TWI424211B - An integrated apparatus of elastic lens and flexible sensors - Google Patents
An integrated apparatus of elastic lens and flexible sensors Download PDFInfo
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- TWI424211B TWI424211B TW098124171A TW98124171A TWI424211B TW I424211 B TWI424211 B TW I424211B TW 098124171 A TW098124171 A TW 098124171A TW 98124171 A TW98124171 A TW 98124171A TW I424211 B TWI424211 B TW I424211B
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Description
本創作有關於一種彈性體透鏡與可撓性影像感測元件之整合裝置,特別是有關於一種可撓性基材表面設置影像感測元件配合彈性體透鏡焦距變化的情形自動產生曲率與位置補正功能;透過可撓性基材受壓力後變形量與光學分析,利用不相 等可撓性影像感測膜基材厚度的設計,使可撓性影像感測膜受內壓力變化後的曲率及位置與壓縮彈性體透鏡之內壓力相互補償,使可撓性影像感測膜對應於系統之最佳成像面,以降低影像的像差而獲得較佳的影像品質。彈性體透鏡與可撓性影像感測膜之間,亦可藉由隔離元件分開彈性體透鏡與可撓性影像感測膜,獨立施加壓力使彼此不產生交互影響。 The present invention relates to an integrated device for an elastic lens and a flexible image sensing element, and particularly relates to a method for automatically forming curvature and position correction when a flexible sensing substrate is provided with an image sensing element and a focal length change of an elastomer lens. Function; the amount of deformation and optical analysis after being subjected to pressure through a flexible substrate The thickness of the flexible image sensing film substrate is designed such that the curvature and position of the flexible image sensing film after being changed by the internal pressure and the pressure inside the compression elastomer lens compensate each other to make the flexible image sensing film Corresponding to the optimal imaging surface of the system, to reduce the aberration of the image to obtain better image quality. Between the elastomer lens and the flexible image sensing film, the elastic lens and the flexible image sensing film may be separated by the spacer element, and pressure is independently applied so as not to interact with each other.
美國、日本、國內等有許多關於彈,性體透鏡的相關專利,控制方法概略有機械式例如中華民國專利第096110024號申請案(公開號200839300),US 6,038,080,電磁式例如JP60,220,301,液晶式例如US 2005/0018127,電濕潤式例如US 2006/0285220,液壓充填式例如US 7,256,943或馬達控制之液態變焦透鏡例如US2007/0104473等,都局限於影像感測元件為平面式感測器,當鏡頭的景深較短時,離開光軸的周邊影像,其解析度因超出景深範圍而下降,以及各種像差因素造成整體影像品質不良;且鏡頭焦距調整控制機構複雜,導致整體體積無法輕巧化。 There are many patents relating to bullets and spheroidal lenses in the United States, Japan, and China. The control methods are generally described in the form of a mechanical type such as the application of the Republic of China Patent No. 096110024 (Publication No. 200839300), US 6,038,080, electromagnetic type such as JP 60, 220, 301, liquid crystal. For example, US 2005/0018127, electrowetting type such as US 2006/0285220, hydraulic filling type such as US 7, 256, 943 or motor controlled liquid zoom lens such as US2007/0104473, etc., are limited to image sensing elements as planar sensors, when When the depth of field of the lens is short, the resolution of the peripheral image leaving the optical axis is degraded due to the depth of field, and the overall image quality is poor due to various aberration factors; and the lens focal length adjustment control mechanism is complicated, resulting in the overall volume being incapable of being light.
有鑑於此,本創作之目的在於提供一種彈性體透鏡與可撓性影像感測元件之整合裝置,當彈性體透鏡受壓力改變透鏡曲率而造成焦距變化;利用不相等厚度的可撓性影像感測膜控制變形曲率與位置,伴隨著內部所產生壓力使可撓性影像感測膜 與透鏡產生光學性質互補關係,而依最佳成像曲率變形,獲得低像差高品質的影像。彈性體透鏡與可撓性影像感測膜之間,亦可藉由隔離元件分開彈性體透鏡與可撓性影像感測膜,獨立施加壓力使彼此不產生交互影響。 In view of this, the purpose of the present invention is to provide an integrated device for an elastic lens and a flexible image sensing element, which causes a change in focal length when the elastic lens is subjected to pressure to change the curvature of the lens; and a flexible image sense with unequal thickness The film controls the curvature and position of the deformation, and the flexible image sensing film is accompanied by the pressure generated inside. It has a complementary relationship with the optical properties of the lens, and is deformed according to the optimal imaging curvature to obtain high-quality images with low aberrations. Between the elastomer lens and the flexible image sensing film, the elastic lens and the flexible image sensing film may be separated by the spacer element, and pressure is independently applied so as not to interact with each other.
