M376790 五、新型說明: 【新型所屬之技術領域】 本創作為-種鏡頭致動裝置,尤指一種可應用 像模組鏡歡驅動,並餅低赌_之鏡概罟4取 【先前技術】 、 光學自紐焦魏__理是健標嶋 近距離,以適當地移動取像模組中的鏡頭,進而 = 物之光學影像得以準確地聚焦在影像感測器上,以產生 目前一般,見到在取像模组中帶動鏡頭移動的鏡二 裝置’其麵包括有錢騎、_騎以及 vM376790 V. New description: [New technical field] This creation is a kind of lens actuating device, especially one that can be applied like a module mirror drive, and the cake is low gambling _ mirror 罟 4 [previous technology] Optical self-focusing is a close-up of the health standard to properly move the lens in the image capturing module, and then the optical image of the object is accurately focused on the image sensor to produce the current general. See the mirror 2 device that drives the lens movement in the image capture module. 'The surface includes the money ride, _ ride and v
Coil Motor,VCM)等。 *’、、達(oice -般來說’音圈馬_機構主要是將 ^鐵之磁路内所構成,從而根據弗來明左手定則,導 2知就會與水久磁鐵產生交互制之軸力,以移動 綱蝴財的鏡頭組 =且,,、工由勝㈣線圈之電流大小,達到光學變焦、對焦 然而 星的倾魏速度相胁其它之致動方式 ^圈馬達的機射皆會加入至少一彈片來加速復位的變化 山°月參閱第一圖所示,如日本特開第2006-201525妒即揭t 出-種音圈馬達(未標示)^^即: 圓周11a、三個自外_田。 W la其具有一外% 外環圓周11a力H 8周延伸的魏支臂12a及一設於 " 魏料臂12 a末端連接的内環圓周13 3 鏡頭承:::去彈片la之内環圓周13a固定於音圈馬達之- 座(未枳票示)」外環圓周11 a固定於音隨之-基 在产頭:彳此’错由婉挺支臂12a與内環圓周叫施加 在鏡頭承载座之彈性回復力,達成音圈馬達復位的目的。 日本_ 2_5_也揭露另 孤形彈臂n b及-環;t=2bb其麵有兩對稱類呈c型的 定位端部出_==^彈臂Ilb各於一第一 ηοκ 甲设再反折穹曲延伸形成有一彈性臂 座(未:Λ位端部111 b定位於音圈馬達之-基 承載座二;一2端部113b定位於音圈馬達之一鏡頭 戟座不)。如此,藉由彈性臂ii2b 施加在鏡頭承載座之彈性回復力,達成音圈馬達二 變,由利的可撓性形 k 乂使鏡頭承載座(移動件)與基座( 定位的_性。但是,前_ = ==::rk生:間過長的不二= 有里魏、魏(traekmgAF)的鏡縣置 態影像的應用需求曰增,如何達: :=在定位時的震麟間,提升響應穩定之迷度= 為了使貴審查委員能更進一步瞭 内容,請參閱以下有關本創作之詳細說明與附=徵及技術 式僅提供參考與說明用,並非用來對本創作加以限制而所附圖 【新型内容】 本創作提供一種鏡頭致動裝置與吸 致動裴置利用内部所設置的一吸震 /、’,兄頭 位時的驗時間,提升響應穩定:達到降低鏡頭在定 巧作第—實施例之吸震彈片包括—支撐件、 及一吸震件,其中,變形件連接於 、, 夕 :件之間存在至少—賺。吸震件設置在至少 連接於支撐件與變形件。 /、中並且 及-實施例之吸震則包括—支撐件、一變形件 .ti、 中,變形件連接於續件,虹,變形件存在 至夕間隙。吸震件設置在至少一間隙中。 ,創作第—實施例之鏡頭致動裝置包括—吸震彈片、一 彈,,-f動件’其中’吸震彈片為前述第—實施例之吸震 彈片。iU件連接吸震彈片之支撐件。 ,形件,其中’吸震彈片之變形件可撓性變形接以 性回復力於活動件上。 坪 本創作第二實施例之鏡頭致動裝置包括—吸震彈片、一 =件及-活麟,其巾,吸震則騎述第二#施例之吸震 1。固定件連接吸震彈片之支料。活動件連接於吸震彈片 ,义树’其中’吸震彈片之變形件可撓性變形,以施加一彈 性回彳是力於活動件上。 综上所述,本創作係在彈片之支撐件與變形件間存在的 間隙中設置吸震件或在變形件存麵_巾設置吸震件,以使 彈片之張開速度減緩,並錢收彈片之晃動,有效產生阻尼缓 衝效果,達到降低震盪 .【實施方式】 s、&升響應穩定速度之功效。 請參閱第三圖。第=罔4丄 俯視圖。在本第—實施為本^作第—實施例之吸震彈片 例,且在本第—實施例中 辰彈片6以設為—片為實施 所製成之構件。如第三圖所為一沖壓、_或鑄模 ⑹、-變形㈣及it6吸^彈片6包括有一支料 撐件60,愈,變特=6±4 ’射’變形件62連接於支 66。吸雳株μ ^ 與支揮件6〇之間存在至少一間隙 的吸辰件64設置在至少—n 6〇與變形侔π。邮、+、"間隙66中,並且連接於支撐件 環封門社番、,处吸展彈片6形成一雙環封閉結構或-單 =閉、纟.亚且吸_ 6之支撐件⑹與變形㈣為一體 如第三圖所示,吸震彈片6之支標件60包括了-外架片 繼、外架片601上形成的第一定位部6〇2及二個連接臂6的。 ,震彈片6之變形件62包括了一内架片621與内架片62ι形 成的第二定㈣622。其中,該二個連射_用作外架片6〇1 與内架片621之間的連結,以使内架片⑵設於外架片6〇ι内 圈’以及使内架片621與外架片謝之間形成至少一間隙%。 同時,吸震件64設置在至少一間隙66中,並且連接於外架片 與内架片621。所述之吸震件64為一矽膠凝體(silicagd> 復參考第三圖。吸震彈片6之外架片601與内架片621 係為一圓環形狀之框片設計,在此係形成雙環封閉結構。所述 之第一定位部602自外架片601的外壁面延伸而成,第二定位 部622則是自内架片621的内壁面延伸而成。前述内架片621 之第二定位部622相對於外架片601之第一定位部6〇2,並且, 兩第-定位部602與兩第二定位部622位於同一線性方向上, 同時’所述二個連接臂603相對配置,以與第一定位部6 交錯等距配置。 復麥考第二11。接下來說明本第—實施例之吸震彈片6 的製造方法,其製造方法主要包括:首先,備置 標示)。然後,將彈性基片成型出第一實施例之吸震彈片 外型’例如’雙環封閉結構,其外型主要包含一支撐件齡 -變形件62。其中,變形件62連接於支撐件6〇,且變形件 62與支標件60之間存在至少一間隙66。最後,再將吸震件 64设置在至少-間隙%中,並且連接於支撐件6〇與變形件 62之間。所述之吸震件64可以是石夕膠凝體(础以糾。 另外,將吸震件64設置在至少一間隙66之後,更可以 利用紫外光照射吸震件64,以加速吸震件Μ固化在至少 隙66中,並連接於支撐件6〇與變形件62之間。 曰 置立帛四®縣創料—實酬讀頭致練 置2^ _例之吸震刹6可以被裝設在—鏡賴動裝 外貝致動裝置2除了本第一實施例之吸震彈片6之 载座料3與―_4。活動件3包括-鏡頭承 承載二二磁性70件(未標示),射,鏡頭承載座用來 ,_取像之用°啊,磁性元件 示)與-tut Λ另外’固定件4包括一固定座(未標 t前絲夺私軚不),其中’線圈組件係裝置配在固定座 在此不ΐ贅述。件3與固定件4為一般習知技術,相關的結構 定件2騎示’_致動裝置2尹的活動㈣可相獅 動的設置_定件4内。當線圈組 磁性元件之磁力線相互作用,進而產生-』 3 ^ 4 - 另卜上4裝配方式係可作不同之變化,0Γ脾 固定座進而構成固定件4,並將線圈組: 3' _可_地同的目的 (此貫施例未繪示出圖式)。 復參考第四圖。