WO2022099434A1 - Marine wind force monitoring device - Google Patents

Marine wind force monitoring device Download PDF

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Publication number
WO2022099434A1
WO2022099434A1 PCT/CN2020/127705 CN2020127705W WO2022099434A1 WO 2022099434 A1 WO2022099434 A1 WO 2022099434A1 CN 2020127705 W CN2020127705 W CN 2020127705W WO 2022099434 A1 WO2022099434 A1 WO 2022099434A1
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WIPO (PCT)
Prior art keywords
fixedly connected
roller
box body
monitoring device
gear
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PCT/CN2020/127705
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French (fr)
Chinese (zh)
Inventor
刘浩源
郭舒璐
赵朋
田丙奇
Original Assignee
唐山圣因海洋科技有限公司
唐山哈船科技有限公司
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Application filed by 唐山圣因海洋科技有限公司, 唐山哈船科技有限公司 filed Critical 唐山圣因海洋科技有限公司
Priority to PCT/CN2020/127705 priority Critical patent/WO2022099434A1/en
Publication of WO2022099434A1 publication Critical patent/WO2022099434A1/en

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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01PMEASURING LINEAR OR ANGULAR SPEED, ACCELERATION, DECELERATION, OR SHOCK; INDICATING PRESENCE, ABSENCE, OR DIRECTION, OF MOVEMENT
    • G01P1/00Details of instruments
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01PMEASURING LINEAR OR ANGULAR SPEED, ACCELERATION, DECELERATION, OR SHOCK; INDICATING PRESENCE, ABSENCE, OR DIRECTION, OF MOVEMENT
    • G01P5/00Measuring speed of fluids, e.g. of air stream; Measuring speed of bodies relative to fluids, e.g. of ship, of aircraft

Definitions

  • the invention relates to the technical field of ocean wind monitoring, in particular to an ocean wind monitoring device.
  • the ocean is the general term for the most expansive body of water on Earth.
  • the surface of the earth is divided into large waters that are connected to each other called oceans.
  • the central part of the ocean is called ocean, and the edge part is called sea. They communicate with each other to form a unified body of water.
  • the total area of the oceans on the earth is about 360 million square kilometers, accounting for about 71% of the earth's surface area, and the average water depth is about 3795 meters.
  • the ocean contains more than 1.35 billion cubic kilometers of water, accounting for about 97% of the total water on the earth, and only 2% can be used for human drinking.
  • the ocean is one of the main factors that determine the development of climate on the earth.
  • the existing ocean wind detection device cannot adjust the height of the generator fan according to the real-time wind condition, and is subject to various restrictions in use.
  • the purpose of the present invention is to solve the disadvantage that the existing ocean wind detection device cannot adjust the height of the generator fan according to the real-time wind condition, and is subject to various restrictions during use, and proposes an ocean wind monitoring device.
  • An ocean wind monitoring device includes a buoyancy base, the top of the buoyancy base is rotatably provided with a first box body, the top of the first box body is fixedly connected with a second box body, and the inner walls of both sides of the second box body are provided with openings
  • a chute a sliding rod is fixedly connected in the chute, a first sleeve is set in a sliding sleeve in the second box, a first roller is rotatably arranged in the first sleeve, and the bottom end of the first roller is fixedly connected with a generator , the bottom of the generator is fixedly connected to the limit plate, the two sides of the first casing are fixedly connected with a positioning plate, the positioning plate and the side of the limit plate are fixedly connected with a slider, and the two sliders at the same end are sleeved on On the same sliding rod, the bottom of the limit plate is hingedly connected with two support plates, the bottom of the support plate is hingedly connected with a nut, the
  • one end of the screw rod extends outside the first box and is fixedly connected with a first motor, and the first motor is fixedly connected to one side of the first box.
  • an equipment box is fixedly connected to the top of the first sleeve
  • a second sleeve is fixedly connected to one side of the equipment box
  • the top end of the first roller extends into the equipment box and is fixedly connected to the first bevel gear.
  • the first bevel gear is meshed with a second bevel gear
  • a second roller is fixedly connected to one side of the second bevel gear
  • the second roller is rotatably connected in the second sleeve
  • the second roller is One end is fixedly connected with a paddle.
  • a first gear is fixedly sleeved on the screw rod
  • a second gear is meshed on the first gear
  • a third roller is fixedly sleeved on the second gear.
  • the third roller is rotatably connected to the first box, a roller is fixedly sleeved on the third roller, and a sling is arranged on the roller.
  • the bottom of the buoyancy base is provided with a clip slot, and one end of the sling extends into the clip slot and is fixedly connected with the anchor.
  • an annular rack is fixedly connected to the side of the first box, a third gear is engaged with the annular rack, a fourth roller is fixedly connected to the bottom of the third gear, and the bottom end of the fourth roller is fixed A second motor is connected, and the second motor is fixedly connected to the buoyancy base.
  • the screw can be rotated by the first motor.
  • the nut can be pushed to move, and the inclination angle of the support plate can be adjusted by the nut, so that the limit plate can be pushed up and down through the support plate, and then the first sleeve can be pushed in Sliding on the second box is convenient to adjust the height of the first casing, the equipment box and the second casing, and then through the matching of the positioning plate, the slider and the sliding rod, the first casing can be limited, which is convenient and effective.
  • the blade and the second roller are driven by the external wind to rotate, the second bevel gear on the second roller can rotate the first bevel gear and the first roller, and the output shaft of the generator can be rotated through the first roller, and the To generate electricity, the magnitude of the wind force can be detected by the rate of electricity generation.
  • the first gear on the screw can rotate the second gear and the third roller, and then the drum can be rotated. anchor.
  • the fourth roller and the third gear can be rotated by the second motor, and the orientation of the paddle can be easily adjusted by the cooperation of the third gear and the ring rack.
