JPH0420227A - Automatically pulling fishing beam - Google Patents
Automatically pulling fishing beamInfo
- Publication number
- JPH0420227A JPH0420227A JP2121538A JP12153890A JPH0420227A JP H0420227 A JPH0420227 A JP H0420227A JP 2121538 A JP2121538 A JP 2121538A JP 12153890 A JP12153890 A JP 12153890A JP H0420227 A JPH0420227 A JP H0420227A
- Authority
- JP
- Japan
- Prior art keywords
- cylinder
- force
- power
- pressure
- chamber
- 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.)
- Pending
Links
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 37
- 230000033001 locomotion Effects 0.000 claims abstract description 22
- 230000005540 biological transmission Effects 0.000 claims description 25
- 238000007665 sagging Methods 0.000 claims 1
- 238000005192 partition Methods 0.000 description 7
- 238000002347 injection Methods 0.000 description 4
- 239000007924 injection Substances 0.000 description 4
- 210000000078 claw Anatomy 0.000 description 3
- 230000007423 decrease Effects 0.000 description 3
- 238000000034 method Methods 0.000 description 3
- 241000251468 Actinopterygii Species 0.000 description 2
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 2
- 235000018185 Betula X alpestris Nutrition 0.000 description 1
- 235000018212 Betula X uliginosa Nutrition 0.000 description 1
- 241001634822 Biston Species 0.000 description 1
- 206010011878 Deafness Diseases 0.000 description 1
- 241000276420 Lophius piscatorius Species 0.000 description 1
- 241000555745 Sciuridae Species 0.000 description 1
- 238000005452 bending Methods 0.000 description 1
- FFGPTBGBLSHEPO-UHFFFAOYSA-N carbamazepine Chemical compound C1=CC2=CC=CC=C2N(C(=O)N)C2=CC=CC=C21 FFGPTBGBLSHEPO-UHFFFAOYSA-N 0.000 description 1
- 230000009194 climbing Effects 0.000 description 1
- 230000006835 compression Effects 0.000 description 1
- 238000007906 compression Methods 0.000 description 1
- 231100000895 deafness Toxicity 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000001125 extrusion Methods 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
- 208000016354 hearing loss disease Diseases 0.000 description 1
- 229910052742 iron Inorganic materials 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 229910052751 metal Inorganic materials 0.000 description 1
- 238000003825 pressing Methods 0.000 description 1
Abstract
Description
【発明の詳細な説明】 r 発明のIl的 首尾1.のfり用分野 釣り具のし・ζ、くり動(′1を4ろ天秤に関−づる。[Detailed description of the invention] r Il-specificity of the invention Success 1. field for furi Fishing gear, ζ, and rotation ('1 is related to a 4-lobe balance.
tI′L来の技術
金属線で形成され1端に通糸接続部が、ト部て1、JI
Sになる、は(J水゛1′−に構成さA1ろ横腕の外端
に(jすd′接続部が、中間屈曲部に錘り取りイ・ノt
I′部がある釣り川の人利′か用いらイ1ている。その
錘りのΦカで横腕の:「’t:’+な姿勢が保た11、
釣り(1: fjf + +か水中を沈1・中にはり4
′か通糸上の距離をItえられ、道糸に絡よない1−八
ろイ′]用をち一ノ1、発明が解決しようと4ろ課題
道糸をしゃくり」−げて、水中の釣り餌に動きを与え魚
の就餌欲を誘うのが効果的とされる釣りの手段かあり、
釣り天トドが使わAするときごのト段が用いら1+ろご
とが多い。このと、き釣り人は潮流で湾曲状伸にある道
糸のL端をしゃくりIげろが、逍″糸は6曲かある程度
は除かれて力を(i、え効率か悪く、大きな1.やくり
+、げの操作が必要となる。tI'L made of metal wire with a threading connection at one end;
When it becomes S, it is configured as (J water 1'-) and at the outer end of A1's horizontal arm (j S d' connection part is weighted at the middle bending part).
The fishing river where the I' section is located is not used for many reasons. The Φ force of the weight kept the side arm in a ``t:''+ posture.11.
Fishing (1: fjf + + or sinking in water 1, climbing inside 4
``I was able to determine the distance on the thread so that it wouldn't get tangled in the thread.'' Then Ichino 1, the invention tried to solve the problem 4. There is an effective method of fishing that creates movement in the bait and induces the fish's desire to feed.
When Tsuriten Todo uses A, the Todan of Goto is often used, and 1 + Logoto is often used. At this time, the angler used the current to sag the L end of the line on the curved line, but the line was removed by 6 or so bends, causing a large 1. Yakuri + and barge operations are required.
さらに、深い水中ての釣りではこの操(’rし効果が薄
く、よ〕ここの操作を行えないl?、子釣りのような釣
り手段らある。この発明は以1.のような事情に対処し
、沈−1・さUた水中で自刃でしへ・くり動作である揺
動運動を反復して、釣り餌に動きを与えろ天秤を提(R
iることを課題とする。Furthermore, when fishing in deep water, there are other fishing methods such as baby fishing, which are less effective and less effective. To deal with this problem, repeat the rocking motion, which is the cutting and cutting motion of the self-blade in the water, to give movement to the fishing bait.
The task is to
t−1発明の構成
課題を解決するための丁1段
シリング1は背後室3内の空気容積に動力部の背後側を
対応させ、ji(:力r+llI2 rこ外部水t1.
力が働き空気酋債が圧縮されて1)[」進4るように形
成1′る。t-1 In order to solve the structural problems of the invention, the one-stage Schilling 1 makes the rear side of the power part correspond to the air volume in the rear chamber 3, and the external water t1.
The force acts and the air is compressed, forming 1) ['].
