201207267 蹄塊組件,係具有多數支撐座塊,該每一支撐座塊間,相互以一 連接部一體連結,且每一支撐座塊外緣,曲彎的設一蹄塊,該每 一蹄塊一端,是以一彈性部與支撐座塊一體連結,且與連接部間 形成有一容置空間’該每一容置空間之蹄塊内緣還形成有一斜面 推邛,6亥主動組件,係組設在蹄塊組件中心内部,中心具有承接 動力源的芯軸孔’該_相_成有允許轉_貼靠部來 與連接部__靠,及形成有與支撐座塊_面#置的靠置 部,且該貼靠部與靠置部間,並具有—延伸人容置空間的撥桿, 該撥杯的前端還形成有一抵靠在蹄塊内緣斜面推部上的擠壓部; 該多數共轉彈性件’係分別設在蹄塊組件之容置空_,—端被 支撐座塊支撐,端頂推在絲纟赠的撥桿上;該基板,係組 叹在蹄塊組件的支撑座塊上,將絲組件限定在蹄塊組件中心内 部内,iMt止共辦性件由容置空間處解脫;俾絲組件由芯轴 孔承接來自動力源的旋轉動力作旋轉動作時,蹄塊組件會經由共 娜性件軸_造成_ ;當__賴高,且蹄塊離心ς 夠大到可喊服蹄塊組件祖部的向心強麟,蹄塊會向外張開 和被動盤件產生縣驅動性的滑動咬合;當蹄塊上來令片和被動 盤件間的驅動阻力大於共轉彈性件的預設變形力時,共轉彈性件 會被主動組件撥桿驅壓變形,造成_組件向餘移的使動力源 力量’由贿前麟壓部施壓於蹄塊崎的斜面觸上產生擠壓 用力Τ蹄塊來令片兀全或不打滑的與被動盤件咬合(緊密驅 動)’將動力源動力制被動盤件上;藉每—蹄塊來令片對被動般 Λ 201207267 件掣動能力的強化作用,據以使傳動過程得到快速止逆,增進動 力傳輸順暢與;^定’且來令片與被動盤件間打滑摩擦時間的縮 短,則可有效降低來令片的損耗及界面溫度,達到使用壽命延長 的效益。 本發明之次一目的係在提供一種高掣動型離合器,其中,該多 數共轉彈性件分別設在蹄塊組件之容置空間内,—端被支撐座塊 支撐,另一端頂推在主動組件的撥桿上,該共轉彈性件為壓縮彈 簧’具有被赌娜魅生魏變形__性;據以透過共轉 彈f生件壓&彈性係數或壓縮變形的強度的設定或選擇,使主動细 件撥桿的擠壓部對蹄塊斜面推部產齡的時機(轉速)點,簡易 得到調整或控制。 本發明之再—目的係在提供—種高軸型離合n,其中,該蹄 塊組件之蹄塊-端’是以—雜部連結找座塊,該支撐座塊盘 曲彎的蹄塊間,在彈性部位置係形成有—大型孔槽;據以由該大 型孔槽消減彈性部的應力,使外張或閉合的蹄塊得到更為靈活的 動作。 本發明之另-目的係在提供—種高軸型離合器,其中,該基 板組設在蹄塊崎的支#座塊上,該支#座塊上係具有一固定 孔’而基板上相對每—支撐座塊上_定孔係财穿孔,據以由 螺栓穿過基板穿孔在切座塊_定孔上綱,㈣使基板鎖固 在支擇座塊上對絲組件及共轉彈性件作退脫限定。 201207267 【實施方式】 一種高掣動型離合器,如圖1、2、3、4,至少包含一歸 塊組件10 ’-主動組件2〇,多數共轉彈性件3〇及—基板4 0 ;該蹄塊組件i 〇,係具有多數支稽座塊u,該每—支揮座 塊11間’相互以-連接部12—體連結,且每—支撐座塊1 牙 外緣,曲f的設—蹄塊13,該每-蹄塊13-端,是以—彈性 部^4與支撐座塊1卜體連結,且與連接部i 2間形成有一容 置空間1 5,該每-容置空.間丄5之蹄塊丄3内緣還形成有—: 面推部13 ◦’該主動組件2◦,係組触蹄塊組件1〇中心内 部’中心具有承接動力源的芯軸孔2 i,姻軸孔2 1的外 周緣形成有允許轉動的轉部2 2來與連接部丄2内端 及形成^與支撐座塊i i内端面#置的靠置部2 3,且該貼靠部 22與靠置部23間’益具有—延伸人容置空w 5的撥桿2 , 4,該撥桿24的前端還形成有—抵靠在蹄w3内緣斜面推部 13 0上的弧形擠壓部2 5 ;該多數共轉彈性件3 〇,係分別設 在蹄塊組件1〇之容置空間i 5内,—端被支撐座塊11支撐, 另端頂推在主動組件2〇的撥桿24上;該基板4〇,係組設 在蹄塊組件! 〇的讀座塊丨1±,將絲組件2 ◦限定在蹄塊 71〇中心内部内’織止共轉彈性件3 〇由容置空間i 5處 如圖5 ’俾主動組件2 〇由芯轴孔21承接來自動力源5 Ο/轉轴)的旋轉動力作旋轉動作時,蹄塊組件工〇會經由共轉 每性件3 〇連動驅動造成旋轉;如圖6,當旋轉的轉逮夠高,[头] 201207267 Γ=3:塊到可以克服蹄塊組件1。彈性部14的向心 严=人=張開和被動盤件6 0屋生摩擦驅動性的 :力:二'塊13上來令片131和被動盤件6 0間的驅動 阻力大於共·性件30咖設變形力時,如圖7 =0會被主動組件20__變形,造成主動;^ 〇向祕移的編_,_桿2 擠 厂爾塊13内緣的斜面推部130上產生梅壓作用力,令蹄塊 1 3來令;u. 3 1完全或不打滑的触動盤件6 q咬合(緊密驅 動)’將動力源5 0動力傳到被動盤件6 〇上;藉每一蹄塊工3來 213 i對被動盤件6 〇掣動能力的強化作用,據以使傳動過 程得到快速止逆,增進動力傳輸順揚與穩定,且來令片丄3工與 被動盤件6 Q間打滑雜時間的縮短,則可有效降低來令片u 1的損耗及界面溫度,達到使用壽命延長的效益。 根據上述實施例,其中,如圖丄、2、5、6、7、8,該蹄 塊組件1〇之蹄塊!3—端,是以_彈性部Η連結支樓座塊丄 1,邊支撐座塊11與曲彎的蹄塊13間,在彈性部丄4位置係 形成有一大型孔槽16 ;據以由該大型孔槽16消減彈性部工4 的應力,使外張或閉合的蹄塊13得到更為靈活的動作。 根據上述實施例’其中’如圖1、3、5、6、7、8,該多 數共轉彈性件3 〇分別設在蹄塊組件1〇之容置空間15内,一 端被支撐座塊11支撐,另一端頂推在主動組件2〇的撥桿24 上’該共轉雜件3⑽魏彈簧,具有被撥桿2 4撥推時產& 201207267 壓縮變形動作的壓縮彈性;據以透過共轉彈性件3 〇壓縮彈性係 數或壓縮形強度的設定或選擇,使主動組件2 〇撥桿2 4的擠壓 部2 5對蹄塊13斜面推部13 0產生塵推的時機(轉速)點, 簡易得到設定或控制;亦即由共轉彈性件3 〇變形強度的設定或 改變’可控制或調整不打滑咬合的時機(轉速),獲得不同的加速 感,如平順或超強加速感。 根據上述實施例,其中,如圖1,該基板4 〇組設在蹄塊組件 10的支撐座塊11上’該支撐座塊11上係具有一固定孔11 0,而基板40上相對每一支撐座塊11上的固定孔11〇係設 有穿孔41,據以由螺栓42穿過基板40穿孔41在支撐座塊 11的固疋孔11〇上鎖固,簡易使基板4 〇鎖固在支撐座塊1 1上對主動組件2 0及共轉彈性件3⑽退脫限定;又,這裡的 基板4 0 ’實施上,如圖9 ’其可以依需要而設置呈齒盤型式的 基板4 0A,據以供在車輛引擎上被相同機組傳動利用。 根據上述實施例,本發g驗過—項不打滑咬合機構和共轉彈 j·生件變形強度的關,證實本發明之實用進步效能。 如表一,為本發明上述實施例結構(稱本發明離合器)、習用 離口斋’見圖1〇、11結構(稱習用離合器)於測試時的條件 比車乂( §主.二者採對等條件,求差異變數)。 如表一 ’本發明離合||與習知離合器在不哺速時的離心蹄 塊咬合力分析。 如表二,為測試後的結果報告。 [S] 201207267 表條件比較,表二解析咬合力,表三的驗證,證實本發 明離合,塊在較低的轉速下即能不打滑的帶動被動餅(Clutch201207267 The shoe block assembly has a plurality of support blocks, and each of the support blocks is integrally connected with each other by a connecting portion, and an outer edge of each support block is provided with a shoe block, and each shoe block is provided. One end is integrally connected with the supporting block by an elastic portion, and an accommodating space is formed between the connecting portion. The inner edge of the hoof block of each accommodating space is further formed with a beveled pusher, and the 6-inch active component is a group. It is disposed inside the center of the shoe block assembly, and has a mandrel hole for receiving the power source in the center. The _ phase _ has a rotation-adhesive portion to be connected to the connection portion __, and is formed with the support block _ face # Abutting portion, and the abutting portion and the abutting portion, and having a lever extending the receiving space of the person, the front end of the dial cup further forming a pressing portion abutting against the inclined portion of the inner edge of the shoe block The majority of the co-rotating elastic members are respectively disposed on the hoisting space of the shoe block assembly, and the end is supported by the supporting block, and the end is pushed on the handle of the silk raft; the substrate is sighed in the shoe block On the support block of the assembly, the wire assembly is defined in the center of the shoe assembly, and the iMt The detachment space is released; when the skein assembly is rotated by the mandrel hole from the power source, the hoof block assembly will be caused by the yoke element axis; when __ _ high, and the hoof block is centrifuged It is large enough to scream the strong heart of the ancestors of the hoof block, the hoof block will open outward and the passive disk will produce a county-driven sliding bite; when the shoe block comes up to drive the resistance between the piece and the passive disk When the preset deformation force of the co-rotating elastic member is greater than that of the co-rotating elastic member, the co-rotating elastic member is driven and deformed by the active component lever, causing the power component of the component to be shifted to the power source by the bribe front pressure portion. The inclined surface touches the squeezing force to produce the squeegee block to make the smashing or non-slipping and the passive disc bite (tightly drive). The power source is driven to the passive disc; the hoof block is used to make the pair passive. Λ 201207267 The strengthening effect of the turbulence ability, according to the rapid reversal of the transmission process, improve the smooth transmission of power; ^ fixed 'and shorten the friction time between the sheet and the passive disc, can effectively reduce The loss of the film and the interface temperature reach the service life Long benefits. A second object of the present invention is to provide a high-push type clutch, wherein the plurality of co-rotating elastic members are respectively disposed in the accommodating space of the shoe block assembly, the end is supported by the support block, and the other end is pushed in the active On the lever of the assembly, the co-rotating elastic member is a compression spring 'having a gambling singularity __sexuality; according to the setting or selection of the strength of the elastic member or the elastic deformation or the compression deformation The timing (rotation speed) of the pressing portion of