M294598 九、新型說明: 【新型所屬之技術領域】 本創作係有關一種能夠使動力傳輸的效率更佳,變速的速比 更為穩定,皮帶使用壽命較長的連續無段變速器結構改良。 【先前技術】 習用連續無段變速器VT結構,如圖丄,係包括一主動盤組 1 0、-被動盤組2 Q,及-傳動皮帶3 〇 ;變速的動作與過程, # 係主動盤組1Q内之推盤珠丄丄依靠在—靠盤i 2上,隨主動轴 13轉速提高離心力加大的作用,推動—活動盤丨$在主動轴丄 3上往定健1 5方向軸向位移,縮小_#1 4與定位盤丄5 之間距,亚使套置在活動盤丄4與定位盤丄5上的傳動皮帶3 〇 ’由内向外改變套置位置,而該被動倾2 〇之作動盤2丄, 原^於壓_簧2 2 _推,與盤2 3貼#,此時,傳動 皮▼3 0另-端套置在作動盤2工與定點盤2 3之較外緣處傳 ♦動,利用傳動皮帶3 0側向壓力之增大,會由外向内改變套置位 1,,形成傳動速比的變化,並產生變速的效果;彳艮酿的,習用 連續然段變速H結構的變速動作,完全取決於傳誠帶3 〇在被 動‘、、且2 0上的侧向壓力形成的大小變化,以致存在下列缺點: 1 .傳動皮帶長期承受極大負荷的侧向壓力,容易鬆 馳;使用壽命短。 2·主動盤組之活動盤與定位盤間的開閉作動.必須 边過傳動皮帶的侧向壓力反應,才會影響到被動 M294598 盤組2 0作動盤2 1與定點盤2 3的開閉動作, 此間接式的遲缓作動關係,使正確的傳動速比並 不穩定。 3 ·被傳動皮帶驅動之被動盤組,由於定點盤與作動 盤開閉作動時常出現滑差,導致傳動皮帶易有扭 曲及高頻震動現象;除影響皮帶之壽命外,亦會 造成動力傳輸不佳,不利大排氣量之自動無段變 _ 速型機車的運用。 【新型内容】 本創作之主要目的係在提供一種連續無段變速器結構改良, 係由一驅動普利盤組、一被驅動普利盤組,及一皮帶所構成,主 要在於,該驅動普利盤組之驅動軸上與第一活動普利盤連結的第 一内滑套,其一端設有一個以上的扭力溝,而每一扭力溝内分別 被一撥系梢貫穿,且每一支撥動梢,並與驅動軸結合連動,藉由 • 撥動梢撥動扭力溝提昇第一活動普利盤的夾推力,俾驅動普利盤 組之第一定位普利盤與第一活動普利盤間,能夠按驅動軸轉速產 生靈敏開閉動作,據以使動力傳輸的效率更佳,且變速的反應更 迅速。 本創作之次一目的係在提供一種連續無段變速器結構改良, 其中,該驅動普利盤組之驅動軸上與第一活動普利盤連結的第一 内滑套、其一端設有一個以上的扭力溝$而每一扭力溝内分別被 6 M294598 一撥動梢貫变 ^ ^ 、’且第_活動普利盤在 乃連結有-滑座在一限定套上作轴::軸向位移作動’ 結架產生徑㈣動,而該連結架的另=再由^滑座連動該連 上的被動|庙,” 則連恕被動晋利盤組 〜嚴由该被動推座驅動祐备並 普利盤,作同牛—純r %破動㈣盤組上的第二活動 第-活普利盤組之第-定位普利盤與 电之第::=_之靈敏關動作’可以直接連動被驅動普利盤 W /動抑盤在被驅_均•職,據叹帶傳動所 7又=侧向力為淨力,使變速的速岐為穩定。 、 — 再目的係提供一種連續無段變速器結構改良,1 中’該‘_f利爐,係包括有: ^ 驅動軸,其一端供動力連結被驅動旋轉; 第疋位晋利盤,係組合限定在驅動轴〆端; -内β套,係套置在驅動軸上,一端供第一定位並利, 套置gp人,v g i σ,另一端設有一個以上的扭力溝,且每一扭力溝内分別 貝牙有-撥動梢,而每—支撥動梢,則透過—軸套件輿驅動轴結 合連動; 第一活動晋利盤,係組合設置在第一内滑套上,盤内穿有 多數個普利珠; 衣 一限定套,係套設在第一内滑套之扭力溝開設端,與每一支 撥動梢結合; ' 一背壓盤,係組合定位在限定套上,相對於第一活動普利盤, M294598 ................. ..................... 供每一個普利珠靠置受力, 一滑座,係具有一套置在限定套 .. 、 凡旰滑動,並與第一活動 晋利盤連結之外滑套、一设在外滑套上之塗一^ , 轴承、一設在第一 車由承外緣與連結架連結之第一連結座; 俾皮帶圈套在第一定位普利盤鱼第一 隙間,對被驅動普利盤組傳動,該驅_==盤之傳動面間 會,驅推第-活乾普利盤往第—定位普利=㈣,普利缘就 過程,藉由撥動梢撥動扭力溝提昇軸向夹推力=此動作 龐並剎读沾此职 催刀使皮帶敏捷的反 〜曰]珠的作用力,可以隨著第一活動普利盤與第-定位普利盤 :=間_输,由_咖_,形成對細 ^動二?^傳動速比,且被第〆活動普利盤連動之滑座軸向 動—γ即可由連結座驅動連結架作徑向運動,使被驅動普利盤組 :麵晋•同步產生軸向作動,達到皮帶淨力傳動 速比热段變速作用。. . 本創作之_ 7 —目的係在提供一種連續無段變速器結機改良, ”中’該被驅動普·組,係包括有: 一被驅動細,# 、 /、一端供旋轉動力輸出,軸體身部組合一鎖轴 套管二於她套管—端裝設—離心式離合器; 、 第疋1立首利盤,係组合限定在鎖轴套管一端; 咏含,係套置在鎖i由套管上,一端供第二定位並殊丨丨 盤套置配合; , 曰才」 M294598 -第二活動普利盤,係組合定位在第二内滑套上; 一被助推庙,传呈古 ^ φ ^ 二活動置㈣二崎套—端外部,並與第 在第m 推動套上之第二軸承、一設 土弟―财外緣與連結架連結之第二連結座; 隙間俾第二定位普利盤與第二活動普利盤之傳動面間M294598 Nine, new description: [New technical field] This creation is about a structural improvement that can make the power transmission more efficient, the speed ratio of the shifting is more stable, and the belt has a longer service life. [Prior Art] The conventional VT structure of the continuous stepless transmission, as shown in the figure, includes a active disk group 10, a passive disk group 2 Q, and a transmission belt 3 〇; a shifting action and process, #系Active disk group The pusher bead in 1Q relies on the disk i 2, and the centrifugal force is increased with the rotation speed of the driving shaft 13 to push the movable disk 丨 $ on the driving shaft 丄 3 to the fixed axis 1 5 axial displacement , the distance between the _#1 4 and the positioning plate 5 is reduced, and the transmission belt 3 〇 ' placed on the movable plate 4 and the positioning plate 5 is changed from the inside to the outside, and the passive tilting is performed. The operating plate 2丄, the original ^ pressure _ spring 2 2 _ push, and the disk 2 3 posted #, at this time, the transmission skin ▼3 0 the other end is placed on the outer edge of the working disk 2 and the fixed point plate 2 3 Between the transmission and the ♦ movement, the lateral pressure of the transmission belt will increase, and the sleeve position will be changed from the outside to the inside to form a change in the transmission speed ratio, and the effect of shifting will be produced; The shifting action of the shifting H structure is completely dependent on the change in the size of the lateral pressure formed by the Passive 3 and the passive ', and 20 0. The following disadvantages: 1 transmission belt laterally long withstand great pressure load, easy looseness; short life. 2. The opening and closing action between the active disk and the positioning plate of the active disk group. The lateral pressure reaction of the transmission belt must be passed, which will affect the opening and closing action of the passive M294598 disk group 20 operating disk 2 1 and the fixed point disk 2 3 . This indirect sluggish relationship makes the correct transmission ratio unstable. 