1310439 I 1 九、發明說明: 【發明所屬之技術領域】 本發明係與-種傳動機構有關,特別是指一種具有省 力及節省能源消耗之省力節能傳動機構。 【先前技術】 按’習知之傳動機構者’其主要係包含有一行星轉輪 組,該行星轉輪組係由多個不同半徑比例之轉輪所組成, 該等不同半徑比例之轉輪並使該行星轉輪組内產生數組不 同之省力單兀,而該傳動機構其一端係有一入力端接收一 外部動力之輸入,再經由該傳動機構内之行星轉輪組而將 入力端之動力轉換為所需之輸出動力而於其另端之出力端 輸出。 【發明内容】 惟,習知之傳動機構者,其内之行星轉輪組彼此間係 存在有磨擦力,該磨擦力消耗許多入力端所輸入之外部動 力,使該傳動機構不僅效能低而且產生能源之耗費,造成 生產成本之增加,或造成其他極大之能源消耗。 本發明係提供一種省力節能傳動機構,其係有一入力 =接,外部動力之輸人,其相對端則有—出力端將經由該 名力節能傳動機構處理後之動力輸出,該省力節能傳動機 構其主要係包含有一容室、至少二節能單元、至少一配速 單π及數個磁性單元,其中,該節能單元係容置於該容室 内,並於一動力傳輸軸上連接一單向軸承,該單向軸承並 連接有一離心器,該離心器外周更設有一配重元件,使該 5 13104391310439 I 1 IX. DESCRIPTION OF THE INVENTION: TECHNICAL FIELD OF THE INVENTION The present invention relates to a transmission mechanism, and more particularly to a labor-saving and energy-saving transmission mechanism that saves labor and saves energy consumption. [Prior Art] According to the 'known transmission mechanism', its main system includes a planetary wheel set which is composed of a plurality of wheels of different radius ratios, and the wheels of different radius ratios are The planetary wheel set generates an array of different labor-saving units, and the transmission mechanism has an input end that receives an input of an external power, and then converts the power of the input end into a power through the planetary wheel set in the transmission mechanism. The required output power is output at the output end of the other end. SUMMARY OF THE INVENTION However, in the conventional transmission mechanism, the planetary wheel sets therein have frictional forces between each other, and the friction force consumes a lot of external power input by the input end, so that the transmission mechanism is not only low in efficiency but also generates energy. The cost of production increases the cost of production or causes other extreme energy consumption. The invention provides a labor-saving and energy-saving transmission mechanism, which has an input force=connection, the input of external power, and the opposite end has a power output that the output end will be processed by the name energy-saving transmission mechanism, and the energy-saving transmission mechanism The utility model mainly comprises a chamber, at least two energy-saving units, at least one speed-matching single π and a plurality of magnetic units, wherein the energy-saving unit is housed in the chamber, and a one-way bearing is connected to a power transmission shaft. The one-way bearing is connected to a centrifuge, and the outer periphery of the centrifuge is further provided with a weight element to make the 5 1310439
• I 節能單元藉由該離心器與該配重元件彼此間所產生之旋轉 慣量及離心效應,而使該離心器產生一加速及增加轉矩效 應,並藉由該動力傳輸轴上所連接之配速單元,使該省力 節能傳動機構内之該等節能單元彼此產生連接,並進而產 生累進式增速及增加轉矩之效果,而於另端之出力端輸 出,另,該等磁性單元係設於該等節能單元之離心器一侧 端面,以及該等配速單元之相對一側端面上,使該節能單 元與該配速單元間能產生偏差互斥效應,而達到省力之效 果。 本發明所提供之提供一種省力節能傳動機構,該節能 單元係藉由該離心器與該配重元件彼此間所產生之旋轉慣 量及離心效應,而使該離心器產生一加速及增加轉矩效 應,進而減少動力由入力端輪入後能量之消耗,而產生一 即能效果’另,該配速單元藉由形成一大比數之加速狀態, 使其不僅具有省力之效能,而且提高其輸出之扭力及轉 2,同時,藉由該等磁性單元所產生之偏差互斥效應,更 月b達到省力之效果,因此,藉由組合多組之節能單元及配 速單元於該省力節能傳動機構之容室内,進而使該省力節 旎傳動機構產生極佳之省力及節能效果。 【實施方式】 ,首先,請參閱第一至五圖所示,本發明係提供一種具 省力知能傳動機構100之較佳實施例,該省力節能傳動機 構100其係有一入力端丨〇 1 ’接收外部動力之輸入,並將外 邛動力經由該省力節能傳動機構1〇〇,再由相對該入力端 6 1310439 之一出力端102將動力再輸出,該省力節能傳動機構 一? t要係包含有一容室10、至少二節能單元20及至少 一,速早7L 30’而該容室1G係為密閉,且於預定位置設有 乳閥1卜並藉由該氣閥u❿可將其内之空氣抽離,使其 :成為-極近真空狀態且密閉之容室1〇,進而減少該容室 10内之空氣阻力,其中: 勺入f節能單元20,係容置於該容室1G内,其主要係 。:有一離心器21’該離心器21外周預定位置係連接有一 =几件22,其中,請再參閱第二圖所示,該離心器21 :糸可成型為預定無偏心設計之形狀,請再參閱第三圖所 者該離心器21亦可成型為預定偏心設計之形狀,而 邊離心器21與該配重元件22並於彼 頸部211,該離心器21之頸邻 蜒珉孓有 、击& & 益u之硝邛211係可自與該配重元件22 連接處之兩侧端面朝向該離哭9 者自與該配重元件22連:處:…位置收斂,亦或 接處之側端面朝向該離心器21 ί 2rm斂另’該配重元件22之重量係大於該離心 ’且其重量係可平均分佈於該離心器21之外 ^ ’或者不平均分佈於該離心器21之外周,而該離心哭21 與該配重疋件22彼此係可為同一材質所製成,或可為昱型 材質所製成’本發明較佳實施例之該離心器。係 =無=心設計之形狀,且與該配重轉22彼此 型 質所製成,而該配重元件$番θ并τ 何 並平均分佈於該離心器 該離心器21之頸部211並自與該配重元件 22連接處之兩側端面,朝向該離心器21之中心位置::件 7 I31Q439 又二該節能單元20之離心器21其中央預定位置並固接有 一單向軸承23,該單向軸承23中央部位之軸心係固接於一 動力傳輪軸24上,該等節能單元20其中有一節能單元2〇 之動力傳輸軸24,其一端穿設通過該容室1〇,而凸設於該 省力節能傳動機構1〇〇之入力端1〇1,藉此接收外部動力之 帶動,另有一節能單元2〇之動力傳輸軸24,其相對該省力 節能傳動機構100之入力端101側之另端,則穿設通過該 容室ίο,而凸設於省力節能傳動機構1〇〇之出力端1〇2, 藉此,將由該入力端101進入之動力再輸出至一預定連接 之負載上。 至少一配速單元30,係容置於該容室ίο内,其主要 係包含有二轉輪31,該等轉輪31其中之一係固接於該節能 單元20之動力傳輸軸24其中一側之預定位置,另一轉輪 31則固接於另一節能單元2〇之動力傳輸軸24之另一預定 位置上’且該等轉輪31雖固定於不同節能單元20之動力 傳輸軸24上,但其彼此間之位置係彼此相對,而該等轉輪 31間彼此並有一傳動器32連接該等轉輪31,並藉由該等 轉輪31彼此間半徑比之不同而產生不同之轉速狀態,使其 出力端102可獲得所需之轉速。 數磁性單元40,該等磁性單元40係包含有設於該等 節能單元20之離心器21 —側端面之第一磁性元件41,及 該等配速單元30之轉輪31上之第二磁性元件42,且該配 速單元30之傳動器32係為一齒輪組,使該等離心器21轉 動時彼此間轉動之方向係為相反之方向。 