JPS58163856A - Mechanism of mutual conversion between rotary and linear reciprocating motions - Google Patents

Mechanism of mutual conversion between rotary and linear reciprocating motions

Info

Publication number
JPS58163856A
JPS58163856A JP4522082A JP4522082A JPS58163856A JP S58163856 A JPS58163856 A JP S58163856A JP 4522082 A JP4522082 A JP 4522082A JP 4522082 A JP4522082 A JP 4522082A JP S58163856 A JPS58163856 A JP S58163856A
Authority
JP
Japan
Prior art keywords
gear
reciprocating member
pair
gears
mutual conversion
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
Application number
JP4522082A
Other languages
Japanese (ja)
Inventor
Mutsukazu Go
郷 睦和
Toshiaki Hirose
広瀬 利明
Takanori Adachi
足立 高則
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Fuj Hensokuki Co Ltd
Original Assignee
Fuj Hensokuki Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Fuj Hensokuki Co Ltd filed Critical Fuj Hensokuki Co Ltd
Priority to JP4522082A priority Critical patent/JPS58163856A/en
Publication of JPS58163856A publication Critical patent/JPS58163856A/en
Pending legal-status Critical Current

Links

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16HGEARING
    • F16H37/00Combinations of mechanical gearings, not provided for in groups F16H1/00 - F16H35/00
    • F16H37/12Gearings comprising primarily toothed or friction gearing, links or levers, and cams, or members of at least two of these types
    • F16H37/124Gearings comprising primarily toothed or friction gearing, links or levers, and cams, or members of at least two of these types for interconverting rotary motion and reciprocating motion
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16HGEARING
    • F16H21/00Gearings comprising primarily only links or levers, with or without slides
    • F16H21/10Gearings comprising primarily only links or levers, with or without slides all movement being in, or parallel to, a single plane
    • F16H21/16Gearings comprising primarily only links or levers, with or without slides all movement being in, or parallel to, a single plane for interconverting rotary motion and reciprocating motion
    • F16H21/18Crank gearings; Eccentric gearings
    • F16H21/36Crank gearings; Eccentric gearings without swinging connecting-rod, e.g. with epicyclic parallel motion, slot-and-crank motion

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Transmission Devices (AREA)

Abstract

PURPOSE:To enable rotary and linear reciprocating motions to be mutually converted between a pair of rotary member and a slider by engaging pins of a pair of rotary member to one slider, said pins being turned at the same cycle. CONSTITUTION:When one gear 1 is turned in the direction P by a drive shaft 2, another gear 1 is immediately turned in the direction S. Then, resulting upward movement of pins 4 which are projected on gears 1 and 2, respectively, causes parallel elevation of both reciprocating member 5 which is spanned on the pins 4, and a connecting rod 7 thereof. In upward movement of the pins 4, they, when standing lower than shafts 2 and 3, are moved outward apart from each other in the engagement groove 6 of the reciprocating member 5 while they, when standing higher than the shafts 2 and 3, are moved inward, approaching to each other in the engagement grooves 6. Thus, the effects of the pins 4 on the reciprocating member 5 may be cancelled with each other and prevent any unbalance load causing lateral vibration.

Description

【発明の詳細な説明】 技術分野 この発明は回転運動を直線往復運動に又は直線往復運動
を同転運動に変換する機構に関するものである。DETAILED DESCRIPTION OF THE INVENTION Technical Field This invention relates to a mechanism for converting rotational motion into linear reciprocating motion or linear reciprocating motion into corotating motion.

目的 この発明の目的は新規で構造簡単な回転運動直線運動相
互変換機構を提供することにある。OBJECTS An object of the present invention is to provide a novel rotary motion/linear motion mutual conversion mechanism that is simple in structure.

