JPS6037853Y2 - Automotive outer mirror angle adjustment device - Google Patents
Automotive outer mirror angle adjustment deviceInfo
- Publication number
- JPS6037853Y2 JPS6037853Y2 JP14505279U JP14505279U JPS6037853Y2 JP S6037853 Y2 JPS6037853 Y2 JP S6037853Y2 JP 14505279 U JP14505279 U JP 14505279U JP 14505279 U JP14505279 U JP 14505279U JP S6037853 Y2 JPS6037853 Y2 JP S6037853Y2
- Authority
- JP
- Japan
- Prior art keywords
- mirror
- casing
- pull operation
- push
- operation shaft
- 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
Landscapes
- Optical Elements Other Than Lenses (AREA)
- Rear-View Mirror Devices That Are Mounted On The Exterior Of The Vehicle (AREA)
Description
【考案の詳細な説明】
本考案は自動車のフェンダ−ミラーやドアーミラー等の
所謂アウターミラーの角度調整を車内より遠隔操作で行
うための装置に関する。[Detailed Description of the Invention] The present invention relates to a device for remotely controlling the angle of so-called outer mirrors such as fender mirrors and door mirrors of automobiles from inside the vehicle.
この種の装置は、当初ミラーをワイヤーを介して引っ張
ることによりその角度調整を行うワイヤ一方式が採用さ
れていたが、その後、ミラーケース内のミラーの背面に
駆動モータ並びに動力伝達部材を収納し、電気的にその
角度調整を行う電動方式が提供され種々の改良がなされ
てきている。Initially, this type of device used a wire-only system in which the angle was adjusted by pulling the mirror through a wire, but later the drive motor and power transmission member were housed on the back of the mirror inside the mirror case. An electric method for electrically adjusting the angle has been provided, and various improvements have been made.
上記電動式装置にも種々の形式のものがあるが、一般的
は次のような構造になっている。Although there are various types of the above-mentioned electric devices, the general structure is as follows.
すなわち、ミラーケースの所定箇所又は該ミラーケース
内に収納されたミラー角度調整装置のケーシングの外面
の所定箇所にミラーの略中央部をユニバーサルジヨイン
ト方式で回動自在に連結スるとともに、ミラー背面の上
記連結部の上下いずれか一方にミラーを上下方向に傾動
させるための1つのミラー押引操作軸の一端を、また、
左右いずれか一方にミラーを左右方向に傾動させるため
の1つのミラー押引操作軸の一端を夫々ユニバーサルジ
ヨイント方式で連結する一方、それらの各他端側を上記
ケーシング内に該ケーシングに穿孔した挿入孔を通して
導入している。That is, the approximate center of the mirror is rotatably connected to a predetermined location on the mirror case or a predetermined location on the outer surface of the casing of the mirror angle adjustment device housed in the mirror case using a universal joint method, and the rear surface of the mirror is One end of one mirror push/pull operation shaft for tilting the mirror in the vertical direction either above or below the connecting portion of the
One end of one mirror push/pull operation shaft for tilting the mirror in the left or right direction is connected by a universal joint method, and each of the other ends is bored in the casing. It is introduced through the insertion hole.
そして、ケーシング内に可逆モータやその動力を上記各
ミラー押引操作軸の他端側に伝達する伝達部材よりなる
駆動機構を収納し、該駆動機構を駆動することによって
、上記各ミラー押引操作軸をその軸心方向に移動せしめ
、ミラーを傾動させるようになっている。A drive mechanism including a reversible motor and a transmission member for transmitting its power to the other end side of each of the mirror push/pull operation shafts is housed in the casing, and by driving the drive mechanism, each of the mirror push/pull operations is performed. The mirror is tilted by moving the shaft in the direction of its axis.
ところで、自動車のアウターミラー並びにその角度調整
装置は車外に設置されるものであるため、この装置のケ
ーシングは外部に対して密封されるニーとが必要である
。By the way, since an automobile outer mirror and its angle adjustment device are installed outside the vehicle, the casing of this device needs to be sealed against the outside.
