JPS5911752B2 - spiral generator - Google Patents
spiral generatorInfo
- Publication number
- JPS5911752B2 JPS5911752B2 JP54073964A JP7396479A JPS5911752B2 JP S5911752 B2 JPS5911752 B2 JP S5911752B2 JP 54073964 A JP54073964 A JP 54073964A JP 7396479 A JP7396479 A JP 7396479A JP S5911752 B2 JPS5911752 B2 JP S5911752B2
- Authority
- JP
- Japan
- Prior art keywords
- spiral
- wind
- pipe body
- spiral tube
- windmill
- 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
- 230000005540 biological transmission Effects 0.000 description 10
- 238000004804 winding Methods 0.000 description 4
- 238000010248 power generation Methods 0.000 description 3
- 229910000831 Steel Inorganic materials 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 239000010959 steel Substances 0.000 description 2
- 238000007664 blowing Methods 0.000 description 1
- 230000007423 decrease Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
- 238000009423 ventilation Methods 0.000 description 1
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F05—INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
- F05B—INDEXING SCHEME RELATING TO WIND, SPRING, WEIGHT, INERTIA OR LIKE MOTORS, TO MACHINES OR ENGINES FOR LIQUIDS COVERED BY SUBCLASSES F03B, F03D AND F03G
- F05B2250/00—Geometry
- F05B2250/10—Geometry two-dimensional
- F05B2250/15—Geometry two-dimensional spiral
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F05—INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
- F05B—INDEXING SCHEME RELATING TO WIND, SPRING, WEIGHT, INERTIA OR LIKE MOTORS, TO MACHINES OR ENGINES FOR LIQUIDS COVERED BY SUBCLASSES F03B, F03D AND F03G
- F05B2250/00—Geometry
- F05B2250/20—Geometry three-dimensional
- F05B2250/25—Geometry three-dimensional helical
-
- 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
- Y02E10/70—Wind energy
- Y02E10/72—Wind turbines with rotation axis in wind direction
Landscapes
- Wind Motors (AREA)
Description
【発明の詳細な説明】
本発明はうず春光電装置に関し、風力エネルギーを有効
に利用して出力増加を図ったものである。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a whirlpool photoelectric device that effectively utilizes wind energy to increase output.
第1図は風力発電の一種であるうず春光電の原理を示し
、1は断面ら旋状のうず巻筒、2は略直角に曲った吸入
管、3は吸入管2の吹出口2bに設けられた発電用の風
車、4は発電機、5は風車3を発電機4に連結する駆動
軸である。Figure 1 shows the principle of Uzushun Koden, which is a type of wind power generation. 1 is a spiral tube with a spiral cross section, 2 is a suction pipe bent at an approximately right angle, and 3 is installed at the outlet 2b of the suction pipe 2. 4 is a generator, and 5 is a drive shaft that connects the windmill 3 to the generator 4.
吸入管2はその吹出口2bをうず巻筒1の下側開口部1
c内に臨ませて配置され、吸入管2の吸入口2aはうず
巻筒1の巻込口1aとともに風上に向けて設置される。The suction pipe 2 has its outlet 2b connected to the lower opening 1 of the spiral tube 1.
The suction port 2a of the suction pipe 2 and the winding port 1a of the spiral tube 1 are arranged facing upwind.
そこで、うず巻筒1内には吸入管2に吹き込んだ風の吐
出流と巻込口1aから吹き込んだ風で作られた旋回流と
でうず春泥が発生し、このうず春泥は上側開口部1bか
ら排気される。Therefore, swirl spring mud is generated in the spiral tube 1 by the discharge flow of the wind blown into the suction pipe 2 and the swirling flow created by the wind blown from the intake port 1a, and this swirl spring mud is is exhausted from.
このうず巻の発生によって吸入管2の吹出口2bにおけ
る吐出流(上昇流)の流速が増し、単に自然風によるよ
りも効果的に風車3が回転駆動されることになる。The generation of this spiral increases the flow velocity of the discharge flow (upward flow) at the outlet 2b of the suction pipe 2, and the windmill 3 is rotationally driven more effectively than simply by natural wind.