実施例 この発明を具体化した一実施例を第1図及び第2図に従
って説明すると、同径、かつ同歯数を備えた一対の回動
部材としての歯車1は互いに1噛み合うように水平に配
設されるとともに、一方の歯車1はモーター等の駆動源
の駆動軸2に固着され、他方の歯車1は回動可能にフレ
ームに軸3着されている。Embodiment An embodiment embodying the present invention will be described with reference to FIGS. 1 and 2. A pair of gears 1 as rotating members having the same diameter and the same number of teeth are horizontally aligned so as to mesh once with each other. One gear 1 is fixed to a drive shaft 2 of a drive source such as a motor, and the other gear 1 is rotatably attached to a frame by a shaft 3.

両歯車1の前面周縁寄りには互いに線対称になるようを
ニ一対のビン4がそれぞれ突設され、両者4を結ぶ線が
常に水平Gこなるようになっているとともに、両ビンが
同一周期で回動するようになっている。A pair of bins 4 are protruded from the front periphery of both gears 1 so as to be symmetrical with each other, and the line connecting the two 4 is always parallel to the horizontal G, and both bins have the same period. It is designed to rotate.

両ビン4間に横架された往復部材5後面にはビン4を摺
動可能に係入する案内部としての係合溝6が長手方向に
形成されている。往復部材5の長手方向中央番こは連結
ロッド7の上端がボルト8着       1゜され、
両者5,7でT字状を形成するよう番こし、連結ロッド
7の下端には図示しない作動機構が連結されている。An engagement groove 6 serving as a guide portion into which the bin 4 is slidably engaged is formed in the longitudinal direction on the rear surface of the reciprocating member 5 that is horizontally suspended between the bins 4 . The center plate in the longitudinal direction of the reciprocating member 5 is fixed at the upper end of the connecting rod 7 by 1° with 8 bolts attached.
Both 5 and 7 are arranged to form a T-shape, and an operating mechanism (not shown) is connected to the lower end of the connecting rod 7.

なお、第2図に示す9は連結ロッド7上端部幅方向昏こ
形成された往復部材5係着用の連結溝、10は両歯車1
間の中央位置下方に配設されたガイド部材であって、前
記連結ロッド7が上下方向に摺動案内可能に貫通してい
る。In addition, 9 shown in FIG. 2 is a connection groove formed in the upper end of the connection rod 7 in the width direction for engaging the reciprocating member 5, and 10 is a connection groove for engaging the reciprocating member 5.
The connecting rod 7 is a guide member disposed at a lower central position between the guide members, through which the connecting rod 7 can be slidably guided in the vertical direction.

以上のように構成された回転及び直線往復運動相互変換
機tfI¥は駆動源に連結される駆動軸2により歯車1
をP矢印方向へ回転すると、他方の歯車1はS矢印方向
へ同時に回転される。The rotary and linear reciprocating motion mutual converter tfI configured as described above has a gear 1 connected to a drive shaft 2 connected to a drive source.
When the gear 1 is rotated in the direction of arrow P, the other gear 1 is simultaneously rotated in the direction of arrow S.

すると、第1図実線で示すように両ビン4がそれぞれの
歯車1の軸2,3からの鉛直線lより外側に位置する場
合には両ビン4は往復部材5の係合溝6を摺動しながら
上方へ回動される。そして、ビン4の」一方移動により
両ビン4に横架された往復部材5は−L方へ平行移動す
る。Then, as shown by the solid lines in FIG. It is rotated upward while moving. Then, due to one-sided movement of the bin 4, the reciprocating member 5, which is suspended across both bins 4, is translated in the -L direction.

このビン4の上方移動の際にビン4が軸2,3よりも下
方に位置する場合には往復部材5の保合溝6に対して互
いに外方へ移動し、又、ビン4が軸2,3よりも上方に
位置する場合には係合溝6に対して互いに内方へ移動す
るため、ビン4の往復部材5番二対する影響を互いに打
消し合い偏荷重を生ずることはなく横振れの虞れはない
When the bottle 4 is moved upwardly, if the bottle 4 is located below the shafts 2 and 3, the bottle 4 moves outward relative to the retaining groove 6 of the reciprocating member 5, and the bottle 4 , 3, they mutually move inward with respect to the engagement groove 6, so that the influence of the reciprocating member 5 of the bottle 4 on the reciprocating member 5 and 2 is canceled out, and an unbalanced load is not generated and lateral vibration is prevented. There is no risk of this happening.

