201223262 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種影像擷取模組’特別是運用於相機 或其它成像設備以辨認影像之影像擷取模組。 【先前技術】 習知的影像擷取模組係如公告第1323356號「數位相 機鏡頭模組及其組裝方法」專利案所示,另外第i及2固 揭示另一種習知的影像擷取模組。惟,前述二種習知結才^ 之特徵相近似,而且所衍生之缺點亦相同,故以下僅以第 1及2圖所示内容說明: 請配合參照第1及2圖所示,該習知的影像擷取模組 包含有一鏡筒座91、一鏡頭92及一影像感測組件%。其 中’該鏡筒座91具有連結為一體之一上筒部911及—下筒 部912 ,該上筒部911為一圓筒體且中央形成有一内螺孔 913,該下筒部912内部設有一容置空間914,該容置空間 914與該内螺孔913相連通,該下筒部912另設有—開口 915,該開口 915亦連通該容置空間914。該鏡頭92為一 圓筒體且外周壁設有外螺紋921,該鏡頭92内部則設有透 鏡922。該影像感測組件93係由一基板931、一影像感測 單元932、一罩蓋933及一玻璃蓋板934透過封裝技術所 構成。該影像感測單元932及罩蓋933均設置於該基板93i ,且該影像感測單元932容置於該罩蓋933内部,該罩蓋 933另設有對位該影像感測單元932之一穿槽933a,該玻 璃蓋板934係裝設固定於該穿槽933a。 201223262201223262 VI. Description of the Invention: [Technical Field] The present invention relates to an image capturing module </ RTI> particularly for use in a camera or other imaging device for recognizing an image capturing module. [Prior Art] The conventional image capturing module is shown in the patent case of "Digital Camera Lens Module and Assembly Method" of the publication No. 1323356, and the other i and 2 solids disclose another conventional image capturing module. group. However, the characteristics of the above two conventional knots are similar, and the disadvantages derived are the same. Therefore, only the contents shown in the first and second figures are described below: Please refer to the figures 1 and 2 for reference. The known image capturing module comprises a lens barrel holder 91, a lens 92 and an image sensing component%. The lens barrel 91 has an upper cylindrical portion 911 and a lower cylindrical portion 912. The upper cylindrical portion 911 is a cylindrical body and has an inner screw hole 913 formed therein, and the lower cylindrical portion 912 is internally provided with a The accommodating space 914 is in communication with the inner screw hole 913. The lower tube portion 912 is further provided with an opening 915. The opening 915 also communicates with the accommodating space 914. The lens 92 is a cylindrical body and the outer peripheral wall is provided with an external thread 921, and the lens 92 is internally provided with a lens 922. The image sensing component 93 is formed by a substrate 931, an image sensing unit 932, a cover 933, and a cover glass 934 through a packaging technique. The image sensing unit 932 and the cover 933 are disposed on the substrate 93i, and the image sensing unit 932 is disposed inside the cover 933. The cover 933 is further provided with one of the image sensing units 932. The glass cover 934 is mounted and fixed to the through groove 933a. 201223262
該習知結構製造及組裝時,一般必須先將該基板931 、影像感測單元932、罩蓋933及玻璃蓋板934封裝構成 該影像感測組件93 ’然後將該鏡頭92藉由其外螺紋921 螺接於該鏡筒座91之内螺孔913中,再將安裝有鏡頭92 之該鏡筒座91置於一焦距測試治具上’並透過旋轉該鏡頭 92’以調整該鏡頭92與該透鏡922之焦距。待對焦動作完 成後’再將安裝有鏡頭92之該鏡筒座91由該焦距測試治 具取下,即可進行後續之組裝工序,其係將該影像感測組 件93由該鏡筒座91之開口 915置入該容置空間914中, 然後再利用填膠固定,即構成該習知的影像擷取模組。 惟,該習知影像擷取模組的結構衍生有對焦不方便及 組裝不方便之缺點: 蚵屁个万便:該習 乃、、,口τ冉作、、·且衷的過程中,該鏡筒 座91之内螺孔913中並無可供該鏡頭%抵靠之定位設叶 ,造成每-次將該鏡頭92螺設於該内螺孔913心 92與該影像感測組件93之間的距離均不相 紐 紅因此必輯所有產品逐一進行對録序,相當 時’尤其疋當該影像娜模_運用於數位 】 = = :機等小體積之電子產品時,該影像擷取 俱、、且之體積勢必亦相對縮減 :提供該鏡㈣及觀物 201223262 【發明内容】 本發明之目的係提供一種影像擷取握έΗ,立总 以省 f取模組之各構件組裝時,可同時完成精確對Γ 去透鏡之對焦程序。 本發明之另-目的係提供一種影像擷取敝,係 供該影賴取漁各構倾裝時U 件快速定餅駄躲,❹技方便。了將各構 本發明-種影像擷取模組,係包含:一基體,具有— 、、且裝面,衫像感測單元,設於該基體之組裝面,且該影 像感,單it具有-感測面;—支料,具有互相連通之一 第令至及一第二容室,該支撐件設於該基體之組裴面, 且該景>像感測單元位於該第二容室中,該第—容室内周壁 具有限位部,該限位部具有呈相對之一内緣面及一支撐面 該内緣面係抵接於該影像感測單元之感測面;及一透鏡 設於該第一容室中並抵接於該支撐件之支撐面。 本發明之影像擷取模組’其中該第二容室貫穿該支撐 件表面還可以形成有一開口,該開口周緣形成一外緣面, 且該外緣面與該基體之組裝面之間具有一間距。 