8 1310439 -------— β钭月’。曰修(更)正替換頁 請參閱第六至八圖所示’係為本發明之另一較佳實施 例,其主要結構係與較佳實施例相同,故不再贅述,其中, 本只%例更進一步於該容室1 〇内設有一磁性啟動組5 〇,該 磁性啟動組50其主要係包含有一支撐軸51、一磁性單元 52、一限位桿53及至少一非磁性單元54,而該支撐轴51 其一端係固接於該容室10内之入力端1〇1面,另端則軸接 有該磁性單元52之第一磁性元件52L·該第一磁性元件521 相對該入力端101側之節能單元2〇其離心器21外周之配 重元件22上,則相對設有至少一第二磁性元件522,即該 配重兀件22及該等磁性單元52之第二磁性元件522係同 设於該離心器21之外周,且該配重元件22及第二磁性元 件522兩者相對該離心器22之外周並各再設有一非磁性單 元54,另,該限位桿53係被固接於該入力端1〇1之軸側端 面上,並限制定位該軸側端面所軸接之磁性單元5 2之第一 磁性元件521。 請參閱第九圖所示,其係為本發明之又一較佳實施 例,其主要結構係與較佳實施例相同,故不再贅述,其中, 本實施例更進一步係設有數磁性單元6〇,該等磁性單元6〇 係包含有設於該等節能單元2〇之離心$ 21 —側端面之第 一磁性兀件61,及該等配速單元3〇之轉輪31上之第二磁 性το件62,且該配速單元3〇之傳動器31係為一齒輪組, 使該等離心器21轉動時彼此間轉動之方向係為相反之方 向另本創作並於该容室10内設有另一磁性啟動組, 該磁性啟動組70其主要係包含有數磁性單元7卜一固定框 1310439 單向軸承73及一轉動轴74,該轉動軸74上係套設 ^單向軸承73,並穿設通過該容室1()之入力端⑻側, 猎由該單向軸承73而固定於該容室之入力嬙側, “轉動轴74其另端並固接有該固定框72,該固定框了2相 Μ轉動轴74端並沿軸向凸設有數支架721,該等支架721 上端各連接有该磁性單元71,並使該等磁性單元71可對應 該離心ϋ 21上該等磁性單元6{)之第—磁性元件61,且該 磁1·生啟動組70之該等磁性單元71與該節能單元2〇所設該 等磁性單①之第—磁性元件61間係為同極性。 為供進一步瞭解本發明構造特徵、運用技術手段及所 預期達成之功效’兹將本發明使用方式加以敘述,相信當 可由此而對本發明有更深入且具體之瞭解,如下所述: 凊參閱第一至五圖所示,該省力節能傳動機構1〇〇其 係可於》亥谷至1 〇内谷置有複數個節能單元2〇,該等節能單 元20間並藉由其動力傳輸軸24上所連接之配速單元3〇, 而使該等節能單it 20彼此間產生連接,並將外部之動力由 凸設於該入力端1〇丨之動力傳輸軸24輸入,並帶動該節能 單元20之單向軸承23,該單向軸承23並帶動該離心器21 旋轉,進而使其外周所連接之配重元件22亦隨之旋轉,該 節旎單元20經由高速旋轉後,因為該配重元件22之重量 係大於該離心器21,因此,藉由該離心器21與該配重元件 22彼此間所產生之旋轉慣量和離心效應,進而使該離心器 21產生加速及增加轉矩效應,且該節能單元2〇之單向輛承 23並限制該節能單元2〇之離心器21,使該離心器21其僅 __________ 郯年销Μί修(更)正替換胃 H _·Ι·丨丨_______________________ 1310439 -能產生單向之轉動,而不能產生反向之轉動, 使該節ϋ -元20在運轉一段時間後,藉由該節能單元2〇所產生加速 -及增加轉矩效應,而減少動力由入力端101輸入後能量之 消耗,進而使該節能單元20產生節能效果,另,藉由帶動 該動力傳輸軸24上所連接之配速單元3〇其中之一轉輪 31,使该轉輪31藉由帶動該傳動器32再帶動另一動力傳 輸軸24上§亥配速單元3〇之另一轉輪31,使其再帶動另一 動力傳輸軸24,及另一動力傳輸軸24上之另一節能單元 20之單向軸承23上之離心器2卜且因為凸設於該二力端 101之動力傳輸軸24上之節能單元20之離心器21,其所 產生轉動之速度已較該入力端1〇1初速轉動之速度快Μ 轉:也增大’因此,再帶動該另一動力傳輪轴24上相同節 能单兀20之離心器21加速後’則使該另一動力傳輸軸μ 上離心器21轉動之速度也較入力端1〇1動力傳輸軸24上 之離心器21速度更快,且其轉矩會更大,因此,藉由再連 接預定組數之節能單元2〇及預定組數之配速單元經由 該等離心器21與該等配重元件3〇彼此間所產生之加速及 m矩二應後,而具有一累進式之增速及累加轉矩效 應二吏最後出力端1〇2其轉動之速度係可大於該入力端iqi 戶:而入且之因速λ而且輸出轉矩增加,進而產生加速節能效 且因為出力端102之動力傳輸軸24上之離心器21, mm大於該入力端igi之動力轉輸轴%上之離 二之韓::度,進而使其出力端ι〇2之轉矩也較入力 端 轉矩增加數倍,又,當該出力端1〇2需要帶動- 11 1310439 --- - 对年4·月π日修(更)正替換頁 負載時,則該省力節能傳動機構100其最後一組之配速單 元30則需形成大比數之半徑比,使其出力端102轉動之速 度符σ預疋轉動之速度,並使其輸出之扭力提高數倍以 上,而產生一省力之效果,又,該磁性單元4〇,其係分別 3又於5亥離心器21上之第一磁性元件41及該轉輪31之第二 磁性元件42上,且彼此之極性係為相同,因此,當離心器 21上之第一磁性元件41與另一轉輪31之另一第二磁性元 件42轉動時,因為彼此間之運轉方向不同但其相對應端之 極性係相同,而產生偏差互斥效應,並藉由該單相軸承23 使其所產生之互斥力都僅朝單一方向轉動,因此,更具有 省力效果。 凊參閱第六至八圖所示,該磁性啟動組5〇之磁性單元 52之第一磁性元件521及第二磁性元件522,其安裝時使 呈現同極性,因此,當離心器21轉動時,其最外周面之非 磁性單το 54前端係將該第一磁性元件521頂起,而當該離 心态21轉動到缺口位置時,則該第一磁性元件521會再落 下,但因為第一磁性元件521及第二磁性元件522間係為 同極性,因此產生互相排斥現象,此時第一磁性元件521 將離心器21上之第二磁性元件522推開,藉此使離心器U 轉動更省力,進而使供給此離心器21之動能更節能,同時, 因為該等離心器21係具有旋轉慣量效應,所以當供給動能 停止後,藉由該等離心器21上之該等磁性單元4〇間,彼 此所產生之互相排斥現象,使得該離心器21持續運轉時間 更長’使得停止供給動能時間延長,更達到節能目的。曰 12 1310439 明=閱第九圖所示,該磁性啟動組70係藉由該轉動軸 ^轉動時’因為該等磁性單元71與人力端⑻㈣之離心器 ^ κ等磁丨生單元60之第一磁性元件61,其彼此間之極 係為相同’因此會產生互斥效應,進而使該離心器21因 二互斥而轉動,並藉由該等磁性單元m彼此間之互斥 效應’使^離心21轉動更省力,另,因該轉動軸74 ^接於!!單向軸承73上,而該離心器21及配速單元30並 "又有。亥單向轴承23 ’因此’該等磁性單元60、71所產生之 互斥:都僅朝單一方向轉動’更具有省力效果。 々請參閱第十圖所示,其係為該省力節能傳動機構⑽ =第-施用實施例,而其所使用之省力節能傳動機構⑽ 糸與本發明之較佳實施例相同,故不再資述,並中,兮省 力節能傳動機構⑽其入力端1〇1係連接一動;提供裝置 ”亥動力提供裝置3〇〇之另端並連接一控制開關4〇〇, 該控制開關_之另端並連接—電源供應裝置5⑽,另,該 2制關關係可受一時間控制裝置_所控制,藉由該時間 :制裝置600所投定之時間常數’而控制該控制開關侧 ^所設定之時間常數產生開啟及關閉,用以控制使該電源 應裝置500提供該動力提供裝m斤需之電源之周 :,其中’當該時間控制裝置_使該控制開關導通 時,則該動力提供裝置·係有來自該電源供應裝置500 之電源而啟動’並帶動該省力節能傳動㈣⑽而可帶動 其出力端102所連接之負載200 ’當該時間控制裝置_ 依其所設定之時間常數而斷路時,則該動力提供裝置 13 1310439 停止帶動,但該省力節能傳動機 =驻轉慣讀以仍可持續帶動其出力端負 藉此,不僅可藉由該省力節能傳動機構1〇〇本身所 產生之省力節能效果,而可持續再帶動其出力端ι〇2之負 ί而而產且生也另使一mr裝置3 G G目為勿需持續產生動力: 請參=十-圖所示,其係為該省力節能傳動機構⑽ 施例,而其所使用之省力節能傳動機構_ j與本發明之較佳實_㈣,且其主要連接方式斑該第 -施用實施例相同,故不再贅述,其主要係設有一速产控 裝置700,該速度控制裝置⑽並於該出力端1〇2處設= =度感應器7(Π,該速度感應器7〇1並將所量測該出力端 2其轉動之速度傳輸至該速度控制裝置7〇〇,者 1〇2其輸出時轉動之速度達到預定設定之最高或^低轉動 之速度值時’該速度控制裝置進而控制該控制開關彻 之開啟或關閉’而控制該動力提供裝置_來 應裝置500所提供之電源。 請參閱第十二圖所示,其係為該省力節能傳動機構ι〇〇 之第三施用實施例,而其所使用之省力節能傳動機構1〇〇 係與本發明之較佳實施例相同,且其主要連接方式與該第 -施用實施例相同’故不再贅述,其主要係設有一扭力控 制裝置800 ’該扭力控制裝置_並於該出力端j 〇2處設有 一扭力感應器801,該扭力感應器8〇1並將所量測該出力端 102轉動之扭力傳輸至該扭力控制裝置8〇〇,當出力端 1310439 其輸出之扭力達到預定設定之最高或最低之扭力值時,該 扭力控制裝置8〇〇進而控制該控制開關400之開啟或關 閉’而控制該動力提供裝置300來自該電源供應裝置500 所提供之電源。 藉由以上說明,茲再將本發明之特徵及其可達成之預 期功效陳述如下: 2 1、本發明之省力節能傳動機構,其節能單元係藉由該離 心器與該配重元件彼此間所產生之旋轉慣量和離心效 應,進而使該離心器產生加速及增加轉矩效應,且該 節月b單元之單向轴承並限制該節能單元之離心器僅能 ^生單向之轉動,而不能產生反向之轉動,使該節能 早兀在運轉一段時間後,藉由該節能單元所產生加速 及累加轉矩效應,而減少動力由入力端輸入後之消 耗,進而使該節能單元產生節能效果。 ^明之省力節能傳動機構,因具有持續性旋轉慣量 用此一特性更進一步係可利用不同之控制裝 端之:二=生!供給該省力節傳能傳動機構其入力 3 構之動節省其供給該省力節能傳動機 f之動力切,使其產生另—節能效果。 發月之嗜力節能傳動機構,其中,筈…处„„ 等配速單元係可依所心早兀及該 内。 而之數里而組合容置於該容室 本發明之省力節能傳動機構… 並可將JL内夕命γ ^ 、中β亥各至係為密閉’ 内之空,而減少該等節能單元與空 15 4 Π10439 ------------— : .