201122704 六、發明說明: 【發明所屬之技術領域】 本發明係關於—種攝影模組,特別地,本發_於-種攝影 模組,其安餅終端中且具有對物體自動對焦之功能。 【先前技術】 女裝於小型終端(例如數位相機或者可攜式電話)中的攝影 模組採用電餘合器件(CCD)型或者互補金屬氧化物半導體 (CMOS)型之影賴·。攝職_光訊號轉換成電訊號以形 成一影像。 攝影模組具有對物體進行自動對焦之功能。為此,具有自動 對焦功i之攝痛組包含有相對於影像感聰改變透鏡位置的自 動對焦調節裝置。 傳統的自動對焦調節裝置使得透鏡沿光軸方向直線運動,以 使得-馬達之旋轉運動透過—轉換機構(例如齒輪)轉換為直線 運^然而’由於自動對焦調節裝置使用齒輪,所以難以精碟地 調節聚焦進步而吕,油於馬達及齒輪佔據空間,所以對終端 尺寸之減小產生限制。 為了解決上述問題,提出音圈馬達(VQieeCGiiM耐,vcm) 型的自動難調節裝置。在音圈馬達(VCM)型的自動對焦調節 裝置中’產生磁力的永磁體與作用有電流的線圈相面對,並且透 鏡的位置通過垂直於磁場及紐產生_倾力而改變。 在音圈馬達(VCM)型的自動對焦調節裝置中,線圈連接至 -印刷電路板(PCB)上,以使得電流_供給至賴。為此, 201122704 線圈的配線端子固化至印刷電路板(PCB)的連接終端。 然而’在音圈馬達(VCM)型的自動對焦調節裝置中,存在 . 透鏡之對焦應透過調零相對於印刷電路板(PCB)精確地調節之 情況。當具有透鏡的鏡頭部份相對于印刷電路板(PCB)旋轉時, 線圈的配線端子根據鏡頭部份的旋轉角度可不連接至印刷電路板 (PCB)之連接終端上。為此,配線端子可不固化至連接終端。 透過增加配線端子的長度可以解決此問題。然而,此種情況 下,配線端子在固化至連接終端之後可不需要保留長度,這樣導 致出現如何處理配線端子的問題。 【發明内容】 因此,雲於上述問題,本發明之目的在於提供一種具有自動 對焦功能之攝影模組,其中當為了精確的對焦調節而使鏡頭部份 相對于印刷電路板(PCB)旋轉時,線_份之配線端子能夠容 易地連接至印刷電路板(PCB)的連接終端上,而不管線圈部份 的配線端子之位置如何。 本發明之一方面在於提供一種攝影模組,此攝影模組包含 有·-鏡頭部份’其包含有至少一個透鏡;一線圈部份,固定至 鏡頭部份;一磁體部份,其包含有一内磁軛及一外磁軛,其中線 圈部份位於_減外_之間,_缺外磁滅應穿過線圈 部份的磁力線。 磁體部份更可包含有-圍繞鏡頭部份之永磁體。内磁輛可固 定至永磁體的兩個磁極中之-個磁極,外磁輛可蚊至永磁體的 兩個磁極中之另一個磁極。 201122704 内磁輥可包含有-支撑永磁體的水平部份及自水平部份向下 延伸面對線圈部份的豎直部份,外磁輛可包含有—與内磁輛的水 平部份-起支縣的水平部份,以及—自水平部份向下延伸 面對線圈部份的豎直部份。 攝影模組可包含有-端子延伸部份,端子延伸部份配設為自 線圈部份之配線端子延伸至攝影模组之外部。 攝影模組還可包含有-侷部覆蓋外磁扼的上端之頭部及一偈 部覆蓋外磁狀下端的基座。端子延伸部份可部份位於頭部與基 座之間的凹入部份之上。 本發明之另在於提供-簡雜組,此娜模組包含 有.-鏡頭部份,其具有至少-個透鏡;一線圈部份,固定至鏡 頭部份上並且包含有-配線端子;—磁體部份,用於產生作用至 線圈部份上的磁場;-端子延伸部份,其包含有一第一終端及一 第二終端,其巾,第一終端及第二終端自線圈部份的配線端子延 伸並且圍繞磁體部份,.以使得第—終端及第二終端暴露在外。 端子延伸部份可包含有:一圓環構件,其與線圈部份之配線 端子電連接;-帶構件’其自UJ環構件延伸並圍繞補部份。第 一終端及第二終端可沿著圓環構件及帶構件形成。 圓環構件可具有與線圈部份的配線端子相連接的複數個觸 點,並且圓環構件構造為使得第一終端自這些觸點中的一個沿著 圓環構件的—半延伸,並且第二終端自這些觸點中的另一個沿著 圓環構件的另一半延伸。 攝影模組還可包含有一侷部覆蓋磁體部份之上端的頭部及一 201122704 侷部覆蓋補部份之下端的紐。端子延伸部份可部份位 與基座之間的凹入部份之上。 ° 顧部份可包含有-永磁體,此永磁體的兩個磁極中的一個 磁極上固定有内雜,永磁體的兩個磁極中的另—個磁極上固定 有外磁軛。線圈部份可介於内磁軛與外磁軛之間。 攝影模組還可包含有具有複數侧點的㈣電路板,這 點自印刷電路板延伸以與在端子延伸部份中形成的第一終歧第 --終端電連接。 本發明之再-方面在於提供有自輯焦魏之攝影模 組’此攝影模組包含有:—鏡頭部份’其具有至少-個透鏡.一 線圈部份’其固定至鏡頭部份;一磁體部份,設置為使得磁尸作 用於線圈部份,並且由基座支稽. ’”吏传磁琢作 之門* 位於_卩份與基座 的聚隹調Γ.、絲剌紋結合,用於對鏡卿份進行精確 的U卽’-知子延伸部份,係包含有一第一終端及一第二炊 ㈣二終端分別與線圈部份的配線端子相連接,並 _電路板’翻定至保持件,並轉有延伸以 與第一終端及第二終端電連接的連接終端。 端子延伸部份可形成為圍繞磁體部份的外周表面,第一 及第-終卿餅舒延伸部份的絲上崎露在外。、 ΤΓ ; ^ 二:’並且為可彎曲的以圍繞磁體部份的外周表面。 ▼ <可包含有-黏附部份,黏附部份在與形成有第一終端 201122704 及第二終端的表面挪的表面上峡至磁體部份。 、磁體射刀可包含有:一環形的永磁體,其圍繞鏡頭部份;一 、、.111定至永磁體㈣伽簡-個雜,並錄於線圈部 伤之^,-外磁輕,其固定至永磁體的兩個雜的另一個磁極, 並且設置於線_份之外。端子延伸部份可固定至外磁輛的外周 表面上。 攝〜模組還可包含有—位於外磁輛之上的頭部,以侷部覆蓋 外磁輛的相表面。基座可在外雖之獨部覆蓋外雜的外周 表面’並且與所述頭部間隔開,端子延伸部份位於頭部及基座之 間的凹入部份之上。 外磁扼可固定至永磁體之上端,面對線圈部份的外部彎曲, 同時圍繞永之糾卜並且固定至基座,_細定至永磁體 之下端’並面對線圈部份的内部彎曲。 本發明更多醜闕鱗由以下的詳細說_示,並且通過 本發明之實施例得以瞭解。 可以雜岐’如上所軸本發明之減綱和隨後所述的 本發明之詳細說明均是具有代表性和解釋性的說明,並且是為了 進一步揭示本發明之申請專利範圍。 【實施方式】 以下,將結合附圖更加全面地描述本發明,在附圖中表示出 了本發明之示例性實施例。然而,本發明可實現為不同之形式, 並且不應該解釋為限於在此闡述的示例性實施例。相反,提供這 些示例性實施例使得本發明公開徹底,並且將本發明的範圍全部 201122704 •傳達給本領域之技術人員。在附圖之中,為了清楚起見,層及區 域狀寸及相對尺柯放大,财相_標號表示侧的元件。 「第1圖」係為根據本發明之實施例的一攝影模組之透視圖。 「第2圖」縣端子延伸部份自磁體雜的相表面解開之狀態 之透視圖第3圖」係為「第1圖」之相機模組之分解透視圖。 第4圖」係為沿「第丨圖」之w線之橫截面圖。「第$圖」係 為「第4圖」之A區域之放大橫截面圖。 請參閱「第1圖」至「第5圖」,本發明之實施例的攝影模組 1包含有一鏡頭部份11、一線圈部份12、一磁體部份13、一彈簧 14、一基座16以及一端子延伸部份η。 鏡頭部份η包含有至少-個透鏡112。透鏡112功能上用於 形成-4體之-光學雜。鏡頭部份u包含有容_鏡的鏡 茼11卜鏡筒ill之上部敞開,以使得光線能夠進入透鏡ιΐ2。鏡 筒111之下部敞開’以使得穿過透鏡m之絲能夠傳輸至安裝 於透鏡112之下的一影像感測器183。 線圈部份12圍繞鏡頭部份n,並且例如透過一黏合劑固定至 鏡頭部份11。線圈部份12位於透過磁體部份13產生的磁場之中。 當電流自印刷電路板(PCB)⑻供給時,磁體部份13通過洛倫 兹力沿著絲方向作直線運動。@定至_部份u的鏡頭部份U 沿著光軸方向作直線運動。因此,透鏡112之位置相對於影像咸 測器183改變,使得能夠自動調節對焦。 β 磁體部份13設置為使得磁場能夠作用於線圈部份12。磁體部 份13透過基座16支撐。基座16具有一環形,並且外螺攻⑹^ 201122704 成於外周表面上。 彈更Η位於鏡頭部份u與基座1δ之間,以彈性地抵靠基座 ^支撑鏡份U。也就是說,#鏡頭部份π透過施加至鏡頭 部份11上的力沿著光軸移動時,彈簧14彈性地變形。當作用至 鏡頭挪11上的力去除時,透過彈簧Μ產生恢復力,並且因此 鏡頭部份11通過恢復力返回初雖置。彈簧14可按照片菁的形 式構造。 一上部彈簧15可更位於鏡頭部份11之上。-頭部19可位於 上部彈簧15之上。上部彈簧15位於· 19與義部份u之間, 以抵靠頭部19彈性地支撐鏡頭部份u。 基座16觀結合至保持件18,保持件18例如透過黏合劑固 定至印刷電職(PCB)。也狀說,基座16之外觀⑹可螺 紋結合至保持件18之_紋。#基座16在螺賴合至保持件Μ 上的狀態下正向或者反向旋轉時,翻精u向上或者向下運 動。通過此過程’透鏡112的對焦能夠精销節。影像感測器183 位於印刷電路板(PCB).⑻之上,並且一通孔形成於保持件Μ 之中心,以暴露影像感測器183之頂部。印刷電路板(pcB)i8i 將用於透鏡m的對_之控制電_至_部份i2。