the active part lever to the slanting surface of the shoe is easily adjusted or controlled. A further object of the present invention is to provide a high-shaft type clutch n, wherein the shoe block-end end of the shoe block assembly is a mating block with a miscellaneous portion, and the support block is bent between the shoe blocks. At the position of the elastic portion, a large-sized hole groove is formed; accordingly, the stress of the elastic portion is reduced by the large hole groove, so that the outer or closed shoe block can be more flexibly operated. Another object of the present invention is to provide a high-shaft type clutch in which the substrate assembly is disposed on a block of the shoe block, the block has a fixing hole and the substrate is relatively - On the support block, the hole is fixed by the hole, and the hole is pierced through the substrate in the block block _ fixed hole, (4) the substrate is locked on the support block to retreat the wire assembly and the co-rotating elastic member limited. 201207267 [Embodiment] A high-actuating type clutch, as shown in Figures 1, 2, 3, and 4, includes at least one returning block assembly 10'-active assembly 2'', a plurality of co-rotating elastic members 3' and a substrate 40; The shoe block assembly i 〇 has a plurality of pedestal blocks u, and each of the yoke blocks 11 is connected to each other by a connecting portion 12, and each of the supporting blocks 1 has an outer edge of the tooth - the shoe block 13, the 13-end of each of the shoe blocks is connected to the support block 1 by the elastic portion 4, and an accommodation space 15 is formed between the connection portion i 2, and the per-accommodation The inner edge of the 蹄 之 之 之 还 还 还 还 还 : : : : 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该i, the outer peripheral edge of the shaft hole 2 1 is formed with a rotating portion 22 for allowing rotation, and an inner portion of the connecting portion 及2 and abutting portion 23 formed with the inner end surface of the supporting block ii, and the abutting portion Between the portion 22 and the abutment portion 23, there is a lever 2, 4 for extending the space w 5 , and the front end of the lever 24 is further formed to abut against the inner edge bevel pushing portion 13 of the shoe w3. Curved pressing portion 2 5 ; The plurality of elastic members 3 〇 are respectively disposed in the accommodating space i 5 of the shoe assembly 1 ,, the end is supported by the supporting block 11 , and the other end is pushed on the lever 24 of the active component 2 ;; The substrate 4〇 is assembled in the shoe block assembly! 〇The reading block 丨1±, the wire assembly 2 ◦ is limited to the inner part of the hoof block 71 ' 织 共 共 共 共 共 共 容 容 容 容 容 容 容 容 容 容 容 容 容 容 容 容 容 容 容 容 容 容 容 容 容 容When the shaft hole 21 receives the rotary power from the power source 5 Ο / shaft) for rotation, the shoe block assembly will be driven by the co-rotation of each of the 3 〇 linkages; as shown in Fig. 6, when the rotation is sufficient High, [head] 201207267 Γ = 3: block to overcome the shoe block assembly 1. The centripetal force of the elastic portion 14 = human = open and passive disk member 60 0 housing friction drive: force: two 'block 13 up to make the driving resistance between