JPS598225Y2 - Clock calendar correction device - Google Patents
Clock calendar correction deviceInfo
- Publication number
- JPS598225Y2 JPS598225Y2 JP15393778U JP15393778U JPS598225Y2 JP S598225 Y2 JPS598225 Y2 JP S598225Y2 JP 15393778 U JP15393778 U JP 15393778U JP 15393778 U JP15393778 U JP 15393778U JP S598225 Y2 JPS598225 Y2 JP S598225Y2
- Authority
- JP
- Japan
- Prior art keywords
- correction
- wheel
- lever
- calendar
- day
- 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.)
- Expired
Links
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- Electromechanical Clocks (AREA)
Description
【考案の詳細な説明】
本考案は、時計の暦修正装置に関するものであり、暦修
正装置の占める平面スペースを小さくするとともに、そ
の装置及び部品の簡素化を目的とするものである。[Detailed Description of the Invention] The present invention relates to a calendar correction device for a timepiece, and aims to reduce the planar space occupied by the calendar correction device and to simplify the device and its parts.
従来の暦修正装置は、巻真の回転操作によってその回転
方向で選択的に位置をかえる揺動部材を設けて暦修正を
行なうものが、機能上優れていることからその大半を占
めている。Most of the conventional calendar correction devices are functionally superior, and therefore perform calendar correction by providing a swinging member that selectively changes its position in the direction of rotation by rotating the winding stem.
しかしながら、揺動部材に、選択的に位置をかえる摩擦
力を与えるためのバネは、日躍制レバーのバネ力よりも
小さく、シかも揺動部材の作動を確実にするだけのバネ
力を有しなけれは゛ならない。However, the spring for applying a frictional force to the swinging member to selectively change its position is smaller than the spring force of the daily lever, and may not have enough spring force to ensure the operation of the swinging member. I have to do it.
これは、口車及び゛曜星車に噛合する修正車の歯形を共
通にし、揺動部材の構或部品を減らすことにより発生し
た問題であり、口車と曜星車のモジュールの比を約2:
1に設定することによって、その目的を図っている。This problem was caused by making the tooth profile of the correction wheel that meshes with the head wheel and the day star wheel common and reducing the number of structural parts of the swinging member. 2:
This goal is achieved by setting it to 1.
そのため日落ちをよくするには、口車の歯と歯の間に存
在している修正車の歯を、日曜制レバーのバネ力で回動
させる必要がある。Therefore, in order to improve the setting of the sun, it is necessary to use the spring force of the Sunday shift lever to rotate the teeth of the correcting wheel, which is located between the teeth of the mouth wheel.
又、最近の腕時計は、殆ど水晶時計に変わりつつあり、
その時計の電池寿命は、電池容量と、モーターと回路の
消費電流によって決定される。Also, most wristwatches these days are changing to crystal watches.
The battery life of the watch is determined by the battery capacity and the current consumption of the motor and circuitry.
そして、その要因であるモーターの消費電流は、負荷ト
ルクが最大となる暦送り時に止まらないだけの大きさを
必要とし、従来の時計は、暦送り時以外の状態において
も同じ大きさの電流を流している。The current consumption of the motor, which is the cause of this, needs to be large enough to not stop during the calendar feed when the load torque is maximum, and conventional watches draw the same amount of current even in states other than the calendar feed. It's flowing.
よって、電池寿命を延長させるには、回路の消費電流を
低減するとともに、暦送り時の負荷トルクを下げ、モー
ターの消費電流を低減する必要がある。Therefore, in order to extend the battery life, it is necessary to reduce the current consumption of the circuit, reduce the load torque during calendar feed, and reduce the current consumption of the motor.
そのために、日躍制レバーのバネ力は、非常に小さくし
なければならない。For this reason, the spring force of the Nichiyaku system lever must be extremely small.
従って、揺動部材に構威されたバネは、非常にバラツキ
の小さなバネ力の範囲を要求されるため、部品加工が困
難で量産性に欠けるものである。Therefore, the spring attached to the swinging member is required to have a spring force within a very small range of variation, making it difficult to process parts and lacking in mass production.