贤年4月卜曰修(更)正替換w : 氣所產生之磨擦力及其所產生之能量 組合多組該等節能單元及該等配速單元,使該省力曰& 能傳動機構可產生極佳之節能效果。 5、本發明之省力節能傳動機構,藉由在該等節能單元之 離心器之一側端面上,以及該等配速單元之 對-側端面上設有該等磁性單元,使該節能單^㈣目 配速單元間能產生偏差互斥效應,並藉由該單相轴承 使其所產生之互斥力都僅朝單一方向轉動,而達到省 力之效果。 綜=述,本發明在同類產品中實有其極佳之進步實 =广時遍查國㈣關於此類結構之技術資料,文獻中 ^未毛現有相同的構造存在在先,是以 發明專利要件,妥依法提出申請。 本發月只已具傷 惟,以上所述者,僅係本發明 已,故舉凡應用本發明說明書及二行實施例而 稱是化,理應包含在本發明之專利範圍内。 16 1310439 > 1 【圖式簡單說明] 第1係本發明之結構示意圖。 第:圖係本發明較佳實施例之節能單元側視圖。 =一圖係本發明較佳實施例之另—節能單元側視圖。 ,四圖係本發明較佳實施例之節能單元正剖視圖。 弟五圖係本發明較佳實施例之又—節能單元正剖 圖。 第六圖係本發明> s 第七圖係本發明緣只施例之結構示意圖。 視圖。 另杈佳實施例之磁性啟動組之側 第八圖係本發明之另一 作示意圖。 一較佳實施例之磁性啟動組之動 第九圖係本發明之又一每 第十圖係本發明#估杳貝施例之結構示意圖。 第十之第-施用示意圖。 第十二圖係本發明較佳每2之第二施用示意圖。 【主要元件符號說明】“例之第三施用示意圖。 【本發明】 0 1 0 0 0 2 出力端 氣閥 離心器 配重元件 動力傳輸軸 100省力節能傳動機構 入力端 容室 節能單元 頸部 单向轴承 4 17 1310439 • 1 3 0 配速單元 3 2 傳動器 4 0 磁性單元 4 2 第二磁性元件 5 0 磁性啟動組 5 2 磁性單元 5 2 2 第二磁性元件 5 4 非磁性單元 6 0 磁性單元 6 2 第二磁性元件 7 0 磁性啟動組 7 2 固定框 7 3 單向軸承 2 0 0 負載 3 0 0 動力提供裝置 4 0 0 控制開關 5 0 0 電源供應裝置 6 0 0 時間控制裝置 7 0 0 速度控制裝置 8 0 0 扭力控制裝置 3 1 轉輪 4 1 第一磁性元件 5 1 支撐軸 5 2 1 第一磁性元件 5 3 限位桿 61 第一磁性元件 7 1 磁性單元 7 2 1 支架 7 4 轉動軸 7 0 1 速度感應器 8 0 1 扭力感應器 18• The I energy-saving unit causes the centrifugal device to generate an acceleration and increase torque effect by the rotational inertia and centrifugal effect generated between the centrifugal device and the weight element, and is connected by the power transmission shaft The speed-matching unit enables the energy-saving units in the energy-saving and energy-saving transmission mechanism to be connected to each other, and further produces the effects of progressive speed increase and torque increase, and outputs at the output end of the other end, and the magnetic unit The end faces of the centrifuges of the energy-saving units and the opposite end faces of the speed-adjusting units can cause a mutual exclusion effect between the energy-saving unit and the speed-matching unit, thereby achieving a labor-saving effect. The invention provides a labor-saving and energy-saving transmission mechanism, wherein the energy-saving unit generates an acceleration and an increase torque effect by a rotation inertia and a centrifugal effect generated between the centrifugal device and the weight element. , thereby reducing the power consumption by the input end of the wheel, and generating an instant effect. In addition, the speed-adjusting unit not only has a labor-saving effect but also improves its output by forming a large ratio of acceleration state. Torque and turn 2, at the same time, by the mutual exclusion effect generated by the magnetic units, the effect of saving labor is achieved by the monthly b. Therefore, by combining a plurality of sets of energy-saving units and speed-matching units in the labor-saving and energy-saving transmission mechanism The interior of the room allows the labor-saving and thrifty transmission mechanism to produce excellent labor saving and energy saving effects. [Embodiment] First, referring to the first to fifth figures, the present invention provides a preferred embodiment of a labor-saving intelligent transmission mechanism 100, which has an input end ' 1 'receiving The input of the external power, and the external power is passed through the energy-saving transmission mechanism, and then the power is re-outputted by the output end 102 of the input end 6 1310439. The energy-saving transmission mechanism is one? The t-system comprises a chamber 10, at least two energy-saving units 20 and at least one, 7L 30' in speed, and the chamber 1G is sealed, and a milk valve 1 is provided at a predetermined position and can be opened by the air valve. The air inside is evacuated to become a very close vacuum state and the sealed chamber is 1 〇, thereby reducing the air resistance in the chamber 10, wherein: the scooping into the energy saving unit 20, the system is placed in the Within the chamber 1G, its main system. There is a centrifuge 21'. The predetermined position of the outer periphery of the centrifuge 21 is connected with a number of pieces 22, wherein, as shown in the second figure, the centrifuge 21 can be formed into a shape of a predetermined unbiased design, please Referring to the third figure, the centrifuge 21 can also be shaped into a predetermined eccentric design, and the edge organ 21 and the weight element 22 are adjacent to the neck 211, and the neck of the centrifuge 21 is adjacent to the neck. The tapping &&&<<>> can