CN108240294A - 跟踪阳光风力海流浮船发电站 - Google Patents
跟踪阳光风力海流浮船发电站 Download PDFInfo
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Abstract
一种跟踪阳光风力海流浮船发电站,包括浮船体(1)、水轮机右翼(2)、太阳能转盘(6)、太阳能电池板(9)、风力发电机(11)、右水轮机(13)、浮船定位柱(14)、定位柱风力发电机(15)、水轮机左翼(26)、左水轮机(34);所述的浮船体(1)两侧肋骨和骨架设置水轮机右翼(2)和水轮机左翼(26),水轮机右翼(2)和水轮机左翼(26)两侧中段设置右水轮机(13)和左水轮机(34)作为发电动力;所述的浮船体(1)背面面板(4)上设置若干台太阳能电池板(9)和若干个台风力发电机(11);所述的浮船体(1)前端开设半径斜钩口的桩柱孔安装浮船定位柱(14),浮船定位柱(14)上端头安装定位柱风力发电机(15),依靠风力驱动运行发电工作。
Description
(一)技术领域
本发明涉及多类太阳能、风力、水流发电的改进发明。
(二)背景技术
在现有技术中,随着世界各工业猛速发展和人类生活中使用化石燃料消 耗量的逐渐增大,特别是自然界中自然形成的非再生能源被世界诸国家关注 和重视并大规模实施挖掘开发利用,促使地球矿物燃料能源储存量走入逐渐 枯竭。特别是随着气候变化,世界各国对地球环境保护的日益重视,原以石 油、煤炭、天然气为代表的一次能源即将逐步被太阳能、风能、海洋能、生 物质能等清洁环保再生能源所取代。目前,诸多国家和地区仍然掀建以核电 站为主导发展,虽然核、氢能发电量和清洁环保以及成本相对低廉的核能发电的优势。但是,随着耗能的各类型动力快速发展,导致地下能源大量被挖 掘开发,严重影响地壳质量引发地震频繁。据此地震频发情况下不益扩建核 电站。
(三)技术方案
鉴于现有技术存在的缺陷,本发明旨在提供一种跟踪阳光风力潮汐浮船 发电站,包括浮船体、水轮机右翼、太阳能转盘、太阳能电池板、风力发电 机、右水轮机、浮船定位柱、定位柱风力发电机、水轮机左翼、左水轮机; 所述的浮船体两侧肋骨和骨架设置水轮机右翼和水轮机左翼;所述的浮船体 水轮机右翼动力轴前端安装水轮机,动力轴后端安装右水轮机动力齿轮,右 水轮机动力齿轮啮合右被动轴外轴端上的右被动齿轮变速设计运行,右被动 轴另一端伸入船舱的轴端上安装右传输动力齿轮,右传输动力齿轮啮合右发 电机轴齿轮变速设计运行发电;所述的浮船体水轮机左翼左翼动力轴前端安 装水轮机,动力轴后端安装左水轮机动力齿轮,左水轮机动力齿轮啮合左被 动轴外轴端上的左被动齿轮,左被动轴另一端伸入船舱的轴端上安装左传输 动力齿轮,左传输动力齿轮啮合左发电机轴齿轮变速设计运转发电;所述的 浮船体背面面板上设置若干台太阳能电池板和若干个台风力发电机;所述的 浮船体前端开设半径斜钩口的桩柱孔安装浮船定位柱,浮船定位柱上端头安 装定位柱风力发电机,依靠风力驱动运行发电工作。
所述的浮船体两侧设置右翼和左翼的目的既能提高浮船上设有若干台 风力发电机负重和高度起到稳定及平衡作用,同时又能扩展将右翼和左翼上 可以伸长增设若干台水轮机而提高发电功率,而且更有效的起到抗衡强风暴 巨浪作用。
所述的浮船体船面尾部背面开设船舱盖和浮船尾部设有爬梯,便于工作 人员检修。
所述的太阳能转盘中段电机齿轮凹口内配装微型电机轴上滚动式齿轮, 滚动式齿轮啮合转轴齿轮跟踪阳光转向运行。
