CN111927711A - 一种具有叶片可调结构的悬挂式风力发电组件 - Google Patents
一种具有叶片可调结构的悬挂式风力发电组件 Download PDFInfo
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Abstract
本发明公开了一种具有叶片可调结构的悬挂式风力发电组件,涉及新能源技术领域。本发明包括一对同轴设置的支撑筒;两支撑筒相对外端部均装设有一支撑定位组件;支撑定位组件用于将支撑筒水平固定于巷道内;两支撑筒之间同轴设置有一固定盘;固定盘通过多个连接架与两支撑筒相连接;固定盘的两端面均固定有一风力发电机;风力发电机的输入端连接有一承载盒;承载盒的侧壁径向穿插有多个传动轴;传动轴的一端固定有一叶片;传动轴的另一端固定有一传动齿盘;承载盒的内部轴向设置有一调向柱。本发明不仅结构设计简单合理、安装方便,而且有效地提高了风力发电技术的应用价值。
Description
技术领域
本发明属于新能源技术领域,特别是涉及一种具有叶片可调结构的悬挂式风力发电组件。
背景技术
中国具有几千年的农耕文明,乡土景观遍布全国各地,尤其集中在传统聚落,不同地域的传统聚落景观所附着的风土色彩和文化氛围都是独一无二的。徽派建筑在我国建筑历史上具有重要的地位,街巷空间作为徽州传统聚落村落布局以及民居建筑环境的重要特色,是徽州古村落景观构成的基本要素。针对徽州传统聚落内的民居街巷空间的认知和解读,有利于将徽州传统聚落民居街巷的多维度价值概念引申出来,进而对其所蕴含的多重文化、社会和历史价值形成更深刻的认识。在徽州传统建筑的街巷中,窄巷深弄是较为常见的。小的巷道较主街道更加狭长,宽度一般在1.5米左右,最狭窄的巷道宽度仅为1米,垂直界面的高宽比一般在5到10米之间。由于巷道的结构设计,巷道内通常会有充足的单向风。如何充分利用巷道中的这些风量,是一个值得研究的方向。
发明内容
本发明在于提供一种具有叶片可调结构的悬挂式风力发电组件,其目的是为了解决上述背景技术中所提出的问题。
为解决上述技术问题,本发明是通过以下技术方案实现的:
本发明为一种具有叶片可调结构的悬挂式风力发电组件,包括一对同轴设置的支撑筒;两所述支撑筒相对外端部均装设有一支撑定位组件;所述支撑定位组件用于将支撑筒水平固定于巷道内;两所述支撑筒之间同轴设置有一固定盘;所述固定盘通过多个连接架与两支撑筒相连接;所述固定盘的两端面均固定有一风力发电机;所述风力发电机的输入端连接有一承载盒;所述承载盒的侧壁径向穿插有多个传动轴;所述传动轴的一端固定有一叶片;所述传动轴的另一端固定有一传动齿盘;所述承载盒的内部轴向设置有一调向柱;所述调向柱的外壁固定有一第一齿片和一第二齿片;所述第一齿片和第二齿片均可与传动齿盘相啮合;所述第一齿片用于将叶片的受风面从垂直状态调整至平行状态;所述第二齿片用于将叶片的受风面从平行状态调整至垂直状态。
进一步地,所述支撑定位组件包括丝母;所述丝母转动连接于支撑筒的内端面上;所述丝母内配合有一丝杆;所述丝杆的一端贯穿延伸至支撑筒的外部并固定有一驱动块;所述驱动块上沿环形方向转动连接有多个传动杆;所述传动杆的一端转动连接于一定位杆;所述定位杆的一端转动连接于支撑筒的外端面上。
进一步地,所述丝母的外周固定套设有一第一齿轮;所述第一齿轮上啮合有一第二齿轮;所述第二齿轮固定于一驱动电机的输出轴上。
进一步地,所述第一齿片与第二齿片均呈弧形结构;所述第一齿片与第二齿片的两端处均设置有一配合齿盘;所述配合齿盘转动连接于调向柱的外壁上;所述配合齿盘可与传动齿盘相啮合;所述配合齿盘用于帮助传动齿盘与第一齿片或第二齿片快速啮合。
本发明具有以下有益效果:
本发明通过利用支撑定位组件将支撑筒水平固定于巷道内,并在两支撑筒之间装设一对风力发电机,利用巷道的单向风吹动承载盒外周的叶片,并利用承载盒内的第一齿片与第二齿片改变叶片的受风面的位置状态,从而能够提高风力发电效率及效果,不仅结构设计简单合理、安装便捷,而且充分利用了巷道内充足的单向风,同时也有效地提升了风力发电的应用价值,适合推广应用。
当然,实施本发明的任一产品并不一定需要同时达到以上所述的所有优点。
附图说明
为了更清楚地说明本发明实施例的技术方案,下面将对实施例描述所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1为本发明的一种具有叶片可调结构的悬挂式风力发电组件的结构示意图;
图2为图1的结构主视图;
图3为本发明中A处的结构放大示意图;
图4为本发明中B处的结构放大示意图;
图5为本发明的第一齿片及-第二齿片装设于调向柱的结构示意图。
附图中,各标号所代表的部件列表如下:
1-支撑筒,2-支撑定位组件,3-固定盘,4-连接架,5-风力发电机,6-承载盒,7-传动轴,8-叶片,9-传动齿盘,10-调向柱,11-第一齿片,12-第二齿片,13-配合齿盘,201-丝母,202-丝杆,203-驱动块,204-传动杆,205-定位杆,206-第一齿轮,207-第二齿轮,208-驱动电机。
具体实施方式
