M358330 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種光學單元及攝影裝置,尤指一種具 備保持光學部件的面罩的光學單元及拍攝體的攝影裝 置。 【先前技術】 近年來,在仃動電話等的小型機器内置用於被攝體拍 的攝办裝置廣為普及。透過使通常經常攜帶的小瘦機器 :,办裝置’可省卻攜帶數位相機或攝影機的麻煩’隨 梦恭:夠幸工易地進行拍攝。另外,這些小型機器一般預先 用無線或紅外線等的資料資訊功能,從而還具有 Ϊ腦;I::攝的圖像立即送至其他的行動電話或個人用 包^專的優點。 15 通當仃動電話等小型機器内置的攝影裝置,因與 通常的數位相機相比M358330 V. New description: [New technical field] This creation relates to an optical unit and a photographing device, and more particularly to a photographing device for an optical unit and a photographing body having a mask for holding an optical component. [Prior Art] In recent years, a camera device for capturing a subject in a small device such as a mobile phone has been widely spread. By making the small and thin machines that are usually carried often: the device can save the trouble of carrying a digital camera or a camera. 随随梦恭: Fortunately, it is easy to shoot. In addition, these small machines generally use data information functions such as wireless or infrared rays in advance, and thus have a camphor; I: The images taken immediately are sent to other mobile phones or personal packages. 15 It is a camera built into a small machine such as a mobile phone, because it is compared with a normal digital camera.
Coupled Device) CCD (Charge ς . 攝衫兀件或 MOS (Metal 〇xideCoupled Device) CCD (Charge ς . CAM / MOS (Metal 〇xide
Semlconductor)攝影元件 件」)、透鏡及私說地 1這些統稱為「攝影元 20限制。因此,^此j ^大小或收納它們的空間被大幅度 用時拍攝功能= = = Ϊ作為數位相機的替代機器使 存器得到圖像的情況或得二=如代替儲 況等,其大多用途^專待圖面用圖像的情 疋用於不要求高畫質的拍攝。 M358330 關;、一方面,近年以來,開發了高晝素的小型攝影 元件或對應此的小母〗读#榮 … 質化發展迅速。而且,也開發了以省電的方式驅』 Γ:=!傳動機構等,在小型機器也裝載了自動聚焦功 變’、,、功⑥等。如此’小型機器用攝影裝置在晝質方面 及拍攝功能方面已將技術提高至接近於通常的數位相機的Semlconductor), lens and privately-known 1 are collectively referred to as "photography element 20 limits. Therefore, ^j^ size or the space in which they are stored is used greatly when shooting function === Ϊ as a digital camera In the case of replacing the machine, the image is obtained by the memory or the second================================================================================ In recent years, we have developed a small photographic element of sorghum, or a small mother 〗 〖Reading #荣... The quality has developed rapidly. Moreover, it has also developed a power-saving way to drive Γ:=! Transmission mechanism, etc. Small machines are also equipped with autofocus power changes ', , , work 6 , etc.. Such 'small machine photographic devices have improved the technology to close to the usual digital cameras in terms of enamel and shooting functions.
10 15 程度,以後將會推進關於更為小型化、防水性、耐衝擊性、 操作性等有關的技術開發。 圖1是表示在寬幅方向切斷攝影裝置時的剖視圖。 需要說明的是,在圖1中,設為從圖上方將被攝體光 線入射,將圖上方稱為前、將圖下方稱為後進行說明。 攝〜哀置1 ’裝載在行動電話等,在框體3〇内收納透 鏡40或驅動透鏡40的透鏡驅動機構(圖中未示)等,在透鏡 侧成像面龜備接收被攝體光“生錢像㈣的攝影 元件(圖中未示)。 在框體30的前面設置有用於被攝體光線通過的孔徑 籲3〇a ’在形成其孔徑施的孔徑部件3 1的前面側塗佈黏著劑 50,並貼附有防止灰塵對透鏡4〇附著的玻璃蓋2〇。 另外,在玻璃蓋20的進一步前面側安裝有在對應於框 2〇體30的孔徑3(^的位置嵌入具有光透過性的透明部件丨丨的 頂盖10。 在装載於小型機器的攝影裝置丨中,設想了在室外攜 ▼使用的情況,有必要對框體30内的透鏡40或攝影元件等 進行確實地防水。關於這一點,在專利文獻i記載了在玻璃 M358330 ::框體3 〇之間夹入防水襯墊的攝影裝置。根據此專利 置的-二载的攝影裝置’在雨天的室外使用裝载該攝影裝 話等時,可避免水進入攝影裝置内引起攝影裝 置故F早的不良情況。 5 15 【專利文獻1】專利公開2〇〇5_2i5i52號公報 但疋,在經常攜帶的小型機器中,比起高度方向或寬 型!特别要求薄型化。然而,對拍攝圖像的畫 ^ θ 已貝現薄型化的透鏡40或攝影元件等要變得更 :疋困難的’並且當使對拍攝圖像的晝質影響小的框體% 或頂羞U)或玻璃蓋20等變薄時’具有攝影裝置i整體強度劣 化的問題。另外,·經常在室外使用的攝影裝置!中,不省卻 用於保護透鏡40或攝影元件的頂蓋1〇或破璃蓋2〇,不減少 部件數或使部件本身薄型化,使攝影裝置以 術,其開發正在探求中。 —另外,這樣的技術開發不是僅限定於具備保護透鏡的 頂蓋或保護鏡片的攝影裝置的問題,是在具備保護光學部 件的頂蓋或保護鏡片的光學單元領域中,通常被要求的技 術。 【新型内容】 本創作是繁於上述問題而提出的,其目的在於,提供 一種確實㈣護光學部件的同時可使裝置整體薄型化的光 學單元及攝影裝置。 為達成上述目的,本創作的光學單元,其中,包括: 20 M358330 框體’其具有光通過的孔徑並内置光學部件; 支承片,其被貼附於框體外面的與孔徑鄰接的鄰接 部,並覆蓋孔徑的至少與鄰接部鄰接的周圍區域; 光透過性面罩,其被貼附於支承片的框體的内側面。 5 根據本創作的光學單元,在框體的與孔徑鄰接的鄰接 部貼附支承片,在該支承片的框體的内側面貼附面罩。為 此,框體和面罩不重合,在框體的孔徑的内側配置面罩, 可使光學元件整體薄型化。 另外,在本創作的光學單元中,較佳地,鄰接部具有 10比鄰接部的周圍以持有段差的方式更凹陷的形狀; 支承片被貼附於凹形狀的鄰接部的外面。 透過在钟接於框體的孔控的鄰接部設置段差,在其凹 陷部分貼附支承片,可抑制框體的強度惡化,進一 學單元變薄。 15 根據本創作的光學單元,較佳地,支承片被貼附於鄰 接部並覆蓋孔徑的整面且由光透過性材料構成。 在内置於行動電話等的攝影裝置用光學單元中,一般 在框體内收納光學部件,該框體的孔徑由面罩覆蓋之後, 進一步使該面罩的前面整體由頂蓋覆蓋是習知的。透過將 20該頂蓋用作支承片’可不追加新的部件,同時滿足光學單 元的薄型化和對光學部件的保護。 另外,為達成上述目的,本創作的攝影單元,其中, 包括: 框體,其具有光通過的孔徑並内置光學部件; M358330 • 支承片’其被貼附於框體外面的與孔徑鄰接的鄰接 •- 部,並覆蓋孔徑的至少與鄰接部鄰接的周圍區域; . 光透過性面罩’其被貼附於支承片的框體的内側面; 和 5 攝影部,其捕捉穿過光學部件而來的被攝體光線,且 生成圖像信號。 根據本創作的攝影裝置,可確實地保護光學部件,且 使裝置整體薄型化。 • f要說明的是’關於攝影裝置,此處雖僅表示它們的 10基本方式’ e這只是為了避免重複,在本創作所言及的攝 影裝置中,不僅是上述的基本方式,還包括對應於上述光 學單元各形態的各種形態。 根據本創作,提供一種在確實地保護光學部件的同時 可薄型化裝置整體的光學單元及攝影裝置。 15 【實施方式】 • 以下參照圖式說明本創作的實施方式。 圖2疋本創作的一貫施方式所適用的行動電話的外觀 立體圖。 20 圖2(A)表示行動電話100的正視圖。在行動電話100的 前面配備有顯示選單畫面或拍攝圖像等的液晶面板ι〇ι,在 内部配備有t八(參照圖3),並配備有播放從^八發出的聲 音的話筒H)2、用於透過電信局收發聲音或郵件等資料的第 -天線職、各種功能選項或作柄行拍攝時的快門紐使 M358330 用的選擇鈕104、用於輸入電話號碼的按鈕1〇5,在内部配 備麥克風(參照圖3),且包括有將聲音傳至麥克風的聽筒 106、確疋使用者輪入的電話號碼等的確定鈕丨〇7、電源鈕 108及不透過電信局而透過近距離用的無線通信收發圖像 5或地址資訊的第二天線i〇9a。 