be connected to the counterweight element 22 from both end faces of the junction with the counterweight element 22: at: ... position convergence, or The side end face is directed toward the centrifuge 21 ί 2rm, and the weight of the weight element 22 is greater than the centrifugation and its weight can be evenly distributed outside the centrifuge 21 or distributed unevenly on the centrifuge. The outer circumference of 21, and the centrifugal crying 21 and the weight member 22 may be made of the same material, or may be made of a 昱 type material. The centrifuge of the preferred embodiment of the present invention. The shape of the heart = no = heart design, and the weight of the weight 22 is made of each other, and the weight element θ and τ are evenly distributed on the neck 211 of the centrifuge 21 of the centrifuge. From the two end faces of the junction with the weight element 22, toward the center of the centrifuge 21: the member 7 I31Q439 and the centrifuge 21 of the energy-saving unit 20 have a central predetermined position and a one-way bearing 23 is fixed. The central portion of the one-way bearing 23 is fixed to a power transmission shaft 24, wherein the energy-saving unit 20 has a power transmission shaft 24 of the energy-saving unit 2, one end of which passes through the chamber 1 The power transmission shaft 24 is disposed on the power transmission end of the energy-saving transmission mechanism 100, and the power transmission shaft 24 of the energy-saving unit 2 is opposite to the input end 101 of the energy-saving transmission mechanism 100. The other end of the side is passed through the chamber ίο, and protruded from the output end 1〇2 of the labor-saving and energy-saving transmission mechanism, whereby the power entered by the input end 101 is re-outputted to a predetermined connection. On the load. At least one of the power transmission shafts 24 is fixed to the power transmission shaft 24 of the energy saving unit 20, and the one of the power transmission units 20 is fixed to the power transmission unit 24 of the energy saving unit 20. At a predetermined position on the side, the other runner 31 is fixed to another predetermined position of the power transmission shaft 24 of the other energy-saving unit 2, and the runners 31 are fixed to the power transmission shaft 24 of the different energy-saving units 20. Up, but the positions of each other are opposite to each other, and the runners 31 have an actuator 32 connected to the runners 31, and the runners 31 are different in radius ratio from each other. In the state of rotation, the output end 102 can obtain the required rotational speed. The magnetic unit 40 includes a first magnetic element 41 disposed at a side end surface of the centrifuge 21 of the energy saving unit 20, and a second magnetic force on the rotating wheel 31 of the speed adjusting unit 30. The element 42 and the actuator 32 of the speed-adjusting unit 30 are a gear set such that the directions in which the centrifuges 21 rotate relative to each other are in opposite directions. 8 1310439 -------—β钭月’. The following is a description of the preferred embodiment of the present invention. The main structure of the present invention is the same as that of the preferred embodiment, and therefore will not be described again. The % example further includes a magnetic starting group 5 该 in the chamber 1 , the magnetic starting group 50 mainly includes a supporting shaft 51 , a magnetic unit 52 , a limiting rod 53 and at least one non-magnetic unit 54 . The support shaft 51 has one end fixed to the input end 1〇1 surface in the chamber 10, and the other end is connected to the first magnetic element 52L of the magnetic unit 52. The first magnetic element 521 is opposite to the The energy-saving unit 2 on the side of the input end 101 is disposed on the weight element 22 of the outer periphery of the centrifuge 21, and at least one second magnetic element 522 is oppositely disposed, that is, the second weight of the weight element 22 and the magnetic unit 52 The component 522 is disposed on the outer circumference of the centrifuge 21, and the weight element 22 and the second magnetic element 522 are respectively disposed on the outer circumference of the centrifuge 22 and each is provided with a non-magnetic unit 54. The 53 series is fixed to the shaft side end surface of the input end 1〇1, and the