在鏡頭致練置2中,吸 與第-定位部602定位設置於固定件4上。同時,吸 =彈=之^架片621與第二定位部622則與活動件3緊貼連 "中’备活動件3移動時,即可帶動内架 HI2鞠,此時,咖 3移=與植而撓性變形,並經由第二定位部奶 回復力予活動件3。 ,合第四圖,參閱第五圖。第五圖為本創作第一實施例 ,讀片撓性變形的示意圖。吸震彈片6之内架片621 条片6〇1具有可撓的彈性力’其係在活動件3移動盘定位時隨 使_ 621與外架片_之間的間⑽得以呈現 62Ϊ 開狀恶。此時,設置在間隙的中,並連接於内架片 Z的吸震件64,會軸件3赵適當的緩衝 讓、:1彼V活動件3在移動與定位時的震盈時間,進而 讓活動件3能夠快速的進入穩定狀態。 吸震彈I 6上的吸震件64可叹—種可雛的軟 質,例如,梦膠凝體㈤cagd),當活動们移動時.,:此種軟 M376790 性材質會減緩吸震彈片6之内架片621與外架片6〇1間之間 66的3D立體張開速度,並可吸收内架片621與外架片^ 形時之晃動’進而產生適當的緩衝阻尼效果。本第—實扩隻 中,吸震件64可以被設置在内架片⑵與外架片6〇ι二= 某一點間隙66中,此點間隙66係為吸震彈片6中可持:: 區段之最大張開間隙。 疋交形 如此’利用吸震彈片6之-端固定連接在鏡顧 之固定件4上,以及另一端緊貼連接於固定件4内的_ 的裝配設置’使得鏡職練置2在活動件3移動與定位日士 不會受到彈片晃動的影響,同時,可以大大降低振盪广並 且快速達到穩定狀態。 亚 、請參閱第六圖。第六圖為本解第二實施例之 俯視圖。在本第二實關中,吸震利7以設為— 例i且在本第二實施例中,吸震彈片7為—賴、勤j或 所W成之構件。如第六圖所示,吸震彈片7包括有—支^ 二-變形件72及_吸震件74,其中,變形件 二 致動部⑵與一婉蜒部722。致動部721、經由婉^^ 於支擇件70,同時,婉蜓部722存在有至少_間隙% 吸震件74係設置在至少―門階 亚且, 雔環封〜隙中权震彈片7形成一 又衣封閉結構或-早%封閉結構,並且’ 7〇與變形件72為-體成型。 鱗片7之支按件 件7〇tt:=:片ΐ本第二實施例中’吸震彈片7的支撐 包含二個第 每-蜿蜒體分職接麵 體’其中’ 巧如一、母弟二片體之間,以 9 使得所上述的吸震彈片7_成—單環封閉結構㈣π: 隻> 考苐/、圖。接下來說明本第二實施例之吸震 ^造方法’其製造方法主要包括··首先,備置—彈性基片(未 =不)。然後’將彈性基片成型出第二實施例之吸震彈片7的 51例如’單環封閉結構,其外型主要包含一支撐件盘 一變形件72。其中’變形件72連接於描件7G,且變料 72的婉蜒部722存在至少一間隙%。最後,再將吸震件%設 置在至少-_76中。所述之吸震件74可以是⑪膠凝 gel)。 另外,將吸震件74設置在至少一間隙76之後,更可以 利用I外光關吸震件74,以加輕震件74 隙76中。 间 參考第七圖。第七圖為本創作第二實施例之鏡頭致動 置立體圖。本實施例线震料7可以齡設在— ' 置2’中’鏡頭致動裝置2’除了本第二實施例之吸震彈^ 之和還包括-活動件3’與一固定件4,。活動件3,包括 鏡頭承載座(未標示;)與一磁性元件(未標示〉,其中,鏡頭承 載座用來承載-鏡頭組件(未標示),以做為取像之用。同時, 磁性70件係裝配在綱承载座上。糾,固定件彳,包括一固 定座(未標示)與-線圈組件(未標示),其中,線亂组件係裝置 配在岐座巾。前述的活動件3,姻定件4,為—般習_ 術,相關的結構在此不在贅述。 如第七圖所示,鏡頭致動裝置2,中的活動件3,可相對 固定件‘4,1動的設置於固定件4,心組件通電後即 產生電磁場,電磁場與磁性元件之磁力線相互作甩,進而產生 10 :電磁推力,該電磁推力係可用以推動所述的活動件3,於固 =件4上進行軸向移動。另外,上述裝配方式係可作不同之 變化,可將磁性元件裝配於固定座進而構成固定件4,,並將 線圈組件褒配於鏡頭承載座進_成活動件3,,從而可達到 上述相同的目的(此實施例未繪示出圖式)。 復參考第七圖。在鏡頭致動裝置2,中,吸震彈片7之支 妾件70係疋位设置於固定件4,上。同時,吸震彈片7之變 形件72則與活動件y緊貼連接。其中,當活動件3,移動時, 2可,動變形件72變形移動,此時,變形件72之婉挺部瓜 曰/遗著活動件3,移動與定位而撓性變形,並經由制動部721 施加一彈性回復力予活動件3’ 。 之吸震?㉟茶㈣八_。第八目為摘作第二實施例 展㈣撓性X形的示意圖。吸震彈片7之變形部^具有 彈性力’其係在活鱗3,移定辦隨之變形,使 J W72之蜿蜒部722中的間隙⑹寻 態。此時,設置在間隙76中的吸震件74 $開= =緩r尼效果,以減少活,在移動二ΐ 時間,進而讓活動件3,能夠快速的進人穩定狀態。 所吸震彈片7上的吸震件%可以是一種可塑性的軟 貝,例如,矽膠凝體(silicagel),當活動件3,鉉細主 田,古動件3移動時,此種 卓人/·生材質會減緩婉蜓部722令的間隙76的 收蜿蜒部722變开J時夕圼I ]迷度亚了及 本第二實_ 產生齡魄触尼效果。 點“ 可以被設置在婉埏部722的某- 之最大張開間隙。 f'為婉蜒# 722忖撓性變形區段 MJ/t790 • , 2,之固定件用^展彈片7之一端固定連接在鏡頭致動裝髮 動株r ΛΛ 以及端緊貼連接糊定件4,内的活 動盘、本裝配設置,使得鏡頭致動裝置2,在活動件3,移 會受聰収_影#,啊,可以大大降低 振盧時間,並且快速達到穩定狀態。 大降低 請參考第九A圖與第九b圖。第九A网盔 :裝設吸震_定位響繼=圖為第鏡九= ===置/本第-實施之吸震彈“之= | 4认置林紅實施之贿則7之鏡頭致 速度可以有效地大幅降低震盈時間tl,並且提升響應穩仅 隙所述’本創作在利之切件與變形件間存在的間 片之在變形件存在的間隙中設置吸震件’以使彈 阻尸t ,並且可以吸收彈片之晃動,進而有效產生 達到降低震麟間、提升響應穩定速度之功 可以右W内心置有本創作的吸震彈片之鏡頭致_置,係 之速i 鏡頭在定辦麵間,轴提升響應穩定 作之聽本_最佳之具财_,惟本創 L可輕易思及之變化或料,时涵蓋在以下本案之專利Ϊ 【圖式簡單說明】 第一圖為習知鏡頭致動I置之彈>1的平 M376790 第=圖為習知另一鏡頭致動裝置之彈片的立體圖; 第二圖為本創作第一實施例之吸震彈片俯視圖; 第四圖為本創作第一實施例之鏡頭致辭'置立體圖; 第五圖為本創作第一實施例之吸震彈片撓性變形的示意 ,八圖為本創作第二實施例之吸震彈片俯視圖; ,七圖為本創作第二實施例之鏡頭致動裝置立體圖;Coil Motor, VCM), etc. *', 达(Oice - Generally speaking, the voice coil horse _ mechanism is mainly composed of the magnetic circuit of the iron, so according to Fleming's left-hand rule, the guide 2 will interact with the water-long magnet. Axial force, to move the target lens group = and,, work by win (four) coil current size, to achieve optical zoom, focus, but the star's tilting speed threats other actuation methods ^ ring motor's machine At least one shrapnel will be added to accelerate the change of the mountain. See the first figure, as shown in the first figure, such as the Japanese special opening 2006-201525, the tune-out voice coil motor (not labeled) ^^ ie: circumference 11a, three W la has an outer % outer ring circumference 11a force H 8 weeks extension of the Wei arm 12a and an inner ring circumference 13 3 connected at the end of the "Wei arm 12 a" lens:: : The inner ring circumference 13a of the elastic piece la is fixed to the voice coil motor - the seat (not shown). The outer ring circumference 11 a is fixed to the sound and then the base is in the head: ' this is wrong by the squat arm 12a The inner ring circumference is called the elastic restoring force applied to the lens carrier to achieve the purpose of resetting the voice coil motor. Japan _ 2_5_ also exposes another solitary arm nb - ring; t = 2bb has two symmetrical types of c-shaped positioning ends. _==^ The elastic arms Ilb are each placed on a first ηοκ A, and then reflexed and twisted to form a resilient arm seat (not: Λ The end portion 111b is positioned on the base bearing base 2 of the voice coil motor; the one end portion 113b is positioned at one of the lens mounts of the voice coil motor. Thus, the elastic return applied to the lens mount by the elastic arm ii2b Force, the second change of the voice coil motor, the flexible lens k 乂 makes the lens carrier (moving part) and the base (positioning _ sex. However, the former _ = ==::rk raw: too long No. = There is a growing demand for the application of the mirror image of the Weiwei and Wei (traekmgAF), how to reach: := In the case of the positioning of the Zhenlin, improve the stability of the response to the stability = in order to make your review committee more For further information, please refer to the following detailed description of the creation and the accompanying and technical descriptions for reference and explanation only, and not for limiting the creation. [New content] This creation provides a lens actuator And the suction actuating device uses the internal shock absorber, /, the test of the brother's head position In the meantime, the response is stabilized: the reduction of the lens is achieved. In the first embodiment, the shock absorbing elastic piece includes a support member and a shock absorbing member, wherein the deformation member is connected to, and at least: between the members, at least a profit is generated. The device is disposed at least connected to the support member and the deforming member. The shock absorption of the embodiment includes - the support member, a deforming member, the middle member, the deforming member is connected to the continuation member, and the rainbow and the deformed member are present in the gap. The shock absorbing member is disposed in at least one of the gaps. The lens actuating device of the first embodiment includes: a shock absorbing elastic piece, a spring, and a -f moving member, wherein the shock absorbing elastic piece is the shock absorbing elastic piece of the foregoing first embodiment. The iU member is connected to the support member of the shock absorbing elastic piece. a shaped member, wherein the deforming member of the shock absorbing elastic piece is flexibly deformed to restore the force to the movable member. The lens actuating device of the second embodiment of the present invention comprises: a shock absorbing elastic piece, a = piece and a living lining, and a towel thereof, and shock absorbing the shocking action of the second embodiment. The fixing member is connected