M422085 五、新型說明: 【新型所屬之技術領域】 本創作係有關-種影像擷取模組,特別是指一種多鏡頭影像掏取模組。 【先前技術】 影像操取模組廣泛應用於曰常生活中,舉例來說如作為監視器。監視 器是裝設於㈣或室外來㈣拍《彡像並儲存,以供日後侧已錄存^影 像。 μ參閱第1 ®,其係習知的影像她模組的架構示意圖。如圖所示, 一般作為監㈣之影像練模組1G包含有_電路板12 ;—位於電路板η 上的影像感測晶片Η ;以及—罩設於影像感測晶片14上的單—鏡頭. 但是,在此_下,監視师自攝的影像便受限於單—鏡頭Μ所能攝影的 範圍’因此極易產生的死㈣題’也就是無法觀相更大範圍及立體 清晰的影像。這樣將會魅許多問題,舉例來說,習知的監視器在面臨犯 非傭時將導致無法獲得所需的清楚攝影存財面,魅調查上的問題。 .有鑑於此’本創作遂針對上述習知技術之缺失,提出-蝴的多鏡 頭影像擷取模組,以有效克服上述之該等問題。 【新型内容】 本創作之主要目的在提供一種多錄涵w你& &』+ 、見碩衫像祕取模组,其藉由二個戋以 上個朝不同方向設置的鏡頭,來進 丁不冋方向的光線接收,並經由稜鏡组 與反射鏡組絲狀射至雜❹ 、 〇〇 ^以進订成像,以有效解決習知使 用單一鏡頭時所產生的死角問題。 本創作之另一目的在提供一種玄 種夕鏡碩影像擷取模組,其可以提供更大 M422085 的攝影範圍及立體清晰的影像。 為達上述之目的’本創作提出—種多鏡頭影像擷取模組,其主要包含 有電路板’⑶置於電路板上的影像感測晶片;至少一設置於影像感測 曰曰片上的光子、,且其包3有稜鏡組與一對應於棱鏡出光面設置的反射 鏡,以及一鏡頭組。 上述之鏡頭組是設置於電路板上且罩設上述之光學組件與影像感測晶 片且每-鏡頭組包含有一個或以上個朝不同方向設置的鏡頭,光學組件 係反射由鏡頭所接收的光線至影像感測晶片,以進行成像。 兹為使貴審查委員對本創作之結構特徵及所達成之功效更有進一步 之瞭解與5忍識,謹佐以較佳之實施例圖及配合詳細之說明,說明如後: 【實施方式】 請-併參閱第2圖、第3圖、第4圖、第5圖與第6圖,其係各為本 創作之多鏡頭影像擷取模組的結構示意圖、立體示意圖、元件分解示意圖、 光學傳遞路#示意圖與單一植鏡的示意圖。 如圖所示’本創作之多鏡頭影像擷取模組2〇包含有一電路板22,其上 。又置有一影像感測晶片24 ;至少一設置於影像感測晶片上的光學組件μ , 其包含有一設置於影像感測晶片24上稜鏡26與一對應於稜鏡26出光面設 置的反射鏡27 ;以及一設置於電路板22上且罩設光學組件25與影像感測 晶片24的鏡頭組28,且每一鏡頭組28包含有二個或以上個朝不同方向嗖 置的鏡頭30,光學組件25係反射來自鏡頭30的光線至影像感測晶片24, 以進行成像。 其中上述之光學組件25的數量是對應於鏡頭30數量,以使—鏡頭3〇 M422085 對應一光學組件25。舉例來說,在本創作之圖式中鏡頭3〇的數量是二個, 因此光學組件25的數量也是兩個,也就是一鏡頭3〇會對應一稜鏡%與一 反射鏡27,稜鏡26將接收來自鏡頭30的光線,再由稜鏡26之出光面入射 至反射鏡27並反射至影像感測晶片24,如第5圖所示,.以進行成像。 -再者,當本創作之鏡頭30數量為二個時,本創作所使用的稜鏡%可 - 以疋一五角稜鏡34的—半,如第6圖所示,藉此兩稜鏡26的中間接觸面 為平面’可達到有效接合’以有效率地控制稜鏡26設置於影像感測晶片% _ 上的面積,提供單一稜鏡26各角度更靈活的調整。 在本創作之設計下,將有數個鏡頭可以接收各方向的光線,來有效的 解決習知使用單-鏡頭時所產生的死角問題。更者應用於監視器上時,可 以提供更大的攝影範立體清晰的影像,㈣免現有監視器攝影範圍過 小與影像不清晰的缺失。 唯以上所述者’僅為本創狀紐實施例W,並_來蚊本創作 _ T 故即凡依本創作帽範騎述之舰及精神所為之均等變化 或修飾,均應包括於本創作之申請專利範圍内。 【圖式簡單說明】 第1圖疋習知的影像操取模組架構示意圖。 第2圖是本創作之多鏡頭影像擷取模組的結構示意圖。 第3圖是本創作之錢頭影_取模_立體示意圖。 24圖是本創作之多鏡頭影像齡模組的元件分解示意圖。 Z5圖是本_之綠像齡模_光學傳遞職示意圖。 第6圖是本創作之多鏡頭影像操取模組所使用之稜鏡示意圖。 5 M422085 【主要元件符號說明】 ίο影像擷取模組 12 電路板 14影像感測晶片 16鏡頭 20多鏡頭影像擷取模組 22 電路板 24 影像感測晶片 25 光學組件 26棱鏡 27 反射鏡 28 鏡頭組 30鏡頭 34五角稜鏡M422085 V. New description: [New technical field] This creation is related to image capture module, especially a multi-lens image capture module. [Prior Art] The image manipulation module is widely used in everyday life, for example, as a monitor. The monitor is installed in (4) or outdoors (4) to shoot the image and store it for the video on the back side. μ See Section 1 for a schematic diagram of the structure of her module. As shown in the figure, the image training module 1G generally includes the _ circuit board 12; the image sensing chip 位于 on the circuit board η; and the single lens mounted on the image sensing chip 14. However, under this _, the monitor's self-photographed image is limited by the range that can be photographed by the single-lens ', so it is easy to produce a dead (four) question, which means that it is impossible to see a larger range and stereoscopic image. . This will be a lot of problems. For example, a well-known monitor in the face of non-commissioning will result in the inability to obtain the required clear photographic wealth, the problem of the investigation. In view of the lack of the above-mentioned prior art, the present invention proposes a multi-mirror image capturing module to effectively overcome the above problems. [New Content] The main purpose of this creation is to provide a multi-recording of you &&& +, see Shuo Shuo like the secret module, which is made by two or more lenses set in different directions. The light in the direction of the Ding is received, and the film is projected through the 稜鏡 group and the mirror group to the miscellaneous 、, 〇〇^ to order imaging, so as to effectively solve the problem of the dead angle generated by the conventional use of a single lens. Another purpose of this creation is to provide a sinusoidal image acquisition module that can provide a larger M422085 photographic range and stereoscopic images. For the above purpose, the present invention proposes a multi-lens image capturing module, which mainly comprises a circuit board '(3) an image sensing chip placed on a circuit board; at least one photon disposed on the image sensing chip And, the package 3 has a group of mirrors and