圖2(B)表示行動電話100的背視圖。在行動電話1〇〇的 背面嵌入有攝影透鏡1 〇〇a。 圖3是行動電話100的方塊圖。 在行動電話1〇〇的内部配備有攝影裝置2〇〇、 10 CCD112、A/D(Analog/Degital)轉換部 II3、麥克風⑵、剩 叭122、介面120、第一天線103&、第一收發訊部1〇3、輸入 控制器130、圖像信號處理部14〇、影像編碼器15〇、圖像顯 示裝置16〇、第二天線1 〇9a、第二收發訊部i 〇9、儲存器丨7〇、 CPU 180媒體控制斋19〇及圖1所示的選擇紐或按叙1〇5 15等各種開關18卜另外,連接有記錄媒體190a。攝影裝置200 相當於本創作的攝影裴置的一實施方式,C C D112相當於本 創作所言及的攝影部的一例。 CPU 1 80向圖3所示的行動電話1 〇〇的各種元件傳送處 理指示,控制各種元件。例如,在設定了進行拍攝的拍攝 模式的狀態下按下圖2的選擇鈕1〇4,則從CPU18〇向圖3所 不的各種元件給予指示,開始拍攝。 攝影裝置200包括有對由圖2(B)所示的攝影透鏡丨〇〇a 或CCD 112接收的的被攝體光線的光量進行調整的可變光 搁111等。需要說明的是’本來在攝影裝置2〇〇配備了多個 M358330 . 妓’但在此H3巾’將這些多個透鏡作騎影透鏡1〇〇a ' - 進行示意表示。以後詳細說明攝影裝置200。 . 按下圖2(A)的選擇鈕104開始拍攝時,ccmi2接收透 過攝影透鏡1〇〇a及可變光欄1U而來的被攝體光線,將基於 5被攝體光線的被攝體像作為模擬信號的物體信號讀取。在 CCD112生成的物體信號透過A/D轉換部113轉換為數位攝 影圖像。轉換後的攝影圖像資料透過輸入控制器13〇被送至 圖像信號處理部140。 在圖像信號處理部140中,對圖像資料實施RGB電壓 1〇的調節、伽馬調整等圖像處理,而且,對圖像處理後的圖 像資料實施壓縮處理。壓縮後的圖像資料暫且被送至儲存 器 170。 儲存器170包括:存儲有在該行動電話1〇〇内實行的程 序、或作為中間緩衝器所使用的記錄速度高的sdram ;存 15儲有各種選單圖面用資料或使用者的設定内容等的資料保 存用的儲存器的SRAM ;存儲有被壓縮的圖像資料的 春 VRAM。VRAM被分割為多個區域,圖像資料被依次存儲 在多個區域,被存儲的圖像資料依次被影像編碼器15〇或媒 體控制器190讀出。 20 影像編碼器150按照來自CPU180的指示,從儲存器17〇 取得壓縮後的圖像資料,將壓縮後的圖像資料轉換為可在 液晶面板101顯示的資料形式。轉換後的圖像資料被送至圖 像顯示裝置160,透過圖像顯示裝置16〇,在液晶面板i(n 顯示圖像資料所表示的圖像。媒體控制器190將儲存器1 70 M358330At the level of 10 15 , the development of technologies related to miniaturization, water repellency, impact resistance, and operability will be promoted in the future. Fig. 1 is a cross-sectional view showing a state in which a photographing device is cut in a wide direction. In addition, in Fig. 1, the object light is incident from the top of the figure, and the upper side of the figure is referred to as the front and the lower side of the figure is referred to as the lower side. "Photographing" 1" is mounted on a mobile phone or the like, and a lens driving mechanism (not shown) for housing the lens 40 or the driving lens 40 is housed in the housing 3, and the image pickup surface receives the subject light on the lens side. The photographic element (not shown) of the money image (4) is provided. The front surface of the frame body 30 is provided with an aperture for the passage of the subject light, and the front side of the aperture member 31 is formed. The adhesive 50 is attached with a glass cover 2 防止 which prevents dust from adhering to the lens 4 另外. Further, on the further front side of the cover glass 20, a hole 3 corresponding to the frame body 30 of the frame 2 is mounted. The top cover 10 of the light-transmissive transparent member 。. In the photographing device mounted on a small device, it is assumed that the camera 40 is used outdoors, and it is necessary to perform the lens 40 or the photographic element in the housing 30. In this regard, Patent Document i describes a photographing device in which a waterproof gasket is sandwiched between glass M358330::frame 3 。. According to this patent, the two-loaded photographic device 'is outdoor in rainy days. When loading the photographic call, etc. In the case of the small-sized machine that is often carried, it is compared with the height direction or the wide type! In particular, it is required to reduce the thickness of the lens 40 or the photographic element that has been thinned for the image of the captured image: 疋 difficult 'and a frame that has a small effect on the enamel of the captured image When the body % or the top shame U) or the glass cover 20 is thinned, the problem is that the overall strength of the photographing apparatus i is deteriorated. In addition, the photographing apparatus used outdoors is not used for protecting the lens 40 or the photographing element. The top cover 1 破 or the glazed cover 2 〇 does not reduce the number of parts or make the parts themselves thin, so that the photographic device is being developed, and its development is being explored. - In addition, such technology development is not limited to only the top with a protective lens. The problem of a photographic device that covers or protects the lens is a technique that is generally required in the field of an optical unit having a top cover for protecting an optical component or a protective lens. [New content] This creation is complicated by The object of the present invention is to provide an optical unit and a photographing apparatus which can reliably reduce the thickness of the apparatus while ensuring the optical components. In order to achieve the above object, the optical unit of the present invention includes: 20 M358330 frame a body having an aperture through which light passes and having an optical component incorporated therein; a support piece attached to an abutment portion of the outer surface of the frame adjacent to the aperture and covering at least a peripheral region of the aperture adjacent to the abutment; a light transmissive mask, It is attached to the inner side surface of the frame of the support piece. 