JPH06125681A - Fishing rod - Google Patents
Fishing rodInfo
- Publication number
- JPH06125681A JPH06125681A JP30324792A JP30324792A JPH06125681A JP H06125681 A JPH06125681 A JP H06125681A JP 30324792 A JP30324792 A JP 30324792A JP 30324792 A JP30324792 A JP 30324792A JP H06125681 A JPH06125681 A JP H06125681A
- Authority
- JP
- Japan
- Prior art keywords
- fish
- fishing rod
- rod
- fishing
- belt
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は釣竿に関し、特に魚信感
知性の良好な魚信感知部位を特定した釣竿に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fishing rod, and more particularly to a fishing rod in which a fish-belt sensing portion having a good fish-belt sensing property is specified.
【0002】[0002]
【従来の技術】釣りに際して釣人は、釣り対象の魚の魚
信を感知することによって合わせを行い、釣り上げる。
従って、この魚信を如何に早く正確に検知できるかによ
って釣りの成果が左右される。2. Description of the Related Art In fishing, a fisherman catches a fish to be caught by a fisherman to make a match and to catch the fish.
Therefore, the result of fishing depends on how quickly and accurately this fishery can be detected.
【0003】こうした魚信の感知性能を向上させるため
に、実公平3ー40147号公報、実開昭62ー210
936号公報、実公平3ー13194号公報等に開示の
技術がある。第1の公報には握部を釣竿本体と一体に同
一肉厚で形成することによって魚信の伝達性を向上さ
せ、第2の公報には釣竿のハンドル内に伝達組立体を設
けて魚信の伝達性を改善し、第3の公報にはセンサで検
知した魚信を増幅振動させて釣人に伝達することがそれ
ぞれ開示されている。In order to improve the sensing performance of such fishery, Japanese Utility Model Publication No. 3-40147 and Japanese Utility Model Publication No. 62-210.
There are techniques disclosed in Japanese Patent No. 936, Japanese Utility Model Publication No. 3-13194, and the like. In the first publication, the grip portion is integrally formed with the fishing rod body to have the same thickness to improve the transmission of the fishnet, and in the second publication, the transmission assembly is provided in the handle of the fishing rod. In the third gazette, it is disclosed that the fishnet detected by the sensor is amplified and vibrated and transmitted to the fisherman.
【0004】[0004]
【発明が解決しようとする課題】然しながら、上記第1
と第2の各公報に開示の技術は従来のものよりも魚信感
知性が向上するが、魚信は微小な振動であるため、その
感知性能の向上にはまだ改善の余地が残されている。ま
た第3の公報に開示の技術では魚信は増幅されるため感
知は容易になるが、加速センサ、増幅器、振動発生部材
等を装着する必要があり、重くて操作のし難い釣竿にな
る。また、増幅した振動が必ずしも魚信の増幅とは限ら
ないため、誤操作の原因になり易い。However, the above first problem
Although the technology disclosed in the second and second publications has improved fish-tender sensitivity as compared with the conventional technology, there is still room for improvement in its sensing performance because the fish-tender is a minute vibration. There is. Further, in the technique disclosed in the third publication, the fish bill is amplified, so that the detection is easy, but it is necessary to mount an acceleration sensor, an amplifier, a vibration generating member, etc., and the fishing rod is heavy and difficult to operate. Moreover, since the amplified vibration is not always the amplification of the fish-fish, it is likely to cause an erroneous operation.
【0005】依って本発明は、操作性に影響を与えるこ
となく魚信を感知し易い釣竿の提供を目的とする。Therefore, an object of the present invention is to provide a fishing rod that can easily detect a fish-belt without affecting operability.
【0006】[0006]
【課題を解決するための手段】上記目的に鑑みて本発明
は、釣りの対象魚に応じた魚信を感知し易い魚信感知部
位を特定したことを特徴とする釣竿を提供する。In view of the above-mentioned object, the present invention provides a fishing rod characterized in that a fish-belt-sensing portion which easily senses a fish-belt corresponding to a target fish for fishing is specified.