a mirror corresponding to the prism surface, and a lens group. The lens group is disposed on the circuit board and covers the optical component and the image sensing chip, and each lens group includes one or more lenses disposed in different directions, and the optical component reflects the light received by the lens. The image is sensed to the wafer for imaging. In order to give your review board a better understanding of the structural features and the achievable effects of this creation, please refer to the preferred embodiment diagram and the detailed description to explain the following: [Embodiment] Please- Referring to FIG. 2, FIG. 3, FIG. 4, FIG. 5 and FIG. 6 , which are structural diagrams, stereoscopic diagrams, component decomposition diagrams, and optical transmission paths of the multi-lens image capturing module of the present invention. Schematic diagram of schematic diagram and single implant. As shown in the figure, the multi-lens image capturing module 2 of the present invention includes a circuit board 22 on which. An image sensing chip 24 is further disposed; at least one optical component μ disposed on the image sensing wafer includes a mirror 26 disposed on the image sensing wafer 24 and a mirror disposed corresponding to the light emitting surface of the crucible 26 And a lens group 28 disposed on the circuit board 22 and covering the optical component 25 and the image sensing chip 24, and each lens group 28 includes two or more lenses 30 disposed in different directions, optical Assembly 25 reflects light from lens 30 to image sensing wafer 24 for imaging. The number of optical components 25 described above corresponds to the number of lenses 30 such that the lens 3 〇 M422085 corresponds to an optical component 25. For example, in the pattern of the present creation, the number of lenses 3〇 is two, so the number of optical components 25 is also two, that is, one lens 3〇 corresponds to one 稜鏡% and one mirror 27, 26 will receive the light from the lens 30, and the exit surface of the pupil 26 will be incident on the mirror 27 and reflected to the image sensing wafer 24, as shown in Fig. 5, for imaging. - Furthermore, when the number of shots 30 of this creation is two, the 稜鏡% used in this creation can be - half of the 疋 五 稜鏡 稜鏡 34, as shown in Figure 6, The intermediate contact surface of 26 is a flat 'effective engagement' to effectively control the area of the cymbal 26 disposed on the image sensing wafer % _, providing a more flexible adjustment of the angles of the single 稜鏡 26 angles. Under the design of this creation, there will be several lenses that can receive light in all directions to effectively solve the problem of dead angles caused by the use of single-lens. When applied to a monitor, it can provide a larger stereoscopic image of the camera, and (4) avoid the lack of existing camera range and the lack of image clarity. Only the above-mentioned ones are only for the creation of the example W, and the creation of the mosquitoes _ T, that is, the equivalent change or modification of the ship and the spirit of the cap of the creation of the cap, should be included in this Within the scope of the patent application for creation. [Simple description of the diagram] Fig. 1 is a schematic diagram of a conventional image manipulation module architecture. Figure 2 is a schematic diagram of the structure of the multi-lens image capturing module of the present invention. The third picture is the three-dimensional diagram of the money head of the creation. Figure 24 is a schematic diagram of the components of the multi-lens image age module of this creation. The Z5 diagram is a schematic diagram of the _'s green age model _ optical transmission job. Figure 6 is a schematic diagram of the multi-lens image manipulation module used in the present creation. 5 M422085 [Main component symbol description] ίο image capture module 12 circuit board 14 image sensing wafer 16 lens 20 multi-lens image capture module 22 circuit board 24 image sensing wafer 25 optical component 26 prism 27 mirror 28 lens Group 30 lens 34 pentagonal