1308968 九、發明說明: 【發明所屬之技術領域】 t本發明係有關一種相機伸縮鏡頭驅動源裝置,特別是 指—種内置式多重驅動源裝置,其具有各自獨立之驅動源 ”鏡頭、、:a之多片透鏡(群)整合之創新組配型態設計者 【先前技術】 按,傳統相機伸縮鏡頭組之結構係直接將驅動馬達定 位於鏡頭座外部’復藉由傳動組件之連結加以驅動,由於 1區動源係為單側向配置’致使該伸縮鏡頭需配合另外的連 動组件設組於鏡頭座内部來輔助㈣;此種習知結構於實 際使用經驗巾發現转在下述之問H 、 1.由於該驅動馬達須組裝於鏡頭座外部,使得相機鏡頭植 之結構配置難以對稱,進而影響鏡頭組裝於相機上之空 間配置。 2 ·由於該驅動馬遠相别_ Ajr. /勹運相對於鏡頭座而言係單側向配置,故其 伸縮鏡頭受驅動而伸縮作動時,偏擺不順的現象已無^ 為現今數位科技市場接受。 3.該驅動馬達得配合另外組設的連動組件來達成作動,勢 必w成令組件以及組立成本的增長而不符合較佳產業經 伸縮鏡頭組内部多片透鏡( 件預先設定相對移動關係達 群)之移動’已藉由傳動組 到自動對焦功能,但對於多 5 4. 1308968 段對焦、柔焦、或模糊效果 ^ ^ w双果荨,則無法提供鏡頭組内特 疋獨立控制作動各透鏡(群)。 疋w #對上述傳統相冑伸縮鏡頭組所存在之問題點 何研發出具對稱性、突件爭薛儿 苓件更簡化、獨立控制作動各透 鏡(群)、組立更知古麻古 更有效率之新穎結構型態,實有待 相關業界再加以開發突破者。 :釔於此’發明人本於多年從事相關產品之製造開發 2計經驗,針對上述之目#,詳加設計與審慎評估後, 終仔一確具實用性之本發明。 【發明内容】 欲解決之技術問題點:主要係針對傳統相機伸縮鏡頭 存在、σ構配置難以對稱、作動易偏擺不順以及零組件、 組立成本增長、需可獨立控制作動各透鏡(群)之問題點 加以改良突破者。 、 &月之主要目的,係在提供一種相機伸縮鏡頭内置 式多重驅動源裝置,其係將可變焦距鏡頭組之多片透鏡或 夕、’且透鏡群’相對設置各自獨立之驅動源,並將各驅動源 >、鏡頭組正σ,由一殼體供各自獨立之驅動源依序固纟且定 位:使其構成内置式多重驅動源裝置,藉此内置式多重驅 動源裝置,俾可達到模組化組裝、各透鏡(群)獨立控制 作動、數位化操控調節、及擴大適用各式可變焦距鏡頭組 與相谷性之實用功效及用途。 解決問題之技術特點:該内置式多重驅動源裝置之各 1308968 驅動源裝置,係、 、内螺管座、與 喊體内’磁鐵環 管螺合,且内螺 移作動’再於内 當磁鐵環轉子受 固定螺管相對於 向止旋’使内螺. 距鏡頭組之多片 驅動源,並將各 立之驅動源依序 置’進而帶動内 縮狀態。 子、固定螺管 圈定子固级於 管座與固定螺 呈被動軸向滑 鏡群;藉此, 迴轉運動時, 受止旋組件定 配合將可變焦 置各自獨立之 殼體供各自獨 多重驅動源裝 控制其移動伸 由環形線圈定子、磁鐵環轉 止旋組件組成,使其環形線 轉子與固定螺管固結,内螺 管座受止旋組件定向止旋可 螺管座内嵌組各透鏡或各透 裱形線圈定子之磁激感應而 内螺管座迴動,而内螺管座 管座呈被動軸向滑移作動, 透鏡或多組透鏡群,相對設 驅動源與鏡頭組整合,由一 固組定位,使其構成内置式 鼓組之各透鏡(·群)獨立 【實施方式】 請參閱第1 、2、3、4、5圖所示,係本發明相機 籲伸縮鏡頭内置式多重驅動源裝置之較佳實施例,惟此等實 施例僅供說明之用,在專利申請上並不受此結構之限制; 本實施例之相機伸縮鏡頭内置式多重驅動源裝置,其 係配合可變焦距鏡頭組(1〇)之各透鏡(1002)(13)(^), 相對設置各自獨立之驅動源(3〇)(4〇),並將各驅動源(3〇) (40)整合入鏡頭組(10)内,使其構成内置式多重驅動源裝 置,其係包含: 一殼體(2〇),可供各自獨立之驅動源(3〇)(4C))依序固 13〇8968 &定位; 弟一驅動源梦罢μ n、 鐵 、置()’係由環形線圈定子(31)、磁 鐵%轉子(35)、固定嫂其〇c、 蚀,A、 疋螺s (36)、内螺管座(37)、與止旋組 1千(A)組成,侦Α @ a ^ , ”衣形線圈定子(31)固組於殼體(20)之外 而向之前段,磁鐵環 乾— 衣轉子(31)與固定螺管(36)固結,内螺 s座(37)與固定螺技广 伴。、 ’、s (36)螺合,且内螺管座(37)受止旋組 (A)定向止旋可呈姑私击丄&、 7x 被動軸向滑移作動,而於内螺管座(3 7)内可嵌組一第—透鏡(11); 鐵第—動源裝置(4G),係由環形線圈定子U1)、磁 ’載%轉子(45)、固定蟫瞢 、U疋螺“46)、内螺管座(47)、與止旋組 、且成使其%形線圈定子(41)固組於殼體(2〇)之中 :’:鐵環轉子(45)與固定螺管⑽固結,内螺管座(47) '、固足螺官(46)螺合,且内螺管座(47)受止旋組件⑻ 向止釭可壬被動軸向滑移作動,而於内螺管座(Ο)内可 組—第二透鏡(12); 、 一基座環(50),係固組於殼體(2〇)之内端,其内、外 端面上可嵌組一保護鏡(15)與一第三透鏡(13);'、 *由上述構件組成之内£式多㈣動源裝^,使相 變焦距鏡頭組(10)之各透鏡(n)(12)(13),係由内置之 組獨立驅動源裝置(30)(40)構成一多各 能去, 衩制伸縮型 恶者。(如第6 、7圖所示) 土 4.圖所示 該内置式多重驅動源裝置中,請參閱第1308968 IX. Description of the Invention: [Technical Field] The present invention relates to a camera telescopic lens driving source device, and more particularly to a built-in multiple driving source device having independent driving sources "lenses,": A multi-lens (group) integrated innovative assembly type designer [prior art] Press, the structure of the conventional camera telescopic lens set directly locates the drive motor outside the lens mount' Since the 1-zone dynamic source system is in a single lateral configuration, the telescopic lens needs to be combined with another linkage component to be assembled inside the lens holder (4); this conventional structure is found in the actual use experience towel. 