201215940 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明涉及一種鏡頭模組。 [先前技術3 [0002] 應用在相機或光學儀器上之鏡頭模組通常包括鏡筒、透 鏡組、遮光片和濾光片。其中,透鏡、遮光片和滤光片 均固定於鏡筒内。在鏡頭模組之組裝過程中,—般係藉 由點膠工藝來固定濾光片和鏡筒。在點膠過程中,首先 提供一待點膠之鏡頭模組,再勝點膠裝置之點膠針頭抵 〇 靠在濾光片與鏡筒内學之交接處,然後使點膠針頭旋轉 並射出膠水,從而實現在濾光片及鏡筒内壁上塗布膠水 〇 : ί+sT..ii .ρ: : 二:.-二二ν _ 惟,由於膠水之流動性較強,當點膠針頭旋轉將膠水塗 布於濾光片及鏡筒内壁之交接處時,膠水容易流動從而 出現溢膠現象,即膠水從該交接處流動溢出至濾光片上 ’從而污染了濾光片,降低了組裝良率。 〇 【發明内容】 [0004] 有鑒於此,有必要提供一種可提高組裝良率之鏡頭模組 〇 [0005] _種鏡頭模組,其包括一鏡筒、至少一透鐃、一濾光片 及膠體。所述鏡筒包括一筒體及一前蓋。所述則蓋蓋設 在筒體上。所述至少-透鏡及遽光片依次111設於筒體内 。所述筒體包括一遠離所述前蓋之筒體底部以濾光片 包括一物側底面、一與所述物側底面相對之像側底面、 及-連接所述物側底面和像侧底面之側雙°所述肉體底 099134820 表單編號Α0101 第5頁/共18頁 0992060790-0 201215940 [0006] [0007] [0008] [0009] 099134820 部開設有至少一個開口。所述濾光片收寥在所述鏡筒之 筒體内且所述濾光片之側壁與所述開口之間形成有至少 一塗膠區。所述膠體塗布於所述至少一塗膠區内,以使 所述濾光片固設在所述鏡筒之筒體底部上。 相對於先前技術,本發明提供之鏡頭組之鏡筒之筒體底 部開設有至少一個開口,所述濾光片收容在所述鏡筒之 筒體内後,所述濾光片之侧壁與所述開口之間形成有塗 膠區,所述膠體塗布於所述塗膠區内,以使所述濾光片 固設在所述鏡筒之筒體底部上。因此,由於所述側壁之 阻擋作用,所述膠體不會流動到所述濾光片上,從而不 會對濾光片造成污染,提高了組裝良率。 【實施方式】 下面將結合附圖對本發明實施方式作進一步之詳細說明 Ο 請一併參閱圖1至圖3,本發明實施方式提供之一種鏡頭 模組100。該鏡頭模組100包括一鏡筒10、一第一透鏡20 、一第一遮光元件30、一第二透鏡40、一第二遮光元件 50、一第三透鏡60、一濾光片70及一膠體80。所述第一 透鏡20、第一遮光元件30、第二透鏡40、第二遮光元件 50、第三透鏡60及濾光片70沿所述鏡頭模組100之光軸 方向依次收容於所述鏡筒10内。 所述鏡筒10為一端半封閉之筒狀體,該鏡筒10包括一筒 體11及一前蓋12。所述前蓋12蓋設在所述筒體11之一端 。本實施方式中,所述筒體11與所述前蓋12—體成型。 所述前蓋12之中心位置處開設有一進光孔120,外部光線 表單編號A0101 第6頁/共18頁 0992060790-0 201215940 • 藉由該進光孔120進入到鏡筒10内。所述筒體11包括一内 侧壁112、一外側璧114及遠離所述前蓋12之筒體底部 115 (即筒體11之像侧面)。所述筒艘11之内侧壁112為 黑色,其可將投射到筒體11之内側璧112之光線吸收,以 減少因光線照射到筒體11之内側壁112後形成之雜散光對 成像品質之影響。所述外側壁114上設有外螺纹11 〇。可 以理解,所述鏡筒1〇整體也可採用不透光材料製成從而 達到遮罩光線之目之。本實施方式中’所述鏡筒10之前 蓋12内側形成有一階梯狀凸台12 2,此階梯狀凸台12 2為 〇 環形,並可以與前琴12 —體成型。所述增梯狀凸台12 2具 有一卡合面123。所述筒體底部115開設有兩個開口 116 。本實施方式中,所述兩個開,口 116為孤形且相對所述鏡 頭模組100之光轴對稱。 [0010] [0011] 〇 099134820 可以理解的是,也可根據需求設置一個或兩個以上之兩 個開口 116,並不限於本實施方式。 所述第一透鏡20包括一光學部22及環繞光學部22之非光 學。卩24。所述先學郁22為起光學作用之部分,該光學部 22可應具體需要設置為凹或凸之形狀’從而對光線進行 吻井尤學部24包圍並連接光學部22,主要 作用為放置、古检 文得光學部22。所述第一透鏡20之非光學 部24具有一靠 、 开兀*子 246相對之 斤述進光孔120之物側面246及與物側面 赠2 ^象側面243。所述物側面246具有一階梯狀環 面123相匹狀環體240具有一與所述鏡筒10之卡合 面123緊密接觸,固面241,所述卡固面241與所述卡合 用於將第一透鏡20定位於鏡筒1〇中。所 $ 7頁/共18頁201215940 VI. Description of the Invention: [Technical Field of the Invention] [0001] The present invention relates to a lens module. [Prior Art 3 [0002] A lens module applied to a camera or an optical instrument generally includes a lens barrel, a lens group, a light shielding film, and a filter. Among them, the lens, the light shielding film and the filter are all fixed in the lens barrel. In the assembly process of the lens module, the filter and the lens barrel are fixed by a dispensing process. In the dispensing process, firstly, a lens module to be dispensed is provided, and then the dispensing needle of the dispensing device is placed against the intersection of the filter and the lens tube, and then the dispensing needle is rotated and injected. Glue, so as to apply glue on the inner wall of the filter and the lens barrel: ί+sT..ii .ρ: : 2:.