to the material of the shock absorbing elastic piece. The movable member is connected to the shock absorbing elastic piece, and the deforming member of the yoke tree 'the shock absorbing elastic piece is flexibly deformed to apply a resilient return force to the movable member. In summary, the present invention is to provide a shock absorbing member in the gap existing between the supporting member and the deforming member of the elastic piece or to provide a shock absorbing member in the surface of the deforming member, so as to slow down the opening speed of the elastic piece, and to collect the elastic piece. Shaking, effectively generating a damping buffer effect, achieving a reduced oscillation. [Embodiment] The effect of s, & Please refer to the third picture. No. = 罔 4 丄 Top view. In the first embodiment, the shock absorbing elastic piece is exemplified, and in the first embodiment, the spring elastic piece 6 is made of a member made of a sheet. As shown in the third figure, a stamping, _ or mold (6), - deforming (four) and it6 absorbing elastic sheet 6 includes a material struts 60, and the more the squaring = 6 ± 4 ' ray 'deformation member 62 is connected to the branch 66. The sucker member 64 having at least one gap between the sucking strain μ ^ and the supporting member 6 is disposed at least -n 6 〇 and deformed 侔 π. In the post, +, " gap 66, and connected to the support member ring seal door, the suction elastic sheet 6 forms a double-ring closed structure or - single = closed, 纟. Ya and suction _ 6 support (6) and deformation (4) As one as shown in the third figure, the support member 60 of the shock absorbing elastic piece 6 includes the first positioning portion 6〇2 and the two connecting arms 6 formed on the outer frame piece and the outer frame piece 601. The deforming member 62 of the shock spring 6 includes a second fixed portion (four) 622 formed by the inner frame piece 621 and the inner frame piece 62ι. Wherein, the two consecutive shots are used as a connection between the outer frame piece 6〇1 and the inner frame piece 621, so that the inner frame piece (2) is disposed on the outer frame piece 6〇1 inner ring′′ and the inner frame piece 621 is externally At least one gap % is formed between the sheets. At the same time, the shock absorbing member 64 is disposed in at least one of the gaps 66 and is coupled to the outer frame piece and the inner frame piece 621. The shock absorbing member 64 is a 矽 gel (silicagd> refers to the third figure. The outer slab 601 and the inner frame 621 of the shock absorbing elastic piece 6 are designed as a circular ring shape, and the double ring is formed here. The first positioning portion 602 extends from the outer wall surface of the outer frame piece 601, and the second positioning portion 622 extends from the inner wall surface of the inner frame piece 621. The second positioning of the inner frame piece 621 The portion 622 is opposite to the first positioning portion 6〇2 of the outer frame piece 601, and the two first positioning portions 602 are located in the same linear direction as the two second positioning portions 622, and the two connecting arms 603 are oppositely disposed. It is arranged at an equidistant distance from the first positioning portion 6. The second method of the second embodiment of the present invention is as follows. Next, the manufacturing method of the