本創作之光學影像感測裝置的一較佳實施例包括一鏡筒本體、一彈性體透鏡、一光可折射撓性體、一可撓性影像感測膜、一彈性體透鏡固定環、一彈性體透鏡固定環螺絲、一彈性體透鏡曲率調整環、一彈性體透鏡曲率調整環螺絲、一可撓性影像感測膜固定環及一可撓性影像感測膜固定環螺絲;一鏡筒本體、一彈性體透鏡、一光可折射撓性體、一可撓性影像感測膜形成封閉的空間;一彈性體透鏡被一彈性體透鏡固定環、一彈性體透鏡固定環螺絲固定於鏡筒本體;一可撓性影像感測膜由一可撓性影像感測膜基材及一可撓性影像感測元件所組成,並由一影像感測膜固定環及一影像感測膜固定環螺絲固定於鏡筒本體。 A preferred embodiment of the optical image sensing device of the present invention comprises a barrel body, an elastomer lens, a light refractable flexible body, a flexible image sensing film, an elastic lens fixing ring, and a Elastomer lens fixing ring screw, an elastic lens curvature adjusting ring, an elastic lens curvature adjusting ring screw, a flexible image sensing film fixing ring and a flexible image sensing film fixing ring screw; a lens barrel The body, an elastomer lens, a light refracting flexible body, and a flexible image sensing film form a closed space; an elastomer lens is fixed to the mirror by an elastic lens fixing ring and an elastic lens fixing ring The flexible body image sensing film is composed of a flexible image sensing film substrate and a flexible image sensing component, and is fixed by an image sensing film fixing ring and an image sensing film. The ring screw is fixed to the barrel body.
在上述之較佳實施例中,利用一彈性體透鏡曲率調整環螺絲控制一彈性體透鏡曲率調整環,使彈性體透鏡曲率調整環壓緊或放鬆彈性體透鏡的表面,如此造成彈性體透鏡曲率改變,進而達成調整系統焦距的目的。 In the above preferred embodiment, an elastic lens curvature adjusting ring is used to control an elastic lens curvature adjusting ring, so that the elastic lens curvature adjusting ring presses or loosens the surface of the elastic lens, thus causing the curvature of the elastic lens. Change, and then achieve the purpose of adjusting the focal length of the system.
在上述之較佳實施例中,光可折射撓性體可依系統需求使用各種不同光學指數的液體。 In the preferred embodiment described above, the photorefractive flexible body can use a variety of liquids of different optical indices depending on system requirements.
在上述之較佳實施例中,採用一可撓性影像感測膜固定環及一可撓性影像感測膜固定環螺絲固定影像感測膜;採用一彈性體透鏡固定環、一彈性體透鏡固定環螺絲以固定彈性體透鏡及以彈性體透鏡曲率調整環、彈性體透鏡曲率調整環螺絲以調整彈性體透鏡曲率;本固定環與螺絲分離設計可將固定螺絲或調整螺絲的旋轉運動推動固定環或調整環變為直線運動,以防止彈性體透鏡與可撓性影像感測膜因磨擦及旋轉造成皺折、扭曲或損傷彈性體透鏡表面。 In the above preferred embodiment, a flexible image sensing film fixing ring and a flexible image sensing film fixing ring are used to fix the image sensing film; an elastic lens fixing ring and an elastic lens are used. Fixing the ring screw to fix the elastic lens and the elastic lens curvature adjusting ring and the elastic lens curvature adjusting ring screw to adjust the curvature of the elastic lens; the fixing ring and the screw separating design can push and fix the rotating motion of the fixing screw or the adjusting screw The ring or the adjustment ring becomes a linear motion to prevent the elastic lens and the flexible image sensing film from wrinkling, twisting or damaging the surface of the elastomer lens due to friction and rotation.