所述的浮船体两侧水轮机电源和太阳能电源及风力发电机电源并网输 送利用。
所述的浮船体多艘组成浮船群发电场,并依靠江海边区域定位,便于整 理,本技术有效控制核电站的发展,还在浮船群发电场外围设置导航灯告示 各船舶航行安全。
本发明的目的是发电船体两侧平衡翅膀设置的目的是提高浮船上设有 若干台风力发电机一旦遇到强风暴巨浪被掀翻作用,另一方面,两侧平衡翅 膀仍然还可以增设水轮机提高发电功率,更好的起到抗衡强风暴巨浪作用, 有效控制石油、煤炭、天然气、核、氢能为代表的一次污染能源发展,为人 类开拓绿色再生能源发展空间。本技术设计合理,结构科学,投资成本低。
(四)附图说明
本发明有如下附图
图1为本发明跟踪阳光风力潮汐浮船发电站侧剖视图。
图2为本发明跟踪阳光风力潮汐浮船发电站面俯剖视图。
图3为本发明跟踪阳光风力潮汐浮船发电站太阳能跟踪转盘侧剖视图。
图4为本发明跟踪阳光风力潮汐浮船发电站太阳能跟踪转盘俯剖视图。
(五)实施方式
附图公开了本发明技术结构,下面再结构附图进一步详细描述其实施 例:包括浮船体(1)、水轮机右翼(2)、太阳能转盘(6)、太阳能电池板(9)、 风力发电机(11)、右水轮机(13)、浮船定位柱(14)、定位柱风力发电机 (15)、水轮机左翼(26)、左水轮机(34);所述的浮船体(1)两侧肋骨和 骨架设置水轮机右翼(2)和水轮机左翼(26),水轮机右翼(2)和水轮机 左翼(26)两侧中段设置右水轮机(13)和左水轮机(34)作为发电动力, 同时还能起到浮船体(1)的稳定平衡作用;所述的浮船体(1)水轮机右翼 (2)设置右加强横架(20)和(21)及后加强架并采用电焊焊接固定;所 述的浮船体(1)前端段两侧偏下钢板成型为撇水形状设计,撇水形状将迎 面潮汐水流经分流促成冲势,使水流更有力的推动水轮机叶片,提高水轮机 发电效果;所述的浮船体(1)两侧设置水轮机右翼(2)和水轮机左翼(26), 两侧平衡翅膀下半爿封面盖板采用强压成为半口弧形盖板,并经电焊焊接固 定在两侧右加强横架(20)及(21)和左加强横架(30)及(33)上,右翼 和左翼两侧下半爿封盖板上周圈边唇设计凹口形状,便于陷装橡胶密封带; 所述的浮船体(1)右翼侧右加强横架(21)和左翼侧左加强横架(33)中 段略偏外各开设圆凹坑陷装轴承座,然后又在右加强横架(21)和左加强横架(33)两侧轴承座对直后面相隔一定距离增加设置定位轴承座,并在右翼 和左翼两侧轴承座内和定位轴承座内陷装右水轮机(13)动力轴和左水轮机 (34)动力轴并经轴承盖盖上使用螺丝安装固定;所述的浮船体(1)右被 动轴外段陷装在右翼轴座内,右被动轴内段伸入船舱内并陷装轴座内并经内 外两侧轴座盖盖上使用螺丝固定;所述的左被动轴外段陷装在左翼轴座内, 左被动轴内段伸入船舱内陷装轴座内并经内外轴座盖盖上使用螺丝固定;所 述的浮船体(1)水轮机右翼(2)动力轴前端安装水轮机(13),动力轴后 端安装右水轮机动力齿轮(18),右水轮机动力齿轮(18)啮合右被动轴外 轴端上的右被动齿轮(19)变速设计运行,右被动轴另一端伸入船舱的轴端 上安装右传输动力齿轮(23),右传输动力齿轮(23)啮合右发电机(25) 轴齿轮(24)变速设计运行发电;所述的浮船体(1)水轮机左翼(26)左 翼动力轴前端安装水轮机(34),动力轴后端安装左水轮机动力齿轮(32), 左水轮机动力齿轮(32)啮合左被动轴外轴端上的左被动齿轮(31),左被 