【0007】[0007]
【作用】本発明者の鋭意研究の結果、魚の種類が同じで
あれば、魚信時の釣竿に発生する振動には特定の卓越し
た周波数があることが分っている。従って、魚信発生時
には釣竿は対象魚に応じた特有の振動を生ずることにな
り、この特有の振動を感知することが魚信の感知という
ことになる。また、発明者の実験により魚信の感知性は
釣竿の場所によらず一定というものではなく、特に感知
性の高い場所というものがあることが分った。従って、
その魚信感知性の高い魚信感知部位を特定しておくこと
により、釣人は釣りの成果を向上させ得るのである。As a result of earnest research by the present inventor, it has been found that the vibration generated in the fishing rod at the time of fishing has a specific outstanding frequency if the types of fish are the same. Therefore, the fishing rod causes a peculiar vibration according to the target fish at the time of the occurrence of the fish patter, and the detection of this peculiar vibration is the detection of the fish peg. In addition, according to the experiments conducted by the inventor, it was found that the susceptibility of the fish tongue is not constant irrespective of the location of the fishing rod, but there is a location with particularly high susceptibility. Therefore,
The fisherman can improve the result of fishing by specifying the fish-sensing part that has high fish-sensing sensitivity.
【0008】[0008]
【実施例】以下、本発明を添付図面に示す実施例に基づ
いて更に詳細に説明する。図1は魚の種類に応じた魚信
時の卓越周波数を測定する装置図であり、釣人10が釣
竿12を把持して釣りを行っている際に、釣竿12に加
速度センサ14を取り付けておき、魚信による釣竿の振
動を計測する。DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in more detail based on the embodiments shown in the accompanying drawings. FIG. 1 is a device diagram for measuring the dominant frequency at the time of fish feeding according to the type of fish, and when the fisherman 10 holds the fishing rod 12 to perform fishing, the acceleration sensor 14 is attached to the fishing rod 12 in advance. The vibration of the fishing rod caused by the fish is measured.
【0009】この加速度センサ14は増幅器16に接続
されており、この増幅器16はデータレコーダ18に接
続されている。このデータレコーダ18による記録状態
をモニタ22によってモニタしながら計測する。更にデ
ータレコーダ18の加速度データは必要時に周波数アナ
ライザ20によって周波数分析がなされる。The acceleration sensor 14 is connected to an amplifier 16, and the amplifier 16 is connected to a data recorder 18. The recording state of the data recorder 18 is measured while being monitored by the monitor 22. Further, the acceleration data of the data recorder 18 is subjected to frequency analysis by the frequency analyzer 20 when necessary.
【0010】図2は上記装置によって測定される釣竿1
2の振動を示す一例である。横軸tは時間であり、縦軸
gは加速度の大きさである。時刻t0からt1までは魚
信を待っている状態であり、時刻t1に魚信が計測され
始め、時刻t2に魚信が終了した状態を示している。こ
うした振動データの中の魚信部分t1−t2を上記周波
数アナライザ20によって分析し、その卓越周波数を求
めるのである。この卓越周波数は、魚の大きさや環境条
件によって若干変化するが、魚の種類によって代表的な
数値を定めることができる。通常の魚は10Hzから4
0Hzの範囲内の代表値を有する。FIG. 2 shows a fishing rod 1 measured by the above device.
It is an example which shows the vibration of 2. The horizontal axis t is time, and the vertical axis g is the magnitude of acceleration. From time t0 to t1, it is in a state of waiting for a fish meal, and at a time t1, measurement of the fish meal begins and at a time t2, the fish meal ends. The predominant frequency is obtained by analyzing the fish-spot portion t1-t2 in the vibration data by the frequency analyzer 20. This dominant frequency varies slightly depending on the size of the fish and environmental conditions, but a typical value can be set depending on the type of fish. Normal fish is 10Hz to 4
It has a typical value in the range of 0 Hz.
【0011】以下では上記の事実を基に、実験室内にお
いて一定の魚毎に魚信の感知し易い位置を特定する試験
を行う。一例として長さが9メートルの鮎釣り用の釣竿
12を用いて試験を行う。まず図3に示すように、釣竿
12の把持部を手で把持する代わりに固定装置24によ
って釣竿12の後部をL0(=0.3m)の長さに亘っ
て固定保持する。その後、釣竿12に衝撃力を付与した
り、連続的に周波数を変化させて強制加振することによ
りこの釣竿12の共振周波数を調べる。その共振周波数
は100Hz以下の範囲においては、7.50,12.