-two two ν _ However, due to the strong fluidity of the glue, when the dispensing needle rotates When the glue is applied to the junction of the filter and the inner wall of the lens barrel, the glue flows easily and the glue overflows, that is, the glue overflows from the junction to the filter, thereby contaminating the filter and reducing the assembly. rate. [0004] In view of the above, it is necessary to provide a lens module that can improve the assembly yield. [0005] A lens module includes a lens barrel, at least one lens, and a filter. And colloids. The lens barrel includes a barrel and a front cover. The cover is disposed on the cylinder. The at least-lens and the calendering sheet are sequentially disposed 111 in the cylinder. The cylinder includes a bottom portion of the cylinder away from the front cover, the filter includes an object side bottom surface, an image side bottom surface opposite to the object side bottom surface, and - the object side bottom surface and the image side bottom surface The side of the body is the same as the body bottom 099134820 Form No. 101 0101 Page 5 / 18 pages 0992060790-0 201215940 [0006] [0008] [0009] 099134820 is provided with at least one opening. The filter is received in the barrel of the barrel and at least one glue-coated area is formed between the side wall of the filter and the opening. The colloid is applied to the at least one glue application zone such that the filter is fixed on the bottom of the barrel of the lens barrel. Compared with the prior art, at least one opening is formed in the bottom of the barrel of the lens barrel of the lens group provided by the present invention. After the filter is housed in the barrel of the lens barrel, the side wall of the filter is A glue application zone is formed between the openings, and the glue is applied to the glue application zone to fix the filter on the bottom of the cylinder of the lens barrel. Therefore, due to the blocking action of the side walls, the colloid does not flow onto the filter, thereby not polluting the filter and improving the assembly yield. The embodiments of the present invention will be further described in detail with reference to the accompanying drawings. Referring to FIG. 1 to FIG. 3, a lens module 100 according to an embodiment of the present invention is provided. The lens module 100 includes a lens barrel 10 , a first lens 20 , a first light blocking component 30 , a second lens 40 , a second light blocking component 50 , a third lens 60 , a filter 70 , and a lens Colloid 80. The first lens 20, the first light blocking element 30, the second lens 40, the second light blocking element 50, the third lens 60, and the filter 70 are sequentially received in the mirror along the optical axis direction of the lens module 100. Inside the barrel 10. The lens barrel 10 is a cylindrical body whose one end is semi-closed, and the lens barrel 10 includes a cylindrical body 11 and a front cover 12. The front cover 12 is disposed at one end of the cylindrical body 11. In the present embodiment, the tubular body 11 and the front cover 12 are integrally formed. A light entrance hole 120 