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JPS5932663B2 - Labor-saving power source device - Google Patents
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JPS5932663B2 - Labor-saving power source device - Google Patents

Labor-saving power source device

Info

Publication number
JPS5932663B2
JPS5932663B2 JP7950574A JP7950574A JPS5932663B2 JP S5932663 B2 JPS5932663 B2 JP S5932663B2 JP 7950574 A JP7950574 A JP 7950574A JP 7950574 A JP7950574 A JP 7950574A JP S5932663 B2 JPS5932663 B2 JP S5932663B2
Authority
JP
Japan
Prior art keywords
water
mesh
bubbles
air
curved part
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
Application number
JP7950574A
Other languages
Japanese (ja)
Other versions
JPS5110094A (en
Inventor
昌行 江口
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.)
Individual
Original Assignee
Individual
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 Individual filed Critical Individual
Priority to JP7950574A priority Critical patent/JPS5932663B2/en
Publication of JPS5110094A publication Critical patent/JPS5110094A/en
Publication of JPS5932663B2 publication Critical patent/JPS5932663B2/en
Expired legal-status Critical Current

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  • Farming Of Fish And Shellfish (AREA)

Description

【発明の詳細な説明】 本発明は従来の単に水中に気泡を上昇せしめる動力源に
比し極めて水中の上昇力が強く、かつ水面上に氷塊の突
出を発生せしめる気泡動力源装置を簡単廉価に得ようと
するものである。
DETAILED DESCRIPTION OF THE INVENTION The present invention provides a simple and inexpensive bubble power source device that has an extremely strong upward force in water compared to conventional power sources that simply cause bubbles to rise into the water, and that causes ice cubes to protrude above the water surface. That's what you're trying to get.

水中に送気すると気泡を発生して上昇するが、水深に比
例して深い程水圧のため気泡は小さく発生し、上昇する
につれて気泡は大きくなる。
When air is sent into the water, it generates bubbles and rises, but in proportion to the depth of the water, the deeper the water is, the smaller the bubbles are generated due to water pressure, and the bubbles become larger as it rises.

而して水の表面張力によって気泡の上昇と共に水を伴っ
て上昇し水を動かす。
Due to the surface tension of the water, as the bubbles rise, they rise with the water and move the water.

この現象において本発明は水中に適当な機構で支持せし
めた上方にふくらんだ彎曲部を有する適当な網盤又は網
筒の彎曲部内に、適宜の空気供給源よシ間欠的又は連続
的に空気を送シ込むようにし、上方にふくらんだ彎曲部
を有する網盤又は蓋部の彎曲部内に発生する気泡を黙盤
等の彎曲部内にためて気泡を夫々合体せしめて大きく膨
張せしめるようにし、最大限の大きさに膨張した気泡は
抗圧力と水圧とのバランスがくずれて網盤等の網目を急
激に通過して合体上昇するようにし、その膨張した気泡
が合体上昇するとき急激に水を動かし、水の表面張力に
よって気泡と共に水を伴って1@、上昇を行なわしめる
ようにする。
In order to deal with this phenomenon, the present invention provides air intermittently or continuously from an appropriate air supply source into the curved part of a suitable mesh plate or mesh tube having an upwardly bulging curved part supported in water by a suitable mechanism. The air bubbles generated in the curved part of the mesh plate or lid having an upwardly bulging curved part are collected in the curved part of the silent plate, etc., and the air bubbles are combined and expanded to the maximum extent. The bubbles that have expanded to a size of The surface tension of the water causes the bubbles to rise with the water.

この動作を繰返すようにせしめて、この力を利用して水
面上には氷塊をも突出発生させる気泡動力源装置である
This is a bubble power source device that repeats this action and uses this force to generate ice cubes on the surface of the water.

本発明装置の実施例を図面によって説明すると、適当に
重ねた網筒1を上方にふくらんだ彎曲部が形成されるよ
うにまけ(これは上方にふくらんだ彎曲部を有する網盤
でもよい)、彎曲面を上にして水中に沈め、網筒1の両
端に重錘2を耐裂して水中に支持せしめる。
An embodiment of the device of the present invention will be described with reference to the drawings. The mesh tubes 1 are stacked appropriately so that a curved portion bulges upward is formed (this may be a mesh board having a curved portion bulged upward). The mesh tube 1 is submerged in water with its curved surface facing up, and weights 2 are supported in the water by tear-proofing them at both ends of the mesh tube 1.

