M422083 五、新型說明: 【新型所屬之技術領域】 本新型係關於-種相機之裝置,_是__“平面調整裝置。 【先前技術】M422083 V. New description: [New technical field] This new type is about a camera device, _ is __ "plane adjustment device. [Prior Art]
隨著數位相機的技術發展i位相機的應用也逐漸普及化。其特色在 於即時將拍制f彡像透過触的方歧行f贿存或傳輪。 對於固定焦平面之數位相機而言,若發生有鏡片模組之焦平面的震動 偏移時,或更換不同鏡片模組,亦或變換夜視濾片(紅外線),均需要於使用 時進行數帅機㈣錄調,也就是辭面調整。 與銷售廠商來說相當困擾。 此種問題對於相機生產 過去’焦平面調術(包滅距與背_整),為飾鏡丨模組中的 鏡片與鏡片之間的距離’或移動鏡片模組來調整其與感測模組之間的距 離’以達難賴整目的。由於採賴放式離,較難調胁正確位置。With the development of digital camera technology, the application of i-bit cameras has gradually become popular. Its special feature is that it will immediately make a film or a pass through the touch of the party. For a digital camera with a fixed focal plane, if there is a vibration shift of the focal plane of the lens module, or if a different lens module is replaced, or a night vision filter (infrared) is changed, it is necessary to count when using The handsome machine (four) recording, which is the remarks. It is quite troublesome for the seller. This kind of problem is used to adjust the distance between the lens and the lens of the lens in the past 'focus plane adjustment (including the distance and the back), or to move the lens module to adjust the sensing mode. The distance between the groups 'to achieve the goal. It is difficult to adjust the correct position due to the release.
為了改善綠技術,對於焦平面偏移現象的微調需求,本專利提出一 種新的架構,以達成可動態調整焦平面之目的。 【新型内容】 本新型提供-種焦平面調整裝置,用以接收一控制模組之一控制指令 以平移-_模組,而使該__絲於—鏡賴組所構成之—焦衫 上,該裝置包含:-基座、—驅_組、―載具與-雜元件。其中,驅 動模組固設於基座,電連接控糖組,接受控令以進行作動。載具裝 設與基座上,載具供感__設於其上,域具可於基座上平移。移動 元件’固設於載具’當驅__動時,移動元件與鶴模域互作用而 3 M422083 帶動載具平移而調整感測模組與鏡頭模組之距離。 為讓本新型之上述和其他目的、特徵、和優點能更明顯易懂,下文特 舉數個較佳實細,並配合所附圖式,作詳細說明如下: 【實施方式】 本新型提供了-種焦平面調整的替代性技術,將一般固定於機殼的感 測模組變更設計為可與鏡頭(―般敎於肢)進行姆運動的移動式感測 模組,即可達到以感測模組的微移動來使感測模組可座落於鏡頭模組所構 成的焦平面。 以往的做法為由鏡頭本身進行調整。本新型的創作點在於以感測模組 本身進行平移的^絲錢測做可座落難、平面(微難)。具體的作法 為:將感測模組固定於載具上,並藉由載具的平移來與鏡頭達成相對運動。 载具如何與鏡頭作相對運動,财許多種作法。以下,將列舉數個實施例 以茲說明。 请參考第卜2B圖’其為本新型之焦平面調整裝置1〇之第一實施例之 功能方塊圖、侧視圖、剖視圖,其為將載具直接裝置於殼體的實施例。其 中’焦平_整相機1QA有町細主要敝件:鍾U、鏡頭座12、 感測模組13、導㈣14、螺桿15、獅16、載具π、馬麵組18、控 制模組19、彈力輔助器2〇與連接器21等。 其中’鏡頭座12固定於殼體11,用以裝設鏡頭模組3〇,如第3圖所 不者。螺桿15固定於殼體11,且可進行順時針或逆時針方向旋轉。馬達 模組18固定於殼體11,與螺桿15結合而控制螺桿15之旋轉方向與轉速。 控制模組19 ’固定於殼體11 ’電連接馬達模組18,接受控制指令以控制 M422083 馬達模組18使之產生旋轉方向與轉速。 其中,載具17與殼體11形成可移動式固定關係。感測模組13固定於 載具17,制模Μ 13包含影像朗單元,依雜舰μ彡賴測信號。 螺帽16固定於載具17並套設於螺桿15上,當螺桿15旋轉時,帶動载具 17平移而調整鏡頭模组3〇與感測模組13的距離,亦即,可賊測模组進 行微調而座落於鏡頭模組3〇所構成的焦平面。 由第1圖、第2Β圖可知’螺桿15、馬達模組18與控制模組係屬 於固定的機構。控制模組19藉由連接器21傳送來外部的控制指令來控制 馬達模組18的轉速與轉動的方向,即可控制螺桿15以順時針旋轉或逆時 針旋轉,以及其轉速。如此,套設於螺桿15的螺帽16即可進行平移,進 而控制載具17的平移,以及其平移的速度與方向。如此,當鏡頭模組30 裝設於鏡頭座12時,其所構成的焦平面’即可以載具17的平移而使感測 模組移往鮮面^調整的速度則依據控制模组19控制馬達模組π的轉速 與轉動方向而定,亦即,外部控制指令的内容。 此外’另可增設轴承’套設於螺帽16與載具17之間,藉以固定螺帽 16 ° 此外’連接器21係電連接感測模組13與控制模組19,用以傳輸影像 感測訊號與控制齡。藉由單-連接器21的設計,可讓本新型的裝置易於 控制與進行訊號的傳輸》 此外,請參考第2Β.圖,其中的彈力輔助器2〇係固定於殼體^與載具 17 ’用以輔助載具17之定位。彈力輔助器扣可以彈簧_彈性體來進行 設計。 5 M422083 此外,殼體11與載具17之間的可移動固定關係,可採取以下的設計 方式。例如’將殼體1^1設計導轨槽14,而載具17設計導軌,導軌係套設 於導軌槽14 ’藉以.固定載具17並使載具17可進行平移。 另外一種實施例為,將導軌槽與導軌反過來設計至載具17肖殼體11。 亦即載具17③含導轨槽,且殼體Μ包含導軌,導軌係套設於導軌槽, 藉以固定載具17並使載具17可進行平移。 此外’馬達_組18可由-微型馬達與-魏箱組成。由於馬達模組 18屬於f知技術領域’熟魏項技藝者容祕以實施,因此,此處不多加 贅述。 第2B圖係為本新型應用於調整感測模組於水平方向移動以座落於焦 平的技術手#又3外一種常見的技術為調整鏡頭模組於垂直方向進行焦 距調整以使_座落於鮮面的數位相機,本新麵透過移動感測模 &來使_模_落於鏡職崎構成的焦平面。 月’考第3 ® ’其郝了本新型應用於垂直方向感測模組平移調 整的技術手段。透過將裝置垂置擺設,再搭配原有數位相機的鏡頭模組5〇 與反射鏡60的設計,即可透過搞_、平面婦裝置侧而調整感測 模組。