200801364 九、發明說明: 【發明所屬之技術領域】 尤指一種適用於車輛 本發明係關於一種單向離合器 之單向離合器。 【先前技術】 „於一般車㈣,依結構設計方“會於車_組設有 一皁向離合器。 請參閱圖1係習知單向離合器之爆炸圖、及圖2係圖】 之側視圖’傳統上’其會包括有—内輪Μ、以及—外輪9, 且内輪82會包括有一雇由多丨戸辟。Λ ^軸孔%壁821,外輪9會包括有一轴孔 91、以及三個袋部92。 15 20 其中,外輪9之轴孔91係同軸環套内輪82之軸孔環壁 ⑵並枢設於内輪82上,外輪9之三個袋部%㈣角度分佈 而轴向開設於軸孔91相、並分別連通軸孔91,且此三個 袋㈣分別包括有-袋底表面923,錢於徑向呈傾斜狀並 形成有一相對寬部921、以及一相對窄部922。 此外,外輪9會包括冑三個滚子93,其係分別容置於三 個袋部92m卜輪9會包財三個彈性組物,其係分別 頂抵於滚子93。 另外,一般而言,上述之内輪82係會連接至一動力源 81(例如電動馬達)’此動力源81之旋轉動力可經由内輪82 而傳遞至外輪9。 5 200801364 因此 當動力源81之旋轉動力傳入内輪82而使内輪82 方疋轉時’彈性組件94所具有之彈性預力會分別頂抵外輪9之 滚子93使其朝向相對窄部922滾動’此時,滾子93會與内輪 82之軸孔環壁821產生頂抵作用,而使内輪82之旋轉動力傳 遞至外輪9而使外輪9轉動。 虽外輪9轉動並使轉速提高至一定程度後,彈性組件94 之彈性預力無法再支持滾子93 ’故滾子93會滾動至相對寬 ,進而將内輪82與外輪9之旋轉動力切開,而達成所 谓單向離合器之功能。 10 15 20 d而,上述外輪9之袋底表面923係為一曲面狀並為單 立曲率,亦即袋底表面923係以同一曲率之曲面連接相對寬 4921與相對窄部922,故當外輪9之轉速於臨界轉速、或是 ^ k不fe定之情形τ ’滾子93並無法定位於一停止位置而 會產生前後滾動(跳動)之情形,如此,將會造成滾子93產生 f耗之問豸’並會發生敲擊音、動力損失等現象,實非十 分理想。 【發明内容】 生十2月係可使外輪之滾子定位於—停止位置而不會產 磨Γ,且動)之情形’並因此可避免滾子產生敲擊音、 耗且動力不會因此產生損失。 以及口二本發明係為一種單向離合器,其包括有-内輪、 二=至::袋:輪凸設有一軸孔環壁,外輪則包括 心邛、以及至少一滾子。 6 200801364 上述外輪之軸孔係同軸環套内 内輪上,至少衣套内輪之轴孔壤壁並插設於 且至少一袋部包括Π 轴孔外側並連通抽孔, 斜狀並形成有-相對寬^表面’此袋底表面係呈徑向傾 子子…:見部、以及-相對窄部,至於至少-==袋部内並鄰接於内輪之軸孔環壁。 之相對寬部並徑向向:二 ί:輪=少-袋部之袋底表面 少_滾子。 外凹5又有-谷納凹槽、並對應容納至 10 15 立士因此二上述結構係當外輪之滾子滾動至袋部之相對 科,可容納並因此定位於相對寬部所徑向向外之☆ 納凹槽内,藉以使外輪之滾子定位於—停止位置而; 生別後滾動(跳動)之情形,並@此可避免滾子產生敲擊立、 磨耗等問題,且動力不會因此產生損失。 曰 上述外輪之至少一袋部之袋底表面與容納凹槽可分別 呈曲面狀、並可分別具有不相同之曲率。 此外,上述外輪之至少一袋部之數量可為三,且可等 角度分佈轴向開設於外輪之轴孔外側。 另外,上述外輪之至少一袋部可包括有一彈性組件, 其係可對應頂抵於至少一滚子。前述之彈性組件可包括有 -彈簀、以及一頂抵件’且彈簧可具有一彈性預力其係使 頂抵件對應頂抵於至少一滾子。 【實施方式】 20 200801364 請同時參閱圖3係本發明一較佳實施例之爆炸圖、及圖 4係圖3之側視圖,其中顯示本發明之單向離合器係使用於 一機車(圖未示)之電動啟動功能,且其包括有—内輪2、以 及一外輪1。 於圖式中’内輪2凸設有一轴孔環壁21,且内輪2係連 接至一動力源3並接收其旋轉動力,外輪丨則包括有一軸孔 11、三個袋部12、三個滾子15、以及三個彈性組件17。於200801364 IX. Description of the invention: [Technical field to which the invention pertains] In particular, the invention relates to a one-way clutch for a one-way clutch. [Prior Art] „In general vehicles (four), according to the structural design side, “there will be a soap-to-crank clutch in the car_group. Please refer to FIG. 1 for an exploded view of a conventional one-way clutch, and FIG. 2 is a side view 'traditionally' which will include an inner rim and an outer wheel 9, and the inner wheel 82 will include a plurality of squats.戸 。. Λ ^Axis hole % wall 821, outer wheel 9 will include a shaft hole 91, and three pocket portions 92. 15 20, wherein the shaft hole 91 of the outer wheel 9 is a shaft hole ring wall (2) of the coaxial ring inner wheel 82 and is pivotally disposed on the inner wheel 82. The three pocket portions of the outer wheel 9 are angularly distributed (4) and axially opened in the shaft hole 91 phase. And the shaft holes 91 are respectively connected, and the three bags (4) respectively include a bag bottom surface 923, the money is inclined in the radial direction and formed with a relatively wide portion 921 and a relatively narrow portion 922. In addition, the outer wheel 9 will include three rollers 93 which are respectively accommodated in the three pocket portions 92m. The wheel 9 will enclose three elastic groups which are respectively abutted against the rollers 93. Further, in general, the inner wheel 82 described above is connected to a power source 81 (e.g., an electric motor). The rotational power of the power source 81 can be transmitted to the outer wheel 9 via the inner wheel 82. 