JP2659201B2 - Position adjustment mechanism - Google Patents

Position adjustment mechanism

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Publication number
JP2659201B2
JP2659201B2 JP62319634A JP31963487A JP2659201B2 JP 2659201 B2 JP2659201 B2 JP 2659201B2 JP 62319634 A JP62319634 A JP 62319634A JP 31963487 A JP31963487 A JP 31963487A JP 2659201 B2 JP2659201 B2 JP 2659201B2
Authority
JP
Japan
Prior art keywords
fixed shaft
adjusting mechanism
position adjusting
friction engagement
nut
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 - Lifetime
Application number
JP62319634A
Other languages
Japanese (ja)
Other versions
JPS6440756A (en
Inventor
誠 浅野
林  正樹
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.)
Arako KK
Original Assignee
Arako KK
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 Arako KK filed Critical Arako KK
Priority to JP62319634A priority Critical patent/JP2659201B2/en
Publication of JPS6440756A publication Critical patent/JPS6440756A/en
Application granted granted Critical
Publication of JP2659201B2 publication Critical patent/JP2659201B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Description

【発明の詳細な説明】 〔産業上の利用分野〕 本発明は被調節部材を任意の位置へ無段階に調節でき
る位置調節機構に関する。
Description: TECHNICAL FIELD The present invention relates to a position adjusting mechanism capable of adjusting a member to be adjusted to an arbitrary position in a stepless manner.

〔従来技術および解決すべき問題点〕[Prior art and problems to be solved]

従来、この種の位置調節機構としてはスプリングカッ
プラを備えたものが知られているが、このスプリングカ
ップラの構造が複雑なことから位置調節機構が必然的に
複雑な構造となり、かつ各種装置への組付けが煩雑とな
る。従って、本発明の目的は構造が簡単でかつ組付けが
容易な位置調節機構を提供することにある。
Conventionally, as this kind of position adjusting mechanism, one having a spring coupler is known. However, since the structure of this spring coupler is complicated, the position adjusting mechanism is inevitably complicated, and it is difficult to use various devices. Assembly becomes complicated. Accordingly, an object of the present invention is to provide a position adjusting mechanism having a simple structure and easy to assemble.

〔問題点を解決するための手段〕[Means for solving the problem]

本発明においては、この種の位置調節機構を、軸線に
対して互に反する方向に傾斜する左右の傾斜摩擦係合面
を外周に間隔を保って具備し支持部材に固定的に支持さ
れる固定軸と、前記両傾斜摩擦係合面のいずれか一方に
係脱する傾斜摩擦係合面を具備し前記固定軸の外周に回
転可能に組付けられるとともに被調節部材に固定される
第1の回転部材と、前記両傾斜摩擦係合面のいずれか他
方に係脱する傾斜摩擦係合面を具備し前記固定軸の外周
に回転可能に組付けられるとともに外部操作により回転
する第2の回転部材を備え、これら両回転部材が相対回
転により互に当接、離間し、当接時その軸方向の力によ
り互に対向する前記各傾斜摩擦係合面が摩擦係合される
構成としている。
In the present invention, this kind of position adjusting mechanism is provided with left and right inclined friction engagement surfaces inclined in directions opposite to each other with respect to the axis at an interval on the outer periphery, and fixedly supported by the support member. A first rotation that includes a shaft and an inclined friction engagement surface that engages or disengages with one of the two inclined friction engagement surfaces, is rotatably mounted on the outer periphery of the fixed shaft, and is fixed to an adjustable member. A second rotating member that includes a member and an inclined friction engagement surface that engages and disengages with one of the two inclined friction engagement surfaces, is rotatably mounted on the outer periphery of the fixed shaft, and rotates by an external operation. The two rotating members are in contact with or separated from each other by relative rotation, and at the time of contact, the respective inclined friction engagement surfaces opposed to each other are frictionally engaged by the axial force.

しかして、当該位置調節機構において好ましい実施態
様は下記(1)、(2)の通りである。すなわち、 (1)前記固定軸が具備する一方の傾斜摩擦係合面が右
ネジ部にて構成されるとともに他方の傾斜摩擦係合面が
左ネジ部にて構成され、かつ前記各回転部材が前記各ネ
ジ部に進退可能に螺合するナット部材である。
Preferred embodiments of the position adjusting mechanism are as described in (1) and (2) below. That is, (1) one inclined friction engagement surface of the fixed shaft is formed by a right-hand thread portion, the other inclined friction engagement surface is constituted by a left-hand thread portion, and each of the rotating members is It is a nut member which is screwably engaged with each of the screw portions.