接著’請參考第从〜犯圖,其為本新型之焦平面調整裝置2〇〇之第 三例之側視圖與三個上視圖實施例(採用固技座而非機殼作為固定機 構)’其為將載具17裝置於—嶋座22,再由蚊基座22裝置於殼體 的實施例。 凊參考第4A圖,其為本新型之焦平面調整裝置2〇〇之第三例之侧視 圖。載具17透物^配置的導軌⑷、体2卿桿15關進行平移,並 M422083 且’固定基座22固定於殼體上。 4參考第4B圖,其為本新型之焦平面調整裝置之第三例之上視圓,其 與第2B圖的差異在於:導軌体】、体2係設計於固定基座a上,而 導T則設計於載具17上。2·彈力輔助器撕、2〇_2則採用兩組且套設 於導軌14-1、M-2(實務上!組亦可)。3固定基座⑦係透過螺孔23固定 . 於外殼。 • _崎參考第扣圖’其為本新型之焦平面調整裝置之第三例之上視圖之第 一例,其與第3B圖嶋在於:彈力輔助祕彳__虹套設於螺桿 15。 清參考第4D圖,其為本新型之焦平面調整裝置之第二例之上視圖,其 與第3B _差異在於:彈力_瓜彳、2〇_2則採用兩组且套設於導軌 体1、14-2的另一側。In order to improve the green technology, for the fine-tuning of the focal plane migration phenomenon, this patent proposes a new architecture to achieve the purpose of dynamically adjusting the focal plane. [New content] The present invention provides a focal plane adjusting device for receiving a control command of a control module to translate the -_ module, and the __ silk is formed by the mirror group The device comprises: a base, a drive group, a carrier and a miscellaneous component. The driving module is fixed on the base, electrically connected to the sugar control group, and receives a control order to perform the operation. The vehicle is mounted on the base and the carrier is provided with a sense __ disposed thereon, and the field can be translated on the base. The moving component is fixed to the carrier. When the drive is moved, the moving component interacts with the crane mode. 3 M422083 drives the carrier to translate to adjust the distance between the sensing module and the lens module. The above and other objects, features, and advantages of the present invention will become more apparent and understood. - An alternative technique for adjusting the focal plane, which is designed to change the sensing module that is generally fixed to the casing to be a mobile sensing module that can move with the lens (like the limb). The micro-movement of the module is such that the sensing module can be seated on the focal plane formed by the lens module. The previous practice was to adjust the lens itself. The creative point of this novel is that the measurement of the module itself can be difficult to locate and face (difficult). The specific method is as follows: the sensing module is fixed on the carrier, and the relative movement of the lens is achieved by the translation of the carrier. How the vehicle moves relative to the lens is a lot of money. Hereinafter, several examples will be described. Please refer to FIG. 2B, which is a functional block diagram, a side view, and a cross-sectional view of a first embodiment of the focal plane adjusting device 1 of the present invention, which is an embodiment in which the carrier is directly mounted on the casing. Among them, 'Jiaoping _ whole camera 1QA has the main components of the town: clock U, lens holder 12, sensing module 13, guide (four) 14, screw 15, lion 16, vehicle π, horse group 18, control module 19 , the elastic aid 2 〇 and the connector 21 and the like. The lens mount 12 is fixed to the housing 11 for mounting the lens module 3〇, as shown in Fig. 3. The screw 15 is fixed to the housing 11 and is rotatable in a clockwise or counterclockwise direction. The motor module 18 is fixed to the housing 11 and is coupled to the screw 15 to control the direction of rotation and the rotational speed of the screw 15. The control module 19' is fixed to the housing 11' and electrically connected to the motor module 