影像 感測請將透過透鏡112形成之—光學影像轉換為—電訊號。 影:=8:可為,合器件(CCD)型或者-互補金屬 軋化物半導體(CMOS)型。 由:基座1續鏡頭部份n—起構雜件,並賴保持件18 獅“,所以能夠執行精確的對焦調節。鏡頭部㈣之狀態在 201122704 精雜焦觸之後不改變,所以這種精確的對焦調靴容易地執 行。進-步而言,由於在精確的·調節過程中沒有力作用至彈 菁14及上部彈簧15’所以能夠降低彈菁14及上部彈菁15之損壞。 與配線端子7及8分職連接的第—終端171及第二终端⑺ 形成於端子延伸部份17之中。端子延伸部份17形柄使得第一 終端m及第二終端m即使在基座16相對於保持件18旋轉時, 也能夠與印刷電路板〇>CB)⑻之連接終端182相接觸。連接終 端182包含有多侧·點’這些觸·點分別與第一終端ΐ7ι及第二終 端Π2相連接’並且形成於面對第一終端1?1及第二終端m之 表面上。 也就是說,對焦透過使得基座16相對於保持件18正向地或 者反向地旋轉精確地調節’並且在這種狀態下,連接至配線端子7 及8的第-終端171及第二終端172連接且固定至印刷電路板⑻ 之連接終端182。也就是說,在透過將基座16相對於保持件18 :正向或者反向旋轉來執行精確對焦調節的過程中,不管線圈部份 12之配線端子7及8的位置如何’連接至配線端子7及8的第一 終端171及第二終端172總是與印刷電路板181之連接終端182 相接觸。因此,由於當鏡頭對焦時,第一終端171及第二終端172 連接並固定至印刷電路板181之連接終端182,所以組裝過程得以 簡化。 第一終端171及第二終端172可形成於端子延伸部份17的一 個表面上。端子延伸部份17可具有圍繞磁體部份13之外周表面 的結構,使得第一終端171及第二終端172能夠暴露於外。 201122704 鈿子延伸部份17可包含有一圓環構件173及一帶構件I%。 第一終端171及第二終端172可遍及圓環構件173及帶構件174 上形成。圓環構件173位於彈簧14之上並且與基座16相結合。 分別與第一終端171及第二終端172連接的觸點形成於圓環構件 173之中,並且這些觸點分別與線圈部份12之配線端子7及8相 連接。舉例而言’如「第3圖」所示’第—終端171可沿著圓環 構件m之自觸點開始至帶構件174為止的—半延伸,此觸點形 成於圓環構件中以與配線端子7相連接,第二終端172可沿著圓 環構件173之自觸點開始至帶構件174為止的另一半延伸,此觸 點形成於圓環構件中以與配線端子8相連接。 帶構件m與圓環構件173整體地形成,並且自圓環構件⑺ 延伸至基座16的外部。帶構件174可以由錄的可撓性材料製 成。因此,帶構件174能夠彎曲以圍繞磁體部份13的外周表面。 2構件m可包含有形成於—表面±__份,該表面與形成 第終端171及第二終端172的表面相面對。黏附部份可由且 絲合劑及-蝴_#親。雜174 固201122704 VI. Description of the Invention: [Technical Field] The present invention relates to a photographic module, in particular, a photographic module of the present invention, which has a function of automatically focusing on an object. [Prior Art] The photographic module of a women's clothing in a small terminal (such as a digital camera or a portable telephone) uses a CCD type or a complementary metal oxide semiconductor (CMOS) type. The job _ optical signal is converted into a signal to form an image. The photography module has the function of autofocusing objects. For this reason, the pain-taking group having the auto-focus function i includes an auto-focus adjustment device that changes the lens position with respect to the image sensory. The conventional autofocus adjusting device linearly moves the lens in the optical axis direction, so that the rotational motion of the motor is converted into a linear transmission through the conversion mechanism (for example, a gear). However, since the autofocus adjusting device uses the gear, it is difficult to finish the disk. Adjusting the focus progresses, and the oil occupies space in the motor and the gear, so there is a limit to the reduction in the size of the terminal. In order to solve the above problem, an automatic hard-adjusting device of a voice coil motor (VQieeCGiiM, vcm) type has been proposed. In the voice coil motor (VCM) type autofocus adjusting device, the permanent magnet that generates the magnetic force faces the coil to which the current is applied, and the position of the lens is changed by generating the tilting force perpendicular to the magnetic field and the neon. In a voice coil motor (VCM) type of autofocus adjustment device, a coil is connected to a printed circuit board (PCB) to supply current_to the drain. To this end, the wiring terminals of the 201122704 coil are cured to the connection terminals of the printed circuit board (PCB). However, in the voice coil motor (VCM) type of autofocus adjustment device, there is a case where the focus of the lens should be accurately adjusted with respect to the printed circuit board (PCB) by zero adjustment. When the lens portion having the lens is rotated relative to the printed circuit board (PCB), the wiring terminal of the coil may not be connected to the connection terminal of the printed circuit board (PCB) according to the rotation angle of the lens portion. For this reason, the wiring terminal may not be cured to the connection terminal. This problem can be solved by increasing the length of the wiring terminals. However, in this