又、前述の揺動部材は、周知の如く部品点数も多く複雑
である。Further, as is well known, the above-mentioned swinging member has many parts and is complicated.
又、第1図に示す実公昭49−28936に代表される
暦修正装置は、以上の欠点を補うものである。Furthermore, the calendar correction device represented by Utility Model Publication No. 49-28936 shown in FIG. 1 compensates for the above-mentioned drawbacks.
然るに、この装置は、修正車2に偏心して枢着したピン
3を弾性的に圧接している係合部4aと、日修正爪部4
bと、曜修正爪部4Cが、三角形をなすように配置した
早修正爪4を有しているため、曜車5と日車6との間に
平面スペースを、殆ど早修正爪4に占められてしまう。However, this device includes an engaging portion 4a that elastically presses the pin 3 eccentrically pivotally connected to the correction wheel 2, and a date correction claw portion 4.
b and the day correction pawl portion 4C have the quick correction pawl 4 arranged in a triangular shape, so that the quick correction pawl 4 occupies most of the planar space between the day wheel 5 and the date dial 6. I end up getting beaten up.
従って、特に小型時計の暦修正機構としては使うことが
できない。Therefore, it cannot be used particularly as a calendar correction mechanism for small watches.
更に、暦修正状態において、第1図に示す如く曜車5と
曜修正爪部4Cが係合している場合に、使用者が日修正
を行なおうとすると、修正車2は、図に示す矢印と反対
の方向に回転させられる。Furthermore, in the calendar correction state, when the day wheel 5 and the day correction claw portion 4C are engaged as shown in FIG. Rotated in the opposite direction of the arrow.
この時に早修正爪4は、−日車6と日修正爪部4bが係
合する様に作動するはずであるが、曜星車5の歯の先端
と曜修正爪部4Cとが干渉しあって、修正車2は、日修
正をすべく回転しているのに曜車5を回転させてしまう
。At this time, the quick correction claw 4 should operate so that the - date wheel 6 and the date correction claw portion 4b are engaged, but the tips of the teeth of the day star wheel 5 and the day correction claw portion 4C interfere with each other. Therefore, the correction wheel 2 rotates the day wheel 5 even though it is rotating to correct the date.
これは、早修正爪4と曜車5の材質が、ともに金属であ
リ、シかも早修正爪4が、プレス加工されたものの様に
、両者の間の摩擦係数が大きくなる程、前述の誤動作が
起こり易くなる。This may be because the materials of the quick correction pawl 4 and the day wheel 5 are both metal, and if the quick correction pawl 4 is press-formed, the friction coefficient between them increases. Malfunctions are more likely to occur.
従って使用者は、日修正をしたつもりが曜修正されてい
たり、暦修正の時にリュウズの回転方向に忘れてしまっ
た場合に、一方向にリュウズを回わして口車又は曜車が
動いたかどうかで、その回転方向を判断するため、前述
の様な誤動作があると非常に困惑してしまう。Therefore, if the user intended to adjust the date but instead changed the day, or if he or she forgot the direction of rotation of the crown when adjusting the calendar, the user should check whether the crown wheel or day wheel moved by turning the crown in one direction. In order to judge the direction of rotation, if there is a malfunction like the one mentioned above, it will be very confusing.
又、図中の想像線にて示す状態がら曜修正をしようとし
た時も同じことがいえる。The same thing can be said when trying to correct the day of the month in the state shown by the imaginary line in the figure.
しかし、日車6のピッチは、曜車5よりも大きく、日付
をかえる程にはならない。However, the pitch of the date wheel 6 is larger than that of the day wheel 5, and is not large enough to change the date.
本考案は、前述の欠点を解消するものであり、第2.3
− a, 一b ,4.5図によって、その一実施例を
詳述する。The present invention solves the above-mentioned drawbacks and addresses the problems described in Section 2.3.
-a, 1b, 4.5, one embodiment thereof will be explained in detail.
1は地板、7は巻真、8はツヅミ車、9は角抜部9aを
有する修正伝工車である。1 is a main plate, 7 is a winding stem, 8 is a screw wheel, and 9 is a modified transmission wheel having a corner cutout 9a.