(2)前記固定軸が具備する各傾斜摩擦係合面が傾斜カ
ム面にて構成され、かつ前記回転部材が前記各傾斜カム
面に係脱する傾斜カム面を具備し前記固定軸の外周に嵌
合するカム部材である。
(2) Each of the inclined friction engagement surfaces of the fixed shaft is constituted by an inclined cam surface, and the rotating member is provided with an inclined cam surface which engages with and disengages from each of the inclined cam surfaces. It is a cam member to be fitted.

〔発明の作用・効果〕[Functions and effects of the invention]

かかる構成においては、両回転部材が当接している場
合にはその軸方向の作用力により互に対向する各傾斜摩
擦係合面が一方の回転方向に対して摩擦係合し、両回転
部材の同方向への回転が規制され、第1の回転部材に固
定される被調節部材の一方向への移動が規制される。こ
の状態で外部操作により第2の回転部材を他方の回転方
向へ回転させて第1の回転部材から離間させると、第1
の回転部材の一方向への回転が自由となり、同部材を同
方向に回転させると係合する各傾斜摩擦係合面の作用に
て離間した距離だけ同部材が軸方向に移動して第2の回
転部材に当接し、その後一方向への回転が規制される。
この間、被調節部材は第1の回転部材が回転または移動
する分一方向へ移動し、その後一方向への移動が規制さ
れる。従って、被調節部材は第2の回転部材の操作によ
り任意の位置へ移動させてロックすることができ、無段
階の位置調節が可能である。なお、被調節部材を他方向
へ移動させると第1の回転部材が他方向に回転して第2
の回転部材から離間するため、同被調節部材を他方向の
任意の位置へ移動させることができ、その後第2の回転
部材を一方向へ回転させて第1の回転部材に当接させれ
ば、同被調節部材は当該位置にてロックされる。
In such a configuration, when the two rotating members are in contact with each other, the inclined frictional engagement surfaces facing each other frictionally engage in one rotational direction due to the acting force in the axial direction, and the two rotating members are in contact with each other. The rotation in the same direction is regulated, and the movement of the adjustable member fixed to the first rotating member in one direction is regulated. In this state, when the second rotating member is rotated in the other rotating direction by an external operation to be separated from the first rotating member,
The rotation of the rotating member in one direction is free, and when the member is rotated in the same direction, the member moves in the axial direction by a distance separated by the action of each inclined frictional engagement surface to be engaged, and the second member rotates. , And rotation in one direction is regulated thereafter.
During this time, the adjusted member moves in one direction by the amount of rotation or movement of the first rotating member, and thereafter movement in one direction is restricted. Therefore, the adjustable member can be moved to an arbitrary position and locked by operation of the second rotating member, so that the position can be adjusted steplessly. When the member to be adjusted is moved in the other direction, the first rotating member rotates in the other direction and the second rotating member rotates in the other direction.
In order to move away from the rotating member, the adjustable member can be moved to an arbitrary position in the other direction, and then the second rotating member is rotated in one direction to abut the first rotating member. The adjustable member is locked at that position.

しかして、本発明に係る位置調節機構は特定の固定軸
および両回転部材を主要構成部材とするものであり、構
造が簡単でかつ組付けが容易である。
Thus, the position adjusting mechanism according to the present invention has a specific fixed shaft and both rotating members as main components, and has a simple structure and easy assembly.

