TW201104295A - An integrated apparatus of elastic lens and flexible sensors - Google Patents

Abstract

An integrated apparatus of elastic lens and flexible sensors comprises a flexible image sensor film thereof follow the self-adjust functions of the curvature and position to correspond the focus length variation of elastic lens; the flexible character of sensor film reduces the aberration of optical system. The integrated apparatus of elastic lens and flexible sensors includes a barrel, a transparent elastic lens, an optical inflective object, a control ring of transparent elastic lens, a flexible sensor film; The flexible sensor film consists of a flexible membranous substrate and flexible image sensors. The transparent elastic lens and the flexible sensor film are installed on the barrel individually, and the optical inflective object is filled in the room of barrel, the transparent elastic lens and the flexible sensor film. The control ring attaches and adds pressure on the transparent elastic lens Thus, the pressure alters the curvature and position of transparent elastic lens, the focus length of system accompanies the variance. The change of internal pressure causes the deformation of flexible sensor film, base on the plate material and optical theory, the optimized-non-uniform-thickness of flexible membranous substrate and system focal plan can be obtained. Such an optimized-non-uniform-thickness flexible image sensor film possessions self-compensate capability of optimized-focal-plane curvature and position.

Description

201104295 IV. Designated representative map: (-) This case refers to the representative figure: (3). (2) Brief description of the symbol of the representative figure: 1~ Integrated device of elastic lens and flexible image sensing element; 2~ light '· U barrel body, 12~ flexible image sensing film; 13~ Elastomer lens; 14~transparent liquid; 15~elastomer lens curvature adjustment ring; 16~elastomer lens curvature adjustment ring screw; 121~flexible image sensing film fixing ring; 122~flexible shirt image sensing film m fixed screw; 123~lappable image sensed before deformation position; set '124~^flexible image sensing film deformed position; (2)~flexible image sensing film substrate; 126~flexible image sense臈 sensing element; 127~ flexible shirt image sensing film central area; 丨2 8~ flexible image sensing film peripheral area; i 3 j ~ elastomer lens fixing ring; 132~ elastomer lens fixing ring Screw; 133~ 弹 〖Original lens original position; 134~ Elastomer lens under pressure position; 21 ~ original focus ray path position; 22~ Elastomer lens after deformation of the focused ray path. • 5. If there is a chemical formula in this case, please disclose the chemical formula that best shows the characteristics of the invention: None. 6. Description of the invention: [Technical field of invention] This creation relates to an integrated device of an elastomer lens and a flexible image sensing element. 'In particular, there is a case where a flexible sensing substrate is provided with an image sensing element and a focal length change of the elastomer lens to automatically generate a curvature and position correction function; the amount of deformation and optical analysis after being subjected to pressure through the flexible substrate, using unequal 201104295 The design of the thickness of the film sensing film substrate 'compensates the curvature and position of the flexible sensing film after the internal pressure changes with the pressure inside the lens of the compression bomb, so that the flexible sensing film corresponds to the optimal imaging of the system. Face, to reduce the image aberration to obtain better image quality. Between the elastomer lens and the flexible image sensing film, the elastomer 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. [Prior Art] ^ There are many patents relating to elastomer lenses in the United States, Japan, and the like, and the control methods are generally mechanical, for example, the application of the Republic of China Patent No. 96110024 (Publication No. 200839300), US 6,038,080, electromagnetic type, for example. JP 60,220,301 'liquid crystal type such as US 2005/0018127, electrowetting type 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 are planar In the sensor, when the depth of field of the lens is short, the resolution of the peripheral φ image leaving the optical axis decreases due to the depth of field, and various aberration factors cause poor overall image quality; and the lens focal length adjustment control mechanism is complicated. Therefore, the overall volume cannot be lightened. D SUMMARY OF THE INVENTION In view of the above, 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 a change in curvature of the lens. Using a flexible image sensing film of unequal thickness to control the curvature and position of the deformation, accompanied by The pressure generated inside makes the flexible sensing film and the lens produce the complementary relationship of the optical properties of 201104295, and the image is deformed according to the optimal imaging curvature to obtain images with low aberration and high quality. Between the elastomer lens and the flexible image sensing film, the elastomer lens and the flexible image sensing film may be separated by the isolation member, and pressure is independently applied so as not to have an interaction effect. 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, elastic lens curvature adjusting ring, elastic lens curvature adjusting ring screw, flexible image sensing film fixing ring and a flexible image sensing film fixing ring screw; The body, the elastic lens, the "light refracting flexible body", the flexible image sensing film form a closed space; an elastic lens is fixed to the mirror by an elastic lens fixing ring and an elastic lens fixing ring The cartridge body sensing film is composed of a flexible image sensing film substrate and a flexible image sensing component, and is composed of an image sensing film fixing ring and an image sensing film fixing ring. The screw is fixed to the barrel body. In the above preferred embodiment, an elastic lens curvature adjustment ring screw control-elastic lens curvature adjustment ring is used to make the elastic lens curvature adjustment ring tight or put on the surface of the elastic lens, thus causing the elastic body. The curvature of the lens changes, which in turn achieves the purpose of adjusting the focal length of the system. In the preferred embodiment described above, the photorefractive flexible body can utilize a variety of different optical index liquids depending on the system requirements. 201104295 In the above preferred embodiment t, a flexible image sensing film fixing ring and a flexible image sensing film fixing ring screw are used to fix the image sensing film; an elastic lens mosquito ring and a miscellaneous body are used. The fixed-loop screw L-shaped elastic lens and the elastic lens curvature adjusting ring and the elastic lens (4) adjusting the ring screw to adjust the curvature of the elastic lens; the fixing ring and the separation design can push the rotating motion of the (4) screw or the adjusting screw (d) or the adjustment ring becomes a linear motion, in case