18, and receives control commands to control the M422083 motor module 18 to generate a rotational direction and a rotational speed. The carrier 17 and the housing 11 form a movable fixed relationship. The sensing module 13 is fixed to the carrier 17, and the molding module 13 includes an image grading unit. The nut 16 is fixed to the carrier 17 and sleeved on the screw 15. When the screw 15 rotates, the carrier 17 is translated to adjust the distance between the lens module 3 and the sensing module 13, that is, the thief can be tested. The group is fine-tuned and is located in the focal plane formed by the lens module 3〇. As can be seen from Fig. 1 and Fig. 2, the screw 15, the motor module 18 and the control module are fixed mechanisms. The control module 19 controls the rotation speed of the motor module 18 and the direction of rotation by the external control command transmitted from the connector 21, thereby controlling the screw 15 to rotate clockwise or counterclockwise, and its rotation speed. Thus, the nut 16 sleeved on the screw 15 can be translated to control the translation of the carrier 17 and the speed and direction of its translation. In this way, when the lens module 30 is mounted on the lens holder 12, the focal plane formed by the carrier module 30 can shift the sensing module to the fresh surface, and the speed of the adjustment is controlled according to the control module 19. The rotational speed of the motor module π depends on the direction of rotation, that is, the content of the external control command. In addition, the 'additional bearing can be set between the nut 16 and the carrier 17 to fix the nut 16 °. The connector 21 is electrically connected to the sensing module 13 and the control module 19 for transmitting image sense. Test signal and control age. By means of the design of the single-connector 21, the device of the present invention can be easily controlled and transmitted. Further, please refer to FIG. 2, in which the elastic aid 2 is fixed to the housing ^ and the carrier 17 'To assist in the positioning of the carrier 17. The spring aid buckle can be designed with a spring-elastic body. 5 M422083 In addition, the movable fixed relationship between the housing 11 and the carrier 17 can be adopted in the following design. For example, the housing 1^1 is designed with a rail slot 14, and the carrier 17 is designed with a rail that is sleeved over the rail slot 14' to secure the carrier 17 and allow the carrier 17 to translate. In another embodiment, the rail slot and the rail are designed to be reversed to the carrier 17 housing 11. That is, the carrier 173 includes a guide rail slot, and the housing Μ includes a guide rail that is sleeved on the guide rail slot to fix the carrier 17 and allow the carrier 17 to translate. Furthermore, the 'motor_group 18' can be composed of a micromotor and a Wei box. Since the motor module 18 belongs to the technical field of the skilled artisan, it is not necessary to describe it here. The 2B figure is a new type of technology applied to adjust the sensing module to move in the horizontal direction to be seated in the focal plane. #3 is a common technique for adjusting the lens module to adjust the focal length in the vertical direction to make the _ seat The digital camera that falls on the fresh surface, the