そして、ビン4が第1図鎖線で示す位置(最上方位置)
にまできて鉛直線lを越すと、ビン4は下方へ回動され
る。そして、ビン4の下方移動により両ビン4間に横架
された往復部材5及び同往復部材5に連結された連結ロ
ッド7は下方へ移動する。Then, bottle 4 is located at the position indicated by the chain line in Figure 1 (uppermost position).
When the bottle 4 reaches , and crosses the vertical line l, the bottle 4 is rotated downward. As the bin 4 moves downward, the reciprocating member 5 horizontally suspended between the bins 4 and the connecting rod 7 connected to the reciprocating member 5 move downward.

なお、このビン4の下方への移動の際にも前記と同様に
ビン4が軸2,3よりも」一方に位置する場合には往復
部材5の保合溝6に対して互いに内方へ移動し、軸2,
3よりも下方Oこ位置する場合には係合溝6に対して互
いに外方へ移動するため、往復部材5に対する横振れの
影響はない。Note that when the bottle 4 is moved downward, if the bottle 4 is located on one side of the shafts 2 and 3, it will move inwardly relative to the retaining groove 6 of the reciprocating member 5. Move, axis 2,
When the reciprocating member 5 is located at a position below 3, the reciprocating member 5 is not affected by lateral vibration because the reciprocating member 5 moves outward relative to the engagement groove 6.

この実施例においてはビン4が鉛直線4より外方位置を
こおいて往復部材5を上方へ移動させるため、連結ロッ
ド7に対して作動機構の荷重が下方へ加わっている場合
に安定して作動させることができる。In this embodiment, since the reciprocating member 5 is moved upward by the bin 4 at a position outside the vertical line 4, it is stable when the load of the operating mechanism is applied downward to the connecting rod 7. can be activated.

なお、この実施例では連結ロッド7の上端を往復部材5
に略T字状に固着したが連結ロッド7と往復部材5とを
十字状に固着し、往復部材5より上方及び下方(こそれ
ぞれ延出した連結ロッド7のに部及び下部に対しガイド
部材10をそれぞれ一対配置するものとすれば動作中に
連結ロッド7が傾く虞れがなくさらに安定したものにす
ることができる。In this embodiment, the upper end of the connecting rod 7 is connected to the reciprocating member 5.
However, the connecting rod 7 and the reciprocating member 5 are fixed in a cross shape, and the guide member 10 is attached above and below the reciprocating member 5 (respectively, to the upper and lower parts of the connecting rod 7 extending from the reciprocating member 5). By arranging a pair of each, there is no risk that the connecting rod 7 will tilt during operation, and it can be made more stable.

この場合、歯車1の回転方向を前記実施例と逆方向にし
てもその動作は安定したものとなる。In this case, even if the rotation direction of the gear 1 is reversed to that in the above embodiment, its operation will be stable.

次に第二の実施例を第3図に従って説明する。Next, a second embodiment will be explained with reference to FIG.

なお、前記実施例の構成と同−又は相当する部分につい
ては同一符号を付しその説明を省略する。It should be noted that the same reference numerals are given to the parts that are the same as or correspond to the configuration of the embodiment described above, and the explanation thereof will be omitted.

この実施例では前記実施例より小径をこした両ギ歯車1
に対し同歯車1よりも大径にした同一の補助歯車12が
一対の各歯車1の外側にそれぞれ配置されて各歯車1と
噛み合うように軸13着されている。そして、同補助歯
車12にはその外周から互いに干渉しないようにアーム
14が互いに対称状にそれぞれ突出されている。さら(
こ同アーム14先端には往復部材5の係合溝6に嵌入さ
れ移動可能番こしたビン4が設けられているところが前
記第一実施例と異なっている。In this embodiment, the double gear 1 has a smaller diameter than the previous embodiment.
On the other hand, the same auxiliary gear 12 having a larger diameter than the gear 1 is arranged on the outside of each gear 1 of the pair and is attached to the shaft 13 so as to mesh with each gear 1. The auxiliary gear 12 has arms 14 projecting from its outer periphery in a symmetrical manner so as not to interfere with each other. Sara(
This differs from the first embodiment in that a movable pin 4 is provided at the tip of the arm 14, which is fitted into the engagement groove 6 of the reciprocating member 5.