5 According to the optical unit of the present invention, a support piece is attached to an adjacent portion of the frame adjacent to the aperture, and a mask is attached to the inner side of the frame of the support piece. For this reason, the frame and the mask do not overlap each other, and a mask is disposed inside the aperture of the housing to make the entire optical element thin. Further, in the optical unit of the present invention, preferably, the abutting portion has a shape in which the periphery of the abutting portion is more recessed so as to have a step; the supporting piece is attached to the outside of the abutting portion of the concave shape. By providing a step in the adjacent portion of the hole controlled by the bell in the frame, the support piece is attached to the recessed portion, and the strength of the frame can be suppressed from deteriorating, and the unit can be thinned. According to the optical unit of the present invention, preferably, the support sheet is attached to the adjacent portion and covers the entire surface of the aperture and is made of a light transmissive material. In an optical unit for an imaging device incorporated in a mobile phone or the like, an optical member is generally housed in a casing, and after the aperture of the casing is covered by the mask, it is conventional to further cover the entire front surface of the mask by a top cover. By using the top cover as the support piece', it is possible to reduce the thinning of the optical unit and the protection of the optical member without adding a new member. In addition, in order to achieve the above object, the photographing unit of the present invention includes: a frame body having an aperture through which light passes and an optical component built therein; M358330 • a support piece 'attached to the outer side of the frame adjacent to the aperture a portion that covers at least a peripheral region of the aperture adjacent to the abutment; a light transmissive mask 'which is attached to the inner side of the frame of the support sheet; and 5 a photographic portion that captures through the optical component The subject is ray and an image signal is generated. According to the photographing apparatus of the present invention, the optical member can be reliably protected and the entire device can be made thinner. • f is to say 'about the photographic device, although only the basic way of showing them here' e is only to avoid repetition, in the photographic device mentioned in this creation, not only the above basic method, but also corresponding to Various forms of the various forms of the optical unit described above. According to the present invention, there is provided an optical unit and an image pickup apparatus which can thin the entire apparatus while reliably protecting the optical member. [Embodiment] Hereinafter, an embodiment of the present creation will be described with reference to the drawings. Figure 2 is a perspective view of the appearance of a mobile phone to which the consistent application of the present invention applies. 20 (A) shows a front view of the mobile phone 100. The front side of the mobile phone 100 is provided with a liquid crystal panel ι〇ι for displaying a menu screen or a captured image, and is equipped with t8 (refer to FIG. 3) and equipped with a microphone H) for playing a sound emitted from ^8. The first antenna position for transmitting and receiving sounds or mails through the telecommunication office, various function options, or the shutter button for shooting with the handle line, the selection button 104 for the M358330, and the button 1〇5 for inputting the telephone number are internally Equipped with a microphone (refer to FIG. 3), and includes a handset 106 for transmitting sound to the microphone, a confirmation button 7 for confirming the telephone number of the user, etc., a power button 108, and a short distance through the telecommunications bureau. The wireless communication transmits and receives image 5 or the second antenna i〇9a of the address information. FIG. 2(B) shows a rear view of the mobile phone 100. A photographic lens 1 〇〇a is embedded in the back of the mobile phone. FIG. 3 is a block diagram of the mobile phone 100. Inside the mobile phone, there are equipped with imaging device 2, 10 CCD 112, A/D (Analog/Degital) conversion unit II3, microphone (2), remaining bit 122, interface 120, first antenna 103 & first Transmitting and receiving unit 1〇3, input controller 130, image signal processing unit 14〇, video encoder 15〇, image display device 16〇, second antenna 1〇9a, second transceiver unit i〇9, The memory 丨7〇, the CPU 180 media control 〇19〇 and the selection button shown in FIG. 1 or the various switches 18 such as 〇1〇5 15 are connected to the recording medium 190a. The photographing apparatus 200 corresponds to an embodiment of the photographing device of the present creation, and C C D112 corresponds to an example of the photographing unit referred to in the present creation. The CPU 1 80 transmits processing instructions to various components of the mobile phone 1 shown in Fig. 3 to control various components. For example, when the selection button 1〇4 of Fig. 2 is pressed in a state in which the shooting mode for shooting is set, an instruction is given from the CPU 18 to various elements shown in Fig. 3 to start shooting. The photographing apparatus 200 includes a variable light bath 111 or the like for adjusting the amount of light of the subject light received by the photographing lens 丨〇〇a or the CCD 112 shown in Fig. 2(B). It should be noted that the original imaging device 2 is equipped with a plurality of M358330. 妓', but the H3 towel is used to schematically display the plurality of lenses as the riding lens 1A'. The photographing apparatus 200 will be described in detail later. When the shooting is started by pressing the selection button 104 of FIG. 2(A), the ccmi 2 receives the subject light transmitted through the photographic lens 1a and the variable diaphragm 1U, and the subject based on the 5 subject ray is used. Reads like an object signal as an analog signal. The object signal generated by the CCD 112 is converted into a digitally captured image by the A/D conversion unit 113. The converted photographic image data is sent to the image signal processing unit 140 through the input controller 13A. The image signal processing unit 140 performs image processing such as adjustment of RGB voltage 1 、 and gamma adjustment on the image data, and performs compression processing on the image data after the image processing. The compressed image data is temporarily sent to the storage 170. The storage unit 170 includes: a program executed in the mobile phone 1 or a sdram having a high recording speed used as an intermediate buffer; the storage 15 stores various menu surface materials or user setting contents, and the like. The data is stored in the SRAM of the storage; the spring VRAM storing the compressed image data is stored. The VRAM is divided into a plurality of areas, and image data is sequentially stored in a plurality of areas, and the stored image data is sequentially read by the image encoder 15 or the media controller 190. The video encoder 150 acquires the compressed image data from the storage unit 17 in accordance with an instruction from the CPU 180, and converts the compressed image data into a data format that can be displayed on the liquid crystal panel 101. The converted image data is sent to the image display device 160, and transmitted through the image display device 16 to display an image indicated by the image data on the liquid crystal panel i. The media controller 190 stores the memory 1 70 M358330
所存健的壓縮後的圖像資料記錄到記錄媒體i9〇a 在記錄媒體190a中記錄的圖像資料。 S貝 另外,使用圖2(A)所示的按紐105輸入電話號碼,按 下確定紐1G7’則開始與所設定電話號碼的對方裝置進行通 仏。这時’從CPU180向第-收發訊部1〇3傳送行動電話_ 的電話號碼或被輸入的電話號碼等通信資訊,通 轉換為電波且被傳送至第一天線1〇3a,進而從第°^線 l〇3a發出電波。從第―天線職發出的電波透過在建築物 或電線桿等各處設置的共同天線(圖中未示)傳送至電信 局’在電信局確立與分配了所指定的電話號瑪的 的連接。 當確立與對方裝置的連接時,則使用者向行動電話 100發出的聲音由麥克風121匯集,被匯集的聲音由介面 被轉換為表示聲音資料的電波’透過第-收發訊部103的第 b 一天線103a被發送至對方裝置。另外,透過第一天線i〇3a 接收的聲音用電波由介面12〇被轉換為聲音資料,從喇队 • 122作為聲音被發出。在第一收發訊部103、第一天線1033, 不僅可收發聲音資料,而且也可收發取代電話號碼而使用 郵件地址表示郵件的郵件資料。由第一天線1〇3&接收且由 2〇第一收發訊部103被數字化的郵件資料,透過輸入控制器 130被存儲在儲存器17〇。 另外,在該行動電話100中還包括:與透過電信局同 八他行動電治等對方裝置通信的通信介面(第一收發訊部 103、第一天線1033)不同’不透過電話局而透過近距離用 M358330 的無線通信進行通信的無線通信介面(第二收發訊部1〇9、 第二天線109a)。作為近距離無線通信用通信介面,可適用 紅外線通信或藍牙(Bluetooth)等。本實施方式中,當作為 通信介面適用了紅外線通信,由第二天線1〇9a接收從其他 5行動電話等直接發送來的紅外線時,則基於該接收的紅外 線的電信號由第二收發訊部109拾取,被轉換為數位資料。 相反的,向外部裝置發送資料時,資料被傳送至第二收發 訊部109,該資料在第二收發訊部1〇9被轉換為電波,從第 二天線109a被發出。 10 當由該第二天線109a接收到表示圖像的紅外線時,則 在第二收發訊部109將基於紅外線的電信號轉換為圖像資 料。被轉換的圖像資料與攝影圖像資料相同,被送至圖像 顯不裝置160,在液晶面板1〇1顯示圖像資料所表示的圖 像,透過媒體控制器190被記錄在記錄媒體1〇如。 15 行動電話1 〇〇基本如以上構成。 接下來,詳細說明攝影裝置2〇〇。 圖4是攝影裝置2〇〇的分解立體圖。 以下,在假设被攝體光線從圖左下入射至攝影裝置 200内的隋況下進行說明,將圖左下稱為前,將圖右上稱為 20 後進行說明。 攝影裝置200在外裝蓋21〇和後蓋220及下蓋213之間 的空間内自前方依次收納有快門單元23〇、透鏡筒24〇、透 鏡架250及透鏡驅動部26〇等。 