new face is moved to the focal plane formed by the Mirror by the motion sensing mode & Month's 3rd ***'s Hao Hao this new technology applied to the vertical direction sensing module translation adjustment. By arranging the device vertically, and matching the lens module 5〇 of the original digital camera with the design of the mirror 60, the sensing module can be adjusted through the side of the flat device. Then, please refer to the second from the map, which is a side view of the third example of the focal plane adjustment device 2 and three upper view embodiments (using a solid-state seat instead of the casing as a fixing mechanism) It is an embodiment in which the carrier 17 is mounted on the sley 22 and the mosquito susceptor 22 is mounted on the casing. Referring to Fig. 4A, it is a side view of a third example of the focal plane adjusting device 2 of the present invention. The guide rail (4) of the carrier 17 and the body 2 are pivoted off, and the M422083 and the fixed base 22 are fixed to the housing. 4 Referring to FIG. 4B, which is a third example of the focal plane adjustment device of the present invention, which differs from FIG. 2B in that the rail body and the body 2 are designed on the fixed base a. T is designed on the carrier 17. 2·The elastic aid is torn, and 2〇_2 is used in two sets and is set on the guide rails 14-1 and M-2 (the practical group!). 3 The fixing base 7 is fixed through the screw hole 23 to the outer casing. • The _Sakis reference map is the first example of the top view of the third example of the focal plane adjustment device of the present invention, and the figure 3B is that the elastic assisting __ rainbow sleeve is provided on the screw 15. Referring to FIG. 4D, which is a top view of the second example of the focal plane adjusting device of the present invention, the difference from the 3B _ is that the elastic force _ 彳 彳, 2 〇 2 is used in two sets and is set on the guide rail body. 1, the other side of 14-2.
第 4A ' 4B、4C 設計於同一平面上。 計。 ' 4D圖的實施例,係採取導軌1φ1、14_2與螺桿 實務上,亦可不設計於同-平面,而僅採取平行的設 ,1载具平移的方式有許多種,第1〜犯圖為運用螺桿來進行平移的 術手段。除了 _縣動的機械方式外,亦有其他_動方式例如, 用電磁力的枝。卿’本新型係透過驅纏絲驅喊具的移動,至 驅動的技術’财_細娜瞧,例如,崎驅動、電力 動電磁力驅動.·.等等。而驅動模組則可受控於外部的控制模組所輸出 控制指令來作動。 至於使載具進行移動者,則是固設於載具上的移動元件’以前述的 iY^^2〇83 施例來說即為螺帽。 以下,再列舉以電磁力來驅動載具平移的實施例。 請參考第5A圖,其係為本新型之鮮面調整裝置3㈤第二實施例之 功能方塊圖。與第1圖比較發現,第5A圖係運用電磁線圈所產生的電磁力 來進行。焦平面調整相機10B中,在載具π上,移動元件設計為電磁線圈 26 ’而驅動模組則為電磁線圈25。控糖組19產生控制指令後,驅動電 磁線圈25產生電磁場,以鋪具17上的電磁_6所產生的電磁場進行 交互作用(吸力或推力),然後,使載具平移。 其中’為了要讓控制電磁線圈25的電磁場,可以可調電流源(未畫出) 進行電流的控制。可調錢輯舰第—概_,並接受㈣指令續 出可調電流至電磁制25以控雛產生電磁場之強度。 著請’考第5B圖’其係為第5A圖中本新型之焦平面調整裳置之 上視圖。睛比較第3B圖,兩者的差異在於,第5B圖係將驅動模組變更為 25 m其所產生的電磁場可與載具17上的電磁線圈迮的 電磁場產生電磁力侧,進而可推動載具17進行平移1外,其他組件皆 如第4B圖所示,不再贅述。 白 接著’請參考第5C圖,其係為第5A圖中本新型之焦平面調整裝置之 上視圖之另-例。請比較第5B圖,兩者的差異在於,第5c圖係將驅動模 組變更為電猶圈26與導磁鐵心27所構成的音圈馬達。電磁線㈣固定 於載具17當中_定孔28t,藉由控繼令來控制電磁線圈㈣電磁場 產生推進導磁鐵心27的電磁力,即可推動載具彳了進行平移。此外,其他 組件皆如第4B、5B圖所示,不再贅述。 、 M422083 除了運用馬達、磁力財式,亦可結合賊力來進行微觸㈣。例 如,於載具17上安裝彈片,並以電磁力吸引或斥推一柱體,讓柱體推動彈 片前進或後退。此種餘,可於基座上設計可供彈片定位的魏個定位孔, 定位孔即為提供彈片移動後的定位。定位孔的間距則以微調所需的精度來 進行設計。 雖然本新型之較佳實施例揭露如上所述,然其並非用以限定本新型, 任何熟習_技藝者’树_核狀輯和範_,當可作些許之更 動細飾,因此本新型之專利保護範圍須視本說明書所附之申請專利範圍 所界定者為準。 【圖式簡單說明】 第1圖係為本新型之焦平面調整裝置第—實施例之功能方塊圖; 第2A圖係為第]圖中本新型之焦平面調整裝置之第一例之側視圖; 第2B圖係為第!