このようにすれば小径の歯車1で連結ロッド7の直線往
復運動のストロークを長くすることができる。In this way, the stroke of the linear reciprocating motion of the connecting rod 7 can be lengthened by the gear 1 having a small diameter.

次に第三実施例を第4図に従って説明する。Next, a third embodiment will be described with reference to FIG.

この実施例においては前記第一実施例の一対の歯車1a
、1bにおいて一方の歯車Ib&二対し同一の歯車1c
を直列状に噛み合うようをこ配置するとともに、その歯
車1Cには一方の歯車1aのビン4と同様のビン4を設
けて往復部材5の係合溝6Qこ移動11J能に嵌入し、
歯車1a、Ib間及び歯Jib、Ic間(こ一対の連結
ロッド1がそれぞれ位置するように十字状に往復部材5
に対して固設されたところが第一実施例と異なっている
In this embodiment, the pair of gears 1a of the first embodiment
, 1b, one gear Ib & two identical gears 1c
are arranged so as to mesh in series, and the gear 1C is provided with a pin 4 similar to the pin 4 of one gear 1a, which is fitted into the engagement groove 6Q of the reciprocating member 5 and the movement 11J,
Between the gears 1a and Ib and between the teeth Jib and Ic (the reciprocating member 5 is moved in a cross shape so that the pair of connecting rods 1 are located respectively
It differs from the first embodiment in that it is fixedly installed.

この場合の作用効果は第一実施例と同様である。The effects in this case are the same as in the first embodiment.

なお、この実施例において歯車1bのビン4を省略して
も良い。In this embodiment, the pin 4 of the gear 1b may be omitted.

又、同一の歯車1をさらに複数個直列状等に配置しても
良い。Further, a plurality of the same gears 1 may be arranged in series.

次に第四実施例を第5図に従って説明する。Next, a fourth embodiment will be described with reference to FIG.

互いに距離を置いて回動可能に軸2,3着された同じ大
きさの一対のスプロケットホイール1日。A pair of sprocket wheels of the same size are rotatably mounted on two or three shafts at a distance from each other.

19間にはチェーン20が巻装され、その一方のスプロ
ケットホイール18の軸2には歯車21が固設されてい
る。A chain 20 is wound between the sprocket wheels 19 and a gear 21 is fixed to the shaft 2 of one of the sprocket wheels 18.

同歯車21&こおいて前記他方のスプロケットホイール
19と反対側には歯車21と同じ大きさの歯車22が噛
み合うようを二回動可能に軸着されている。そして、前
記スプロケットホイール1B。On the opposite side of the gear 21 and the other sprocket wheel 19, a gear 22 of the same size as the gear 21 is pivotally attached so as to be able to rotate twice so as to mesh with the gear 21. And the sprocket wheel 1B.

19を回動した際に同歯車22と他方のスプロケットホ
イール19とが同一周期で互いGこ反対方向を二回動す
るよう番こなっている。When the sprocket wheel 19 is rotated, the same gear 22 and the other sprocket wheel 19 are arranged so that they rotate twice in opposite directions G in the same cycle.

歯車22とスプロケットホイール194こは両者を結ぶ
直線の垂直二等分線を中心にして線対称に突出した一対
のアーム23が互いに干渉しないように固設されている
。そして、アーム23の先端部には往復部材5の係合溝
6に摺動可能なビン4が設けられている。なお、アーム
23の代わりに円板を用いても良い。A pair of arms 23 projecting symmetrically about the perpendicular bisector of a straight line connecting the gear 22 and the sprocket wheel 194 are fixed so as not to interfere with each other. A pin 4 slidable in the engagement groove 6 of the reciprocating member 5 is provided at the tip of the arm 23. Note that a disk may be used instead of the arm 23.