本発明は斯かる原理に基づくうず春光電装置の一層の効
率向上を図ったものであり、その特徴とする構成は、上
下に開口する断面ら旋状のうず巻筒と、このうず巻筒の
下端に連設され、該うず巻筒の巻込口と略同方向に開口
する吸入口及びうず巻筒の下側開口部に連通ずる吹出口
を有する吸入管体と、前記うず巻筒の上端に連設され、
うず巻筒の前記巻込口と略反対方向に開口する排気口及
びうず巻筒め上側開口部に連通ずる連通穴を有する吐出
整流管体と、前記吸入管体の吹出穴に設置される風車と
、この風車に駆動軸を介して連結される発電機とを備え
たことにある。The present invention aims to further improve the efficiency of the whirlpool photoelectric device based on this principle, and its characteristic configuration includes a spiral tube with a spiral cross section that opens upward and downward, and a spiral tube with a spiral cross section that opens upward and downward. a suction pipe body connected to the lower end and having an inlet opening in substantially the same direction as the intake port of the spiral cylinder and an outlet communicating with the lower opening of the spiral cylinder, and an upper end of the spiral cylinder; is connected to
A discharge rectifying pipe body having an exhaust port opening in a direction substantially opposite to the intake port of the spiral pipe, and a communication hole communicating with the upper opening of the spiral pipe, and a windmill installed in the blow-off hole of the suction pipe body. and a generator connected to the windmill via a drive shaft.
以下、第2〜6図を参照して本発明の一実施例を説明す
る。An embodiment of the present invention will be described below with reference to FIGS. 2 to 6.
なお本実施例装置には、第3,5゜6図に示すように、
風向きの変化に追従できるよう風を動力源とする旋回装
置を設けである。The device of this embodiment has the following features as shown in Figs.
A wind-powered swivel device is installed to follow changes in wind direction.
第2図はうず春光生部の一例を示し、第3図はこのうず
春光生部を用いたうず春光電装置の外観を概略的に示し
、第4図は前記うず春光生部の各所の断面を示す。Fig. 2 shows an example of the whirlpool spring light-producing part, Fig. 3 schematically shows the appearance of the whirlpool spring light electric device using this whirlpool spring light-bearing part, and Fig. 4 shows cross-sections of various parts of the whirlpool spring light-bearing part. shows.
また第5図は第4図を斜めから示し、第6図は旋回駆動
系を示す。Further, FIG. 5 shows FIG. 4 from an oblique view, and FIG. 6 shows the swing drive system.
第2図に示すようにうず春光生部は、うず巻筒1と、う
ず巻筒1の下端に連設された吸入管体6と、うず巻筒1
の上端に連設された吐出整流管体7とでカる。As shown in FIG. 2, the whirlpool light generating part includes a whirlpool tube 1, a suction pipe body 6 connected to the lower end of the whirlpool tube 1, and a whirlpool tube 1.
The discharge rectifying pipe body 7 is connected to the upper end of the discharge rectifying pipe body 7.
吸入管体6はうず巻筒1の巻込口1aと略同方向に開口
する吸入口6aとうず巻筒1の下側開口部1cに連通す
る吹出穴6bとを有し、吸入口6aから吐出穴6bに至
って次第に断面積が減小する。The suction pipe body 6 has an inlet 6a that opens in approximately the same direction as the intake port 1a of the spiral tube 1, and an outlet hole 6b that communicates with the lower opening 1c of the spiral tube 1. The cross-sectional area gradually decreases when reaching the discharge hole 6b.
一方、吐出整流管体7はうず巻筒1の巻込口1aとは略
反対方向に広く開口する排気ロアaとうず巻筒1の上側
開口部1bに連通する連通穴7bとを有する。On the other hand, the discharge rectifying tube body 7 has an exhaust lower a that opens widely in a direction substantially opposite to the winding port 1a of the spiral tube 1, and a communication hole 7b that communicates with the upper opening 1b of the spiral tube 1.