圖中本新型之焦平面調整裝置之第一例之剖面圖; 第3圖係為本新型之焦平面調整裝置之第二例之剖面圖; 第4A圖係為本新型之焦平面調整裝置之第三例之側視圖; 第4B圖係為本新型之焦平面調整裝置之第三例之上視圖中之彈力輔 助裝置之第一例; 第4C圖係為本新型之焦平面調整裝置之第三例之上視圖中之彈力輔 助裝置之第二例; 第4D圖係為本新型之焦平面調整裝置之第三例之上視圖中之彈力輔 助裝置之第三例; 第5A圖係為本新型之焦平面調整裝置苐四例之功能方塊圖’· M422U83 系為第5A圖中本新型之焦平面調整裝置之上視圖之一例;及 第 50 ®ϊ ^ 係為第5Α圖中本新型之焦平面調整裝置之上視圖之另一例。 【主要元件符號說明】 10 焦平面調整裝置 100Α ' 100Β 焦平面調整裝置 200 焦平面調整裝置 300 焦平面調整裝置 11 殼體 12 鏡頭座 13 威測模組 14 導軌槽 14-1 ' 14-2 導轨 15 螺桿 16 媒帽 17 載具 18 烏達模組 19 控制模組 20 弹力輔助器 20-1 ' 20-2 彈力辅助器 21 速接器 22 囡定基座 国疋螺孔 23 M422083 24 感測模組固定孔 25-1 ' 25-2 電磁線圈組 26 電磁線圈組 27 導磁鐵心 28 固定轴 30 鏡頭模組4A '4B, 4C are designed on the same plane. meter. The embodiment of the 4D diagram adopts the guide rails 1φ1, 14_2 and the screw practice, and may not be designed in the same plane, but only adopts parallel arrangement, and there are many ways for the carrier to translate. The first to the map is used. The screw is used to translate. In addition to the mechanical methods of the county, there are other ways to move, for example, using electromagnetic force. Qing's new type is driven by the drive of the drive to drive the drive, to the technology of the drive, such as the Saki drive, the electric drive, and so on. The drive module can be controlled by the output control command output from the external control module. As for the case where the carrier is moved, the moving member fixed to the carrier is a nut as in the above-described example of iY^^2〇83. Hereinafter, an embodiment in which the carrier is translated by electromagnetic force is exemplified. Please refer to Fig. 5A, which is a functional block diagram of the second embodiment of the fresh dough adjusting device 3 (5) of the present invention. Compared with Fig. 1, it is found that the 5A figure is performed by the electromagnetic force generated by the electromagnetic coil. In the focal plane adjustment camera 10B, on the carrier π, the moving element is designed as an electromagnetic coil 26' and the driving module is an electromagnetic coil 25. After the sugar control group 19 generates a control command, the electromagnetic coil 25 is driven to generate an electromagnetic field to interact (suction or thrust) with the electromagnetic field generated by the electromagnetic_6 on the laying device 17, and then the carrier is translated. In order to allow the electromagnetic field of the electromagnetic coil 25 to be controlled, a current source (not shown) can be used to control the current. Adjustable money to the ship - _, and accept (four) command to continue the adjustable current to the electromagnetic system 25 to control the strength of the electromagnetic field. Please refer to Figure 5B for the top view of the focal plane adjustment skirt of the present invention in Figure 5A. Compared with Figure 3B, the difference between the two is that the 5B figure changes the drive module to 25 m, and the electromagnetic field generated by it can generate an electromagnetic force side with the electromagnetic field of the electromagnetic coil 载 on the carrier 17, and thus can push the load. The other components are shown in Figure 4B, and will not be described again. White Next ‘Refer to Figure 5C, which is another example of the top view of the focal plane adjustment device of the present invention in Fig. 5A. Please compare Fig. 5B. The difference between the two is that the 5c diagram changes the drive module to a voice coil motor composed of the electric collar 26 and the core 27. The electromagnetic wire (4) is