在上述之較佳實施例更包括一不相等厚度的可撓性影像感測膜基材,設計者可根據鏡筒本體內壓力在可撓性影像感測膜表面的壓力分佈條件,依所期望的影像感測膜變形曲率,在同一可撓性影像感測膜基材設計不相同的厚度,使可撓性影像感測膜變形後與透鏡光學性質產生互補關係,使可撓性影像感測膜變形後曲率及變形位置與最佳成像面相符合。彈性體透鏡與可撓性影像感測膜之間,亦可藉由隔離元件分開彈性體透鏡與可撓性影像感測膜,獨立施加壓力使彼此不產生交互影響。 In the above preferred embodiment, a flexible image sensing film substrate having an unequal thickness is further included, and the designer can according to the pressure distribution condition of the pressure on the flexible image sensing film surface according to the pressure in the lens barrel body. The image sensing film deformation curvature is different in thickness of the same flexible image sensing film substrate design, and the flexible image sensing film is deformed to have a complementary relationship with the optical properties of the lens, so that the flexible image sensing is performed. The curvature and deformation position of the film after deformation are consistent with the optimal imaging surface. Between the elastomer lens and the flexible image sensing film, the elastic lens and the flexible image sensing film may be separated by the spacer element, and pressure is independently applied so as not to interact with each other.
在上述之較佳實施例中,因為不等厚度的影像感測膜基材設計,彈性體透鏡與可撓性影像感測膜變化的曲率為一自動補正系統,系統本身具有自我補償功能,不需要額外之調整裝置。為了讓本創作之上述和其他目的、特徵和優點能更明顯易懂,下文特舉較佳實施例,並配合所附圖示,作詳細說明如下。 In the above preferred embodiment, the curvature of the elastic lens and the flexible image sensing film is an automatic correction system because of the unequal thickness of the image sensing film substrate design, and the system itself has a self-compensation function, Additional adjustments are required. The above and other objects, features, and advantages of the present invention will become more apparent and understood by the appended claims appended claims
第3圖為本創作之彈性體透鏡與可撓性影像感測元件之整合裝置的一較佳實施例的剖視圖。彈性體透鏡與可撓性影像感測元件之整合裝置1包括一鏡筒本體11、一彈性體透鏡13、一透明液體14、一可撓性影像感測膜12、一彈性體透鏡固定環131、一彈性體透鏡固定環螺絲132、一彈性體透鏡曲率調整環15、一彈性體透鏡曲率調整環螺絲16、一可撓性影像感測膜固定環121及一可撓性影像感測膜固定環螺絲122;一鏡筒本體11、一彈性體透鏡13、一透明液體14、一可撓性影像感測膜12形成封閉的空間;一彈性體透鏡13被一彈性體透鏡固定環131、一彈性體透鏡固定環螺絲132固定於鏡筒本體11;一可撓性影像感測膜12由一可撓性影像感測膜基材125及一可撓性影像感測元件126所組成,並由一可撓性影像感測膜固定環121及一可撓性影像感測膜固定環螺絲122固定於鏡筒本體11;一彈性體透鏡曲率調整元件則由一彈性體透鏡曲率調整環15及一彈性體透鏡曲率調整環螺絲16所組成,設置於彈性體透鏡13表面,利用彈性體透鏡曲率調整環螺絲16控制彈性體透鏡曲率調整環15,使彈性體透鏡曲率調整環15壓緊或放鬆彈性體透鏡的表面。光線2經由鏡筒本體11、彈性體透鏡曲率調整環螺絲16、彈性體透鏡曲率調整環15、彈性體透鏡固定環螺絲132、彈性體透鏡固定環131中央空孔後,藉由彈性體透鏡13及透明液體14聚焦於可撓性影像感測膜 12之可撓性影像感測元件126上;而獲得之影像可以藉由電子周邊傳輸裝置及處理器作後續處理。旋轉調整彈性體透鏡曲率調整環螺絲16,彈性體透鏡曲率調整環15會受到彈性體透鏡曲率調整環螺絲16壓力壓迫彈性體透鏡13,使彈性體透鏡13表面曲率半徑及位置改變。 Figure 3 is a cross-sectional view of a preferred embodiment of the integrated device of the elastomer lens and the flexible image sensing element of the present invention. The device 1 for integrating the elastic lens and the flexible image sensing element comprises a barrel body 11, an elastomer lens 13, a transparent liquid 14, a flexible image sensing film 12, and an elastic lens fixing ring 131. An elastic lens fixing ring screw 132, an elastic lens curvature adjusting ring 15, an elastic lens curvature adjusting ring screw 16, a flexible image sensing film fixing ring 121 and a flexible image sensing film fixing a ring screw 122; a barrel body 11, an elastomer lens 13, a transparent liquid 14, a flexible image sensing film 12 form a closed space; an elastomer lens 13 is an elastic lens fixing ring 131, a The elastic lens fixing ring screw 132 is fixed to the lens barrel body 11; a flexible image sensing film 12 is composed of a flexible image sensing film substrate 