ELECTRONIC JIGGING DEVICE, SYSTEM AND METHOD

Abstract

An electronic jigging device is used with a fishing rod, reel, line and lure, which device is user-programmable to provide a wide range of electronically-generated jigging functionality and to electronically detect the optimum moment to signal electronic release of the fishing rod so as to set a hook that is used within or near the lure. The device, system and method of the present invention allows for user-programmable specific jigging and hook-setting options.

Claims

1. An electronic jigging device which comprises: a housing; a power supply; a microcontroller disposed within the housing; a servo motor disposed within the housing; a servo arm being operable via the servo motor; a Hall effect sensor; and a trigger arm being operable via the Hall effect sensor; wherein the microcontroller controls operation of the servo motor, the servo arm, the Hall effect sensor and the trigger arm in accordance with a pre-programmed scheme.

2. The electronic jigging device of claim 1 wherein the housing comprises a is fishing pole holder, the servo arm comprises a fishing rod attachment hook and the trigger arm comprises line holder.

3. The electronic jigging device of claim 2 wherein the housing further comprises a key pad, a display and a transceiver, wherein the key pad is operable to program the microcontroller.

4. The electronic jigging device of claim 2 wherein the housing further comprises a key pad, a display and a transceiver, wherein the transceiver is operable to program the microcontroller via a remote computing device.

5. The electronic jigging device of claim 2 wherein the device is used with a fishing rod comprising fishing line and a lure and wherein jigging fishing line movement is actuated via the servo motor and the servo arm.

6. The electronic jigging device of claim 2 wherein the device is used with a fishing rod comprising fishing line and a fishing rod tip and wherein hook setting movement is actuated via the trigger arm line holder.

7. An electronic jigging system which comprises: a fishing pole comprising a line and lure; a housing, the housing comprising a fishing pole holder; a power supply; a microcontroller disposed within the housing; a servo motor disposed within the housing; a servo arm being operable via the servo motor; a Hall effect sensor; and a trigger arm being operable via the Hall effect sensor; wherein the microcontroller controls operation of the servo motor, the servo arm, the Hall effect sensor and the trigger arm in accordance with a pre-programmed scheme.

8. The electronic jigging system of claim 7 wherein the servo arm comprises a fishing rod attachment hook and the trigger arm comprises line holder.

9. The electronic jigging system of claim 8 wherein the housing further comprises a key pad, a display and a transceiver, wherein the key pad is operable to program the microcontroller.

10. The electronic jigging system of claim 8 wherein the housing further comprises a key pad, a display and a transceiver, wherein the transceiver is operable to program the microcontroller via a remote computing device.

11. The electronic jigging system of claim 8 wherein jigging fishing line movement is actuated via the servo motor and the servo arm.

12. The electronic jigging system of claim 8 wherein hook setting movement is actuated via the trigger arm line holder.

13. An electronic jigging method which comprises the steps of: providing a housing; providing a power supply; providing a microcontroller disposed within the housing; providing a servo motor disposed within the housing; providing a servo arm being operable via the servo motor; providing a Hall effect sensor; providing trigger arm being operable via the Hall effect sensor; controlling operation of the servo motor, the servo arm, the Hall effect sensor and the trigger arm via the microcontroller, all in accordance with a pre-programmed scheme determined by a user.

14. The electronic jigging method of claim 13 further comprising the step of providing a fishing pole holder, the servo arm comprising a fishing rod attachment hook and the trigger arm comprising a line holder.

15. The electronic jigging method of claim 14 wherein the housing further comprises a key pad, a display and a transceiver.

16. The electronic jigging method of claim 15 further comprising the step of programming the microcontroller.

17. The electronic jigging method of claim 16 the housing further comprises a key pad, a display and a transceiver, wherein the transceiver is operable to program the microcontroller via the key pad.

18. The electronic jigging method of claim 16 the housing further comprises a key pad, a display and a transceiver, wherein the transceiver is operable to program the microcontroller via a remote computing device.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] FIG. 1 is top and left side perspective view of a first embodiment of the electronic jigging device that is constructed in accordance with the present invention and showing the device, rod and line in a pre-strike or pre-trigger position.