positioning of the shaft side end is restricted The shaft connected to the first magnet unit of the magnetic element 52152. The ninth embodiment of the present invention is a preferred embodiment of the present invention. The main structure is the same as that of the preferred embodiment, and therefore will not be described again. The present embodiment further provides a plurality of magnetic units 6 The magnetic unit 6 includes the first magnetic element 61 disposed on the side end of the centrifugal energy of the energy saving unit 2, and the second on the rotating wheel 31 of the speed adjusting unit 3 a magnetic member 62, and the actuator 31 of the speed adjusting unit 3 is a gear set, and the direction in which the centrifugal devices 21 rotate when rotating is opposite to each other and is created in the chamber 10 Another magnetic starting group is provided. The magnetic starting group 70 mainly includes a plurality of magnetic units 7 and a fixing frame 1310439, a one-way bearing 73 and a rotating shaft 74. The rotating shaft 74 is sleeved with a one-way bearing 73. And passing through the input end (8) side of the chamber 1 (), the hunting is fixed to the input side of the chamber by the one-way bearing 73, "the rotating shaft 74 is fixed at the other end and fixed to the fixing frame 72, The fixing frame has a 2-phase rotating shaft 74 end and a plurality of brackets 721 are protruded in the axial direction, and the upper ends of the brackets 721 are respectively The magnetic unit 71 is attached, and the magnetic units 71 are corresponding to the first magnetic element 61 of the magnetic unit 6{) on the ϋ 21, and the magnetic units 71 of the magnetic start group 70 The magnetic element 61 of the magnetic unit 1 is provided with the same polarity as the first magnetic element 61. The structure of the present invention is used for further understanding of the structural features, technical means and expected effects of the present invention. It is believed that the invention can be more deeply and specifically understood as follows: 凊 Referring to Figures 1 to 5, the energy-saving transmission mechanism can be used in "Haigu to 1" The inner valley is provided with a plurality of energy-saving units 2, and the energy-saving units 20 are connected to each other by the speed-matching unit 3〇 connected to the power transmission shaft 24, and the energy-saving units it 20 are connected to each other, and The external power is input from the power transmission shaft 24 protruding from the input end 1B, and drives the one-way bearing 23 of the energy-saving unit 20, and the one-way bearing 23 drives the centrifugal device 21 to rotate, thereby making the outer circumference thereof The connected weight element 22 is also rotated After the throttle unit 20 is rotated at a high speed, since the weight of the weight element 22 is greater than that of the centrifuge 21, the moment of inertia and the centrifugal effect generated by the centrifuge 21 and the weight element 22 are mutually generated. In turn, the centrifuge 21 generates an acceleration and an increase in torque effect, and the one-way carrier 23 of the energy-saving unit 2 and the centrifuge 21 of the energy-saving unit 2 are restricted, so that the centrifuge 21 is only __________ Μ 修 修 (more) is replacing the stomach H _·Ι·丨丨_______________________ 1310439 - can produce a one-way rotation, but can not produce a reverse rotation, so that the section - 20 after running for a period of time, by The energy-saving unit 2 generates an acceleration-and-increasing torque effect, and reduces the consumption of energy after the input of the power-in terminal 101, thereby causing the energy-saving unit 20 to generate an energy-saving effect, and further, driving the power transmission shaft 24 One of the reels 31 is connected to the reel unit 31, so that the reel 31 drives the actuator 32 to drive the other reel 31 of the other power transmission shaft 24 It drives another power transmission shaft 24, The centrifuge 2 on the one-way bearing 23 of the other energy-saving unit 20 on the other power transmission shaft 24 and the centrifuge 21 of the energy-saving unit 20 protruding from the power transmission shaft 24 of the two-force end 101 The speed of the generated rotation has been faster than the speed of the initial speed of the input end 1〇1: it is also increased. Therefore, the