously increased until the pressing of the second button 111-2 is released in response to the long pressing of the second button 111-2 by the user. Alternatively, the parameter value may be continuously decremented in response to a long press of the third button 111-3 by the user until the press of the third button 111-3 is released.

The roll-up LENGTH display area AR31-1 displays the parameter value of the roll-up LENGTH [ LENGTH ] changed by the above operation so as to reflect the parameter value. In this way, the user can confirm the parameter value changed by his own operation.

When the user changes the parameter value to a desired parameter value, the user releases the previously continued pressing of the first button 111-1. Accordingly, the fishing electric reel 1 cannot accept the operation of the second button 111-2 and the third button 111-3 for changing the parameter value. The fishing electric reel 1 determines the winding LENGTH [ LENGTH ] from the parameter value displayed in the winding LENGTH display area AR31-1 when the first button 111-1 is released from being pressed, and completes the setting of the drive control parameter.

In addition, the fishing electric reel 1 may invalidate the operation of the wind-up switch 112 in a state where the first button 111-1 is pressed. That is, the following configurations are possible: in a state where the first button 111-1 is pressed, the spool 4 is not rotated even if the user operates the upper switch part 112a, and the automatic fish attracting operation is not performed even if the user operates the lower switch part 112 b.

Accordingly, it is possible to prevent the rotation of the spool 4 from becoming unstable due to the change of the drive control parameter while the spool 4 is rotating.

In the electric hook mode, the user can select the drive control parameter to be changed as the parameter value by the following operation.

In the electric tepping mode, the user performs an operation of the second button 111-2 or the third button 111-3 without pressing the first button 111-1.

Each time the user presses the second button 111-2 once, in the parameter display area AR30, the state in which the individual parameter display area AR31 of the previous stage of the individual parameter display area AR31 that was previously highlighted is changed. The drive control parameter corresponding to the newly highlighted individual parameter display area AR31 is selected as the object of change of the parameter value.

In addition, when the operation of pressing the second button 111-2 is performed once in a state where the uppermost individual parameter display area AR31 is highlighted, the operation may be invalidated or may be changed to a state where the lowermost individual parameter display area AR31 is highlighted by a cycle.

In addition, each time the user presses the third button 111-3 once, in the parameter display area AR30, the state is changed such that the individual parameter display area AR31 of the next stage of the individual parameter display area AR31 highlighted previously is highlighted. In this case, the drive control parameter corresponding to the newly highlighted individual parameter display area AR31 is selected as the object of change of the parameter value.

In the case where the operation of pressing the third button 111-3 is performed once in a state where the lowest individual parameter display area AR31 is highlighted, the operation may be invalidated or may be changed to a state where the uppermost individual parameter display area AR31 is highlighted by a cycle.

Thus, the electric fishing reel 1 for fishing according to the present embodiment can perform an operation (parameter changing operation) of changing the parameter values of the drive control parameters of the wind-up LENGTH [ LENGTH ], the SPEED [ SPEED ], and the acceleration [ ACCEL ].

In addition, the operation of changing the parameter value of the drive control parameter is performed in the state that the electric iron plate fishing mode is started. That is, for example, the user can perform an operation of changing the parameter value of the drive control parameter in the electric tepping mode without performing an operation of changing the setting mode of the drive control parameter from the electric tepping mode. Accordingly, the user can quickly change the drive control parameters of the automatic fish luring action in the actual fishing process.

The second button 111-2 and the third button 111-3 are used for both the operation of changing the parameter value and the operation of selecting the drive control parameter to be changed. By using a common operation element for the operation of changing the parameter value and the operation of selecting the drive control parameter in this way, the number of operation elements provided in the electric fishing reel 1 for fishing can be reduced.

[ functional Structure example of electric fishing reel for fishing ]

An example of the functional configuration of the electric fishing reel 1 for fishing will be described with reference to fig. 6. In fig. 6, the same reference numerals are given to the same parts as those in fig. 1 and 2, and the description thereof is omitted as appropriate.

The fishing electric reel 1 of fig. 6 includes an operation unit 101, a display unit 102, a control unit 103, a storage unit 104, a motor drive circuit 105, a motor 8, a spool 4, and a rotation sensor 106.

The control unit 103 performs various controls of the fishing electric reel 1. The function of the control Unit 103 is realized by a CPU (Central Processing Unit) of the fishing electric reel 1 executing a program.

