JP2009270706A - Converting mechanism of reciprocation and rotating movement in kinetic energy - Google Patents
Converting mechanism of reciprocation and rotating movement in kinetic energy Download PDFInfo
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- JP2009270706A JP2009270706A JP2008148622A JP2008148622A JP2009270706A JP 2009270706 A JP2009270706 A JP 2009270706A JP 2008148622 A JP2008148622 A JP 2008148622A JP 2008148622 A JP2008148622 A JP 2008148622A JP 2009270706 A JP2009270706 A JP 2009270706A
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- reciprocating
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Abstract
Description
この発明は、あらゆる分野で広く使用されてきた往復運動から回転運動に、また回転運動から往復運動へのエネルギー変換を、より効率的にできるように改善した変換機構に関するものである。The present invention relates to a conversion mechanism improved so that energy conversion from reciprocating motion to rotary motion and from rotary motion to reciprocating motion, which have been widely used in various fields, can be performed more efficiently.
従来より内燃機関によるレシプロエンジン、自転車のペダルをこぐ方法等に見られるように多くの機構が、クランク方式あるいはそれに類似した変換方法であった。Conventionally, as seen in a reciprocating engine by an internal combustion engine, a method of pedaling a bicycle, etc., many mechanisms have been a crank system or a conversion method similar thereto.
従来の変換方法には次のような欠点があった。
往復運動から回転運動またその逆の変換時に、力学的に多くにエネルギーが無駄に消費されていた。
本発明はその欠点を解決し、より効率的にエネルギー変換ができる機構である。The conventional conversion method has the following drawbacks.
When converting from reciprocating motion to rotating motion and vice versa, much energy was wasted mechanically.
The present invention solves the drawbacks and is a mechanism that can perform energy conversion more efficiently.
往復運動体が移動した距離及び力を回転体に伝達する、またその逆の伝達をするときに、いかに無駄なく出来るかを追求した発明で、具体的な構造は図面を使って説明する。
往復運動体1の内側部分と回転体2の一部がしっかりと接触し、往復運動体1が往復運動すると回転体2はそれに応じて一定方向に回転する構造となっている。
往復運動体1の内側は、例えば歯車状や自転車のチェーンのような形として、回転体2はそれとしっかり噛み合う形状とする。
回転体2は固定軸であるが、往復運動体1は上下方向や横方向に往復運動をするので、その軌道を制御する必要があり、そのための補助機構3が必要である。
補助機構3は、例えば図1のような形のものを、2個使用して機器本体に固定する。この図では往復運動体1にガイド棒4が2本固定されて、それが補助機構のエンドレスのガイド溝5に入っており、往復運動体1はこのガイド溝5にガイドされて往復運動をすることになる。
ガイド棒4が補助機構のガイド溝5から、はずれない構造とする。例えば図3のような構造。
往復運動体1は補助機構のガイド溝5に沿った往復運動をすることになる。
往復運動体が1往復したときの動きは、図4のようになる。
本発明は、以上のような構造の変換機構である。A specific structure will be described with reference to the drawings, in which the distance and force moved by the reciprocating body are transmitted to the rotating body and vice versa.
The inner part of the reciprocating body 1 and a part of the rotating body 2 are in firm contact, and when the reciprocating body 1 reciprocates, the rotating body 2 rotates in a certain direction accordingly.
The inside of the reciprocating body 1 is shaped like, for example, a gear or a bicycle chain, and the rotating body 2 is shaped so as to mesh with it.
Although the rotating body 2 is a fixed shaft, the reciprocating body 1 reciprocates in the vertical direction and the lateral direction, so it is necessary to control its trajectory, and an auxiliary mechanism 3 for that purpose is required.
For example, two auxiliary mechanisms 3 as shown in FIG. 1 are used and fixed to the apparatus body. In this figure, two guide rods 4 are fixed to the reciprocating body 1 and it is in the endless guide groove 5 of the auxiliary mechanism. The reciprocating body 1 is guided by the guide groove 5 and reciprocates. It will be.