is defined in the center of the front cover 12, and the external light forms No. A0101 Page 6 of 18 0992060790-0 201215940 • The light entrance hole 120 enters the lens barrel 10. The barrel 11 includes an inner side wall 112, an outer side sill 114, and a bottom portion 115 of the barrel away from the front cover 12 (i.e., the image side of the barrel 11). The inner side wall 112 of the canister 11 is black, which absorbs the light projected to the inner side 112 of the barrel 11 to reduce the stray light formed by the light being irradiated onto the inner side wall 112 of the barrel 11 for imaging quality. influences. The outer side wall 114 is provided with an external thread 11 〇. It can be understood that the lens barrel 1 can also be made of an opaque material as a whole to achieve the purpose of masking light. In the present embodiment, a stepped boss 12 2 is formed on the inner side of the cover 12 before the lens barrel 10, and the stepped boss 12 2 is formed in a ring shape and can be integrally formed with the front piano 12. The stepped boss 12 2 has an engaging surface 123. The bottom 115 of the cylinder is provided with two openings 116. In this embodiment, the two openings 116 are isolated and symmetric with respect to the optical axis of the lens module 100. [0011] 〇 099134820 It is to be understood that one or two or more openings 116 may be provided as needed, and are not limited to the embodiment. The first lens 20 includes an optical portion 22 and a non-optical portion surrounding the optical portion 22.卩24. The first learning depression 22 is a part that plays an optical role, and the optical portion 22 can be set to a concave or convex shape according to specific needs, so that the light is surrounded by the kiss well and the optical portion 22, and the main function is to place, The ancient prosecutor obtained the optical department 22. The non-optical portion 24 of the first lens 20 has a side surface 246 opposite to the opening aperture 246 and a side surface 243 opposite the object side. The object side surface 246 has a stepped annular surface 123. The matching ring body 240 has a close contact with the engaging surface 123 of the lens barrel 10, and the fixing surface 241 is engaged with the locking surface 241 for the engagement. The first lens 20 is positioned in the lens barrel 1〇. $7/total 18 pages
表單編號A010J 099206079 201215940 述第一透鏡20之非光學部24之像側面243沿垂直所述像側 面243方向延伸有一凸緣244。 [0012] 本實施方式中,所述第一遮光元件30為無反射型SOMA ( S0MA-NR )遮光片,且其形狀為中空圓環狀,該第一遮光 片30包括中心透光區31和圍繞中心透光區31之遮光區32 。所述第一遮光片30承載在所述第一透鏡20之非光學部 24之像側面243上,且所述第一遮光片30之中心透光區 31與所述第一透鏡20之光學部22相對正。所述第一遮光 元件30之遮光區32用於吸收穿過所述第一透鏡20之光學 部22週邊之雜散光線。 [0013] 所述第二透鏡40包括一光學部42及環繞光學部42之非光 學部44。該非光學部44包圍並連接光學部42,主要作用 為放置、支樓光學部42。所述非光學部44包括一物侧面 441及一所述物侧面441相對之像側面442。所述非光學 部44之物側面441對應所述第一透鏡20之非光學部24之 像側面243上之凸緣244位置開設有缺口 444。本實施方 式中,所述第一透鏡20之凸緣244對應緊密卡置於所述第 二透鏡40之缺口 444内,以使第二透鏡40精確地定位於第 一透鏡20之非光學部24之像側面242上。如此,可以減少 透鏡組裝歪斜之機率。