また第4図C参照に示すように吸入管体6の吸入口6a
には風案内(ルーバー)6cを設け、同図dyeに示す
ように吐出整流管体7の排気ロアaには整風板ICを設
けである。In addition, as shown in FIG. 4C, the suction port 6a of the suction pipe body 6
A wind guide (louver) 6c is provided, and as shown in FIG.
更に第4図d中の番号7dは風通路形成板である。Furthermore, number 7d in FIG. 4d is a ventilation passage forming plate.
彦お、うず巻筒1の上下端は吹出穴6b及び連通穴7b
による連通以外は閉塞し、不要な空気流を防止しである
。Hiko, the upper and lower ends of the spiral tube 1 are the blowout hole 6b and the communication hole 7b.
The communication area other than the one due to this is closed to prevent unnecessary air flow.
上記うず春光生部は、第3図に示すように、旋回支持軸
受8に支えられて発電機4の上方にて旋回可能に立設さ
れており、発電機4と風車3とを連結する駆動軸5は吸
入管体6内に貫通し、吸入管体6の吹出穴6bに風車3
が配置されてうず春光電装置が形成される。As shown in FIG. 3, the whirlpool light generation part is supported by a swing support bearing 8 and is rotatably installed above the generator 4, and is a driving force that connects the generator 4 and the wind turbine 3. The shaft 5 penetrates into the suction pipe body 6, and the windmill 3 is inserted into the blow-off hole 6b of the suction pipe body 6.
are arranged to form an Uzushunkoden device.
また駆動軸5にはフライホイール9を取付けである。Further, a flywheel 9 is attached to the drive shaft 5.
斯かるうず春光電装置では、第3図及び第4図C参照の
如く矢印方向に風が吹くと、先ず吸入管体6の吸入口6
aから吹き込む風は該吸入管体6に案内され且つ速度を
早められて吹出穴6bより上方へ噴出する。In such an Uzu Shunko Electric device, when the wind blows in the direction of the arrow as shown in FIGS.
The wind blown in from a is guided by the suction pipe body 6, has an increased speed, and is ejected upward from the blow-off hole 6b.
一方、うず巻筒1の巻込口1aから吹き込む風は該うず
巻筒1内部で旋回流を作りながら(第4図C参照:上昇
し、うず春泥の上端は吐出整流管体7よシ外部へ排気さ
れる。On the other hand, the wind blowing in from the intake port 1a of the spiral tube 1 creates a swirling flow inside the spiral tube 1 (see Fig. 4C), and the upper end of the spiral mud moves outward from the discharge rectifier tube 7. is exhausted to.
この場合、第3図及び第4図d。eに矢印で示す如く吐
出整流管体Iの外部には排気方向へ風が流れており、し
かも排気ロアaは広く開口しているため、吸出し効果が
生じて吐出整流管体7内及びうず巻筒1内の空気が強く
吸い出される。In this case, FIGS. 3 and 4d. As shown by the arrow in e, wind is flowing outside the discharge rectifier tube I in the exhaust direction, and since the exhaust lower a has a wide opening, a suction effect occurs and the air flows inside the discharge rectifier tube 7 and into the spiral. The air inside cylinder 1 is strongly sucked out.
したがってうず巻筒1内部では、吹出穴6bからの上昇
流と巻込口1aからの旋回流とによって強い人工竜巻が
生じ、このため吹出穴6b付近は極めて強い上昇流とな
る。Therefore, inside the spiral tube 1, a strong artificial tornado is generated by the upward flow from the blow-off hole 6b and the swirling flow from the intake port 1a, and therefore an extremely strong upward flow occurs near the blow-off hole 6b.
本発明ではぐの強い上昇流部分に風車3が設置されてい
るので、風力エネルギを集中した形で利用することにな
り、発電出力ば増加する。In the present invention, since the wind turbine 3 is installed in a strong upward flow section, the wind energy is utilized in a concentrated manner, and the power generation output increases.