125 and a flexible image sensing element 126, and A flexible image sensing film fixing ring 121 and a flexible image sensing film fixing ring screw 122 are fixed to the lens barrel body 11; an elastic lens curvature adjusting element is composed of an elastic lens curvature adjusting ring 15 and a Elastomer lens curvature adjustment ring screw 16 To be provided on the surface of the elastic member 13 of the lens, the curvature of the lens with an elastomer ring adjustment screw 16 to adjust the curvature of the lens control elastomeric ring 15, the lens curvature of the elastic body 15 pressed against the surface of the adjustment ring or relaxing an elastomeric lens. After the light beam 2 passes through the barrel body 11, the elastic lens curvature adjusting ring screw 16, the elastic lens curvature adjusting ring 15, the elastic lens fixing ring screw 132, and the elastic lens fixing ring 131, the elastic lens 13 is used. And the transparent liquid 14 is focused on the flexible image sensing film 12 of the flexible image sensing element 126; and the obtained image can be processed by the electronic peripheral transmission device and the processor for subsequent processing. The elastic lens curvature adjusting ring screw 16 is rotationally adjusted, and the elastic lens curvature adjusting ring 15 is pressed by the elastic lens curvature adjusting ring screw 16 to press the elastic lens 13 to change the surface curvature radius and position of the elastic lens 13.
第4圖為本創作之彈性體透鏡與可撓性影像感測元件之整合裝置的一較佳實施例的分解圖,以清楚描述本裝置之立體形狀及各零件組合之相互關係。 4 is an exploded view of a preferred embodiment of the integrated device of the elastomer lens and the flexible image sensing element of the present invention to clearly describe the three-dimensional shape of the device and the relationship between the components.
第5圖為本創作之彈性體透鏡與可撓性影像感測元件之整合裝置的一較佳實施例示意圖,彈性體透鏡13受到彈性體透鏡曲率調整環15施加壓力後,彈性體透鏡13之原始位置133移動到134位置,彈性體透鏡13表面曲率亦連同改變,原聚焦光線路徑由位置21改變為位置22;透明液體14受到彈性體透鏡13壓力後,將壓力傳導至可撓性影像感測膜12,可撓性影像感測膜12受到透明液體14壓力,可撓性影像感測膜原始位置123移動到124位置,可撓性影像感測膜12的曲率亦連同改變;當把彈性體透鏡曲率調整環15壓力釋放後,彈性體透鏡13恢復原先狀態,可撓性影像感測膜12隨同恢復原狀態,聚焦光線路徑由位置22恢復到位置21;使彈性體透鏡13與可撓性影像感測膜12之間在位置與曲率變化上,產生一種自動補償之效果。 FIG. 5 is a schematic view showing a preferred embodiment of the device for integrating the elastic lens and the flexible image sensing element. After the elastic lens 13 is pressed by the elastic lens curvature adjusting ring 15, the elastic lens 13 is The original position 133 is moved to the position 134, and the surface curvature of the elastomer lens 13 is also changed, and the original focused light path is changed from the position 21 to the position 22. After the transparent liquid 14 is pressed by the elastic lens 13, the pressure is transmitted to the flexible image. The film 12, the flexible image sensing film 12 is subjected to the pressure of the transparent liquid 14, the original position 123 of the flexible image sensing film is moved to the position 124, and the curvature of the flexible image sensing film 12 is also changed together; After the pressure release of the body lens curvature adjusting ring 15 is released, the elastic lens 13 is restored to the original state, and the flexible image sensing film 12 is restored to the original state, and the focused light path is restored from the position 22 to the position 21; the elastic lens 13 is made flexible. The positional and curvature changes between the image sensing films 12 produce an automatic compensation effect.