  • Fig. 1 is the structural schematic diagram of the side view section of a kind of ocean wind monitoring device proposed by the present invention
  • Fig. 2 is a side view cross-sectional structural schematic diagram of a first box body and a second box body in an ocean wind monitoring device proposed by the present invention
  • FIG. 3 is a schematic structural diagram of part A in FIG. 1 of a marine wind monitoring device proposed by the present invention
  • FIG. 4 is a schematic structural diagram of part B in FIG. 1 of a marine wind monitoring device proposed by the present invention
  • FIG. 5 is a schematic structural diagram of part C in FIG. 1 of an ocean wind monitoring device proposed by the present invention.
  • an ocean wind monitoring device includes a buoyancy base 1, the top of the buoyancy base 1 is rotatably provided with a first box 2, the top of the first box 2 is fixedly connected with a second box 3, the second The inner walls of both sides of the box body 3 are provided with chute 4, a sliding rod 5 is fixedly connected in the chute 4, a first sleeve 6 is slidably sleeved in the second box 3, and the first sleeve 6 is rotatably arranged inside There is a first roller 7, the bottom end of the first roller 7 is fixedly connected with a generator 8, the bottom of the generator 8 is fixedly connected with a limiting plate 9, and both sides of the first sleeve 6 are fixedly connected with a positioning plate 10, The side surfaces of the positioning plate 10 and the limiting plate 9 are fixedly connected with a sliding block 11 , the two sliding blocks 11 at the same end are sleeved on the same sliding rod 5 , and the bottom of the limiting plate 9 is hingedly connected with two support
  • one end of the screw rod 14 extends to the outside of the first box body 2 and is fixedly connected with the first motor 15.
  • the first motor 15 is fixedly connected to one side of the first box body 2. By arranging the first motor 15, it is possible to The screw 14 is turned.
  • an equipment box 16 is fixedly connected to the top of the first sleeve 6
  • a second sleeve 17 is fixedly connected to one side of the equipment box 16
  • the top of the first roller 7 extends into the equipment box 16 and is fixedly connected
  • There is a first bevel gear 18 and the second sleeve 17 is conveniently supported by setting the equipment box 16 .
  • a second bevel gear 19 is meshed with the first bevel gear 18
  • a second roller 20 is fixedly connected to one side of the second bevel gear 19
  • the second roller 20 is rotatably connected to the second sleeve 17
  • one end of the second roller 20 is fixedly connected with a paddle 21 , and by arranging the paddle 21 , the second roller 20 can be rotated.
  • a first gear 22 is fixedly sleeved on the screw 14
  • a second gear 23 is meshed on the first gear 22
  • a third roller 24 is fixedly sleeved on the second gear 23.
  • the third roller 24 is rotatably connected in the first box body 2 , a roller 25 is fixedly sleeved on the third roller 24 , and a sling 26 is arranged on the roller 25 . Sling 26.
  • the bottom of the buoyancy base 1 is provided with a slot 27, and one end of the sling 26 extends into the slot 27 and is fixedly connected with an anchor 28. By setting the anchor 28, it is convenient to fix the equipment.
  • an annular rack 29 is fixedly connected to the side of the first box body 2
  • a third gear 30 is engaged with the annular rack 29
  • a fourth roller 31 is fixedly connected to the bottom of the third gear 30 .
  • a second motor 32 is fixedly connected to the bottom end of the roller 31 , and the second motor 32 is fixedly connected to the buoyancy base 1 . By setting the second motor 32 , the fourth roller 31 and the third gear 30 can be rotated.
  • an ocean wind monitoring device includes a buoyancy base 1, the top of the buoyancy base 1 is rotatably provided with a first box 2, the top of the first box 2 is fixedly welded with a second box 3, the second There are sliding grooves 4 on both inner walls of the box body 3, and a sliding rod 5 is fixedly welded in the sliding groove 4.
  • a first sleeve 6 is slidably sleeved in the second box body 3, and the first sleeve 6 is rotatably arranged inside.
  • first roller 7 There is a first roller 7, the bottom end of the first roller 7 is fixedly welded with a generator 8, the bottom of the generator 8 is fixedly connected to a limiting plate 9 by screws, and both sides of the first sleeve 6 are fixedly welded with a positioning plate 10.
  • the sides of the positioning plate 10 and the limiting plate 9 are fixedly welded with the sliders 11, the two sliders 11 at the same end are sleeved on the same sliding rod 5, and the bottom of the limiting plate 9 is hingedly connected with two braces.
  • the bottom of the support plate 12 is hingedly connected with a nut 13, the two nuts 13 are threadedly connected with the same screw 14, and the threads at both ends of the screw 14 are symmetrically arranged.
  • one end of the screw rod 14 extends to the outside of the first box body 2 and is fixedly welded with the first motor 15 .
  • the first motor 15 is fixedly connected to one side of the first box body 2 by screws. By setting the first motor 15 , the screw 14 can be rotated.
  • the equipment box 16 is fixedly welded on the top of the first sleeve 6
  • the second sleeve 17 is fixedly welded on one side of the equipment box 16
  • the top of the first roller 7 extends into the equipment box 16 and is fixedly welded.
  • There is a first bevel gear 18, and the second sleeve 17 can be conveniently supported by arranging the equipment box 16.
  • a second bevel gear 19 is meshed with the first bevel gear 18
  • a second roller 20 is fixedly welded on one side of the second bevel gear 19
  • the second roller 20 is rotatably connected to the second sleeve 17
  • one end of the second roller 20 is fixedly welded with a paddle 21 , and by arranging the paddle 21 , the second roller 20 can be rotated.
  • a first gear 22 is fixedly sleeved on the screw 14
  • a second gear 23 is meshed on the first gear 22
  • a third roller 24 is fixedly sleeved on the second gear 23.
  • the third roller 24 is rotatably connected in the first box body 2 , a roller 25 is fixedly sleeved on the third roller 24 , and a sling 26 is arranged on the roller 25 . Sling 26.
  • the bottom of the buoyancy base 1 is provided with a slot 27, and one end of the sling 26 extends into the slot 27 and is fixedly welded with an anchor 28.
  • an anchor 28 By arranging the anchor 28, it is convenient to fix the equipment.