M358330 後盍220在其背面安裝有圖3所示的CCDU2 ,在其前 面安裝有截止圖像形成所不需要的成為發熱源的紅外 IR截止濾波器221。 ' 透鏡驅動部260由接受電壓的施加而伸縮的壓電元件 5 26〇a、和伴隨壓電元件26〇a的伸縮沿前後方向移動的引導 棒260b構成。 透鏡筒240在其内部收納有圖3所示的攝影透鏡 100a,分別在其上部和下部設置有v溝24〇a、24〇b。透鏡 筒240相當於本創作所言及的光學部件的一例。 10 快門單元23〇内置有圖3所示的可變光欄111,透過螺 絲244被固定在透鏡架250。 在外裝蓋210設置有被攝體光線穿過的孔徑2丨〇c、旋 入螺絲290的螺絲孔210a、和引導棒26〇b貫通的引導孔 250b。在外裝蓋21〇的前面貼附有為了避免灰塵進入攝影裝 15置200内的不良情況的前面蓋211和支承片210d,而且,在 孔徑2l〇c的内側配備有透鏡筒24〇防塵的玻璃蓋212。外裝 蓋210相當於本創作所言及的框體的一例,孔徑210c相當於 本創作所言及的孔徑的一例。另外,支承片210d相當於本 創作所言及的支承片的一例’玻璃蓋2 12相當於本創作所言 20 及的面罩的一例。 在透鏡架250設置有與外裝蓋210的螺絲孔210a連通 的螺絲孔250a、和引導棒260b所貫通的引導孔250b,在其 側面安裝有透鏡位置檢測用感測器270和檢測電路280。 M358330 在組裝攝影裝置200時,首先,在外裝蓋21 0貼附頂蓋 211和支承片210d,在支承片21 Od貼附玻璃蓋212,在透鏡 架250的側面安裝感測器270和檢測電路280,在透鏡筒240 固定快門單元230。 5 其次,在透鏡筒240上側的V溝240a和透鏡架250的桿 孔250c嵌入停止轉動的桿251。另外,在後蓋220的貫通孔 220a嵌入驅動架262,由驅動架262保持透鏡驅動部260。這 時,透鏡驅動部260的後端相對於後蓋220被固定。 > 接著,在透鏡筒240下側的V字溝240b安裝第一板 10 242,透鏡驅動部260的引導棒260b,不僅以其間夾住矽橡 膠261的狀態被插入透鏡架250的引導孔250b,並且以其間 夹住第一板242狀態被嵌入透鏡筒240的V字溝240b。而 且,以在與第一板242之間夾住引導棒260b的狀態安裝第二 板243,並且安裝將該第二板243向上方向賦予彈力的板彈 15 簣24卜第一板242及第二板243夾住引導棒260b,板彈簧241 將第一板242及第二板243向引導棒260b賦予彈力,由此, • 第一板242及第二板243與引導棒260b摩擦卡合。板彈簧241 相當於本創作所言及的彈力賦予部件的一例。這時,透鏡 驅動部260的引導棒260b由透鏡架250限定位置,通過引導 2〇 棒260b由透鏡架25 0間接支承透鏡筒240。 引導棒260b的前端插入外裝蓋210的引導孔210b。引 導孔210b比引導棒260b的外形形成得大,被設計為不妨礙 引導棒260b的位置或移動。 13 M358330 隶後,在外裝盍210的螺絲孔21 〇a和透鏡架25〇的螺絲 孔250a旋入螺絲290 ’使透鏡架250固定在外裝蓋21〇,並且 使後蓋220和下蓋213與外裝蓋21〇黏接。 如以上組裝攝影裝置2〇〇。 5 透過玻璃蓋212入射而來的被攝體光線穿過快門單元 230、透鏡筒240及IR截止濾波器221 ,由安裝在後蓋22〇後 面的CCD 112接收。需要說明的是,在實行自動聚焦功能或 變焦功能時,透過圖3所示的CPU180對壓電元件26〇a施加 鋸狀電壓,使壓電元件260a伸縮。當壓電元件26〇a慢慢伸 10縮時,引導棒260b沿透鏡架250的引導孔250b慢慢移動,同 與引導棒260b間接摩擦卡合的透鏡筒24〇與引導棒26〇b一 起移動。另外,當壓電元件26〇a高速伸縮時,引導棒26〇1) 也咼速移動,但透鏡筒240借助質量的慣性會停留在相同的 位置。透過對壓電元件26〇a反覆施加鋸狀電壓,可使透鏡 15筒240以細小的間距間歇性地移動,可抑制消費電力而實現 自動聚焦功能或變焦功能。 此處,在本實施方式的攝影裝置2〇〇中,在外裝蓋21〇 的孔彳災21〇c内配置玻璃蓋212’由此可實現裝置整體的薄型 化。 -〇 圖5疋表示在寬幅方向切斷攝影裝置2〇〇時的剖視圖。 需要說明的是,在圖5中,設為從圖上方入射被攝體 光線,將圖上方稱為前,將圖下方稱為後進行說明。 如圖5所示’在頂蓋2 11的與外裝蓋2 1 〇的孔徑21 〇c相 對向的部分,嵌入有具有光透過性的透明部件2 11 a ,並且 14 M358330 .了^211保護外裝蓋㈣㈣部件。另外,外裝蓋21〇在接近 .. 隸210c的部分設置有段差210e,孔徑2l〇c的外周部分Q] 卜匕周圍更凹陷。段差2H)e相當於本創作所言及的段差的一 例,外周部分Ql相當於本創作所言及的鄰接部的一例。 5 纟承片2 1 在#面整體貼有雙面冑,被貼附於外裝蓋 210,外周#分q丨。另外,支承片21〇d的端部分仏覆蓋外 裝蓋210的孔徑2i〇ce外裝蓋21〇所設置的孔徑2i〇c内的盥 ^部分仏相對應的部分,相當於本創作所言及的周圍部分 的一例。 10 玻璃蓋212,其外形Wi小於外裝蓋210的孔徑210c的孔 徑W2,透過貼附於支承片210d背面的雙面膠而被貼附於孔 徑210c的内側。 如此’根據本貫施方式的攝影裝置2〇〇,因為玻璃蓋 212貼附在外裝盍21 〇的孔徑21 〇c内,所以,可不減少部件 15或不使部件本身薄型化就可使裝置整體薄型化。另外,透 過在外裝蓋21 0設置段差21 〇 e,且在凹陷的外周部分Q〗貼附 • 支承片,可抑制裝置整體的強度的惡化,進一步薄型 化裝置整體。 此處’使用厚度相同的外裝蓋21〇(圖1的框體3〇)、玻 2〇璃蓋212(圖1的玻璃蓋2〇)、透鏡筒240(圖1的透鏡4〇),組裝 圖1所示的以往的攝影裝置1及圖5所示的本實施方式的攝 影裝置200,計測從除頂蓋211(圖1的頂蓋ι〇)外的最前面至 成像面Μ的高度h'h,。需要說明的是,玻璃蓋212(圖1的 玻璃盍20)使用了厚度為o.gmm玻璃蓋。其結果,相對於圖 15 M358330 1所7F的以往的攝影裝置i中的高度^為9 31議,圖5所示 的本實施方式的攝影裝置中2〇〇中的高度h^.〇5mm。在本 實施方式的攝影裝置中,與圖⑽示的以往的攝影裝置丄 相比’可薄型化相當於玻璃蓋212的厚度(〇·8叫和黏著劑 5的厚度(約0.01 mm)的量。 以上結束了對本創作的第一實施方式的說日月,接著, 況明本創作的第一實施方式。本創作的第二實施方式,因 與圖5所不的本創作的第一實施方式在外裝蓋的形狀上有 所不同而除此以外具有大致相同的構成,所以,關於與第 10 -實施方式相同的部件附上相同的符號且省略說明,只說 明與第一實施方式不同的部分。 圖6是表示在寬幅方向切斷本創作的第二實施方式 的攝影裝置3 00時的剖視圖。 本創作的第二實施方式的攝影裝置3〇〇具有與圖5所 15示的本創作的第一實施方式的攝影裝置200大致相同的構 成,但在本實施方式的攝影裝置中,在頂蓋211的後面 側貼附有雙面膠彻,透過兩面膠4〇〇,在外裝蓋21〇,的段 差210f貼附有頂蓋2n,而且,在頂蓋2n的覆蓋外裝蓋㈣, 的孔徑21〇C,的部分貼附有玻璃蓋2121蓋211相當於本創 2〇 作所言及的支承片的一例。 圖7是表示從前面側觀察攝影裝置3〇〇時的頂蓋Η玉、 玻璃蓋212及外裝蓋210,的位置關係的圖。 圖7中,頂蓋211在從外側部分211一2至内側部分以丨—工 之間的黏結區域P貼附有雙面膠4 〇 〇。透過該黏結區域p的 16The stored compressed image data is recorded to the image data recorded on the recording medium 190a by the recording medium i9〇a. In addition, the telephone number is input using the button 105 shown in Fig. 2(A), and the button 1G7' is pressed to start communication with the counterpart device of the set telephone number. At this time, the communication information such as the telephone number of the mobile phone_ or the input telephone number is transmitted from the CPU 180 to the first transceiver unit 1〇3, and is converted into a radio wave and transmitted to the first antenna 1〇3a, and further from the first The °^ line l〇3a emits electric waves. The electric wave emitted from the first antenna is transmitted to the telecommunications bureau through a common antenna (not shown) provided in various places such as buildings or utility poles, and the connection with the designated telephone number is established at the telecommunication office. When the connection with the other party device is established, the sound that the user sends to the mobile phone 100 is collected by the microphone 121, and the collected sound is converted from the interface to the electric wave indicating the sound data' through the b-th day of the first transmission/reception unit 103. Line 103a is sent to the counterpart device. Further, the sound electric wave received