00,18.25,25.75,34.50,42.7
5,53.25,65.75,79.75,94.25
Hzである。計測装置の構成は図1の場合と同様である
ため省略している。In the following, based on the above facts, a test will be conducted in the laboratory for identifying a position where fish is easily perceived for each fixed fish. As an example, the test is performed using a fishing rod 12 for sweetfish fishing having a length of 9 meters. First, as shown in FIG. 3, instead of manually grasping the grasping portion of the fishing rod 12, the rear portion of the fishing rod 12 is fixed and held by the fixing device 24 over a length of L0 (= 0.3 m). After that, the resonance frequency of the fishing rod 12 is examined by applying an impact force to the fishing rod 12 or continuously changing the frequency to forcibly excite. The resonance frequency is 7.50, 12.
00, 18.25, 25.75, 34.50, 42.7.
5,53.25,65.75,79.75,94.25
Hz. The configuration of the measuring device is the same as that of FIG.
【0012】鮎の友釣り時の計測では卓越周波数が20
Hzという計測結果を得ており、上記鮎釣り用の釣竿1
2の共振周波数のなかでこの卓越周波数に最も近い共振
周波数は18.25Hzである。そこで以下では、この
共振周波数18.25Hzを周波数とする正弦波状の強
制振動を竿先から入力し、この魚信代用の振動を釣人が
最も良く感知できる位置が存在し、またその位置を特定
できることを具体的に示す。The predominant frequency is 20 when measuring Ayu's friend fishing.
The measurement result of Hz has been obtained, and the fishing rod 1 for the above-mentioned ayu fishing
Of the two resonant frequencies, the closest resonant frequency to this dominant frequency is 18.25 Hz. Therefore, in the following, there is a position where the fisherman can perceive the vibration for the fish-belt substitute best by inputting the sinusoidal forced vibration having the resonance frequency of 18.25 Hz from the tip of the rod. Is specifically shown.
【0013】試験位置として図3に示す位置A,B,
C,Dの4箇所を選び、各場所に各試験毎に加速度セン
サを取り付けて釣竿12の振動状態を計測する。L1=
0.120,L2=0.350,L3=0.555,L
4=0.860mである。As test positions, positions A, B, and
Four locations C and D are selected, an acceleration sensor is attached to each location for each test, and the vibration state of the fishing rod 12 is measured. L1 =
0.120, L2 = 0.350, L3 = 0.555, L
4 = 0.860 m.
【0014】計測に際しては固定装置24の固定の他に
加速度センサの直後部を試験者(釣人)の片手で把持し
た状態で強制加振して計測した。この場合試験者は各位
置毎に魚信の感知性を体感でき、この体感結果と加速度
センサによる検出振動結果とを比較確認することができ
る。体感結果ではB位置の直後部を把持していた場合が
最も感知性が良く、最も感知性の悪かったのはA位置で
ある。In the measurement, in addition to fixing the fixing device 24, the measurement was performed by forcibly vibrating while holding the part immediately after the acceleration sensor with one hand of a tester (fisherman). In this case, the tester can feel the fisheye sensitivity at each position, and can compare and confirm this sensation result and the vibration result detected by the acceleration sensor. As a result of the bodily sensation, when the position immediately after the position B was grasped, the sensitivity was highest, and the position A was the worst.
【0015】手で把持する場合と把持しない場合とでは
釣竿12の振動状況は異なってくることは想像に難くな
いが、一例として位置Dの計測において加速度センサの
直後部を把持しない場合と把持した場合とについて計測
した結果を周波数分析図である図4と図5に示してい
る。両図を比較すると、手で把持した場合のほうが強制
加振周波数18.25Hzの成分が小さくなり、また高
次成分が消失している。更に、周波数の極低い成分が発
生しているのは手の振れの影響と考えられる。以上のよ
うに、手で把持した場合は把持しない場合と比較して振
動状況が異なるため、実際に釣りを行う状態である手に
よって釣竿12を把持した状態で試験を行う必要があ
る。以下の図6、図7もこの状態で試験を行った結果で
ある。It is not difficult to imagine that the vibration state of the fishing rod 12 differs depending on whether the hand is gripped or not, but as an example, when measuring the position D, the part immediately after the acceleration sensor is not gripped. The measurement results of the case and the case are shown in FIGS. 4 and 5, which are frequency analysis diagrams. Comparing both figures, the component of the forced vibration frequency of 18.25 Hz becomes smaller and the higher-order component disappears when it is gripped by the hand. Furthermore, it is considered that the extremely low frequency component is generated due to the shaking of the hand. As described above, since the vibration situation is different when gripped by the hand as compared to when not gripped, it is necessary to perform the test in a state where the fishing rod 12 is gripped by the hand that is the actual fishing condition. The following FIG. 6 and FIG. 7 also show the results of the test performed in this state.