揺動天秤8は支点11が1 ;1!て支持さイするよう
に取りイ・l(Iて横腕を1胃ざυる付勢手段7を設け
、かつ後述・1ろ駆動伝達部6と係合1、て動力受容か
断続する、横腕かド降4゛る方向?ここの動力が関わる
係合手段10を力点に対して設置Jる3、第1実施例第
1 [XIては駆動伝達+’fl<6 fJノリング動
)月耶々沖結・1゛る。、係合下1段10(Jこれと断
続して噛み合一)でごυ)作用点か揺動人f・1′の力
点に連結4ろ0のを、I:、t 、、付勢丁1段7は揺
動天秤の支点11に道糸1を続jη(12を設H,本体
側の重11か揺動人+−Fの1.1喘にある取りイ・1
11点に働く乙のをrJ< ’4”、。The fulcrum 11 of the swinging balance 8 is 1;1! A biasing means 7 is provided to support the side arm, and engages with a drive transmission section 6 (described later) to receive or intermittent the power. Is the direction in which the side arm descends 4 degrees?The engagement means 10 that involves the power here is installed with respect to the force point J3, First Example 1 [XI is drive transmission +'fl<6 fJ knolling motion] Tsukiyoshi Okiyui・1゛ru. , connect the lower 1st stage 10 of engagement (J intermittent engagement with this) to the point of action or the force point of rocker f・1', I:, t,, bias The 1st stage 7 connects the line 1 to the fulcrum 11 of the swinging balance.
rJ <'4'', which works at 11 points.
)1jングには推力側の重力に1)II方室13を設(
t、5′のI’1IJJy室7こ外部点の連通11を設
置)る。連通11は(イ1力側にそi/)圧力が対応4
゛ろ外部の水を導入4゛ろ狭小な導入〔14と、この樺
太さイまた水かノリシダ後退時にJul jlj 、1
.れろようにした適宜な逆11.1段をもっIJI l
t l l 5を同体ムし1し別体て構成4る。) 1j is equipped with 1) II side chamber 13 on the thrust side gravity (
t, 5'I'1IJJy room 7. Communication 11 of the external point is installed). Communication 11 corresponds to the pressure (A1 on the force side)
Introducing water from the outside through a narrow introduction [14], and when the birch thickens also water or the Nori fern retreats, Jul jlj, 1
.. IJI l
t l l 5 are integrated into 1 and separated into 4.
Jた、第2〜第4天施例てはシリング動力部と連i、l
i 、lる、所要/Jを構成l゛ろ駆動部14を設けろ
。The second to fourth examples are connected to the Schilling power department.
Configure i, l, required/J, and provide the drive section 14.
第21コ施例第2図と第4実施例第4図゛(二はばねを
、j−5第:3′バ施例第:(l’J−ご(Jイ1装置
」−不ルギとムろ適宜なI]′I+?1の本体を示43
、駆動部の力(J動力部に対し後退力向に働くとともに
、揺動天秤の横腕の1−’降に関わる動力となるように
、駆動伝達部6を所要部と連結して設(する。駆動伝達
部は、第2、第4実施例での動力部が係合手段10があ
る不休上の距離を変える構成では駆動部と連結するもの
を、また、第3実施例での動力部か本体と固定された4
fII成で(」駆動部がも−ノカがシリングの後退動作
を介して伝達されろように、シリングの動イ′1しない
向側と連結するものを示(1′。21st Example Figure 2 and 4th Example Figure 4 (2 is the spring, Indicate the body of I]'I+?1 as appropriate43
, the force of the drive section (the force of the drive section 6 is connected to the necessary parts so that it acts in the direction of the backward force on the J power section, and provides the power related to the 1-' lowering of the horizontal arm of the rocking balance). The drive transmission section is the one connected to the drive section in the second and fourth embodiments in which the power section changes the distance above the engaging means 10, and the one connected to the drive section in the third embodiment. 4 fixed with part or main body
In the fII configuration (1'), the drive unit is connected to the opposite side of the shilling where the movement of the shilling does not occur so that the force is transmitted through the retracting movement of the shilling (1').
ごの駆動伝達部との係合手段は第2実施例では付勢手段
7を設けた揺動天秤が力点風で断続1.て噛み合うもの
を、第3実施例ではイ1勢丁段である板はX′:1をカ
ッ、て揺動させ、動力受容する板ばねの揺動方向′ζ横
腕が自重ド降七るものを示す、6辿Il!1II(J背
後室3に設+する狭小な導入1]4 と、背後室の1端
の位置にあり圧力作用てυl出方向に流れが適宜に限定
さイする手段を設置Jた活用1−15とて構成し、第2
、第4実施例ではこれを別体で、第3実施例ては同体て
形成dるものを示4゜、作用
この自動しゃくり天秤は適格は道糸とはりすをそれぞれ
の接続部に接続し、11指す深度の水中で使用−4る7
、シリンダはHfコニカ2に外部の水圧力が働いて、人
気圧力で封入されている背後室3内の空気容積を斤縮し
て前進する。In the second embodiment, the engagement means with the drive transmission section is a swinging balance provided with a biasing means 7, which is connected intermittently to the power transmission section. In the third embodiment, the plates that are engaged with each other are swung by X′:1, and the horizontal arm of the leaf spring that receives the power is swung by its own weight. Showing things, 6 traces! 1II (Narrow introduction 1 installed in the rear chamber 3) 4 and means installed at one end of the rear chamber to appropriately limit the flow in the direction of υl output by applying pressure 1- 15 and configure the second
In the fourth embodiment, it is formed separately, and in the third embodiment, it is formed as one body. , used underwater at a depth of 11 - 4 - 7
, the cylinder moves forward by applying external water pressure to the Hf Konica 2 and compressing the air volume in the rear chamber 3 sealed at popular pressure.