fixed to the fixed hole 28t in the carrier 17, and the electromagnetic force generated by the electromagnetic coil (4) is controlled by the control command to generate the electromagnetic force of the magnetic core 27 to push the carrier to perform the translation. In addition, other components are shown in Figures 4B and 5B and will not be described again. M422083 In addition to the use of motor, magnetic and financial, you can also use the thief force to make micro-touch (four). For example, a shrapnel is attached to the carrier 17, and a cylinder is attracted or repulsed by electromagnetic force to cause the cylinder to push the retractor forward or backward. In this case, a Wei positioning hole for positioning the elastic piece can be designed on the base, and the positioning hole is to provide positioning after the elastic piece is moved. The spacing of the locating holes is designed with the precision required for fine tuning. Although the preferred embodiment of the present invention is disclosed above, it is not intended to limit the present invention, and any of the skilled artisans 'tree_nuclear series and van _, can make some modifications and fines, so the patent of the present invention The scope of protection shall be subject to the definition of the scope of the patent application attached to this specification. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a functional block diagram of a first embodiment of a focal plane adjusting device of the present invention; FIG. 2A is a side view of a first example of a focal plane adjusting device of the present invention. ; Figure 2B is the first! The cross-sectional view of the first example of the focal plane adjusting device of the present invention; the third drawing is a cross-sectional view of the second example of the focal plane adjusting device of the present invention; and the fourth embodiment is the focal plane adjusting device of the present invention. The side view of the third example; the fourth example is the first example of the elastic assisting device in the top view of the third example of the focal plane adjusting device; the fourth embodiment is the first focal plane adjusting device of the present invention The second example of the elastic assisting device in the upper view of the three cases; the fourth DD is the third example of the elastic assisting device in the upper view of the third example of the focal plane adjusting device of the present invention; A new type of focal plane adjustment device 功能 four functional block diagrams '· M422U83 is an example of the above view of the focal plane adjustment device of the new type in Figure 5A; and the 50th ϊ ^ is the fifth in the fifth Another example of a view above the focal plane adjustment device. [Description of main component symbols] 10 focal plane adjustment device 100Α '100Β focal plane adjustment device 200 focal plane adjustment device 300 focal plane adjustment device 11 housing 12 lens mount 13 power test module 14 rail slot 14-1 ' 14-2 guide Rail 15 Screw 16 Cap 17 Carrier 18 Uda Module 19 Control Module 20 Elastic Assist 20-1 ' 20-2 Elastic Assist 21 Speed Adapter 22 基座 基座 疋 23 23 23 M422083 24 Sensing Module fixing hole 25-1 ' 25-2 electromagnetic coil group 26 electromagnetic coil group 27 magnetic core 28 fixed shaft 30 lens module