ところが、上記の如く、ミラー押引操作軸がケーシング
の外部にその挿入孔を通って突出していると、水分や塵
芥が該挿入孔を通ってケーシングの内部に侵入する。However, as described above, when the mirror push/pull operation shaft protrudes to the outside of the casing through the insertion hole, moisture and dirt enter the inside of the casing through the insertion hole.
したがって、従来、上記挿入孔を塞ぐため、装置全体を
ビニール袋で覆うか、あるいは、蛇腹構造のブーツをミ
ラー押引操作軸の外部突出部分にはかせるとともに、該
ブーツの周端を挿入孔の外周に固定する等の方法が採用
されているが、いずれの方法も、組付は作業性が悪く、
コスト高の原因になっていた。Therefore, conventionally, in order to block the insertion hole, the entire device is covered with a plastic bag, or a bellows-shaped boot is placed on the externally protruding portion of the mirror push/pull operation shaft, and the peripheral end of the boot is inserted into the insertion hole. Methods such as fixing it to the outer periphery have been adopted, but all methods have poor assembly workability.
This was a cause of high costs.
本考案は、上記従来の事情に鑑みてなしたもので、ケー
シングの上記挿入孔の密封性に優れるとともに、組付け
が容易で安価に提供できるシール部材を有する自動車の
アウターミラーの角度調整装置を提供するものである。The present invention has been made in view of the above-mentioned conventional circumstances, and provides an angle adjustment device for an outer mirror of an automobile, which has a sealing member that has excellent sealing properties for the insertion hole of the casing, is easy to assemble, and can be provided at low cost. This is what we provide.
以下に、本考案を図示の実施例について具体的に説明す
る。The present invention will be specifically described below with reference to the illustrated embodiments.
尚、本考案は、駆動機構が1モータ・1電極ソレノイド
方式であるものにも適用できるが、本実施例は2モ一タ
方式であるものに適用した例を示している。Although the present invention can be applied to a drive mechanism having a one-motor/one-electrode solenoid type, this embodiment shows an example in which it is applied to a drive mechanism having a two-motor type.
この装置は、図示しないミラーケース内のミラー1の背
面に収納され、そのケーシング2がミラーケース内に固
定される。This device is housed on the back side of a mirror 1 within a mirror case (not shown), and the casing 2 is fixed within the mirror case.
このケーシング2は下ケーシング2aに上ケーシング2
bを被せてなる。This casing 2 has a lower casing 2a and an upper casing 2.
It is covered with b.
下ケーシング2aの底部略中央部分とミラー背面略中央
部分とは互いに回動自在にユニバーサルジヨイント方式
で連結してい。The substantially central portion of the bottom of the lower casing 2a and the substantially central portion of the rear surface of the mirror are rotatably connected to each other by a universal joint.
すなわち、ミラ一本体1bを前面に保持したミラーカバ
ー1aは、その中央部分に孔1gを有し、該孔1gの周
囲に背面側に突出する筒体1cを有し、また、該筒体1
cの内部に上下左右計4本のロッド1eで連結した球体
1dを有している。That is, the mirror cover 1a holding the mirror main body 1b on the front side has a hole 1g in the center thereof, and has a cylindrical body 1c protruding toward the back side around the hole 1g.
Inside c, there is a sphere 1d connected by a total of four rods 1e on the upper, lower, left and right sides.
一方、下ケーシング2aの略中央部分には、上記球体1
dが嵌合する球状内面2eと上記各ロッド1eが嵌合す
るスリット2dを有する軸受部2cを設けている。On the other hand, the sphere 1 is located approximately in the center of the lower casing 2a.
A bearing portion 2c is provided, which has a spherical inner surface 2e into which the rods d fit and slits 2d into which the rods 1e fit.
しかして、ミラー側の球体1d並びにロッド1eはケー
シング側の軸受部2cの球状内面2e並びにスリット2
dに夫々嵌合せしめられ、ミラー1はケーシング2に対
して上下方向並びに左右方向に傾動自在となる。Therefore, the sphere 1d and rod 1e on the mirror side are connected to the spherical inner surface 2e of the bearing part 2c on the casing side and the slit 2.
d, and the mirror 1 can be tilted vertically and horizontally with respect to the casing 2.