  • an annular rack 29 is fixedly welded on the side of the first box body 2
  • a third gear 30 is meshed on the annular rack 29
  • a fourth roller 31 is fixedly welded on the bottom of the third gear 30 .
  • the bottom end of the roller 31 is fixedly welded with a second motor 32 .
  • the second motor 32 is fixedly connected to the buoyancy base 1 by screws. By setting the second motor 32 , the fourth roller 31 and the third gear 30 can be rotated.
  • the screw 14 can be rotated by the first motor 15 .
  • the nut 13 can be pushed to move, and the inclination angle of the support plate 12 can be adjusted by the nut 13 , so that the limit plate 9 can be pushed up and down through the support plate 12 Slide, and then push the first sleeve 6 to slide on the second box 3, so as to facilitate the adjustment of the height of the first sleeve 6, the equipment box 16 and the second sleeve 17, and then pass the positioning plate 10, the slider 11 and the sliding rod. 5 in cooperation, the first casing 6 can be limited, which is convenient and effective.
  • the blade 21 and the second roller 20 are driven to rotate by the external wind, and the second bevel gear 19 on the second roller 20 can rotate the first bevel.
  • the gear 18 and the first roller 7 can rotate the output shaft of the generator 8 through the first roller 7 to generate electricity, and the magnitude of the wind force can be detected by the rate of electricity generation.
  • the first gear 22 on the screw 14 The second gear 23 and the third roller 24 can be rotated, and then the drum 25 can be rotated, the sling 26 can be retracted through the roller 25, and the anchor 28 can be easily retracted, and the fourth roller 31 and the third roller can be rotated through the second motor 32.
  • the third gear 30 is matched with the annular rack 29, so that the direction of the paddle 21 can be adjusted conveniently.

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  • General Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Aviation & Aerospace Engineering (AREA)
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Abstract

A marine wind force monitoring device, comprising a buoyancy base (1), wherein the top of the buoyancy base (1) is rotatably provided with a first box body (2), the top of the first box body (2) is fixedly connected to a second box body (3), a slide groove (4) is internally provided on two sides of the second box body (3), a slide rod (5) is fixedly connected in the slide groove (4), a first sleeve (6) is slidably sleeved in the second box body (3), a first roller shaft (7) is rotatably provided in the first sleeve (6), and an electric generator (8) is fixedly connected to the bottom end of the first roller shaft (7). By means of a support plate (12), a limiting plate (9) can be pushed to slide up and down, such that the first sleeve (6) can be pushed to slide on the second box body (3), and the height of the first sleeve (6) can be conveniently adjusted. In addition, the first sleeve (6) is limited by means of the cooperation of a slide block (11) and the slide rod (5). The problem of an existing marine wind force monitoring device not being able to adjust the height of a power generation fan according to real-time wind force conditions is solved.

Description

一种海洋风力监测装置An ocean wind monitoring device 技术领域technical field
本发明涉及海洋风力监测技术领域,尤其涉及一种海洋风力监测装置。The invention relates to the technical field of ocean wind monitoring, in particular to an ocean wind monitoring device.
背景技术Background technique
海洋是地球上最广阔的水体的总称。地球表面被各大陆地分隔为彼此相通的广大水域称为海洋,海洋的中心部分称作洋,边缘部分称作海,彼此沟通组成统一的水体。地球上海洋总面积约为3.6亿平方公里,约占地球表面积的71%,平均水深约3795米。海洋中含有十三亿五千多万立方千米的水,约占地球上总水量的97%,而可用于人类饮用只占2%,海洋是地球上决定气候发展的主要的因素之一,对海洋水上部分的风速、风向、气压、气温和湿度等气象要素的监测尤为重要,结合目前对于节能减排要求,海洋风力的检测可以通过风力发电设备进行测量,根据不同风力的大小,产电的效率也不同,从而可以实现对风力的监测。The ocean is the general term for the most expansive body of water on Earth. The surface of the earth is divided into large waters that are connected to each other called oceans. The central part of the ocean is called ocean, and the edge part is called sea. They communicate with each other to form a unified body of water. The total area of the oceans on the earth is about 360 million square kilometers, accounting for about 71% of the earth's surface area, and the average water depth is about 3795 meters. The ocean contains more than 1.35 billion cubic kilometers of water, accounting for about 97% of the total water on the earth, and only 2% can be used for human drinking. The ocean is one of the main factors that determine the development of climate on the earth. It is particularly important to monitor meteorological elements such as wind speed, wind direction, air pressure, temperature and humidity in the water part of the ocean. Combined with the current requirements for energy conservation and emission reduction, the detection of ocean wind power can be measured by wind power generation equipment. The efficiency is also different, so that wind monitoring can be achieved.
现有的海洋风力检测装置无法根据实时风力情况来调节发电风机的高度,使用时会受到各种限制。The existing ocean wind detection device cannot adjust the height of the generator fan according to the real-time wind condition, and is subject to various restrictions in use.
发明内容SUMMARY OF THE INVENTION
本发明的目的是为了解决现有的海洋风力检测装置无法根据实时风力情况来调节发电风机的高度,使用时会受到各种限制的缺点,而提出的一种海洋风力监测装置。The purpose of the present invention is to solve the disadvantage that the existing ocean wind detection device cannot adjust the height of the generator fan according to the real-time wind condition, and is subject to various restrictions during use, and proposes an ocean wind monitoring device.