centrifugal unit 21 of the same energy-saving unit 20 on the other power transmission shaft 24 is accelerated. Then, the speed of the centrifuge 21 on the other power transmission shaft μ is also faster than that of the centrifuge 21 on the power transmission shaft 24, and the torque is larger, and therefore, by reconnecting The predetermined number of energy-saving units 2〇 and the predetermined number of the speed-matching units have a progressive increase after the acceleration and the m-moisture generated by the centrifugal elements 21 and the weight elements 3〇. The speed and the accumulated torque effect are the last speed of the output end 1〇2, and the speed of its rotation can be greater than the input end of the input terminal iqi: and the speed λ and the output torque increase, thereby generating an accelerated energy saving effect and because the output end 102 The centrifuge 21 on the power transmission shaft 24, mm is larger than the input end igi The force is transferred from the axis of the second to the second::, then the torque of the output end ι〇2 is also increased several times compared with the torque of the input end, and when the output end 1〇2 needs to be driven - 11 1310439 --- - For the year 4·month π day repair (more) when the page load is being replaced, the last group of the speed-saving unit 30 of the labor-saving energy-saving transmission mechanism 100 needs to form a large ratio of the radius ratio to make the output The speed of the rotation of the end 102 σ pre-twisting speed, and the torque of the output is increased by several times or more, thereby generating a labor-saving effect. Moreover, the magnetic unit 4〇 is respectively 3 and 5 On the first magnetic element 41 and the second magnetic element 42 of the reel 31, and the polarities of each other are the same, therefore, when the first magnetic element 41 on the centrifuge 21 and the other reel 31 are another When the second magnetic element 42 rotates, since the directions of operation are different from each other but the polarities of the corresponding ends are the same, a mutual exclusion effect occurs, and the mutual repulsive force generated by the single-phase bearing 23 is only Rotate in a single direction, so it is more labor-saving. Referring to the sixth to eighth figures, the first magnetic element 521 and the second magnetic element 522 of the magnetic unit 52 of the magnetic starting group 5 are mounted to have the same polarity, and therefore, when the centrifuge 21 is rotated, The front end of the non-magnetic single το 54 of the outermost peripheral surface lifts the first magnetic element 521, and when the centrifugal state 21 is rotated to the notch position, the first magnetic element 521 will fall again, but because of the first magnetic The element 521 and the second magnetic element 522 are of the same polarity, so that mutual exclusion occurs. At this time, the first magnetic element 521 pushes the second magnetic element 522 on the centrifuge 21, thereby making the rotation of the centrifuge U more labor-saving. Further, the kinetic energy supplied to the centrifuge 21 is more energy-saving, and at the same time, since the centrifugal devices 21 have a rotational inertia effect, when the kinetic energy is stopped, the magnetic units 4 on the centrifuges 21 are interposed. The mutual exclusion phenomenon generated by each other makes the centrifuge 21 continue to operate for a longer period of time, so that the time for stopping the supply of kinetic energy is prolonged, and the energy saving purpose is further achieved.曰12 1310439 明=Reading the ninth figure, the magnetic starting group 70 is rotated by the rotating shaft ^ because the magnetic unit 71 and the human end (8) (four) of the centrifuge ^ κ and other magnetic generating unit 60 A magnetic element 61, which is the same in polarity with each other, thus produces a mutual repulsion effect, which in turn causes the centrifuge 21 to rotate due to mutual repulsion, and by virtue of the mutually exclusive effect of the magnetic units m ^ Centrifugal 21 is more labor-saving, and because the rotating shaft 74 is connected to the !! one-way bearing 73, the centrifuge 21 and the speed-matching unit 30 are both. The unidirectional bearing 23' is therefore more devoid of the mutual repulsion produced by the magnetic units 60, 71: only rotating in a single direction. 