5 200801364 Therefore, when the rotational power of the power source 81 is transmitted to the inner wheel 82 and the inner wheel 82 is rotated, the elastic pre-force of the elastic member 94 will respectively abut against the roller 93 of the outer wheel 9 to roll toward the relatively narrow portion 922. At this time, the roller 93 will abut against the shaft hole ring wall 821 of the inner wheel 82, and the rotational power of the inner wheel 82 is transmitted to the outer wheel 9 to rotate the outer wheel 9. Although the outer wheel 9 rotates and the rotational speed is increased to a certain extent, the elastic pre-stress of the elastic member 94 can no longer support the roller 93' so that the roller 93 will roll to a relatively wide width, thereby cutting the rotational power of the inner wheel 82 and the outer wheel 9, and The function of the so-called one-way clutch is achieved. 10 15 20 d, the bottom surface 923 of the outer wheel 9 is a curved surface and has a single vertical curvature, that is, the bottom surface 923 of the bag is connected with a curved surface of the same curvature to connect the relatively wide 4921 and the relatively narrow portion 922, so when the outer wheel The rotation speed of 9 is at the critical speed, or the situation where ^k is not fixed. τ 'The roller 93 is not legally located at a stop position, and the front and rear rolling (jumping) will occur, thus causing the roller 93 to generate f consumption. Asking 豸 'and there will be knocking sounds, power loss and other phenomena, it is not very ideal. [Summary of the Invention] In the case of the first ten months of the month, the roller of the outer wheel can be positioned in the -stop position without grinding and moving, and thus the roller can be prevented from being knocked, and the power is not consumed. Loss. And the second invention is a one-way clutch comprising an inner wheel, a second=to:: bag: the wheel protrusion is provided with a shaft hole ring wall, and the outer wheel comprises a heart sill and at least one roller. 6 200801364 The shaft hole of the outer wheel is coaxial on the inner ring of the inner ring, at least the shaft hole of the inner ring of the inner sleeve is inserted and the at least one bag portion includes the outer side of the shaft hole and communicates with the pumping hole, and is formed obliquely and oppositely The width of the surface of the bottom of the bag is a radial tilting of the ... ... see, and - relatively narrow, as for at least - = = inside the pocket and adjacent to the axial bore wall of the inner wheel. Relatively wide and radial: two ί: wheel = less - pocket bottom surface less _ roller. The outer recess 5 has a valley recess and is