ミラーカバー1aの上記球体1dの下方並びに右方には
夫々、例えば、ウレタンゴム、天然ゴム、シリコンゴム
等の弾性材料で形成した同一形状のミラー押引操作軸3
a、3bの一端を連結する一方、他端側を下ケーシング
2aの底部に設けた各挿入孔2dよりケーシング2内に
導入している。Below and to the right of the sphere 1d of the mirror cover 1a are mirror push/pull operation shafts 3 of the same shape made of an elastic material such as urethane rubber, natural rubber, silicone rubber, etc.
A and 3b are connected at one end, while the other end is introduced into the casing 2 through each insertion hole 2d provided at the bottom of the lower casing 2a.
各ミラー押引操作軸3a、3bは、その自由端側に外周
面を平滑に形成した丸棒状部3cを、またその連結端側
に四角片状ストッパ一部3eとそれらの間に可撓性に富
んだ細首部3dを形成してなる。Each of the mirror push/pull operation shafts 3a, 3b has a round bar-shaped part 3c with a smooth outer peripheral surface formed on its free end side, and a square piece-shaped stopper part 3e on its connecting end side, and a flexible piece between them. A narrow neck portion 3d rich in color is formed.
一方、ミラーカバー1aの球体1dの下方並びに右方に
は夫々、孔1hを有する四角状段部IL1iを形成して
いる。On the other hand, a square stepped portion IL1i having a hole 1h is formed below and to the right of the sphere 1d of the mirror cover 1a.
しかして、上記各ミラー押引操作部材3a、3bは、ミ
ラーカバー1aにミラ一本体1bが固定される前におい
て、ミラーカバー1aの前方側から各段部1f、11の
孔1h内に挿入されてその丸棒状部3C並びに細首部3
dが背面側に突出せしめられそのストッパ一部3eが段
部1f、liの窪みに圧入・接着される。Therefore, the mirror push/pull operation members 3a, 3b are inserted into the holes 1h of the stepped portions 1f, 11 from the front side of the mirror cover 1a before the mirror main body 1b is fixed to the mirror cover 1a. The round rod-shaped part 3C and the narrow neck part 3 of the lever
d is made to protrude to the back side, and a stopper portion 3e thereof is press-fitted and glued into the recess of the step portions 1f and li.
ケーシング2内に導入された各ミラー押引操作軸3a、
3bの丸棒状部3cの外周には夫々、シール部材9a、
9bおよび回転筒4a、4bを外嵌している。Each mirror push/pull operation shaft 3a introduced into the casing 2,
Seal members 9a,
9b and rotating cylinders 4a and 4b are fitted onto the outside.
この各回転筒4a、4bは夫々、上記各ミラー押引操作
軸3a、3bの材質より硬い合成樹脂よりなるものであ
って、各ミラー押引操作軸3a、3bの丸棒状部3cの
外周面に若干喰い込む内周ねじ4cを備える一方、その
外周に歯車4dを備えている。Each of the rotating cylinders 4a, 4b is made of a synthetic resin that is harder than the material of the mirror push/pull operation shafts 3a, 3b, and the outer peripheral surface of the round bar-shaped portion 3c of each mirror push/pull operation shaft 3a, 3b. It is provided with an inner circumferential screw 4c that slightly bites in, and a gear 4d on its outer circumference.
そしてまた、各回転筒は下ケーシング2aの支持壁2e
と上ケーシング2bの支持壁2fとで回転可かつ軸心方
向移動不可に支持されている。Also, each rotary cylinder has a support wall 2e of the lower casing 2a.
It is rotatably but immovably supported in the axial direction by the support wall 2f of the upper casing 2b.
また、上記各シール部材9a、6bは弾性材料、特に繊
維組織のフェルトや気泡組織の発泡体で構成しており、
その全体形状は偏平なディスク状であって、その中央部
に、ミラー押引操作軸3at3bの丸棒状部3cが圧入
される円孔9cを有している。Further, each of the sealing members 9a and 6b is made of an elastic material, in particular, fibrous felt or cellular foam.