ツヅミ車8は巻真7の角取部に、修正伝工車9はツヅミ
車の軸部8aに遊合しており、修正伝工車の角抜部9a
とツヅミ車の角取部8bとは、暦修正の時のみ係合し、
巻真7の回転操作によって回転される。The Tsuzumi wheel 8 is loosely fitted to the cut-out part of the winding stem 7, and the modified transmission wheel 9 is fitted to the shaft part 8a of the Tsuzumi wheel.
The corner part 8b of the Tsuzumi wheel engages only when correcting the calendar.
It is rotated by rotating the winding stem 7.
5は曜車、6は日車、10は日車案内板で、プッシュ1
1を植設してある。5 is the day wheel, 6 is the date wheel, 10 is the date wheel information board, push 1
1 has been planted.
日車6は、口車案内板10の外周部にて回転可能に案内
されており、曜車5は、プッシュ11にて回転可能に軸
支されている。The date wheel 6 is rotatably guided by the outer periphery of the head wheel guide plate 10, and the day wheel 5 is rotatably supported by a pusher 11.
12は曜修正伝工車で、軸13により口車案内板10に
回転可能に軸支されている。Reference numeral 12 denotes a day correction transmission wheel, which is rotatably supported by a shaft 13 on the port wheel guide plate 10.
又、曜修正伝工車12は、常時曜車5に噛合っている。Further, the day correction transmission wheel 12 is always meshed with the day wheel 5.
14は筒車、15は暦送り車、16は暦送り爪である。14 is an hour wheel, 15 is a calendar feed wheel, and 16 is a calendar feed pawl.
筒車14は、日ノ裏カナ(図示せず)と噛合う筒歯車1
4 aと日廻し車14bより構或されており、合或樹脂
にて一体或形してある。The hour wheel 14 is a cylindrical gear 1 that meshes with a hinoura kana (not shown).
4a and a daily rotating wheel 14b, which are integrally formed using resin.
暦送り車15は、穴15aを有し、常時日廻し車14b
と噛合している。The calendar feed wheel 15 has a hole 15a and a constant date feed wheel 14b.
It meshes with.
日廻し車14 bと暦送り車15の歯数比は、1:4に
設定してあるため、暦送り車15は、48時間に1回転
している。Since the gear ratio between the date wheel 14b and the calendar feed wheel 15 is set to 1:4, the calendar feed wheel 15 rotates once every 48 hours.
これは、中間車を廃止して噛合効率等によるトルク損失
を最小限にすることと、暦送り時の負荷トルクを半減す
ることを目的としている。The purpose of this is to eliminate the intermediate wheel to minimize torque loss due to meshing efficiency, etc., and to halve the load torque during calendar feed.
暦送り爪16は、各々日車6と曜車5に単独に係合する
日送り爪16a、曜送り爪16b、暦送り車の穴15
aに係合しているダポ16C、及び弾性部16dを有し
ている。The calendar feed pawl 16 includes a date feed pawl 16a, a day feed pawl 16b, and a hole 15 in the calendar feed wheel, each of which independently engages the date wheel 6 and day wheel 5.
It has a dowel 16C that engages with a, and an elastic part 16d.
これらは、図に示す如く、24時間に1日分の暦送りが
可能であるように、暦送り爪16の回転中心に対しほぼ
180゜の対称位置に夫々配されている。As shown in the figure, these are arranged at approximately 180° symmetrical positions with respect to the rotation center of the calendar feed pawl 16 so that one day's worth of calendar feed is possible in 24 hours.
17は日車押工、18は曜躍制レバーであり、両者は口
車案内板10の上に配置され、日車6を回転可能に押え
ている。Reference numeral 17 denotes a date wheel pusher, and 18 a day lever, both of which are arranged on the head wheel guide plate 10 and hold the date wheel 6 in a rotatable manner.
23は、曜躍制レバー止ネジ及び田車押エネジである。Reference numeral 23 indicates a day jump control lever set screw and a rice cart pusher screw.
曜躍制レバー18は、修正レバー19、修正レバーピン
20、修正車21,修正車軸22、及び躍制部18 a
とバネ18b、修正レバー19を揺動可能に押えている
押工部18 Cから構戒されている。The day jump control lever 18 includes a correction lever 19, a correction lever pin 20, a correction wheel 21, a correction axle 22, and a movement control part 18a.