through the first antenna i〇3a is converted into sound data by the interface 12〇, and is emitted as a sound from the racquet 122. The first transceiver unit 103 and the first antenna 1033 can transmit and receive not only voice data but also mail data indicating the mail using the mail address instead of the telephone number. The mail data received by the first antenna 1 〇 3 & and digitized by the second 〇 first transceiver 103 is stored in the memory 17 via the input controller 130. In addition, the mobile phone 100 further includes: a communication interface (the first transceiver unit 103, the first antenna 1033) that communicates with the other device such as the mobile phone through the telecommunications office, and the like: A wireless communication interface (second transceiver unit 1〇9, second antenna 109a) that communicates with the wireless communication of M358330 at a short distance. As a communication interface for short-range wireless communication, infrared communication or Bluetooth can be applied. In the present embodiment, when infrared communication is applied as the communication interface, and infrared rays directly transmitted from other five mobile phones or the like are received by the second antenna 1〇9a, the second transmission and reception is performed based on the received infrared signal. The part 109 picks up and is converted into digital data. On the other hand, when the data is transmitted to the external device, the data is transmitted to the second transmitting and receiving unit 109, and the data is converted into a radio wave at the second transmitting and receiving unit 1〇9, and is transmitted from the second antenna 109a. When the infrared rays indicating the image are received by the second antenna 109a, the infrared-based electrical signals are converted into image data by the second transceiver portion 109. The converted image data is sent to the image display device 160 in the same manner as the captured image data, and the image indicated by the image data is displayed on the liquid crystal panel 101, and recorded on the recording medium 1 through the media controller 190. For example. 15 Mobile phone 1 〇〇 basically consists of the above. Next, the photographing apparatus 2A will be described in detail. 4 is an exploded perspective view of the photographing device 2A. Hereinafter, a description will be given assuming that the subject ray is incident on the imaging device 200 from the lower left side of the figure, and the lower left side of the figure is referred to as 20 hereinafter. In the space between the exterior cover 21A and the rear cover 220 and the lower cover 213, the photographing device 200 sequentially houses the shutter unit 23A, the lens barrel 24A, the lens holder 250, the lens driving unit 26, and the like from the front. The M358330 rear cymbal 220 is provided with a CCDU 2 as shown in Fig. 3 on its back surface, and an infrared IR cut filter 221 serving as a heat source which is not required for image formation is mounted on the front surface. The lens driving unit 260 is composed of a piezoelectric element 526a that is expanded and contracted by application of a voltage, and a guide bar 260b that moves in the front-rear direction in association with expansion and contraction of the piezoelectric element 26A. The lens barrel 240 houses therein the imaging lens 100a shown in Fig. 3, and v grooves 24a and 24b are provided in the upper and lower portions, respectively. The lens barrel 240 corresponds to an example of an optical component as referred to in the present creation. The shutter unit 23 has a built-in iris diaphragm 111 shown in Fig. 3, and is fixed to the lens holder 250 via a screw 244. The exterior cover 210 is provided with an aperture 2丨〇c through which the subject light passes, a screw hole 210a into which the screw 290 is screwed, and a guide hole 250b through which the guide bar 26〇b passes. A front cover 211 and a support piece 210d for preventing the entry of dust into the image pickup unit 150 are attached to the front surface of the exterior cover 21, and a lens barrel 24 is provided inside the aperture 2c〇c. Cover 212. The exterior cover 210 corresponds to an example of the housing described in the present creation, and the aperture 210c corresponds to an example of the aperture described in the present creation. Further, the support piece 210d corresponds to an example of a support piece as referred to in the present invention. The glass cover 2 12 corresponds to an example of the face mask of the present invention. The lens holder 250 is provided with a screw hole 250a that communicates with the screw hole 210a of the exterior cover 210, and a guide hole 250b through which the guide bar 260b passes, and a lens position detecting sensor 270 and a detecting circuit 280 are attached to the lens holder 250. M358330 When assembling the photographing apparatus 200, first, the top cover 211 and the support piece 210d are attached to the exterior cover 210, the glass cover 212 is attached to the support piece 21 Od, and the sensor 270 and the detecting circuit are mounted on the side surface of the lens holder 250. At 280, the shutter unit 230 is fixed to the lens barrel 240. 