々Please refer to the tenth figure, which is the labor-saving energy-saving transmission mechanism (10) = the first application embodiment, and the labor-saving energy-saving transmission mechanism (10) used is the same as the preferred embodiment of the present invention, so it is no longer available. In addition, in the middle, the energy-saving transmission mechanism (10) is connected to the input end 1〇1; the other end of the device is provided with a control switch 4〇〇, and the other end of the control switch And connecting the power supply device 5 (10), and the 2 control relationship can be controlled by a time control device _, and the time set by the control device 600 is controlled by the time constant set by the device 600 The constant generation is turned on and off to control the power supply device 500 to provide the power supply to the power supply cycle: wherein 'when the time control device _ turns the control switch on, then the power supply device · The power supply from the power supply device 500 is activated to start 'and drive the energy-saving transmission (4) (10) to drive the load 200 connected to the output end 102'. When the time control device _ is set according to the time When the circuit is disconnected, the power supply device 13 1310439 stops driving, but the labor-saving energy-saving transmission device = the resident accompaniment reading can still continue to drive the output end thereof, thereby not only by the labor-saving energy-saving transmission mechanism 1 itself The resulting energy-saving effect, and sustainable drive the output of the end of the ι〇2 ί while the production and life also make a mr device 3 GG mesh do not need to continue to generate power: Please refer to =10 , which is the embodiment of the labor-saving and energy-saving transmission mechanism (10), and the labor-saving and energy-saving transmission mechanism _ j used by the invention is the same as the preferred embodiment of the present invention, and the main connection mode is the same as the first application example, so Further, it is mainly provided with a speed control device 700, and the speed control device (10) is provided with a == degree sensor 7 at the output end 1〇2 (Π, the speed sensor 7〇1 and measured The speed of the output end 2 is transmitted to the speed control device 7〇〇, and the speed control device controls the control when the speed of the rotation of the output terminal 2 reaches the predetermined set maximum or low rotation speed value. The switch is turned on or off to control the power The power supply provided by the device is the power supply provided by the device 500. Please refer to the twelfth figure, which is the third application example of the labor-saving and energy-saving transmission mechanism, and the energy-saving transmission mechanism used therein is 1〇 The tethering system is the same as the preferred embodiment of the present invention, and its main connection mode is the same as that of the first application embodiment, so it will not be described again. It is mainly provided with a torsion control device 800 'the torsion control device _ and the output A torsion sensor 801 is disposed at the end j 〇2, and the torsion sensor 8〇1 transmits the torque for measuring the rotation of the output end 102 to the torsion control device 8〇〇, and the output torque of the output end 1310439 is reached. When the highest or lowest torque value is set, the torque control device 8 further controls the opening or closing of the control switch 400 to control the power supply device 300 from the power supply provided by the power supply device 500. By the above description, the features of the present invention and the expected efficacies thereof can be stated as follows: 2 1. The energy-saving and energy-saving transmission mechanism of the present invention, wherein the energy-saving unit is connected to each other by the centrifugal device and the weight element The rotational inertia and centrifugal effect are generated, which in turn causes the centrifugal device to accelerate and increase the torque effect, and the one-way bearing of the monthly b-unit and the centrifuge that limits the energy-saving unit can only produce one-way rotation, but cannot The reverse rotation is generated, so that after the energy saving is performed for a period of time, the acceleration and the accumulated torque