〔実施例〕〔Example〕

以下、本発明を図面に基づいて説明すると、第1図お
よび第2図は本発明に係る第1の位置調節機構の実施態
様図、第3図〜第5図は同第2の位置調節機構の実施態
様図である。第1の位置調節機構は前記固定軸が具備す
る一方の傾斜摩擦係合面が右ネジ部にて構成されるとと
もに他方の傾斜摩擦係合面が左ネジ部にて構成され、か
つ前記各回転部材が前記各ネジ部に進退可能に螺合する
ナット部材である実施態様であり、当該調節機構は固定
軸1と一対のナット部材2,3を主要構成部材としてい
る。固定軸1は適宜の支持部材4に固定的に支持される
もので、その中間外周部に右ネジ部1aと左ネジ部1bを備
えている。これら両ネジ部1a,1bは所定量離間した状態
で互いに直列的に位置しており、右ネジ部1aには右ネジ
のナット部材2が進退可能に螺合し、かつ左ネジ部1bに
は左ネジのナット部材3が進退可能に螺合している。こ
れら両ナット部材2,3のうちの一方が本発明の第1の回
転部材に該当し、かつ他方が本発明の第2の回転部材に
該当するものであり、両ナット部材2,3の一方または両
者が矢印A方向に回転して前進し互いに当接し、それ以
上の同方向への回転が規制される。この状態で両ナット
部材2,3のいずれか一方が矢印B方向へ回転して両ナッ
ト部材2,3離間すると、いずれか他方のナット部材2,3が
矢印A方向へ回転可能となり、同方向へ回転し所定量前
進して一方のナット部材2,3に当接するとそれ以上の同
方向の回転が規制される。
The present invention will be described below with reference to the drawings. FIGS. 1 and 2 show an embodiment of a first position adjusting mechanism according to the present invention, and FIGS. 3 to 5 show a second position adjusting mechanism. FIG. In the first position adjusting mechanism, one of the inclined friction engagement surfaces of the fixed shaft is formed of a right-hand thread portion, and the other inclined friction engagement surface is constituted of a left-hand thread portion. This is an embodiment in which the member is a nut member that is screwably engaged with each of the screw portions, and the adjustment mechanism includes a fixed shaft 1 and a pair of nut members 2 and 3 as main components. The fixed shaft 1 is fixedly supported by an appropriate support member 4 and has a right-hand thread portion 1a and a left-hand thread portion 1b at an intermediate outer peripheral portion thereof. These two threaded portions 1a and 1b are located in series with each other with a predetermined distance therebetween, a right-handed threaded nut member 2 is screwably engaged with the right-handed threaded portion 1a, and a left-handed threaded portion 1b. The nut member 3 of the left screw is screwed forward and backward. One of the two nut members 2 and 3 corresponds to the first rotating member of the present invention, and the other corresponds to the second rotating member of the present invention. Alternatively, both rotate in the direction of arrow A and move forward and abut against each other, and further rotation in the same direction is restricted. In this state, when one of the two nut members 2, 3 rotates in the direction of arrow B and separates from the two nut members 2, 3, the other nut member 2, 3 becomes rotatable in the direction of arrow A. , And when it advances by a predetermined amount and abuts one of the nut members 2 and 3, further rotation in the same direction is restricted.