shock absorbing elastic sheet 6 of the first embodiment will be described. The manufacturing method mainly includes: first, setting the indication). Then, the elastic substrate is molded into the shock absorbing elastic sheet of the first embodiment, e.g., a double-ring closed structure, the outer shape of which mainly includes a support member-deformation member 62. Wherein, the deforming member 62 is connected to the supporting member 6〇, and at least one gap 66 exists between the deforming member 62 and the supporting member 60. Finally, the shock absorbing member 64 is disposed in at least - the gap %, and is connected between the support member 6'' and the deforming member 62. The shock absorbing member 64 may be a stone etch gel. In addition, after the shock absorbing member 64 is disposed at least after the gap 66, the shock absorbing member 64 may be irradiated with ultraviolet light to accelerate the shock absorbing member to be cured at least. In the gap 66, and connected between the support member 6〇 and the deforming member 62. 曰 帛 帛 ® ® ® ® — — — — — — — — — 实 实 实 _ _ 吸 吸 吸 吸 吸 吸 吸 吸 吸 吸 吸 吸 吸 吸 吸 吸 吸 吸 吸The movable outer shell actuating device 2 is provided with the loading material 3 and the "_4" of the shock absorbing elastic piece 6 of the first embodiment. The movable member 3 includes - the lens bearing bearing two magnetic materials 70 (not labeled), shooting, lens bearing The seat is used for _ taking image ° ah, the magnetic component is shown) and -tut Λ the other 'fixing member 4 includes a fixed seat (not marked t before the silk is smuggled), where the 'coil component system is fixed The seat is not described here. The member 3 and the fixing member 4 are generally known in the art, and the related structure member 2 rides the '_actuating device 2 Yin's activity (4) in the lion setting_fixing member 4. When the magnetic lines of the magnetic components of the coil group interact, and then - 』 3 ^ 4 - the other 4 assembly methods can be changed differently, the 0 spleen holder and then the fixing member 4, and the coil group: 3' _ can _ the same purpose (this example does not show the schema). Refer to the fourth picture. In the lens manipulation device 2, the suction and the positioning portion 602 are positioned and disposed on the fixing member 4. At the same time, the suction frame 621 and the second positioning portion 622 are closely attached to the movable member 3, and when the movable member 3 is moved, the inner frame HI2 带 can be driven. = flexible deformation with the implant, and the restoring force is applied to the movable member 3 via the second positioning portion. , in conjunction with the fourth picture, see the fifth picture. The fifth figure is a schematic view of the first embodiment of the creation, the flexible deformation of the reading piece. The inner frame piece 621 of the shock absorbing elastic piece 6 has a flexible elastic force 'when the moving piece 3 is positioned, the space (10) between the _ 621 and the outer frame piece is rendered 62 Ϊ open . At this time, it is disposed in the gap, and is connected to the shock absorbing member 64 of the inner frame piece Z, and the shaft member 3 is appropriately buffered, and: 1 the vibration time of the movable member 3 during movement and positioning, thereby allowing The movable member 3 can quickly enter a steady state. The shock absorbing