またうず巻筒1からのうず春泥は整風板7c及び風通路
形成板7dによって整流されて排気ロアaより円滑に排
気される。Further, the swirling spring mud from the spiral tube 1 is rectified by the air regulating plate 7c and the air passage forming plate 7d, and is smoothly exhausted from the exhaust lower a.
次に旋回装置について第3.5.6図を参照して説明す
る。Next, the turning device will be explained with reference to Fig. 3.5.6.
この旋回装置は風向きが変ってもうず春光生部の巻込口
1a及び吸入口6aを常に風上に向けさせるものであり
、風向きが変っても発電機4は常に回転駆動されること
に力る。This turning device always directs the winding inlet 1a and the inlet 6a of the Uzushunkou production section upwind even when the wind direction changes, and the power generator 4 is always driven to rotate even when the wind direction changes. Ru.
前記旋回支持軸受8によって吸入管体6下部で支持され
たうず春光生部には、旋回を確実にするため吐出整流管
体7上部に旋回中心軸10が設けられ、四隅が支持張線
11によって地表12に向けて引っ張られた支持枠13
の中央部にて前記旋回中心軸10が軸支されてうず春光
生部が立起されている。The whirling spring light generating portion supported at the lower part of the suction tube body 6 by the rotation support bearing 8 is provided with a rotation center axis 10 at the upper part of the discharge rectifying tube body 7 to ensure rotation, and the four corners are connected by support tension wires 11. Support frame 13 pulled toward ground surface 12
The pivot shaft 10 is pivotally supported at the center of the shaft, and the whirlpool light generating section is erected.
なお第3,5図中、14は支柱、15は張線、16はア
ンカーである。In addition, in FIGS. 3 and 5, 14 is a support, 15 is a tension wire, and 16 is an anchor.
ところでうず春光生部の立起は支持枠13及び支持張線
11による以外、例えば鉄塔や鉄柱によって行々つても
良い。By the way, the eddy spring light growing part may be erected not only by the support frame 13 and the support tension wire 11 but also by, for example, a steel tower or a steel pole.
このようにして旋回可能に立起されたうず春光生部には
、巻込口1aの反対側にて風見17が固着され、更に旋
回用の風車18が設けられている。A weather vane 17 is fixed to the whirlpool light generating part which has been erected so as to be able to turn in this way on the opposite side of the winding opening 1a, and a windmill 18 for turning is further provided.
風見17は巻込口1aから排気ロアaへ至る風向きと略
平行に設置され、風車18は軸受支持脚19に支えられ
た風車軸受20によって該風向きと略直角に向けて設置
される。The wind vane 17 is installed approximately parallel to the direction of the wind from the intake port 1a to the exhaust lower a, and the windmill 18 is installed approximately perpendicular to the direction of the wind by means of a windmill bearing 20 supported by a bearing support leg 19.
々お21は風見17の支持脚である。Number 21 is the supporting leg of weather vane 17.
前記旋回用の風車18の回転軸18aは、一対の傘歯車
22.22a及び自在継手23でなる上部伝動機構24
と、上部伝動軸25と、一対の傘歯車26.26a及び
二組の自在継手27.28でなる中間伝動機構29と、
下部伝動軸30と、自在継手31、一対の傘歯車32.
32a及び一対の平歯車33.33aでなる下部伝動機
構34とを順に介して旋回機構35に連結される。The rotating shaft 18a of the wind turbine 18 for turning is connected to an upper transmission mechanism 24 consisting of a pair of bevel gears 22, 22a and a universal joint 23.
and an intermediate transmission mechanism 29 consisting of an upper transmission shaft 25, a pair of bevel gears 26.26a and two sets of universal joints 27.28,
A lower transmission shaft 30, a universal joint 31, a pair of bevel gears 32.
32a and a lower transmission mechanism 34 consisting of a pair of spur gears 33 and 33a in order.
旋回機構35はこの場合平歯車33aと一体に回転する
ピニオン36及び固設された大歯車37とでなるが、ピ
ニオン36の代りにローラを用い且つ大歯車37の代り
にレールを用いても良い。In this case, the turning mechanism 35 includes a spur gear 33a, a pinion 36 that rotates together with the spur gear 33a, and a fixed large gear 37, but a roller may be used in place of the pinion 36, and a rail may be used in place of the large gear 37. .