或者’本發明一種影像擷取模組,係包含:一基體, 具有一組裝面;一影像感測單元,設於基體之組裝面,且 該影像感測單元具有一感測面;一支撐件,具有互相連通 之一第一容室及一第二容室,該支撐件設於基體之組裝面 ,且該影像感測單元位於該第二容室中,該第一容室内周 壁具有限位部,該限位部具有一支撐面,該第二容室貫穿 5玄支撐件表面形成有一開口’且該開口周緣形成一外緣面 201223262 ’該外緣面係抵接於祕體之組;及―透鏡,設於該 第一容室中並抵接於該支撐件之支撐面。— ° 本發明之影像操取模組,其中,該支擇件之限位部還 可以具有-内緣面,該内緣面與影像感測單元之感測面之 本發明之影像操取模組,還可以另設有一透光板,該 透光板係設於該支撐件之支撐面及該透鏡之間。 本發明之影像擷取模組,還可以另設有一蓋體該蓋 春錄設置於該支撐件,該蓋體具有—通孔,該通孔可^光 線射入至透鏡。 本發明之影像擷取模組,其中,該支撐件還可以設有 ^環凹部及該蓋體設有―_,該_係嵌設於該環凹部 本發明之影像擷取模組,其中,該基體還可以設有數 個組裝孔,及該支撐件設有數凸柱,贿凸柱可以嵌設於 該數組裝孔。 【實施方式】 為讓本發明之上述及其他目的、特徵及優點能更明顯 易〖董,下文特舉本發明之較佳實施例,並配合所附圖式, 作詳細說明如下: 凊參照第3及4圖所示,其係本發明之影像擷取模組 第一實施例,在本實施例當中’該影像擷取模組係包含一 基體1、一影像感測單元2、一支撐件3及一透鏡4。其中 ,該影像感測單元2及支撐件3均設於該基體1,且該支 201223262 撐件3係圍繞該影像感測單元2 ’該透鏡4係設於該支撐 件3並與該影像感測單元2對位,以組成該影像擷=模二 〇 該基體1係具有一組裝面11 ’該組裝面η可供該影 像感測單元2設置’且該組裝面11可另外設置數個組裝孔 11卜 該影像感測單元2具有一裝設面21及一感測面22, 該裝设面21係设置該基體1之組裳面Η,且該影像感測 單元2可透過打線或設置接點等方式與該組裝面u電性連 接,該感測面22係背向於該基體1。 該支樓件3係為一中空框體,且該支樓件3内具有一 第一谷至31及一第·一谷至32,該第一容室31及第二容室 32互相連通,且該第一容室31及第二容室32係貫穿該支 撐件3之相對二表面而分別形成一第一開口 3]1及一第二 開口 321。該第一容室31之内周壁具有呈凸出之限位部 ,該限位部33可以是由該第一容室31内周壁凸出之環板 ,或是由該第一容室31内周壁朝向中央延伸之數個凸塊, 本實施例中,該限位部33係為一環板並具有呈相對之一支 撐面331及一内緣面332,該支樓面係朝向該第一開 口 311,該内緣面332係朝向該第二開口 321,且該内緣面 332能夠抵接於該影像感測單元2之感測面22。該第二開 口 321周緣另形成有一外緣面34,該外緣φ %與該内緣 面332朝向相同方向,且該外緣面34可設有數個凸柱 ,各該凸柱341可嵌設於該基體i之各該組裝孔U1中, 以增加该支撐件3與基體丨間之結合穩固性,惟各該組裝 201223262 ί 及凸柱341亦可互換設置’同樣可達到增加該支撐 有一咖部35,該環凹部35係位於該第—開口 311周緣 〇 树明第-實_之影像驗組料,該支撐件 3 =設置於該基體丨之轉面u並圍繞於該影像感測單元 2外周,使該影像感測單元2位於該第二容室”中且該 限位部33之内緣面332係抵接於該影像感測單元2之感^ • * 22。該支撐件3與基體1之間可填人膠體⑹結合固 定,並使各該凸柱34!嵌設於各該級裝孔⑴巾,以增加 該支撲件3與基體1間之結合咖性。另外該外緣面34 與該組裝面11之間較佳留有一間距(Μ),以破保該内緣 面332能夠接觸該感測面22。該透鏡4係設置於該支撐件 3之第一容室31中並與該影像感測單元2相對位,該透鏡 4係抵接於該讀件3之支撐面331,且該透鏡4亦可利用 膠體(G)結合固定於該第一容室31中。 籲 另外,本發明第一實施例之影像擷取模組可增設一蓋 體5,忒蓋體5具有一通孔51,該蓋體5可設置於該支撐 件3,該通孔51可供光線射入至透鏡4,且該蓋體5亦可 利用膠體⑹將該支撐件3及透鏡4結合固定。該蓋體5 之外周緣另延伸有側牆52,該侧牆52可嵌設於該支撐件3 之環凹部35 ’以增加該蓋體5與支撐件3間之結合穩固性 由於本發明之透鏡4係抵接於該支撐件3之支撐面 331,且該支禮件3之内緣面332係抵接於該影像感測單元 201223262 2之感測面22,因此可透過該支樓面331與内緣面332之 間距(H1)來定位該感測面22與該透鏡4之間距,只要 預先設定該透鏡4之焦距,並在製造生產該支撐件3時, 依據所设定之焦距值來決定該支撙面331與内緣面332之 間距(H1) ’即可在影像擷取模組之各構件組裝時,精確 定位該影像感測單元2與該透鏡4之間距,以省去對焦程 序並精簡組裝工序。 請參照第5及6圖所示,其係本發明之影像擷取模組 第一實施例’該實施例之影像榻取模組包含一基體1、一 衫像感測早元2、一支撐件3’、一透鏡4及一蓋體5。該 第二實施例之基體1、影像感測單元2、支稽件3,、透鏡4 及蓋體5之構造特徵及結合關係與前述第一實施例相同, 故以下將不再重覆贅述。 前述第一實施例之支撐件3係透過該内緣面332抵接 於該感測面22,並使該外緣面34與該組裝面11之間可留 有一間距(hi)。 第二實施例與前述第一實施例之差別在於:該支樓件 3’係利用該外緣面34抵接於該基體1之組裝面η,而該内 緣面332與該影像感測單元2之感測面22之間係留有一間 距(h2) ’以確保該外緣面34能夠接觸該組裝面η。 由於本發明之透鏡4係抵接於該支撐件3,之支撐面 331 ’且該支撐件3’之外緣面34係抵接於該基體1之組裝 面11,因此可透過該支撐面331與該外緣面34之間距( H2)來定位該感測面22與該透鏡4之間距,只要預先設 定該透鏡4之焦距,並在製造生產該支撐件3,時,依據所 201223262 =之焦距值來決定該支標面331與該外 H2),即可在影像擷取模組之各構件組裝時4 ^距( 影像感測單元2與該透鏡4之間距, 月確弋位該 簡組裝工序。 對焦程序並精 請麵第7 ®所示,其穌發明之影_取模 實施例’在本實施例當中,該影_取模組係 -When the conventional structure is manufactured and assembled, the substrate 931, the image sensing unit 932, the cover 933, and the cover glass 934 are generally packaged to form the image sensing assembly 93' and then the lens 92 is externally threaded. The 921 is screwed into the screw hole 913 of the lens barrel holder 91, and the lens holder 91 on which the lens 92 is mounted is placed on a focal length test fixture and the lens 92 is adjusted by rotating the lens 92. The focal length of the lens 922. After the focusing operation is completed, the lens holder 91 on which the lens 92 is mounted is removed from the focal length test fixture, and the subsequent assembly process can be performed. The image sensing assembly 93 is used by the lens holder 91. The opening 915 is inserted into the accommodating space 914, and then fixed by using a glue, which constitutes the conventional image capturing module. However, the structure of the conventional image capturing module has the disadvantages