The spring 18b and the pressing part 18C, which swingably holds the correction lever 19, are held in place.
修正車21は、修正車軸22のツバ部との間に曜躍制レ
バー18を挾み込むように、しかも回転可能に曜躍制レ
バー18に組み込まれ、修正車21と修正車軸22は、
カシメにて固着されている。The correction wheel 21 is rotatably incorporated into the day movement control lever 18 so as to sandwich the day movement control lever 18 between the correction wheel 21 and the collar of the correction axle 22, and the correction wheel 21 and the correction axle 22 are
It is fixed with caulking.
又、修正車軸22は、偏心させた穴を有している。The correction axle 22 also has an eccentric hole.
修正レバーピン20は、修正レバー19を修正車21と
修正レバーピン20のツバ部によって挾み込むように、
修正車軸22の穴にシメシロをもって押込まれる。The correction lever pin 20 is configured such that the correction lever 19 is sandwiched between the correction wheel 21 and the collar of the correction lever pin 20.
It is pushed into the hole of the correction axle 22 with a pinch.
この時、修正レバー19は、修正車21と修正レバー2
0のツバ部によって押えつけられないようにしてある。At this time, the correction lever 19 is connected to the correction wheel 21 and the correction lever 2.
It is made so that it will not be pressed down by the collar of 0.
修正車21は、巻真7の軸上に配置されており、常時修
正伝工車9と噛合している。The correction wheel 21 is arranged on the axis of the winding stem 7, and is always meshed with the correction transmission wheel 9.
修正レバー19は、日車6と曜修正伝工車12の両者に
係合する爪部19a、弾性部19b、凹部19 Cより
構戊され、図に示す如く保合部と外形と爪部を略一直線
上に形威し、薄板部材(材料は金属)を爪部19 aの
部分を曲げたたけの簡単な部品である。The correction lever 19 is composed of a claw portion 19a that engages with both the date wheel 6 and the day correction transmission wheel 12, an elastic portion 19b, and a recessed portion 19C. It is a simple component that is formed approximately in a straight line and is made by bending a thin plate member (made of metal) at the claw portion 19a.
又、修正レバーピン20には、修正レバーの弾性部19
bと凹部19 Cが弾性的圧接部材として働き、巻真7
を回転操作した時、その回転方向によって、修正レバー
19が選択的に位置をかえるように摩擦力を有して係合
している。Further, the correction lever pin 20 has an elastic portion 19 of the correction lever.
b and the recess 19C act as elastic pressure contact members, and the winding stem 7
When the lever 19 is rotated, the correction lever 19 is engaged with a frictional force so as to selectively change its position depending on the direction of rotation.
次に、暦修正時における作動を、要部平面図である第4
,5図によって説明する。Next, we will explain the operation during calendar correction in the fourth section, which is a plan view of the main part.
, 5 will be explained.
先ず第4図において、巻真7をまわすと、ツヅミ車8、
修正伝工車9を介して(以上は第2図に示す)修正車2
1が回転する。First, in Fig. 4, when the winding stem 7 is turned, the screw wheel 8,
The correction car 2 is sent via the correction transmission car 9 (the above is shown in FIG. 2).
1 rotates.
そして、修正車21が、図中の矢印方向に回転された場
合、修正レバー19は、日車6の歯に係合するように揺
動し、爪部19aは、図に示す軌跡上を作動して日修正
を行なう。When the correction wheel 21 is rotated in the direction of the arrow in the figure, the correction lever 19 swings to engage with the teeth of the date dial 6, and the claw portion 19a operates on the trajectory shown in the figure. and then adjust the date.
この軌跡は、口車案内板の凸部10 aと修正レバーの
外形形状19dによって決定される。This trajectory is determined by the convex portion 10a of the guide plate and the outer shape 19d of the correction lever.
又、爪部19aは、日車の歯6aを爪部19 aによっ
て駆動している間においては、その状態から修正車21
を曜修正方向に回転しても、口車6と干渉しない形状に
してある。Further, while the claw portion 19a is driving the teeth 6a of the date wheel, the claw portion 19a moves the correction wheel 21 from that state.