The control unit 103 includes a parameter setting unit 131 and a bobbin drive control unit 132.

The parameter setting unit 131 sets the drive control parameters (the rotation speed, the drive time, and the stop time) as the first drive control information in response to the operation performed on the operation unit 101.

The spool drive control section 132 performs drive control of the spool 4 based on the drive control information.

The storage unit 104 stores various information corresponding to the fishing electric reel 1. The storage unit 104 includes a drive control information storage unit 141 and an intermediate winding speed storage unit 142.

The drive control information storage unit 141 stores drive control information. The drive control information is information for controlling the drive of the reel 4 in the automatic fish attracting operation. As described above, the drive control information includes drive control parameters of the wind-up LENGTH [ LENGTH ], the SPEED [ SPEED ], and the acceleration [ ACCEL ].

The intermediate winding speed storage unit 142 stores the intermediate winding speed. The intermediate wind-up speed is a parameter related to the rotation speed of the spool 4 designated when the spool 4 is rotated in response to the upper switch portion 112a being pressed in the electric tepping mode. The intermediate winding-up speed can be arbitrarily set in a range lower than the maximum rotation speed of the spool 4 by a user operation, for example.

[ example of treatment procedure ]

An example of the processing procedure for setting the drive control parameter corresponding to the automatic fish attracting operation of the electric fishing reel 1 for fishing will be described with reference to the flowchart of fig. 7. The process shown in fig. 7 is performed in a state where the electric board fishing mode is turned on.

Step S101: the parameter setting unit 131 in the electric fishing reel 1 for fishing determines whether or not the second button 111-2 has been pressed once.

Step S102: when it is determined that the second button 111-2 has been pressed once, the parameter setting unit 131 determines whether or not the first button 111-1 is pressed once when the second button 111-2 has been pressed.

Step S103: when it is determined in step S102 that the first button 111-1 is in the pressed state, the parameter setting unit 131 increments the current parameter value of the drive control parameter currently selected as the change target.

The parameter setting unit 131 may store the incremented parameter value as a temporary value in, for example, a RAM (Random Access Memory), a register, or the like.

The parameter setting unit 131 performs display control so that the parameter value changed by the increment is displayed in the corresponding individual parameter display area AR 31. In the stage of reaching step S103, in the case where the current parameter value is already the maximum value, the process of step S103 may be skipped. In this case, although one pressing operation is performed on the second button 111-2, the parameter value is maximized without being changed. Alternatively, when the current parameter value is already the maximum value at the stage of step S103, the parameter value may be changed to the minimum value in a loop.

Step S104: when it is determined in step S102 that the first button 111-1 is not in the pressed state, the parameter setting unit 131 changes the drive control parameter selected as the change target.

The drive control parameters are set in the selection order. In step S104, the parameter setting unit 131 newly selects one of the drive control parameters, which has been selected as the target of change in the previous sequence, as the target of change.

Specifically, the selection order of the drive control parameters may be set in the order of the roll-up LENGTH [ LENGTH ], the SPEED [ SPEED ], and the acceleration [ ACCEL ] in accordance with the order of the roll-up LENGTH display area AR31-1, the SPEED display area AR31-2, and the acceleration display area AR31-3 shown in FIG. 5. In this case, for example, when the SPEED [ SPEED ] is selected as the change target in the past, the winding LENGTH [ LENGTH ] is newly selected as the change target in step S104.

When the roll LENGTH [ LENGTH ] in the first selection order is selected and the process reaches step S104, the parameter setting unit 131 may maintain the roll LENGTH [ LENGTH ] without changing the selection of the drive control parameter, or may cycle the selection order and reselect the acceleration [ ACCEL ] in the last (third) selection order.

Step S105: when it is determined in step S101 that the second button 111-2 has not been pressed once, or after the processing in steps S103 and S104, the parameter setting unit 131 determines whether or not the third button 111-3 has been pressed once.

Step S106: when it is determined that the third button 111-3 has been pressed once, the parameter setting unit 131 determines whether or not the first button 111-1 is pressed when the third button 111-3 has been pressed once.

Step S107: when it is determined in step S106 that the first button 111-1 is in the pressed state, the parameter setting unit 131 decrements the current parameter value of the drive control parameter currently selected as the change target.