Its overall shape is a flat disk shape, and has a circular hole 9c in the center thereof into which the round bar-shaped portion 3c of the mirror push/pull operation shaft 3at3b is press-fitted.
この各シール部材9a、9bは夫々1、前記したように
、各ミラー押引操作軸3at3bに外嵌されるとともに
、その片面周囲が下ケーシング2aの内面における挿入
孔2dの周囲に密接する一方、その他面周囲が各回転筒
4at4bの片端面に密接している。Each of the sealing members 9a and 9b is fitted onto the mirror push/pull operation shaft 3at3b as described above, and one side of the sealing member 9a and 9b is in close contact with the insertion hole 2d on the inner surface of the lower casing 2a. The periphery of the other surface is in close contact with one end surface of each rotary cylinder 4at4b.
上記各シール部材9a、9bの解放状態における寸法構
成は、その厚み寸法ちが下ケーシング2aの底壁内面と
回転筒4a、4bの対向端面との離隔寸法路より大で、
かつ、その円孔9cの直径寸法らが各ミラー押引操作軸
3a、3bの丸棒状部3cの直径寸法d1より小である
ようにしている。The dimensional configuration of each of the seal members 9a, 9b in the released state is such that the thickness is larger than the distance between the inner surface of the bottom wall of the lower casing 2a and the opposing end surfaces of the rotary cylinders 4a, 4b;
Further, the diameter of the circular hole 9c is smaller than the diameter d1 of the round bar-shaped portion 3c of each mirror push/pull operation shaft 3a, 3b.
したがって各シール部材9a、9bは夫々ケーシング2
で圧縮された状態で収納され、挿入孔2dを完全に塞い
でいる。Therefore, each seal member 9a, 9b is connected to the casing 2, respectively.
It is stored in a compressed state, completely blocking the insertion hole 2d.
尤も、各ミラー押引操作軸3a、3bは各シール部材9
a、9bの内周面に密接しながら十分摺動することがで
きる。Of course, each mirror push/pull operation shaft 3a, 3b is connected to each seal member 9.
It is possible to sufficiently slide on the inner circumferential surfaces of a and 9b while being in close contact with them.
上記シール部材9a、9bには予め潤滑油を含浸せしめ
ておくことが好ましい。It is preferable that the seal members 9a and 9b be impregnated with lubricating oil in advance.
このようにすれば、挿入孔2dの外部からの水や塵芥の
侵入をより効果的に防止できるのみならず、該潤滑油が
その表面張力でミラー押引操作軸3a、3bの丸棒状部
3cの全外周面に行き渡り、その結果各回転筒4a、4
bの各丸棒状部4cに対する回転が円滑になるとともに
、該丸棒状部4cの各シール部材9a、9bの内周面に
対する摺動も円滑になる。In this way, not only can water and dust be more effectively prevented from entering from the outside of the insertion hole 2d, but also the surface tension of the lubricating oil can cause the round rod-shaped portions 3c of the mirror push/pull operation shafts 3a, 3b to As a result, each rotary cylinder 4a, 4
The rotation of the round rod portions 4c relative to the round rod portions 4c becomes smooth, and the sliding movement of the round rod portions 4c relative to the inner circumferential surfaces of the seal members 9a and 9b also becomes smooth.
上記各回転筒4a、4bは夫々、ケーシング2内に収納
した同一構造の駆動機構で回転駆動されるようになって
いる。Each of the rotating tubes 4a and 4b is rotatably driven by a drive mechanism of the same structure housed within the casing 2, respectively.
すなわち、各駆動機構は、可逆モータ7a又は7b、各
モータ7a、7bの出力軸の外周に固定した歯車8a又
は8b、該各歯車8a、8bと噛み合う歯車6a又は6
b、該各歯車6a、6bと同軸でかつ上記各回転筒4a
t4bの歯車4dと噛み合うウオーム5a又は5bより
なっている。That is, each drive mechanism includes a reversible motor 7a or 7b, a gear 8a or 8b fixed to the outer periphery of the output shaft of each motor 7a or 7b, and a gear 6a or 6 that meshes with each gear 8a or 8b.
b, coaxial with each of the gears 6a, 6b and each of the rotating cylinders 4a;
It consists of a worm 5a or 5b that meshes with the gear 4d of t4b.