It is shaped so that it does not interfere with the slot wheel 6 even if it is rotated in the day adjustment direction.
つまり、爪部19 aと歯6aの接点より、口車の歯の
内側(日文字印刷面6b側)に入っている部分の爪部1
9 aの形状が、その接点と修正レバーピン20との中
心を結ぶ距離に比べ、同じか又は小さく設定してある。In other words, the portion of the pawl 1 that is inside the teeth of the spout (on the Japanese character printed surface 6b side) from the contact point between the pawl 19a and the tooth 6a.
The shape of 9a is set to be the same or smaller than the distance between the contact point and the center of the correction lever pin 20.
従って、日車の歯6aと爪部19 aの干渉は全くなく
なり、暦修正時の誤動作を防止できる。Therefore, there is no interference between the teeth 6a of the date wheel and the claw portion 19a, and malfunctions during calendar correction can be prevented.
更に、口車の歯6aと係合している爪部19aの面は、
材料の圧延面であることから、従来の様にプレス抜きの
破断面に比べ滑らかであり、歯6aと爪部19aが干渉
することがなくなり、より信頼性を高めた暦修正装置を
提供することができる。Furthermore, the surface of the claw portion 19a that engages with the teeth 6a of the spout is
To provide a calendar correction device which is smoother than the fractured surface of conventional press punching because it is a rolled surface of the material, eliminates interference between teeth 6a and pawls 19a, and has higher reliability. I can do it.
次に第5図において、修正車21を図に示す矢印方向に
回転させると、修正レバー19は、爪部19 aは曜修
正伝工車12に係合するように揺動し、爪部19aが、
図に示す軌跡上を作動して曜修正を行なう。Next, in FIG. 5, when the correction wheel 21 is rotated in the direction of the arrow shown in the figure, the correction lever 19 swings so that the claw part 19a engages with the day correction transmission wheel 12, and the claw part 19a but,
The day of the month is corrected by operating on the trajectory shown in the figure.
この軌跡は、日修正と同様に、口車案内板の凸部10b
と修正レバーの外形形状19 eによって決定される。Similar to the date correction, this trajectory is
and the outer shape 19e of the correction lever.
又、爪部19 aの形状は、前述した日車の歯6aとの
係合状態を同じ設定にしてある。Further, the shape of the claw portion 19a is set in the same engagement state as the teeth 6a of the date wheel described above.
更に、曜修正伝工車の歯12 aに係合している爪部1
9 aの面は、材料の圧延面で形威されている。Further, the claw portion 1 engaged with the tooth 12a of the day correction transmission wheel
The surface 9a is shaped by the rolled surface of the material.
又、曜車5に噛合している曜修正伝工車12を設けたこ
とによって、修正レバーの爪部19 aは、従来の日修
正爪部と曜修正爪部を兼ねることができ、修正レバー1
9の揺動範囲を小さくできる。Furthermore, by providing the day correction transmission wheel 12 that meshes with the day wheel 5, the claw portion 19a of the correction lever can serve as the conventional date correction claw portion and day correction claw portion, and the correction lever 1
9 can be made smaller.
従って、日修正と曜修正の切替えも早くできる。Therefore, switching between day correction and day correction can be done quickly.
通常携帯及び針合せ状態において、修正レバー19は、
日車6又は曜車5と係合している状態の時がある。In the normal carrying and needle setting state, the correction lever 19 is
There are times when it is engaged with the date wheel 6 or day wheel 5.
しかし、修正レバー19は、日車6又は曜車5によって
送られた時に、修正レバーピン20のまわりを回転して
逃げるか、修正車21が、修正伝工車9(第2図に示す
)と、のバツクラッシュ分回転されて逃げる。However, when the correction lever 19 is moved by the date wheel 6 or the day wheel 5, it rotates around the correction lever pin 20 and escapes, or the correction wheel 21 is moved away from the correction transmission wheel 9 (shown in FIG. 2). , the crush is rotated and runs away.