The parameter setting unit 131 may store the decremented parameter value as a temporary value in, for example, a RAM or a register.

The parameter setting unit 131 performs display control so that the parameter value changed by decrementing is displayed in the corresponding individual parameter display area AR 31.

Further, in the stage of reaching step S107, in the case where the current parameter value is already the minimum value, the process of step S107 may be skipped. In this case, although one pressing operation is performed on the third button 111-3, the parameter value is still minimum and does not change. Alternatively, when the current parameter value is already the minimum value at the stage of step S103, the loop may be changed to the maximum parameter value.

Step S108: when it is determined in step S106 that the first button 111-1 is not in the pressed state, the parameter setting unit 131 newly selects one of the drive control parameters in the positive order as the change target from the drive control parameters previously selected as the change target.

When the acceleration [ ACCEL ] in the last (third) selection order has reached step S108 in the state where the acceleration [ ACCEL ] is selected, the parameter setting unit 131 may keep the acceleration [ ACCEL ] unchanged without changing the selection of the drive control parameter, or may cycle through the selection orders to reselect the roll-up LENGTH [ LENGTH ] in the first selection order.

Step S109: when it is determined in step S105 that the third button 111-3 has not been pressed once, or after the processing in steps S107 and S108, the parameter setting unit 131 determines whether or not the state of the first button 111-1 has changed from the state pressed up to the state in which the pressing has been released.

If it is determined that the state of the first button 111-1 has not become the state in which the pressing has been released, the process returns to step S101.

Step S110: when it is determined in step S109 that the state of the first button 111-1 has been released from the pressing, the parameter setting unit 131 updates the parameter value of the drive control parameter currently selected as the change target among the drive control parameters stored in the drive control information storage unit 141 to the parameter value currently stored as the provisional value. Accordingly, the parameter value of the drive control parameter changed in step S103 or S107 is determined.

When it is determined in step S109 that the state of the first button 111-1 has been changed to the state in which the pressing has been released, step S110 may be skipped when the parameter value stored in the drive control information storage unit 141 is the same as the parameter value displayed in the individual parameter display area AR 31. After the process of step S110, the process returns to step S101.

An example of processing steps executed in response to the operation of the wind-up switch 112 in the state where the electric reel for fishing 1 is turned on in the electric board fishing mode will be described with reference to the flowchart of fig. 8.

Step S201: in the fishing electric reel 1, the spool drive control unit 132 determines whether or not the pressing operation of the upper switch portion 112a of the wind-up switch 112 is started. In the electric board fishing mode, as described above, the spool 4 is rotated while the upper switch part 112a is continuously pressed, and the fishing line is wound up.

Step S202: when it is determined that the pressing operation of the upper switch portion 112a is started, the bobbin driving control portion 132 determines whether or not the first button 111-1 is in a pressed state while the pressing operation of the upper switch portion 112a is performed.

If it is determined that the first button 111-1 is in the pressed state, the process proceeds to step S208. In this case, since step S203 described below is skipped, the spool 4 is not rotationally driven, and the fishing line is not wound up. That is, in a state where the first button 111-1 is pressed, the bobbin driving control part 132 does not accept an operation of pressing the upper switch part 112a as an operation of rotating the bobbin 4.

Step S203: when it is determined that the first button 111-1 is not in the pressed state, the bobbin drive control section 132 starts drive control for rotationally driving the bobbin 4 at the intermediate winding speed stored in the intermediate winding speed storage section 142.

Step S204: after the start of the drive control for rotationally driving the spool 4 at the intermediate winding-up speed in step S203, the spool drive control unit 132 determines whether or not the pressing force detected by the upper switch 112a in the pressed state has changed in an increasing manner.

Step S205: when it is determined that the pressing force has changed so as to increase, the bobbin drive control unit 132 sets the rotation speed of the bobbin 4 to a predetermined value higher than the current rotation speed, and rotationally drives the bobbin 4. When the current rotation speed of the spool 4 is the maximum, the process of step S205 may be skipped.

Step S206: the spool drive control unit 132 determines whether or not the state in which the upper switch unit 112a that has been continuously pressed has been released.

If it is determined that the state where the upper switch 112a is pressed is not released, the process returns to step S204.

Step S207: when it is determined in step S206 that the state in which the upper switch portion 112a is pressed is released, the bobbin drive control portion 132 stops the rotational drive of the bobbin 4.