[0010] FIG. 2 is a view similar to that of FIG. 1 but showing the device, rod and line in a post-strike or post-triggered position.

[0011] FIG. 3 is a partial front elevational view of a portion of a second embodiment of the device and showing the device, a portion of the rod and line in a pre-strike or pre-trigger position.

[0012] FIG. 4 is a view similar to that of FIG. 3 but showing the device, rod portion and line portion in a post-strike or post-triggered position.

[0013] FIG. 5 is a partial right side elevational view showing the portion of the second embodiment illustrated in FIG. 3.

[0014] FIG. 6 is a partial right side elevational view showing the portion of the second embodiment illustrated in FIG. 4.

[0015] FIG. 7 is a schematic diagram of the internal control elements of the present invention.

DETAILED DESCRIPTION

[0016] Referring now to the drawings in detail wherein like numbers represent like elements throughout, FIG. 1 illustrates a perspective view of one embodiment of the electronic jigging device, generally identified (100), constructed in accordance with the present invention. As shown, the device (100) is used with a fishing rod (20), fishing reel (26), fishing line (28) and fishing lure (not shown). The fishing rod (20) further comprises a handle (22) disposed at a proximal end (21) of the rod (20) and a tip and line guide (24) at a distal end (23).

[0017] A sealed, but accessible, housing (10) is provided, which housing (10) comprises a closed container having a box shape structure with a front end (14), a back end (12) and a top surface (13). The handle (22) of the fishing rod (20) is placed within a rod holder (120) that extends rearwardly from the back end (12) of the housing (10). Specifically, the rod holder (120) comprises a receiving aperture (121) which is intended to hold a substantial portion of the rod handle (22) within it. In the preferred embodiment, the rod holder (120) further comprises a substantially vertical and downwardly-extending positioning post (123). The post (123) is received within any one of several apertures (124) that are disposed along the top surface of a rearvvardly-extending tubular support (122). This variable-positioning structure allows for use of the device (100) with a wide variety of fishing rods (20). However, It is to be appreciated by those skilled in the art that the tubular support (122) and rod holder (120) structures could be configured from other structures that accomplish the same functionality, which is to receive and to hold the rod handle (22) in a fixed position behind the housing (10) during use of the assembly (100).

[0018] Disposed on the top surface (13) of the housing (10) is a thin-film-transistor (or TFT) touch keypad (131), a digital display (133), an array of light-emitting diodes (or LED) (132), a transceiver antenna (135), a trigger arm subassembly (50), the trigger arm subassembly (50) comprising a trigger arm (151), and Hall effect sensors (156). Disposed within the housing (10) is a battery (not shown), or other power supply, a microcontroller (3), a servo motor (4), a transceiver (5) and a circuit board (6). See FIG. 7. Power is supplied to the device (100) by the battery via an off/on power switch (also not shown). All internal elements are interconnected via wiring or conductive tracks (7) that are etched onto the circuit board (6). The microcontroller (3) controls the servo motor (4), the trigger arm subassembly (50), the display (133), the transceiver (5), the keypad (131) and the LEDs (132). Most significantly, the microcontroller (3) runs a program that moves the servo motor (4) and a servo arm (40). The servo arm (40) is rotatably movable by the servo motor (4) about a pivot point (42). The servo arm (40) further comprises a hold and release notch (44) that is adapted to move the tip or distal end (23) of the fishing pole (20) and line (28) in accordance with a pre-programmed jigging motion as may be desired or required by the user. In one embodiment, movement of the servo arm (40) results in movement of the fishing rod tip (23) because it is attached to a fishing rod attachment hook (24). In this structure, any movement of the servo arm (40) is then applied to the fishing line (28) and fishing lure. It is also to be noted that a portion of the fishing line (28) is then attached to the line holder (158), which is part of the trigger arm subassembly (50). See FIGS. 1 and 3.