为了实现上述目的,本发明采用了如下技术方案:In order to achieve the above object, the present invention adopts the following technical solutions:
一种海洋风力监测装置,包括浮力底座,所述浮力底座的顶部转动设置有第一箱体,第一箱体的顶部固定连接有第二箱体,第二箱体的两侧内壁上均开设有滑槽,滑槽内固定连接有滑杆,第二箱体内滑动套设有第一套管, 第一套管内转动设置有第一滚轴,第一滚轴的底端固定连接有发电机,发电机的底部固定连接有限位板,第一套管的两侧均固定连接有定位板,定位板与限位板的侧面均固定连接有滑块,同一端的两个滑块均套设在同一个滑杆上,限位板的底部铰接连接有两个撑板,撑板的底部铰接连接有螺母,两个螺母上螺纹连接套设有同一个螺杆,螺杆两端的螺纹呈对称设置。An ocean wind monitoring device includes a buoyancy base, the top of the buoyancy base is rotatably provided with a first box body, the top of the first box body is fixedly connected with a second box body, and the inner walls of both sides of the second box body are provided with openings There is a chute, a sliding rod is fixedly connected in the chute, a first sleeve is set in a sliding sleeve in the second box, a first roller is rotatably arranged in the first sleeve, and the bottom end of the first roller is fixedly connected with a generator , the bottom of the generator is fixedly connected to the limit plate, the two sides of the first casing are fixedly connected with a positioning plate, the positioning plate and the side of the limit plate are fixedly connected with a slider, and the two sliders at the same end are sleeved on On the same sliding rod, the bottom of the limit plate is hingedly connected with two support plates, the bottom of the support plate is hingedly connected with a nut, the threaded connection sleeves of the two nuts are provided with the same screw, and the threads at both ends of the screw are arranged symmetrically.
优选的,所述螺杆的一端延伸至第一箱体外并固定连接有第一马达,第一马达固定连接在第一箱体的一侧。Preferably, one end of the screw rod extends outside the first box and is fixedly connected with a first motor, and the first motor is fixedly connected to one side of the first box.
优选的,所述第一套管的顶部固定连接有设备盒,设备盒的一侧固定连接有第二套管,第一滚轴的顶端延伸至设备盒内并固定连接有第一锥齿轮。Preferably, an equipment box is fixedly connected to the top of the first sleeve, a second sleeve is fixedly connected to one side of the equipment box, and the top end of the first roller extends into the equipment box and is fixedly connected to the first bevel gear.
优选的,所述第一锥齿轮上啮合设置有第二锥齿轮,第二锥齿轮的一侧固定连接有第二滚轴,第二滚轴转动连接在第二套管内,第二滚轴的一端固定连接有桨叶。Preferably, the first bevel gear is meshed with a second bevel gear, a second roller is fixedly connected to one side of the second bevel gear, the second roller is rotatably connected in the second sleeve, and the second roller is One end is fixedly connected with a paddle.
优选的,所述螺杆上固定套设有第一齿轮,第一齿轮上啮合设置有第二齿轮,第二齿轮上固定套设有第三滚轴。Preferably, a first gear is fixedly sleeved on the screw rod, a second gear is meshed on the first gear, and a third roller is fixedly sleeved on the second gear.
优选的,所述第三滚轴转动连接在第一箱体内,第三滚轴上固定套设有滚筒,滚筒上设置有吊索。Preferably, the third roller is rotatably connected to the first box, a roller is fixedly sleeved on the third roller, and a sling is arranged on the roller.
优选的,所述浮力底座的底部开设有卡槽,吊索的一端延伸至卡槽内并固定连接有船锚。Preferably, the bottom of the buoyancy base is provided with a clip slot, and one end of the sling extends into the clip slot and is fixedly connected with the anchor.
优选的,所述第一箱体的侧面固定连接有环形齿条,环形齿条上啮合设有第三齿轮,第三齿轮的底部固定连接有第四滚轴,第四滚轴的底端固定连接有第二马达,第二马达固定连接在浮力底座上。Preferably, an annular rack is fixedly connected to the side of the first box, a third gear is engaged with the annular rack, a fourth roller is fixedly connected to the bottom of the third gear, and the bottom end of the fourth roller is fixed A second motor is connected, and the second motor is fixedly connected to the buoyancy base.
与现有技术相比,本发明的优点在于:Compared with the prior art, the advantages of the present invention are:
1.本发明通过第一马达可以转动螺杆,螺杆转动时,可以推动螺母移动,通过螺母可以调节撑板倾斜的角度,从而可以通过撑板推动限位板上下滑动,进而推动第一套管在第二箱体上滑动,方便调节第一套管、设备盒与第二套 管的高度,再通过定位板、滑块与滑杆相配合,可以对第一套管进行限位,方便有效,通过外界风力推动桨叶与第二滚轴转动,第二滚轴上的第二锥齿轮可以转动第一锥齿轮与第一滚轴,通过第一滚轴便可以转动发电机的输出轴,进行发电,通过产电的速率便可以检测出风力的大小,同时螺杆上的第一齿轮可以转动第二齿轮与第三滚轴,进而可以转动滚筒,通过滚筒可以收放吊索,方便收放船锚。1. In the present invention, the screw can be rotated by the first motor. When the screw is rotated, the nut can be pushed to move, and the inclination angle of the support plate can be adjusted by the nut, so that the limit plate can be pushed up and down through the support plate, and then the first sleeve can be pushed in Sliding on the second box is convenient to adjust the height of the first casing, the equipment box and the second casing, and then through the matching of the positioning plate, the slider and the sliding rod, the first casing can be limited, which is convenient and effective. The blade and the second roller are driven by the external wind to rotate, the second bevel gear on the second roller can rotate the first bevel gear and the first roller, and the output shaft of the generator can be rotated through the first roller, and the To generate electricity, the magnitude of the wind force can be detected by the rate of electricity generation. At the same time, the first gear on the screw can rotate the second gear and the third roller, and then the drum can be rotated. anchor.
2.本发明通过第二马达可以转动第四滚轴与第三齿轮,通过第三齿轮与环形齿条相配合,可以方便调节桨叶的朝向。2. In the present invention, the fourth roller and the third gear can be rotated by the second motor, and the orientation of the paddle can be easily adjusted by the cooperation of the third gear and the ring rack.