case, the wiring terminals do not need to be retained after curing to the connection terminal, which causes a problem of how to handle the wiring terminals. SUMMARY OF THE INVENTION Therefore, in view of the above problems, an object of the present invention is to provide a photography module having an autofocus function in which when a lens portion is rotated relative to a printed circuit board (PCB) for precise focus adjustment, The wiring terminal of the wire can be easily connected to the connection terminal of the printed circuit board (PCB) regardless of the position of the wiring terminal of the coil portion. One aspect of the present invention provides a photographic module that includes a lens portion that includes at least one lens, a coil portion that is fixed to the lens portion, and a magnet portion that includes a lens portion. The inner yoke and the outer yoke, wherein the coil portion is located between the _ minus _, and the outer magnetic yoke should pass through the magnetic line of the coil portion. The magnet portion may further include a permanent magnet surrounding the lens portion. The inner magnet can be fixed to one of the two magnetic poles of the permanent magnet, and the outer magnet can be mosquito to the other of the two magnetic poles of the permanent magnet. 201122704 The inner magnet roller may include a horizontal portion of the -supporting permanent magnet and a vertical portion extending downward from the horizontal portion facing the coil portion, and the outer magnetic vehicle may include - a horizontal portion with the inner magnetic vehicle - The horizontal part of the branch and the vertical part of the coil part extending downward from the horizontal part. The photographic module may include a - terminal extension portion, and the terminal extension portion is configured to extend from the wiring terminal of the coil portion to the outside of the photographic module. The photographic module can also include a head that partially covers the upper end of the outer magnetic ridge and a pedestal that covers the outer lower end of the outer magnetic. The terminal extension portion may be partially located above the recessed portion between the head and the base. Another aspect of the present invention provides a simple module comprising: a lens portion having at least one lens; a coil portion fixed to the lens portion and including a wiring terminal; a portion for generating a magnetic field acting on the coil portion; a terminal extension portion including a first terminal and a second terminal, the towel, the first terminal and the second terminal from the wiring portion of the coil portion Extending and surrounding the magnet portion, so that the first terminal and the second terminal are exposed. The terminal extension portion may include: a ring member electrically connected to the wiring terminal of the coil portion; and a tape member' extending from the UJ ring member and surrounding the complementary portion. The first terminal and the second terminal may be formed along the annular member and the belt member. The ring member may have a plurality of contacts connected to the wiring terminals of the coil portion, and the ring member is configured such that the first terminal extends from one of the contacts along the half of the ring member, and the second The terminal extends from the other of the contacts along the other half of the ring member. The photographic module may further include a head partially covering the upper end of the magnet portion and a button at the lower end of the 201122704 partial cover portion. The terminal extension portion can be partially positioned above the recessed portion between the base and the base. The portion may include a permanent magnet, one of the two magnetic poles of the permanent magnet is