24はチェーン20の張力を制御するテンション付勢装
置であって、両端がチェーン20の77:いに反対送行
側を内方Qこ付勢している。Reference numeral 24 denotes a tension biasing device for controlling the tension of the chain 20, and both ends of the tension biasing device 77 bias the opposite feed side of the chain 20 inward.

このようにするものとすれば前記第3実施例よりもさら
(こ長い往復直線運動のストロークを11することかで
きるものとなる。If this is done, the stroke of the reciprocating linear motion, which is longer than that of the third embodiment, can be achieved by 11 times.

次に第五実施例を第6図(a) 、 (b)&二ついて
説明する。Next, the fifth embodiment will be explained with reference to FIGS. 6(a) and 6(b).

この実施例においては互いに対向した同じ大きさの傘歯
車25を回動可能に軸2,3着し、雨傘歯車25を傘歯
車26を介して互い(こ逆方向に回転し得るようになっ
ている。そして、各傘歯車25における対向面25aの
周縁寄りにはそれぞれビン4が互いに同一周期で回転す
るようにかつ互い(こ干渉しないように突設されている
In this embodiment, bevel gears 25 of the same size and facing each other are rotatably mounted on shafts 2 and 3, and the bevel gears 25 are rotated in opposite directions to each other via a bevel gear 26. The pins 4 are protruded near the periphery of the opposing surface 25a of each bevel gear 25 so that they rotate at the same period and do not interfere with each other.

又、雨傘歯車25間には両側部にビン4を摺動可能に係
入する係合溝6を備えた往復部材5が水平に配置され、
同往復部材5下部に連結ロッド7の上端が固定されてい
る。Further, a reciprocating member 5 having engagement grooves 6 on both sides in which the bin 4 is slidably engaged is disposed horizontally between the umbrella gears 25.
The upper end of the connecting rod 7 is fixed to the lower part of the reciprocating member 5.

この実施例番こおいても両ピン4が互いに反対方向を二
回動するため横振れは生じにくいものとなる。Also in this embodiment, since both pins 4 rotate twice in opposite directions, lateral vibration is less likely to occur.

なお、この実施例のうち駆動軸2の代わりに傘歯車26
の軸26aを駆動軸としても良い。Note that in this embodiment, a bevel gear 26 is used instead of the drive shaft 2.
The shaft 26a may be used as a drive shaft.

次(こ第六実施例を第7図について説明する。Next, the sixth embodiment will be explained with reference to FIG.

この実施例では第一実施例の往復部材5と連結ロッド7
を十字状に固定し、連結ロッド7の両端Gこはシリンダ
30内を往復運動可能にしたピストン31が連結されて
いる。In this embodiment, the reciprocating member 5 and the connecting rod 7 of the first embodiment are
are fixed in a cross shape, and both ends of the connecting rod 7 are connected to a piston 31 that can reciprocate within the cylinder 30.

このようなものにすればコンプレッサー等番こ応用でき
る。If you make something like this, you can apply it to compressors, etc.

第七実施例を第8図について説明すると、この実施例で
は第一実施例の機構を潤滑油32を貯留したケース33
内に配置し、潤滑油32にて歯車1.1の回転及びビン
4と摺動溝6との摩擦を軽減させている。The seventh embodiment will be explained with reference to FIG.
The lubricating oil 32 reduces the rotation of the gear 1.1 and the friction between the pin 4 and the sliding groove 6.

次に第八実施例を第9図について説明する。Next, an eighth embodiment will be explained with reference to FIG.

この実施例では前記第一実施例のうち、ガイド部材10
の代わり昏こ連結ロッド7の長手方向に延びる長孔34
を形成し、同長孔34に対して一端がフレーム(図示し
ない)に固着されたガイドビン35を摺動可能に係入し
ている。そして、係合      1溝6の代わりに摺
動孔36を形成したところが第一実施例と異なっている
In this embodiment, the guide member 10 of the first embodiment is
Instead, a long hole 34 extending in the longitudinal direction of the connecting rod 7
A guide bin 35, one end of which is fixed to a frame (not shown), is slidably engaged in the elongated hole 34. The second embodiment differs from the first embodiment in that a sliding hole 36 is formed instead of the first engagement groove 6.