3 · Passive disc group driven by the drive belt, the slipperyness often occurs due to the opening and closing of the fixed-point disc and the actuating disc, which causes the transmission belt to be easily twisted and high-frequency vibration; in addition to affecting the life of the belt, it also causes poor power transmission. , the unfavorable large displacement of the automatic no-segment _ the use of speed locomotive. [New content] The main purpose of this creation is to provide a continuous stepless transmission structure improvement, which is composed of a driving Puli disk set, a driven Puli disk set, and a belt, mainly in that the driving Puli The first inner sliding sleeve of the driving shaft of the disc group and the first movable pulsing disc is provided with one or more torsion grooves at one end thereof, and each of the torsion grooves is respectively penetrated by a threaded tip, and each of the dials is arranged The moving tip is combined with the driving shaft to raise the clamping force of the first active Puli disk by the toggle tipping force groove, and the first positioning Puli disk of the Puli disk group and the first active Puli Between the discs, a sensitive opening and closing action can be generated according to the rotational speed of the drive shaft, so that the power transmission efficiency is better, and the shifting reaction is more rapid. The second objective of the present invention is to provide a continuous stepless transmission structure improvement, wherein the first inner sliding sleeve of the drive Puli disk drive shaft coupled to the first movable Puli disk has one or more ends The torsion groove $ and each of the torsion grooves are respectively changed by 6 M294598. ^^, 'and the _ active Ply disk is connected to the slider - on a limited set of axes:: axial displacement Acting 'the knot produces a path (four) movement, and the other of the link frame is again connected by the ^ slide seat to the passive | temple, then the forgiveness of the passive Jinli disk group ~ strictly driven by the passive push drive and Puli plate, for the same cow - pure r% broken (four) second activity on the disk group - the first live Puli disk group - positioning Puli disk and electricity first: :=_ sensitive off action 'can be directly The linkage is driven by the Ply disk W/moving disk in the drive. The sigh belt drive 7 and the lateral force are the net force, so that the speed change speed is stable. The structure of the stepless transmission is improved. In the 1st ''f' furnace, the system includes: ^ The drive shaft, one end of which is driven to rotate by the power connection. The third position of the Jinli disk, the combination is limited to the end of the drive shaft; - the inner β sleeve is sleeved on the drive shaft, one end is for the first positioning and benefits, the gp person is placed, vgi σ, and the other end is provided with a The above-mentioned torsion groove, and each of the torsion grooves has a -tooth tip, and each of the torsion tips is coupled through the shaft-shaft assembly drive shaft; the first activity Jinli disk, the combination is set in On the first inner sliding sleeve, a plurality of pleat beads are worn in the disc; a sleeve is sleeved on the opening end of the torsion groove of the first inner sliding sleeve, and is combined with each of the dialing tips; The disc, the combination is positioned on the limited sleeve, relative to the first active Ply disk, M294598 ................................... ........ For each of the Puli beads to rely on the force, a sliding seat, has a set of placed in the limited set.., where the sliding, and the first activity Jinli disk link a sleeve, a coating on the outer sliding sleeve, a bearing, and a first connecting seat disposed on the first vehicle by the outer edge of the bearing and the connecting frame; the belt loop is sleeved in the first gap of the first positioning Puli fish, Driven Puli Drive, the drive _== between the drive faces of the disk, drive the first-live dry Puli disk to the first - position Puli = (four), Puli edge on the process, by twisting the tip to move the torsion groove to lift the axial direction Clamping thrust = this action Pang and braked to touch this job to make the belt agile anti-曰 曰 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠 珠_ _ _, the formation of the fine movement 2? ^ transmission speed ratio, and the slide of the slide of the third active Ply disk axial movement - γ can be driven by the joint drive frame for radial movement, so that driven Puli Disc group: Face Jin • Synchronously produces axial actuation, which achieves the belt net force transmission speed ratio hot section shifting action.. _ 7 — The purpose is to provide a continuous stepless transmission junction machine improvement, “中中” The driving group includes: one driven fine, #, /, one end for rotary power output, the shaft body combined with a lock shaft sleeve 2 in her casing-end assembly-centrifugal clutch;疋1立立利盘, the combination is limited to one end of the lock shaft sleeve; 咏include, the sleeve is placed on the sleeve i, and one end is used for the second positioning M294598 - The second activity of the Ply disk, the combination is positioned on the second inner sliding sleeve; one is promoted to the temple, and the ancient ^ φ ^ two activities (four) two The outer end of the sleeve, and the second bearing on the mth pusher sleeve, the second joint that connects the foreigner and the outer edge of the outer edge of the joint; the second position of the gap between the gap and the second activity Drive face
