JPS61205378A - Energy generating device - Google Patents
Energy generating deviceInfo
- Publication number
- JPS61205378A JPS61205378A JP60045597A JP4559785A JPS61205378A JP S61205378 A JPS61205378 A JP S61205378A JP 60045597 A JP60045597 A JP 60045597A JP 4559785 A JP4559785 A JP 4559785A JP S61205378 A JPS61205378 A JP S61205378A
- Authority
- JP
- Japan
- Prior art keywords
- rotor
- water
- rotating body
- sprocket
- 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.)
- Pending
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03B—MACHINES OR ENGINES FOR LIQUIDS
- F03B7/00—Water wheels
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/20—Hydro energy
Landscapes
- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Hydraulic Turbines (AREA)
Abstract
Description
【発明の詳細な説明】
本発明は回転体を利用したエネルギー発生装置に関する
ものである。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an energy generating device using a rotating body.
例えば、従来から行われてきている水力発電の例を挙げ
考えてみると
流量X有効落差X水車効率=通常発電力で表わされてお
り、上式で「流量」と「有効落差」が発電力を左右する
重要な要素であることは周知の通りである。For example, if we consider the example of conventional hydroelectric power generation, flow rate x effective head x turbine efficiency = normal power generation, and in the above formula, ``flow rate'' and ``effective head'' are the amount of power generated. It is well known that it is an important element that influences power.
従って小規模な水力発電所の建設を行なう場合に、落差
や流量に制約を受ける他、建設費の高−などの影響でコ
スト高を余儀なくされる場合が多かった。Therefore, when constructing a small-scale hydroelectric power plant, not only are there constraints on the head and flow rate, but also high construction costs often result in high costs.
、本発明はこれらの発電条件のうち低落差、小流鰍でコ
スト安を狙いとしたエネルギー発生装置を提供しようと
したものである。The present invention is intended to provide an energy generating device which aims at low cost under these power generation conditions with low head and small flow.
次に実#1例についてa明すると、回転体の回転輪中心
から盾れた位置即ち外周近くと、回転軸中心に近い位置
とにバランスを考慮した重錘を設け、この回転体に僅か
な外部エネルギーを与えることにより、回転体が回転す
る。この慣性モーメントなフライホイールに伝達し、回
転運動のエネルギーな電気エネルギーに変換することを
狙いとしたものである。Next, to explain the example #1, a weight is provided in consideration of balance at a position shielded from the center of the rotating wheel of the rotating body, that is, near the outer periphery, and at a position close to the center of the rotating shaft. The rotating body rotates by applying external energy. The aim is to transmit this moment of inertia to the flywheel and convert it into electrical energy, which is the energy of rotational motion.
この回転体と重錘との関係で、実際に行また実験例を説
明する七、
φ
回転体(外径800、重1190 Kg)のE、P位置
(第1図ゐ第3図参照)に各々重錘な取付ける方法で、
静止した状態から1度右方向(時計方向)に傾けた状態
で手離すと、回転体(含重睡)の重力と遠心力の関係で
回転しようとはするが、約350度位の位置まで転じた
後、反作用で戻り、振子運動を繰返えし、漸次振巾が小
さくなってゆく運動となる。この回転体の運動を基本と
して、0部に与えるウェイト(外部エネルギー)の重量
を漸増してゆく方法で、回転体を自転させ、回転数、1
回転当りの所要時間等を計測してみると、別表1のとお
りとなることがわかった。In order to explain the relationship between this rotating body and the weight, we will actually perform an experiment and explain an experimental example. Each has a heavy installation method,
When you let go of a stationary object while tilting it one degree to the right (clockwise), it will try to rotate due to the relationship between the gravity and centrifugal force of the rotating body (including gravity), but it will only reach a position of about 350 degrees. After turning, it returns due to the reaction and repeats the pendulum movement, resulting in a movement whose amplitude gradually becomes smaller. Based on this movement of the rotating body, the rotating body is rotated on its own axis by gradually increasing the weight (external energy) given to part 0, and the number of rotations is increased to 1.
When we measured the time required per rotation, we found that it was as shown in Attached Table 1.
この表からも明らかなように、0部でのウェイトの重量
を漸増してゆくに従い、回転体の回転数の増加に伴い、
回転体の1回転当りの所要時間は1なることが明白とな
った。As is clear from this table, as the weight of the weight at 0 parts is gradually increased, as the rotation speed of the rotating body increases,
It has become clear that the time required for one rotation of the rotating body is 1.