member 64 on the shock absorbing bomb I 6 can be sighed - a kind of soft softness, for example, dream gel (5) cagd), when the activities move, :: This soft M376790 material will slow the inner frame of the shock absorbing elastic piece 6 The 3D three-dimensional opening speed between the 621 and the outer frame piece 6〇1 can absorb the shaking of the inner frame piece 621 and the outer frame piece shape to generate an appropriate cushioning damping effect. In the first-expansion only, the shock absorbing member 64 can be disposed in the inner frame piece (2) and the outer frame piece 6 〇 ι== a certain point gap 66, and the gap 66 is the shock absorbing elastic piece 6 which can be held: The maximum opening gap. The cross-shaped shape is such that the end of the shock absorbing elastic piece 6 is fixedly attached to the fixing member 4 of the mirror, and the other end is closely attached to the assembly setting of the _ connected to the fixing member 4 The movement and positioning of the Japanese will not be affected by the shrapnel, and at the same time, the oscillation can be greatly reduced and the steady state can be quickly reached. Please refer to the sixth picture. Figure 6 is a plan view of the second embodiment of the present solution. In the second embodiment, the shock absorbing 7 is set to - in the example of the present embodiment, and in the second embodiment, the shock absorbing elastic piece 7 is a member which is a slap, a j, or a slab. As shown in the sixth figure, the shock absorbing elastic piece 7 includes a yoke-shaped deforming member 72 and a absorbing member 74, wherein the deforming member has an actuating portion (2) and a dam portion 722. The actuating portion 721 is connected to the supporting member 70, and at the same time, the crotch portion 722 has at least _ gap %. The shock absorbing member 74 is disposed at least at the door order, and the shackle seals the gap. A closed garment structure or an early % closed structure is formed, and the ' 7 turns and the deformed member 72 are formed into a body. The support of the scale 7 is as follows: 7〇tt:=: 片ΐ In the second embodiment, the support of the shock absorbing elastic piece 7 includes two first-carcass sub-joint joints, wherein 'they are as good as one, the second brother Between the sheets, the above-mentioned shock absorbing elastic piece 7_ is formed into a single ring closed structure (four) π: only > Next, the shock absorbing method of the second embodiment will be described. The manufacturing method mainly includes the following: First, an elastic substrate (not = no) is prepared. Then, the elastic substrate is molded into a 51-e. single-ring closed structure of the shock absorbing elastic sheet 7 of the second embodiment, and its outer shape mainly includes a support member disk-deformation member 72. Wherein the deforming member 72 is coupled to the drawing member 7G, and the crotch portion 722 of the variable material 72 has at least one gap %. Finally, set the shock absorber % to at least -76. The shock absorbing member 74 can be 11 gelled gel). In addition, after the shock absorbing member 74 is disposed at least after the gap 76, the outer shock absorbing member 74 can be further used to add the light shock member 74 to the gap 76. Refer to the seventh picture. The seventh figure is a perspective view of the lens actuation of the second embodiment