合器產生盤組的傳動’隨著被傳動轉速的增加,除離 之被動推P丨 被驅動旋轉輸出動力外,與連結架連結The clutch generates the transmission of the disc unit. As the speed of the transmission is increased, the passive push P丨 is driven to rotate the output power, and is connected with the link frame.
_推座上的弟二;查έ士广 #丄JU 動第二連Μ,#r ·糟由域結架徑向運動的推力,推 更弗—活動晋利盤被被動推座拉動,加大盘第一 -位晋利盤的間隙,令皮帶由外向 = 的增速速比,結Μ —、, 文崎位1,軸被傳動 隙開閉,—種晋健鮮二軸普卿間的傳動間 需側向力的==鱗繼_同步變換控制,據以皮帶勿 帶喜命。 θ ϋ从為}尹力的傳動被驅動普利盤組,增延皮 本幻作之又―目⑽在提供—種連續無段魏H結構改良, 焉6動晋利盤組之第一活動普利盤在驅動轴上作轴向位移作 —活動f利盤上,係設有—支以上的連動桿與滑座連結, …舌動3利釦與滑座構成相互連動,並造成連結架作相對運 動利於對被驅動普利盤組作變速對應性操控。 本創作<次再一目的係在提供一種連續無段變速器結構改 . 甘. | f 被驅動晋利盤組之被動推座與連結架的另一端連結, M294598 該被動推座上,係設有—支以上的作動桿與第二活動普利盤連 、·’。,使被練座與第二活料糖構成相互軸,並透過作動桿 的作動,形成對應的同步軸向連動,使被驅動普利盤組,可以直 接由驅動晋利盤組作變速操控。 本爲之-人另-目的係在提供一種連續無段變速器結構改 良’其中’驅動普利餘上滑座連結於連結架—端,再由連結架 的另端與被驅動晋利盤組上的被動推座連結,該連結架,传在 •―剛性支;撐桿之兩端各設有—u形結合框所構成,且兩結句匡 上’分別設有-個以上的錢孔斜孔槽,並由滑座及被動推座上 相對斜孔槽所設置的⑽娜件穿置在斜孔彻,俾連結架在變 速箱内被驗轴向位㈣定,即可由難之軸向仙,驅動連結 架作左右位移運動,使被動推座,能夠透過連結架左右位移運動 的控制,產生相對性的軸向作動。 本創作之次又-目的係在提供一種連續無段變速器結構改 •良’其中,驅動晋利盤組上的滑座連結於連結架一端,再由連結 架另一端與被驅動普趣組上的被動推座連結,該連結架在滑座 與被動推座間’形成為„剛性支撐桿,且該支撐桿至少穿過一設 在雙補内之套桿虹,如套桿㈣支撐桿的限定,使連結架 波β座驅糾,X會在麵座上舰左右位移,而不產生轴向運 動。 本創作之再另—目的係在提供一種連續無段變速器結構改 M294598 良’其令,驅動普利盤組上的滑座連結於連結架一端,再由連結 木另知與破驅動普利盤組上的被動推座連結,該連結架,係在 支撐杯之兩、各設有一與滑座及被動推座連結之結合框所構 成且θ支侍桿,並穿過一設在變速箱内之套桿座上,被一靠置 在套杯座上的壓縮彈簧對一端結合框頂推,使連結架對被動推座 苇心保持$股推力,據以提昇低速回位的反應速度與能力。 本d作之再又一目的係在提供一種連續無段變速器結構改 良/、中驅動晋利盤組上的滑座連結於連結架一端,再由連结 架另鳊與被驅動普利盤組上的被動推座連結,該連結架,係在 一支撐桿之兩端各設有一與滑座及被動推座連結之結合框所構 成’且該支撐桿,乃穿過-套桿座,並被置在套桿座上的壓 %彈簧對一端結合框頂推,而套桿座,則在變速箱内,係裝設在 1槽上與-通往外界之鋼索賴,藉由套桿絲導槽上的允許 鲁滑動仅移,俾從外界對鋼索之調節,能夠由套桿座在導槽上的位 i改變,設定迷結架常態對被動推座所保持的不同作用力,據以 可依不同需求,變化變速的時機。 本創作之另再一目的係在提供一種連續無段變速器結構改 良,其中,驅動普利盤組上的滑座連結於連結架_端,再由連紗 木另一端與被驅動普利盤組上的被動推座連結,該連結架,係在 片顿又撐桿之兩端各設有一與滑座及被動推座連結之結合框所 構成,且該伸縮支撐桿上設有長度調整調節鈕,俾由該調節鈕的 M294598 調節,可以設定伸縮支撐桿的長度,據以調整結合框與滑座及被 動推座連結位置的準確性,並在皮帶磨損時,可由調節鈕的調節 得到補償。 【實施方式】 一種運續無段變速器結構改良,如圖2,係由一驅動普利盤 組4 0、一被驅動普利盤組5 0,及一皮帶7 0所構成;該, 一驅動晋利盤組40,如圖3、4,至少包括在一驅動軸4 ® 1上組合限定有一第一定位普利盤4 2,套置一第一内滑套4 3,組合一與第一内滑套4 3連結之第一活動普利盤4 4,套設 一被一限定套4 5限定之背壓盤4 6,及在第一活動普利盤4 4 與背壓盤4 6間,裝入有多數個普利珠4 4 0,且該第一内滑套 4 3的一端,係設有一個以上的扭力溝4 30,而每一扭力溝4 3 0内,分別貫穿有一與驅動軸41結合連動之撥動梢4 8 ;該, 一被驅動普利盤组5 0,至少包括有一被驅動軸51上組合 * 限定有一第二定位普利盤5 2,套置一第二内滑套5 3,組合一 與第二内滑套5 3連結之第二活動普利盤5 4 ;該, 一皮帶7 0,係圈套在驅動普利盤組4 0之第一定位普利盤 4 2與第一活動普利盤4 4上,對被驅動普利盤組5 0之第二定 位普利盤5 2與第二活動普利盤5 4傳動; 俾驅動軸41旋轉,第一定位普利盤4 2與第一活動普利盤 4 4間之開閉動作,藉由撥動梢4 8撥動扭力溝4 3 0所提昇之 M294598 ‘由向夾推力办圖5、6,據以驅動普利盤組4 〇之第—定位普 利盤4 2與第―活動普利盤4 41如圖4、7,糊安照,_ 軸4 1的·^速‘產玍i敏開閉動作,如此,可以使動力的傳輸效 率更佳,及變速的反應更迅速。 又,由上述實施之效益,本創作可以是—種連續無段變速器 結構改良,如圖2 ’係由-鷄普利盤組4 Q、—被驅動普利盤 組5 0、—連結架6 〇及一皮帶7 〇所構成,·該,_Pushing on the second brother; Cha Shiguang Guang #丄JU moving the second company, #r · The thrust of the radial movement of the domain by the frame, pushing the squad - the activity of the Jinli disk was passively pushed, The gap between the first and the first place of the market, the speed of the belt from the outward direction = the speed ratio, the knot -,, Wenzao position 1, the shaft is opened and closed by the transmission gap, - the transmission between the Jin Jian Xian two-axis Puqing The lateral force of the == scale is followed by the _synchronous transformation control, so the belt does not bring joy. θ ϋ is driven from the drive of the yin yin, and the singularity of the sci-fi sci-fi is also provided. (10) in the provision of a continuous non-segmented Wei H structure improvement, 焉6 move Jinli disk group first activity The Puli plate is axially displaced on the drive shaft as the active f-disc, and the linkage rod with the above-mentioned branch is connected with the sliding seat, and the tongue-and-stick 3-slip and the sliding seat are interlocked with each other, and the connecting frame is formed. The relative motion facilitates the shifting correspondence control of the driven Puli disk. This creation <secondary purpose is to provide a continuous stepless transmission structure change. Gan. | f is driven by the Jinli disk group passive push seat and the other end of the link frame, M294598 the passive push block, set There is a lever above the branch and the second active Puli plate, '. The actuating seat and the second live sugar form a mutual axis, and through the action of the actuating rod, a corresponding synchronous axial linkage is formed, so that the driven Puli disk group can be directly controlled by the driving Jinli disk group. This is for the purpose of providing a continuous stepless transmission structure improvement in which the 'driver's upper slide is connected to the link-end, and then the other end of the link is driven to the Jinli disk group. Passive pusher connection, the link frame is transmitted in the "rigid branch; each end of the