Form No. A010J 099206079 201215940 The image side surface 243 of the non-optical portion 24 of the first lens 20 has a flange 244 extending in the direction perpendicular to the image side surface 243. [0012] In the embodiment, the first light shielding element 30 is a non-reflective SOMA (S0MA-NR) light shielding sheet, and has a hollow annular shape, and the first light shielding sheet 30 includes a central light transmission area 31 and The light shielding area 32 surrounds the central light transmission area 31. The first light shielding sheet 30 is carried on the image side surface 243 of the non-optical portion 24 of the first lens 20, and the central light transmitting region 31 of the first light shielding sheet 30 and the optical portion of the first lens 20 22 is relatively positive. The light shielding region 32 of the first light shielding member 30 serves to absorb stray light passing through the periphery of the optical portion 22 of the first lens 20. [0013] The second lens 40 includes an optical portion 42 and a non-optical portion 44 surrounding the optical portion 42. The non-optical portion 44 surrounds and connects the optical portion 42, and functions mainly as a placement and branch optical portion 42. The non-optical portion 44 includes an object side surface 441 and an image side surface 441 opposite to the image side surface 442. The object side surface 441 of the non-optical portion 44 is provided with a notch 444 at a position corresponding to the flange 244 on the image side surface 243 of the non-optical portion 24 of the first lens 20. In this embodiment, the flange 244 of the first lens 20 is closely inserted into the notch 444 of the second lens 40 so that the second lens 40 is accurately positioned on the non-optical portion 24 of the first lens 20 . The image is on the side 242. In this way, the probability of lens assembly skew can be reduced.
[0014] 本實施方式中,所述第二遮光元件50也為無反射型SOMA (S0MA-NR)遮光片,且其形狀為中空圓環狀。該第二遮 光片50包括中心透光區51和圍繞中心透光區51之遮光區 52。所述第二遮光片50承載在所述第二透鏡40之非光學 部44之像側面442上,且所述第二遮光片50之中心透光區 099134820 表單編號A0101 第8頁/共18頁 0992060790-0 201215940 k透鏡4G之光學部似目對正^述第二遮光 元件50之遮光區52用於吸收穿過所述第二透細之光學 相週邊之雜散光線’以提高鏡頭模組_之成像品質。 [0015] 所述第三透鏡6Q包括-光學部62及環燒光學箱之非光 子464 °亥非光學部64包圍並連接光學部62,主要作用 為放置、支擇光學部62。所述第三透細之非光學部64 承載在所述第二遮光元件5Q之遮光區52上。 [0016] ❹ «施例之鏡頭模組削包括三個透鏡,可以理解的是, 避可以根據這—原理疊加第四、第五透鏡等,也可根據 需求只設置-個或兩個透鏡,並不限於本實施方式。同 時’各透鏡之間可藉由透鏡之部分側&與另—鏡片互相 卡合這一構造,來達到避免組裴歪斜之目之。 [0017] ❹ 貝方弋中,所述滤光片7〇為一紅外截止濾光片,其 收容於所述筒體11内,該濾光片包括-物側底面71'、 -與所述物側底面71相對之像側底面72、及—連接所述 物側底面71和像舰面72之難?3。所料光片7〇之物 侧底面71承栽在所述第三透鏡㈣之非光學部64之像側面 641上所述第一透鏡2〇、第二透鏡4〇、第二遮光元件 5〇、第三透鏡60、濾光片70沿光轴方向上之厚度之和略 大於所述鏡筒1〇之筒體11沿光軸方向上之厚度,所述濾、 光片70承栽在所述第三透鏡60之非光學部64之像側面 641上後,該濾光片70之側壁73高出所述筒體底部115之 開口 116,即濾光片70之侧壁73裸露於所述開口116外。 所述濾先片70之側壁73與兩個所述開口 116之間分別形成 有一個塗膠區90。所述膠體80塗布於所述塗膠區9〇内以 099134820 表單編號A0101 第9頁/共18頁 0992060790-0 201215940 使所述濾光片70固設在所述筒體底部11 5上。由於所述側 壁73之阻擋作用,所述膠體80不會流動到所述濾光片70 之物側底面71或像侧底面72,從而不會對濾光片70造成 污染。 [0018] 综上所述,本發明確已符合發明專利之要件,遂依法提 出專利申請。惟,以上所述者僅為本發明之較佳實施方 式,自不能以此限制本案之申請專利範圍。舉凡熟悉本 案技藝之人士援依本發明之精神所作之等效修飾或變化 ,皆應涵蓋於以下申請專利範圍内。 【圖式簡單說明】 [0019] 圖1為本發明實施方式提供之鏡頭模組之立體組裝示意圖 [0020] 圖2為本發明實施方式提供之鏡頭模組之立體分解示意圖 [0021] 圖3為圖1中之鏡頭模組沿III-III線之剖示圖。 