[0019] In application, and when a fish moves the fishing lure, the line (28) applies pressure to the trigger arm (151). This moves the trigger arm (151). Magnets (152) in the trigger arm (151) move further or closer to the Hall effect sensors (156). The microcontroller (3) senses a current change from the Hall effect sensors (156) via the electronics that are part of the circuit board (6). This change in electrical current triggers an interrupt in the program and moves the servo (4) to a release position. This moves the servo arm (40) to a position that releases the fishing rod attachment hook (24) from the servo arm (4). This springs the fishing rod tip (23) up thereby applying pressure on the fish lure through the fishing line (28). The microcontroller (3) also sends out a wireless signal to a remote device via the transceiver (5) and the transceiver antenna (135). This notifies the user of a triggered event and the user can reel in the fish with the fishing rod (20) and its reel (28). See FIG. 7.

[0020] As alluded to above, the device (100) of the present invention works by creating a pre-programmed scheme (or pattern) that is loaded into the microcontroller (3) by the user via the TFT keypad (131), or even from the keypad (not shown) of the remote device (also not shown), prior to use of the device (100). This program tells the microcontroller (3) to send electrical signals to the servo motor (4). A change in the electrical signal moves the servo motor (4) and the servo arm (40) to certain positions. That is, the program makes changes to the electrical signal pattern thus moving the servo motor (4) and the servo arm (40) to different positions, thereby creating the pattern desired or required by the user. More specifically, the microcontroller (3) changes the direction, speed, and allows pauses of the servo motor (4) based on the program. In this way, a user can create a custom program by entering in numbers, via the onboard TFT key pad (131) or wirelessly via the remote device (110), either of which will make the programming changes that move the servo motor (4) and servo arm (40). This allows the user to create virtually an infinite variety of jigging patterns.

[0021] Attaching the fishing rod attachment hook (24) to the distal tip (23) of the fishing rod (20) will move the rod tip (23) according to the movement of the servo motor (4), thus moving the lure in like fashion. The program is made up of entered data which can be transferred between two transceivers (5), which allows wireless data transfer from one microcontroller (3) to another. That is, data entered into the remote device can be transmitted via transceiver and received by the transceiver (5) of the device (100). Once the data is received, the data will be entered which will change the electrical signals in accordance with the program.

[0022] The trigger arm (151) contains magnets (152), a line holder (154) and a weight (156). The trigger arm (151) is held by a trigger arm holder (153) which allows the arm (151) to pivot. See FIG. 3. The weight (156) can be changed or moved on the trigger arm (151) to balance out the weight of the line (28) and lure on the opposite end. This allows the user to change the balance of the trigger arm (151) which changes the amount of force needed to rotate the trigger arm (151). As a fish bites the lure and swims off, the line (28) is pulled. In turn, this pulls the trigger arm (151) down on the side with the line holder (153). This also moves a magnet (152) affixed to the trigger arm (151) up and another magnet (152) down, away from and towards the Hall effect sensors (156), respectively. These Hall effect sensors (156) sense the change in magnetic force created by such movement, which translates to a fluctuating change in current to the microcontroller (3). Once the trigger arm holder (153) reaches its pre-set detection point, in accordance with the pre-programmed scheme, it changes the amount of current allowed to pass through and to the microcontroller (3). The microcontroller (3) senses the current change and triggers an interrupt in the program.

[0023] At this point, this new section of program can move the servo motor (3) to a new jigging pattern to entice the fish to take the lure, or move the attachment arm (8) to the release position at a certain time. At this position, the rod tip (23) is released from the servo attachment arm (40). The upward force of the released rod tip (23) sets the hook into the fish. See FIG. 2. The transceiver (5) will then send out alarm data via a wireless signal from the antenna (135) to another transceiver thereby sounding an alarm on the remote computing device.

[0024] Although the device (100) is disclosed and described herein as being used with a rod (20) of the type that is typically used for ice fishing, such is not a limitation of the present invention.