动轴另一端伸入船舱的轴端上安装左传输动力齿轮(27),左传输动力齿轮 (27)啮合左发电机(29)轴齿轮(28)变速设计运转发电;所述的浮船体 (1)右翼右水轮机(13)和左翼左水轮机(34)两侧叶片相反设计,提高 运转发电工作中起到浮船稳定性作用;所述的浮船体(1)两侧设置右翼和 左翼的目的既能提高浮船上设有若干台风力发电机(11)负重和高度起到稳 定及平衡作用,同时又能扩展将右翼和左翼伸长增设若干台水轮机而提高发 电功率,而且更有效的起到抗衡强风暴巨浪作用;所述的浮船体(1)水轮 右翼(2)和水轮左翼(26)上面经加工成型的上下翼面封板上密封设计, 提高浮动平衡能力,然后经螺丝安装固定,水轮右翼(2)和水轮左翼(26) 前端斜度成型设计,背面弧形压铸造型设计,有效利用潮汐水流过右翼和左 翼背面将起到浮船稳定运行发电作用,然后将浮船体(1)周围采用钢板及 船面封包并经电焊焊接固定;所述的浮船体(1)船面尾部背面开设船舱盖 (22)和浮船尾部设有爬梯(3),便于工作人员检修;所述的浮船体(1) 背面面板(4)上设置若干台太阳能转盘(6),太阳能转盘(6)采用钢管内 外经车床加工光泽,钢管内径加工成陷装上轴承(41)和下轴承(37),并 在上轴承(41)和下轴承(37)略偏上方各钻设加油孔,提高润滑,降低磨 擦负重,钢管中段一侧开设电机齿轮凹口(39),电机齿轮凹口(39)配合 转向轴(7)下段转向轴齿轮(40),转向轴(7)上的转向轴齿轮(40)套 装在上轴承(41),下轴承(37)套装在转向轴(7)下端位置上,转向轴齿 轮(40)啮合微型电机(5)轴上滚动式齿轮(38)转向运行;所述的太阳 能转盘(6)钢管上端外口径加工成螺纹,然后对钢管开成两半,先将一半 半爿钢管的太阳能转盘(6)插入转盘安装板(35)插座(36)内经电焊焊 接固定,又将转向轴(7)和上轴承(41)及转向轴齿轮(40)以及下轴承(37)一整套陷装在已插装在插座(36)内的半爿钢管内,然后再把另一半半爿钢管合并插入插座(36)内,使两个半爿钢管合并成一体为太阳能转盘 (6),再将转盘盖(42)盖上太阳能转盘(6)上端扭紧固定,最后经电焊 把太阳能转盘(6)下端口插入插座(36)内的焊接固定在插座(36)上, 这一设计既而便于拆修和,又能系统性轻松运行程序;所述的太阳能转盘(6) 中段电机齿轮凹口(39)内配装微型电机(5)轴(43)上滚动式齿轮(38), 滚动式齿轮(38)啮合转轴齿轮(40)跟踪阳光转向运行,使太阳能电池板 (9)随着浮船转向和太阳光转向接收器(8)输入转换方向充电输送电源, 太阳能转轴(7)长短可以根据浮船定位环境而安装设计,太阳能转轴(7) 上端安装太阳能电池板(9),太阳能电池板(9)斜度根据运行固定安装, 太阳能电池板(9)上方边框上安装太阳光接收器(8);所述的浮船体(1) 上平面又设置若干个台风力发电机(11)柱子,风力发电机(11)柱子上设 置风力发电机(11),风力发电机(11)发电功效依靠风力导向片(10)迎 风转变方向,风力发电机(11)轴前端安装风力叶片(12),风力发电机(11) 依靠风力驱动发电,风力发电机(11)内齿轮通变速提高效果;所述的浮船 体(1)前端开设半径斜钩口的桩柱孔安装浮船定位柱(14),浮船定位柱(14) 采用优质钢板制造成圆柱并经防腐蚀涂料处理,浮船定位柱(14)下段插装 在江海底采用钢筋混凝土筑基桩内凝固定位,钢筋混凝土筑基桩位置最好靠 