これら旋回装置のうち、旋回支持軸受8、支持枠13及
び大歯車37以外はうず春光生部に支持されており、該
うず春光生部と一緒に旋回するものである。Of these turning devices, the parts other than the turning support bearing 8, the support frame 13, and the large gear 37 are supported by the whirlpool spring light generating part, and rotate together with the whirlpool spring light generating part.
次に、上記旋回装置による旋回動作を説明するが、旋回
は風見17だけによってもなされ、また旋回用の風車1
8の回転だけによってもなされるので、別々に説明する
。Next, the turning operation by the above-mentioned turning device will be explained.
Since it can also be done by only the rotation of 8, it will be explained separately.
まず風見17による場合は、風見17と平行方向以外の
風が吹くと風見17は風圧を受ける結果、風見17はう
ず春光生部と一緒に旋回して風向きと平行な位置に至る
。First, in the case of the weather vane 17, when the wind blows in a direction other than parallel to the wind vane 17, the wind vane 17 receives wind pressure, and as a result, the weather vane 17 rotates together with the swirling spring light growing part and reaches a position parallel to the wind direction.
これによってうず春光生部の巻込口1a及び吸入口6a
は風上を向き、排気ロアaは風下を向く。As a result, the intake port 1a and the intake port 6a of the Uzuharuko-born part
faces upwind, and exhaust lower a faces downwind.
一方風車18による場合は、該風車18と平行方向以外
の風が吹くと該風車18は風によって回転させられるが
、今第6図に示す破線矢印Fの如く風が吹いたとする。On the other hand, in the case of the windmill 18, if the wind blows in a direction other than parallel to the windmill 18, the windmill 18 will be rotated by the wind. Now suppose that the wind blows as indicated by the broken line arrow F in FIG.
この風によって風車1B及びその回転軸18aは矢印G
方向に回転する。This wind moves the windmill 1B and its rotating shaft 18a as shown by the arrow G.
Rotate in the direction.
以下、上部伝動機構24、中間伝動機構29及び下部伝
動機構34によって上部伝動軸25、下部伝動軸30及
びピニオン36が矢印方向に回転し、その結果ピニオン
36と大歯車37との噛合によってうず春光生部が矢印
H方向に旋回する。Hereinafter, the upper transmission mechanism 24, the intermediate transmission mechanism 29, and the lower transmission mechanism 34 rotate the upper transmission shaft 25, the lower transmission shaft 30, and the pinion 36 in the direction of the arrow, and as a result, the pinion 36 and the large gear 37 mesh with each other to rotate the whirlpool light. The raw part turns in the direction of arrow H.
この旋回は風車18が風向きと平行になって止まり、う
ず春光生部の巻込口1a及び吸入口6aは風上を向き、
排気ロアaは風下を向く。This rotation stops when the windmill 18 becomes parallel to the wind direction, and the intake port 1a and intake port 6a of the whirling spring light production section face upwind.
The exhaust lower a faces downwind.
以上実施例とともに具体的に説明したように、本発明に
よれば、発電機を回転駆動する風車が極めて強い上昇流
を受けて回転するので発電出力が大幅に増加する。As specifically explained above in conjunction with the embodiments, according to the present invention, the wind turbine that rotationally drives the generator rotates in response to an extremely strong upward flow, resulting in a significant increase in power generation output.