第6圖為本創作之彈性體透鏡與可撓性影像感測元件之整合裝置的一較佳實施例中彈性體透鏡曲率調整環15,其接觸彈性體透鏡13表面的前端部份切成斜角151,減少彈性體透鏡曲率調整環15壓入彈性體透鏡13表面的接觸寬度,以精確控制彈性體透鏡13表面曲率變化。 Figure 6 is a perspective view of an elastomer lens curvature adjusting ring 15 in a preferred embodiment of the integrated device of the elastomer lens and the flexible image sensing device. The front end portion of the surface contacting the elastic lens 13 is cut obliquely. The angle 151 reduces the contact width of the elastic lens curvature adjusting ring 15 pressed into the surface of the elastic lens 13 to precisely control the surface curvature variation of the elastic lens 13.
第7圖為本創作之彈性體透鏡與可撓性影像感測元件之整合裝置的一較佳實施例,可撓性影像感測膜12由一可撓性影像感測膜基材125及一可撓性影像感測元件126所組成;可撓性影像感測膜基材125由可撓性材料製成,可撓性影像感測元件126可以微機電感測元件技術製造並與可撓性影像感測膜基材125結合。 FIG. 7 is a preferred embodiment of the integrated device of the elastomer lens and the flexible image sensing device. The flexible image sensing film 12 is composed of a flexible image sensing film substrate 125 and a film. The flexible image sensing element substrate 126 is made of a flexible material, and the flexible image sensing element 126 can be fabricated by a microcomputer-based sensing element technology and is flexible. The image sensing film substrate 125 is bonded.
第8圖為本創作之彈性體透鏡與可撓性影像感測元件之整合裝置的一較佳實施例,可撓性影像感測膜12利用同一可撓性影像感測膜基材125中不同厚度設計,使可撓性影像感測膜12受到壓力時具有預期的曲率變化的關係;將可撓性影像感測膜基材125的中央部份127與周圍部份128的截面依變形需求而設計為不相等厚度,使可撓性影像感測膜12受壓力變形後曲率形狀變化及變形量大小,符合裝置最佳成像面的目的。雖然本創作已以較佳實施例揭露如上,然其並非用以限定本創作,任何熟習此技藝者,在不脫離本創作之精神和範圍內,當可作些許之更動與潤飾,因此本創作之保護範圍當視後附之申請專利範圍所界定者為準。 FIG. 8 is a preferred embodiment of the integrated device of the elastomer lens and the flexible image sensing device of the present invention. The flexible image sensing film 12 utilizes the same flexible image sensing film substrate 125. The thickness is designed to have a desired curvature change when the flexible image sensing film 12 is subjected to pressure; the cross section of the central portion 127 of the flexible image sensing film substrate 125 and the surrounding portion 128 is required to be deformed. The unequal thickness is designed to change the curvature shape and the amount of deformation of the flexible image sensing film 12 after being deformed by pressure, which is in accordance with the purpose of the optimal imaging surface of the device. Although the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the present invention, and anyone skilled in the art can make some changes and refinements without departing from the spirit and scope of the present invention. The scope of protection is subject to the definition of the scope of the patent application.
