KR-20260063121-A - A fishing rod that transmits a sensing signal according to the bite pattern

Abstract

The present invention relates to a fishing rod that transmits a detection signal according to a bite pattern, comprising a main body portion connected by multiple tubular bodies and extending in length, and a grip portion coupled to one end of the main body portion, wherein the grip portion comprises: a first body portion that wraps around and connects to the end of the main body portion; and a second body portion that is detachably coupled to the first body portion; wherein the second body portion comprises: a semi-circular case coupled in a cylindrical shape; a 3-axis accelerometer installed inside the case to measure a vibration pattern transmitted through the main body portion; a PCB equipped with a CPU installed inside the case and determining whether the vibration pattern measured by the 3-axis accelerometer is the same pattern as the bite pattern of a target fish; and a lamp module configured to emit light when the vibration pattern is determined to be the same pattern as the bite pattern of a target fish as a result of the CPU determination.

Inventors

• 김지훈

Assignees

• 주식회사 더히트

Dates

Publication Date

20260507

Application Date

20241030

Claims (8)

1. It includes a main body connected by multiple tubular sections that extends and retracts in length, and a grip portion coupled to one end of the main body. The above grip portion is, A first body part that wraps around and joins the end of the main body part; and It includes a second body part detachably coupled to the first body part; The above second body part is a semi-circular case joined in a cylindrical shape; A 3-axis accelerometer installed inside the above case to measure vibration patterns transmitted through the main body; A PCB equipped with a CPU installed inside the above case and determining whether a vibration pattern measured by the 3-axis accelerometer is the same pattern as the biting pattern of a target fish; and A fishing rod that transmits a detection signal according to a bite pattern, characterized by including a lamp module configured to emit light when the vibration pattern is determined to be identical to the bite pattern of a target fish based on the above CPU judgment result.
2. In Paragraph 1, A fishing rod that transmits a detection signal according to a bite pattern, characterized in that the first body part is a cylindrical light guide that diffuses LED light emitted from the second body part in a 360-degree circumferential direction, wherein a first insertion groove into which a main body part is inserted is formed at the center of one side, and a detachable coupling part into which a second body part is detachably coupled is formed at the other side, and a second insertion groove into which a lamp module is inserted is formed at the center of the detachable coupling part, wherein the second insertion groove is connected to the first insertion groove to form a light path through which LED light travels.
3. In paragraph 1, A fishing rod that transmits a detection signal according to a bite pattern, characterized in that the above case is formed by combining left and right halves, and a PCB holder for mounting a PCB is formed on the mutually facing opposing surfaces of each of the halves, wherein the PCB is mounted horizontally at the center position of the case, and a clamp for fixing a vibrator is formed on the lower part of the PCB holder, wherein the clamp is formed in the shape of a "C" clip on the mutually facing opposing surfaces of each of the left and right halves of the case, a detachable surface facing a first body part is formed on one side of the case, and a hook pin protruding to be inserted into the first body part is formed on the detachable surface, a through hole through which a lamp module passes is formed in the center of the detachable surface, and a charging hole through which a charging jack is inserted is formed on the other side of the case.
4. In paragraph 1, The above lamp module is, A plurality of LEDs including R, G, and B colors mounted on a PCB; An LED guide in which the above LEDs are aligned; and A fishing rod that transmits a detection signal according to a bite pattern, characterized by including a pair of permanent magnets magnetized as N and S poles at both ends of the above-mentioned LED guide.
5. In paragraph 4, A fishing rod that transmits a detection signal according to a bite pattern, characterized by magnetizing a first body part having N and S poles facing the permanent magnet.
6. In paragraph 1, A fishing rod that transmits a detection signal according to a bite pattern, characterized by having a 3-axis accelerometer installed in the center of the PCB, a vibrator installed on the lower part of the PCB, and a battery installed on the upper part of the PCB.
7. In paragraph 1, A fishing rod that transmits a detection signal according to a bite pattern, characterized by further including a low-frequency module that generates a low-frequency stimulation signal when the vibration pattern is determined to be identical to the bite pattern of a target fish based on the above CPU judgment result.
8. In Paragraph 7, The above low-frequency module comprises: a low-frequency pad that contacts the skin of a fishing user to deliver low-frequency stimulation; and A fishing rod that transmits a detection signal according to a bite pattern, characterized by including a cable connecting the low-frequency pad and the grip portion.