【主要元件符號說明】 [0022] 鏡頭模組:100 [0023] 鏡筒:10 [0024] 第一透鏡:20 [0025] 第一遮光元件:30 [0026] 第二透鏡:40 [0027] 第二遮光元件:50 099134820 表單編號A0101 第10頁/共18頁 0992060790-0 201215940 [0028] 第三透鏡:60 [0029] 濾光片:70 [0030] 膠體:80 [0031] 筒體:11 [0032] 前蓋:12 [0033] 進光孔:120 [0034] 内侧壁:112 〇 [0035] 外側壁:114 [0036] 筒體底部:115 [0037] 外螺紋:110 [0038] 階梯狀凸台·· 122 [0039] 卡合面:123 [0040] 〇 開口 : 116 [0041] 光學部:22、42 [0042] 非光學部:24 、44 [0043] 物侧面:2 4 6、4 41 [0044] 像側面:243、442、641 [0045] 階梯狀環體:240 [0046] 卡固面:241 099134820 表單編號A0101 第11頁/共18頁 0992060790-0 201215940 [0047] 凸緣:244 [0048] 中心透光區:3 1、5 1 [0049] 遮光區:32、52 [0050] 缺口 : 444 [0051] 物側底面:71 [0052] 像側底面:72 [0053] 側壁:73 0992060790-0 099134820 表單編號A0101 第12頁/共18頁[0014] In the present embodiment, the second light blocking element 50 is also a non-reflective SOMA (S0MA-NR) light shielding sheet, and has a hollow annular shape. The second visor 50 includes a central light transmitting region 51 and a light blocking region 52 surrounding the central light transmitting region 51. The second light shielding sheet 50 is carried on the image side surface 442 of the non-optical portion 44 of the second lens 40, and the central light transmission region of the second light shielding sheet 50 is 099134820. Form No. A0101 Page 8 of 18 0992060790-0 201215940 k The optical portion of the lens 4G is aligned to the light-shielding region 52 of the second light-shielding element 50 for absorbing the stray light passing through the periphery of the second through-hole optical phase to improve the lens module _ image quality. [0015] The third lens 6Q includes an optical portion 62 and a non-photon 464° non-optical portion 64 of the ring-burning optical box that surrounds and connects the optical portion 62, and functions mainly to place and support the optical portion 62. The third through-optical non-optical portion 64 is carried on the light-shielding region 52 of the second light-shielding member 5Q. [0016] ❹ «The lens module of the embodiment includes three lenses. It can be understood that the fourth and fifth lenses can be superimposed according to this principle, and only one or two lenses can be set according to requirements. It is not limited to this embodiment. At the same time, the configuration of each of the lenses can be avoided by the combination of the partial side of the lens and the other lens. [0017] In the ❹ 弋 , , the filter 7 〇 is an infrared cut filter, which is housed in the barrel 11 , the filter includes an object side bottom surface 71 ′, and Is it difficult to connect the object side bottom surface 71 with respect to the image side bottom surface 72, and to connect the object side bottom surface 71 with the ship surface 72? 