correspondingly accommodated to 10 15 litres. Therefore, the above structure is such that when the roller of the outer wheel rolls to the opposite portion of the pocket portion, it can be accommodated and thus positioned radially toward the relatively wide portion. Outside ☆ In the groove, so that the roller of the outer wheel is positioned at the stop position; the situation of rolling (jumping) after the birth, and @ this can avoid the problem of the roller hitting the strike, wear, etc., and the power is not This will result in a loss.袋 The bottom surface of the at least one pocket of the outer wheel and the receiving groove may be curved, respectively, and may have different curvatures. In addition, the number of the at least one pocket portion of the outer wheel may be three, and the angled distribution may be axially opened outside the shaft hole of the outer wheel. In addition, at least one pocket of the outer wheel may include a resilient component that is correspondingly contiguous with the at least one roller. The aforementioned elastic assembly may include a magazine and a top member and the spring may have a resilient preload such that the top member corresponds to the at least one roller. [Embodiment] 20 200801364 Please also refer to FIG. 3 for an exploded view of a preferred embodiment of the present invention, and FIG. 4 is a side view of FIG. 3, wherein the one-way clutch of the present invention is used for a locomotive (not shown) The electric starting function, and includes an inner wheel 2 and an outer wheel 1. In the figure, the inner wheel 2 is convexly provided with a shaft hole ring wall 21, and the inner wheel 2 is connected to a power source 3 and receives its rotational power. The outer rim includes a shaft hole 11, three pocket portions 12, and three rollers. Sub 15 and three elastic components 17. to
10 1510 15
本實施例中,動力源3係為一機車(圖未示)之電動馬達(圖未 示)。 此外,圖式中之外輪1之軸孔n係同軸環套上述内輪2 之轴孔環壁21、並因此同軸樞設於内輪2上,且外輪1之三 個衣邛12係等角度平均分佈並分別軸向開設於軸孔1 ^外 侧 '並分別連通軸孔11,同時,此三個袋部12分別包括有 一袋底表面18,每一袋底表面18係分別呈徑向傾斜狀並因 此形成有—相對寬部13、以及一相對窄部14,而三個滚子 係刀別各置於二個袋部丨2內 '並分別鄰接於内輪2之軸孔 環壁21。 另外,上述外輪1之每一個袋部12袋底表面丨8之相對寬 部13並徑向向外凹設有一容納凹槽16、並分別對應容納每 一個滾子15。 於本貫施例中,上述外輪丨之每一個袋部12之袋底表面 ;/、=、、内凹槽16係分別呈曲面狀、並分別具有不相同之曲 率。虽然,袋底表面18與容納凹槽16之至少其中之一亦可 20 200801364 呈直線狀’或其兩者都 槽狀大小可容納滾子^可直線狀’且於設計時,容納凹 《本實細例令,上述外輪1之每一個袋部12之彈性 Γ刀別包括有一彈簧171、以及-頂抵件⑺,且其中 :二:17二有—彈性預力’其係使頂抵件172分別對應頂 抵於母一個滾子15。 上述結構之作動過程如後說明。當按下 ) =動開關(圖未示)而進行電動啟動功能時,動力㈤之電) (圖未示)會開始產生旋轉,於本實施例中,係為逆時 疋,且動力源3會將其旋轉動力傳遞至内輪2,此時, 外輪1尚未開始旋轉。 15 當内輪2轉動並且轉速提高時,因為内輪2之軸孔環壁 21與外輪1之滾子15之間之摩擦力、以及外輪1袋部12之^ 性組件頂抵滚子15之作用,而使外輪丨之滾子15會於袋部 12内沿著袋底表面職動’並且滾子15會滾動至相對窄部 此時/袞子1 5會頂抵於軸孔環壁2 i,故會使内輪2之旋 轉動力經由滚子15頂抵於軸孔環壁21之作用而帶 逆時針轉動。 、之後’外輪1會開始轉動,並且當其轉速提高後,外輪 20 1袋部12之彈性組件17之彈性預力已不足以再支持滾^ 15,此時,滾子15會於袋部12内再沿著袋底表面18滾動至 相對寬部13,且内輪2與外輪〗之動力會因此而切開,亦即 内輪2不會再轉動,而外輪丨會繼續轉動,此時,外輪丨可連 接至機車(圖未示)之引擎(圖未示),亦即藉由内輪2與外輪 200801364 卜可使其具有單向離合器之功能,而使機車(圖未示)以動 力源3啟動機車(圖未示)之引擎(圖未示),達成機車(圖未示) 之電動啟動功能。 