the piece 131 and the passive disk member 60 is greater than the common piece 30 when the deformation force is set, as shown in Fig. 7 = 0 will be deformed by the active component 20__, causing the initiative; ^ 〇 to the secret movement of the _, _ pole 2 squeeze the slab block 13 on the inner edge of the inclined surface pushing part 130 to produce plum Pressing force, so that the shoe block 1 3; u. 3 1 full or non-slip touch disk 6 q bite (tight drive) 'power the power source 50 to the passive disk 6 ;; One hoof block 3 to 213 i strengthens the swaying ability of the passive disk member 6, so that the transmission process is quickly reversed, and the power transmission is smoothed and stabilized, and the 丄 3 work and the passive disk are made. 6 Shortening of the slippage between Qs can effectively reduce the loss of the film u 1 and the interface temperature, and achieve the benefit of extending the service life. According to the above embodiment, in which, as shown in Figs. 2, 5, 6, 7, 8, the hoof block assembly 1 is shackled! The third end is connected to the branch block 丄1 by the _elastic portion ,, between the side support block 11 and the curved bent shoe block 13, and a large hole groove 16 is formed at the position of the elastic portion 丄4; The large hole groove 16 reduces the stress of the elastic portion 4, so that the outer or closed shoe block 13 is more flexible. According to the above embodiment, in which, as shown in FIGS. 1, 3, 5, 6, 7, and 8, the plurality of co-rotating elastic members 3 are respectively disposed in the accommodating space 15 of the shoe assembly 1 ,, and the one end is supported by the block 11 Supporting, the other end is pushed on the lever 24 of the active component 2〇' the co-rotating component 3 (10) Wei spring, which has the compression elasticity of the compression deformation action of the 201207267 by the lever 2 4; The setting or selection of the compression elastic modulus or the compression elastic strength of the elastic member 3 causes the pressing portion 2 of the active member 2 boring lever 24 to generate a dust pushing timing (rotation speed) point on the beveling portion 13 of the shoe 13 Simple setting or control; that is, the setting or changing of the deformation strength of the co-rotating elastic member 3 ′ can control or adjust the timing (rotation speed) of the non-slip engagement to obtain different acceleration feelings, such as smooth or super-accelerating. According to the above embodiment, in FIG. 1, the substrate 4 is assembled on the support block 11 of the shoe assembly 10, and the support block 11 has a fixing hole 110, and the substrate 40 is opposite each other. The fixing hole 11 on the supporting block 11 is provided with a through hole 41, and the hole 42 is inserted through the through hole 41 of the substrate 40 to fix the fixing hole 11 of the supporting block 11 to easily lock the substrate 4 The support block 1 1 is retracted from the active component 20 and the co-rotating elastic member 3 (10); further, the substrate 40 0 here is implemented, as shown in FIG. 9 ', which can be provided with a toothed disc type substrate 40 A According to the same unit drive on the vehicle engine. According to the above embodiment, the present invention has