of inconvenient focusing and inconvenient assembly: 蚵 个 : : 该 该 该 该 : : : : : : : : : : : 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该There is no positioning leaf in the screw hole 913 of the lens barrel 91 for the lens to abut, so that the lens 92 is screwed to the inner screw hole 913 and the image sensing component 93. The distance between the two is not the same as the red color. Therefore, all the products must be recorded one by one. When the film is used, it is quite special. When the image is used in a small size electronic product, the image is captured. The volume and the volume are bound to be relatively reduced: the mirror (4) and the object 201223262 are provided. SUMMARY OF THE INVENTION The object of the present invention is to provide an image capture grip, which is assembled when the components of the module are assembled. Accurate focusing on the lens can be done simultaneously. Another object of the present invention is to provide an image capture raft, which is convenient for the U-piece to quickly hide the cake when the fascia is taken. The image capturing module of the present invention comprises: a substrate having a -, and mounting surface, a shirt image sensing unit disposed on an assembly surface of the substrate, and the image sense, the single it has a sensing surface, having a plurality of interconnecting commands and a second chamber, the supporting member being disposed on the group surface of the substrate, and the image sensing unit is located in the second volume In the chamber, the peripheral wall of the first chamber has a limiting portion, and the limiting portion has a sensing surface which is opposite to the inner edge surface and a supporting surface, and the inner edge surface abuts against the image sensing unit; The lens is disposed in the first chamber and abuts against a support surface of the support. The image capturing module of the present invention may further comprise an opening through the surface of the support member, the peripheral edge of the opening forming an outer peripheral surface, and the outer peripheral surface and the assembly surface of the base body have a spacing. Or the image capturing module of the present invention comprises: a substrate having an assembly surface; an image sensing unit disposed on the assembly surface of the substrate; and the image sensing unit has a sensing surface; a support member a first chamber and a second chamber connected to each other, the support member is disposed on the assembly surface of the base body, and the image sensing unit is located in the second chamber, and the peripheral wall of the first chamber has a limit a limiting portion having a supporting surface, the second chamber is formed with an opening through the surface of the 5-shaped support member and the peripheral edge of the opening forms an outer peripheral surface 201223262 'the outer edge surface abuts against the group of the secret body; And a lens disposed in the first chamber and abutting the support surface of the support member. The image capturing module of the present invention, wherein the limiting portion of the supporting member further has an inner edge surface, the inner edge surface and the sensing surface of the image sensing unit, and the image capturing mode of the invention The group may further be provided with a light-transmitting plate which is disposed between the support surface of the support member and the lens. The image capturing module of the present invention may further comprise a