strut is provided with a u-shaped joint frame, and the two knots are respectively provided with more than one money hole oblique hole The groove is provided by the sliding seat and the relative inclined hole groove on the sliding seat. The (10) Na piece is placed in the oblique hole, and the 俾 link frame is fixed in the gearbox (4), which can be The driving link frame is used for left and right displacement movement, so that the passive push seat can generate relative axial movement through the control of the left and right displacement movement of the connecting frame. The second step of this creation is to provide a continuous stepless transmission structure that is improved. The sliding seat on the Jinli disk group is connected to one end of the connecting frame, and then the other end of the connecting frame is driven by the Puqu group. Passive pusher connection, the link frame is formed as a 'rigid support rod' between the slide seat and the passive push block, and the support rod passes at least through a set of rods arranged in the double complement, such as the sleeve (four) support rod In order to make the link frame β block drive, X will be displaced on the left and right sides of the ship without axial movement. The purpose of this creation is to provide a continuous stepless transmission structure to change M294598. The sliding seat on the driving Puli disk group is connected to one end of the connecting frame, and then the connecting wood is further connected with the passive pushing seat on the broken driving Puli disk group, and the connecting frame is connected to the two supporting cups. The combination of the sliding seat and the passive pusher joint constitutes a θ-supporting rod, and passes through a sleeve seat disposed in the gearbox, and is coupled to the top of the frame by a compression spring that is placed on the sleeve holder Push, so that the link frame keeps the $ push thrust on the passive pusher According to the speed and ability of the low-speed return position, another objective of the present invention is to provide a continuous stepless transmission structure improvement/, and the sliding seat on the middle drive Jinli disk group is connected to one end of the connecting frame, and then The connecting frame is connected to a passive pusher on the driven Puli disk set, and the connecting frame is formed by a joint frame with a sliding seat and a passive pusher at each end of the supporting rod. The support rod is passed through the sleeve rod seat, and the pressure % spring placed on the sleeve rod seat pushes the end frame with the frame, and the sleeve rod seat is installed in the gear box and is installed in the slot. -The steel cable to the outside is only allowed to move by the sliding of the sleeve on the wire guide groove, and the adjustment of the cable from the outside can be changed by the position i of the sleeve seat on the guide groove, setting the normal state of the knot According to the different forces maintained by the passive pusher, the timing of the shifting can be changed according to different needs. Another object of the present invention is to provide a structural improvement of the continuous stepless transmission, in which the driving on the Puli disk group is The sliding seat is connected to the end of the connecting frame, and then the other end of the connected yarn is a passive push-pull connection on the movable Puli disk set, which is formed by a joint frame connecting the slide seat and the passive push block at each end of the piece and the strut, and the telescopic support bar is provided There is a length adjustment knob, which is adjusted by the M294598 of the adjustment knob, and the length of the telescopic support rod can be set to adjust the accuracy of the joint position of the joint frame with the slide seat and the passive push seat, and the adjustment button can be used when the belt is worn. The adjustment of the stepless transmission is improved. [Embodiment] A structural improvement of the transmission of the stepless transmission, as shown in FIG. 2, is composed of a driving Puli disk group 40, a driven Puli disk group 50, and a belt 70. As shown in FIG. 3 and FIG. 4, at least one drive shaft 4 ® 1 is combined to define a first positioning plucking disc 4 2, and a first inner sliding sleeve 4 3 is disposed. Combining a first active plucking disc 4 4 coupled with the first inner sliding sleeve 4 3, arranging a back pressure plate 4 6 defined by a limiting sleeve 45, and a first active plough disc 4 4 and back There are a plurality of Phillips 4400 in the pressure plate, and one end of the first inner sliding sleeve 43 is provided. More than one torsion groove 4 30, and each of the torsion grooves 4 3 0 respectively penetrates a toggle tip 4 8 in conjunction with the drive shaft 41; the driven Pelley disk set 50 