JPH02266148A - Power increaser - Google Patents

Abstract

PURPOSE:To increase the extent of output by setting an end shaft of a lever down to a force point, a shaft of a projection drawing a frame to an important point and a contact between a wheel and a boss to a fulcrum point, respectively, with action of a bearing rolling on a cylinder inner wall, and making these points function as a lever action. CONSTITUTION:A flat iron 17 unified with a boss 22 is rotated in an A direction by a prime mover via a pulley, and a frame 14 is pressed by a connecting shaft 5, a bearing 1 is pushed to an inner wall of a cylinder 2 and an edge of a lever 15 is pressed by the frame 4 as rolling it. At this time, an inner surface of a ring 26 of the lever 15 is pressed to a boss 27, coming to a fulcrum shaft, and a connecting shaft 6 is drawn by a frame 16 to be connected to a projection 13, while a connecting shaft 7 being locked to a flat iron 8 is transmitted to a series of these frames 14, 4, the lever 15, the frame 16, a connecting shaft 8 or the like, and an end shaft 12 of the lever 15 is set down to a power point, a shaft 12 attached to the frame 16 to an important point, and each contact of the bosses, 27, 28 to a fulcrum shaft, respectively, and thereby a pulley locked to a boss unified with a flat iron 19 is rotated and outputted by lever action. Thus, the extent of output can be increased by this lever action.

Description

【発明の詳細な説明】 （づ産業上の利用分野 この発明は出力を増大する装置で動力や発電に関する。[Detailed description of the invention] (industrial application field) The present invention relates to a device for increasing output and relates to power generation and power generation.

（ロ）従来の技術 物理学上動力とは単位時間になされた仕事を云うもので
らυ、仕事の量は物体に作用する力と力の作用により物
体が力の方向に移動した距離の積によって表されるもの
でおる。起動装置が作用した力よシ大きい力を他の装置
に伝える事は可能であるが、反面その刀の作用により他
の装置が作動する距離は力が大きくなった割合と同じ割
合で縮少され、起動装置が作用した力による仕事と、起
動装置が他の装置に作用した力による仕事と等しい大き
さになる事は物理学上明白な理論であシ、従って動力を
増大する事は不可能である。とじて、距離と力の反比例
理論を以って一元的に理論づけている。(b) Conventional technology In physics, power refers to the work done in unit time υ, and the amount of work is the product of the force acting on an object and the distance traveled by the object in the direction of the force due to the action of the force. It is expressed by . It is possible to transmit a force greater than the force exerted by the activation device to other devices, but on the other hand, the distance over which other devices operate due to the action of the sword will be reduced at the same rate as the force increases. It is an obvious theory in physics that the work done by the force acting on the starting device is equal to the work done by the force acting on the starting device on other devices, and therefore it is impossible to increase the power. It is. Therefore, the theory is based on the inverse proportionality theory of distance and force.

（ハ）発明が解決しようとする問題点、従来距離と力が
反比例する事は動力の不可欠な条件と思はれているよう
であるが、この発明は入力と出力を同じ回転距離にして
、機械の装置によって入力より大きい力を作用させ、こ
の力を出力とするものである。(c) The problem that the invention aims to solve: Conventionally, it seems that distance and force are inversely proportional to each other, which is considered to be an essential condition for power, but this invention makes the input and output the same rotational distance, A mechanical device applies a force greater than the input, and this force is used as the output.