第1図はうず春光電の原理を示す説明図、第2図はうず
春光生部の一実施例を示す斜視図、第3図は第2図のう
ず春光生部を用いたうず春光電装置を示す概略側面図、
第4図a ”−eのうち、a。
C及びdは夫々第3図中のA−A線、B−B線及びC−
C線に沿う断面図でb及びeは夫々第4図aのD−D線
及びdのE−E線に沿う断面図、第5図は第3図の斜視
図、第6図は旋回駆動系の説明図である。
図面中、1はうず巻筒、1aはその巻込口、1bは上側
開口部、1cは下側開口部、3は風車、4は発電機、5
は駆動軸、6は吸入管体、6aはその吸入口、6bは吹
出穴、7は吐出整流管体、7aはその排気0,7bは連
通穴、9はフライホイールである。Figure 1 is an explanatory diagram showing the principle of Uzu Shunkoden, Figure 2 is a perspective view showing an example of the Uzu Shunko Den, and Figure 3 is the Uzu Shunko Den device using the Uzu Shunko Den of Figure 2. A schematic side view showing the
In Figure 4 a''-e, a.C and d correspond to the A-A line, B-B line and C-
5 is a perspective view of FIG. 3, and FIG. 6 is a sectional view taken along line C, b and e are sectional views taken along line D-D in FIG. 4 a and line E-E in d, respectively. It is an explanatory diagram of a system. In the drawing, 1 is a spiral tube, 1a is its inlet, 1b is an upper opening, 1c is a lower opening, 3 is a windmill, 4 is a generator, 5
6 is a drive shaft, 6 is a suction pipe, 6a is an inlet, 6b is a blowout hole, 7 is a discharge rectifier pipe, 7a is an exhaust 0, 7b is a communication hole, and 9 is a flywheel.
Claims (1)
巻筒の下端に連設され、該うず巻筒の巻込口と略同方向
に開口する吸入口及びうず巻筒の下側開口部に連通ずる
吹出穴を有する吸入管体と、前記うず巻筒の上端に連設
され、うず巻筒の前記巻込口と略反対方向に開口する排
気口及びうず巻筒の上側開口部に連通ずる連通穴を有す
る吐出整流管体と、前記吸入管体の吹出穴に設置される
風車と、この風車に駆動軸を介して連結される発電機と
を備えたことを特徴とするうず春光電装置。1. A spiral tube with a spiral cross section that opens upward and downward, and an inlet and a lower end of the spiral tube that are connected to each other at the lower end of the spiral tube and open in substantially the same direction as the intake opening of the spiral tube. an inlet pipe body having a blow-off hole communicating with a side opening; an exhaust port connected to the upper end of the spiral cylinder and opening in a direction substantially opposite to the intake port of the spiral cylinder; and an upper opening of the spiral cylinder. A discharge rectifying pipe body having a communication hole communicating with the suction pipe body, a windmill installed in the blowout hole of the suction pipe body, and a generator connected to the windmill via a drive shaft. Uzuharukoden device.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP54073964A JPS5911752B2 (en) | 1979-06-14 | 1979-06-14 | spiral generator |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP54073964A JPS5911752B2 (en) | 1979-06-14 | 1979-06-14 | spiral generator |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS56564A JPS56564A (en) | 1981-01-07 |
| JPS5911752B2 true JPS5911752B2 (en) | 1984-03-17 |
Family
ID=13533261
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP54073964A Expired JPS5911752B2 (en) | 1979-06-14 | 1979-06-14 | spiral generator |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS5911752B2 (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH0175465U (en) * | 1987-11-07 | 1989-05-22 |
Families Citing this family (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS57188967U (en) * | 1981-05-27 | 1982-11-30 | ||
| US5463212A (en) * | 1992-05-07 | 1995-10-31 | Hitachi Maxell, Ltd. | Latent image forming member and method of manufacturing, latent image reading apparatus and latent image reading system |
| AT410468B (en) * | 2001-08-08 | 2003-05-26 | Wieser Gudrun | Wind force device for energy recovery |
| KR100682411B1 (en) * | 2002-07-20 | 2007-02-15 | 김응정 | Wind power generator |
| CN105604797A (en) * | 2016-03-03 | 2016-05-25 | 高飞 | Wind-driven power generator with spiral structures |
-
1979
- 1979-06-14 JP JP54073964A patent/JPS5911752B2/en not_active Expired
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH0175465U (en) * | 1987-11-07 | 1989-05-22 |
Also Published As
| Publication number | Publication date |
|---|---|
| JPS56564A (en) | 1981-01-07 |
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