5 Next, the V groove 240a on the upper side of the lens barrel 240 and the rod hole 250c of the lens holder 250 are fitted into the rod 251 which stops rotating. Further, the drive frame 262 is fitted into the through hole 220a of the rear cover 220, and the lens drive unit 260 is held by the drive frame 262. At this time, the rear end of the lens driving portion 260 is fixed with respect to the rear cover 220. > Next, the first plate 10 242 is attached to the V-shaped groove 240b on the lower side of the lens barrel 240, and the guide bar 260b of the lens driving portion 260 is inserted into the guide hole 250b of the lens holder 250 in a state in which the yoke rubber 261 is sandwiched therebetween. And, in a state in which the first plate 242 is sandwiched therebetween, the V-shaped groove 240b of the lens barrel 240 is fitted. Further, the second plate 243 is attached in a state in which the guide bar 260b is sandwiched between the first plate 242, and the plate 15 篑24, which is the first plate 242 and the second, are attached to the second plate 243 in the upward direction. The plate 243 sandwiches the guide bar 260b, and the leaf spring 241 imparts an elastic force to the guide bar 260b by the first plate 242 and the second plate 243, whereby the first plate 242 and the second plate 243 are frictionally engaged with the guide bar 260b. The leaf spring 241 corresponds to an example of the elastic force applying member described in the present invention. At this time, the guide bar 260b of the lens driving portion 260 is defined by the lens holder 250, and the lens barrel 240 is indirectly supported by the lens holder 25 0 by the guide 2 棒 bar 260b. The front end of the guide bar 260b is inserted into the guide hole 210b of the exterior cover 210. The guide hole 210b is formed larger than the outer shape of the guide bar 260b, and is designed not to interfere with the position or movement of the guide bar 260b. 13 M358330, the screw hole 21 〇a of the outer casing 210 and the screw hole 250a of the lens holder 25 旋 are screwed into the screw 290 ′ to fix the lens holder 250 to the outer cover 21 〇, and the rear cover 220 and the lower cover 213 are The outer cover 21 is glued. The photographing device 2 is assembled as above. 5 The subject light incident through the glass cover 212 passes through the shutter unit 230, the lens barrel 240, and the IR cut filter 221, and is received by the CCD 112 mounted on the rear surface of the rear cover 22. In addition, when the autofocus function or the zoom function is executed, the saw-like voltage is applied to the piezoelectric element 26A via the CPU 180 shown in Fig. 3, and the piezoelectric element 260a is expanded and contracted. When the piezoelectric element 26〇a is slowly extended, the guiding rod 260b is slowly moved along the guiding hole 250b of the lens holder 250, and the lens barrel 24〇 indirectly in frictional engagement with the guiding rod 260b is together with the guiding rod 26〇b. mobile. Further, when the piezoelectric element 26〇a is expanded and contracted at a high speed, the guide bar 26〇1) also moves at an idle speed, but the lens barrel 240 stays at the same position by the inertia of mass. By repeatedly applying a saw-like voltage to the piezoelectric element 26A, the lens 15 can be intermittently moved at a fine pitch, and the power consumption can be suppressed to realize an autofocus function or a zoom function. Here, in the image forming apparatus 2 of the present embodiment, the glass cover 212' is disposed in the hole 21c of the exterior cover 21A, whereby the entire device can be made thinner. - Figure 5A is a cross-sectional view showing the cutting device 2 is cut in the wide direction. In addition, in Fig. 5, the subject light is incident from the top of the figure, and the upper side of the figure is referred to as the front, and the lower side of the figure is referred to as the rear. As shown in Fig. 5, 'the portion of the top cover 2 11 facing the aperture 21 〇c of the outer cover 2 1 , is embedded with a transparent member 2 11 a having light transparency, and 14 M358330. Outer cover (4) (4) parts. Further, the outer cover 21 is disposed close to the portion of the member 210c, and the step 210e is provided, and the outer peripheral portion Q] of the aperture 2l〇c is further recessed. The step difference 2H)e corresponds to an example of the step difference described in the present creation, and the outer peripheral portion Q1 corresponds to an example of the adjacent portion referred to in the present creation. 