に）問題点を解決するための手段 この発明を図面にもとづいて説明すると次の通りである
。第１８図第１９図第２０図のように枠（Ｌ４と（４）
の連結部には第１３図第１４図に示すベアリング（１）
　ｅ第１１図の軸αυを以って取付はスナップリング（
９）を以って離脱しないようにし枠（４）の他端は第２
０図にも示すように上端部に輪しＱを設けた梃子α谷の
端部を合せ第１２図の軸αのを以って図のように連結し
、スナップリング（９）を以って離脱しないようにする
。更に枠αＱの一端は梃子ａυの輪ＱＱに設けた突出部
α１に軸αのを以って図のように取付はスナップリング
（９）を以って離脱しないようにする。以上のように組
合せ九枠１ｌ１４の端部は、第１５図第１６図第１７図
第１０図のように、中心軸（２３、ボスＱ樟、等と一体
になっている平鉄αりの端部にナツトαＱを以って固定
した連結軸（８）に第１図第２図第６図第７図のように
取付け、枠α→の端部は、第２４図第２５図第２６図第
１０図等の平鉄α→の端部にナツト１０を以って固定し
た連結軸（７）に第６図第７図のように取付け、スナッ
プリング（９）　ｔ−以って離脱しないようにする。挺
子（１５）の輪ｃ２・はボスＱＩに第２図第６図第７図
のように合せる。更に平鉄（ｉｌｌの端の連結軸（７）
の反面に固定した連結軸（６）には前記と同じように第
１８図第１９図に示す部品の二連目の枠α０の端部を取
付けてスナップリング（９）を以って離脱しないように
し、枠α◆の端部は第２１図第２２図第２３図第１０図
に示すようにボスＱ２と一体の平鉄αつの端部にナツト
α０を以って固定した連結軸（５）に第１図第２図第８
図第９図のように取付けてスナップリング（９）を以っ
て離脱しないようにする。輪ｆ２ＱはボスＱ′？）に合
せ、中心軸Ｑ３は第１０図に点線で示すようにボス←１
」９の中心に通す。以上のように第１８図第１９図に示
す部品を第１０図に示す連結軸（８）と（７）に一連ね
、連結軸（６）と（５）に一連ね、それぞれ連結して組
合せたものを第１図第２図のように円筒（２）の内部に
入れ、円筒（２）の両側面に突出したボスａｅ、＝ｅ′
Ｊには第３図のように中心にベアリングＱ４を取付けた
蓋Ｑ１を第２図のように合せ、ボスも→とＨの端部はそ
れぞれのベアリングＱ４１に通して側面に突出し、蓋Ｑ
→と円筒（２）のネジ穴（３）を合せてネジＣ３０とナ
ツト０→を以って第４図第５図のように締める。二枚の
蓋ｃ２υの側面に突出したボスＱ１」■にはボスＯＱと
一体のプーリー０１をそれぞれ取付けて押ネジ８υを以
って固定する。第２７図第２８図第２９図に示す取付台
６′３の半円の上面には円筒（２）を第４図第５図のよ
うに載せ、第３０図第３１図第３２図に示す半円の帯鉄
Ｇ９は円筒（２）の上面に第５図のように合せてその両
端はネジα］とナツトσ０を以って締める。B) Means for Solving the Problems The present invention will be explained as follows based on the drawings. As shown in Fig. 18, 19, and 20, the frame (L4 and (4)
The bearing (1) shown in Fig. 13 and Fig. 14 is attached to the connecting part.
eInstall with the snap ring (
9) to prevent it from separating, and the other end of the frame (4)
As shown in Fig. 0, align the ends of the lever α with a ring Q on the upper end, connect as shown with the shaft α in Fig. 12, and attach the snap ring (9). Make sure that you do not leave. Further, one end of the frame αQ is attached to the protrusion α1 provided on the ring QQ of the lever aυ with the axis α, as shown in the figure, using a snap ring (9) to prevent it from coming off. As described above, the ends of the nine combination frames 1l14 are connected to the flat iron α rim which is integrated with the central shaft (23, boss Q camphor, etc.) as shown in FIG. 15, 16, 17, and 10. It is attached to the connecting shaft (8) fixed with a nut αQ at the end as shown in Fig. 1, Fig. 2, Fig. 6, Fig. 7, and the end of the frame α→ is attached to the connecting shaft (8) as shown in Fig. 24, 25, 26. Attach the connecting shaft (7) fixed with a nut 10 to the end of the flat iron α→ as shown in Fig. 10, etc., as shown in Figs. 6 and 7, and remove with the snap ring (9) t. Align the ring c2 of the screw (15) with the boss QI as shown in Fig. 2, 6, and 7.
On the other hand, attach the end of the second frame α0 of the parts shown in Figs. 18 and 19 to the connecting shaft (6) fixed on the other side in the same way as described above, and use the snap ring (9) to prevent it from detaching. As shown in FIG. 21, 22, 23, and 10, the end of the frame α ) to Figure 1, Figure 2, Figure 8.
Attach it as shown in Figure 9 and use the snap ring (9) to prevent it from coming off. Is the ring f2Q the boss Q'? ), the center axis Q3 is aligned with the boss ←1 as shown by the dotted line in Figure 10.
” Pass through the center of 9. As described above, the parts shown in Figs. 18 and 19 are connected in series to the connecting shafts (8) and (7) shown in Fig. 10, and connected in series to the connecting shafts (6) and (5), respectively. Place the material inside the cylinder (2) as shown in Fig. 1 and Fig. 2, and insert the bosses ae, = e' that protrude from both sides of the cylinder (2).
Attach the lid Q1 with the bearing Q4 installed in the center as shown in Figure 3 to the J as shown in Figure 2, and pass the ends of the boss → and H through the respective bearings Q41 so that they protrude to the side, and then attach the lid Q.
Align → with screw hole (3) of cylinder (2) and tighten with screw C30 and nut 0→ as shown in Fig. 4 and Fig. 5. A pulley 01 integrated with the boss OQ is attached to each of the bosses Q1'' which protrudes from the sides of the two lids c2υ, and is fixed with a set screw 8υ. The cylinder (2) is placed on the semicircular upper surface of the mounting base 6'3 as shown in Fig. 27, Fig. 28, and Fig. 29, as shown in Fig. 4, Fig. 5, and Fig. 30, Fig. 31, and Fig. 32. The semicircular band iron G9 is placed on the top surface of the cylinder (2) as shown in FIG. 5, and its both ends are tightened with screws [alpha] and nuts [sigma]0.