effect generated by the energy-saving unit reduce the consumption of the power input by the input end, thereby causing the energy-saving unit to generate energy-saving effects. . ^Ming's labor-saving and energy-saving transmission mechanism, because of its continuous rotational inertia, this feature can be further utilized with different control terminals: 2 = raw! Supply the labor-saving energy-saving transmission mechanism, its input force 3 to save its supply The power-saving energy-saving transmission machine f is cut to generate another energy-saving effect. The lunar energy-saving transmission mechanism of the moon, in which the 配... at the speed of the unit can be used as it is. In addition, the combination is placed in the chamber to save the energy-saving transmission mechanism of the present invention... and the JL inner gamma γ ^ and the middle β hai can be closed to the inner space, thereby reducing the energy-saving units and Empty 15 4 Π10439 ------------— : . In the year of the sage of the year, Bu Xiu Xiu (more) is replacing w: the friction generated by the gas and the energy combination produced by it. The energy-saving unit and the speed-matching unit enable the energy-saving and high-efficiency transmission mechanism to produce excellent energy-saving effects. 5. The energy-saving and energy-saving transmission mechanism of the present invention, wherein the energy-saving unit is provided on one side end surface of the centrifugal device of the energy-saving unit and the magnetic-side unit on the opposite-side end surface of the speed-matching unit (4) The deviation mutual exclusion effect can be generated between the target speed units, and the mutual repulsive force generated by the single-phase bearing is only rotated in a single direction, thereby achieving the effect of labor saving. In summary, the present invention has excellent progress in similar products. ¡When the time is over, the country (4) has technical information on such structures. In the literature, the same structure exists first, and the invention patent The essentials should be submitted in accordance with the law. This month has only been injurious, and the above is only the present invention, and it is intended to be included in the scope of the present invention by using the specification and the second embodiment of the present invention. 16 1310439 > 1 [Simplified description of the drawings] The first is a schematic structural view of the present invention. Figure: is a side view of an energy saving unit in accordance with a preferred embodiment of the present invention. = Figure 1 is a side view of another energy saving unit in accordance with a preferred embodiment of the present invention. Figure 4 is a front cross-sectional view of the energy saving unit of the preferred embodiment of the present invention. The fifth figure is a cross-sectional view of the energy saving unit of the preferred embodiment of the present invention. Fig. 6 is a schematic view showing the structure of the present invention. view. Further, the side of the magnetic starting group of the preferred embodiment is shown in another figure of the present invention. The ninth diagram of the magnetic activation group of a preferred embodiment is a schematic view of the structure of the present invention. The tenth-first application diagram. Fig. 12 is a schematic view showing the second application of each of the present invention. [Main component symbol description] "The third application diagram of the example. [Invention] 0 1 0 0 0 2 Output end gas valve centrifuge weight element power transmission shaft 100 labor-saving energy-saving transmission mechanism input end chamber energy-saving unit neck single Bearing 4 17 1310439 • 1 3 0 Speed unit 3 2 Actuator 4 0 Magnetic unit 4 2 Second magnetic element 5 0 Magnetic start group 5 2 Magnetic unit 5 2 2 Second magnetic element 5 4 Non-magnetic unit 6 0 Magnetic Unit 6 2 Second magnetic element 7 0 Magnetic start group 7 2 Fixed frame 7 3 One-way bearing 2 0 0 Load 3 0 0 Power supply unit 4 0 0 Control switch 5 0 0 Power supply unit 6 0 0 Time control unit 7 0 0 Speed control device 800 Torque control device 3 1 Rotor 4 1 First magnetic element 5 1 Support shaft 5 2 1 First magnetic element 5 3 Limit rod 61 First magnetic element 7 1 Magnetic unit 7 2 1 Bracket 7 4 Rotary shaft 7 0 1 Speed sensor 8 0 1 Torque sensor 18