includes at least one The combination of the drive shaft 51 defines a second positioning plucking disc 5 2 , and a second inner sliding sleeve 5 3 , and a second movable plucking disc 5 4 coupled with the second inner sliding sleeve 5 3 ; , a belt 70, the collar is in the first position of the driving Puli disk 40, the first positioning Puli disk 4 2 and the first active Puli disk 4 4, the second positioning of the driven Puli disk group 50 The disc 5 2 and the second movable Ply plate 5 4 are driven; the cymbal drive shaft 41 rotates, and the first positioning plough disc 4 2 and the first movable plough disc 4 4 are opened and closed, by the tip 4 8 Move the M294598 that is lifted by the torsion groove 4 3 0. From the clamp thrust diagrams 5 and 6, according to the drive of the Puli disk group 4 - the positioning of the Puli disk 4 2 and the first - active Puli disk 4 41 In Fig. 4 and Fig. 7, the ampere _ axis 4 1 ^ ' 玍 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 敏 , , Moreover, due to the benefits of the above implementation, the creation can be a structural improvement of the continuous stepless transmission, as shown in Fig. 2 'system--Chippley disk group 4 Q,-driven Puli disk group 50,-link frame 6 〇 and a belt 7 〇, □,
一驅動普利盤組4G,如圖3、4,至少包括在—驅動轴4 1上組合限戈有-第-定位普利盤4 2,套置_第—内滑套4 3 ’組合一與第—内滑套43連結之第-活動普利盤44,套設A driving Puli disk set 4G, as shown in FIGS. 3 and 4, includes at least a combination of a limit-gated-first-position plough disk 4 2 on the drive shaft 4 1 , and a set _ first inner slide cover 4 3 ' The first-active Ply disk 44 connected to the first inner sleeve 43 is sleeved
一被—限絲4 5岐之隸盤4 6,及在第-活動普利盤4 4 與背壓盤4 6間,裝人有多數個普利珠4 4 Q,且該第一内滑套 4 3的-端,係設有—個以上的扭力溝4 3 Q,而每—扭力溝4 3 0内,分別貫穿有-與驅動軸4 i結合連動之撥動梢4 8 ;該, 一被驅動㈣触5 Q,至少包括有-被驅_5 i上组合 限定有-第二定位普利盤5 2,套置一第二内滑套5 3,組合一 與第二内滑套5 3連結之第二活動普利盤5 4,及設置一與第二 /舌動晋利盤5 4連結之被動推座5 5 ;該, <、、、口不6 0為一在、楚还箱内允許左右作動的架體構件, ” 由以丄側推件6 1與馬區動普利盤組4 〇上的滑座4 了 連結4—賴杨—触上側推件6 1與被轉f利盤組5 〇 13 M294598 上的被動推座5 5連結;該, 一皮帶7 0 -係圈套在驅動普利盤組4 〇之第一定位普利盤 4 2與第一活動普利盤4 4上,對被驅動普利盤組5 0之第二定 位普利盤5 2與第二活動普利盤5 4傳動; 俾驅動軸41旋轉,第一定位普利盤4 2與第一活動普利盤 4 4間之開閉動作,藉由撥動梢4 8撥動扭力溝4 3 0所提昇之 軸向失推力,配合被第一活動普利盤44帶動之滑座47,如圖 | 5、6,由軸向運動的滑座4 7連動該連結架6 0產生左右徑向 位移,使第二活動普利盤5 4受制於被動推座5 5的驅動,與第 二定位普利盤5 2間同步形成開閉動作;據以驅動普利盤組4 0 第一定位普利盤4 2與第一活動普利盤4 4間靈活開閉動作,可 以透過連結架6 0直接連動被驅動普利盤組5 0之第二定位普利 盤5 2與第二活動普利盤5 4作相對且同步的開閉動作,使皮帶 £ 7 0傳動所承受的側向力為淨力,讓動力傳輸效率更佳,變速的 • 速比更為穩定,及皮帶壽命更長。 •且,本創作之更具體實施,其中,該驅動普利盤組4 0,如 圖3、4,包括有: 一驅動軸41,其一端供動力連結被驅動旋轉; 一第一定位普利盤4 2,係組合限定在驅動軸41一端; 一第一内滑套4 3,係套置在驅動軸41上,一端供第一定 位普利盤4 2套置配合,另一端設有一個以上的扭力溝4 3 0。 14 M294598 且每-扭力溝43 0内分別貫穿有—撥動梢48 5而每一支撥動 梢4 8,則透過一軸套件4 9與驅動軸41結合連動; 一第一活動晋利盤4 4,係組合設置在第—内滑套4 3上, 盤内裝有多數個普利珠440; -限定套4 5 m在第-崎套4 3之扭力溝4 3 〇開 設端,與每一支撥動梢4 8結合; 一背壓盤4 6,係組合定位在限定套4 5上,相對於第一活 φ 動晋利盤4 4,供每一個普利珠4 4 〇靠置受力; -滑座4 7,係具有-套置在限定套4 5上允許滑動,並與 第—活動普利盤4 4連結之外滑套4 7 0、-設在外滑套4 7 〇 上之弟-軸承4 71、-設在第-軸承4 7工外緣與連結架6 〇 連結之第一連結座472; 俾皮帶7 Q®套在第-定位普利#4 2與第—活動普利盤4 4之傳動面間隙間,對被驅動#利盤組5⑽動,該驅動轴4丄 #之轉速提高,如圖7,普利珠44 0就會驅推第一活動普利盤4 4庄第疋位晋利盤42貼靠縮小間隙,此動作過程,如圖3, 藉j動梢4 8撥動扭力溝4 3 0提昇車由向夹推力,如圖7,使 皮帶7 0敏捷的反應普利珠44〇的作用力,可以隨著第一活動 普利盤4 4興第-定位普利盤4 2之傳動面間隙縮小變化,由内 A 一人又_套位置,形成對被驅動普利盤組5 〇之增速傳動速 比,且被第—活動普利盤4 4連動之滑座4 7軸向作動.如圖6, 15 M294598 即可由連結座4 7 2驅動連結架6 0作徑向運動,使被驅動普利 盤組5 0之第二活動普利盤5 4同步產生軸向作動,達到皮帶淨 力傳動的穩定速比無段變速作用。 再且,本創作之更具體實施,其中,該被驅動普利盤組5 0, 如圖2、4,係包括有: 一被驅動軸5 1,其一端供旋轉動力輸出,軸體身部組合一 鎖軸套管510,且於鎖軸套管510 —端裝設一離心式離合器 i 5 6; 一第二定位普利盤5 2,係組合限定在鎖轴套管5 1 0 —端; 一第二内滑套5 3,係套置在鎖轴套管510上,一端供第 二定位普利盤5 2套置配合; 一第二活動普利盤5 4,係組合定位在第二内滑套5 3上; 一被動推座5 5,係具有一設置在第二内滑套5 3—端外 部,並與第二活動普利盤5 4連結之推動套5 5 0,一設在推動 Φ 套5 5 0上之第二轴承5 51、一設在第二轴承5 51外緣與連 結架6 0連結之第二連結座5 5 2 ; 俾皮帶7 0圈套在第二定位普利盤5 2與第二活動普利盤5 4之傳動面間隙間,接受驅動普利盤組4 0的傳動,隨著被傳動 轉速的增加π除離合器5 6產生作動讓被驅動軸51被驅動旋轉 輸出動力外·、與連結架6 0連結之被動推座5 5上的第二連結座 5 5 2 $如圖6、7,^藉由該連結架6 0徑向運動的推力1推 16 M294598 動第二連結座5 5 2,使第二活動普利盤5 4被被動推座5 5拉 動β加大與第二定位普利盤5 2的間隙,令皮帶了 0由外向内改 變圈套位置,形成被傳動的增速速比,具有第二定位普利盤5 2 與第二活動普利盤5 4間的傳動間隙開閉,直接受制於驅動普利 盤組4 0的同步變換控制,據以皮帶7 0勿需侧向壓力的增大, 可以為淨力的傳動被驅動普利盤組,增延皮帶壽命。 另且,本創作之更具體實施,其中,如圖3、4、7,該驅 ,動普利盤組4 0之第一活動普利盤4 4在驅動軸41上作軸向位 移作動,該第一活動普利盤4 4上,係設有一支以上的連動桿4 41與滑座4 7連結,使第一活動普利盤4 4與滑座4 7構成相 互連動,並造成連結架6 0作相對運動,利於對被驅動普利盤組 5 0作變速對應性操控。 又且,本創作之更具體實施,其中,如圖3、4、7,該被 驅動普利盤組5 0之被動推座5 5與連結架6 0的另一端連結, φ 該被動推座5 5上,係設有一支以上的作動桿5 4 0與第二活動 普利盤5 4連結,使被動推座5 5與第二活動普利盤5 4構成相 互連動,並透過作動桿5 4 0的作動,形成對應的同步軸向連動, 使被驅動普利盤組5 0,可以直接由驅動普利盤組4 0作變速操 控。 再者,本創作之具體實施上,其中,如圖3,驅動普利盤組 4 0上滑座4 7連結於連結架6 0 —端"再由連結架6 0的另一 17 M294598 端舰馬區動普利盤级上的被動推座5 在-剛性支撐桿6 Q Q之 …轨结架6 0,係 成,且兩結合框6 (U L " 叫結合框6 Q1所構 0 2,並由滑座4 .