The guide rod 4 is structured not to be detached from the guide groove 5 of the auxiliary mechanism. For example, a structure as shown in FIG.
The reciprocating body 1 reciprocates along the guide groove 5 of the auxiliary mechanism.
The movement when the reciprocating body reciprocates once is as shown in FIG.
The present invention is a conversion mechanism having the above structure.
往復運動と回転運動の変換機構を使用している機械器具類は、より効率的に変換出来るようになる。また消エネ対策にもなる。Mechanical instruments using a reciprocating motion and rotational motion conversion mechanism can be converted more efficiently. It is also a measure against energy consumption.
自転車に本発明の変換機構を使用した場合、両側のペダル部分に本機構を取付けて、ペダルを直線的に交互に踏むようにする。これにより今までより軽い力で走行できるようになる。
また、よりスピードを上げた走行、より長距離の走行等もできる。When the conversion mechanism of the present invention is used for a bicycle, the mechanism is attached to the pedal portions on both sides so that the pedals are alternately stepped on linearly. This makes it possible to run with lighter power than before.
In addition, it is possible to travel at a higher speed, travel a longer distance, and the like.
1 往復運動体
2 回転体
3 補助機構
4 ガイド棒
5 補助機構のガイド溝1 Reciprocating body 2 Rotating body 3 Auxiliary mechanism 4 Guide rod 5 Guide groove of auxiliary mechanism
Claims (1)
(ロ)往復運動体1と回転体2の接触部分は、滑り等による変換ロスがでない構造とする。
(ハ)往復運動体1が軌道がずれることなく回転体2のまわりを、往復運動ができるようにするために往復運動体1の軌道を制御する補助機構3を設ける。
以上の構成による往復運動から回転運動へ、また回転運動から往復運動へのエネルギーの変換を効率的に行う変換機構である。(B) The structure in which the inner side of the reciprocating body 1 is endless, and the rotating body 2 is always in contact therewith, and the revolving body 2 rotates in a certain direction when the reciprocating body 1 reciprocates. To do.
(B) The contact portion between the reciprocating body 1 and the rotating body 2 has a structure in which there is no conversion loss due to slipping or the like.
(C) An auxiliary mechanism 3 for controlling the trajectory of the reciprocating body 1 is provided so that the reciprocating body 1 can reciprocate around the rotating body 2 without the trajectory shifting.
This is a conversion mechanism that efficiently converts energy from reciprocating motion to rotating motion and from rotating motion to reciprocating motion.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2008148622A JP2009270706A (en) | 2008-05-09 | 2008-05-09 | Converting mechanism of reciprocation and rotating movement in kinetic energy |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2008148622A JP2009270706A (en) | 2008-05-09 | 2008-05-09 | Converting mechanism of reciprocation and rotating movement in kinetic energy |
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| Publication Number | Publication Date |
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| JP2009270706A true JP2009270706A (en) | 2009-11-19 |
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| Application Number | Title | Priority Date | Filing Date |
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| JP2008148622A Pending JP2009270706A (en) | 2008-05-09 | 2008-05-09 | Converting mechanism of reciprocation and rotating movement in kinetic energy |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103202522A (en) * | 2012-01-13 | 2013-07-17 | 金采产品有限公司 | Food drying apparatus and associated drive mechanism |
| DE102013203697A1 (en) * | 2012-11-14 | 2014-05-15 | Kurt Schwöd | Power transmission device |
| JP2016517824A (en) * | 2013-05-08 | 2016-06-20 | ゲンデル,アレキサンダー | Gear and lever transmission system and method |
-
2008
- 2008-05-09 JP JP2008148622A patent/JP2009270706A/en active Pending
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103202522A (en) * | 2012-01-13 | 2013-07-17 | 金采产品有限公司 | Food drying apparatus and associated drive mechanism |
| DE102013203697A1 (en) * | 2012-11-14 | 2014-05-15 | Kurt Schwöd | Power transmission device |
| JP2016517824A (en) * | 2013-05-08 | 2016-06-20 | ゲンデル,アレキサンダー | Gear and lever transmission system and method |
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