以上はこの発明の構造である。The above is the structure of this invention.

（ホ）作　用 この発明は原動機と稼動機の中間に設置して、ボスＱ２
に取付けたプーリーｆ２すは原動機と、ボスぐ→に取付
けたプーリーＱＬＪは稼動機と、それぞれベルトを以っ
て連結し、第１図第４図の矢印への方向に回転さぜる。(E) Function This invention is installed between the prime mover and the operating machine, and the boss Q2
The pulley f2 attached to the boss is connected to the prime mover, and the pulley QLJ attached to the boss is connected to the operating machine by means of belts, and rotates in the direction of the arrow in FIG. 1 and FIG. 4.

この際原動機によって作動する伝動順は次のようになる
。プーリーＱすによってボスＱ■と一体の平鉄αづを矢
印への方向に回し、連結軸（５）は枠α尋を押し、ベア
リング（１）は円筒（２）の内壁（押当てられなから枠
（４）を以って梃子αつの端部を押す、この際梃子α→
の輪ぐＱの内面はボスＱ１）に押当てられて支点となっ
て、突出部α葎に連結する枠αＱを以って連結軸（６）
を引く、これによって平鉄α→に固定する連結軸（７ン
は前記と同じように一連の枠α→（４）、梃子←υ、枠
αＱ、連結軸（８）等に伝動して平鉄（１９と一体のボ
スｅ→に固定するブーＶ−ｆ２＊を回転させる。この回
転に際しては枠（４）に押される梃子α→の端部の軸α
■が力点となり、梃子σ斤の輪ＱＱの突出部α１に枠α
→を取付けた軸αネが重点となり、輪Ｑ→とボス０１１
Ｏのそれぞれの接点が支点となって挺子作用をする。At this time, the transmission sequence operated by the prime mover is as follows. Using the pulley Q, turn the flat iron α that is integrated with the boss Q in the direction of the arrow, the connecting shaft (5) pushes the frame α, and the bearing (1) presses against the inner wall of the cylinder (2) (which is not pressed). Push the end of the lever α using the frame (4), at this time the lever α→
The inner surface of the ring Q is pressed against the boss Q1) and serves as a fulcrum, and the connecting shaft (6) is connected to the protrusion α with the frame αQ.
This causes the connection shaft to be fixed to the flat iron α→ (the 7th one is transmitted to a series of frames α→(4), levers ←υ, frame αQ, connection shaft (8), etc. in the same way as above, and is fixed to the flat iron α→ Rotate the boo V-f2* fixed to the boss e→ which is integral with the iron (19). During this rotation, the axis α of the end of the lever α→ pushed by the frame (4)
■ is the emphasis, and the frame α is placed on the protrusion α1 of the ring QQ of the lever σ.
The emphasis is on the shaft α to which → is attached, and the ring Q → and boss 011
Each contact point of O acts as a fulcrum and acts as a lever.