了及被^上的長圓孔斜孔槽6 的凸梢侧推件61穿置在卿=斜孔槽6〇2所設置 箱内被前後轴向位瓣俾連结架60在變速 ,,,ρ Α ΡΊ^·4 7之軸向作動,驅動連One is limited to the wire 4 5 岐 4 4 4, and between the first - active plough disk 4 4 and the back pressure plate 4 6 , the person has a majority of plough beads 4 4 Q, and the first inner slide The end of the sleeve 43 is provided with more than one torsion groove 4 3 Q, and each of the torsion grooves 4 3 0 respectively penetrates the toggle tip 4 which is coupled with the drive shaft 4 i; When driven (four) touches 5 Q, at least includes - is driven _5 i is combined with a second positioning plucking disk 5 2, and a second inner sliding sleeve 5 3 is assembled, and the first and second inner sliding sleeves are combined 5 3 link the second activity Puli disk 5 4, and set a passive push pad 5 5 connected with the second / tongue move Jinli disk 5 4; the, <,,, mouth is not 60 is one, Chu also allows the left and right side of the frame to be actuated," by the side pusher 6 1 and the carriage on the horse's movable plate set 4 〇 4 connected 4 - Lai Yang - touch the side pusher 6 1 and Passed on the 5th M13 M294598 on the passive pusher 5 5 link; that, a belt 7 0 - the collar is in the drive Puli disk group 4 〇 first positioning Puli plate 4 2 and the first activity On the tray 4 4, the second position of the driven Puli disk set 50 is 5P and the second The movable Puli plate 5 4 transmission; the 俾 drive shaft 41 rotates, the opening and closing action of the first positioning Puli plate 4 2 and the first movable Puli plate 4 4, and the torque groove 4 3 0 is moved by the tip 4 8 The increased axial thrust loss is matched with the sliding seat 47 driven by the first movable Puli plate 44, as shown in Figs. 5 and 6, the axially moving sliding block 4 7 interlocks the connecting frame 60 to generate left and right radial displacement. Therefore, the second active Ply disk 5 4 is controlled by the driving of the passive push pad 5 5 , and the second positioning Puli disk 5 2 is synchronized to form an opening and closing action; accordingly, the Puli disk set is driven to the first position. 4 2 and the first active Puli disk 4 4 flexible opening and closing action, can be directly linked through the connecting frame 60 to be driven by the Puli disk group 50 second positioning Puli disk 5 2 and the second active Puli disk 5 4 The relative and synchronous opening and closing action makes the lateral force of the belt drive 70 k net, which makes the power transmission efficiency better, the speed ratio of the transmission speed is more stable, and the belt life is longer. A more specific implementation of the creation, wherein the driving Puli disk set 40, as shown in Figures 3 and 4, comprises: a drive shaft 41, one end of which is powered The knot is driven to rotate; a first positioning plucking disc 4 2 is coupled to one end of the driving shaft 41; a first inner sliding sleeve 43 is sleeved on the driving shaft 41, and one end is provided for the first positioning plough disc 4 2 sets of fittings, the other end is provided with more than one torsion groove 4 3 0. 14 M294598 and each of the torsion grooves 43 0 penetrates through - respectively, the tip 48 5 and each of the shifting tips 4 8 The first shaft assembly 4 9 is coupled with the drive shaft 41; a first movable tray 44 is disposed on the first inner sleeve 43, and the tray is provided with a plurality of pluck beads 440; m is in the opening end of the torsion groove 4 3 第 of the first-sakisaki 4 3, and is combined with each of the shifting tips 4 8; a back pressure plate 4 6 is combined and positioned on the limiting sleeve 45, relative to the first live φ move Jinli plate 4 4, for each Pulizhu 4 4 〇 to rely on the force; - Slide 4, 7 has - sleeved on the limit sleeve 45 to allow sliding, and the first - active Puli plate 4 4 outside the sliding sleeve 4 7 0, - the outer sleeve 4 7 〇 on the brother - bearing 4 71, - the first joint 472 connected to the outer end of the first bearing 4 7 and the connecting frame 6 〇 ; 俾 belt 7 Q® set in the first Between the transmission surface gap of the position Puli #4 2 and the first-active Ply 4 4, the speed of the drive shaft 4 (10) is increased, as shown in Fig. 7, the Pulizhu 44 0 Will drive the first activity Puli plate 4 4 Zhuang Dizhen Jinli plate 42 close to reduce the gap, this action process, as shown in Figure 3, by j moving tip 4 8 torsion force ditch 4 3 0 to enhance the car to the direction The clamping thrust, as shown in Figure 7, makes the belt 7 0 agilely reacting to the force of the Pulizhu 44〇, which can be reduced with the clearance of the transmission surface of the first active Puli plate 4 - positioning Puli plate 4 2 From the inside A, the position of the set is increased, and the speed-increasing transmission ratio of the driven Puli disk group 5 is formed, and the sliding seat of the first movable Ply 4 4 is axially actuated. As shown in Fig. 6, 15 M294598 can drive the connecting frame 60 from the connecting seat 4 7 2 for radial movement, so that the second movable Puli plate 5 4 of the driven Puli disk set 50 can synchronously generate axial movement to achieve stable belt transmission. The speed ratio has no step shifting effect. Furthermore, a more specific implementation of the present invention, wherein the driven Puli disk set 50, as shown in Figures 2 and 4, comprises: a driven shaft 5 1, one end of which is provided for rotational power output, and the shaft body A lock shaft sleeve 510 is combined, and a centrifugal clutch i 5 6 is disposed at the end of the lock shaft sleeve 510; a second positioning plucking disc 5 2 is combined with the lock shaft sleeve 5 1 0 - end a second inner sliding sleeve 5 3 is sleeved on the lock shaft sleeve 510, one end is provided for the second positioning Puli plate 5 2; and a second movable Puli plate 5 4 is combined in the first The two inner sliding sleeves 5 3; a passive pushing seat 5 5 has a pushing sleeve 5 5 0 , which is disposed outside the second inner sliding sleeve 5 3 -end and connected with the second movable magnetic tray 5 4 a second bearing 5 51 disposed on the Φ sleeve 550, a second coupling seat 5 5 2 disposed on the outer edge of the second bearing 5 51 and the coupling frame 60; the 俾 belt 70 圈 sleeve in the second positioning Between the drive plate gap of the Ply plate 5 2 and the second active Ply plate 5 4 , the transmission of the drive plate set 40 is received, and the driven shaft 51 is actuated by the increase of the drive speed π by the clutch 56. The second coupling seat 5 5 2 $ on the passive pusher 5 5 connected to the coupling frame 60 is driven by the thrust 1 of the radial movement of the coupling frame 60. 16 M294598 The second connecting seat 5 5 2, so that the second movable Puli plate 5 4 is passively pushed 5 5 pulls the gap between β and the second positioning Puli plate 5 2, so that the belt changes from the outside to the inside. The position of the snare is formed to increase the speed ratio of the transmission, and the transmission gap between the second positioning Ply plate 5 2 and the second movable Ply plate is opened and closed, which is directly controlled by the synchronous switching control of the driving Puli disk 40 According to the increase of the lateral pressure of the belt 70, the transmission of the net force can be driven to the Puli disk group to extend the life of the belt. In addition, a more specific implementation of the present invention, wherein, as shown in FIGS. 3, 4, and 7, the first active Ply disk 44 of the movable Ply disk group 40 is axially displaced on the drive shaft 41, The first active plucking disc 4 4 is provided with more than one linkage rod 4 41 and the sliding seat 47, so that the first movable plucking disc 4 4 and the sliding seat 47 are interlocked with each other, and the connecting frame is formed. The relative motion of 60 is beneficial to the shifting correspondence control of the driven Puli disk set 50. Moreover, a more specific implementation of the present invention, wherein, as shown in FIGS. 3, 4, and 7, the passive push pad 5 5 of the driven Puli disk set 50 is coupled to the other end of the link frame 60, φ the passive push block On the 5 5, more than one actuating lever 504 is coupled with the second movable plucking disc 5 4 , so that the passive pusher 5 5 and the second movable plough disc 5 4 are interlocked with each other and pass through the actuating lever 5 The actuation of 40 forms a corresponding synchronous axial linkage, so that the driven Puli disk group 50 can be directly controlled by the driving Puli disk group 40. Furthermore, in the specific implementation of the present creation, among them, as shown in FIG. 3, the drive Puli disk pack 40 upper slide 47 is connected to the link frame 60-end " and then the other 17 M294598 end of the link frame 60. The passive pusher on the ship's horse area is 5 in the rigid support bar 6 QQ ... the railing frame 60, and the two combined frame 6 (UL " called the frame 6 Q1 constructed 0 2 And the slider pusher 61 of the oblong hole slot 6 of the oblong hole is placed in the box provided by the slant hole slot 6〇2 and is connected by the front and rear axial lobe The frame 60 is actuated in the axial direction of the shifting speed, and ρ Α ΡΊ^·4 7
4 6 0作左右位移運動,使被動推座55_透過連結架6 0左右位移速動的控制,產生相對性的轴向作動。 又者,本創作之具體實施上,其中,如圖3、8,驅動普利 盤組4 〇上的滑座4 7連結於連結架6 Q—端,再由連結架6 〇 另-端與被動普利盤組5 〇上的被動推座5 5連結,該連結架 6 0在滑座4 7與被動推座5 5間,形成為一剛性支撐桿6 〇 0 5且該支撐杯6 0 〇至少穿過一設在變速箱内之套桿座8 〇 上,據以套摔座8 0對支撐桿6 〇 〇的限定,使連結架6 0被滑 4 4 7驅動时/、會在套杯座8 0上伸縮左右位移,而不產生車由 向運動。更真,該連結架δ 0在變速箱内,由支撐桿6 0 〇穿過 套桿座8 0工實施,可以被一靠置在套桿座8 〇上的麇縮彈簧8 1對一端結舍框6 01頂推,使連結架6 〇對被動推廣5 5常態 丨呆持有一股推力,能夠提昇低速回位的反應速度與能力;且承置 墨縮彈簧81之#桿座8 0,實施上,配合圖9,該參样座8 〇 可以裝設在變速箱内之一導槽8 2上,並與一通往外界之鋼索8 18 M294598 3連結‘’藉由套桿座8 0允許在導槽8 2上滑動位移,如此,從 外界對鋼索之長度調節,即能夠由套桿座8 0在導槽8 2上的位 置改變,設定連結架6 0常態對被動推座5 5所保持的不同作用 力,據以可按不同需求,簡易變化變速的時機;再且,如圖8, 連結架6 0以支撐桿6 0 0穿過套桿座8 0的實施,該支撐桿6 0 0可為伸縮桿體,並具有一調節鈕6 2可作長度調節與設定, 如此,能夠調整結合框6 Ο 1與滑座4 7及被動推座5 5連結位 _ 置的準確性1並在皮帶7 0磨損時,可由調節鈕6 2的適當支撐 桿6 0 0長度調節得到補償。 以上說明,謹屬本創作較佳之具體實施例,舉凡就上述實施 例所作之簡易等效改變,仍應屬本創作技術範疇。 