第1実施例では、このときシリンダの負荷から背後室の
圧力が前方室I3よりも低く、また狭小な導入1’ll
lから外部の水が導入される+iif方室13でもシリ
ンダの前進で外部より低い圧力状態となる。In the first embodiment, at this time, the pressure in the rear chamber is lower than that in the front chamber I3 due to the load on the cylinder, and the pressure in the rear chamber is lower than that in the front chamber I3.
Even in the +IIF side chamber 13 into which water from the outside is introduced from the cylinder 1, the pressure becomes lower than that from the outside due to the advance of the cylinder.
シリンダはこの前方室への微小流量の導入に沿い、沈ド
が(r:’−+l−,したのらも緩やかな速度で、背後
室の11、力が負向相当に外部J、り低い位置よて前進
する、揺動天秤は適宜な長さの横腕によって沈下時によ
りすが道糸に絡まない形状をもち、かっ横腕か適当な速
度で上昇しうる(=J勢手段7が働く。また横腕の下降
に関わる動力をシリンダから受容し、はりd”に弛みか
生しlJ゛い遅い速度て横腕が下降する。動力は駆動伝
達部6と係合する係合手段10で断続し、ごの動力が断
たれるとき横腕か1□昇(2、しゃくり動作である揺動
運動を反復してはりすの下端の釣り餌を動かず。揺動運
動は、シリンダの速度か遅いため主として沈ドした位置
で行われる。As the small flow rate is introduced into the front chamber, the cylinder sinks at a slow speed (r:'-+l-), and the force in the rear chamber is 11, and the external force is negative, and the cylinder is lower. The swinging balance, which moves forward depending on its position, has a horizontal arm of an appropriate length that prevents it from getting tangled in the line when it sinks, and allows the horizontal arm to rise at an appropriate speed (=J force means 7 In addition, the power related to the lowering of the side arm is received from the cylinder, causing slack in the beam d'', and the side arm is lowered at a slow speed lJ''. When the power is cut off, the horizontal arm 1 □ rises (2) It repeats the rocking motion, which is a shakuri motion, and does not move the fishing bait at the bottom of the squirrel. Due to its slow speed, it is mainly carried out in submerged locations.
水中を引き1−げろときは圧縮された空気容積が外部圧
力の低下からシリンダを後退させ、前方室に導入された
水を排出[−15から押し出して体積を増やす。水」−
に達したシリンダは投入される前の状態に戻っており、
そのまま次の投入で沈トさせると−1−述した作用を繰
り返ケ。When drawing water, the compressed air volume causes the cylinder to retreat due to the drop in external pressure, forcing the water introduced into the front chamber out of the discharge [-15 and increasing the volume. Water”-
The cylinder that has reached this point has returned to its state before it was turned on.
If it is allowed to settle in the next charge, the action described in -1- will be repeated.
第2、第3実施例ではシリンダは沈1・するとき背後室
の圧力が負荷相当に外部より低い位置まてよず111進
ケる。第4実施例では第1実施例同様に速度を緩やかに
制御され、沈1ぐが停止したのりも揺動運動の反復とと
もに同様の位置まで前進する。In the second and third embodiments, when the cylinder sinks, the pressure in the rear chamber advances to a position equivalent to the load and lower than the outside. In the fourth embodiment, the speed is controlled slowly as in the first embodiment, and even the vehicle that has stopped sinking moves forward to the same position as the rocking motion is repeated.
かつ、第2〜第4実施例に共通して、シリンダの前進に
よって駆動部14が所要力を蓄える。前進か終γしたの
ちは後述ケる負荷相当力を減しられた駆動部の力がシリ
ンダに対して後退方向に働き、背後室の1力は外部より
し−・定範囲内で若干低い状態に保たれ、この圧力差に
沿い狭小な導入1−14から背後室に微小流量で導入が
得られて、容積が漸次増大してシリンダが緩やかに後退
する。この行程で第1実施例と同様に形成された揺動天
秤は横腕の下降に関イっる動力を駆動部から受容する。In addition, in common with the second to fourth embodiments, the drive unit 14 accumulates the required force as the cylinder moves forward. After the forward movement is completed, the force of the drive unit whose load equivalent force, which will be described later, is reduced acts on the cylinder in the backward direction, and the force in the rear chamber is from the outside and is slightly lower within a certain range. According to this pressure difference, a minute flow rate is introduced into the rear chamber from the narrow introduction 1-14, and the volume gradually increases and the cylinder slowly retreats. In this stroke, the rocking balance, which is formed in the same manner as in the first embodiment, receives the power associated with the lowering of the side arm from the drive section.
かっこの動力の断続が、その断続でのみ増減する導入端
に6)うシリンダの速度に制御されて得られ、(Jぼ−
・定ム間隔で揺動運動を反復4−る。The intermittent power of the bracket is obtained by controlling the speed of the cylinder at the introduction end which increases and decreases only with the intermittent,
・Repeat the rocking motion at regular intervals.
シリンダの後退は背後室内で圧縮された空気の1・方に
導入された水が充満して終J′する。水中を引き1−げ
ろときは、圧縮された空気が導入された水を1・端の排
出1]J5から押し出して体積を増やす。The retraction of the cylinder ends when the compressed air in the rear chamber is filled with the water introduced. When the water is pulled out, compressed air pushes the introduced water out of the end discharge 1] J5 to increase the volume.
水1−に達するとシリンダは投入の萌と同じ状態で、そ
のまま次の投入で一1述した作用を繰り返す。When water reaches 1-, the cylinder is in the same state as it was when it was introduced, and the action described in 11 is repeated at the next injection.
実施例 第1実施例を第1図を参照して説明する。Example A first embodiment will be described with reference to FIG.