cover body. The cover is disposed on the support member, and the cover body has a through hole, and the through hole is incident on the lens. The image capturing module of the present invention, wherein the support member is further provided with a ring recess portion and the cover body is provided with a _, the _ system is embedded in the ring recess portion of the image capturing module of the present invention, wherein The base body may also be provided with a plurality of assembly holes, and the support member is provided with a plurality of protrusions, and the brim of the briquettes may be embedded in the plurality of assembly holes. BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent. 3 and 4 are the first embodiment of the image capturing module of the present invention. In the embodiment, the image capturing module includes a substrate 1, an image sensing unit 2, and a support member. 3 and a lens 4. The image sensing unit 2 and the support member 3 are both disposed on the base body 1 , and the support member 201223262 supports the lens 2 around the image sensing unit 2 'the lens 4 is attached to the support member 3 and the image sense The measuring unit 2 is aligned to form the image 撷=module 〇. The base 1 has an assembly surface 11 ′. The assembly surface η can be set by the image sensing unit 2 and the assembly surface 11 can be additionally assembled. The image sensing unit 2 has a mounting surface 21 and a sensing surface 22, and the mounting surface 21 is provided with a set of the surface of the substrate 1, and the image sensing unit 2 can be connected or set. A contact point or the like is electrically connected to the assembly surface u, and the sensing surface 22 faces away from the base 1. The slab 3 is a hollow frame, and the slab 3 has a first valley 31 and a first valley 32, and the first chamber 31 and the second chamber 32 communicate with each other. The first chamber 31 and the second chamber 32 extend through opposite surfaces of the support member 3 to form a first opening 3]1 and a second opening 321 respectively. The inner peripheral wall of the first chamber 31 has a protruding limiting portion, and the limiting portion 33 may be a ring plate protruding from the inner peripheral wall of the first chamber 31 or may be inside the first chamber 31. In the present embodiment, the limiting portion 33 is a ring plate and has a supporting surface 331 and an inner edge surface 332 facing the first opening. 311 , the inner edge surface 332 faces the second opening 321 , and the inner edge surface 332 can abut the sensing surface 22 of the image sensing unit 2 . An outer edge surface 34 is formed on the periphery of the second opening 321 . The outer edge φ % and the inner edge surface 332 face the same direction, and the outer edge surface 34 can be provided with a plurality of protrusions, and the protrusions 341 can be embedded. In each of the assembly holes U1 of the base body i, the bonding stability between the support member 3 and the base member is increased, but the assembly 201223262 ί and the studs 341 are also interchangeably arranged to increase the support. In the portion 35, the annular recess 35 is located on the periphery of the first opening 311, and the support member 3 is disposed on the rotating surface u of the base and surrounds the image sensing unit. 2, the outer periphery of the image sensing unit 2 is located in the second chamber ” and the inner edge surface 332 of the limiting portion 33 abuts against the image sensing unit 2. The human