1. Since the drive motor must be assembled outside the lens mount, the structure of the camera lens implant is difficult to symmetry, which affects the spatial configuration of the lens assembly on the camera. 2 · Because the drive is far away from each other _ Ajr. / 勹 relative In the case of the lens mount, it is arranged in a single direction, so when the telescopic lens is driven and telescopically actuated, the phenomenon of yaw is not smooth. Accepted by the market. 3. The drive motor has to cooperate with another set of linkage components to achieve the action, which is bound to increase the cost of components and assembly costs, and does not conform to the better lens of the better industrial telescopic lens group. The relationship of the group's movement 'has been driven by the drive group to the auto focus function, but for multiple 5 4. 1308968 segment focus, soft focus, or blur effect ^ ^ w double fruit, it is impossible to provide special control within the lens group. Actuate each lens (group). 疋w ################################################################################################# Knowing the ancient structure and efficiency of the new structure, it is waiting for the relevant industry to develop breakthroughs. 钇 ' ' ' ' ' ' 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明 发明After the design and prudent evaluation, the invention is practical and practical. [Disclosed] The technical problem to be solved: mainly for the existence of a conventional camera telescopic lens The sigma configuration is difficult to symmetry, the operation is easy to yaw and the components, the cost of assembly increases, and the problem of each lens (group) needs to be independently controlled to improve the breakthrough. The main purpose of the month is to provide a camera. The telescopic lens has a built-in multiple driving source device, which is to set a plurality of lenses of the variable focal length lens group or a pair of illuminating lens groups, and to set respective driving sources, and to drive the driving sources > A housing is separately fixed and positioned by a separate driving source: it constitutes a built-in multiple driving source device, whereby the built-in multiple driving source device can achieve modular assembly and individual lens (group) independence. Control actuation, digital control adjustment, and expand the practical functions and uses of various types of variable focus lens sets and phase contrast. Technical features of the problem: 1308968 drive source devices of the built-in multiple drive source device, , the inner screw socket, and the magnet ring of the shouting body, and the inner screw moves, and then the inner magnet ring rotor is fixed by the fixed screw relative to the rotation Lo. Lens group from the sheet as much as a driving source, and each of the drive sources are sequentially placed upright 'so as to drive the retracted state. The stator