尚、上記各モータ7a、7bの駆動の選択並びにそれら
の出力軸の回転方向の切換は車内に装着した図示しない
スイッチにより遠隔操作できるようになっている。Incidentally, the selection of the drive of each of the motors 7a, 7b and the switching of the rotational direction of their output shafts can be remotely controlled by a switch (not shown) mounted inside the vehicle.
上記構造の本装置によれば、スイッチ操作により何れか
一方のモータ7a、7bを駆動すると、一連の伝達部材
8a、6a、5a又は8b、6b、5bを介して回転筒
4a又は4bが回転せしめられる。According to this device having the above structure, when one of the motors 7a, 7b is driven by a switch operation, the rotary cylinder 4a or 4b is rotated via a series of transmission members 8a, 6a, 5a or 8b, 6b, 5b. It will be done.
そうすれば、回転軸4a、4bの内周ねじ4cはミラー
押引操作軸3a又は3bの丸棒状部3cの外周面にねじ
を切りながら回転し、その結果、ミラー押引操作軸3a
又は3bはその軸心方向に移動し、ミラー1を球体1d
を中心として上下方向又は左右方向に傾動する。Then, the inner circumferential screws 4c of the rotating shafts 4a and 4b rotate while cutting a thread on the outer circumferential surface of the round bar-shaped portion 3c of the mirror push-pull operation shaft 3a or 3b, and as a result, the mirror push-pull operation shaft 3a
Or 3b moves in the direction of its axis, and mirror 1 becomes sphere 1d.
Tilts vertically or horizontally around .
各ミラー押引操作軸3a、3bの丸棒状部3cに切られ
たねじは、その弾性によって直ちに元の状態に復帰し得
る。The screws cut into the round rod-shaped portions 3c of each mirror push/pull operation shaft 3a, 3b can immediately return to their original state due to their elasticity.
各ミラー押引操作軸3a、3bの移動によって、ミラー
1が、第5図に示すように傾動して軸心に対して非直角
となった場合には、細首部3dが容易に撓むので無理な
応力の発生が防がれる。When the mirror 1 tilts and becomes non-perpendicular to the axis as shown in FIG. 5 due to the movement of each mirror push/pull operation shaft 3a, 3b, the narrow neck portion 3d easily bends. Unreasonable stress is prevented from occurring.
ミラー1を手動で操作する場合に、ミラー1の上下左右
いずれか所望の部分を強制的に押し込めば、ミラー押引
操作軸3a又は3bの丸棒状部3Cは、その外周面が平
滑面となっているとともに弾力性があるので回転筒4a
又は4bのねじ4dに対して極めて容易に摺動すること
ができる。When manually operating the mirror 1, if you forcibly push in any desired portion of the mirror 1, either the top, bottom, left or right, the round bar-shaped portion 3C of the mirror push/pull operation shaft 3a or 3b will have a smooth outer peripheral surface. The rotary cylinder 4a has elasticity as well as
Alternatively, it can slide very easily on the screw 4d of 4b.
特に各シール部材9a、9bに潤滑油を含浸せしめてお
けばその摺動は極めて円滑となる。In particular, if each of the seal members 9a and 9b is impregnated with lubricating oil, their sliding will be extremely smooth.
この場合、手による押し込み力は比較的小さいのみなら
ず、無段階的に押し込むことができ、その上雑音がほと
んど出ないという利点がある。In this case, the manual pushing force is not only relatively small, but also has the advantage that it can be pushed steplessly, and there is almost no noise.
また、ミラー押引操作軸3a、3bは弾性材で構成され
ているので、該軸とミラー背面の連結構造が極めてシン
プルで製作容易である。Further, since the mirror push/pull operation shafts 3a and 3b are made of an elastic material, the connection structure between the shafts and the rear surface of the mirror is extremely simple and easy to manufacture.