また、第2の位置調節機構は前記固定軸が具備する各
傾斜摩擦係合面が傾斜カム面にて構成され、かつ前記回
転部材が前記各傾斜カム面に係脱する傾斜カム面を具備
し前記固定軸の外周に嵌合するカム部材である実施態様
であり、当該調節機構は固定軸1Aと、一対の筒状の回転
カム2A、3Aと、一対の筒状の固定カム4A、5Aを主要構成
部材としている。固定軸1Aは適宜の支持部材に固定的に
支持されるもので、その中間部材外周に、第1、第2回
転カム2A、3Aが回転可能に組付けられ、かつその左右両
端部外周に第1、第2固定カム4A、5Aが回転不能に組付
けられている。第1回転カム2Aと固定カム4Aとは互いに
係脱する複数の傾斜カム面2a、4aを具備し、同様に第2
回転カム3Aと固定カム5Aとは互に係脱する複数の傾斜カ
ム面3a、5aを具備している。これら両回転カム2A、3Aの
うちの一方が本発明の第1の回転部材に該当し、かつ他
方が本発明の第2の回転部材に該当する。しかして、両
回転カム2A、3Aは互に当接して軸方向の力により対向す
る各傾斜カム面2a、4aおよび3a、5aが摩擦係合し、それ
以上の同方向への回転が規制される。この状態で両回転
カム2A、3Aのいずれか一方が矢印C方向へ回転して両回
転カム2A、3Aが離間すると、いずれか他方の回転カム2
A、3Aが矢印D方向へ回転可能となり、同方向へ回転し
つつ軸方向へ移動して一方の回転カム2A、3Aに当接す
る。これにより、両回転カム2A、3Aの矢印D方向への回
転が規制される。
Further, the second position adjusting mechanism has an inclined cam surface in which each inclined friction engagement surface of the fixed shaft is constituted by an inclined cam surface, and the rotating member is engaged with and disengaged from each of the inclined cam surfaces. In an embodiment, the adjusting member is a cam member fitted to the outer periphery of the fixed shaft, and the adjusting mechanism includes a fixed shaft 1A, a pair of cylindrical rotary cams 2A and 3A, and a pair of cylindrical fixed cams 4A and 5A. It is a main component. The fixed shaft 1A is fixedly supported by an appropriate support member, and first and second rotating cams 2A and 3A are rotatably mounted on the outer periphery of the intermediate member, and the first and second rotating cams 2A and 3A are rotatably mounted on the outer periphery of the left and right ends. First and second fixed cams 4A and 5A are non-rotatably mounted. The first rotating cam 2A and the fixed cam 4A have a plurality of inclined cam surfaces 2a, 4a which are engaged and disengaged from each other.
The rotating cam 3A and the fixed cam 5A have a plurality of inclined cam surfaces 3a, 5a which are engaged and disengaged from each other. One of the two rotating cams 2A and 3A corresponds to the first rotating member of the present invention, and the other corresponds to the second rotating member of the present invention. Thus, the rotating cams 2A and 3A abut each other, and the respective inclined cam surfaces 2a, 4a and 3a and 5a facing each other due to the axial force are frictionally engaged, and further rotation in the same direction is restricted. You. In this state, when one of the two rotating cams 2A and 3A rotates in the direction of arrow C and the two rotating cams 2A and 3A are separated from each other,
A and 3A become rotatable in the direction of arrow D, move in the axial direction while rotating in the same direction, and come into contact with one of the rotary cams 2A and 3A. This restricts the rotation of the rotary cams 2A and 3A in the direction of arrow D.

次に、第1の位置調節機構を車両用シートにおけるア
ームレストの位置調節機構として構成した例を、第6図
および第7図に基づいて説明する。アームレスト10aは
アームレストフレーム11をクッションパット12で被覆し
てなるもので、本発明の一実施例に係る位置調節機構20
を介してシートバック10bを構成するシートバックフレ
ーム13に組付けられている。
Next, an example in which the first position adjusting mechanism is configured as a position adjusting mechanism of an armrest in a vehicle seat will be described with reference to FIGS. 6 and 7. FIG. The armrest 10a is formed by covering an armrest frame 11 with a cushion pad 12, and includes a position adjusting mechanism 20 according to an embodiment of the present invention.
Through the seat back frame 13 constituting the seat back 10b.

位置調節機構20は固定軸21および一対のナット部材2
2、23を備えているとともに、トーションスプリング24
および操作部材25を備えている。固定軸21にはその外周
に右ネジ部21aと左ネジ部21bとを所定の間隔を保って直
列的に形成されていて、その内端部にてシートバックフ
レーム13に固着されて外側へ突出している。第1ナット
部材22は右ネジ用ナット部22aの一端に外向フランジ部2
2bを一体的に備えたもので、外向フランジ部22bにてア
ームレストフレーム11の内側面11aにボルト26aを介して
固着されている。第1ナット部材22は固定軸21の右ネジ
部21aに進退可能に螺合し、アームレスト10aを固定軸21
に支持している。第2ナット部材23は左ネジ用ナット部
23aの一端に環状の外向フランジ部23bを一体的に備えた
もので、ナット部23aの外周がピニオン23cに形成されて
いる。第2ナット部材23は固定軸21の左ネジ部21bに進
退可能に螺合している。
The position adjusting mechanism 20 includes a fixed shaft 21 and a pair of nut members 2.
2 and 23, and the torsion spring 24
And an operation member 25. The fixed shaft 21 is formed with a right-hand thread portion 21a and a left-hand thread portion 21b on its outer periphery in series at a predetermined interval, and is fixed to the seat back frame 13 at an inner end thereof and protrudes outward. ing. The first nut member 22 has an outward flange portion 2 at one end of a right screw nut portion 22a.
2b, which is integrally fixed to the inner side surface 11a of the armrest frame 11 via an outward flange portion 22b via a bolt 26a. The first nut member 22 is threadably engaged with the right-hand thread portion 21a of the fixed shaft 21 so that the armrest 10a is fixed to the fixed shaft 21.
I support it. The second nut member 23 is a nut part for the left screw.
An annular outward flange portion 23b is integrally provided at one end of 23a, and an outer periphery of a nut portion 23a is formed on a pinion 23c. The second nut member 23 is threadably engaged with the left threaded portion 21b of the fixed shaft 21.

