| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | JPH0512509B2 - | JP13497987 | 1987-06-01 | JPH0512509B2 | 1993-02-18 | KODAN NORIHISA |
| 102 | JPH0162456U - | JP15670487 | 1987-10-15 | JPH0162456U | 1989-04-21 | |
| 103 | JPH0162455U - | JP15670287 | 1987-10-15 | JPH0162455U | 1989-04-21 | |
| 104 | Wave forming apparatus | JP13497987 | 1987-06-01 | JPS63300783A | 1988-12-07 | KODAN NORIHISA |
| 105 | Turbulent current generating device | JP7544081 | 1981-05-19 | JPS57190245A | 1982-11-22 | OOGUSHI KIMIO; NAKANO MOTOHIRO |
| PURPOSE:To stabilize turbulent, by a method wherein the degree of turbulent is equalized in a direction being perpendicular to a flow of a flow path by constituting a device such that a square stay, supported parallel to a rotary shaft, is located rotatably, a perforation is formed in a direction of a width of the square stay, and an insertion rod moving in parallel is inserted thereinto. CONSTITUTION:A plural number of rotary shafts 4, perpendicularly inserted into a flow path, is aligned in one row on a plane surface crossing a current at right angles, and sqaure stays 7 are pivotably supported to support arms 6, secured to the upper and the lower part of the rotary shaft 4. A perforaion 10 is formed in the proximity of the upper end of the sqaure stay 7 and in a direction of a width, and an insertion rod 11 is rectiliearly inserted through the perforation 10 in their respective sqarure stays 7 when the rotary shaft 4 turns, the support arm 6 rocks, and the square stay 7 also rocks following the rocking of the arm 6. However, the insertion rod 11 is forced to move in parallel, and thereby the square stay 7 is prevented from turning. As a result, an area of a section against a flow is also prevented from changing, and this causes equalizing of a strength of turbulent at th downstream side of the rocking range of the square stay 7. | ||||||
| 106 | Turbulent flow generator | JP7302881 | 1981-05-15 | JPS57187636A | 1982-11-18 | OOGUSHI KIMIO; KAWABE HISAYOSHI; OKAMOTO HIROTAKA |
| PURPOSE:To obtain a turbulent flow generator capable of generating a flow equal in the degree of a turbulent flow in th direction parpendicular to the flow of a passage by parallelly moving a prism movable in the passge through a rotating shaft connected with a fixed circumferential section by a pair of springs. CONSTITUTION:A prism 7 pivoted on a shaft 7a provided on a support arm 6 rotating with a shaft 4 intermittently turning through a step motor 8 or the like is connected to one end of a pair of springs 11 with the other end thereof fixed on a fixed ceiling 5 or the like of a air tunnel 1 or the like. With such an arrangenent, the prism 7 moves parallelly without oscillation with the rotation of the shaft 4 therby making a flow equal in the degree of the turbulent flow in the direction parpendicular to the flow of the passage. Thus, a turbulent flow generator is obtained which is capable of reproduce a natural turbulent flow easy of responsive analysis. | ||||||
| 107 | JPS5713710B2 - | JP10481272 | 1972-10-19 | JPS5713710B2 | 1982-03-18 | |
| 108 | JPS56129674U - | JP2778180 | 1980-02-29 | JPS56129674U | 1981-10-02 | |
| 109 | JPS5137793B2 - | JP8242071 | 1971-10-20 | JPS5137793B2 | 1976-10-18 | |
| 110 | JPS51323B2 - | JP8407371 | 1971-10-23 | JPS51323B2 | 1976-01-07 | |
| 111 | JPS4938540B1 - | JP7648767 | 1967-11-30 | JPS4938540B1 | 1974-10-18 | |
| 112 | 볼 형상의 파도 발생 장치 | KR1020180026327 | 2018-03-06 | KR102065839B1 | 2020-01-13 | |
| 113 | 저잡음 냉각 장치 | KR1020107014978 | 2008-11-26 | KR1020100097201A | 2010-09-02 | 아르트스,로날두스.,엠.; 라산스,클레멘스,제이.,엠.; 니에우웬디즈크,조리스,에이.,엠.; 오우웰트제스,오케 |
| 물체의냉각을위해맥동유체를이용하는냉각장치(1)로서, 동작주파수(f)에서압력파들을생성하도록적응되는멤브레인을구비하는트랜스듀서(2) 및상기멤브레인의제1 측을둘러싸는공동(4)을포함하는냉각장치가개시된다. 상기공동(4)은상기물체를향해맥동순수출력유체흐름을방출하도록적응되는적어도하나의개구(5)를구비하고, 상기개구(5)는멤브레인의제2 측과통한다. 상기공동(4)은상기공동(4) 내의유체가동작범위내에서공진질량-스프링시스템내의스프링으로서작용하는것을방지할수 있을만큼충분히작다. 이것은개구에서의체적속도(u)가마이너스부호는제외하고멤브레인의제2 측에서의체적속도(u')와본질적으로동일함에따라유리하다. 따라서, 동작주파수에서, 맥동순수출력유체는멤브레인의제2 측상의압력파들과반대인위상으로인해크게제거되어, 원거리장체적속도가 0에가까워질수 있다. 따라서, 기계적대칭을필요로하지않고, 낮은비용으로낮은사운드레벨이달성된다. | ||||||