近岸边区域,便于整理维修,然后把浮船体(1)前端的斜钩口桩柱孔靠拢 陷入浮船定位柱(14)上活动固定后将开口处采用制作成配套钢经电焊接, 浮船定位柱(14)上端头安装定位柱风力发电机(15),定位柱风力发电机 (15)尾部设置风力导向片(16)测风转向,定位柱风力发电机(15)前端 轴安装风力叶片(17),定位柱风力发电机(15)依靠风力驱动运行发电工作;所述的浮船体(1)两侧水轮机电源和太阳能电源及风力发电机电源并 网输送利用;所述的浮船体(1)多艘组成浮船群发电场,并依靠江海边区 域定位,便于整理,本技术有效控制核电站的发展,还在浮船群发电场外围 设置导航灯告示各船舶航行安全。
Claims (6)
1.一种跟踪阳光风力潮汐浮船发电站,包括浮船体(1)、水轮机右翼(2)、太阳能转盘(6)、太阳能电池板(9)、风力发电机(11)、右水轮机(13)、浮船定位柱(14)、定位柱风力发电机(15)、水轮机左翼(26)、左水轮机(34),其特征在于;所述的浮船体(1)两侧肋骨和骨架设置水轮机右翼(2)和水轮机左翼(26);所述的浮船体(1)水轮机右翼(2)动力轴前端安装水轮机(13),动力轴后端安装右水轮机动力齿轮(18),右水轮机动力齿轮(18)啮合右被动轴外轴端上的右被动齿轮(19)变速设计运行,右被动轴另一端伸入船舱的轴端上安装右传输动力齿轮(23),右传输动力齿轮(23)啮合右发电机(25)轴齿轮(24)变速设计运行发电;所述的浮船体(1)水轮机左翼(26)左翼动力轴前端安装水轮机(34),动力轴后端安装左水轮机动力齿轮(32),左水轮机动力齿轮(32)啮合左被动轴外轴端上的左被动齿轮(31),左被动轴另一端伸入船舱的轴端上安装左传输动力齿轮(27),左传输动力齿轮(27)啮合左发电机(29)轴齿轮(28)变速设计运转发电;所述的浮船体(1)背面面板(4)上设置若干台太阳能电池板(9)和若干个台风力发电机(11);所述的浮船体(1)前端开设半径斜钩口的桩柱孔安装浮船定位柱(14),浮船定位柱(14)上端头安装定位柱风力发电机(15),依靠风力驱动运行发电工作。
2.如权利要求1所述的一种跟踪阳光风力潮汐浮船发电站,其特征在于;所述的浮船体(1)两侧设置右翼和左翼的目的既能提高浮船上设有若干台风力发电机(11)负重和高度起到稳定及平衡作用,同时又能扩展将右翼和左翼上可以伸长增设若干台水轮机而提高发电功率,而且更有效的起到抗衡强风暴巨浪作用。
3.如权利要求1或2所述的一种跟踪阳光风力潮汐浮船发电站,其特征在于;所述的浮船体(1)船面尾部背面开设船舱盖(22)和浮船尾部设有爬梯(3),便于工作人员检修。
4.如权利要求1或2或3所述的一种跟踪阳光风力潮汐浮船发电站,其特征在于;所述的太阳能转盘(6)中段电机齿轮凹口(39)内配装微型电机(5)轴(43)上滚动式齿轮(38),滚动式齿轮(38)啮合转轴齿轮(40)跟踪阳光转向运行。
5.如权利要求1或2或3所述的一种跟踪阳光风力潮汐浮船发电站,其特征在于;所述的浮船体(1)两侧水轮机电源和太阳能电源及风力发电机电源并网输送利用。
6.如权利要求1或2或3或5所述的一种跟踪阳光风力潮汐浮船发电站,其特征在于;所述的浮船体(1)多艘组成浮船群发电场,并依靠江海边区域定位,便于整理,本技术有效控制核电站的发展,还在浮船群发电场外围设置导航灯告示各船舶航行安全。
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