この状態において、固定軸21はアームレストフレーム
11の貫通穴11bを通って他方の貫通穴11cの近傍に達して
おり、その先端側の小径部21c上にはトーションスプリ
ング24が嵌合している。このトーションスプリング24の
一端24aは固定軸21の先端にネジ止めしたプレート26bに
係止され、かつその他端24bは第2ナット部材23のナッ
ト部23aに係止されている。操作部材25は所定長さのガ
イド部25aと、その先端に設けた操作ノブ25bと、その後
端に設けたラック25cとからなり、アームレストフレー
ム11のガイド溝11dに摺動可能に挿通されている。操作
部材25の操作ノブ25bはアームレスト10aの先端に位置し
て露呈し、かつそのラック25cが第2ナット部材23のピ
ニオン23cに噛合していて、操作ノブ25bを矢印E方向へ
押動操作すると第2ナット部材23が矢印B方向へ回転す
る。なお、第2ナット部材23はトーションスプリング24
により常時矢印A方向へ付勢されている。
In this state, the fixed shaft 21 is
The torsion spring 24 fits over the small-diameter portion 21c on the distal end side through the through-hole 11b of the eleventh and reaches the vicinity of the other through-hole 11c. One end 24a of the torsion spring 24 is locked to a plate 26b screwed to the tip of the fixed shaft 21, and the other end 24b is locked to a nut portion 23a of the second nut member 23. The operation member 25 includes a guide portion 25a having a predetermined length, an operation knob 25b provided at a tip thereof, and a rack 25c provided at a rear end thereof, and is slidably inserted into the guide groove 11d of the armrest frame 11. . When the operation knob 25b of the operation member 25 is exposed at the tip of the armrest 10a, and the rack 25c is engaged with the pinion 23c of the second nut member 23, the operation knob 25b is pushed and operated in the direction of arrow E. The second nut member 23 rotates in the direction of arrow B. The second nut member 23 is a torsion spring 24
Is constantly urged in the direction of arrow A.

このように構成した位置調節機構20においては、両ナ
ット部材22、23が互いに当接していて、第1ナット部材
22の矢印A方向への回転が規制されており、アームレス
ト10aは例えば第6図の2点鎖線で示すように格納位置
にてシートバックフレーム13にロックされている。この
状態で操作ノブ25bを矢印E方向へ押動すると、第2ナ
ット部材23は矢印B方向へ回転されて第1ナット部材22
から離間する。このため、第1ナット部材22は矢印A方
向にフリーとなって離間した距離に相当するだけ矢印A
方向に回転可能となり、アームレスト10aは回転量に対
応して矢印F方向へ傾動する。この時点では、第1ナッ
ト部材22は第2ナット部材23に当接してそれ以上の矢印
A方向への回転が規制されているため、アームレスト10
aも当該傾動位置にて矢印F方向の回動をロックされ
る。この状態でさらに操作ノブ25bを矢印E方向へ押動
すると、第2ナット部材23は上記と同様に矢印B方向へ
回転し、アームレスト10aは上記と同様に更に傾動して
その傾動位置にてロックされる。本実施例において、ア
ームレスト10aは最大限第6図の実線で示す位置まで傾
動しかつロックされ、この実線および2点鎖線の傾動範
囲にて任意の傾動状態にロックされる。
In the position adjusting mechanism 20 configured as described above, the two nut members 22 and 23 are in contact with each other, and the first nut member
The rotation of the armrest 22 in the direction of arrow A is restricted, and the armrest 10a is locked to the seat back frame 13 at the storage position, for example, as shown by a two-dot chain line in FIG. When the operation knob 25b is pushed in the direction of arrow E in this state, the second nut member 23 is rotated in the direction of arrow B, and the first nut member 22 is rotated.
Separate from. For this reason, the first nut member 22 is free in the direction of arrow A and corresponds to the distance of arrow A by the distance corresponding to the distance.
The armrest 10a tilts in the direction of arrow F in accordance with the amount of rotation. At this point, since the first nut member 22 is in contact with the second nut member 23 and further rotation in the direction of arrow A is restricted, the armrest 10
a is also locked at the tilted position in the direction of arrow F. When the operation knob 25b is further pushed in the direction of arrow E in this state, the second nut member 23 rotates in the direction of arrow B as described above, and the armrest 10a further tilts in the same manner as described above and locks at the tilted position. Is done. In this embodiment, the armrest 10a is tilted and locked at the maximum to the position shown by the solid line in FIG. 6, and locked in an arbitrary tilting state within the tilting range of the solid line and the two-dot chain line.