以上の点を踏まえて、本発明の実施例を図面に基づいて
説明すると
ト、9.10.11はキー、12はギャードモータ取付
台、13はギャードモータ、14は同モータ13の出力
軸、15はスプロケット、16はチェーン、17.17
&は7ライホイール18の軸受、19.20はフライホ
イール軸21のスプロケット、22はチェーン、発電機
26の出力軸24にはスプロケット25及び逆作動電磁
クラッチ26も嵌着されている。27はチェーン、28
.28& 、 28b % 28(lは重錘i、 Fの
締付はボルト、29は受水室、30は流水、31は導水
管である。Based on the above points, an embodiment of the present invention will be described based on the drawings. 9.10.11 is a key, 12 is a guard motor mounting base, 13 is a guard motor, 14 is an output shaft of the motor 13, and 15 is a Sprocket, 16 is chain, 17.17
7 is a bearing of the flywheel 18, 19.20 is a sprocket of the flywheel shaft 21, 22 is a chain, and a sprocket 25 and a reverse electromagnetic clutch 26 are also fitted to the output shaft 24 of the generator 26. 27 is a chain, 28
.. 28 & , 28b % 28 (l is weight i, F is tightened by bolt, 29 is water receiving chamber, 30 is running water, 31 is water pipe.
このように構成された発電装置において、発電操作を順
次説明すれば、先ず蓄電池を電源とする逆作動電磁クラ
ッチ26のスイッチをONにすると、該クラッチ26は
磁力によって摩擦板が開き、発電機23の出力軸24は
負荷から解放される。次に重錘Eが回転体6の真上に来
るようにするため、ギャードモータ13のスイッチをO
Nにすると、出力軸14に嵌着されたスプロケット15
はチェーン16を介して回転体軸5に嵌着されたスプロ
ケット8にF!]!繁しているため、回転体6は回転ト
ルクの伝達を受けて、時計方向に回転を始め重錘εの位
置が半回転して真上に達した際、流水30を落下させ、
ギャードモータ13のスイッチを0FIFとする。In the power generation device configured as described above, the power generation operation will be explained in order. First, when the reverse action electromagnetic clutch 26, which uses a storage battery as a power source, is turned on, the friction plate of the clutch 26 opens due to magnetic force, and the generator 23 The output shaft 24 of is released from the load. Next, in order to place the weight E directly above the rotating body 6, turn the switch of the guard motor 13 to OFF.
When set to N, the sprocket 15 fitted to the output shaft 14
F! is attached to the sprocket 8 fitted to the rotating body shaft 5 via the chain 16. ]! As the rotational torque is transmitted to the rotor 6, the rotating body 6 starts to rotate clockwise and when the position of the weight ε rotates half a turn and reaches directly above, the flowing water 30 is dropped.
The switch of the guard motor 13 is set to 0FIF.
回転体6は重[5とFの重力差による自転力(遠心力作
用)と導水管51から落下する流水50を受水室29に
受けることにより、慣性モーメントが増大して回転が始
まることとなる。The rotating body 6 receives the rotational force (centrifugal force effect) due to the difference in gravity between the weight [5 and F] and the flowing water 50 falling from the water pipe 51 in the water receiving chamber 29, so that the moment of inertia increases and rotation begins. Become.
一方回転軸5にはスプロケット7、チェーン22を介し
てフライホイール軸21のスプロケット19に連繋して
いるため、フライホイール18を回転させる。フライホ
イール18の回転速度はスプロケット7とスプロケット
19の歯数比により増減できるが上記フライホイール1
8の回転運動が安定した時、発11fi23の出力軸2
4に装着された逆作動電磁クラッチ26のスイッチを0
FIFにする。遮断されたクラッチ26は磁気が消磁さ
れ、スプリングの反発力によって囃擦板とアマチュアリ
ングが密着され、回転トルクが出力軸24に伝達されて
発電が開始される。発電機の回転速度も上記同様な方法
で、増減できることは当然である。On the other hand, the rotating shaft 5 is connected to a sprocket 7 and a sprocket 19 of the flywheel shaft 21 via a chain 22, so that the flywheel 18 is rotated. The rotational speed of the flywheel 18 can be increased or decreased by changing the tooth ratio between the sprocket 7 and the sprocket 19.
When the rotational movement of 8 becomes stable, the output shaft 2 of output 11fi23
4, turn the switch of the reverse electromagnetic clutch 26 attached to
Make it FIF. The magnetism of the disconnected clutch 26 is demagnetized, and the repulsive force of the spring causes the vibration plate and armature ring to come into close contact with each other, and rotational torque is transmitted to the output shaft 24 to start generating electricity. It goes without saying that the rotational speed of the generator can also be increased or decreased in the same manner as described above.
以上のように本発明は、回転体6に重錘ε、Fを配置し
であるが、実施例にあるように、各1個の重錘に限定さ
れたものではなく、重量的にはE〉Fであっても、取付
位置、数量については、回転のためのバランス効率が一
番良好な状態を選択することは当然であって、複数個に
なることや、取付位置の点についても自とその範囲が定
められてくることも自明の理といえる。As described above, the present invention arranges the weights ε and F on the rotary body 6, but as in the embodiment, it is not limited to one weight each; 〉 Even for F, it is natural to select the mounting position and quantity that provides the best balance efficiency for rotation, and if there are multiple pieces, the mounting position may also be changed automatically. It is also self-evident that the scope will be determined.