（へ）実　施　例 ボスＣ２Ｊに取付けたブーＩＪ−ｆ２’Ｊは第４図に示
す矢印Ａの方向に、ボスＱＦＪに取付けたブーリーナリ
はは矢印Ａの反対方向にそれぞれ等量の力で回そうとす
ると回転部全体が矢印Ａの方向に回る。(F) Example Boolean IJ-f2'J attached to boss C2J is rotated in the direction of arrow A shown in Fig. 4, and the boolean reel attached to boss QFJ is rotated with equal force in the opposite direction of arrow A. When this happens, the entire rotating part rotates in the direction of arrow A.

（））発明の効果 この発明は以上説明したように矢印Ａの方向に回転する
と円筒（２）の内壁に？てられるベアリング（１）の作
用によって梃子αυの軸σつが力点、輪ＱＱの内面のボ
スとの接点が支点、突出部α葎の軸αａが重点となって
挺子作用をして出力を増大するが、第１８図第１９図の
一連の部品を多く連結すると更に出力を増大する効果が
ある。()) Effects of the invention As explained above, when the invention rotates in the direction of arrow A, the inner wall of the cylinder (2)? Due to the action of the bearing (1), which is rotated, the axis σ of the lever αυ becomes the point of force, the contact point with the boss on the inner surface of the ring QQ becomes the fulcrum, and the axis αa of the protruding part α becomes the focus, exerting a lever action and increasing the output. However, if a large number of the series of parts shown in FIGS. 18 and 19 are connected, the output can be further increased.