【0016】図6は位置Cに加速度センサを取り付けた
場合の計測結果であり、図7は位置Bに加速度センサを
取り付けた場合の計測結果である。また、位置Aに加速
度センサを取り付けた場合は、100Hz以内の範囲で
は振動周波数成分は見られなかったため図示していな
い。図6でも100Hz以内では手振れの影響と考えら
れる低周波成分以外は消失している。FIG. 6 shows the measurement result when the acceleration sensor is attached at the position C, and FIG. 7 shows the measurement result when the acceleration sensor is attached at the position B. Further, when the acceleration sensor is attached to the position A, the vibration frequency component is not seen in the range within 100 Hz, so it is not shown. In FIG. 6 as well, within 100 Hz, components other than the low frequency component considered to be the effect of camera shake disappear.
【0017】図7の強制加振周波数である18.25H
zの成分の大きさは−61dBであり、図5のそれは−
64dBである。少しではあるが図7、即ち位置Bの場
合の方が大きいと共に、その他の成分として手振れの影
響以外では、位置Bである図7の場合には36.50H
zと54.75Hzの成分が生じており、位置Cの場合
である図5では僅かに92Hzの成分が生じているに過
ぎない。18.25H which is the forced vibration frequency of FIG.
The magnitude of the z component is −61 dB, and that of FIG. 5 is −61 dB.
It is 64 dB. Although it is a little, it is larger in FIG. 7, that is, in the case of position B, and is 36.50H in the case of position B in FIG. 7 except for the influence of camera shake as other components.
The z component and the 54.75 Hz component are generated, and in FIG. 5, which is the case at the position C, only the 92 Hz component is generated.
【0018】以上の結果、加速度センサによる計測によ
り、位置Bの場合である図7の場合が最も振動が強い状
態と判断できる。このことは体感として得られた結果と
一致する。従って釣竿が定まれば、上記の位置A,B,
C,Dのようにその釣竿の試験位置を選び、試験者の手
で夫々の位置を把持した際の感覚で最も振動を感知し易
い場所を選定することができる。また以上のように、加
速度センサを取り付けて振動状況を測定した結果からも
判定できるのである。その選定位置の精度を向上させる
には、試験位置をきめ細かく多く設定すればよい。As a result of the above, it can be judged from the measurement by the acceleration sensor that the case of the position B in FIG. This is in agreement with the result obtained as a sensation. Therefore, once the fishing rod is determined, the above positions A, B,
It is possible to select a test position of the fishing rod as in C and D, and select a place where vibration is most likely to be sensed when the tester's hand grips each position. Further, as described above, the determination can also be made from the result of measuring the vibration state with the acceleration sensor attached. In order to improve the accuracy of the selected position, the test positions may be set finely and in large numbers.
【0019】上記試験では釣竿の把持領域内に於いて試
験位置A,B,C,Dを選んでいるが、釣竿12の把持
部領域に限らないで釣竿の更に先部領域において試験し
ても一般には魚信感知部位は存在する。然しながら、釣
りを行う際の把持状態における手によって魚信を感知す
ることが自然であり、便利であるため通常は把持領域に
おいて魚信感知部位を特定する。In the above test, the test positions A, B, C and D are selected within the gripping area of the fishing rod. However, the test positions are not limited to the gripping area of the fishing rod 12 and may be tested in the further tip area of the fishing rod. Generally, there are fish-sensing parts. However, since it is natural and convenient to sense the fish-belt in the gripping state when fishing, the fish-belt sensing portion is usually specified in the gripping area.