而して別に設けたコンプレッサー又は空気ポンプの空気
供給源3よシ適当なパイプ4を網筒1の彎曲内部に挿し
込み、網筒1の上方にふくらんだ彎曲部を形成した内部
に空気を間欠的又は連続的に送シ込むようにする。
Then, a suitable pipe 4 from a separately provided air supply source 3 of a compressor or an air pump is inserted into the curved inside of the mesh tube 1, and air is intermittently supplied to the inside of the mesh tube 1 which has a curved part bulging upward. Make sure to feed it at a target or continuously.

空気は水中の網筒1内の彎曲部内で気泡となるが、網筒
1が上方にふくらんだ彎曲部を形成しているので、気泡
は彎曲部内にたまる。
Air becomes bubbles within the curved portion of the underwater mesh tube 1, but since the mesh tube 1 forms a curved portion that bulges upward, the air bubbles accumulate within the curved portion.

(網筒1が水平であると網筒1の両端よシ気泡は上昇す
る)網筒1の彎曲部内にたまった気泡は夫々合体して図
示のBからB1・B1と膨張する。
(If the screen tube 1 is horizontal, the air bubbles will rise from both ends of the screen tube 1.) The air bubbles accumulated in the curved portion of the screen tube 1 will coalesce and expand from B to B1 and B1 in the figure.

然し水圧と気泡の抗圧力とのバランスが崩れると膨張し
た気泡は急激に網目を合体したまま通過する。
However, when the balance between the water pressure and the counter pressure of the bubbles is disrupted, the expanded bubbles suddenly coalesce through the mesh and pass through.

その合体気邦が急激に水面に向って上昇するときに水の
表面張力によって水を大きく持上げる力を発揮する。
When the combined air suddenly rises toward the water surface, the surface tension of the water exerts a force that lifts the water significantly.

このとき水中と水面とを同時に大きく動かすので水中に
酸素を送シ込むことができると共に水面上には氷塊を突
出発生させることかで−きる。
At this time, since the water and the water surface are moved greatly at the same time, oxygen can be pumped into the water, and ice blocks can be generated protruding from the water surface.

上記した本発明装置の効果を証するため次の実験を行な
ってみた。
In order to prove the effects of the above-described device of the present invention, the following experiment was conducted.

縦×横×深さが夫々23X39X30(単位名cIIL
)の水槽に深さ23CIILまで水を入れ、水槽外に金
魚水槽用エアポンプ(5W)を配置し、とれよジビニル
パイプを水槽内に導入して水槽底部に空気°1を導き、
水槽底部よシ空気泡が連続的に水槽中を上昇する装置を
用意する。
Length x width x depth is 23 x 39 x 30 (unit name cIIL)
) Fill the aquarium with water to a depth of 23 CIIL, place an air pump (5W) for goldfish aquariums outside the aquarium, introduce a Toreyo Divinyl pipe into the aquarium, and guide air °1 to the bottom of the aquarium.
Prepare a device that allows air bubbles to rise continuously through the bottom of the tank.

(第2図)水槽内には他にもう一本のビニルパイプ(口
径約151111)を導入し、このビニルパイプのうち
水槽内にあるパイプ端には料理用漏斗をとシつけ、ビニ
ルパイプ他端は水槽外に放出しておく。
(Fig. 2) Another vinyl pipe (diameter approx. 151111) was introduced into the aquarium, and a cooking funnel was attached to the end of this vinyl pipe inside the aquarium. Leave the end outside the tank.

そこで本発明の効果のうちの一つである揚水能力が在来
の網板を通過させない単なる気泡と如何に違うかを証明
するため次の三個を設定し、夫々が一定時間内にどれだ
けの水を水槽外に放出できるかを測定してみた。
Therefore, in order to prove how the pumping capacity, which is one of the effects of the present invention, is different from that of simple air bubbles that do not pass through the conventional mesh plate, we set the following three, and how much water is pumped in a certain period of time. We measured whether water could be released outside the aquarium.