この時の負荷トルクは、修正レバーピン20の軸径Dの
士と弾性部19 bのバネ力と両者間の摩擦係数の積で
あり、軸径Dを小さくすることによって殆ど無視できる
ため、修正レバーピン20と、弾性部19 bと凹部1
9 Cの間に発生する摩擦力は、従来の揺動部材のもの
よりもバラツキの許容範囲が拡大される。The load torque at this time is the product of the shaft diameter D of the correction lever pin 20, the spring force of the elastic portion 19b, and the coefficient of friction between the two, and can be almost ignored by reducing the shaft diameter D. 20, the elastic part 19b, and the recess 1
The allowable range of variation in the friction force generated between 9 C and 9 C is expanded compared to that of a conventional rocking member.
又、爪部19 aと外形形状19 d ,19 eとの
間に弾性部を設け、暦送り中に暦修正された時、弾性部
が撓み関係部品の破損を防止することができる。Further, an elastic portion is provided between the claw portion 19a and the external shapes 19d and 19e, so that when the calendar is corrected during calendar feeding, the elastic portion can prevent damage to the deflection-related parts.
以上の様に本考案は、係合部と外形と爪部を略一直線上
に形威し、修正レバーの占める平面スペースを小さくす
ることで、時計の小型化を図り、通常携帯及び針合せ状
態での中立規正装置が不要であり、修正レバー自体の形
状も簡単であることから、量産性に富んだ暦修正装置を
提供できる。As described above, the present invention aims to make the watch more compact by arranging the engaging part, the outer shape, and the claw part in substantially a straight line, and by reducing the plane space occupied by the correction lever. Since there is no need for a neutral adjustment device and the shape of the correction lever itself is simple, it is possible to provide a calendar correction device that is highly mass-producible.
更に、口車又は曜車の歯と爪部との干渉もなく、信頼性
の高い装置でもある。Furthermore, there is no interference between the teeth of the mouth wheel or the day wheel and the claws, making the device highly reliable.
本考案の実施例では、修正レバーの材料は金属であるが
、これは合戒樹脂にて戒形してもよく、中間車を曜車に
噛合せているが、口車に噛合する中間車を設けても同じ
効果が得られ、これらの中間車を廃止して爪部により直
接日車,曜、車に係合させると部品点数が減らせる。In the embodiment of the present invention, the material of the correction lever is metal, but it may also be made of resin, and the intermediate wheel meshes with the day wheel. The same effect can be obtained even if these intermediate wheels are provided, and the number of parts can be reduced by eliminating these intermediate wheels and having the claws directly engage the date, day, and wheels.
又、修正レバーの外形形状と口車案内板の凸部によって
、暦修正の軌跡を決定しているが、単に爪部と、口車又
は曜修正伝工車の歯自体が同じ効果をはたすため、その
場合は、爪部と被修正車の歯の係合がより確実となる。In addition, the trajectory of calendar correction is determined by the external shape of the correction lever and the convex part of the head wheel guide plate, but simply because the pawl and the teeth of the head wheel or day correction transmission wheel themselves have the same effect. In that case, the engagement between the claw portion and the teeth of the wheel to be corrected becomes more reliable.
又、修正車は、巻真軸上に配したが、それ以外の場所に
設けてもよく、修正車の大きさをかえることによって暦
修正速度をかえることもできる。Further, although the correction wheel is arranged on the winding stem axis, it may be provided at other locations, and the calendar correction speed can be changed by changing the size of the correction wheel.
更に、実施例からも解るように、暦送り爪、その止ネジ
、修正伝工車を除けば、全てのカレンダー装置を構或す
る部品は、地板の裏面1a(第2−a , b図に示す
)より積み重ねて配置してあり、非常に薄く、又、暦修
正部品用の地板サライは不要であり、しかも、カレンダ
ー装置を取り外すことで(前述の三部品は組み込まない
)、同じ時計で薄型のノンカレンダ一時計を得られる等
、多大な効果が得られる。Furthermore, as can be seen from the examples, all the parts constituting the calendar device, except for the calendar feed pawl, its set screw, and the correction transmission wheel, are located on the back side 1a of the main plate (see Figures 2-a and b). (shown), it is very thin, and there is no need for a main plate plate for the calendar correction parts.Moreover, by removing the calendar device (without incorporating the three parts mentioned above), the same watch can be made thinner. Great effects can be obtained, such as being able to obtain a non-calendar clock.