| 114 | 유수풀용 수류분사장치 | KR1020070126808 | 2007-12-07 | KR100917232B1 | 2009-09-16 | 이돈구 |
| 유수풀용 수류분사장치가 개시된다. 개시된 수류분사장치는 유수풀의 수로측벽에 소정간격을 두고 설치된 다수의 수류발생부재; 및 상기 다수의 수류발생부재의 일측에 각각 설치되어 상기 다수의 수류발생부재에 회전력을 부여하는 다수의 모터;를 포함하는 것을 특징으로 한다. 유수풀, 수로, 수류발생부재, 수류분사장치, 모터, 임펠러, 제트링 | ||||||
| 115 | 3익 진동형 복동 파동펌프 | KR1019970074849 | 1997-12-27 | KR1019990054960A | 1999-07-15 | 김현주 |
| 본 발명은 바다의 무한한 파랑에너지를 이요하여 해수를 송수시키는 파동펌프에 관한 것으로서 특히, 3익 진동형 복동 파동펌프에 관한 것이다 종래에는 무한한 파랑에너지 이용시스템을 경제성 문제로 실용화하지 못하여 왔다. 본 발명은 파랑작용에 의한 전자판의 운동을 변환시켜 해수를 원하는 곳으로 송수하는 파동펌프 시스템에 관한 것으로 파랑의 수평왕복운동을 이용하여 진자판을 전후로 움직이게 하고 그 중심축의 연동으로 일체의 회전익을 실린더에서 왕복운동시켜 해수를 흡, 토출시킴으로써 파랑에너지를 기계적 에너지로 변환되며, 블록과 회전익 사이의 유체는 압축과 팽탕을 교번하게 되는 펌프로 구성되어 해수를 육상 양식장으로 양수하거나 항만이나 내만으로 신선한 외해수를 공급할 수 있도록 한 것이다. | ||||||
| 116 | 개량 복동 양수기 | KR2019650000383 | 1965-02-24 | KR200003059Y1 | 1965-09-15 | 추윤복 |
| 117 | 개량 복동 양수기 | KR2019650000383 | 1965-02-24 | KR2019650001495Y1 | 1965-06-20 | 추윤복 |
| 118 | WAVE POOL AND WAVE GENERATOR FOR BI-DIRECTIONAL AND DYNAMICALLY-SHAPED SURFING WAVES | US17697847 | 2022-03-17 | US20220349199A1 | 2022-11-03 | Adam Fincham; Alex Poirot; Nathan Loewen; Robert Kelly Slater |
| A wave pool and wave generating mechanism are disclosed. The wave pool includes a bathymetry that includes a dynamically shapeable reef along a length or circumference of a channel that defines the wave pool. The wave generating mechanism includes a foil that has a shape for bi-directionality based on an adjustment of a yaw angle of the foil. The foil can be further controlled to increase or decrease certain surface areas or other angles of interacting with water in the wave pool. | ||||||
| 119 | Experimental apparatus for simulating lifting operation of deep-sea mining | US16603972 | 2018-12-24 | US11119002B2 | 2021-09-14 | Linjing Xiao; Qinghui Song; Yulong Zhang; Yu Wang; Shuai Zuo; Qiang Liu |
| Provided is an experimental apparatus for simulating lifting operation of deep-sea mining, which relates to the technical field of experimental equipment of deep-sea mining. By this apparatus, dynamic characteristics of a spatial structure when simulating lifting operation of deep-sea mining are solved. The apparatus includes an experimental box, a wave-making mechanism, a flowrate control mechanism, a mining simulation mechanism and a monitoring mechanism. The wave-making mechanism includes a control box and a wave-pushing board for simulating waves. The flowrate control mechanism includes a water pump, a motor, a grating board and a manifold so that the flowrate and the flow volume can be adjusted by the grating board and the manifold. The mining simulation mechanism includes an experimental ship model, a lifting pipe, a material-mixing pipe, a mineral slurry pipe, a material-delivering pipe and a material-returning pipe for simulating lifting operation states. The monitoring mechanism includes a wave height measurer, a displacement sensor, a flowrate measurer and an image collection apparatus for detecting dynamic influence of the wave height and the wave speed on the mining simulation mechanism during a mining process, especially during lifting operation. Further, the apparatus has advantages such as multi-parameter real-time monitoring, low fabrication cost and simple operation. | ||||||
| 120 | Wave tainer displacement wave generator | US16873760 | 2020-06-29 | US10953299B1 | 2021-03-23 | Walter Judson Bennett |
| The present invention is a shipping container water displacement activated wave generating device for use in a body of water. The wave generating device preferably has displacement forming characteristics that help to create laminar waves which then transverse a slope or artificial surfing reef to create waves which surfing maneuvers can be performed. The water displacement device is a wave container, which is oscillated up and down by mechanical means and the container displaces water to form a swell toward the slope or reefs and creates a wave for surfing. | ||||||
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