and the fixed solenoid ring are fixed to the base of the tube and the fixed screw as a passive axial sliding mirror group; thereby, when the rotary motion is performed, the fixed rotation of the rotation assembly can zoom the respective independent housings for their respective multiple drives. The source assembly control is composed of a toroidal coil stator and a magnet ring rotation and rotation assembly, so that the annular wire rotor and the fixed screw are consolidated, and the inner screw base is locked by the rotation screw assembly and the screw socket can be embedded. The magnetic excitation of each lens or each of the through-coil stators is reversed, and the inner solenoid seat is reversed, and the inner spiral socket is passively axially slid, the lens or groups of lens groups are oppositely provided with the driving source and the lens. The group is integrated and positioned by a solid group to make each lens (·group) of the built-in drum set independent. [Embodiment] Please refer to Figures 1, 2, 3, 4, and 5 for the camera of the present invention. A preferred embodiment of the lens built-in multiple drive source device, but the embodiments are for illustrative purposes only, and are not limited by the structure in the patent application; the camera telescopic lens has a built-in multiple drive source device, It is equipped with a zoom lens Each lens (1002)(13)(^) of the head group (1〇) is provided with a separate driving source (3〇) (4〇), and each driving source (3〇) (40) is integrated into the lens. In the group (10), it constitutes a built-in multiple drive source device, which comprises: a casing (2〇) for each independent drive source (3〇) (4C) to be sequentially fixed 13〇8968 &;positioning; brother a driving source dream n n, iron, set () ' is composed of a toroidal coil stator (31), magnet % rotor (35), fixed 嫂 嫂 c, eclipse, A, 疋 screw s (36 ), the inner screw base (37), and the rotation group 1000 (A), the detective @ a ^ , the "cloth coil stator (31) is fixed outside the casing (20) and to the previous section, The magnet ring is dry—the rotor (31) and the fixing screw (36) are consolidated, and the inner screw s seat (37) is attached with the fixing screw. , ', s (36) screw, and the inner screw seat (37) The rotator group (A) can be arbitrarily shot and the 7x passive axial slip can be actuated, and the inner lens holder (37) can be embedded with a lenticular lens (11); The first-dynamic source device (4G) is composed of a toroidal coil stator U1), a magnetic 'loaded % rotor (45), and fixed瞢, U 疋 “ "46", inner solenoid seat (47), and the rotation stop group, and its %-shaped coil stator (41) is fixed in the housing (2 〇): ': iron ring rotor (45) Consolidation with the fixing screw (10), the inner screw base (47) ', the solid screw base (46) screwed, and the inner screw base (47) is blocked by the rotation screw assembly (8) Actuating to the slip, and being grouped in the inner