本体に部に本体との隔壁を設けたシリンダ1を形成し、
動力mビス!・ンと連結した動力伝達糸を隔壁の案内孔
に通し、そのド端を駆動伝達部6である爪巾と連結して
距離増幅・J−ろl″!(rlfの回転軸に、シリンダ
1前進時に後述−4る揺動天秤8がド降する方向に巻い
て連結する。A cylinder 1 is formed in the main body and has a partition wall between the main body and the main body,
Power m bis!・Pass the power transmission thread connected to the rlf through the guide hole of the bulkhead, and connect the end of the wire to the claw width of the drive transmission part 6 to amplify the distance. When moving forward, the swinging balance 8 (described later) is wound and connected in the downward direction.
シリンダ1にはピスト)の背後側で背後室3が、また推
力側2と隔壁の間で前方室13が形成される。In the cylinder 1, a rear chamber 3 is formed behind the piston, and a front chamber 13 is formed between the thrust side 2 and the partition wall.
連通1−1は隔壁の案内孔を微量の導入を得るように絞
って導入口4を、その外周の位置でンートする逆止手段
を設けて排出1−15を構成する。The communication 1-1 constitutes a discharge 1-15 by narrowing the guide hole of the partition wall so as to obtain a minute amount of introduction, and providing a check means for opening the inlet 4 at a position on its outer periphery.
揺動天秤8は横腕の外端部にはり4′接続部9を形成し
、内端の側をシリンダ1の1一端に回動軸で取り(=1
(:l、この内端に近接する、本体側のm !itが横
腕側重量より若干大きく揺動天秤8に作用する位置を支
点IIとしてこれに道糸接続部12を設けて、横腕が上
昇する付勢り段7と」る。か−り支点I+に近接する外
寄り位置を力点として連結糸を接続し、駆動伝達部6と
断続して噛み合うてこのト降方向に働く作用腕と接続し
て係合手段10と4−る3、前方室I3が背後室3のF
側にある本実施例では、ノリンダI下方に若I−容積の
空気溜り17を設(Jることがてきる。その空気が沈下
に伴い前方室13をffて背後室3内に流入しうるよう
に構成4ると、水中を引き1−ぼられるとき背後室3の
1!力を、’+’+iめシリンダjを完/?:1.=後
退させ一1背後室3内7こ水か流入していれば押し出4
”。また空気容積の流出が生じたときは次の投入時に補
充する。The swinging balance 8 has a beam 4' connection part 9 formed at the outer end of the side arm, and the inner end side is attached to one end of the cylinder 1 with a rotating shaft (=1
(:l, near this inner end, the position where m!it on the main body side acts on the swinging balance 8 slightly larger than the weight on the side arm side is set as a fulcrum II, and the thread connecting part 12 is provided at this point, and the side arm side The actuating arm connects the connecting thread with the force point at the outer position close to the fulcrum I+, and works in the direction of lever movement that engages with the drive transmission section 6 intermittently. and the engagement means 10 and 4-3, the front chamber I3 is connected to the F of the rear chamber 3.
In this embodiment, an air pocket 17 with a volume of less than 1 is provided below the Norinda I. As the air sinks, the air can flow through the front chamber 13 and into the rear chamber 3. With configuration 4, when being pulled underwater, the 1! force in the rear chamber 3 is '+' + i to complete the cylinder j /?: 1. = 1.7 water in the rear chamber 3. If there is an inflow, extrusion 4
”.In addition, if air volume leaks, it will be replenished at the next injection.
ピストンと連結された上述した歯車の回転軸によ動力伝
達糸を巻取るぜんまいばね16を設けるが、ビストノと
駆動伝達部6を動力伝達ロソ1ζで連結ケるような構成
では、このばねI6は不要である。A mainspring spring 16 is provided that winds the power transmission thread around the rotating shaft of the above-mentioned gear connected to the piston, but in a configuration in which the biston rod and the drive transmission section 6 are connected by the power transmission rod 1ζ, this spring I6 is Not necessary.
動力伝達ロットを設置Jてシリンダ作動を両方向ご駆動
伝達部6に伝達するようにし、係合手段10のてこの作
用腕を風車の両回転方向で横腕をIζ降さ且る図のもの
より1g1当にt向きの角度にセれば、ゆ−、くり水中
を引き1−ぼるシリンダ後退行程で6しゃくり動作が得
られる。また、本実施例に示ず揺動天秤8は、道糸接続
部12とはりケ接続部9に道糸を通し、道糸接続部12
の下側でLへの通過を止められる止め具を設(」る遊動
式の道糸の接続を行−)てし、しゃくり動作が作用する
。A power transmission rod is installed so that the cylinder operation is transmitted to the drive transmission section 6 in both directions, and the lever action arm of the engagement means 10 is lowered by lowering the horizontal arm in both directions of rotation of the wind turbine. If the angle is set in the t direction for 1 g, a 6-stroke action can be obtained in the cylinder's backward stroke of pulling it through the water. In addition, the swinging balance 8, which is not shown in this embodiment, passes the guide line through the guide thread connection part 12 and the beam connection part 9, and the guide thread connection part 12
A stopper that can stop the passage to L is provided at the lower side of the line, and a swiveling action is effected.
第2実施例を第2図を参照して説明する。A second embodiment will be described with reference to FIG.
本体およびシリンダ1の推力側2、背後室3を第1実施
例と同様に形成し、シリンダlの下部の隔壁は設iJな
い3.連通1−11 (jピストンに導入lT14を、
シリンダ1下端に排出1」5を開[T11させて構成す
る。3. The main body, the thrust side 2 of the cylinder 1, and the rear chamber 3 are formed in the same manner as in the first embodiment, and the partition wall at the bottom of the cylinder 1 is not provided. Communication 1-11 (Introduce lT14 to j piston,
The discharge 1'5 is opened at the lower end of the cylinder 1 [T11].