上記実施例では、ミラー押引操作軸3a、3bを回転筒
4a、4bを介して駆動機構で駆動するようにしている
が、本考案はこの構造に限るものでなく、例えば上記回
転筒4a、4bに代えて、ミラー押引操作軸3a、3b
を挾んで送り移動させるピンチローラを用い、駆動機構
によりこのビンチーローラを回転せしめるようにしても
よい。In the above embodiment, the mirror push/pull operation shafts 3a, 3b are driven by a drive mechanism via the rotary tubes 4a, 4b, but the present invention is not limited to this structure; for example, the rotary tubes 4a, 4b, 4b, mirror push/pull operation shafts 3a, 3b
It is also possible to use a pinch roller that pinches and moves the Binchy roller, and to rotate this Binchy roller by a drive mechanism.
また、ミラー押引操作軸3a、3bは1、ゴム等の弾性
材料に限定されるものではなく、他の硬質の合成樹脂で
製作してもよい。Further, the mirror push/pull operation shafts 3a and 3b are not limited to being made of an elastic material such as rubber, but may be made of other hard synthetic resin.
以上の具体的説明から明らかなように、本考案によれば
、ケーシング内において、ミラー押引操作軸に外嵌され
る弾性シール部材によってミラー押引操作軸が挿入され
るケーシングの挿入孔を内側より密封するようにしてい
るので、外部の水や塵芥の侵入を完全に防止できるとと
もに、上記シール部材は偏平でミラー押引操作軸貫通用
孔を有するという簡単な構成であって打抜加工で簡単に
加工でき、極めて安価に提供でき、さらに組付性が非常
に良いとともに、構造的に引張曲げ繰り返しを伴う部分
がないため割れ等が発出しにくく耐久性に優れている。As is clear from the above specific explanation, according to the present invention, the insertion hole of the casing into which the mirror push/pull operation shaft is inserted is connected inside the casing by an elastic sealing member fitted externally to the mirror push/pull operation shaft. Since it is designed to be more tightly sealed, the intrusion of outside water and dust can be completely prevented, and the seal member has a simple structure of being flat and having a hole for passing through the mirror push/pull operation shaft, and can be punched. It is easy to process, can be provided at an extremely low cost, has excellent assembly properties, and has no structural parts that require repeated tension and bending, so it is less prone to cracking and has excellent durability.
また、本考案によれば、シール部材は繊維組織又は気泡
組織で構成してその中に油を含浸させているので、ケー
シングの挿入孔の外部からの水や塵芥の侵入をより効果
的に防止できるのみならず、該潤滑油がミラー押引操作
軸の全外周面に行き渡ることによって、回転筒のミラー
押引操作軸に対する回転が円滑になるとともに、ミラー
押引操作軸のシール部材に対する摺動も円滑となる。Furthermore, according to the present invention, the sealing member is made of fibrous tissue or cellular tissue and is impregnated with oil, which more effectively prevents water and dust from entering from outside the insertion hole of the casing. Not only that, but the lubricating oil spreads over the entire outer circumferential surface of the mirror push/pull operation shaft, so that the rotation of the rotary tube relative to the mirror push/pull operation shaft becomes smooth, and the sliding of the mirror push/pull operation shaft against the sealing member is prevented. It also becomes smoother.
さらに1、この潤滑油はシール部材の低温硬化を防止す
る効果もある。Furthermore, this lubricating oil also has the effect of preventing the seal member from hardening at low temperatures.
図面は本考案の実施例を示し、第1図はミラー背面に本
装置を取り付けた状態を上ケーシングを外して示す背面
図、第2図は第1図の■−■線断面図、第3図は第1図
の一部を示す分解斜視図、第4図はシール部材並びにそ
の近傍を示す要部拡大断面図、第5図はミラー押引操作
軸に対しミラーが傾動したときの状態を示す要部断面図
である。
1・・・・・・ミラー、2・・・・・・ケーシング、3
a、3b・・・・・・ミラー押引操作軸、9a、9b・
・・・・・シール部材。The drawings show an embodiment of the present invention; Fig. 1 is a rear view showing the device attached to the back of the mirror with the upper casing removed; Fig. 2 is a sectional view taken along the line ■-■ of Fig. 1; The figure is an exploded perspective view showing a part of Fig. 1, Fig. 4 is an enlarged sectional view of the main part showing the sealing member and its vicinity, and Fig. 5 shows the state when the mirror is tilted with respect to the mirror push/pull operation axis. FIG. 1...Mirror, 2...Casing, 3
a, 3b... Mirror push/pull operation shaft, 9a, 9b.