(実験1)(イ)例 エヤポンプよシバイブ空気を導き
そのパイプ端から吹き出す気泡を直接漏斗に供給するも
の(単に気泡が上昇するだけの従来の気泡上昇装置の効
果を明らかにする)(第3図のイ)(ロ)例 エヤポン
プよりのパイプ端に、わにの玩具(玩具の口内に気泡が
溜れば気泡の絆上刃で玩具の口が開き、合体した気泡が
放出され、気泡が放出されると玩具の口を閉じる仕掛の
もの)を水槽底になるよう附装し、わにの口から出た合
体気泡が料理用漏斗に供給されるようにするもの(網目
を通さす単な″る合体気泡が上昇するだけの従来の気泡
上昇装置の効果を明らかにする)(第3図の口) (ハ)例 本発明と同じく、エヤポンプよシのパイプ端
を水槽底に位置せしめ、パイプ端上に漏斗を置き、パイ
プ端と漏斗との間に金網(15目/寸)を介在させ、水
を伴った合体気泡を漏斗内に供給するもの(本発明の効
果を他の従来工法と比較する)(第3図のハ) 上記(イ)〜(ハ)の装置によって3分間エヤポンプを
作動した結果の水槽外への夫々の排水量は次の通シであ
った。
(Experiment 1) (a) Example: An air pump that guides the air pump and supplies the bubbles blown out from the end of the pipe directly to the funnel. Example (a) and (b) in the diagram: Place a toy crocodile at the end of the pipe from the air pump (if air bubbles accumulate in the toy's mouth, the toy's mouth will open with the bubble bonding blade, the combined air bubbles will be released, and the air bubbles will A device that closes the mouth of the toy when released) is attached to the bottom of the tank, and a device that allows the combined air bubbles coming out of the crocodile's mouth to be fed into the cooking funnel (a device that can be passed through a mesh) clarifies the effect of the conventional bubble raising device in which only the coalesced bubbles rise) (Figure 3) , a funnel is placed on the end of the pipe, a wire mesh (15 mesh/size) is interposed between the end of the pipe and the funnel, and the combined air bubbles accompanied by water are supplied into the funnel (the effect of the present invention can be improved by using other conventional methods). (Compare with the construction method) (C in Figure 3) The amount of water discharged outside the water tank as a result of operating the air pump for 3 minutes using the devices (A) to (C) above was as follows.

(イ)例の場 530 cc (ロ)例の場合 550 cc (ハ)例の場合 650 cc 次に実験(2)として実験lと同じ条件ながら、料理用
漏斗に附したビニルパイプだけを長く1該ビニルパイプ
の漏斗と反対側の端を約55に771の高さになるよう
に長くして持ち上げ、この高さまで第4図のイ〜ハに示
す装置がどれだけ揚水できるかを測定してみた。
(B) Example case: 530 cc (B) Example case: 550 cc (C) Example case: 650 cc Next, for experiment (2), under the same conditions as experiment I, only the vinyl pipe attached to the cooking funnel was made longer. The end of the vinyl pipe on the opposite side of the funnel was lengthened and lifted to a height of about 55 to 771, and the amount of water the device shown in Figure 4 A to C could lift up to this height was measured. saw.

その結果 (イ)例の場合 揚水せず (ロ)例の場合 揚水せず (ハ)例の場合 350cc の結果を得た。the result (b) In the case of example: No water pumping (b) In the case of example: No water pumping (c) In the case of example 350cc The results were obtained.

またこの実験の際(イ)〜(ハ)の夫々の装置に附装さ
れた漏斗及びビニルバイブロを外し、水面上に水面と平
行に透明ガラス板をおき、(イ)〜(ハ)の装置よシ浮
上してくる気泡がガラス板と触れる位置におくと、(イ
)(ロ)の気泡がガラス板に触れても何等衝撃は感ぜず
、ガラス板も気泡周囲を除いてほとんど濡れなかったの
に反しくハ)よシ突出した気泡はガラス板に激しい衝撃
を感じさせると共に気泡全体の形状にわたって内部まで
濡れていることを検し得た。
In addition, during this experiment, the funnel and vinyl vibro attached to each of the devices (a) to (c) were removed, and a transparent glass plate was placed on the water surface parallel to the water surface. If you place the bubbles in a position where they come into contact with the glass plate, you won't feel any impact when the bubbles in (a) and (b) touch the glass plate, and the glass plate will hardly get wet except for the area around the bubbles. On the contrary, C) the protruding bubbles caused a strong impact on the glass plate, and it was also possible to detect that the entire shape of the bubbles was wet to the inside.