下面将结合本发明实施例中的附图,对本发明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发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其它实施例,都属于本发明保护的范围。
请参阅图1-5所示,本发明为一种具有叶片可调结构的悬挂式风力发电组件,包括一对同轴设置的支撑筒1;两支撑筒1相对外端部均装设有一支撑定位组件2;支撑定位组件2用于将支撑筒1水平固定于巷道内;
两支撑筒1之间同轴设置有一固定盘3;固定盘3通过多个呈m型结构的连接架4与两支撑筒1相连接;固定盘3的两端面均固定有一风力发电机5;风力发电机5的输入端连接有一呈圆柱形结构的承载盒6;承载盒6的侧壁径向穿插有多个传动轴7;承载盒6与传动轴7转动配合;传动轴7的一端固定有一叶片8;传动轴7的另一端固定有一传动齿盘9;
承载盒6的内部轴向设置有一调向柱10;调向柱10的外壁固定有一第一齿片11和一第二齿片12;第一齿片11和第二齿片12均可与传动齿盘9相啮合;第一齿片11用于将叶片8的受风面从垂直状态调整至平行状态;第二齿片12用于将叶片8的受风面从平行状态调整至垂直状态;调向柱10的一端贯穿延伸至承载盒6的外部并与相对应的支撑筒1相连接;调向柱10与承载盒6转动配合。
其中,支撑定位组件2包括丝母201;丝母201转动连接于支撑筒1的内端面上;丝母201内配合有一丝杆202;丝杆202的一端贯穿延伸至支撑筒1的外部并固定有一驱动块203;驱动块203上沿环形方向转动连接有多个传动杆204;传动杆204的一端转动连接于一定位杆205;定位杆205的一端转动连接于支撑筒1的外端面上;丝母201的外周固定套设有一第一齿轮206;第一齿轮206上啮合有一第二齿轮207;第二齿轮207固定于一驱动电机208的输出轴上;驱动电机208固定于支撑筒1的内部。
其中,第一齿片11与第二齿片12均呈弧形结构;第一齿片11的齿牙与第二齿片12的齿牙分别设置于第一齿片11与第二齿片12的相对内侧面上;第一齿片11与第二齿片12之间形成供传动齿盘9运动的间隙;第一齿片11与第二齿片12的两端处均设置有一配合齿盘13;配合齿盘13转动连接于调向柱10的外壁上;配合齿盘13可与传动齿盘9相啮合;配合齿盘13用于帮助传动齿盘9与第一齿片11或第二齿片12快速啮合。
以上公开的本发明优选实施例只是用于帮助阐述本发明。优选实施例并没有详尽叙述所有的细节,也不限制该发明仅为所述的具体实施方式。显然,根据本说明书的内容,可作很多的修改和变化。本说明书选取并具体描述这些实施例,是为了更好地解释本发明的原理和实际应用,从而使所属技术领域技术人员能很好地理解和利用本发明。本发明仅受权利要求书及其全部范围和等效物的限制。
Claims (4)
1.一种具有叶片可调结构的悬挂式风力发电组件,其特征在于,包括一对同轴设置的支撑筒(1);两所述支撑筒(1)相对外端部均装设有一支撑定位组件(2);所述支撑定位组件(2)用于将支撑筒(1)水平固定于巷道内;
两所述支撑筒(1)之间同轴设置有一固定盘(3);所述固定盘(3)通过多个连接架(4)与两支撑筒(1)相连接;所述固定盘(3)的两端面均固定有一风力发电机(5);所述风力发电机(5)的输入端连接有一承载盒(6);所述承载盒(6)的侧壁径向穿插有多个传动轴(7);所述传动轴(7)的一端固定有一叶片(8);
所述传动轴(7)的另一端固定有一传动齿盘(9);所述承载盒(6)的内部轴向设置有一调向柱(10);所述调向柱(10)的外壁固定有一第一齿片(11)和一第二齿片(12);
所述第一齿片(11)和第二齿片(12)均可与传动齿盘(9)相啮合;所述第一齿片(11)用于将叶片(8)的受风面从垂直状态调整至平行状态;所述第二齿片(12)用于将叶片(8)的受风面从平行状态调整至垂直状态。
2.根据权利要求1所述的一种具有叶片可调结构的悬挂式风力发电组件,其特征在于,所述支撑定位组件(2)包括丝母(201);所述丝母(201)转动连接于支撑筒(1)的内端面上;
所述丝母(201)内配合有一丝杆(202);所述丝杆(202)的一端贯穿延伸至支撑筒(1)的外部并固定有一驱动块(203);所述驱动块(203)上沿环形方向转动连接有多个传动杆(204);
所述传动杆(204)的一端转动连接于一定位杆(205);所述定位杆(205)的一端转动连接于支撑筒(1)的外端面上。
3.根据权利要求2所述的一种具有叶片可调结构的悬挂式风力发电组件,其特征在于,所述丝母(201)的外周固定套设有一第一齿轮(206);所述第一齿轮(206)上啮合有一第二齿轮(207);所述第二齿轮(207)固定于一驱动电机(208)的输出轴上。
4.根据权利要求1-3任意一项所述的一种具有叶片可调结构的悬挂式风力发电组件,其特征在于,所述第一齿片(11)与第二齿片(12)均呈弧形结构;
所述第一齿片(11)与第二齿片(12)的两端处均设置有一配合齿盘(13);
所述配合齿盘(13)转动连接于调向柱(10)的外壁上;所述配合齿盘(13)可与传动齿盘(9)相啮合;
所述配合齿盘(13)用于帮助传动齿盘(9)与第一齿片(11)或第二齿片(12)快速啮合。
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