examined the deformation strength of the non-slip occlusion mechanism and the co-rotation j., and confirmed the practical progress of the present invention. As shown in Table 1, the structure of the above embodiment of the present invention (referred to as the clutch of the present invention), the conventional use of the mouth of the mouth, see Figure 1〇, 11 structure (referred to as the conventional clutch) in the test conditions than the rut ( § main. Peer-to-peer conditions, find the difference variable). As shown in Table 1, the clutch of the present invention is combined with the conventional clutch when the centrifugal clutch is not fed. As shown in Table 2, the results are reported after the test. [S] 201207267 Table conditions comparison, Table 2 resolves the bite force, the verification of Table 3 confirms that the invention is clutched, and the block can drive the passive cake without slipping at a lower speed (Clutch
Bell) 動,也由於打滑磨擦時間減少,使得蹄塊界面溫升程度減 小,來令片(Clutch Wear Pad)不易燒焦變質(異味產生),堪 用胥命更長;且本測試結果亦驗證共轉彈性件的有無及變形強度 憂’、又疋或調整的大小,會決定不打滑咬合的時機。再且,本測 減還得知'|帛離合器蹄塊(或稱擎動塊)咬合力較小,須有較高 的動=源轉速,才可以正常帶動被動盤件(或稱碗公,同時因蹄 塊來令片在傳動被動盤件過程的打滑磨擦時間較久,蹄塊來令片 界面易溫昇燒錢¥,加速磨損。本發明確具有效紅的增進。 ,以上說明對本發明而言只是說明性的,而非限制性的,本領域 普通技術人員理解,在不脱離所嶋明書所限定的精神和範圍的 情况下,可做出許多修改、變化或等效,但都減人本發明的保 護範圍内。 【圖式簡單說明】 圖1係本發明構件分解立體示意圖 圖2係本發明構件組合立體外觀示意圖 圖3係本發明結構實施狀態斷面示意圖 圖4係本發明結構實施狀態剖面示意圖 圖5係本發明蹄塊組件蹄塊外張動作前狀態示意圖 圖6係本發明蹄塊組件蹄塊外張未加壓時的狀態示意圖 圖7係本發明蹄塊組件蹄塊外張加壓時的狀態示意圖 201207267 圖8係圖7蹄塊擠壓作用力示意圖 圖9係本發明基板另一實例樣態示意圖 圖10係習用離合器掣動塊(蹄塊)外張動作前狀態示意圖 圖11係習用離合器掣動塊(蹄塊)外張後的狀態示意圖 【主要元件符號說明】 支撐座塊11 連接部1 2 斜面推部13 0 彈性部1 4 孔槽1 6 芯軸孔2 1 靠置部2 3 擠壓部2 5 基板4 0、4 0A 螺栓4 2 被動盤件6 〇 掣動塊1 蹄塊組件1〇 固定孔110 蹄塊1 3 來令片131 容置空間15 主動組件2 〇 貼靠部2 2 撥桿2 4 共轉彈性件3 〇 穿孔4 1 動力源5 0 【圖表說明】 表一係本發_掏條件比較表 表二係本發明咬合力分析表 表三係本翻_結果報告表 201207267 發明專利說明畫_ (本說明書格式、順序,請勿任意更動,※記號部分請勿填寫) - ※申請案號:Yj ※申請日:錄,※㈣分類:^ an6t01] 一、發明名稱:(中文/英文) ' 高掣動型離合器 . 二、中文發明摘要: . 種尚掣動型離合器,至少包含一蹄塊組件、一主動組件、多數共轉 〇 彈性件及一基板;俾主動組件由芯軸孔承接來自動力源的旋轉動力作旋轉 動作時,歸塊組件會經由共轉彈性件連動驅動造成旋轉;當旋轉的轉速夠 咼,且蹄塊離心力夠大到可以克服蹄塊組件彈性部的向心強度時,蹄塊會 向外張開和被動盤件產生摩擦驅動性的滑動咬合;當蹄塊上來令片和被動 盤件間的驅祕力大於共轉雜件醜設變形力時,共轉雜件會被主動 組件撥桿驅壓變形’造成絲組件輪位移的使動力源力量,由撥桿前端 擠屋部施壓於蹄塊内緣的斜面推部上產生擠壓作用力,令蹄塊來令片完全 〇 或不打滑的與被動盤件咬合(緊密驅動),將動力源動力傳到被動盤件上; 藉每-蹄塊來令片對被動盤件掣動能力的強化作用,據以使傳動過程得到 快速止逆,增進動力傳輸順暢與穩定,且來令片與被動盤件間打滑摩擦時 間的縮短,則可有效降絲w的她及界面溫度,賴使用壽命延長的. 效益。 三、英文發明摘要: 201207267 六、申請專利範圍: 1:種高掣動麵合器,至少包含—蹄塊㈣,—主動組 ,夕共衡性件及一基板;該蹄塊組件,係具 塊,該每—切座制,相互以―連接部—财結,且每一支擇 座塊外緣’曲f的設—蹄塊,該每—蹄塊—端,是以—彈性部與 支撐座塊-體連結’且與連接部間形成有一容置空間,該每一容 置空間之蹄塊内緣還形財—斜面推部,魅動組件,係組設在, 蹄塊組件中心内部,中心具有承接動力源的芯轴孔,該芯轴孔的 外周緣形成有允許轉動的貼靠部來與連接部内端面貝占靠,及形成 有與支撐座塊内端面靠置的靠置部,且該貼靠部與靠置部間,並 具有-延伸入容置空間的撥桿,該撥桿的前端還形成有一抵靠在 蹄塊内緣斜面推部上的_部;該多數共轉性件,係分別設在 蹄塊組件之容置空間内,―端被支撐錢支#,另—端頂 動組件的撥桿上;該基板,餘設在蹄塊組件的讀座塊上,將 主動組件限定在蹄塊組种灿勒,鋪止共轉雜件由容置 空間處解脫;俾主動組件由芯軸孔承接來自動力源的旋轉動力作 旋轉動作時’蹄塊組件會經由共轉彈性件連動鶴造成旋轉;當 旋轉的轉赖π ’且蹄塊離力夠大到可以克服蹄塊組件彈性部 的向心強度時’蹄塊會向外張開和被賴件產生縣驅動性的滑 動咬合;當蹄塊上來令片和被缝件間的驅祕力大於共轉彈性. 