body colloid (6) is fixedly coupled with the base body 1, and each of the protrusions 34! is embedded in each of the level of the holes (1) to increase the bonding between the member 3 and the substrate 1. Preferably, a spacing (Μ) is left between the outer edge surface 34 and the assembly surface 11 to prevent the inner edge surface 332 from contacting the sensing surface 22. The mirror 4 is disposed in the first chamber 31 of the support member 3 and is opposite to the image sensing unit 2, the lens 4 is abutted against the supporting surface 331 of the reading member 3, and the lens 4 can also be utilized. In addition, the image capturing module of the first embodiment of the present invention can be additionally provided with a cover body 5 having a through hole 51, and the cover body 5 has a through hole 51. It can be disposed on the support member 3, the through hole 51 can be used to inject light into the lens 4, and the cover body 5 can also be used to bond the support member 3 and the lens 4 by means of a glue (6). The outer periphery of the cover body 5 is further A side wall 52 is extended, and the side wall 52 can be embedded in the annular recess 35' of the support member 3 to increase the bonding stability between the cover 5 and the support member 3. Since the lens 4 of the present invention abuts the support The support surface 331 of the member 3, and the inner edge surface 332 of the gift member 3 abuts against the sensing surface 22 of the image sensing unit 201223262 2, so that the distance between the branch floor 331 and the inner edge surface 332 can be (H1) to position the distance between the sensing surface 22 and the lens 4, as long as the focal length of the lens 4 is preset, and when manufacturing the support member 3, The focal length value determines the distance between the support surface 331 and the inner edge surface 332 (H1)', so that the distance between the image sensing unit 2 and the lens 4 can be accurately located when the components of the image capturing module are assembled. In order to save the focus process and streamline the assembly process, please refer to the fifth embodiment of the image capture module of the present invention. The image capture module of the embodiment includes a substrate 1 and a The shirt image senses the early element 2, a support member 3', a lens 4, and a cover 5. The base body 1, the image sensing unit 2, the support member 3, the lens 4, and the cover 5 of the second embodiment The structural features and the combined relationship are the same as those of the first embodiment described above, and thus the detailed description thereof will not be repeated below. The support member 3 of the first embodiment is abutted against the sensing surface 22 through the inner edge surface 332, and a distance (hi) is left between the outer edge surface 34 and the assembly surface 11. The second embodiment differs from the first embodiment in that the slab member 3 ′ is abutted against the assembly surface η of the base body 1 by the rim surface 34 , and the inner edge surface 332 and the image sensing unit A spacing (h2) is left between the sensing faces 22 of 2 to ensure that the outer peripheral surface 34 can contact the assembly surface η. Since the lens 4 of the present invention abuts against the support surface 3 of the support member 3 and the outer edge surface 34 of the support member 3 abuts against the assembly surface 11 of the base body 1, the support surface 331 can be transmitted through the support surface 331. Positioning