請注意,當上述外輪丨之滾子15沿著袋底表面18滾動至 5相對寬部13時,滾子15會容納於容納凹槽16内,亦即上述 之結構可使外輪丨之滚子丨5滾動至袋部丨2之相對寬部U 日^•,可容納並因此定位於相對寬部13所徑向向外凹設之容 納凹槽16内,藉以使外輪丨之滾子15定位於一停止位置,故 1當機車(圖未示)之轉速於臨界轉速、或者轉速不穩定之情況 1〇下,外輪1之滾子15仍會定位於一停止位置而不會產生前後 滾動(跳動)之情形,並因此可避免外輪i之滾子⑽生敲擊 音、磨耗等問題,且動力不會因此產生損失。 上述實施例僅係為了方便說明而舉例而已,本發明所 主張之權利範圍自應以申請專利範圍所述為準,而非 15 於上述實施例。 又 【圖式簡單說明】 圖1係習知單向離合器之爆炸圖。 圖2係圖1之側視圖。 20圖3係本發明一較佳實施例之爆炸圖 圖4係圖3之側視圖。 【主要元件符號說明】 袋部12 外輪1 軸孔11 200801364 相對寬部13 相對窄部14 滚子15 容納凹槽16 彈性組件17 彈簧171 頂抵件172 袋底表面18 内輪2 轴孔環壁21 動力源3 動力源81 内輪82 軸孔環壁821 外輪9 轴孔91 袋部92 袋底表面923 相對寬部921 相對窄部922 滚子93 彈性組件94 11In the present embodiment, the power source 3 is an electric motor (not shown) of a locomotive (not shown). In addition, in the drawing, the shaft hole n of the outer wheel 1 is a coaxial ring sleeve, and the shaft hole ring wall 21 of the inner wheel 2 is coaxially pivoted on the inner wheel 2, and the three clothesets 12 of the outer wheel 1 are evenly distributed at an equal angle. And respectively axially opening to the outer side of the shaft hole 1 ^ and connecting the shaft hole 11 respectively, and the three pocket portions 12 respectively include a bottom surface 18 of the bag, each of the bottom surfaces 18 of the bag being radially inclined and thus A relatively wide portion 13 and a relatively narrow portion 14 are formed, and three roller cutters are respectively disposed in the two pocket portions 2 and are respectively adjacent to the shaft hole ring wall 21 of the inner wheel 2. Further, each of the pockets 12 of the outer wheel 1 has a relatively wide portion 13 of the bottom surface of the pockets 8 and is recessed radially outwardly with a receiving recess 16 and correspondingly accommodates each of the rollers 15. In the present embodiment, the bottom surface of each of the pockets 12 of the outer rim is formed in a curved shape and has different curvatures. Although, at least one of the bottom surface 18 of the bag and the receiving groove 16 may be linear in the shape of 200801364, or both of them may be sized to accommodate the roller and may be linearly shaped and accommodated in the design. As a matter of course, the elastic file of each of the pockets 12 of the outer wheel 1 includes a spring 171 and a top abutting member (7), and wherein: two: 17 two-elastic pre-forces 172 corresponds to the top roller 15 respectively. The operation of the above structure will be described later. When the electric start function is performed by pressing the = switch (not shown), the power (5) (not shown) will start to rotate. In this embodiment, it is reverse time, and the power source 3 The rotational power is transmitted to the inner wheel 2, at which time the outer wheel 1 has not started to rotate. When the inner wheel 2 rotates and the rotational speed increases, the friction between the shaft hole ring wall 21 of the inner wheel 2 and the roller 15 of the outer wheel 1 and the action of the outer portion of the bag portion 12 against the roller 15 are And the roller 15 of the outer rim will move along the bottom surface of the bag in the pocket portion 12 and the roller 15 will roll to the relatively narrow portion. At