【圖式簡單說明】 圖1係習用連續無段變速機構結構示意圖 圖2係本創作實施結構外觀示意圖 • 圖3係本創作實施結構部份構件剖開示意圖 •圖4係本創作實施剖面結構示意圖 圖5係本創作實施結構平時狀態示意圖 圖6係本創作實施結構變速動作示意圖 圖7係本創作實施結構變速動作剖面示意圖 圖8係本創作實施連結桿另一實施例外觀示意圖 圖9係本創作實施連結桿另一實施例操作構造示意圖 19 M294598 【主要元件符號說明】 主動盤組1 0 靠盤1 2 活動盤1 4 被動盤組2 0 壓縮彈簧2 2 傳動皮帶3 0 _ 驅動軸4 1 第一内滑套4 3 第一活動普利盤4 4 連結桿4 41 背壓盤4 6 外滑套4 7 0 第一連結座4 7 2 • 軸套件49 •被驅動轴b 1 第二定位普利盤5 2 第二活動普利盤5 4 被動推座5 5 第二轴承5 51 離合器5 6 推盤珠1 1 主動軸1 3 定位盤1 5 作動盤2 1 定點盤2 3 驅動普利盤組4 0 第一定位普利盤4 2 扭力溝4 3 0 普利珠4 4 0 限定套4 5 滑座4 7 第一軸承4 71 撥動梢4 8 被驅動普利盤組5 0 鎖軸套管510 第二内滑套5 3 作動桿5 4 0 推動套5 5 0 第二連結座5 5 2 連結架6 0 20 M294598 支撐桿6 Ο Ο 斜孔槽6 Ο 2 調節鈕6 2 套桿座8 Ο 導槽8 2 結合框6 Ο 1 側推件6 1 皮帶7 0 壓縮彈簧81 鋼索8 34 6 0 is used for left and right displacement movement, so that the passive pusher 55_ is controlled by the displacement of the coupling frame 60, and the relative axial action is generated. Moreover, in the specific implementation of the present creation, in which, as shown in FIGS. 3 and 8, the sliding seat 4 7 on the driving Puli disk group 4 is connected to the Q-end of the connecting frame 6, and then the connecting frame 6 is connected to the other end. The passive pusher 5 5 is connected to the passive sluice plate 5, and the connecting frame 60 is formed between the sliding seat 47 and the passive pusher 5 5 as a rigid supporting rod 6 〇 0 5 and the supporting cup 6 0 〇 At least through a sleeve seat 8 设 disposed in the gearbox, according to the limitation of the support rod 6 对 by the sleeve 80, when the coupling frame 60 is driven by the 4 4 7 drive, The cup holder 80 is telescopically displaced to the left and right without generating a car to move. More realistically, the connecting frame δ 0 is implemented in the gearbox by the support rod 60 〇 through the sleeve seat 80, and can be closed by a collapsing spring 8 1 placed on the sleeve seat 8 〇 The frame 6 01 pushes up, so that the connecting frame 6 持有 holds a thrust to passively promote the 5 5 normal state, and can improve the reaction speed and ability of the low speed return position; and the spacer rod 80 of the ink shrink spring 81 is mounted. In practice, in conjunction with FIG. 9, the sample holder 8 can be mounted on one of the guide slots 8 2 in the gearbox and connected to a cable 8 18 M294598 3 to the outside. 0 allows sliding displacement on the guide groove 82, so that the length of the cable is adjusted from the outside, that is, the position of the sleeve seat 80 on the guide groove 8 2 can be changed, and the connecting frame 60 is normally set to the passive push seat 5 The different forces held by the 5, according to different needs, can easily change the timing of the shift; and, as shown in Fig. 8, the connecting frame 60 is supported by the support rod 600 through the sleeve seat 80, the support The rod 600 can be a telescopic rod body, and has an adjusting button 6 2 for length adjustment and setting, so that the binding frame 6 Ο 1 and the sliding seat 4 7 can be adjusted. Pushing the movable seat 55 opposed to the accuracy of the _ bit 1 connected to the belt 70 and wear, can be adjusted by an appropriate button 62 of the support bar 600 is compensated for length adjustment. The above description is intended to be a preferred embodiment of the present invention, and the simple equivalent changes made to the above embodiments are still within the scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing the structure of a conventional continuous stepless speed change mechanism. FIG. 2 is a schematic view showing the structure of the present invention. FIG. 3 is a schematic view showing a part of the structure of the present invention. FIG. FIG. 5 is a schematic diagram showing the structure of the present invention. FIG. 6 is a schematic diagram showing the shifting action of the present embodiment. FIG. 8 is a schematic diagram showing the shifting action of the present embodiment. FIG. Schematic diagram of the operation of another embodiment of the connecting rod 19 M294598 [Description of main component symbols] Active disk set 1 0 Back disk 1 2 Active disk 1 4 Passive disk group 2 0 Compression spring 2 2 Drive belt 3 0 _ Drive shaft 4 1 One inner sliding sleeve 4 3 first movable plucking disc 4 4 connecting rod 4 41 back pressure plate 4 6 outer sliding sleeve 4 7 0 first coupling seat 4 7 2 • shaft sleeve 49 • driven shaft b 1 second positioning Plate 5 2 Second activity Ply plate 5 4 Passive push block 5 5 Second bearing 5 51 Clutch 5 6 Push pin 1 1 Drive shaft 1 3 Positioning plate 1 5 Actuating plate 2 1 Dot plate 2 3 Drive Ply Group 4 0 First Position Disk 4 2 Torque groove 4 3 0 Pulizhu 4 4 0 Qualification sleeve 4 5 Sliding seat 4 7 First bearing 4 71 Threading tip 4 8 Driven Puli disk set 50 Locking sleeve 510 Second inner sliding sleeve 5 3 Actuator 5 4 0 Pusher sleeve 5 5 0 Second joint 5 5 2 Link 6 0 20 M294598 Support rod 6 Ο 斜 Inclined hole 6 Ο 2 Adjuster 6 2 Set of rods 8 Ο Guide groove 8 2 Box 6 Ο 1 Side pusher 6 1 Belt 7 0 Compression spring 81 Cable 8 3
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