fixed with an internal impurity, and the other of the two magnetic poles of the permanent magnet is fixed with an outer yoke. The coil portion may be interposed between the inner yoke and the outer yoke. The photographic module can also include a (four) circuit board having a plurality of side points extending from the printed circuit board to electrically connect with the first terminal-terminals formed in the terminal extensions. A further aspect of the present invention is to provide a self-assembled photographic module of the photographic system. The photographic module includes: a lens portion having at least one lens. A coil portion is fixed to the lens portion; The magnet part is set so that the magnetic corpse acts on the coil part, and is supported by the pedestal. The door of the 吏 吏 琢 * * 位于 位于 位于 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与For accurately performing the U卽'-Zizi extension of the mirror, the first terminal and the second (four) terminal are respectively connected to the wiring terminals of the coil portion, and the circuit board is turned over. And a connecting terminal extending to electrically connect with the first terminal and the second terminal. The terminal extending portion may be formed to surround the outer peripheral surface of the magnet portion, and the first and the first-end cake extensions The silk is on the outside., ΤΓ; ^ 2: 'and is bendable to surround the outer peripheral surface of the magnet portion. ▼ < can contain the - adhesion portion, the adhesion portion is formed with the first terminal 201122704 and the surface of the second terminal are moved to the surface of the gorge to the magnet The magnet injection knife may include: a ring-shaped permanent magnet that surrounds the lens portion; one, .111 is fixed to the permanent magnet (four) gamma-different, and recorded in the coil portion of the injury, - the outer magnetic light, It is fixed to the other two magnetic poles of the permanent magnet, and is disposed outside the line _. The terminal extension portion can be fixed to the outer peripheral surface of the outer magnetic vehicle. The photo module can also include - located at the outer magnetic field a head above the vehicle to partially cover the surface of the outer magnetic vehicle. The base may be externally covered with a peripheral surface of the outer portion and spaced apart from the head, and the terminal extension portion is located at the head and Above the concave portion between the pedestals. The outer magnetic yoke can be fixed to the upper end of the permanent magnet, facing the outer portion of the coil portion, while being surrounded and fixed to the pedestal, _ fine to the permanent magnet The lower end' faces the inner curvature of the coil portion. More ugly scales of the present invention are shown in the following detailed description and are understood by the embodiments of the present invention. And the detailed description of the invention described later is representative and solution The present invention will be described more fully hereinafter with reference to the accompanying drawings in which FIG. The present invention may be embodied in different forms and should not be construed as being limited to the exemplary embodiments set forth herein. Instead, these exemplary embodiments are provided so that this disclosure will be In the drawings, for the sake of clarity, the layers and the regions and the relative dimensions are enlarged, and the financial_label indicates the elements on the side. "First FIG. 1" is an embodiment according to the present invention. A perspective view of a photographic module. "Picture 2" The state in which the extension of the terminal of the county is unwrapped from the phase of the surface of the magnet is shown in Fig. 3 as an exploded perspective