附图说明Description of drawings
图1为本发明提出的一种海洋风力监测装置侧视剖面的结构示意图;Fig. 1 is the structural schematic diagram of the side view section of a kind of ocean wind monitoring device proposed by the present invention;
图2为本发明提出的一种海洋风力监测装置中第一箱体与第二箱体的侧视剖面结构示意图;Fig. 2 is a side view cross-sectional structural schematic diagram of a first box body and a second box body in an ocean wind monitoring device proposed by the present invention;
图3为本发明提出的一种海洋风力监测装置图1中A部分的结构示意图;3 is a schematic structural diagram of part A in FIG. 1 of a marine wind monitoring device proposed by the present invention;
图4为本发明提出的一种海洋风力监测装置图1中B部分的结构示意图;4 is a schematic structural diagram of part B in FIG. 1 of a marine wind monitoring device proposed by the present invention;
图5为本发明提出的一种海洋风力监测装置图1中C部分的结构示意图。FIG. 5 is a schematic structural diagram of part C in FIG. 1 of an ocean wind monitoring device proposed by the present invention.
图中:1浮力底座、2第一箱体、3第二箱体、4滑槽、5滑杆、6第一套管、7第一滚轴、8发电机、9限位板、10定位板、11滑块、12撑板、13螺母、14螺杆、15第一马达、16设备盒、17第二套管、18第一锥齿轮、19第二锥齿轮、20第二滚轴、21桨叶、22第一齿轮、23第二齿轮、24第三滚轴、25滚筒、26吊索、27卡槽、28船锚、29环形齿条、30第三齿轮、31第四滚轴、32第二马达。In the picture: 1 buoyancy base, 2 first box, 3 second box, 4 chute, 5 slide bar, 6 first bushing, 7 first roller, 8 generator, 9 limit plate, 10 positioning Plate, 11 Slider, 12 Support Plate, 13 Nut, 14 Screw, 15 First Motor, 16 Equipment Box, 17 Second Sleeve, 18 First Bevel Gear, 19 Second Bevel Gear, 20 Second Roller, 21 Paddle, 22 first gear, 23 second gear, 24 third roller, 25 roller, 26 sling, 27 card slot, 28 anchor, 29 ring rack, 30 third gear, 31 fourth roller, 32 second motor.
具体实施方式Detailed ways
下面将结合本实施例中的附图,对本实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本实施例一部分实施例,而不是全部的实施例。The technical solutions in this embodiment will be clearly and completely described below with reference to the accompanying drawings in this embodiment. Obviously, the described embodiments are only a part of the embodiments of this embodiment, but not all of the embodiments.
实施例一Example 1
参照图1-5,一种海洋风力监测装置,包括浮力底座1,浮力底座1的顶部转动设置有第一箱体2,第一箱体2的顶部固定连接有第二箱体3,第二箱体3的两侧内壁上均开设有滑槽4,滑槽4内固定连接有滑杆5,第二箱体3内滑动套设有第一套管6,第一套管6内转动设置有第一滚轴7,第一滚轴7的底端固定连接有发电机8,发电机8的底部固定连接有限位板9,第一套管6的两侧均固定连接有定位板10,定位板10与限位板9的侧面均固定连接有滑块11,同一端的两个滑块11均套设在同一个滑杆5上,限位板9的底部铰接连接有两个撑板12,撑板12的底部铰接连接有螺母13,两个螺母13上螺纹连接套设有同一个螺杆14,螺杆14两端的螺纹呈对称设置,通过设置撑板12,可以推动限位板9上下滑动。1-5, an ocean wind monitoring device includes a buoyancy base 1, the top of the buoyancy base 1 is rotatably provided with a first box 2, the top of the first box 2 is fixedly connected with a second box 3, the second The inner walls of both sides of the box body 3 are provided with chute 4, a sliding rod 5 is fixedly connected in the chute 4, a first sleeve 6 is slidably sleeved in the second box 3, and the first sleeve 6 is rotatably arranged inside There is a first roller 7, the bottom end of the first roller 7 is fixedly connected with a generator 8, the bottom of the generator 8 is fixedly connected with a limiting plate 9, and both sides of the first sleeve 6 are fixedly connected with a positioning plate 10, The side surfaces of the positioning plate 10 and the limiting plate 9 are fixedly connected with a sliding block 11 , the two sliding blocks 11 at the same end are sleeved on the same sliding rod 5 , and the bottom of the limiting plate 9 is hingedly connected with two support plates 12 The bottom of the support plate 12 is hingedly connected with a nut 13, the two nuts 13 are threadedly connected and sleeved with the same screw rod 14, and the threads at both ends of the screw rod 14 are symmetrically arranged. By setting the support plate 12, the limit plate 9 can be pushed to slide up and down .
本实施例中,螺杆14的一端延伸至第一箱体2外并固定连接有第一马达15,第一马达15固定连接在第一箱体2的一侧,通过设置第一马达15,可以转动螺杆14。In this embodiment, one end of the screw rod 14 extends to the outside of the first box body 2 and is fixedly connected with the first motor 15. The first motor 15 is fixedly connected to one side of the first box body 2. By arranging the first motor 15, it is possible to The screw 14 is turned.
本实施例中,第一套管6的顶部固定连接有设备盒16,设备盒16的一侧固定连接有第二套管17,第一滚轴7的顶端延伸至设备盒16内并固定连接有第一锥齿轮18,通过设置设备盒16,方便支撑第二套管17。In this embodiment, an equipment box 16 is fixedly connected to the top of the first sleeve 6 , a second sleeve 17 is fixedly connected to one side of the equipment box 16 , and the top of the first roller 7 extends into the equipment box 16 and is fixedly connected There is a first bevel gear 18 , and the second sleeve 17 is conveniently supported by setting the equipment box 16 .
本实施例中,第一锥齿轮18上啮合设置有第二锥齿轮19,第二锥齿轮19的一侧固定连接有第二滚轴20,第二滚轴20转动连接在第二套管17内,第二滚轴20的一端固定连接有桨叶21,通过设置桨叶21,可以转动第二滚轴20。In this embodiment, a second bevel gear 19 is meshed with the first bevel gear 18 , a second roller 20 is fixedly connected to one side of the second bevel gear 19 , and the second roller 20 is rotatably connected to the second sleeve 17 Inside, one end of the second roller 20 is fixedly connected with a paddle 21 , and by arranging the paddle 21 , the second roller 20 can be rotated.