Step S208: if it is determined in step S201 that the pressing operation of the upper switch portion 112a has not been started, or if it is determined in step S202 that the first button 111-1 is in the pressed state, or after the processing in step S207, the bobbin driving control portion 132 determines whether or not the operation of pressing the lower switch portion 112b has been performed once. The operation of pressing the lower switch portion 112b at a time is an operation of instructing execution of an automatic fish attracting operation at a time.

If it is determined that the operation of pressing the lower switch portion 112b has not been performed once, the process returns to step S201.

Step S209: when it is determined that the operation of pressing the lower switch portion 112b once is performed, the bobbin driving control portion 132 determines whether or not the first button 111-1 is in a pressed state while the operation of pressing the lower switch portion 112b once is performed.

If it is determined that the first button 111-1 is in the pressed state, the process returns to step S201. That is, in a state where the first button 111-1 is pressed, the bobbin driving control section 132 does not accept an operation of pressing the lower switch section 112b once as an operation of instructing execution of the automatic fish attracting operation.

Step S210: when it is determined in step S209 that the first button 111-1 is not in the pressed state, the bobbin drive control section 132 drives and rotates the bobbin 4 based on the drive control parameters included in the drive control information stored in the drive control information storage section 141. Accordingly, one automatic fish attracting operation corresponding to one pressing operation of the lower switch portion 112b is performed. After the process of step S210, the process returns to step S201.

< modification example >

Next, a modified example of the present embodiment will be described.

[ first modification ]

In the drive control information of the above embodiment, the drive control parameter as the condition determination value for determining the condition for stopping the rotation of the spool 4 started in response to the operation of the third button 111-3 is the wind-up LENGTH [ LENGTH ].

However, the drive control parameter as the condition determination value may be, for example, the drive TIME [ TIME ] in addition to the winding LENGTH [ LENGTH ]. The drive TIME [ TIME ] is a TIME for rotationally driving the spool 4. Specifically, the drive TIME [ TIME ] may be, for example, a TIME from the start of the supply of the current to the motor that drives the spool 4 when the operation of the third button 111-3 is detected to the stop of the supply of the current to the motor.

Further, it may be configured such that any one of the roll-up LENGTH [ LENGTH ] and the drive TIME [ TIME ] can be selected as the condition determination value, that is, the drive control parameter, by the operation of the user.

[ second modification ]

In the above embodiment, in order to perform operations of selecting a parameter to be changed and changing a parameter value of a drive control parameter to be changed, two buttons, that is, the second button 111-2 and the third button 111-3 are used as the up button and the down button, respectively.

However, the number of the operators for performing the operation of selecting the parameter to be changed and changing the parameter value of the drive control parameter to be changed is not limited to two, and may be, for example, one.

In the case where the number of the operators is one and the operators are buttons, the parameter or parameter value to be selected as the change target may be changed cyclically every time the pressing operation is performed. In the case where the operation element is a lever or the like, the parameters or parameter values to be changed may be changed in a forward order in response to the lever being positioned in a predetermined one direction, and the parameters or parameter values to be changed may be changed in a reverse order in response to the lever being positioned in another direction.

[ third modification ]

In the above embodiment, the buttons 111 (the first button 111-1, the second button 111-2, and the third button 111-3) are provided as physical operation members. However, the button 111 may be an operation element that is an image displayed on the display unit 102 as a touch panel, for example.

[ fourth modification ]

Further, the fishing electric reel 1 may be communicably connected to an external terminal device. The communication between the fishing electric reel 1 and the external terminal device may be wireless or wired. The external terminal device may be a device that displays information on the detection of a fish school to the user, or may be a smartphone or the like that operates an application program that assists in fishing using the electric fishing reel 1 for fishing.

In addition, the drive control information and the information of the intermediate winding-up speed corresponding to the automatic fish attracting operation according to the present embodiment may be stored in an external terminal device. In this case, the operation related to the change of the drive control parameter or the intermediate winding-up speed in the drive control information may be an operation to the external terminal device.

In this way, when the external terminal device stores the drive control information and the information of the intermediate winding-up speed, the drive control information and the information of the intermediate winding-up speed are set in the fishing electric reel 1 by the control of the external terminal device in order to execute the automatic fish attracting operation and the drive control of the spool 4 based on the intermediate winding-up speed. The fishing electric reel 1 performs an automatic fish attracting operation by driving and controlling the reel 4 based on the set drive control information and the information of the intermediate winding speed.