view of the camera module of "Fig. 1". Figure 4 is a cross-sectional view of the w line along the "figure map". The "$ map" is an enlarged cross-sectional view of the A area of "Fig. 4". Referring to FIG. 1 to FIG. 5, the camera module 1 of the embodiment of the present invention includes a lens portion 11, a coil portion 12, a magnet portion 13, a spring 14, and a base. 16 and a terminal extension portion η. The lens portion η includes at least one lens 112. Lens 112 is functionally used to form -4 body-optical hybrids. The lens portion u includes a mirror with a mirror 茼 11 and the upper portion of the barrel ill is open to allow light to enter the lens ιΐ2. The lower portion of the lens barrel 111 is open so that the wire passing through the lens m can be transmitted to an image sensor 183 mounted under the lens 112. The coil portion 12 surrounds the lens portion n and is fixed to the lens portion 11 by, for example, an adhesive. The coil portion 12 is located in a magnetic field generated by the magnet portion 13. When current is supplied from the printed circuit board (PCB) (8), the magnet portion 13 linearly moves in the direction of the wire by the Lorentz force. @The lens portion U of the _ part u moves linearly along the optical axis. Therefore, the position of the lens 112 is changed with respect to the image sensor 183, so that the focus can be automatically adjusted. The beta magnet portion 13 is disposed such that a magnetic field can act on the coil portion 12. The magnet portion 13 is supported by the susceptor 16. The base 16 has a ring shape, and the outer tapping (6)^201122704 is formed on the outer peripheral surface. The buckling is located between the lens portion u and the base 1δ to elastically abut the base U to support the mirror U. That is, the spring 14 is elastically deformed when the lens portion π is moved along the optical axis by the force applied to the lens portion 11. When the force applied to the lens shift 11 is removed, the restoring force is generated by the spring ,, and thus the lens portion 11 is returned to the initial position by the restoring force. The spring 14 can be constructed in the form of a photo cyanine. An upper spring 15 can be located further above the lens portion 11. - The head 19 can be located above the upper spring 15. The upper spring 15 is located between the 19 and the sense portion u to elastically support the lens portion u against the head portion 19. The susceptor 16 is affixed to the holder 18, which is secured to the printed electrical office (PCB), for example, via an adhesive. It is also said that the appearance (6) of the base 16 can be threadedly coupled to the pattern of the holder 18. When the base 16 is rotated in the forward or reverse direction while the screw is attached to the holder ,, the tumbling u moves up or down. Through this process, the focus of the lens 112 enables the section to be sold. The image sensor 183 is located above the printed circuit board (PCB). (8), and a through hole is formed in the center of the holder Μ to expose the top of the image sensor 183. The printed circuit board (pcB) i8i will be used for the control of the lens m to the part i2. Image Sensing Convert the optical image formed through lens 112 into an electrical signal. Shadow: =8: It can be a combined device (CCD) type or a complementary metal rolled semiconductor (CMOS) type. By: the continuation lens part of the pedestal 1 is n-shaped, and the lion is held by the holder, so the precise focus adjustment can be performed. The state of the lens part (4) does not change after the 201122704 fine focus, so this kind The precise focus adjustment shoe is easily performed. In the case of the advance step, since no force acts on the elastic cyanine 14 and the upper spring 15' during the precise adjustment, the