M416685 *« 四、指定代表圖: (一) 本案指定代表圖為:第3圖 (二) 本代表圖之元件符號簡單說明: 10外殼 11輸入轴 12單向軸承 . 13欠齒齒輪 14齒輪 • 15螺旋彈簧 16雙向軸承 17輸出軸 五、新型說明: 【新型所屬之技術領域】 本創作係有關於一種旋轉彈簧之儲能釋能結構,尤指一種 可應用於如手搖發電機、輪轴發電機或風力發電機等裝置内 部’可提升間歇性能量之使用效率。 【先前技術】 對於間歇性能量的使用,諸如手搖發電機、輪轴發電機及 風力發電解’彡使㈣輪組賴輪人減輸丨軸,能量由輸 軸輸it由輸出轴輸出,輸出轴如連結發電機頭,則可因轉 動來產生電力。 2 M416685 r-------------;7— ..'· ICj. 年力=補充 . 如第1圖及第2圖所示,其係一種習知之間歇性能量傳遞 結構’該結構包括有一外殼10a、輸入軸11a、軸承12a、齒輪 13a、齒輪i4a、軸承15a及輸出轴16a等,當輸入轴11a有能 量輸入時’利用齒輪13a及齒輪14a的齒數不同來達成省力或 是增速的功能,將能量傳遞到輸出轴16a。 【新型内容】 習知間歇能量傳遞結構係使用齒輪組為媒介將輸入能量 直接傳遞給輸出轴’但由於間雛能量忽無忽有、忽大忽小, 具有難測及、定性’摊辟能量的使用效率。 *本創作提供-種旋轉彈簧之儲能釋能結構,包括有一外 殼輸入軸、一單向軸承、-欠齒齒輪、一齒輪、一螺旋彈 簧軸承及-輸出轴所組成,利用欠齒齒輪與齒輪的互賴 式及螺旋科的雜雜·,可觸雜缝齡於螺旋彈 簧中’累積-定能量後自行釋出。 本創作提供-難娜菁之離難結構可關歇性能 $先儲存於職,,_,卜_後會自行將能量釋 ^増加了釋出能量的觀性,進研浦她能量之使用 3 10). s.oi ^jc /ij ***' . ; 一、 【實施方式】 ^/ϋ 請參閱第3圖、第4圖、第5圖、第6圖及第7圖,為本 創作較佳之實施例,本創作提供一種旋轉彈簧之儲能及自動釋 能結構,可使間歇性能量化零為整,提升間歇性能量使用效 率,其組成包括一外殼10,該外殼1〇内部具有加強材並作為 其他元件的承載體、一輸入轴U,該輸入轴u可以自然力、 人力、機械力或電動力等能量輸入、一單向軸承12 ,該單向 軸承12為一使輸入轴U維持固定轉向之元件,單向不可反 轉,可使輸入能量持續累積增加、一欠齒齒輪13、一齒輪 及一螺旋彈簧15,該螺旋彈簧15兩端分綱定於輸出轴17 及外殼10,由已知螺旋彈簧15之旋轉儲能性能值,可計算出 欠齒齒輪13及齒輪14之直徑及齒數,進而控制螺旋彈簧 之釋能時機,該螺旋彈簧之儲能釋能行程示意圖如第7圖所 示、一雙向軸承16及一輸出轴17,該輸出軸17承受螺旋彈 箸15所釋㈣旋轉能量,如與發電機頭相連結可產生電力。 【圖式簡早說明】 第1圖係習知能量傳遞結構之立體圖 第2圖係習知不同齒數齒輪應用示意圖 第3圖係本創作之剖視圖 第4圖係本創作之立體圖 第5圖係本創作之立體分解圖 M416685 ;· 第6圖係本創作欠齒齒輪與齒輪應用示意圖M416685 *« IV. Designated representative map: (1) The representative representative of the case is: Figure 3 (2) The symbol of the representative figure is a simple description: 10 casing 11 input shaft 12 one-way bearing. 13 under-tooth gear 14 gear • 15 coil spring 16 two-way bearing 17 output shaft five, new description: [New technical field] This creation is related to a stored energy release structure of a rotating spring, especially one can be applied to, for example, a hand-cranked generator, axle The internals of the generator or wind turbine can improve the efficiency of intermittent energy use. [Prior Art] For the use of intermittent energy, such as hand-cranked generators, axle generators, and wind-powered electrolysis, the (four) wheel group is reduced to the shaft, and the energy is output from the output shaft by the output shaft. If the output shaft is connected to the generator head, power can be generated by the rotation. 2 M416685 r-------------;7— ..'· ICj. Annual strength = supplement. As shown in Figures 1 and 2, it is a conventional intermittent energy transfer. The structure includes a casing 10a, an input shaft 11a, a bearing 12a, a gear 13a, a gear i4a, a bearing 15a, an output shaft 16a, and the like. When the input shaft 11a has an energy input, 'the number of teeth of the gear 13a and the gear 14a is different. The function of labor saving or speed increasing transmits energy to the output shaft 16a. [New content] The conventional intermittent energy transfer structure uses the gear set as the medium to transmit the input energy directly to the output shaft'. However, due to the sudden and inconsistency, the energy is unpredictable and qualitative. Use efficiency. *This creation provides an energy storage