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

第１図は機構を円筒（２）内に組入れた状態と回転方向
を示す図で蓋Ｑυは除外しである。第２図は第１図の右
側面に相当する図であるが、二枚の蓋Ｃ場と円筒（２）
は中央部よシ切断しである。第３図は蓋０１の内面図。 第４図は全体を組合せた側面図。第５図は第４図の右側
面図。第６図は円筒（２）内に組入れる部分図で一部を
切断しである第７図は第６図の底面図。第８図は円筒（
２）内に組入れる部分図で一部を切断しである。第９図
は第８図の底面図。第１０図は第１８図第１９図の部品
を第６図ＷＪ８図のように取付ける連結軸（５）　（６
）　（７）　（８）等を明示し、中心軸（ハ）は点線で
示しておる。第１１図はベアリング（１）ｔ−取付ける
軸Ｉである。第１２図は梃子α場と枠（４）、突出部０
と枠α→等を連結する軸Ｕである。第１３図はベアリン
グ（１）である。第１４図は第１３図の側面図。第１５
図は中心軸Ｑ３ボスぐ→連結軸（８）等と−ｅ０と一体
の梃子αυと突出部α４で第１８図の右側面（に相当す
る図。第２１図はボス（社）連結軸（５）と−体の平鉄
α力である。第２２図は第２１図の底面図。第２３図は
第２１図の右側面図。第２４図はボス（財）連？→（７
）等と一体の平鉄傾である。第２５図は第２４図の底面
図。第２６図は第２４図の右側面図。第２７図は円筒（
乃の取付台（ハ）である。第２８図は第２７図の底面図
。第２９図は第２８図の右側面図。第３０図は帯鉄Ｃ３
→である。第３１図は第３０図の側面図。第３２図は第
３１図の底面図 枠α４（４）突出部α■に連結する枠ａＱ等一連の部品
図。第１９図は第１８図の底面図。第２０図は輪渭３図 手 続 補 正 書 平成１年７月２７１　：差出 平成１年７月２０日 特許庁長官　　　　　　　　　　殿 １、事件の表示 平成１年特許願第８９２０３号 ２、発明の名称 動力増大機 ６、補正する者　　　事件との関係　出願人〒０１３ ４、　　自　　発 ５、補正の対象　　　　図　面 ６、補正の内容 （１）、第１図第２図に示す枠Ｈ（ａ）、鉤（２１）、
平鉄（１８）０９）等の部分図を第６図第７図第８図第
９図第１０図第１５図第１６図第１７図第１８図第１９
図第２４図第２５図第２６図等別紙の通り補正する。尚
、補正の対象に記載した以外内容に変更はない。Figure 1 is a diagram showing the mechanism assembled in the cylinder (2) and the direction of rotation, with the lid Qυ excluded. Figure 2 is a diagram corresponding to the right side of Figure 1, and shows the two lids C field and the cylinder (2).
is cut across the center. FIG. 3 is an inner view of the lid 01. Figure 4 is a side view of the entire assembly. Figure 5 is a right side view of Figure 4. FIG. 6 is a partial view, partially cut away, to be assembled into the cylinder (2), and FIG. 7 is a bottom view of FIG. 6. Figure 8 shows the cylinder (
2) This is a partially cutaway view of the part to be incorporated into the interior. FIG. 9 is a bottom view of FIG. 8. Figure 10 shows the connecting shaft (5) (6
) (7), (8), etc. are clearly shown, and the central axis (c) is shown with a dotted line. Figure 11 shows the shaft I to which the bearing (1) t is attached. Figure 12 shows the lever α field, frame (4), and protrusion 0.
This is the axis U that connects the frame α→, etc. Figure 13 shows the bearing (1). FIG. 14 is a side view of FIG. 13. 15th
The figure shows the central axis Q3 boss → the connecting shaft (8), etc., the lever αυ integrated with -e0, and the protrusion α4, which corresponds to the right side of FIG. 18. 5) It is the flat iron α force of the body. Figure 22 is the bottom view of Figure 21. Figure 23 is the right side view of Figure 21. Figure 24 is the boss (corporate) ren? → (7
) etc. are flat iron tilts. FIG. 25 is a bottom view of FIG. 24. FIG. 26 is a right side view of FIG. 24. Figure 27 shows the cylinder (
This is No's mounting base (c). FIG. 28 is a bottom view of FIG. 27. FIG. 29 is a right side view of FIG. 28. Figure 30 shows band iron C3
→ is. FIG. 31 is a side view of FIG. 30. FIG. 32 is a series of parts diagrams such as a frame aQ connected to the protrusion α■ of the frame α4 (4) in the bottom view of FIG. FIG. 19 is a bottom view of FIG. 18. Figure 20 is a three-way wheel diagram procedural amendment July 1999 271: Sent July 20, 1999 Director General of the Patent Office 1. Display of the incident 1999 Patent Application No. 89203 2. Name of the invention Power increase Machine 6. Person making the amendment Relationship to the case Applicant 〒013 4. Voluntary 5. Subject of amendment Drawing 6. Contents of amendment (1), Frame H(a) shown in Figure 1, Figure 2, Hook ( 21),
Figure 6 Figure 7 Figure 8 Figure 9 Figure 10 Figure 15 Figure 16 Figure 17 Figure 18 Figure 19
Correct as shown in the attached sheets such as Figures 24, 25, 26, etc. There are no changes to the content other than those stated in the subject of amendment.

Claims (1)

【特許請求の範囲】[Claims] 円筒（２）の内壁に押当てられながら回転するベアリン
グ（１）の作用によって挺子（１５）の端部の軸（１２
）が力点となり、枠（１６）を引く突出部（１３）の軸
（１２）が重点となり、輪（２６）とボスとの接点が支
点となって、挺子作用をしながら出力を増大する動力増
大機The shaft (12) at the end of the lever (15) is rotated by the action of the bearing (1), which rotates while being pressed against the inner wall of the cylinder (2).
) becomes the point of effort, the axis (12) of the protrusion (13) that pulls the frame (16) becomes the focus, and the contact point between the ring (26) and the boss serves as the fulcrum, increasing the output while acting as a lever. power increase machine