5 纟 片 2 1 The double-sided 贴 is attached to the #面面, and it is attached to the exterior cover 210, and the outer circumference is #分丨. In addition, the end portion of the support piece 21〇d covers the portion corresponding to the 仏^ portion 内 in the aperture 2i〇c provided by the outer cover 21〇 of the outer cover 210, which is equivalent to the present invention. An example of the surrounding part. The glass cover 212 has an outer shape Wi which is smaller than the hole diameter W2 of the outer diameter 210c of the outer cover 210, and is attached to the inner side of the hole 210c through the double-sided tape attached to the back surface of the support piece 210d. According to the photographing apparatus 2 of the present embodiment, since the glass cover 212 is attached to the aperture 21 〇c of the outer casing 21, the entire apparatus can be made without reducing the member 15 or thinning the component itself. Thin. Further, by providing the step 21 〇 e on the exterior cover 21 0 and attaching the support piece to the outer peripheral portion Q of the recess, the deterioration of the strength of the entire apparatus can be suppressed, and the entire apparatus can be further thinned. Here, 'the outer cover 21 〇 (the frame 3 图 of FIG. 1 ) having the same thickness, the glass 2 glaze cover 212 (the glass cover 2 图 of FIG. 1 ), and the lens barrel 240 (the lens 4 图 of FIG. 1 ) are used. The conventional imaging device 1 shown in FIG. 1 and the imaging device 200 of the present embodiment shown in FIG. 5 are assembled, and the height from the forefront except the top cover 211 (top cover of FIG. 1) to the imaging plane 计 is measured. H'h,. It should be noted that the glass cover 212 (glass crucible 20 of Fig. 1) uses a glass cover having a thickness of o.gmm. As a result, the height in the conventional imaging device i of 7F of Fig. 15 M358330 1 is 9 31, and the height h 2 in the imaging device of the present embodiment shown in Fig. 5 is 〇 5 mm. In the imaging device of the present embodiment, the thickness of the glass cover 212 (the thickness of the glass cover 212 and the thickness of the adhesive 5 (about 0.01 mm) is equivalent to the thickness of the conventional imaging device 图 shown in FIG. This concludes the first embodiment of the first embodiment of the present creation, and then the first embodiment of the present creation. The second embodiment of the present creation, the first embodiment of the present creation, which is different from FIG. The same components as those in the tenth embodiment are denoted by the same reference numerals, and the description thereof will not be repeated, and only the parts different from the first embodiment will be described. Fig. 6 is a cross-sectional view showing the photographing apparatus 300 of the second embodiment of the present invention cut in the wide direction. The photographing apparatus 3 of the second embodiment of the present invention has the present creation shown in Fig. 5 The photographing apparatus 200 of the first embodiment has substantially the same configuration. However, in the photographing apparatus of the present embodiment, the double-sided tape is attached to the rear surface side of the top cover 211, and the double-faced rubber is passed through the outer cover 21 Oh, The top cover 2 is attached with a top cover 2n, and a portion of the top cover 2n covering the outer cover (4), the aperture 21〇C, is attached with a cover glass 211, and the cover 211 is equivalent to the support piece mentioned in the present invention. Fig. 7 is a view showing a positional relationship between the top cover jade, the glass cover 212, and the exterior cover 210 when the imaging device 3 is viewed from the front side. In Fig. 7, the top cover 211 is in the outer portion 211. A 2 to the inner portion is attached with a double-sided tape 4 丨 in the bonding region P between the workpieces. 16 through the bonding region p