この実施例の作用効果は第一実施例と同様である。The effects of this embodiment are similar to those of the first embodiment.

次に第九実施例を第10図について説明する。Next, a ninth embodiment will be explained with reference to FIG.

この実施例では前記第一実施例のうち両軸2゜3間より
も短かくした往復部材5に連結ロッド7を十字状に固着
し、その上端部番こは上下両端が連結ロット7の係止板
38及びガイド部材10にそれぞれ係止されるスプリン
グ37が巻装され、連結ロッド7を下方に付勢している
In this embodiment, the connecting rod 7 is fixed in a cross shape to the reciprocating member 5, which is shorter than the distance between the two shafts 2.3 in the first embodiment, and the upper and lower ends of the connecting rod 7 are engaged with the connecting rod 7. A spring 37 is wound around the stop plate 38 and the guide member 10, respectively, and urges the connecting rod 7 downward.

そして、往復部材5の保合溝6を省略して、第一実施例
とは逆方向に回動される歯車1のビン4が往復部材5の
下面(案内部)に摺動し得るようにしているところが異
なっている。The retaining groove 6 of the reciprocating member 5 is omitted so that the pin 4 of the gear 1, which is rotated in the opposite direction to that in the first embodiment, can slide on the lower surface (guiding part) of the reciprocating member 5. They are different in what they do.

このようにするものとすれば歯車1を第10図矢印方向
(こ回動させた場合に、ビン4が往復部材5下面に係止
しながら往復部材5をスプリング37の付勢力に抗して
上動させることになる。そして、上動するビン4が往復
部材5下面を外方に向かつて回動し、同下面から離脱す
るとスプリング37の付勢力及び連結ロッド7の自重(
こより連結ロッド7は下動する。If this is done, when the gear 1 is rotated in the direction of the arrow in FIG. Then, when the upwardly moving bottle 4 rotates outward on the lower surface of the reciprocating member 5 and separates from the lower surface, the urging force of the spring 37 and the dead weight of the connecting rod 7 (
This causes the connecting rod 7 to move downward.

このようにこの実施例の機構ではスプリング37及び連
結ロッドの自重で下動させるため、プレス、ハンマ等に
応用できる。In this way, the mechanism of this embodiment is moved downward by the weight of the spring 37 and the connecting rod, so it can be applied to presses, hammers, etc.

なお、この発明は前記実施例に限定されるものではなく
連結ロッド7をエンジン等のピストンに連結し、ピスト
ンの往復直線運動を回転運動に変換させるようにしても
良い。Note that the present invention is not limited to the above-mentioned embodiment, and the connecting rod 7 may be connected to a piston of an engine or the like, and the reciprocating linear motion of the piston may be converted into rotational motion.

効果 以上詳述したようにこの発明は回転運動を往復直線運動
に、又は往復直線運動を回転運動に変換することができ
産業利用上優れた発明である。Effects As detailed above, this invention is capable of converting rotational motion into reciprocating linear motion, or converting reciprocating linear motion into rotary motion, and is an excellent invention for industrial use.

【図面の簡単な説明】[Brief explanation of drawings]