第1図は、従来の暦修正装置を示す平面図。
第2.3−a,−b図は、本考案の一実施例を示す平面
図及び断面図。
第4,5図は、第2.3−aj b図に示す実施例の
要部平面図。
1・・・・・・地板、2,21・・・・・・修正車、3
.20・・・・・・修正レバーピン、4.19・・.・
・・・修正レバー、5・・・・・・曜車、6・・・・・
・日車、7・・・・・・巻真、12・・・・・・曜修正
伝工車、19 a・・・・・・爪部、19b・・・・・
・弾性部、19 C・・・・・・凹部、19 d ,1
9 e・・・・・・外形形状。FIG. 1 is a plan view showing a conventional calendar correction device. Figures 2.3-a and 2.3-b are a plan view and a sectional view showing an embodiment of the present invention. 4 and 5 are plan views of main parts of the embodiment shown in FIG. 2.3-aj-b. 1... Main plate, 2, 21... Modified car, 3
.. 20...Correction lever pin, 4.19...・
... Correction lever, 5 ... Day wheel, 6 ...
・Date wheel, 7... Winding stem, 12... Day correction transmission wheel, 19 a... Claw part, 19 b...
・Elastic part, 19 C... Concave part, 19 d, 1
9 e...External shape.
Claims (1)
中間車、前記第2の暦表示車と中間車との両者に係合す
る爪部を有した修正レバー、該修正レバーの外形と共働
して爪部の軌跡を決定する地板に固定した部材、巻真、
該巻真の回転操作によって回転されるとともに、偏心さ
せて設けた前記修正レバーとの保合部を有し、巻真と平
面的に重なるよう配置した修正車、前記巻真の回転方向
により選択的に修正レバーの位置をかえるための摩擦力
を前記修正車と修正レバーとの保合部に与える部材から
構或し、前記修正レバーは保合部と外形と爪部を略一直
線上に形威し、かつ前記巻真の一方向の回転により第2
の暦表示車と係合し、他方向の回転では前記中間車と係
合して、暦修正を行うことを特徴とする時計の暦修正装
置。first and second calendar display wheels, an intermediate wheel meshing with the first calendar display wheel, a correction lever having a claw portion that engages with both the second calendar display wheel and the intermediate wheel; and the correction lever. A member fixed to the main plate that works with the outer shape of the lever to determine the trajectory of the pawl, the winding stem,
A correction wheel that is rotated by the rotational operation of the winding stem, has a retaining portion for the correction lever provided eccentrically, and is arranged so as to overlap the winding stem in a plane, and is selected depending on the rotational direction of the winding stem. The correction lever is formed of a member that applies a frictional force to a retaining portion between the correcting wheel and the correcting lever to change the position of the correcting lever, and the correcting lever is shaped such that the retaining portion, the outer shape, and the claw portion are substantially in line with each other. and by rotating the winding stem in one direction, the second
1. A calendar correction device for a timepiece, wherein the calendar correction device engages with the calendar display wheel of the clock, and engages with the intermediate wheel when rotating in the other direction to correct the calendar.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP15393778U JPS598225Y2 (en) | 1978-11-08 | 1978-11-08 | Clock calendar correction device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP15393778U JPS598225Y2 (en) | 1978-11-08 | 1978-11-08 | Clock calendar correction device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS5569764U JPS5569764U (en) | 1980-05-14 |
| JPS598225Y2 true JPS598225Y2 (en) | 1984-03-13 |
Family
ID=29141590
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP15393778U Expired JPS598225Y2 (en) | 1978-11-08 | 1978-11-08 | Clock calendar correction device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS598225Y2 (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5932981U (en) * | 1982-08-26 | 1984-02-29 | セイコーエプソン株式会社 | Calendar correction structure of mobile watch |
-
1978
- 1978-11-08 JP JP15393778U patent/JPS598225Y2/en not_active Expired
Also Published As
| Publication number | Publication date |
|---|---|
| JPS5569764U (en) | 1980-05-14 |
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