of the present invention. The line shock material 7 of the present embodiment can be set in the '2' lens actuating device 2'. The sum of the shock absorbing members 2 of the second embodiment further includes a movable member 3' and a fixing member 4. The movable member 3 includes a lens holder (not labeled;) and a magnetic member (not labeled), wherein the lens holder is used to carry a lens assembly (not shown) for image capturing. Meanwhile, the magnetic 70 The assembly is assembled on the support base. The correction and fixing member includes a fixing base (not labeled) and a coil assembly (not shown), wherein the wire assembly device is disposed on the seat cover. The aforementioned movable member 3 , the binding member 4, for the general learning, the relevant structure is not described here. As shown in the seventh figure, the movable member 3 in the lens actuating device 2, can be moved relative to the fixed member '4, 1 The electromagnetic component is generated after the core component is energized, and the electromagnetic field interacts with the magnetic lines of the magnetic component to generate 10: electromagnetic thrust, which can be used to push the movable member 3, and the solid member 4 The axial movement is performed on the upper part. In addition, the assembly method can be changed differently, and the magnetic component can be assembled to the fixing base to form the fixing component 4, and the coil component can be matched to the lens carrier into the movable component 3, So that the same purpose as above can be achieved (this The embodiment is not shown in the figure.) Referring to the seventh figure, in the lens actuating device 2, the supporting member 70 of the shock absorbing elastic piece 7 is clamped and disposed on the fixing member 4. At the same time, the shock absorbing elastic piece 7 is The deforming member 72 is in close contact with the movable member y. wherein, when the movable member 3 moves, the movable deforming member 72 is deformed and moved. At this time, the deforming member 72 is licked and left behind. The movement and positioning are flexibly deformed, and an elastic restoring force is applied to the movable member 3' via the braking portion 721. The shock absorption is 35 tea (four) eight _. The eighth item is extracted as the second embodiment (four) flexible X shape The deformation portion of the shock absorbing elastic piece 7 has an elastic force 'which is attached to the living scale 3, and the displacement is deformed accordingly, so that the gap (6) in the crotch portion 722 of the J W72 is found. At this time, the gap 76 is set. The shock absorbing member 74 is open = = slowing the effect of r, to reduce the life, and to move the second time, so that the movable member 3 can quickly enter the steady state. The shock absorbing member on the shock absorbing elastic piece 7 can be a kind a plastic soft shell, for example, a silica gel, when the movable member 3, the fine main field, and the ancient moving member 3 move, This kind of excellent material will slow down the 722 part of the gap 76 of the shackle 722 to open the J 圼 圼 I ] 迷 亚 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本"The maximum opening gap of a certain one of the jaws 722 can be set. f' is 婉蜒# 722忖Flexible deformation section MJ/t790 • , 2, the fixing piece is fixedly connected by one end of the elastic piece 