screw socket (the second lens (12); a susceptor ring (50), being fastened to the inner end of the casing (2〇), A protective mirror (15) and a third lens (13) may be embedded on the outer end surface; ', * a multi-type (four) moving source assembly composed of the above components, so that the phase zoom lens group (10) Each of the lenses (n) (12) and (13) is composed of a plurality of built-in independent drive source devices (30) (40) to form a multi-energy device. (As shown in Figures 6 and 7) Earth 4. The figure shows the built-in multiple drive source device.
S 1308968 C 31) ( 41),係由 環形片(33)(43) 復於導磁環形片 線圈定子(31)(4 周面呈多極對充 (35) (45)受環形 。另各驅動源裝 止旋與軸向導引 之止旋部(38)與 (48)與導引柱(4 導引柱(4 9)則直 ,各驅動源裝置(30)(40)之環形線圈定子 成對内環具彎折引磁極爪(32)(42)之導磁 ,呈相對應配置由塑性材料固設成—體, (33)(43)間繞設線圈(34) (44)構組成環形 1),而環形線圈定子(31) (41)内係可搭配 磁之磁鐵環轉子(35) (45),使磁鐵環轉子 線圈定子(31)(41)之磁激感應而迴轉運動 置(30)(40)對内螺管座(37)(47)提供定向 /月移之止旋組件(A) (B),可由相對配置 導引槽(39)組成’或由相對配置之止旋孔 9)組成,而提供相對定位之導引槽(39)與 接或間接固組於殼體(20)上。 又請參閱第8圖所示,配合可變焦距鏡頭組(1〇)具第 :透鏡(14),内置式多重驅動源裝置可加設一第三驅動源 裝置(60),其仍由環形線圈定子(61)、磁鐵環轉子(65)、 固定螺管(66)、内虫累管座(67)、與止旋組件(c)组成,使 •其環形線圈定子⑽固組於殼體(20)加伸之前段,磁鐵環 轉子(65)與固定螺管(66)固結,内螺管座(67)與固定螺管 (66)螺合,且内螺管座(67)受止旋組件(c)定向止旋可呈 被動軸向滑移作動,而於内螺管座(67)内可嵌組該可變焦 距鏡頭組(10)相對排序之第一透鏡(11),而第二、三、四 透鏡(12)(13)(14)則依序配置於第一驅動源裝置(3〇)、第 二驅動源裝置(60)、及基座環(50)。其中第三驅動源裝置 (60)對内螺管座(67)提供定向止旋與軸向導引滑移之止旋 組件(c),可由相對配置之止旋部(68)與導引槽(69)組成 1308968 ’而提供相對定位之導引槽(6 9)可與第一驅動源I置(3 〇) 之導引槽(39)共用。 再者本發明内置式多重驅動源裝置’其中各驅動源裝 置(30)(40)(60)之内螺管座(37)(47)(67)内,及基座環(5 〇)内可嵌組之各透鏡(11)(12)(13)(14)(15),亦可由各透鏡 群取代C圖未示),即内置式多重驅動源裝置内之可變焦 距鏡頭組(10),可由各透鏡群所組成。 • 和由上述之結構組成设计’兹就本發明之使用狀雜今兒 明如下: 首先如第3、4、5、8圖所示,由於將可變焦距鏡 頭組(10)之多片透鏡(11)(12)(13)(14)(15)或多組透鏡群( 圖未不)’相對設置各自獨立之驅動源(3〇)(4〇)(6〇),並 將各驅動源(30)(40)(60)與鏡頭組(10)整合,由一殼體(2 〇)供各自獨立之驅動源(30)(40)(60)依序固組定位,使其 構成内置式多重驅動源裝置’當磁鐵環轉子(35)(45)(65) • 受環形線圈定子(31)(41)(61)之磁激感應而迴轉運動時, 固疋螺管(36)(46)(66)相對於内螺管座(37)(4了)(6乃迴動 ,而内螺官座(37)(47)(67)受止旋組件(A)(B)(C)定向止旋 ,使内螺管座(37)(47)(67)呈被動軸向滑移作動,如第6 、7圖所示,進而帶動内部可變焦距鏡頭組(1〇)之多片透 鏡(11)(12)(13)(14)(15)或多組透鏡群’控制其移動伸縮狀 態,亦由於忒體(20)内係各自獨立之驅動源(3〇) (4〇) (6〇) ,使其構成獨立多節式、各節段獨立控制伸縮型態之内置 式多重驅動源裝置者。 10 1308968 【本發明之優點】 本發明對照習知之功效增進事實分析如下· 1·各驅動源裝置⑽⑽⑽與鏡頭組(1〇)整合,由—殼 體(2〇)供各自獨立之驅動源(30)(4〇)(6〇)依序固組定: 於内部’呈内置式且為環形對稱空間型態,更能提昇鏡 頭組配於相機之靈活性,並達到模組化組裝之實用功效 〇 2. 各驅動源裝置⑽⑽⑽驅動時,該磁鐵環轉子⑽ ⑽⑽與環形線圈^子(31)(41)(61)係、為環狀全向性 之相對應關係,可獲得極佳之作動平穩性者。 3. 藉由環形線圈定子(31)、磁鐵環轉子⑽、固定螺管 ⑽、内螺管座⑽、與止旋組件⑷组成驅動源裝置 ⑽’無須再組裝另外的傳動構件,且整體皆為環形構 件之相互組套或螺人,偟·^、去 飞螺σ俾可達到簡化零組件、組立更加 方便有效率之實用進步性者。 本創作可產生之新功效如下: 1_其各.驅動源裝置(30)⑽⑽)係採用各自獨立植接型態 L與鏡頭組⑽整合於_殼體⑵)内,^接呈獨立多 2、各節段獨立控制伸縮型態之内置式多重驅動源裝 置者,错以因應多段對焦、柔焦、或模糊效果等之變焦 倍率需求,即提彳i£镑5音έθ「彳ηh Η、鏡頭組(10)内特定獨立控制作動各透 鏡(群)伸縮移動。 '又由於提供鏡頭組⑽内特定獨立控制作動各透鏡(群 編多動,及各驅動源裝置(30)⑽⑽可數位化操 1308968 控調節,俾擴大適用各式可變焦距鏡頭組與相容性之實 用功效及用途。 -上述實施例所揭示者係藉以具體說明本發明,且文中 雖透過特定的術語進行說明,當不能以此限定本發明之專 利範圍;熟悉此項技術領域之人士當可在瞭解本發明之精 神與原則後對其進行變更與修改而達到等效之目的,而此 等變更與修改,皆應涵蓋於如后所述之申請專利範圍所界 定範®壽中。