次に、第6図の実線で示す状態にあるアームレスト10
aを2点鎖線で示す収納側へ傾動させるには、アームレ
スト10aを矢印G方向へ引き起せばよい。この場合、ア
ームレスト10aの回動に応じて第1ナット部材22が第7
図の矢印B方向へ回転して第2ナット部材23から離間
し、かつ第2ナット部材23はトーションスプリング24の
付勢力にて矢印A方向へ回転して第1ナット部材22に追
従する。このため、アームレスト10aの矢印G方向への
回動を中断すれば、第2ナット部材23が第1ナット部材
22に当接して同ナット部材22の矢印A方向への回転を規
制する。アームレスト10aを矢印G方向へ段階的に回動
させると、上記の状態を繰返して最後にアームレスト10
aは2点鎖線で示す格納位置に達する。
Next, the armrest 10 in the state shown by the solid line in FIG.
In order to tilt a to the storage side indicated by the two-dot chain line, the armrest 10a may be raised in the direction of arrow G. In this case, the first nut member 22 is moved to the seventh position in accordance with the rotation of the armrest 10a.
The second nut member 23 rotates in the direction of arrow A by the urging force of the torsion spring 24 and follows the first nut member 22 by rotating in the direction of arrow B in the figure and separating from the second nut member 23. Therefore, if the rotation of the armrest 10a in the direction of the arrow G is interrupted, the second nut member 23 becomes the first nut member.
The rotation of the nut member 22 in the direction of arrow A is restricted by contacting the nut 22. When the armrest 10a is rotated stepwise in the direction of arrow G, the above state is repeated and finally the armrest 10a is rotated.
a reaches the storage position indicated by the two-dot chain line.

このように、本実施例においてはアームレスト10aを
任意の位置に傾動させてこれを無段階にロックすること
ができるが、特に構成部材が少くて構造が簡単でありか
つ組付けが容易である。
As described above, in the present embodiment, the armrest 10a can be tilted to an arbitrary position and locked in a stepless manner. However, the number of constituent members is small, the structure is simple, and the assembling is easy.

なお、本発明に係る位置調節機構は車両用シートのア
ームレストに限らず、各種の部品、部材の位置調節機構
として実施し得る。
The position adjusting mechanism according to the present invention is not limited to the armrest of the vehicle seat, and may be implemented as a position adjusting mechanism for various parts and members.

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

第1図は本発明に係る第1の位置調節機構の実施態様を
示す斜視図、第2図は同断面図、第3図は本発明の第2
の位置調節機構の実施態様を示す斜視図、第4図は同分
解斜視図、第5図は同機構の作動を説明する概略展開
図、第6図は本発明の一実施例に係る位置調節機構にて
アームレストを組付けたシートの斜視図、第7図は同機
構の分解斜視図である。 符号の説明 1,1A……固定軸、2,3……ナット部材、2A、3A……回転
カム、4A、5A……固定カム、10a……アームレスト、11
……アームレストフレーム、20……位置調節機構、21…
…固定軸、22,23……ナット部材、24……トーションス
プリング、25……操作部材。
FIG. 1 is a perspective view showing an embodiment of a first position adjusting mechanism according to the present invention, FIG. 2 is a sectional view thereof, and FIG.
FIG. 4 is an exploded perspective view showing the embodiment of the position adjusting mechanism, FIG. 5 is a schematic exploded view for explaining the operation of the mechanism, and FIG. 6 is a position adjusting apparatus according to an embodiment of the present invention. FIG. 7 is a perspective view of a seat to which an armrest is attached by a mechanism, and FIG. 7 is an exploded perspective view of the mechanism. Description of reference numerals 1,1A …… Fixed shaft, 2,3 …… Nut member, 2A, 3A …… Rotating cam, 4A, 5A …… Fixed cam, 10a …… Armrest, 11
…… Armrest frame, 20 …… Position adjustment mechanism, 21…
... fixed shaft, 22, 23 ... nut member, 24 ... torsion spring, 25 ... operating member.