第1図及び第2図はこの発明を具体化した第一実施例を
示す正面図及び断面図、第3図〜第5図はそれぞれ第二
〜第四実施例を示す略体図、第6図(a) 、 (b)
は第五実施例を示すそれぞれ乎面略体図、正面略体図、
第7図〜第10図はそれぞれ第六〜第九実施例を示す路
体図である。 歯車(回動部材)1,1a、Ib、1c、ピン4、往復
部材5、係合溝(案内部)6、連結ロッド7、補助歯車
(回動部材)1゛2、スプロケットホイール(回動部材
)19、歯車22、傘歯車(回動部材)25,26゜ 特許出願人  富士変速機株式会社 代理人  弁理士 恩田博宣1 and 2 are a front view and a sectional view showing a first embodiment embodying the present invention, FIGS. 3 to 5 are schematic diagrams showing second to fourth embodiments, respectively, and FIG. Figures (a), (b)
are a front schematic diagram, a front schematic diagram, and a front schematic diagram respectively showing the fifth embodiment.
FIGS. 7 to 10 are road diagrams showing sixth to ninth embodiments, respectively. Gears (rotating members) 1, 1a, Ib, 1c, pin 4, reciprocating member 5, engagement groove (guide portion) 6, connecting rod 7, auxiliary gear (rotating member) 1-2, sprocket wheel (rotating Component) 19, gear 22, bevel gear (rotating member) 25, 26° Patent applicant: Fuji Transmission Co., Ltd. Agent, Patent attorney: Hironobu Onda

Claims (1)

【特許請求の範囲】 1 互い(こ回転力を伝達可能に連結した複数の回動部
材のうち少なくとも1対の回動部材にはその回動部材の
回転軸心から離間した位置において互いに同一周期を有
して回動するビンをそれぞれ突設し、同ビン間にはビン
の直線状の摺動を許容する案内部を備えるとともに同ビ
ンにより少なくとも一方向への往復運動を可能にした往
復部材を配置し、同往復部材しこは連結ロッドを連係し
たことを特徴とする回転及び直線往復運動相互変換機構
。 2 回動部材は互いに噛み合う歯車である特許請求の範
囲第1項記載の回転及び直線往復運動相互変換機構。 8 複数の歯車はその軸心が直線上に並ぶように配置し
たものである特許請求の範囲第2項記載の回転及び直線
往復運動相互変換機構。 4 複数の歯車は互いに対向した一対の傘歯車と両者間
を噛み合い連結させる傘歯車であり、前記一対の傘歯車
の対向面にそれぞれビンを設けたことを特徴とする特許
請求の範囲第2項記載の回転及び直線往復運動相互変換
機構。 5 複数の回動部材は互いに離間してチェーンにより巻
掛された一対のスプロケットホイールと、一方のスプロ
ケットホイールの回転軸を共通軸にして軸着した歯車と
、同歯車に噛み合い連結するとともに前記歯車と同歯数
を有する歯車であり、ビンは他方のスプロケットホイー
ル及び後者の歯車の外周からそれぞれ互いに干渉しない
よう(こ突出したアームに設けたことを特徴とする特許
請求の範囲第1項記載の回転及び直線往復運動相互変換
機構。 6 案内部は往復部材(こ対してビンの直線往復運動を
可能に凹設した係合溝である特許請求の範囲第1項ない
し第5項記載のうちいずれか番こ記載の回転及び直線往
復運動相互変換機構。 7 歯車は一対を水平に配置したものであり、下方への
付勢力を備えた連結ロッドに対して、歯車に設けられた
各ビンが上昇回動時に係合され、下降回動特番こ離脱可
能にした案内部としての下面を備える往復部材を固定し
たものである特許請求の範囲第3〕工4記載の回転及び
直線往復運動相互変換機構。[Scope of Claims] 1. At least one pair of rotating members among a plurality of rotating members connected to each other so as to be able to transmit rotational force have the same period at a position spaced apart from the rotational axis of the rotating members. A reciprocating member having a reciprocating member, each of which has a protruding bottle that rotates with a radial angle, and is provided with a guide portion between the bottles to allow the bottle to slide linearly, and allows the bottle to reciprocate in at least one direction. 2. A rotating and linear reciprocating motion mutual conversion mechanism characterized in that the reciprocating member is connected to a connecting rod. Linear reciprocating motion mutual conversion mechanism. 8. Rotation and linear reciprocating motion mutual conversion mechanism according to claim 2, wherein the plurality of gears are arranged so that their axes are aligned on a straight line. 4. The plurality of gears are A pair of bevel gears facing each other and a bevel gear that engages and connects the two, and a rotary and linear gear according to claim 2, characterized in that a bottle is provided on each opposing surface of the pair of bevel gears. Reciprocating motion mutual conversion mechanism. 5. The plurality of rotating members are a pair of sprocket wheels that are separated from each other and wound around by a chain, a gear that is attached to the rotation axis of one of the sprocket wheels with the rotation axis of the other sprocket wheel as a common axis, and a gear that is attached to the same gear. The gears are meshed and connected and have the same number of teeth as the gear, and the pin is provided on an arm protruding from the outer periphery of the other sprocket wheel and the latter gear so as not to interfere with each other. The rotational and linear reciprocating motion mutual conversion mechanism according to claim 1. 6. The guide portion is an engaging groove recessed to enable linear reciprocating motion of the bottle (in contrast to the reciprocating member). A rotating and linear reciprocating motion mutual conversion mechanism according to any one of the items described in item 5. 7. A pair of gears are arranged horizontally, and a pair of gears is provided on the gear with respect to a connecting rod with a downward biasing force. The rotating and reciprocating member according to claim 3, item 4, has a fixed reciprocating member having a lower surface as a guide portion which is engaged when the bottles rotate upwardly and can be separated when rotating downwardly. Linear reciprocating motion mutual conversion mechanism.
JP4522082A 1982-03-19 1982-03-19 Mechanism of mutual conversion between rotary and linear reciprocating motions Pending JPS58163856A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP4522082A JPS58163856A (en) 1982-03-19 1982-03-19 Mechanism of mutual conversion between rotary and linear reciprocating motions