... Seal member.
Claims (2)
収納されたミラー角度調整装置のケーシングの外面の所
定箇所にミラーの背面の略中央部を回動自在に連結する
とともに、ミラー背面の上記中央連結部の上いずれか一
方および左右いずれか一方に夫々、ミラー押引操作軸の
一端を連結する一方、その他端側を上記ケーシング内に
該ケーシングに穿孔した挿入孔を通して導入し、さらに
該ケーシング内に、上記各ミラー押引操作軸の他端側に
作用した該各ミラー押引操作軸を軸心方向に移動させる
駆動機構を収納してなる自動車のアウターミラーの角度
調整装置において、 偏平状でかつミラー押引操作軸貫通用孔を有する弾性シ
ール部材を、上記ケーシング内で、上記各ミラー押引操
作軸に外嵌するとともにその片側面周囲を上記ケーシン
グ内面の上記挿入孔周囲に密接せしめて固定し、かつ上
記弾性シール部材を繊維組織又は気泡組織で構成すると
ともに油を含浸したことを特徴とする自動車のアウター
ミラーの角度調整装置。(1) A substantially central portion of the back surface of the mirror is rotatably connected to a predetermined location on the mirror case or a predetermined location on the outer surface of the casing of the mirror angle adjustment device housed in the mirror case; One end of the mirror push/pull operation shaft is connected to either the upper or right side of the connecting part, and the other end is introduced into the casing through the insertion hole drilled in the casing, and then inserted into the casing. In the angle adjusting device for an outer mirror of an automobile, which houses a drive mechanism for moving each of the mirror push/pull operation shafts acting on the other end side of each mirror push/pull operation shaft in the axial direction, the angle adjustment device has a flat shape. and an elastic seal member having a mirror push/pull operation shaft penetration hole is fitted around each of the mirror push/pull operation shafts within the casing, and the periphery of one side thereof is brought into close contact with the periphery of the insertion hole on the inner surface of the casing. 1. An angle adjustment device for an outer mirror of an automobile, wherein the elastic sealing member is fixed and is made of a fibrous structure or a cell structure and is impregnated with oil.
アウターミラーの角度調整装置において、上記ミラー押
引操作軸はゴム等の弾性材料で構成されたことを特徴と
するもの。(2) Utility Model Registration Scope of Claim 1: The angle adjusting device for an outer mirror of an automobile, characterized in that the mirror push/pull operation shaft is made of an elastic material such as rubber.
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP14505279U JPS6037853Y2 (en) | 1979-10-19 | 1979-10-19 | Automotive outer mirror angle adjustment device |
US06/192,599 US4362362A (en) | 1979-10-17 | 1980-09-30 | Electric remote control rearview mirror |
DE19803039343 DE3039343A1 (en) | 1979-10-17 | 1980-10-17 | ELECTRICALLY REMOTE CONTROLLED REAR MIRROR ARRANGEMENT |
US06/381,006 US4477150A (en) | 1979-10-17 | 1982-05-21 | Electric remote control rearview mirror |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP14505279U JPS6037853Y2 (en) | 1979-10-19 | 1979-10-19 | Automotive outer mirror angle adjustment device |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS5662246U JPS5662246U (en) | 1981-05-26 |
JPS6037853Y2 true JPS6037853Y2 (en) | 1985-11-12 |
Family
ID=29376229
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP14505279U Expired JPS6037853Y2 (en) | 1979-10-17 | 1979-10-19 | Automotive outer mirror angle adjustment device |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS6037853Y2 (en) |
-
1979
- 1979-10-19 JP JP14505279U patent/JPS6037853Y2/en not_active Expired
Also Published As
Publication number | Publication date |
---|---|
JPS5662246U (en) | 1981-05-26 |
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