導入1」4は背後室3内外の圧力差が、シリンダl後退
時に生じる値を前進時には越えるため、このときド流側
の流路間隔が挟まり導入が強く絞られるようにゴ13円
板に設(Jる。排出[15は図の後退位置でF方の=1
イルばねに支えられるピストンに背後室3圧力が働き、
さらにビス)・ンが後退して背後室3内と通しるように
する。なお排出115はこれに代えて、ピストンに推力
方向にのみ設けたI7パツキン25か背後室3圧力の作
用てυ1.出を生じる排出1」を構成するようにしても
よい。The introduction 1" 4 is designed on the go 13 disc so that the pressure difference between the inside and outside of the rear chamber 3 exceeds the value that occurs when the cylinder 1 retreats when moving forward, so that the flow path interval on the downstream side is pinched at this time and the introduction is strongly restricted. (J. Ejection [15 is the backward position in the figure and = 1 on the F side.
The pressure in the rear chamber 3 acts on the piston supported by the spring.
Further, the screws are moved back so that they pass through to the inside of the rear chamber 3. Instead, the discharge 115 is caused by the I7 gasket 25 provided on the piston only in the thrust direction, or by the action of the pressure in the rear chamber 3. It may also be configured such that a discharge 1 is produced.
本体内には駆動部14であるぜんまいばねを設け、その
回転軸に風車である駆動伝達部6を取り付け、回転軸に
動力伝達糸を巻いてピストンと連結する。A mainspring spring, which is a driving part 14, is provided in the main body, and a drive transmission part 6, which is a windmill, is attached to the rotating shaft of the main body, and a power transmission thread is wound around the rotating shaft to connect it to a piston.
揺動天秤8は本体内に設(Jた回動軸に支点!1を取り
付l)、その内端になる力点に駆動伝達部6と断続して
噛み合う爪を設(」て係合手段10とする。The swinging balance 8 is installed in the main body (the fulcrum 1 is attached to the rotating shaft), and a claw that engages intermittently with the drive transmission unit 6 is provided at the force point at the inner end to provide an engaging means. Set it to 10.
イ」勢手段7は支点IIの回りで横腕側の」−昇に働く
ねしりコイルばねを回動軸にはめて設ijる。The force means 7 is provided with a torsion coil spring that acts to raise the side arm side around the fulcrum II, and is fitted onto the rotation shaft.
シリンダ1のト方には若干容積の空気溜り27を設置j
る1、沈下に伴い背後室3内にまず導入されろこの空気
(J、引き1−げられるときに、導入された水を残ら4
゛排出して流出し、シリンダ1が転倒して空気容積が流
出4″ワば次の投入時に補充する。An air pocket 27 with a slightly larger volume is installed on the opposite side of the cylinder 1.
1. When this air (J) is first introduced into the rear chamber 3 as it sinks, the water that was introduced is left behind.
The cylinder 1 is overturned and the air volume flows out 4'' and is replenished at the next injection.
道糸接続部12はシリンダ1上端に設け、本体の下端に
必要7こよって(J錘り取り付は部26を説ける。The thread connecting part 12 is provided at the upper end of the cylinder 1, and the part 26 is attached to the lower end of the main body.
なお、排出[]を萌述したI7パツギン25て構成し、
動力伝達糸に代えて動力伝達ロンドを設け、この11ノ
ドの下端をシリンダ1の後退位置では本体の1・力に突
出さUると、第3実施例で説明しているように水中の上
層で使用するとさ、シリンダ1を前進さ0ておいて投入
ケることができる。In addition, it is composed of I7 Patsugin 25 which describes the discharge [],
If a power transmission iron is provided in place of the power transmission thread, and the lower end of this 11-node protrudes into the 1 force of the main body when the cylinder 1 is in the retracted position, the upper layer of the water will be removed as explained in the third embodiment. When used in this case, the cylinder 1 can be placed in the forward position.
第3実施例を第3図を参照して説明する。A third embodiment will be described with reference to FIG.
深くない水中位置での使用に適するしのを示ケ。Indicates a type suitable for use in underwater locations that are not deep.
l一端を道糸接続部12とするベローズシリンダ1の下
端に本体との隔壁を設(J、シリンダ1断面積に相当の
推力側2を本体で構成し、シリンダ]内を背後室3とし
、また本体重量で駆動部14を構成する。連通[」は隔
壁のロッド案内孔の外周で断面がり、形のソールで逆上
ケる排出「15と、該ノールに対し微量の導入が生じる
ように調節ねじの先端か接して形成される尋人1−14
とで構成する。A bellows cylinder 1 with one end serving as a thread connection part 12 has a partition wall with the main body at the lower end (J, the main body constitutes a thrust side 2 corresponding to the cross-sectional area of the cylinder 1, and the inside of the cylinder is a rear chamber 3, In addition, the weight of the main body constitutes the drive unit 14.The communication [] is rounded in cross section at the outer periphery of the rod guide hole of the partition wall, and the discharge [15] is curved upward at the sole of the shape, and a small amount is introduced into the noll. Hironin 1-14 formed by touching the tip of the adjustment screw
It consists of
シリンダ1内にはその]二端に固定した、隔壁の案内孔
を通り本体下端に至る芯となる、ラックで駆動伝達部6
を設置すた〔lラドを貫通させ、「Jラドに沿い変位す
る本体が底部を後退端で支持されるようにロッド下端に
つばを設ける。揺動天秤8は第2実施例と同様に設(J
、力点風に+側から力を加える付勢手段7である板ばね
と、その屈曲部の下側に接して両方向の回転で撓めてト
昇させる、駆動(云達部6と連結した星形カムとて係合
手段10を構成する。板ばね」−昇時に揺動天秤8は横
腕が自重でF降し、板ばわ屈曲部を力J5が通過すると
その負荷減少から、側壁変形と空気体積の変化が大きい
シリンダlの作動速度が速より、板ばねの復元r降の速
度が得られて横腕がに昇する。Inside the cylinder 1 is a drive transmission section 6 fixed to its two ends, which is a rack that passes through a guide hole in the partition wall and reaches the bottom end of the main body.