S 1308968 C 31) ( 41), consisting of a ring piece (33) (43) over the magnetically permeable ring piece coil stator (31) (four-sided surface is multi-pole to charge (35) (45) to receive a ring. Each of the drive source rotation and axial guide rotation portions (38) and (48) and the guide column (4 guide column (49) are straight, and each drive source device (30) (40) is ring-shaped The pair of inner coils of the coil stator are guided by the magnetic poles of the magnetic poles (32) (42), and the corresponding arrangement is fixed by a plastic material, and the coils (34) are wound between (33) and (43) ( 44) The ring 1) is formed, and the toroidal coil stator (31) (41) can be matched with the magnetic magnet ring rotor (35) (45) to make the magnet ring rotor coil stator (31) (41) magnetic The oscillating motion (30) (40) provides a directional/monthly rotation of the inner screw base (37) (47) (A) (B), which can be composed of oppositely arranged guide grooves (39). Or consisting of oppositely arranged rotation holes 9), and the oppositely positioned guiding grooves (39) are connected or indirectly fixed to the casing (20). Please also refer to FIG. 8 , in conjunction with the variable focal length lens unit (1 〇) with a: lens (14), the built-in multiple drive source device can be added with a third drive source device (60), which is still ring-shaped. The coil stator (61), the magnet ring rotor (65), the fixing screw (66), the inner insect tube seat (67), and the rotation preventing assembly (c) are configured to fix the toroidal coil stator (10) Before the casing (20) is extended, the magnet ring rotor (65) and the fixing screw (66) are consolidated, the inner screw base (67) and the fixing screw (66) are screwed, and the inner screw seat (67) The rotation of the rotation preventing component (c) can be passively axially slid, and the first lens (11) of the variable focal length lens group (10) can be embedded in the inner screw socket (67). The second, third, and fourth lenses (12), (13), and (14) are sequentially disposed on the first driving source device (3), the second driving source device (60), and the susceptor ring (50). The third driving source device (60) provides a rotation preventing assembly (c) for directional rotation and axial guiding slip to the inner screw base (67), and the opposite rotation portion (68) and the guiding groove can be arranged. (69) The guide groove (69) constituting 1308968' and providing relative positioning can be shared with the guide groove (39) of the first drive source I (3 〇). Furthermore, the built-in multiple drive source device of the present invention includes a screw socket (37) (47) (67) and a base ring (5 〇) in each of the drive source devices (30) (40) (60). Each of the lenses (11) (12) (13) (14) (15) that can be embedded may be replaced by a lens group (not shown in Figure C), that is, a variable focal length lens set in the built-in multiple drive source device (10) ), can be composed of individual lens groups. • and the design of the above-mentioned structure is described as follows: The use of