the distance between the sensing surface 22 and the lens 4 by the distance (H2) between the outer edge surface 34, as long as the focal length of the lens 4 is preset, and when the support member 3 is manufactured, according to 201223262 = The focal length value determines the branch surface 331 and the outer H2), that is, the distance between the image sensing unit 2 and the lens 4 when the components of the image capturing module are assembled (the distance between the image sensing unit 2 and the lens 4) Assembly process. Focusing program and fine-grained surface shown in Figure 7®, the shadow of the invention - the mode of the mold - in this embodiment, the film - the module -
體卜-影像感測單元2、—支稽件3、—透鏡4及, 5。該第三實關基體1、影像❹彳單元2、切件3體 鏡4及蓋體5之組成構件及各構件之間的結合關係與々, 第一實施例相同,故以下將不再重覆贅述。 一則a 該第三實施例之影像擷取模組係另具有—透光板6 該透光板6可為一多層膜濾光片並具有呈相對之一第一表 面61及一第二表面62。該透光板6係設置於該支撐件$ 之第一容室31中並位於該支撐面331及透鏡4之間且爷 透光板6之第一表面61及第二表面62係同時與該支撐面 331及該透鏡4抵接。 該透光板6係可過濾部分光線,加強該感測面22所 感測影像之清晰度’另外’在該透鏡4尚未裝設於該支樓 件3之第一容室31内時,該影像感測單元2之感測面22 係呈外露’因此’該影像感測單元2在移送至其它產線以 進行後續之透鏡4組裝程序時’該感測面22在移送的過程 中可能會沾附灰塵或水氣。由於本實施例設有該透光板6 ,因此,在該透鏡4尚未裝設於該第一容室31時,該透光 板6可以將該感測面22與外界空氣阻隔,以避免該感測面 22沾附灰塵或水氣。 —11 — 201223262 本發明之影像操取模組,係可以如第一實施例所示, 由該支樓件3利用内緣面332抵接於影像感測單元2之感 測面22,或如第二實施例所示,由該支樓件3,之外緣面 34抵接於該基體1之組震面u,因此只要預先設定該透鏡 4之,、、、距並在製;^生產該支撐件3、3,時,依據所設定之 焦距值來決定該支樓面331與内緣面332之間距(叫( 如第-實施例所示)’或者是依據所設定之焦距值來決定該 支撐面331與外緣面34之間距(H2)(如第二實施例所示 ),即可輕鬆地定位該影像感測單元2與該透鏡4之間距, 並可確保該透鏡4及影像感測單元2均能夠正確地裝設於 互相聚焦位置,因此本發明之影像擷取模組在組裝時,可 以省略對所有產品逐-進行對焦,本發明之影像摘取模組 具有可以省去透鏡之對焦程序效果之功效。 本發明之影像擷取模組在組裝時,可藉由該支撐件3 、3’同時提供财彡像制單元2及舰4抵狀位,可快 速且正確地定位·彡像_單元2及魏4,本發明之影 像擷取模組具有組裝更方便效果之功效。 〜 雖然本發明已利用上述較佳實施例揭示,然其並非用 以限定本發明,任何„此縣者在残離本發明之精神 和fc圍之内’相對上述實施例進行各種更動與修改仍屬本 發明所保護之技術範缚,因此本發明之保護範圍當視後附 之申請專利範圍所界定者為準。 【圖式簡單說明】 第1圖:習知結構之立體分解圖。 —12 — 201223262 第2圖:習知結構之組合剖視圖。 第3圖:本發明第一實施例之立體分解圖。 第4圖:本發明第一實施例之組合剖視圖。 第5圖’本發明弟二實施例之立體分解圖。 第6圖.本發明第二實施例之組合剖視圖。 第7圖:本發明第三實施例之組合剖視圖。 【主要元件符號說明】 • 〔本發明〕 1 基體 11 組裝面 111 組裝孔 2 影像感測單元 21 裝設面 22 感測面 3 支撐件 31 第一容室 311 第一開口 32 第二容室 321 第二開口 33 限位部 331 支撐面 332 内緣面 34 外緣面 341 凸柱 35 環凹部 3, 支撐件 4 透鏡 5 盍體 51 通孔 52 側牆 6 透光板 61 第一表面Body-image sensing unit 2, supporting component 3, lens 4 and 5. The third real-off base 1, the image ❹彳 unit 2, the cutting member 3, the body mirror 4, and the components of the cover 5 and the bonding relationship between the members are the same as those of the first embodiment, so the following will not be heavy. Overwrite the statement. The image capturing module of the third embodiment further has a light transmissive plate 6 . The light transmissive plate 6 can be a multilayer film filter and has a first surface 61 and a second surface. 62. The light-transmitting plate 6 is disposed in the first chamber 31 of the support member $ between the support surface 331 and the lens 4, and the first surface 61 and the second surface 62 of the light-transmitting plate 6 are simultaneously The support surface 331 and the lens 4 abut. The light-transmitting plate 6 can filter a part of the light to enhance the sharpness of the image sensed by the sensing surface 22. In addition, when the lens 4 is not installed in the first chamber 31 of the branch member 3, the image is The sensing surface 22 of the sensing unit 2 is exposed. Therefore, when the image sensing unit 2 is transferred to another production line for subsequent lens 4 assembly process, the sensing surface 22 may be stained during the transfer process. Attach dust or moisture. Since the light-transmitting plate 6 is provided in the embodiment, when the lens 4 is not installed in the first chamber 31, the light-transmitting plate 6 can block the sensing surface 22 from the outside air to avoid the The sensing surface 22 is stained with dust or moisture. 