本实施例中,螺杆14上固定套设有第一齿轮22,第一齿轮22上啮合设置有第二齿轮23,第二齿轮23上固定套设有第三滚轴24,通过设置第一齿轮22,可以转动第二齿轮23。In this embodiment, a first gear 22 is fixedly sleeved on the screw 14, a second gear 23 is meshed on the first gear 22, and a third roller 24 is fixedly sleeved on the second gear 23. By setting the first gear 22, the second gear 23 can be rotated.
本实施例中,第三滚轴24转动连接在第一箱体2内,第三滚轴24上固 定套设有滚筒25,滚筒25上设置有吊索26,通过设置滚筒25,可以收放吊索26。In this embodiment, the third roller 24 is rotatably connected in the first box body 2 , a roller 25 is fixedly sleeved on the third roller 24 , and a sling 26 is arranged on the roller 25 . Sling 26.
本实施例中,浮力底座1的底部开设有卡槽27,吊索26的一端延伸至卡槽27内并固定连接有船锚28,通过设置船锚28,方便固定住设备。In this embodiment, the bottom of the buoyancy base 1 is provided with a slot 27, and one end of the sling 26 extends into the slot 27 and is fixedly connected with an anchor 28. By setting the anchor 28, it is convenient to fix the equipment.
本实施例中,第一箱体2的侧面固定连接有环形齿条29,环形齿条29上啮合设有第三齿轮30,第三齿轮30的底部固定连接有第四滚轴31,第四滚轴31的底端固定连接有第二马达32,第二马达32固定连接在浮力底座1上,通过设置第二马达32,可以转动第四滚轴31与第三齿轮30。In this embodiment, an annular rack 29 is fixedly connected to the side of the first box body 2 , a third gear 30 is engaged with the annular rack 29 , and a fourth roller 31 is fixedly connected to the bottom of the third gear 30 . A second motor 32 is fixedly connected to the bottom end of the roller 31 , and the second motor 32 is fixedly connected to the buoyancy base 1 . By setting the second motor 32 , the fourth roller 31 and the third gear 30 can be rotated.
实施例二 Embodiment 2
参照图1-5,一种海洋风力监测装置,包括浮力底座1,浮力底座1的顶部转动设置有第一箱体2,第一箱体2的顶部固定焊接有第二箱体3,第二箱体3的两侧内壁上均开设有滑槽4,滑槽4内固定焊接有滑杆5,第二箱体3内滑动套设有第一套管6,第一套管6内转动设置有第一滚轴7,第一滚轴7的底端固定焊接有发电机8,发电机8的底部通过螺丝固定连接有限位板9,第一套管6的两侧均固定焊接有定位板10,定位板10与限位板9的侧面均固定焊接有滑块11,同一端的两个滑块11均套设在同一个滑杆5上,限位板9的底部铰接连接有两个撑板12,撑板12的底部铰接连接有螺母13,两个螺母13上螺纹连接套设有同一个螺杆14,螺杆14两端的螺纹呈对称设置,通过设置撑板12,可以推动限位板9上下滑动。1-5, an ocean wind monitoring device includes a buoyancy base 1, the top of the buoyancy base 1 is rotatably provided with a first box 2, the top of the first box 2 is fixedly welded with a second box 3, the second There are sliding grooves 4 on both inner walls of the box body 3, and a sliding rod 5 is fixedly welded in the sliding groove 4. A first sleeve 6 is slidably sleeved in the second box body 3, and the first sleeve 6 is rotatably arranged inside. There is a first roller 7, the bottom end of the first roller 7 is fixedly welded with a generator 8, the bottom of the generator 8 is fixedly connected to a limiting plate 9 by screws, and both sides of the first sleeve 6 are fixedly welded with a positioning plate 10. The sides of the positioning plate 10 and the limiting plate 9 are fixedly welded with the sliders 11, the two sliders 11 at the same end are sleeved on the same sliding rod 5, and the bottom of the limiting plate 9 is hingedly connected with two braces. The bottom of the support plate 12 is hingedly connected with a nut 13, the two nuts 13 are threadedly connected with the same screw 14, and the threads at both ends of the screw 14 are symmetrically arranged. By setting the support plate 12, the limit plate 9 can be pushed. Swipe up and down.
本实施例中,螺杆14的一端延伸至第一箱体2外并固定焊接有第一马达15,第一马达15通过螺丝固定连接在第一箱体2的一侧,通过设置第一马达15,可以转动螺杆14。In this embodiment, one end of the screw rod 14 extends to the outside of the first box body 2 and is fixedly welded with the first motor 15 . The first motor 15 is fixedly connected to one side of the first box body 2 by screws. By setting the first motor 15 , the screw 14 can be rotated.
本实施例中,第一套管6的顶部固定焊接有设备盒16,设备盒16的一侧固定焊接有第二套管17,第一滚轴7的顶端延伸至设备盒16内并固定焊接有第一锥齿轮18,通过设置设备盒16,方便支撑第二套管17。In this embodiment, the equipment box 16 is fixedly welded on the top of the first sleeve 6 , the second sleeve 17 is fixedly welded on one side of the equipment box 16 , and the top of the first roller 7 extends into the equipment box 16 and is fixedly welded. There is a first bevel gear 18, and the second sleeve 17 can be conveniently supported by arranging the equipment box 16.
本实施例中,第一锥齿轮18上啮合设置有第二锥齿轮19,第二锥齿轮19的一侧固定焊接有第二滚轴20,第二滚轴20转动连接在第二套管17内,第二滚轴20的一端固定焊接有桨叶21,通过设置桨叶21,可以转动第二滚轴20。In this embodiment, a second bevel gear 19 is meshed with the first bevel gear 18 , a second roller 20 is fixedly welded on one side of the second bevel gear 19 , and the second roller 20 is rotatably connected to the second sleeve 17 Inside, one end of the second roller 20 is fixedly welded with a paddle 21 , and by arranging the paddle 21 , the second roller 20 can be rotated.