【0020】以上では前後に位置した手で釣竿を把持す
る場合を想定して説明したが、場合によっては釣竿を片
手で把持して、他方の手で釣竿を把持することなく、そ
の他方の手の指で釣竿の表面を触診する方法で魚信を感
知することもできる。この場合には、上述の試験におい
て行ったような手で把持することは止め、指で触診する
方法によって魚信感知部位を探すか、或いは位置Dに対
する加速度センサによる計測結果である図4に相当する
計測結果群から決定してもよく、基本的な特定手法は把
持した場合と同じである。In the above description, the case where the fishing rod is held by the front and rear hands is assumed, but in some cases, the fishing rod is grasped by one hand and the other hand is not grasped by the other hand. It is also possible to detect the fishery by palpating the surface of the fishing rod with your fingers. In this case, the grasping with a hand as in the above-mentioned test is stopped, and the fish-belt sensing site is searched by a method of palpating with a finger, or the measurement result by the acceleration sensor for the position D is equivalent to FIG. It may be determined from the measurement result group to be performed, and the basic identification method is the same as when gripping.
【0021】もし魚信感知部位の特定に際して、手の届
く範囲に適切な魚信感知部位がなければ、釣竿の剛性バ
ランスや重量バランスを変化させて魚信感知部位の位置
を調節し、手の届く釣竿後部位置に魚信感知部位を移動
させる。例えば、握部を急なテーパ形状にしたり、肉厚
を変えたり、また穂先の一定長さ領域の曲げ剛性をその
直後部よりも大きくしたり、握り位置を変化させること
等によって剛性を調節できる。この握り位置の調整はキ
ャスティングハンドルやグリップ等によって調整するこ
とができる。また、バランスウェイトを取り付けて重量
バランスを調節してもよい。リールシートの重量や形状
によって重量バランスや剛性バランスを調整してもよ
い。If there is no suitable fish-belt sensing part within the reach of the fish-belt sensing part, the position of the fish-belt sensing part is adjusted by changing the rigidity balance or weight balance of the fishing rod. Move the fish-belt sensing part to the rear position of the fishing rod. For example, it is possible to adjust the rigidity by making the grip part a sharp taper shape, changing the wall thickness, making the bending rigidity of the fixed length region of the tip larger than that immediately after it, or changing the grip position. . The adjustment of the grip position can be performed by a casting handle or a grip. A balance weight may be attached to adjust the weight balance. The weight balance and the rigidity balance may be adjusted depending on the weight and shape of the reel sheet.
【0022】このようにして特定した魚信感知部位は、
鮎釣り専用の釣竿の様に特定の魚専用の釣竿の場合は一
箇所にマークを付し、対象とする魚が特定されていない
釣竿の場合は魚の種類毎にマークの色を変える等して複
数のマークを付した釣竿を提供する。更には、マークそ
のものは釣竿に付さず、釣竿の使用説明書等においてそ
の位置を指定しておくことも本発明の範囲内である。The fish-belt-sensing part specified in this way is
In the case of a fishing rod dedicated to a specific fish such as a fishing rod dedicated to ayu fishing, a mark is attached to one place, and in the case of a fishing rod where the target fish is not specified, the color of the mark is changed for each type of fish. Provide a fishing rod with multiple marks. Further, it is within the scope of the present invention that the mark itself is not attached to the fishing rod and the position thereof is designated in the instruction manual of the fishing rod or the like.
【0023】こうして一定の釣竿に対して各魚に対応し
た魚信感知部位が定まれば、それと同一仕様の釣竿に対
してはその魚信感知部位がそのままの位置として適用さ
れるが、仕様が替われば上記の図3で示した試験を新た
に行って、その仕様の釣竿の魚信感知部位を特定する必
要がある。Thus, if the fish-belt sensing part corresponding to each fish is determined for a certain fishing rod, the fish-belt sensing part is applied as it is to the fishing rod of the same specification, but the specification is If it replaces, it will be necessary to newly perform the test shown in the above-mentioned FIG. 3, and to specify the fish-belt detection part of the fishing rod of the specification.