3. The object side bottom surface 71 of the light sheet 7 is loaded on the image side surface 641 of the non-optical portion 64 of the third lens (four), the first lens 2, the second lens 4, and the second light blocking member 5 The sum of the thicknesses of the third lens 60 and the filter 70 in the optical axis direction is slightly larger than the thickness of the cylindrical body 11 of the lens barrel 1 in the optical axis direction, and the filter and light sheet 70 are placed in the After the image side surface 641 of the non-optical portion 64 of the third lens 60 is disposed, the sidewall 73 of the filter 70 is raised above the opening 116 of the bottom portion 115 of the cylinder, that is, the sidewall 73 of the filter 70 is exposed to the Outside the opening 116. A glue application zone 90 is formed between the side wall 73 of the filter strip 70 and the two openings 116, respectively. The colloid 80 is applied to the glue coating zone 9 to 099134820. Form No. A0101, page 9 / page 18 0992060790-0 201215940 The filter 70 is fixed on the bottom portion 115 of the cylinder. Due to the blocking action of the side walls 73, the colloid 80 does not flow to the object side bottom surface 71 or the image side bottom surface 72 of the filter 70, so that the filter 70 is not contaminated. [0018] In summary, the present invention has indeed met the requirements of the invention patent, and the patent application is filed according to law. However, the above description is only a preferred embodiment of the present invention, and it is not possible to limit the scope of the patent application of the present invention. Equivalent modifications or variations made by persons skilled in the art in light of the spirit of the invention are intended to be included within the scope of the following claims. BRIEF DESCRIPTION OF THE DRAWINGS [0019] FIG. 1 is a perspective exploded view of a lens module according to an embodiment of the present invention. [0020] FIG. 2 is a perspective exploded view of a lens module according to an embodiment of the present invention. [0021] FIG. Figure 1 is a cross-sectional view of the lens module taken along line III-III. [Main component symbol description] [0022] Lens module: 100 [0023] Lens barrel: 10 [0024] First lens: 20 [0025] First shading element: 30 [0026] Second lens: 40 [0027] Two shading elements: 50 099134820 Form No. A0101 Page 10 / Total 18 pages 0992060790-0 201215940 [0028] Third lens: 60 [0029] Filter: 70 [0030] Colloid: 80 [0031] Cylinder: 11 [ 0032] Front cover: 12 [0033] Light-receiving hole: 120 [0034] Inner side wall: 112 〇 [0035] Outer side wall: 114 [0036] Cylinder bottom: 115 [0037] External thread: 110 [0038] Stepped convex Table · 122 [0039] Engagement surface: 123 [0040] 〇 opening: 116 [0041] Optical part: 22, 42 [0042] Non-optical part: 24, 44 [0043] Side of the object: 2 4 6, 4 41 [0044] Image side: 243, 442, 641 [0045] Stepped ring body: 240 [0046] Carding surface: 241 099134820 Form number A0101 Page 11 / 18 pages 0992060790-0 201215940 [0047] Flange: 244 [0048] Central light transmission area: 3 1 , 5 1 [0049] Light shielding area: 32, 52 [0050] Notch: 444 [0051] Object side bottom surface: 71 [0052] Image side bottom surface: 72 [0053] Side wall: 730992060790-0 099134820 Form No. A0101 Page 12 of 18