Claims (3)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】軸線に対して互に反する方向に傾斜する左
右の傾斜摩擦係合面を外周に間隔を保って具備し支持部
材に固定的に支持される固定軸と、前記両傾斜摩擦係合
面のいずれか一方に係脱する傾斜摩擦係合面を具備し前
記固定軸の外周に回転可能に組付けられるとともに被調
節部材に固定される第1の回転部材と、前記両傾斜摩擦
係合面のいずれか他方に係脱する傾斜摩擦係合面を具備
し前記固定軸の外周に回転可能に組付けられるとともに
外部操作により回転する第2の回転部材を備え、これら
両回転部材が相対回転により互に当接、離間し、当接時
その軸方向の力により互に対向する前記各傾斜摩擦係合
面が摩擦係合される位置調節機構。
A fixed shaft fixedly supported by a support member and having left and right inclined friction engagement surfaces inclined in directions opposite to each other with respect to an axis on an outer periphery thereof; A first rotating member having an inclined friction engagement surface engaged and disengaged on one of the mating surfaces and rotatably mounted on the outer periphery of the fixed shaft and fixed to an adjustable member; A second rotating member is provided rotatably mounted on the outer periphery of the fixed shaft and having an inclined friction engagement surface engaged and disengaged with one of the mating surfaces, and is rotated by an external operation. A position adjusting mechanism which is brought into contact with and separated from each other by rotation, and at the time of contact, the inclined friction engagement surfaces facing each other are frictionally engaged by an axial force.
【請求項2】前記固定軸が具備する一方の傾斜摩擦係合
面が右ネジ部にて構成されるとともに他方の傾斜摩擦係
合面が左ネジ部にて構成され、かつ前記各回転部材が前
記各ネジ部に進退可能に螺合するナット部材である特許
請求の範囲第1項に記載の位置調節機構。
2. The fixed shaft has one inclined frictional engagement surface formed by a right-hand thread portion, the other inclined frictional engagement surface constituted by a left-hand thread portion, and each of the rotating members is The position adjusting mechanism according to claim 1, wherein the nut is a nut member that is screwably engaged with each of the screw portions.
【請求項3】前記固定軸が具備する各傾斜摩擦係合面が
傾斜カム面にて構成され、かつ前記回転部材が前記各傾
斜カム面に係脱する傾斜カム面を具備し前記固定軸の外
周に嵌合するカム部材である特許請求の範囲第1項に記
載の位置調節機構。
3. The fixed shaft is provided with each inclined friction engagement surface formed by an inclined cam surface, and the rotating member is provided with an inclined cam surface which engages with and disengages from each of the inclined cam surfaces. 2. The position adjusting mechanism according to claim 1, wherein the position adjusting mechanism is a cam member fitted to an outer periphery.
JP62319634A 1987-04-02 1987-12-17 Position adjustment mechanism Expired - Lifetime JP2659201B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP62319634A JP2659201B2 (en) 1987-04-02 1987-12-17 Position adjustment mechanism

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
JP8188787 1987-04-02
JP62-81887 1987-04-02
JP62319634A JP2659201B2 (en) 1987-04-02 1987-12-17 Position adjustment mechanism

Publications (2)

Publication Number Publication Date
JPS6440756A JPS6440756A (en) 1989-02-13
JP2659201B2 true JP2659201B2 (en) 1997-09-30

Family

ID=26422871

Family Applications (1)

Application Number Title Priority Date Filing Date
JP62319634A Expired - Lifetime JP2659201B2 (en) 1987-04-02 1987-12-17 Position adjustment mechanism

Country Status (1)

Country Link
JP (1) JP2659201B2 (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP5309948B2 (en) * 2008-12-12 2013-10-09 日本精工株式会社 Manufacturing method of screw shaft for right and left coaxial ball screw
WO2012033129A1 (en) * 2010-09-11 2012-03-15 Takano Masaaki Screw movable member

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5433346A (en) * 1977-08-20 1979-03-12 Chikura Kougiyou Kk Automatic door

Also Published As

Publication number Publication date
JPS6440756A (en) 1989-02-13

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