the present invention is as follows: First, as shown in Figures 3, 4, 5, and 8, due to the multi-lens lens of the variable focal length lens group (10) (11) (12) (13) (14) (15) or multiple sets of lens groups (not shown) 'relatively set separate drive sources (3 〇) (4 〇) (6 〇), and drive each The source (30) (40) (60) is integrated with the lens group (10), and a housing (2 〇) is provided for independent positioning of the driving source (30) (40) (60) to form a group. Built-in multiple drive source device 'When the magnet ring rotor (35) (45) (65) • is rotated by the magnetic induction of the toroidal coil stator (31) (41) (61), the solid screw (36) ) (46) (66) relative to the inner socket (37) (4) (6 is reversing, while the inner snail (37) (47) (67) is subjected to the rotation assembly (A) (B) (C) Directional rotation to make the inner screw base (37) (47) (67) move in a passive axial direction, as shown in Figures 6 and 7, and then drive the internal variable focal length lens group (1〇) The multiple lenses (11) (12) (13) (14) (15) or groups of lens groups 'control their movement and expansion state, also because the body (20) is independent The drive source (3〇) (4〇) (6〇) makes it a built-in multi-drive source device with independent multi-section and independent control of each segment. 10 1308968 [Advantages of the invention] The present invention compares the conventional power enhancement fact analysis as follows: 1. Each driving source device (10) (10) (10) is integrated with the lens group (1〇), and the respective housings (30) (4〇) are provided by the housing (2〇) (6). 〇) In order to fix the set: It is built-in and has a circular symmetrical space type, which can improve the flexibility of the lens assembly to the camera and achieve the practical effect of modular assembly. 2. Each drive source device (10) (10) (10) When driving, the magnet ring rotor (10) (10) (10) and the toroidal coil (31) (41) (61) are in a ring-shaped omnidirectional relationship, and excellent motion stability can be obtained. The drive source device (10) is composed of a toroidal coil stator (31), a magnet ring rotor (10), a fixing screw (10), an inner screw base (10), and a rotation preventing assembly (4). It is not necessary to assemble another transmission member, and the whole is an annular member. Simplified components can be achieved by arranging each other or snails, 偟·^, and flying snails The establishment of a more convenient and efficient practical progress. The new effects of this creation can be as follows: 1_ each of the drive source devices (30) (10) (10)) are independent of the implant type L and the lens group (10) integrated in the _ shell In the body (2)), the built-in multi-drive source device with independent independent 2 and independent control of the telescopic type of each segment is wrongly required to meet the zoom magnification requirements such as multi-segment focus, soft focus, or blur effect. i £ Pound 5 έ θ "彳ηh Η, specific independent control within the lens group (10) to move each lens (group) telescopic movement. 