件的預設變形力時’共娜性件會被絲組件撥桿驅缝形,造 成主動組件肖㈣賴力量,缝桿前猶壓部施壓於 [S] 12Bell), also because of the reduced friction and friction time, the temperature rise of the hoof block is reduced, so that the Clutch Wear Pad is not easy to burn and deteriorate (the odor is generated), and the test life is longer; and the test result is also Verifying the presence or absence of the co-rotating elastic member and the deformation strength worry, and the size of the adjustment or adjustment will determine the timing of not slipping. Moreover, this test also knows that the '|帛 clutch shoe block (or the mover block) has a small bite force and must have a high dynamic = source speed to normally drive the passive disk (or bowl). At the same time, due to the shoe block, the slipping and rubbing time of the film in the process of driving the passive disk member is longer, and the shoe block makes the film interface easy to heat up and burn money, and accelerates the wear. The invention has the effect of improving the effect of red. It is intended to be illustrative, and not restrictive, and many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic exploded perspective view of a component of the present invention. FIG. 3 is a schematic cross-sectional view of a component assembly of the present invention. FIG. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 5 is a schematic view showing the state before the outer opening of the shoe block assembly of the present invention. FIG. 6 is a schematic view showing the state of the shoe block of the present invention when the outer piece is not pressurized. FIG. Piece Schematic diagram of state when external tension is applied 201207267 Fig. 8 is a schematic diagram of the pressing force of the shoe of Fig. 7. Fig. 9 is a schematic view of another example of the substrate of the present invention. Fig. 10 is a state before the external tensioning action of the conventional clutch cocking block (hoof block) Fig. 11 is a schematic view showing the state of the conventional clutch swaying block (hoof block) after being stretched [main element symbol description] support block 11 connecting portion 1 2 bevel pushing portion 13 0 elastic portion 1 4 hole groove 1 6 mandrel hole 2 1 abutment 2 3 extrusion 2 5 substrate 4 0, 4 0A bolt 4 2 passive disk 6 turbulent block 1 shoe assembly 1 〇 fixing hole 110 hoof block 1 3 to make the piece 131 accommodation space 15 active Assembly 2 〇 abutment 2 2 lever 2 4 co-rotating elastic member 3 〇 perforation 4 1 power source 5 0 [chart description] Table 1 is the present _ 掏 condition comparison table Table 2 is the occlusion force analysis table of the present invention本本翻_Result Report Form 201207267 Invention Patent Description _ (This manual format, order, please do not change, please do not fill in the ※ part) - ※Application number: Yj ※Application date: Record, ※ (4) Classification: ^ An6t01] First, the name of the invention: (Chinese / English) ' High-speed clutch Second, the Chinese invention summary: The swaying type clutch includes at least one shoe assembly, one active component, a plurality of co-rotating elastic members and a substrate; the 俾 active component receives the rotational power from the power source by the mandrel hole When rotating, the mass returning component is driven to rotate by the co-rotating elastic member; when the rotational speed is sufficient, and the centrifugal force of the shoe is large enough to overcome the centripetal strength of the elastic portion of the shoe assembly, the shoe block will The outer opening and the passive disk member generate a friction-driven sliding engagement; when the shoe block is used to make the driving force between the blade and the passive disk member larger than the ugly deformation force of the