本实施例中,螺杆14上固定套设有第一齿轮22,第一齿轮22上啮合设置有第二齿轮23,第二齿轮23上固定套设有第三滚轴24,通过设置第一齿轮22,可以转动第二齿轮23。In this embodiment, a first gear 22 is fixedly sleeved on the screw 14, a second gear 23 is meshed on the first gear 22, and a third roller 24 is fixedly sleeved on the second gear 23. By setting the first gear 22, the second gear 23 can be rotated.
本实施例中,第三滚轴24转动连接在第一箱体2内,第三滚轴24上固定套设有滚筒25,滚筒25上设置有吊索26,通过设置滚筒25,可以收放吊索26。In this embodiment, the third roller 24 is rotatably connected in the first box body 2 , a roller 25 is fixedly sleeved on the third roller 24 , and a sling 26 is arranged on the roller 25 . Sling 26.
本实施例中,浮力底座1的底部开设有卡槽27,吊索26的一端延伸至卡槽27内并固定焊接有船锚28,通过设置船锚28,方便固定住设备。In this embodiment, the bottom of the buoyancy base 1 is provided with a slot 27, and one end of the sling 26 extends into the slot 27 and is fixedly welded with an anchor 28. By arranging the anchor 28, it is convenient to fix the equipment.
本实施例中,第一箱体2的侧面固定焊接有环形齿条29,环形齿条29上啮合设有第三齿轮30,第三齿轮30的底部固定焊接有第四滚轴31,第四滚轴31的底端固定焊接有第二马达32,第二马达32通过螺丝固定连接在浮力底座1上,通过设置第二马达32,可以转动第四滚轴31与第三齿轮30。In this embodiment, an annular rack 29 is fixedly welded on the side of the first box body 2 , a third gear 30 is meshed on the annular rack 29 , and a fourth roller 31 is fixedly welded on the bottom of the third gear 30 . The bottom end of the roller 31 is fixedly welded with a second motor 32 . The second motor 32 is fixedly connected to the buoyancy base 1 by screws. By setting the second motor 32 , the fourth roller 31 and the third gear 30 can be rotated.
本实施例中,通过第一马达15可以转动螺杆14,螺杆14转动时,可以推动螺母13移动,通过螺母13可以调节撑板12倾斜的角度,从而可以通过撑板12推动限位板9上下滑动,进而推动第一套管6在第二箱体3上滑动,方便调节第一套管6、设备盒16与第二套管17的高度,再通过定位板10、滑块11与滑杆5相配合,可以对第一套管6进行限位,方便有效,通过外界风力推动桨叶21与第二滚轴20转动,第二滚轴20上的第二锥齿轮19可以转动第一锥齿轮18与第一滚轴7,通过第一滚轴7便可以转动发电机8的输出轴,进行发电,通过产电的速率便可以检测出风力的大小,同时螺杆14上的第一齿轮22可以转动第二齿轮23与第三滚轴24,进而可以转动滚筒25, 通过滚筒25可以收放吊索26,方便收放船锚28,通过第二马达32可以转动第四滚轴31与第三齿轮30,通过第三齿轮30与环形齿条29相配合,可以方便调节桨叶21的朝向。In this embodiment, the screw 14 can be rotated by the first motor 15 . When the screw 14 is rotated, the nut 13 can be pushed to move, and the inclination angle of the support plate 12 can be adjusted by the nut 13 , so that the limit plate 9 can be pushed up and down through the support plate 12 Slide, and then push the first sleeve 6 to slide on the second box 3, so as to facilitate the adjustment of the height of the first sleeve 6, the equipment box 16 and the second sleeve 17, and then pass the positioning plate 10, the slider 11 and the sliding rod. 5 in cooperation, the first casing 6 can be limited, which is convenient and effective. The blade 21 and the second roller 20 are driven to rotate by the external wind, and the second bevel gear 19 on the second roller 20 can rotate the first bevel. The gear 18 and the first roller 7 can rotate the output shaft of the generator 8 through the first roller 7 to generate electricity, and the magnitude of the wind force can be detected by the rate of electricity generation. At the same time, the first gear 22 on the screw 14 The second gear 23 and the third roller 24 can be rotated, and then the drum 25 can be rotated, the sling 26 can be retracted through the roller 25, and the anchor 28 can be easily retracted, and the fourth roller 31 and the third roller can be rotated through the second motor 32. The third gear 30 is matched with the annular rack 29, so that the direction of the paddle 21 can be adjusted conveniently.
以上所述,仅为本实施例较佳的具体实施方式,但本实施例的保护范围并不局限于此,任何熟悉本技术领域的技术人员在本实施例揭露的技术范围内,根据本实施例的技术方案及其发明构思加以等同替换或改变,都应涵盖在本实施例的保护范围之内。The above is only a preferred specific implementation of this embodiment, but the protection scope of this embodiment is not limited to this. The technical solutions and the inventive concept of the examples are equivalently replaced or changed, and all should be covered within the protection scope of this embodiment.