'Because of the specific control provided in the lens group (10) to actuate each lens (group editing and multi-action, and each drive source device (30) (10) (10) can be digitalized to operate 1308968 control adjustment, 俾 expand for all types of variable focus lens group and compatible The utility model and the use of the present invention - The embodiments disclosed in the above embodiments are specifically described, and the specific terms are used herein to limit the scope of the invention, and those skilled in the art should Changes and modifications may be made to the equivalent of the spirit and the principles of the invention, and such changes and modifications are intended to be included in the scope of the patent application.
1308968 【圖式簡單說明】 第1圖’係本發明較佳實施例之組合立體圖一。 第2圖:係本發明較佳實施例之組合立體圖二。 第3圖:係本發明較佳實施例之大部分解剖視圖。 第4圖.係本發明較佳實施例之細部分解剖視圖。 第5圖:係本發明較佳實施例之組合剖視圖。 第6圖·係本發明較佳實施例之作動示意圖一。 g 第了圖:係本發明較佳實施例之作動示意圖二。 第8圖.係本發明另_較佳實施例之組合剖視圖。 【主要元件符號說明】 可變焦距鏡頭組-----(10) 保護鏡-------------(15) 第一驅動源裝置-----(30) 基座環--------------(50) 環形線圈定子(31)(41)(61) 導磁環形片--(33)(43)(63) 磁鐵環轉子一(35)(45)(65) 内螺管座------------(37) 透鏡---(11)(12)(13)(14) 殼體---------------(20) 第二驅動源裝置---(40) 第三驅動源裝置—(60) 引磁極爪---(32)(42)(62) 線圈-------(34)(44)(64) 固定螺管----------(36) 止旋組件-----(A)(B)(C) 止旋部-----------(38)(68) 導引槽---------(39 )(69) 止旋孔 (48) 導引柱------------(49) 131308968 [Brief Description of the Drawings] Fig. 1 is a perspective view of a combination of preferred embodiments of the present invention. Figure 2 is a perspective view of a combination of preferred embodiments of the present invention. Figure 3 is a majority of an anatomical view of a preferred embodiment of the invention. Figure 4 is a detailed sectional view of a preferred embodiment of the present invention. Figure 5 is a cross-sectional view showing a combination of preferred embodiments of the present invention. Figure 6 is a schematic diagram 1 of the preferred embodiment of the present invention. g. Fig. 2 is a second schematic diagram of the operation of the preferred embodiment of the present invention. Figure 8 is a cross-sectional view showing a combination of another preferred embodiment of the present invention. [Main component symbol description] Zoom lens group-----(10) Protective mirror-------------(15) First drive source device-----(30) Base ring --------------(50) Ring coil stator (31) (41) (61) Magnetic ring piece -- (33) (43) (63) Magnet ring Rotor-(35)(45)(65) Inner Solenoid Holder------------(37) Lens---(11)(12)(13)(14) Housing-- -------------(20) Second drive source device---(40) Third drive source device-(60) Magnetic pole claw---(32)(42)(62 ) Coil -------(34)(44)(64) Fixing screw----------(36) Screw-stop assembly-----(A)(B)(C ) 旋旋-----------(38)(68) Guide groove---------(39)(69) Stop hole (48) Guide column -- ----------(49) 13