damage of the elastic cyanine 14 and the upper elastic cyanine 15 can be reduced. The terminal 171 and the second terminal (7) of the wiring terminals 7 and 8 are connected in the terminal extension portion 17. The terminal extension portion 17 is shaped such that the first terminal m and the second terminal m are even at the pedestal 16 When it is rotated with respect to the holder 18, it can also be in contact with the connection terminal 182 of the printed circuit board 〇 > CB) (8). The connection terminal 182 includes a plurality of sides and points "the touch points are respectively associated with the first terminal ΐ 7 ι and the second The terminal Π 2 is connected 'and formed on the surface facing the first terminal 1-1 and the second terminal m. That is, the focus transmission causes the susceptor 16 to rotate positively or inversely with respect to the holder 18 accurately Adjust 'and in this state, connect to The first terminal 171 and the second terminal 172 of the line terminals 7 and 8 are connected and fixed to the connection terminal 182 of the printed circuit board (8). That is, the base 16 is rotated in the forward or reverse direction relative to the holder 18. In the process of performing the precise focus adjustment, regardless of the positions of the wiring terminals 7 and 8 of the coil portion 12, the first terminal 171 and the second terminal 172 connected to the wiring terminals 7 and 8 are always connected to the printed circuit board 181. The terminal 182 is in contact. Therefore, since the first terminal 171 and the second terminal 172 are connected and fixed to the connection terminal 182 of the printed circuit board 181 when the lens is in focus, the assembly process is simplified. The first terminal 171 and the second terminal 172 are simplified. It may be formed on one surface of the terminal extending portion 17. The terminal extending portion 17 may have a structure surrounding the outer peripheral surface of the magnet portion 13, so that the first terminal 171 and the second terminal 172 can be exposed to the outside. 201122704 The portion 17 can include a ring member 173 and a belt member I%. The first terminal 171 and the second terminal 172 can be formed over the ring member 173 and the belt member 174. The ring member 173 is located above the spring 14. And being coupled to the susceptor 16. The contacts respectively connected to the first terminal 171 and the second terminal 172 are formed in the ring member 173, and the contacts are respectively connected to the wiring terminals 7 and 8 of the coil portion 12. For example, 'the first terminal 171 as shown in FIG. 3 may extend along the half of the ring member m from the contact to the belt member 174, and the contact is formed in the ring member. Connected to the wiring terminal 7, the second terminal 172 may extend along the other half of the ring member 173 from the contact to the belt member 174, and the contact is formed in the ring member to be connected to the wiring terminal 8. The belt member m is integrally formed with the ring member 173 and extends from the ring member (7) to the outside of the base 16. The belt member 174 can be made of a recorded flexible material. Therefore, the belt member 174 can be bent to surround the outer peripheral surface of the magnet portion 13. The member m may include a surface formed on the surface ___, the surface facing the surface forming the terminal 171 and the second terminal 172. The adhesive part can be combined with a silking agent and a butterfly. Miscellaneous