【0024】[0024]
【発明の効果】以上の説明から明らかなように本発明に
よれば、魚の種類毎に魚信感知部位を特定した釣竿が提
供可能となるので、魚信の感知性が向上する。またこの
釣竿はその操作性を何等損なうことはない。As is apparent from the above description, according to the present invention, since it is possible to provide a fishing rod in which a fish-belt-sensing portion is specified for each type of fish, the fish-belt sensitivity is improved. Also, this fishing rod does not impair its operability.
【図1】図1は本発明に係る釣竿の魚信感知部位を特定
するための第1ステップの試験を示す図である。FIG. 1 is a diagram showing a test of a first step for identifying a fish-belt sensing portion of a fishing rod according to the present invention.
【図2】図2は図1の装置によって計測された釣竿の振
動図である。FIG. 2 is a vibration diagram of a fishing rod measured by the device of FIG.
【図3】図3は本発明に係る釣竿の魚信感知部位を特定
するための第2ステップの試験を説明するための略示図
である。FIG. 3 is a schematic view for explaining a second step test for identifying a fish-belt sensing portion of a fishing rod according to the present invention.
【図4】図4は図3の位置Dにおける手で把持しない場
合の計測結果図である。FIG. 4 is a measurement result diagram at a position D in FIG. 3 when not gripped by a hand.
【図5】図5は図3の位置Dにおける手で把持した場合
の計測結果図である。5 is a measurement result diagram in the case of being held by a hand at position D in FIG.
【図6】図6は図3の位置Cにおける手で把持した場合
の計測結果図である。6 is a measurement result diagram in the case of being held by a hand at the position C in FIG.
【図7】図7は図3の位置Bにおける手で把持した場合
の計測結果図である。FIG. 7 is a measurement result diagram in the case of being held by the hand at the position B in FIG.
12 釣竿 14 加速度センサ 18 データレコーダ 20 周波数アナライザ 24 固定装置 A,B,C,D 試験実施位置 12 Fishing Rod 14 Accelerometer 18 Data Recorder 20 Frequency Analyzer 24 Fixing Device A, B, C, D Test Position
Claims (2)
魚信感知部位を特定したことを特徴とする釣竿。1. A fishing rod, wherein a fish-belt-sensing portion that easily senses a fish-belt corresponding to a target fish for fishing is specified.
置に設定して成る請求項1記載の釣竿。2. The fishing rod according to claim 1, wherein the fish-belt sensing portion is set at a gripping position when a fishing rod is operated.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP30324792A JPH06125681A (en) | 1992-10-16 | 1992-10-16 | Fishing rod |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP30324792A JPH06125681A (en) | 1992-10-16 | 1992-10-16 | Fishing rod |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH06125681A true JPH06125681A (en) | 1994-05-10 |
Family
ID=17918653
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP30324792A Pending JPH06125681A (en) | 1992-10-16 | 1992-10-16 | Fishing rod |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH06125681A (en) |
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2004064512A1 (en) * | 2003-01-24 | 2004-08-05 | Shimano Inc. | Method of manufacturing fishing rod |
| US20110067290A1 (en) * | 2008-05-23 | 2011-03-24 | Zeljko Miskatovic | Automatic bite indicator for fishing |
| US7934338B2 (en) * | 2007-12-19 | 2011-05-03 | Tackobox Llc | Fishing pole accessory |
| CN108967376A (en) * | 2018-06-29 | 2018-12-11 | 四川斐讯信息技术有限公司 | Intelligent fishing rod and fishing based reminding method |
-
1992
- 1992-10-16 JP JP30324792A patent/JPH06125681A/en active Pending
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2004064512A1 (en) * | 2003-01-24 | 2004-08-05 | Shimano Inc. | Method of manufacturing fishing rod |
| US7934338B2 (en) * | 2007-12-19 | 2011-05-03 | Tackobox Llc | Fishing pole accessory |
| US20110067290A1 (en) * | 2008-05-23 | 2011-03-24 | Zeljko Miskatovic | Automatic bite indicator for fishing |
| US8336248B2 (en) * | 2008-05-23 | 2012-12-25 | Mi Hacek Over S Katovic Hacek Over Z Eljko | Automatic bite indicator for fishing |
| CN108967376A (en) * | 2018-06-29 | 2018-12-11 | 四川斐讯信息技术有限公司 | Intelligent fishing rod and fishing based reminding method |
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