11: 201223262 The image manipulation module of the present invention can be abutted against the sensing surface 22 of the image sensing unit 2 by the inner edge surface 332 as shown in the first embodiment, or as In the second embodiment, the outer edge surface 34 of the branch member 3 abuts against the group surface u of the base body 1. Therefore, if the lens 4 is set in advance, the distance between the lens and the lens is determined. The support members 3, 3, according to the set focal length value, determine the distance between the support floor 331 and the inner edge surface 332 (called (as shown in the embodiment)' or according to the set focal length value Determining the distance between the support surface 331 and the outer edge surface 34 (H2) (as shown in the second embodiment), the distance between the image sensing unit 2 and the lens 4 can be easily located, and the lens 4 can be ensured. The image sensing unit 2 can be correctly installed in the mutually focused position. Therefore, the image capturing module of the present invention can omit focusing on all products one by one during assembly, and the image capturing module of the present invention can save The effect of the focus program of the lens is removed. The image capturing module of the present invention can be assembled by The support members 3 and 3' simultaneously provide the financial image unit 2 and the ship 4 to the position, and can be quickly and correctly positioned, the image unit 2 and the Wei 4, and the image capturing module of the invention has the convenience of assembly. 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 And the modifications are still within the technical scope of the present invention, and therefore the scope of the present invention is defined by the scope of the appended claims. [Simplified Schematic] FIG. 1 is an exploded perspective view of a conventional structure. — 12 — 201223262 Fig. 2 is a cross-sectional view showing a combination of a conventional structure. Fig. 3 is an exploded perspective view showing a first embodiment of the present invention. Fig. 4 is a sectional view showing a combination of the first embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 6 is a cross-sectional view showing a combination of a second embodiment of the present invention. FIG. 7 is a cross-sectional view showing a combination of a third embodiment of the present invention. [Description of Main Components] • [Invention] 1 Base 11 Assembly surface 111 assembly hole 2 image sensing unit 21 mounting surface 22 sensing surface 3 support member 31 first chamber 311 first opening 32 second chamber 321 second opening 33 limiting portion 331 supporting surface 332 inner peripheral surface 34 outer edge surface 341 stud 35 ring recess 3, support 4 lens 5 body 51 through hole 52 side wall 6 light transmissive plate 61 first surface
一 13 一 S 201223262 62 第二表面 hi 間距 h2 間距 HI 間距 H2 間距 G 膠體 〔習知〕 91 鏡筒座 911 上筒部 912 下筒部 913 内螺孔 914 容置空間 915 開口 92 鏡頭 921 外螺紋 922 透鏡 93 影像感測組件 931 基板 932 影像感測單元 933 罩蓋 933a穿槽 934 玻璃盖板13 13 S 201223262 62 Second surface hi Spacing h2 Spacing HI Spacing H2 Spacing G Colloid [General] 91 Lens base 911 Upper cylinder 912 Lower cylinder 913 Inner screw hole 914 Housing space 915 Opening 92 Lens 921 External thread 922 lens 93 image sensing component 931 substrate 932 image sensing unit 933 cover 933a through slot 934 glass cover