定至磁體部份13。 丨仿U 田π構件m圍繞磁體部份之外周表面使得帶構件⑺| =?T_部份黏附至磁體部份13的外周表面上時 機 之終端171及第二終端172暴露於外。因此,才 機輪組之組絲賴單,㈣使得生鮮提高。 13的之第—終端m及第二終端172沿著磁體部份 周表面汉置的狀態下,印刷電路板⑻之連接終物輩 12 201122704 應於▼構件174之外表面延伸’以接觸第-終端171及第二終端 172。即使印刷電路板181的連接終端182相對於磁體部份η之 .L置目物18的嫩置爾,連接終端 、_夠與第一終端171及第二終端172相接觸。因此,當基座 16相對於保持件18旋轉時,線圈部份12之配線端子7及^夠 與印刷電路板m之連接終端182電連接,而不管配線端子7及8 之位置如何。 磁體部份13可包含有一永磁體⑶、-内磁輛132以及-外 磁輕133。永磁體131可具有圍繞鏡頭部份11的圓環形狀。内磁 軛132透過例如黏結劑固定至永磁冑131的兩個磁極中的一個並 且叹置於線圈部份12之内。外磁輛133透過例如黏結劑固定至永 磁體131的兩個磁極中之另一個並且設置於線圈部份!2之外部。 舉例而言,永磁體131可構造為使得其上端和下端具有彼此 不同的磁極。内磁轭132固定至永磁體131之下端,以與永磁體 131的下端具有綱的雜。内雖132可形成為賴線圈部份 12的内部向下彎曲。也就是說,内磁轆132可包含有支樓永磁體 131的水平部伤132a及自水平部份必向下延伸面對線圈部份 12的豎直部份i32b。 外磁軛133可彎曲以圍繞永磁體131的外部並向下延伸,並 且外磁耗133之下端可例如透過黏結劑固定至基座16。也就是 說,外磁軛133可包含有與内磁軛132 一起支撐永磁體131的水 平。卩伤133a及自水平部份133a向下延伸面對線圈部份12的豎直 部份133b。因此’由於外磁輕133覆蓋了相機模組】的外遮蓋物, 13 201122704 並且防止外娜質人侵’触,外_ 133具有覆蓋相機模組工 的外遮蓋物並職械模組丨之外罩的功能^因此,可減小相機 模組的尺寸。 向下延伸的内磁祀32之暨直部份132b與向下延伸的外磁軛 133之丑直部份i33b相對於位於上述兩者之間的線圈部份12彼此 面對地平行設置。因此’内魏132和外雜133感應磁力線的 流動以水平地形成於其間並且穿過線圈部份12。 在上述線圈部份12的結構中,端子延伸部份17的帶構件174 可固疋至外磁輛133之外周表面上。當外磁輛133之下端固定至 基座16之内部日寺,外磁輛133之外周表面自基座16的外周表面 凹入。端子延伸部份17固定至凹入部份,因此,相機模組i之結 構能夠進一步緊湊❶ ° 在外磁輕133之上,可組裝頭部19以侷部覆蓋外磁輕133之 外周表面’在外磁輛133之下,可組裝基座16關部覆蓋外磁輕 133之外周表面。頭部19之下端與基座16之上端彼此分隔開,以 在二者之間形成凹人部份。端子延伸部份17位於凹人部份之上, ,且固定至外磁輛133之外周表面。因此,相機模組丨之結構簡 單,並相機模組1的尺寸減小。 本領域之技術人員應當意識到在不脫離本發明所附之申請專 利範圍所揭示之本㈣之精柿顧的叙下,所作之更動與濁 飾’均屬本發明之專利保護範圍之内。關於本發明所界定之保護 範圍請參照所附之申請專利範圍。 ° 201122704 【圖式簡單說明】 圖; 之狀態 第1圖係為根據本發明之實施例的一攝影模組之透視 第2圖係為端子延伸部份自磁體部份的外周表面解開 之透視圖; 第3圖係為第1圖之攝影模組之分解透視圖; 第4圖係為沿第1 ®之^:線之橫截面圖;以及 第5圖係為第4圖係為之A區域之放大橫截面圖。 【主要元件符號說明】 1 攝影楔組 7 配線端子 8 配線端子 11 鏡頭部份 12 線圈部份 13 磁體部份 14 彈簧 15 上部彈簧 16 基座 17 端子延伸部份 18 保持件 19 頭部 201122704 112 透鏡 131 永磁體 132 内磁輕 132a 水平部份 132b 豎直部份 133 外磁輥 133a 水平部份 133b 豎直部份 161 外螺紋 171 第一終端 172 第二終端 173 圓環構件 174 帶構件 181 印刷電路板 182 連接終端 183 影像感測器 16Set to the magnet portion 13. The peripheral surface of the magnetizing portion U around the magnet portion causes the belt member (7)| = ?T_ portion to adhere to the outer peripheral surface of the magnet portion 13 to be exposed to the outside of the terminal 171 and the second terminal 172. Therefore, the group of the wheel sets is only singular, and (4) the freshness is improved. In the state in which the terminal m and the second terminal 172 are placed along the circumferential surface of the magnet portion, the connection of the printed circuit board (8) to the final surface 12 201122704 should extend to the outer surface of the member 174 to contact the first Terminal 171 and second terminal 172. Even if the connection terminal 182 of the printed circuit board 181 is relatively thin with respect to the magnet portion η, the connection terminal _ is sufficiently in contact with the first terminal 171 and the second terminal 172. Therefore, when the susceptor 16 is rotated relative to the holder 18, the wiring terminals 7 of the coil portion 12 are sufficiently electrically connected to the connection terminals 182 of the printed circuit board m regardless of the positions of the wiring terminals 7 and 8. The magnet portion 13 can include a permanent magnet (3), an inner magnet 132, and an outer magnetic light 133. The permanent magnet 131 may have a ring shape surrounding the lens portion 11. The inner yoke 132 is fixed to one of the two magnetic poles of the permanent magnet bore 131 by, for example, a binder and is placed inside the coil portion 12. The outer magnet 133 is fixed to the other of the two magnetic poles of the permanent magnet 131 by, for example, a binder and is disposed in the coil portion! 