1‧‧‧彈性體透鏡與可撓性影像感測元件之整合裝置 1‧‧‧Integration device for elastomer lens and flexible image sensing element
2‧‧‧光線 2‧‧‧Light
11‧‧‧鏡筒本體 11‧‧‧Mirror body
12‧‧‧可撓性影像感測膜 12‧‧‧Flexible image sensing film
13‧‧‧彈性體透鏡 13‧‧‧ Elastomer lens
14‧‧‧透明液體 14‧‧‧Transparent liquid
15‧‧‧彈性體透鏡曲率調整環 15‧‧‧ Elastomer lens curvature adjustment ring
16‧‧‧彈性體透鏡曲率調整環螺絲 16‧‧‧ Elastomer lens curvature adjustment ring screw
121‧‧‧可撓性影像感測膜固定環 121‧‧‧Flexible image sensing film retaining ring
122‧‧‧可撓性影像感測膜固定環螺絲 122‧‧‧Flexible image sensing film fixing ring screw
123‧‧‧可撓性影像感測膜變形前位置 123‧‧‧Flexible image sensing film before deformation
124‧‧‧可撓性影像感測膜變形後位置 124‧‧‧Flexible image sensing film after deformation
125‧‧‧可撓性影像感測膜基材 125‧‧‧Flexible image sensing film substrate
126‧‧‧可撓性影像感測膜感測元件 126‧‧‧Flexible image sensing film sensing element
127‧‧‧可撓性影像感測膜中央區域 127‧‧‧Flexible image sensing film central area
128‧‧‧可撓性影像感測膜周緣區域 128‧‧‧Flexible image sensing film peripheral area
131‧‧‧彈性體透鏡固定環 131‧‧‧ Elastomer lens fixing ring
132‧‧‧彈性體透鏡固定環螺絲 132‧‧‧ Elastomer lens fixing ring screw
133‧‧‧彈性體透鏡原始位置 133‧‧‧Original lens original position
134‧‧‧彈性體透鏡受壓力後位置 134‧‧‧The position of the elastomer lens after being pressed
21‧‧‧原聚焦光線路徑位置 21‧‧‧ Original focus light path position
22‧‧‧彈性體透鏡變形後之聚焦光線路徑 22‧‧‧Focused light path after deformation of elastomer lens
第1圖為一習知的中華民國專利公開號200839300圓環驅動之具有折光特性之容易改變形狀填充物充填式透鏡剖視圖。 Fig. 1 is a cross-sectional view showing a shape-fitting lens of an easily changeable shape filler having a refractive property driven by a conventional Republic of China Patent Publication No. 200839300.
第2圖為一習知的US 6,344,930液態光學透鏡與顯像系統控制裝置的剖視圖。 Figure 2 is a cross-sectional view of a conventional US 6,344,930 liquid optical lens and imaging system control device.
第3圖為本創作之彈性體透鏡與可撓性影像感測元件之整合裝置的一較佳實施例剖視圖。 Figure 3 is a cross-sectional view of a preferred embodiment of the integrated device of the elastomer lens and the flexible image sensing element of the present invention.
第4圖為本創作之彈性體透鏡與可撓性影像感測元件之整合裝置的一較佳實施例立體分解圖。 Figure 4 is a perspective exploded view of a preferred embodiment of the integrated device of the elastomer lens and the flexible image sensing element.
第5圖為本創作之彈性體透鏡與可撓性影像感測元件之整合裝置的一較佳實施例之彈性體透鏡與可撓性影像感測元件受壓力後的表面曲率與位置變化示意圖。 FIG. 5 is a schematic view showing the surface curvature and position change of the elastic lens and the flexible image sensing element according to a preferred embodiment of the integrated device of the elastomer lens and the flexible image sensing device.
第6圖為本創作之彈性體透鏡與可撓性影像感測元件之整合裝置的一較佳實施例之彈性體透鏡曲率調整環立體圖。 Figure 6 is a perspective view of an elastic lens curvature adjusting ring of a preferred embodiment of the integrated device of the elastomer lens and the flexible image sensing element.
第7圖為本創作之彈性體透鏡與可撓性影像感測元件之整合裝置的一較佳實施例之影像感測膜立體圖。 Figure 7 is a perspective view of an image sensing film of a preferred embodiment of the integrated device of the elastomer lens and the flexible image sensing device.