co-rotating miscellaneous member, the common turning component is dialed by the active component The deformation of the rod drive causes the power source force of the displacement of the wire assembly wheel, and the pressing force is exerted on the inclined surface pushing portion of the inner edge of the shoe block by the front end of the lever, so that the shoe block is completely smashed or The non-slip is engaged with the passive disc (tight drive), and the power source is transmitted to the passive disc; the per-hoof block is used to strengthen the driving force of the passive disc, so that the transmission process is fast. Anti-reverse, Improve the smooth and stable power transmission, and shorten the frictional time between the film and the passive disk, which can effectively reduce the temperature of the wire and the interface temperature, and extend the service life. III. English invention summary: 201207267 VI. Application for patent scope: 1: High-speed moving surface combiner, including at least - shoe block (four), active group, evening balance piece and a substrate; the shoe block component, tie Block, the each-cutting system, each with a "connection" - a fortune, and each of the outer edges of the seat block 'qu" is set - the shoe block, the each - shoe block - end is - elastic portion and The support block-body connection 'and an accommodation space is formed between the connection portion and the connecting portion, and the inner edge of the shoe block of each of the accommodation spaces is also shaped into a wedge-shaped push portion, and the charm assembly is set at the center of the shoe block assembly. Internally, the center has a mandrel hole for receiving a power source, and an outer peripheral edge of the mandrel hole is formed with an abutting portion for allowing rotation to abut against an inner end surface of the connecting portion, and an abutment with an inner end surface of the supporting block is formed a portion between the abutting portion and the abutting portion and having a lever extending into the accommodating space, the front end of the lever further forming a portion abutting against the inclined portion of the inner edge of the shoe block; Co-rotating parts are respectively placed in the accommodating space of the shoe block assembly, and the end is supported by the money branch #, the other end The base of the moving component is disposed on the reading block of the shoe block assembly, and the active component is limited to the group of the shoe block, and the common rotating component is released from the accommodating space; When the mandrel hole receives the rotary power from the power source for rotation, the shoe assembly will rotate through the co-rotating elastic member; when the rotation depends on π' and the force of the shoe is large enough to overcome the shoe assembly When the centripetal strength of the elastic portion is formed, the shoe block will open outwardly and produce a county-driven sliding bite; when the shoe block comes up, the driving force between the blade and the workpiece is greater than the co-rotation elasticity. When the deformation force is set, the common element will be dissipated by the wire assembly lever, causing the active component to be used. [4]