Further, it may be: the processing of the electric fishing reel 1 for fishing is performed by recording a program for realizing the function of the electric fishing reel 1 for fishing in a computer-readable recording medium and causing a computer system to read and execute the program recorded in the recording medium. Here, "causing a computer system to read and execute a program recorded in a recording medium" includes installing the program in the computer system. The "computer system" referred to herein includes hardware such as an OS and peripheral devices. The "computer system" may include a plurality of computer apparatuses connected via a network including a communication line such as the internet, a WAN, a LAN, or a dedicated line. The "computer-readable recording medium" refers to a storage device such as a flexible disk, a magneto-optical disk, a removable medium such as a ROM or a CD-ROM, or a hard disk incorporated in a computer system. The recording medium storing the program may be a non-transitory recording medium such as a CD-ROM. The recording medium also includes an internal or external recording medium that can be accessed from the distribution server to distribute the program. The code of the program stored in the recording medium of the distribution server may be different from the code of the program that can be executed in the terminal device. That is, the distribution server is not limited to the format stored in the distribution server as long as it can be downloaded from the distribution server and installed in a format executable in the terminal device. Further, the program may be divided into a plurality of programs, and the programs may be downloaded at different times and then combined in the terminal device, and the distribution servers for distributing the divided programs may be different. Further, the "computer-readable recording medium" includes a medium holding the program for a certain time, such as a volatile memory (RAM) inside a computer system that is a server or a client in the case where the program is transmitted through a network. The program may be a program for realizing a part of the above functions. Further, it may be a so-called differential file (differential program) that can realize the above-described functions by being combined with a program already recorded in the computer system.

Claims (10)

1. A parameter setting device of an electric fishing reel for fishing is characterized in that,

the fishing control device includes a parameter setting unit that receives a parameter change operation for changing a parameter to be changed among predetermined parameters in response to setting of an operation continuation state in which a first operation element is operated continues, in a state in which an operation mode in which a spool of an electric fishing reel for fishing can be driven to rotate is set in accordance with setting of two or more predetermined parameters.

2. The parameter setting apparatus according to claim 1,

the parameter setting unit determines the parameter to be changed in the operation continuation state in response to the operation continuation state being released.

3. The parameter setting apparatus according to claim 1 or 2,

the parameter setting unit changes the parameter to be changed in response to an operation of one or more second operation elements different from the first operation element in the operation continuation state.

4. The parameter setting apparatus according to any one of claims 1 to 3,

the parameter setting unit selects a parameter to be changed from the two or more predetermined parameters in response to an operation performed when the operation is not in the operation continuation state.

5. The parameter setting apparatus according to claim 4,

the parameter setting unit selects a parameter to be changed from the two or more predetermined parameters in response to an operation of a second operating element, which is one or more operating elements different from the first operating element and is the same operating element as the operating element used for the parameter changing operation.

6. The parameter setting apparatus according to any one of claims 1 to 5,

the prescribed parameter includes a rotation speed of the spool, an acceleration at which the rotation speed is reached after the spool starts rotating, and a condition determination value for determining a condition for stopping rotation of the spool started in response to an operation.

7. The parameter setting apparatus according to any one of claims 1 to 6,

the spool driving control unit is provided so as not to accept the operation of driving the spool to rotate in the operation mode in the operation continuation state.

8. An electric fishing reel for fishing, characterized by comprising the parameter setting device according to any one of claims 1 to 7.

9. A parameter setting method of an electric fishing reel for fishing is characterized in that,

the method includes a parameter setting step of receiving a parameter changing operation of changing a parameter to be changed among predetermined parameters in response to setting of an operation continuation state in which a first operation element is operated continues, in a state in which an operation mode in which a spool of an electric fishing reel for fishing can be driven to rotate is set in accordance with setting of two or more predetermined parameters.

10. A parameter setting program is characterized in that,

the parameter setting program is configured to cause a computer included in an electric fishing reel to function as a parameter setting unit that receives a parameter changing operation for changing a parameter to be changed among predetermined parameters in response to setting of an operation continuation state in which a first operation element is operated continues, in a state in which an operation mode in which a spool that can drive the electric fishing reel is rotated is set in accordance with setting of two or more predetermined parameters.

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