7 In the lens actuating device r ΛΛ and the end of the connecting paste 4, the movable disk, the assembly arrangement, so that the lens actuating device 2, in the movable member 3, will be affected by the confession _ shadow #, ah , can greatly reduce the vibration time, and quickly reach a steady state. Large reduction please refer to the ninth A and ninth b. Ninth A mesh helmet: install shock absorber _ positioning ring = map is the first mirror = === set / this first - the implementation of the shock bomb "== 4 recognition Lin Hong implementation of the brigade 7 lens speed The shock time tl can be effectively reduced substantially, and the response is stable. The gap between the cut piece and the deformed piece is set in the gap between the deformed piece to provide the shock absorbing piece. t, and can absorb the shaking of the shrapnel, and thus effectively achieve the work of reducing the shock between the Zhenlin and improving the stability of the response. The lens of the shock-absorbing shrapnel with the creation of the right W can be placed in the right center, and the speed i lens is fixed in the fixed surface. In the meantime, the shaft lift response is stable and the answer is _ the best of the money _, but this innovation L can easily think about the changes or materials, including the following patents in this case Ϊ [Simple diagram of the diagram] The first picture is Xi Fig. 3 is a perspective view of a shrapnel of another lens actuating device; the second figure is a top view of the shock absorbing elastic piece of the first embodiment of the present invention; The lens of the first embodiment of the present invention gives a stereoscopic view; the fifth figure is Flexural deformation of a schematic embodiment of the shock absorber as a first embodiment shrapnel, eight picture shows the present embodiment creation of a second embodiment of the shock absorbing elastic piece plan view; seven picture shows the lens according to the present embodiment creation of a second actuating means perspective view;
第ς圖為本創作第二實施例之吸震彈片撓性變形的示意 響應振 應振攝_ 第九Α圖為鏡頭致動裝置未裝設吸震彈片的定位 盪波形示意圖;及 第九B圖為鏡頭致動裝置裝設吸震彈片的定位塑 波形示意圖。 曰 【主要元件符號說明】 習知:The first diagram is a schematic response of the shock absorbing elastic deformation of the second embodiment of the present invention. The ninth diagram is a schematic diagram of the positioning waveform of the lens actuating device without the shock absorbing elastic piece; and the ninth B is The lens actuating device is provided with a schematic waveform diagram of the shock absorbing elastic piece.曰 [Main component symbol description] Convention:
彈片la 外環圓周11 a 支臂12a 内環圓周13a 彈片lb 弧形彈臂11b 苐一定位端部b 彈性臂U2b 第二定位端部 環連接件12 b 13 M376790 本創作: 鏡頭致動裝置2、2’ 活動件3、3’ 固定件4、4’ 吸震彈片6、7 支撐件60、70 變形件62、72 吸震件64、74 間隙66、76 外架片601 第一定位部602 内架片621 第二定位部622 連接臂603 致動部721 蜿蜒部722Shrapnel la Outer ring circumference 11 a Arm 12a Inner ring circumference 13a Shrapnel lb Curved arm 11b One positioning end b Elastic arm U2b Second positioning end ring connecting piece 12 b 13 M376790 This creation: Lens actuating device 2 2' movable member 3, 3' fixing member 4, 4' shock absorbing elastic piece 6, 7 support member 60, 70 deformation member 62, 72 shock absorbing member 64, 74 gap 66, 76 outer frame piece 601 first positioning portion 602 inner frame Sheet 621 second positioning portion 622 connecting arm 603 actuation portion 721 jaw portion 722