In order to install the L-rad, a collar is provided at the lower end of the rod so that the main body, which is displaced along the J-rad, is supported at its bottom at the retreating end. (J
, a leaf spring which is the urging means 7 which applies force to the force point wind from the + side, and a drive (star connected to the delivery part 6) which contacts the lower side of the bent part and bends by rotation in both directions to raise the force. The shaped cam constitutes the engagement means 10.When the plate spring is raised, the side arm of the swing take-up 8 is lowered by its own weight, and when the force J5 passes through the bent part of the plate, the load decreases and the side wall deforms. Since the operating speed of the cylinder L, which has a large change in air volume, is faster, the speed at which the leaf spring is restored and lowered is obtained, and the horizontal arm rises.
本ンリンダ1は水圧力が得られない浅い水中や−1−層
で使用するとき押し込んで前進させておいて投入するこ
ともできる。押し込まれて背後室3の空気の相当:+k
か流出1〜所定の内外の圧力差か生し、偉人が得られて
シリンダ1か後退し揺動天秤8か作動゛4゛る。このと
き導入された水は、次の投入でシリンダ1を押し込む操
作で排出さイ1ろ。When this cylinder 1 is used in shallow water where water pressure cannot be obtained or in the -1- layer, it can be inserted by being pushed forward. Equivalent to the air in the rear chamber 3 that is pushed in: +k
A predetermined internal and external pressure difference is generated, the cylinder 1 is moved back, and the rocking balance 8 is operated. The water introduced at this time can be drained by pushing the cylinder 1 next time.
ljお、駆動部14の所要力はシリンダ1の内部に圧縮
コイルばねを設置Jてム得られ、また、本体の1・部:
(6に円筒形の錘りを着脱して調節できろ。The required force of the drive unit 14 can be obtained by installing a compression coil spring inside the cylinder 1, and the 1st part of the main body:
(You can adjust it by attaching and detaching the cylindrical weight at 6.
第4実施例を第4図を参照して説明4゛る。The fourth embodiment will be explained with reference to FIG.
第2実施例と同様に駆動部14、駆動伝達部6、揺動天
秤8を形成する3、シリンダI iJ: 、1: l・
を逆にして本体F方に設+t、通糸接続部12を本体」
一端にi+Q’lろ。連通孔は第2実施例と同様にピス
トンに設it /コ、かつ側壁の側から導入する導入[
]4と、シリンダIの下端でノートする逆11−T、段
を設けた排出[−15とて構成4−る。また第1実施例
と同様に、か−)I−ドを逆にして導入口44と排出1
−145を設けた前方室43を形成ケる33 この導入
1ゴ44は背後室3の導入114より僅かに大きくする
。また排出L145はシリンダIの無効後退を抑制する
排出抵抗かあるように4ろ。シリンダ1は沈ドか停止4
シたのらし緩やかに1iij進し、前進時(」背後室3
の導入1−14の第2実施例で説明した構成から導入が
強く絞られる。前進が終了すると漏れ導入で月−力差が
減少し、導入114か通常に戻り後退を開始する。なお
この導入l−14はとくに大きな圧力差に対応しうるよ
うに構成した−1−で背後室:(の下端に設けてもよい
。Similarly to the second embodiment, 3 forming the drive section 14, the drive transmission section 6, and the swinging balance 8, cylinder I iJ: , 1: l.
Reverse it and install it on the F side of the main body, and insert the threading connection part 12 into the main body.
At one end, i+Q'l. The communication hole is provided in the piston as in the second embodiment, and is introduced from the side wall side.
] 4 and an inverted 11-T note at the lower end of the cylinder I, configured as a stepped discharge [-15]. Also, in the same way as in the first embodiment, the inlet port 44 and the outlet port 1 are connected by reversing the I-do.
A front chamber 43 is formed with an opening 145. This inlet 44 is slightly larger than the inlet 114 of the rear chamber 3. Also, the discharge L145 is set to 4 so that there is discharge resistance to suppress the invalid retreat of the cylinder I. Cylinder 1 sinks or stops 4
When moving forward, the rear chamber 3
Introduction 1-14 The introduction is strongly narrowed down from the configuration described in the second embodiment. When the forward movement is completed, the force difference decreases due to leakage introduction, and the introduction 114 returns to normal and starts retreating. Note that this introduction l-14 may be provided at the lower end of the rear chamber (1-1-), which is constructed so as to be able to cope with a particularly large pressure difference.
シリンダlには上端にビス)・ンのト縁部か接する輪形
のンールを設け、背後室3の圧力が外部の圧力より大き
くなる、後退端にあろシリンダ1が水中を引き上げられ
るときに、背後室3の空気が流出しないようにする、。The cylinder 1 is provided with a ring-shaped hole at its upper end that touches the edge of the screw, so that when the cylinder 1 is pulled out of the water, the pressure in the rear chamber 3 becomes greater than the external pressure. Prevent the air from room 3 from escaping.