this time, the rafter 15 will abut against the shaft hole wall 2 i, Therefore, the rotational power of the inner wheel 2 is rotated counterclockwise via the action of the roller 15 against the shaft hole ring wall 21. After that, the outer wheel 1 will start to rotate, and when the rotation speed thereof is increased, the elastic preload of the elastic member 17 of the outer bag 20 1 bag portion 12 is insufficient to support the roller 15 again. At this time, the roller 15 will be in the bag portion 12. The inner roller 2 is further rolled along the bottom surface 18 of the bag to the relatively wide portion 13, and the power of the inner wheel 2 and the outer wheel is cut, that is, the inner wheel 2 does not rotate, and the outer rim continues to rotate. At this time, the outer rim can be rotated. The engine (not shown) connected to the locomotive (not shown), that is, the inner wheel 2 and the outer wheel 200801364 can be made to have the function of a one-way clutch, so that the locomotive (not shown) starts the locomotive with the power source 3 The engine (not shown) (not shown) achieves the electric start function of the locomotive (not shown). Please note that when the roller 15 of the outer rim is rolled along the bottom surface 18 of the bag to the relatively wide portion 13 of the bag, the roller 15 is accommodated in the receiving groove 16, that is, the above structure can make the roller of the outer rim The 丨5 is rolled to the relatively wide portion U of the pocket portion 2, and can be received and thus positioned in the accommodating recess 16 recessed radially outwardly of the relatively wide portion 13, thereby positioning the roller 15 of the outer rim In a stop position, 1 when the speed of the locomotive (not shown) is at the critical speed or the speed is unstable, the roller 15 of the outer wheel 1 will still be positioned at a stop position without rolling forward and backward ( In the case of beating, and thus the roller (10) of the outer wheel i can be prevented from hitting the sound, abrasion, and the like, and the power is not lost. The above-described embodiments are merely examples for convenience of description, and the scope of the claims is intended to be based on the scope of the claims, rather than the above embodiments. [Simplified illustration of the drawings] Fig. 1 is an exploded view of a conventional one-way clutch. Figure 2 is a side view of Figure 1. 20 is an exploded view of a preferred embodiment of the present invention. FIG. 4 is a side view of FIG. [Description of main component symbols] Pocket part 12 Outer wheel 1 Shaft hole 11 200801364 Relative width 13 Relative narrow part 14 Roller 15 Reception groove 16 Elastic assembly 17 Spring 171 Abutment 172 Bag bottom surface 18 Inner wheel 2 Shaft hole ring wall 21 Power source 3 Power source 81 Inner wheel 82 Shaft hole ring wall 821 Outer wheel 9 Shaft hole 91 Bag portion 92 Bag bottom surface 923 Relative width 921 Relative narrow portion 922 Roller 93 Elastic assembly 94 11