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP4522082A JPS58163856A (en) 1982-03-19 1982-03-19 Mechanism of mutual conversion between rotary and linear reciprocating motions

Publications (1)

Publication Number Publication Date
JPS58163856A true JPS58163856A (en) 1983-09-28

Family

ID=12713178

Family Applications (1)

Application Number Title Priority Date Filing Date
JP4522082A Pending JPS58163856A (en) 1982-03-19 1982-03-19 Mechanism of mutual conversion between rotary and linear reciprocating motions

Country Status (1)

Country Link
JP (1) JPS58163856A (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2592451A1 (en) * 1985-12-28 1987-07-03 Gutierrez Arturo Martin ALTERNATE MOTION DEVICE FOR PRODUCING SMALL DISPLACEMENTS
US4757725A (en) * 1985-07-16 1988-07-19 U.S. Philips Corporation Guide system comprising a gear rack, apparatus comprising such a system, and element for such a system
JPH0265745U (en) * 1988-11-08 1990-05-17
JPH04131551A (en) * 1990-09-19 1992-05-06 Mitsubishi Electric Corp Method of converting circumferential motion into box motion, horizontal conveyor mechanism using this method, and lead-frame conveyor device using this conveyor mechanism
CN102359566A (en) * 2011-09-20 2012-02-22 瑞安市茂兴包装机械有限公司 Gear drive lifting device

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS4331266Y1 (en) * 1965-01-18 1968-12-18

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS4331266Y1 (en) * 1965-01-18 1968-12-18

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4757725A (en) * 1985-07-16 1988-07-19 U.S. Philips Corporation Guide system comprising a gear rack, apparatus comprising such a system, and element for such a system
FR2592451A1 (en) * 1985-12-28 1987-07-03 Gutierrez Arturo Martin ALTERNATE MOTION DEVICE FOR PRODUCING SMALL DISPLACEMENTS
US4781071A (en) * 1985-12-28 1988-11-01 Gutierrez Arturo M Device for reciprocating movement
JPH0265745U (en) * 1988-11-08 1990-05-17
JPH04131551A (en) * 1990-09-19 1992-05-06 Mitsubishi Electric Corp Method of converting circumferential motion into box motion, horizontal conveyor mechanism using this method, and lead-frame conveyor device using this conveyor mechanism
CN102359566A (en) * 2011-09-20 2012-02-22 瑞安市茂兴包装机械有限公司 Gear drive lifting device

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