Description

A fishing rod that transmits a sensing signal according to the bite pattern The present invention relates to a fishing rod that transmits a detection signal according to a biting pattern, and more specifically, to a fishing rod that transmits a detection signal according to a biting pattern that can accurately target a target fish by determining whether a vibration pattern measured by a 3-axis accelerometer installed in the grip part is a biting pattern of a target fish and transmitting a detection signal to the user. A fishing float serves as an indicator that informs the angler of a fish bite, allowing for the detection of the bite by continuously monitoring it. During the day, bites are identified by visual observation, while at night, they are identified through electrical lighting methods using luminescence or motion sensors. However, this fishing method had the inconvenience of requiring constant attention to the float to continuously observe its movement or luminescence. If a fish bites while the angler is momentarily distracted, the fish may be missed. Additionally, when fishing at night, it is often difficult to judge a bite because one must rely solely on the luminous material attached to the fishing float. Furthermore, beginner anglers face the problem of being unable to identify the movement of the float regardless of whether it is day or night, making it difficult to determine the precise timing for setting the hook. A technology is disclosed in the prior art Korean Registered Utility Model Publication No. 20-0490805 (registered on December 30, 2019, "Luminous Fishing Float") that activates a light-emitting means in response to a fish bite, thereby enabling easy recognition of the fish bite. However, in the case of such fishing floats, the upper tip of the float is formed long and the body of the float that accommodates the power supply is formed at the bottom, so the center of gravity is concentrated at the bottom, which causes the fishing float to not fly far and not stand upright when cast into the water, and the float body becomes completely submerged, increasing the possibility that the power supply will be damaged by the influence of water, and in seas with rough waves, the fishing float may frequently sink into the water or splash, making it difficult to accurately detect a bite. FIG. 1 is a perspective view of a fishing rod according to one embodiment of the present invention. FIG. 2 is an exploded perspective view illustrating the grip portion of a fishing rod according to one embodiment of the present invention. FIG. 3 is a partially cutaway perspective view illustrating the grip portion of a fishing rod according to one embodiment of the present invention. FIG. 4 is a cross-sectional view illustrating the grip portion of a fishing rod according to one embodiment of the present invention. FIG. 5 is an exploded perspective view of the grip portion of a fishing rod viewed from the rear direction according to one embodiment of the present invention. FIG. 6 is an example diagram of installing a low-frequency module in the grip portion of a fishing rod according to one embodiment of the present invention. The advantages and features of the present invention and the methods for achieving them will become clear by referring to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below but may be implemented in various different forms. These embodiments are provided merely to ensure that the disclosure of the present invention is complete and to fully inform those skilled in the art of the scope of the invention, and the present invention is defined only by the scope of the claims. Throughout the specification, the same reference numerals refer to the same components. The terms used herein are for describing embodiments and are not intended to limit the invention. In this specification, the singular form includes the plural form unless specifically stated otherwise in the text. As used herein, "comprising" and/or "comprising" does not exclude the presence or addition of one or more other components, steps, actions, and/or elements to the mentioned components, steps, actions, and/or elements. Furthermore, throughout the specification, when a part is described as being "connected" to another part, this includes not only cases where they are "directly connected," but also cases where they are "indirectly" or "electrically connected" with other members or elements in between. Additionally, throughout the specification, the description that each layer (film), region, pattern, or structure is formed "on" or "under" the substrate, each layer (film), region, pad, or pattern includes both direct formation and formation through another layer. The criteria for "on" or "under" each layer are described based on the drawings. Furthermore, expressions such as 'first, second,' etc., are used solely to dis