係合手段10は、揺動天秤8の支点11に近接4−ろ外
側の力点に対し下向きに力を加える揺動腕47と、揺動
腕47の回動軸に平方へのみ揺動しうるように設(1′
た腕48にさらに回動軸によって取り付1すた、駆動伝
達部6と爪で断続して噛み合い揺動腕47のI−側に対
し2つの作用点のうち、駆動伝達部6の回転方向に対応
する−・力が力を加えるてこ49とてなる。揺動天秤8
は速度制御されたシリンダ1の前進時と後退時に揺動運
動を反復する。The engaging means 10 has a swinging arm 47 which applies downward force to a force point on the outside of the swinging balance 8, and can swing only squarely to the rotation axis of the swinging arm 47. Set up (1'
It is further attached to the arm 48 by a rotating shaft, and engages with the drive transmission section 6 intermittently by a claw, so that the direction of rotation of the drive transmission section 6 is one of the two points of action on the I- side of the swinging arm 47. Corresponding to -・The force becomes a lever 49 that applies force. Oscillating balance 8
repeats the rocking motion when the speed-controlled cylinder 1 moves forward and backward.
ハ 発明の効果
、二の自動じゃ< i’1人秤天秤下した水中位置で、
第1実施例のらの(J水圧力で得られるシリンダの前進
力で、第2、第3実施例のもの(」その前進中蓄えられ
た力で、しゃくり動作である揺動運動を反復1ろ3.水
中を引き1−げられるときは背後室で圧縮されている空
気の力で投入前の状聾に戻る。C. The effect of the invention, the second automatic method <i' One person at the underwater position where the balance was lowered,
The forward force of the cylinder obtained from the water pressure of the first embodiment, and that of the second and third embodiments (" 3. When being pulled out of the water, the force of the compressed air in the back chamber returns the person to his or her deafness.
したか−、てこの自動しゃくり天秤を釣り仕掛けに装盾
しておけば、EI的とずろ水中で釣り餌に魚の就餌欲を
誘う動きを与える効果がある3、また釣り人が道糸を介
して行うしゃくり操作が、II効率な浮子釣りなとでも
効果かIiられろ。By attaching an automatic lever lever to a fishing tackle, it is effective not only for EI but also to give the bait a movement in the water that attracts fish to feed. Is it possible to say that the hakuri operation performed through the fishing rod is an efficient float fishing?
第2実施例のものほぼはソ一定に保]こイ1ろ内外の月
、力差から導入か生してシリンダが後退し、その速度に
制御され揺動運動の反復間隔が沈ド深度に関わりなくほ
ぼ一疋に得られ、かつ、この内外の圧力差はごく小さく
水圧力に対、する構造の強度を要さ4゛、とくに深い水
中でも使用できろ。In the second embodiment, the cylinder moves back due to the force difference between the inside and outside of the coil, and the repetition interval of the oscillating motion is controlled by the speed of the cylinder to the sinking depth. The pressure difference between the inside and the outside is very small, so the structure must be strong enough to withstand water pressure, so it can be used even in deep water.
第1、第2実施例で説明した3Jユうにシリンダの1・
力で空気溜りが形成されていると、沈下に伴いその空気
か背後室内に導入されるため、引き−にげらイするとき
ノリング内の水が残らず排出されろ。1 of the 3J cylinder explained in the first and second embodiments.
If an air pocket is formed due to the force, that air will be introduced into the rear chamber as it sinks, so when pulling it, all the water in the noring should be drained out.
また背後室から空気流出があれば以後の投入時に自然に
補充する。第3実施例のものは押し込んでシリンダを前
進させておいて投入ずろこともでき、水中」−層でも揺
動運動が得られる。第4実施例のものは目的の水中で、
シリンダが緩やかに011進し後退する往復行程て揺動
運動が行われ、その点で動作回数を多く得られるもので
ある。Also, if air flows out from the back chamber, it will be naturally replenished during subsequent injection. In the third embodiment, it is possible to push the cylinder forward and then release it, and a rocking motion can be obtained even in an underwater layer. In the fourth example, in the target water,
The oscillating motion is performed during the reciprocating stroke in which the cylinder slowly advances and retreats, and in this respect, a large number of operations can be obtained.
第1図はこの発明の第1実施例を示す断面図第2図はこ
の発明の第2実施例を示す断面図第3図はこの発明の第
3実施例を示す断面図第4図はこの発明の第4実施例を
示す断面図1シリング 2推力側 3背後室4導
入1−1 5排出[−16駆動伝達部7付勢手段
8揺動天秤 9.はりケ接続部10、係合手段 1
1支 点 12道糸接続部13前方室 14駆動
1(
特へ1出願人 池111 正夫FIG. 1 is a sectional view showing a first embodiment of the invention. FIG. 2 is a sectional view showing a second embodiment of the invention. FIG. 3 is a sectional view showing a third embodiment of the invention. Cross-sectional view showing the fourth embodiment of the invention 1 Schilling 2 Thrust side 3 Back chamber 4 Introduction 1-1 5 Discharge [-16 Drive transmission section 7 urging means
8 Oscillating balance 9. Stick connection part 10, engagement means 1
1 fulcrum point 12 thread connection section 13 front chamber 14 drive 1 (especially to 1 applicant Masao Ike 111
Claims (2)
背後にある背後室(3)の圧力に動力部の背後側が対応
する、外部圧力が増大すると背後室(3)内の空気容積
が圧縮されて前進するシリンダ(1)が、推力側(2)
の前方に形成された前方室(13)に外部の水を制限し
て導入する狭小な導入口(4)と適宜な逆止手段を設け
られた排出口(5)とが構成される連通口を有し、また
該シリンダ(1)と本体でなる形成体の適宜部に揺動し
うるように取り付けられ支点(11)を要部で支持され
る、外部に突出する横腕の外端部にはりす接続部(9)
をもち該横腕が適宜な行程を揺動形に上昇しうる付勢手
段(7)を設けられた揺動天秤(8)が、力点に対して
設けられた動力受容が断続する係合手段(10)で、上
記の動力部と連結され対応位置にある駆動伝達部(6)
と係合し、横腕の下降に働く動力を受容して該動力が断
たれるとき横腕が上昇する揺動運動を反復するものであ
り、さらに、以上の構成体の所要の部分に道糸接続部(
12)を設けられてなる、自動しゃくり天秤。(1) The thrust side (2) of the power section responds to external pressure, and the rear side of the power section responds to the pressure in the rear chamber (3) behind it.When external pressure increases, the pressure in the rear chamber (3) increases. The cylinder (1) whose air volume is compressed and moves forward is the thrust side (2)
A communication port consisting of a narrow inlet (4) that restricts and introduces external water into a front chamber (13) formed in front of the front chamber, and an outlet (5) provided with an appropriate non-return means. and an outer end of a horizontal arm protruding to the outside, which is swingably attached to an appropriate part of the formed body consisting of the cylinder (1) and the main body, and whose main part supports the fulcrum (11). Slice connection part (9)
A rocking balance (8) is provided with a biasing means (7) that allows the horizontal arm to rise in a rocking manner by an appropriate stroke, and an engaging means that receives power intermittently is provided at a point of force. (10), a drive transmission section (6) connected to the above-mentioned power section and located at a corresponding position;
It engages with the side arm, receives the power acting to lower the side arm, and when the power is cut off, the side arm rises, repeating the rocking motion. Thread connection (
12) An automatic shakuri balance.