Claims (8)

  1. 一种海洋风力监测装置,包括浮力底座(1),其特征在于,所述浮力底座(1)的顶部转动设置有第一箱体(2),第一箱体(2)的顶部固定连接有第二箱体(3),第二箱体(3)的两侧内壁上均开设有滑槽(4),滑槽(4)内固定连接有滑杆(5),第二箱体(3)内滑动套设有第一套管(6),第一套管(6)内转动设置有第一滚轴(7),第一滚轴(7)的底端固定连接有发电机(8),发电机(8)的底部固定连接有限位板(9),第一套管(6)的两侧均固定连接有定位板(10),定位板(10)与限位板(9)的侧面均固定连接有滑块(11),同一端的两个滑块(11)均套设在同一个滑杆(5)上,限位板(9)的底部铰接连接有两个撑板(12),撑板(12)的底部铰接连接有螺母(13),两个螺母(13)上螺纹连接套设有同一个螺杆(14),螺杆(14)两端的螺纹呈对称设置。An ocean wind monitoring device, comprising a buoyancy base (1), characterized in that a first box body (2) is rotatably provided on the top of the buoyancy base (1), and a top of the first box body (2) is fixedly connected with a The second box body (3), the inner walls of both sides of the second box body (3) are provided with chute (4), a sliding rod (5) is fixedly connected in the chute (4), and the second box body (3) ) inside the sliding sleeve is provided with a first sleeve (6), a first roller (7) is rotatably arranged in the first sleeve (6), and a generator (8) is fixedly connected to the bottom end of the first roller (7). ), the bottom of the generator (8) is fixedly connected to the limiting plate (9), both sides of the first bushing (6) are fixedly connected with a positioning plate (10), the positioning plate (10) and the limiting plate (9) A slider (11) is fixedly connected to the side surfaces of the device, the two sliders (11) at the same end are sleeved on the same sliding rod (5), and the bottom of the limit plate (9) is hingedly connected with two support plates ( 12), the bottom of the support plate (12) is hingedly connected with a nut (13), the two nuts (13) are threadedly sleeved with the same screw (14), and the threads at both ends of the screw (14) are symmetrically arranged.
  2. 根据权利要求1所述的一种海洋风力监测装置,其特征在于,所述螺杆(14)的一端延伸至第一箱体(2)外并固定连接有第一马达(15),第一马达(15)固定连接在第一箱体(2)的一侧。An ocean wind monitoring device according to claim 1, characterized in that, one end of the screw (14) extends to the outside of the first box (2) and is fixedly connected with a first motor (15), the first motor (15) is fixedly connected to one side of the first box body (2).
  3. 根据权利要求1所述的一种海洋风力监测装置,其特征在于,所述第一套管(6)的顶部固定连接有设备盒(16),设备盒(16)的一侧固定连接有第二套管(17),第一滚轴(7)的顶端延伸至设备盒(16)内并固定连接有第一锥齿轮(18)。An ocean wind monitoring device according to claim 1, characterized in that an equipment box (16) is fixedly connected to the top of the first casing (6), and a side of the equipment box (16) is fixedly connected to a first Two sleeves (17), the top end of the first roller (7) extends into the equipment box (16) and is fixedly connected with a first bevel gear (18).
  4. 根据权利要求3所述的一种海洋风力监测装置,其特征在于,所述第一锥齿轮(18)上啮合设置有第二锥齿轮(19),第二锥齿轮(19)的一侧固定连接有第二滚轴(20),第二滚轴(20)转动连接在第二套管(17)内,第二滚轴(20)的一端固定连接有桨叶(21)。An ocean wind monitoring device according to claim 3, characterized in that a second bevel gear (19) is meshed with the first bevel gear (18), and one side of the second bevel gear (19) is fixed A second roller (20) is connected, the second roller (20) is rotatably connected in the second sleeve (17), and one end of the second roller (20) is fixedly connected with a paddle (21).
  5. 根据权利要求1所述的一种海洋风力监测装置,其特征在于,所述螺杆(14)上固定套设有第一齿轮(22),第一齿轮(22)上啮合设置有第二齿 轮(23),第二齿轮(23)上固定套设有第三滚轴(24)。An ocean wind monitoring device according to claim 1, characterized in that a first gear (22) is fixedly sleeved on the screw (14), and a second gear (22) is meshed with the first gear (22). 23), a third roller (24) is fixedly sleeved on the second gear (23).
  6. 根据权利要求5所述的一种海洋风力监测装置,其特征在于,所述第三滚轴(24)转动连接在第一箱体(2)内,第三滚轴(24)上固定套设有滚筒(25),滚筒(25)上设置有吊索(26)。An ocean wind monitoring device according to claim 5, characterized in that the third roller (24) is rotatably connected in the first box (2), and the third roller (24) is fixedly sleeved A drum (25) is provided, and a sling (26) is arranged on the drum (25).
  7. 根据权利要求1所述的一种海洋风力监测装置,其特征在于,所述浮力底座(1)的底部开设有卡槽(27),吊索(26)的一端延伸至卡槽(27)内并固定连接有船锚(28)。An ocean wind monitoring device according to claim 1, characterized in that a clip slot (27) is formed at the bottom of the buoyancy base (1), and one end of the sling (26) extends into the clip slot (27) An anchor (28) is fixedly connected.
  8. 根据权利要求1所述的一种海洋风力监测装置,其特征在于,所述第一箱体(2)的侧面固定连接有环形齿条(29),环形齿条(29)上啮合设有第三齿轮(30),第三齿轮(30)的底部固定连接有第四滚轴(31),第四滚轴(31)的底端固定连接有第二马达(32),第二马达(32)固定连接在浮力底座(1)上。An ocean wind monitoring device according to claim 1, characterized in that an annular rack (29) is fixedly connected to the side surface of the first box (2), and the annular rack (29) is engaged with a first Three gears (30), a fourth roller (31) is fixedly connected to the bottom of the third gear (30), a second motor (32) is fixedly connected to the bottom end of the fourth roller (31), and the second motor (32) ) is fixedly connected to the buoyancy base (1).
PCT/CN2020/127705 2020-11-10 2020-11-10 Marine wind force monitoring device WO2022099434A1 (en)

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CN117267051A (en) * 2023-11-21 2023-12-22 华能山西综合能源有限责任公司 Rotating speed protection device of small wind power equipment
CN118501491A (en) * 2024-07-16 2024-08-16 福建飞通通讯科技股份有限公司 Wind direction and wind speed measuring instrument special for navigation

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CN211627599U (en) * 2020-01-23 2020-10-02 广东海洋大学 Marine detection wind speed measuring device
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CN117267051A (en) * 2023-11-21 2023-12-22 华能山西综合能源有限责任公司 Rotating speed protection device of small wind power equipment
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CN118501491A (en) * 2024-07-16 2024-08-16 福建飞通通讯科技股份有限公司 Wind direction and wind speed measuring instrument special for navigation

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