よって本発明装置により生じる気泡は実験(IX2)の
(イxo)によって生じる従来の単なる気泡とは実体の
全く異なったものであって、即ち、水を伴って上昇する
合体気泡であるから揚水能力と水面えの突出力に極めて
すぐれていることを立証し得た。
Therefore, the bubbles produced by the device of the present invention are completely different in substance from the conventional simple bubbles produced by (Ixo) in experiment (IX2), that is, they are coalescing bubbles that rise with water, so the pumping capacity is low. We were able to prove that it was extremely superior in terms of projecting force on the surface of the water.

本発明装置によって得られるこの動力は種々の用途に利
用することが可能であり、消費する電力等は極めて少量
で公害を発生することなく、気泡動力源装置として甚だ
適切なものである。
This power obtained by the device of the present invention can be used for various purposes, consumes only a very small amount of power, and does not cause any pollution, making it extremely suitable as a bubble power source device.

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

第1図は本発明装置の一部を切欠した斜面図、第2図は
実験に使用する装置の一部縦断面図、第3図のイ〜ハは
実験(1)のイ〜ハ例を示す縦断面図、第4図のイ〜ハ
は実験(2)のイ〜ハ例を示す縦断面図。 11・・・・・・網筒、2・・・・・・重錘、3・・曲
気体供給源、4・・・・・・送気パイプ、5・・曲気泡
、6・・・・・・ビニルパイプ、1・・曲わにの玩、目
、8・・曲わに玩具の口、9・・・・・・金網(本発明
における網筒又は網盤1)、10・・・・・・水槽、1
1・・・・・・漏斗。
Fig. 1 is a partially cutaway perspective view of the device of the present invention, Fig. 2 is a partial vertical sectional view of the device used in the experiment, and Fig. 3 A to C are examples of A to C of experiment (1). FIG. 4 is a vertical cross-sectional view showing examples A to C of experiment (2). 11... Net tube, 2... Weight, 3... Curved gas supply source, 4... Air supply pipe, 5... Curved bubble, 6... ...Vinyl pipe, 1.. Crocodile toy, eyes, 8.. Mouth of curved crocodile toy, 9.. Wire mesh (mesh tube or mesh board 1 in the present invention), 10.. ...Aquarium, 1
1... Funnel.

Claims (1)

【特許請求の範囲】[Claims] 1 水中に支持せしめ上方にふくらんだ彎曲部を有する
網筒又は網壁の彎曲内に、空気供給源よシ間欠的又は連
続的に送気せしめるようにし、上方にふくらんだ彎曲部
を有する網筒又は網盤の彎曲内に発生する気泡を夫々合
体翻張せしめ、網筒等の網目を通過せしめては合体上昇
せしめ、この合体気泡の水を伴った瞬間上昇力を利用し
て水面に氷塊を突出発生させることを特徴とする気泡動
力源装置。
1. A mesh pipe supported in water and having an upwardly bulging curved part, or a mesh pipe having an upwardly bulging curved part, through which air is blown intermittently or continuously from an air supply source into the curved part of the mesh wall. Alternatively, the air bubbles generated within the curvature of the screen plate are made to coalesce and expand, pass through the mesh of a mesh tube, etc., and are made to coalesce and rise, and the instantaneous rising power of these coalesced air bubbles with water is used to bring ice blocks to the water surface. A bubble power source device characterized by generating protrusions.
JP7950574A 1974-07-10 1974-07-10 Labor-saving power source device Expired JPS5932663B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP7950574A JPS5932663B2 (en) 1974-07-10 1974-07-10 Labor-saving power source device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP7950574A JPS5932663B2 (en) 1974-07-10 1974-07-10 Labor-saving power source device

Publications (2)

Publication Number Publication Date
JPS5110094A JPS5110094A (en) 1976-01-27
JPS5932663B2 true JPS5932663B2 (en) 1984-08-10

Family

ID=13691784

Family Applications (1)

Application Number Title Priority Date Filing Date
JP7950574A Expired JPS5932663B2 (en) 1974-07-10 1974-07-10 Labor-saving power source device

Country Status (1)

Country Link
JP (1) JPS5932663B2 (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS6140725A (en) * 1984-07-31 1986-02-27 江口 節子 Power source apparatus by air bubbles
JPH0240606A (en) * 1988-07-30 1990-02-09 Asahi Optical Co Ltd Telephotographic lens
JP6583447B2 (en) 2018-02-20 2019-10-02 株式会社明電舎 Bubble generator

Also Published As

Publication number Publication date
JPS5110094A (en) 1976-01-27

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