背後にある背後室(3)の圧力に動力部の背後側が対応
する、外部圧力が増大すると背後室(3)内の空気容積
が圧縮されて前進するシリンダ(1)が、背後室(3)
に外部の水を制限して導入する狭小な導入口(4)と背
後室(3)の下端の位置で排出方向に流れを適宜に限定
する排出口(5)とが構成される連通口を有し、かつ該
シリンダ(1)と本体でなる形成体の適宜部に、上記の
動力部と連結されてシリンダ(1)に対し後退方向に力
が働くとともに所要力を蓄えもつ駆動部(14)が設け
られ、また該形成体の適宜部に揺動しうるように取り付
けられ支点(11)を要部で支持される、外部に突出す
る横腕の外端部にはりす接続部(9)をもち該横腕が適
宜な行程を揺動形に上昇しうる付勢手段(7)を設けら
れた揺動天秤(8)が、力点に対して設けられた動力受
容が断続する係合手段(10)で、上記の駆動部(14
)が蓄えもつ所要力が伝達されうるように要部と連結さ
れ対応位置にある駆動伝達部(6)と係合し、横腕の下
降に働く動力を受容して該動力が断たれるとき横腕が上
昇する揺動運動を反復するものであり、さらに、以上の
構成体の所要の部分に道糸接続部(12)を設けられて
なる、自動しゃくり天秤。(2) The thrust side (2) of the power section responds to external pressure, and the rear side of the power section responds to the pressure in the rear chamber (3) behind it.When the external pressure increases, the pressure in the rear chamber (3) increases. The cylinder (1) whose air volume is compressed and moves forward is located in the rear chamber (3).
A communication port is constructed of a narrow inlet (4) for restricting and introducing external water into the chamber, and a discharge port (5) for appropriately restricting the flow in the discharge direction at the lower end of the back chamber (3). A drive section (14) which is connected to the above-mentioned power section, applies a force in the backward direction to the cylinder (1), and stores the required force, in an appropriate part of the formed body consisting of the cylinder (1) and the main body. ), and a screw connection part (9 ) and is provided with a biasing means (7) that allows the horizontal arm to rise in an oscillating manner by an appropriate stroke, and the oscillating balance (8) is provided with a biasing means (7) that allows the horizontal arm to rise in an oscillating manner by an appropriate distance, and the force receiving force provided at the point of force is engaged in intermittent engagement. The means (10) comprises the drive unit (14).
) is connected to the main part so that the required force stored in it can be transmitted, and engages with the drive transmission part (6) located at the corresponding position, receives the power acting on the lowering of the side arm, and the power is cut off. An automatic sagging balance that repeats a swinging movement in which the horizontal arm rises, and further includes a line connection part (12) at a required part of the above-mentioned structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2121538A JPH0420227A (en) | 1990-05-12 | 1990-05-12 | Automatically pulling fishing beam |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2121538A JPH0420227A (en) | 1990-05-12 | 1990-05-12 | Automatically pulling fishing beam |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH0420227A true JPH0420227A (en) | 1992-01-23 |
Family
ID=14813727
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP2121538A Pending JPH0420227A (en) | 1990-05-12 | 1990-05-12 | Automatically pulling fishing beam |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0420227A (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0723680A (en) * | 1993-07-10 | 1995-01-27 | Akizo Ogawa | Balance for fishing |
KR100405007B1 (en) * | 2001-12-24 | 2003-11-07 | 동부전자 주식회사 | Angle and Gap Adjustable Nozzle Apparatus for TEBR of Semiconductor Wafer |
US20170295775A1 (en) * | 2016-04-19 | 2017-10-19 | Shannon Smith | System and method for operating animal decoys to simulate the movement of animals |
-
1990
- 1990-05-12 JP JP2121538A patent/JPH0420227A/en active Pending
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0723680A (en) * | 1993-07-10 | 1995-01-27 | Akizo Ogawa | Balance for fishing |
KR100405007B1 (en) * | 2001-12-24 | 2003-11-07 | 동부전자 주식회사 | Angle and Gap Adjustable Nozzle Apparatus for TEBR of Semiconductor Wafer |
US20170295775A1 (en) * | 2016-04-19 | 2017-10-19 | Shannon Smith | System and method for operating animal decoys to simulate the movement of animals |
US10609920B2 (en) * | 2016-04-19 | 2020-04-07 | Shannon Smith | System and method for operating animal decoys to simulate the movement of animals |
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