2 outside. For example, the permanent magnet 131 may be configured such that its upper end and lower end have magnetic poles different from each other. The inner yoke 132 is fixed to the lower end of the permanent magnet 131 so as to have an impurity with the lower end of the permanent magnet 131. The inner portion 132 may be formed such that the inner portion of the coil portion 12 is bent downward. That is, the inner magnet 132 may include a horizontal portion 132a of the branch permanent magnet 131 and a vertical portion i32b extending from the horizontal portion to the coil portion 12. The outer yoke 133 is bendable to surround the outer portion of the permanent magnet 131 and extends downward, and the lower end of the outer magnetic flux 133 can be fixed to the susceptor 16 by, for example, an adhesive. That is, the outer yoke 133 may include a level that supports the permanent magnet 131 together with the inner yoke 132. The bruise 133a and the horizontal portion 133a extend downwardly from the vertical portion 133b of the coil portion 12. Therefore, due to the outer cover of the camera module due to the external magnetic light 133, 13 201122704 and to prevent the outside from being invaded, the outer _ 133 has an outer cover covering the camera module and the service module The function of the cover ^ thus reduces the size of the camera module. The straight portion 132b of the downwardly extending inner magnetic disk 32 and the ugly portion i33b of the downwardly extending outer yoke 133 are disposed in parallel with each other with respect to the coil portion 12 located therebetween. Therefore, the inner Wei 132 and the outer 133 induce the flow of magnetic lines of force to be horizontally formed therebetween and pass through the coil portion 12. In the structure of the coil portion 12 described above, the belt member 174 of the terminal extending portion 17 can be fixed to the outer peripheral surface of the outer magnet 133. When the lower end of the outer magnet 133 is fixed to the inner temple of the susceptor 16, the outer peripheral surface of the outer magnet 133 is recessed from the outer peripheral surface of the susceptor 16. The terminal extension portion 17 is fixed to the recessed portion, so that the structure of the camera module i can be further compacted. Above the outer magnetic light 133, the head portion 19 can be assembled to partially cover the outer peripheral surface of the outer magnetic light 133. Under the magnetic vehicle 133, the detachable base 16 can cover the outer peripheral surface of the outer magnetic light 133. The lower end of the head 19 is spaced apart from the upper end of the base 16 to form a concave portion therebetween. The terminal extension portion 17 is located above the concave portion and is fixed to the outer peripheral surface of the outer magnet 133. Therefore, the structure of the camera module 简 is simple, and the size of the camera module 1 is reduced. It will be appreciated by those skilled in the art that the modifications and turbidity of the present invention are within the scope of the present invention without departing from the scope of the invention as disclosed in the appended claims. Please refer to the attached patent application for the scope of protection defined by the present invention. ° 201122704 [Simplified illustration of the drawings] Fig. 1 is a perspective view of a photographic module according to an embodiment of the present invention. FIG. 2 is a perspective view of the extension of the outer peripheral surface of the magnet portion of the terminal extension portion. Figure 3 is an exploded perspective view of the photographic module of Figure 1; Figure 4 is a cross-sectional view of the line along the 1st line; and Figure 5 is the figure of Figure 4 An enlarged cross-sectional view of the area. [Main component symbol description] 1 Photographing wedge group 7 Wiring terminal 8 Wiring terminal 11 Lens part 12 Coil part 13 Magnet part 14 Spring 15 Upper spring 16 Base 17 Terminal extension 18 Holder 19 Head 201122704 112 Lens 131 permanent magnet 132 inner magnetic light 132a horizontal portion 132b vertical portion 133 outer magnetic roller 133a horizontal portion 133b vertical portion 161 external thread 171 first terminal 172 second terminal 173 annular member 174 belt member 181 printed circuit Board 182 connection terminal 183 image sensor 16