第8圖為本創作之彈性體透鏡與可撓性影像感測元件之整合裝置的一較佳實施例針對不相等基材厚度之可撓性影像感測膜剖面圖。 Figure 8 is a cross-sectional view of a flexible image sensing film for unequal substrate thickness, in accordance with a preferred embodiment of the present invention, an integrated device for an elastomer lens and a flexible image sensing device.
1‧‧‧彈性體透鏡與可撓性影像感測元件之整合裝置 1‧‧‧Integration device for elastomer lens and flexible image sensing element
2‧‧‧光線 2‧‧‧Light
11‧‧‧鏡筒本體 11‧‧‧Mirror body
12‧‧‧可撓性影像感測膜 12‧‧‧Flexible image sensing film
13‧‧‧彈性體透鏡 13‧‧‧ Elastomer lens
14‧‧‧透明液體 14‧‧‧Transparent liquid
15‧‧‧彈性體透鏡曲率調整環 15‧‧‧ Elastomer lens curvature adjustment ring
16‧‧‧彈性體透鏡曲率調整環螺絲 16‧‧‧ Elastomer lens curvature adjustment ring screw
121‧‧‧可撓性影像感測膜固定環 121‧‧‧Flexible image sensing film retaining ring
122‧‧‧可撓性影像感測膜固定環螺絲 122‧‧‧Flexible image sensing film fixing ring screw
123‧‧‧可撓性影像感測膜變形前位置 123‧‧‧Flexible image sensing film before deformation
124‧‧‧可撓性影像感測膜變形後位置 124‧‧‧Flexible image sensing film after deformation
125‧‧‧可撓性影像感測膜基材 125‧‧‧Flexible image sensing film substrate
126‧‧‧可撓性影像感測膜感測元件 126‧‧‧Flexible image sensing film sensing element
127‧‧‧可撓性影像感測膜中央區域 127‧‧‧Flexible image sensing film central area
128‧‧‧可撓性影像感測膜周緣區域 128‧‧‧Flexible image sensing film peripheral area
131‧‧‧彈性體透鏡固定環 131‧‧‧ Elastomer lens fixing ring
132‧‧‧彈性體透鏡固定環螺絲 132‧‧‧ Elastomer lens fixing ring screw
133‧‧‧彈性體透鏡原始位置 133‧‧‧Original lens original position
134‧‧‧彈性體透鏡受壓力後位置 134‧‧‧The position of the elastomer lens after being pressed
21‧‧‧原聚焦光線路徑位置 21‧‧‧ Original focus light path position
22‧‧‧彈性體透鏡變形後之聚焦光線路徑 22‧‧‧Focused light path after deformation of elastomer lens
Claims (9)
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TW098124171A TWI424211B (en) | 2009-07-17 | 2009-07-17 | An integrated apparatus of elastic lens and flexible sensors |
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TW098124171A TWI424211B (en) | 2009-07-17 | 2009-07-17 | An integrated apparatus of elastic lens and flexible sensors |
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TWI424211B true TWI424211B (en) | 2014-01-21 |
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US10334181B2 (en) * | 2012-08-20 | 2019-06-25 | Microsoft Technology Licensing, Llc | Dynamically curved sensor for optical zoom lens |
CN105872344B (en) * | 2015-01-20 | 2019-11-26 | 联想(北京)有限公司 | Image processing method, image processing apparatus, electronic equipment |
CN116699796B (en) * | 2023-08-07 | 2023-10-13 | 西安信飞特信息科技有限公司 | Lens and method capable of feeding back focal length position |
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JP2005167610A (en) * | 2003-12-02 | 2005-06-23 | Sony Corp | Solid-state imaging device |
TW200839300A (en) * | 2007-03-23 | 2008-10-01 | De In Shaw | O-ring driven refractive-material-filled lens |
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US6344930B1 (en) * | 1999-03-03 | 2002-02-05 | Denso Corporation | Total-focus imaging apparatus using a variable-focus lens |
JP2005167610A (en) * | 2003-12-02 | 2005-06-23 | Sony Corp | Solid-state imaging device |
CN100495078C (en) * | 2007-03-16 | 2009-06-03 | 东南大学 | Focal-distance and view-field-adjusting liquid microlens and its production |
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