and release structure for a rotating spring, comprising a housing input shaft, a one-way bearing, an under-toothed gear, a gear, a helical spring bearing and an output shaft, using an under-toothed gear and The mutual dependence of the gears and the miscellaneous miscellaneous of the spirals can be released spontaneously after the accumulation of the energy in the coil springs. This creation provides - the difficulty of the naval structure can be shut down performance $ first stored in the job, _, _ _ will automatically release the energy release of the energy of the view, into the research and use of her energy 3 10). s.oi ^jc /ij ***' . ; I. [Embodiment] ^/ϋ Please refer to Figure 3, Figure 4, Figure 5, Figure 6 and Figure 7 for this creation. In a preferred embodiment, the present invention provides an energy storage and automatic energy release structure of a rotating spring, which can quantify the intermittent performance and improve the intermittent energy use efficiency. The composition includes a casing 10, and the casing 1 has an internal reinforcement. And as a carrier of other components, an input shaft U, the input shaft u can input energy such as natural force, human force, mechanical force or electric power, and a one-way bearing 12 for maintaining the input shaft U The fixed steering component is unidirectionally non-reversible, and can continuously increase the input energy, an under-toothed gear 13, a gear and a coil spring 15. The two ends of the coil spring 15 are defined on the output shaft 17 and the outer casing 10, The under-toothed gear 13 can be calculated from the value of the rotational energy storage performance of the known coil spring 15. And the diameter and the number of teeth of the gear 14, thereby controlling the timing of the release of the coil spring. The energy storage and discharge stroke of the coil spring is as shown in Fig. 7, a bidirectional bearing 16 and an output shaft 17, which bears a spiral The explosive energy released by the magazine 15 (4), if connected to the generator head, can generate electricity. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a conventional energy transfer structure. Fig. 2 is a schematic view showing the application of different gear numbers. Fig. 3 is a cross-sectional view of the present creation. Fig. 4 is a perspective view of the creation. The three-dimensional exploded view of the creation M416685; · Figure 6 is the application diagram of the original tooth gear and gear
第7圖係本創作螺旋彈簧儲能釋能曲線示意圖 【主要元件符號說明】 [習知] 10a外殼 11a輸入轴 12a單向轴承 13a齒輪 14a齒輪 15a軸承 16a輸出轴 [本創作] 10外殼 11輸入軸 12單向轴承 13欠齒齒輪 14齒輪 15螺旋彈簧 16雙向軸承 17輸出軸 5Fig. 7 is a schematic diagram of the energy storage release curve of the spiral spring of the present invention. [Main component symbol description] [Generally known] 10a housing 11a input shaft 12a one-way bearing 13a gear 14a gear 15a bearing 16a output shaft [this creation] 10 housing 11 input Shaft 12 one-way bearing 13 under-toothed gear 14 gear 15 coil spring 16 two-way bearing 17 output shaft 5