このように回転体6内部に複数個の重錘な設け、重力差
により発生する遠心力の働きで、この回転体に慣性モー
メントを与え、自転作用の働きに加えて水力エネルギー
(外部エネルギー)を付与するため、相乗効果がもたら
され、少量の水力エネルギーの供給でも発電効果が得ら
れる。In this way, a plurality of weights are provided inside the rotating body 6, and the centrifugal force generated by the difference in gravity gives the rotating body a moment of inertia, and in addition to the action of rotation, it also generates hydraulic energy (external energy). As a result, a synergistic effect is brought about, and a power generation effect can be obtained even with the supply of a small amount of hydraulic energy.
また、低落差、小流量の水力エネルギーの供給時には、
回転体は当初アンバランスな回転を余儀なくされるが、
この慣性モーメントはフライホイールに吸収され、直ち
に定速回転に移行する、上記のように7ライホイール1
8の影響力は、回転体のアンバランスな慣性モーメント
を吸収して、有効な回転の運動エネルギーに変換して発
電トルク源となる。特に低落差、小流量の水力発電には
欠かせない重要な要素である。In addition, when supplying hydraulic energy with low head and small flow rate,
The rotating body is initially forced to rotate unbalanced, but
This moment of inertia is absorbed by the flywheel, which immediately shifts to constant speed rotation.
The influence of 8 absorbs the unbalanced moment of inertia of the rotating body and converts it into effective rotational kinetic energy, which becomes a power generation torque source. It is an essential element, especially for low-head, small-flow hydroelectric power generation.
更に、実際の水力発1!(小水力)に当っては、流量、
落差の大小、環境により重錘の回転体への取付位置、大
きさ及び数置を適宜調整することによって慣性モーメン
トの増大を計ると共に、立地条件に合った設計が可能で
ある上、構造が簡単であることから、かなり小規模な条
件下でも設置できる等の特徴を有している。Furthermore, actual hydropower generation 1! (Small hydropower), the flow rate,
The moment of inertia can be increased by appropriately adjusting the mounting position, size, and number of positions of the weight on the rotating body depending on the size of the head and environment, and it is possible to design according to the site conditions, and the structure is simple. Because of this, it has the characteristics of being able to be installed even under fairly small-scale conditions.
第1図は本発明の実施例を示す概要側面図、第2図は第
111!Iの本体の平面図、第3図は第1図のA−A線
断面図である。
ε・F −−−−一重@ 5−一−−回転軸6−−−
−回転体 18−−−−−フライホイール 30−−−
一流水(外部エネルギー)回転数只及び所要時間Hは計
測10回の平均値単位二ウェイト重置Kg 所要時間
秒特許出願人 株式会社 前EE−作所
穐 1 図
岸2図FIG. 1 is a schematic side view showing an embodiment of the present invention, and FIG. 2 is a 111! FIG. 3 is a plan view of the main body of I, and a sectional view taken along the line A--A in FIG. 1. ε・F ----- Single layer @ 5-1 -- Rotating shaft 6 ---
-Rotating body 18---Flywheel 30---
First-class water (external energy) rotational speed and required time H are the average values of 10 measurements.Unit: 2 weights (Kg).Required time (seconds)Patent applicant: Former EE-Sakusho Aki Co., Ltd. 1 Figure 2
Claims (1)
に取付けた回転体と、この回転体のバランスを考慮した
位置にもう一方の重錘を設けると共に、僅かな外部エネ
ルギーを与えることによつてフライホイールと連繋して
いる回転体が連続回転することを特徴とするエネルギー
発生装置1. A rotating body with at least one weight attached at a position away from the center of the rotation axis, another weight installed at a position that takes into account the balance of this rotating body, and a small amount of external energy applied. An energy generating device characterized by continuous rotation of a rotating body connected to a flywheel.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP60045597A JPS61205378A (en) | 1985-03-07 | 1985-03-07 | Energy generating device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP60045597A JPS61205378A (en) | 1985-03-07 | 1985-03-07 | Energy generating device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPS61205378A true JPS61205378A (en) | 1986-09-11 |
Family
ID=12723755
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP60045597A Pending JPS61205378A (en) | 1985-03-07 | 1985-03-07 | Energy generating device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS61205378A (en) |
Citations (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5677563A (en) * | 1979-11-28 | 1981-06-25 | Teruo Narasaki | Pumping-up type private power generator |
-
1985
- 1985-03-07 JP JP60045597A patent/JPS61205378A/en active Pending
Patent Citations (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5677563A (en) * | 1979-11-28 | 1981-06-25 | Teruo Narasaki | Pumping-up type private power generator |
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