The elastomer and the flexible material are rubbed to cause wrinkles, twists or damage to the surface of the elastomer lens. In the above-mentioned preferred embodiment, the thickness of the flexible image sensing film substrate can be determined by the designer according to the pressure distribution in the lens body to sense the force distribution on the surface of the flexible image. The image sensing film deformation curvature is different in thickness of the same-proven image sensing film substrate design, so that the flexible image sensing film becomes rich and the lens optical f is complementary, so that the interchangeable image is made. The curvature and deformation position of the sensing film after deformation are consistent with the optimal imaging surface. Between the elastomer lens and the retractable material, the elastomer lens and the reversal image ❹m are separated by the spacer element, and the force is independently applied so as not to interact with each other. In the above-mentioned preferred embodiment, the curvature of the elastic lens and the flexible image sensing film is an automatic correction system due to the film material degree (4) (4) film substrate substrate, and the system itself has self-compensation function, and does not need Additional adjustments. ; Venter: =: and == and == 201104295 [Embodiment] Fig. 3 is a cross-sectional view showing a preferred embodiment of the integrated device of the elastomer lens and the flexible image sensing element. The integrated device 1 of the elastic lens and the flexible image sensing element comprises a barrel body Η, an elastic lens I], a transparent liquid 14, an image sensing film 2, and an elastic lens fixing ring 13' An elastomer lens fixing ring screw 132, an elastic lens curvature adjusting ring 5, an elastic lens curvature adjusting ring screw 16, an image sensing film fixing ring 121 and an image sensing film fixing ring screw 122; The main body barrel n, an elastic lens 13, a transparent liquid 14, and an image sensing unit 12 form a closed space; an elastic lens 13 is fixed by an elastic lens fixing ring 131 and an elastic lens fixing ring screw 132. The flexible image sensing film 12 is composed of a flexible image sensing film substrate 125 and a flexible image sensing element 126, and is fixed by a flexible image sensing film. The ring 121 and a leapable image sensing film fixing ring screw 122 are fixed to the barrel body. The light 2 passes through the main body barrel u, 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 13 丨 central hollow hole, by the elastic body The lens 13 and the transparent liquid 14 are focused on the flexible image sensing element 126 of the flexible image sensing film 12; and the obtained image can be processed by the electronic peripheral transmission device and the processor for subsequent processing. Rotating the Elastomer Lens The curvature adjusting ring screw 16' elastic lens curvature adjusting ring 15 is pressed by the elastic lens curvature adjusting ring screw 16 to pressurize the elastomer lens 13, so that the radius of curvature and position of the surface of the elastomer lens 13 are changed. 201104295 The fourth circle is an exploded view of a preferred embodiment of the integrated elastomer lens and flexible image sensing element to clearly describe the three-dimensional shape of the device and the relationship between the various component combinations. FIG. 5 is a schematic view of a preferred embodiment of the integrated device of the elastomer lens and the flexible image sensing element. After the elastic lens 13 is pressed by the elastic lens curvature adjusting ring 15, the original of the elastic lens 13 is Position 133 is moved to 13, position, the surface curvature of elastomer lens 13 is also changed, and the original focused light path is changed from position 21 to position 22; after the transparent liquid 14 is subjected to the force of the elastic lens 13, the (four) is transmitted to the flexible image. The sensing film 12, the replaceable image sensing film 12 is subjected to the pressure of the transparent liquid 14, and the flexible image sensing film original position 123 is moved to the position 124. The curvature of the flexible image sensing film 12 is also corrected. After the pressure of the elastic lens curvature adjusting ring 15 is released, the elastic lens 13 is restored to the original state. The flexible image sensing film 12 is restored to the original state, and the focused light path is restored from the position i 22 to the position of 21; the elastic lens 13 is made. An automatic compensation effect is produced between the position and curvature changes between the flexible image sensing film 12. Figure 6 is a perspective view of an elastomeric lens curvature adjusting ring of the integrated embodiment of the elastomer lens and the flexible image sensing element of the present invention. The front end portion of the surface of the contact lens 11 is cut at an oblique angle. I5i, reducing the contact width of the elastomer lens (4) adjusting ring 15 pressed into the surface of the elastomer lens 13, to precisely control the curvature change of the surface of the elastomer lens 13. 201104295 Figure 7 is a preferred embodiment of the integrated elastic lens and flexible image sensing element of the present invention. The flexible image sensor 12 is made of a flexible image sensing film substrate 125 and The flexible return component 126 is composed of; the flexible image sensing substrate 125 is made of flexible (four), and the flexible image sensing component! 26 can be manufactured by a microcomputer inductance measuring component technology and has a flexible image sense. The film-forming substrate 125 is bonded.

Figure 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 pullable image to sense different thicknesses of the film substrate #125. The design is such that the flexible image sensing film 12 has a desired curvature change when subjected to the force of the force; the cross section of the central portion 127 of the flexible image sensing film substrate 125 and the surrounding portion 128 is adapted to the deformation requirement. Designed to have unequal thicknesses, the curvature of the flexible image film 12 is deformed by the force and the amount of deformation is adjusted to meet the purpose of the optimal imaging surface of the device. This; ij has been exposing the above as a good example, but it is not intended to limit this creation. Anyone who is familiar with this skill, in the spirit and scope of the creation, when a little change and retouch, therefore this The scope of protection of the creation shall be subject to the definition of the patent scope. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view of a conventionally filled filler-filled lens having a refractive index, which is driven by the conventional Republic of China Patent Publication No. 200839300. Figure 2 is a cross-sectional view of a conventional US 6,344,93 liquid optical lens and developing system control device. 201104295 The third circle is a cross-sectional view of a preferred embodiment of the integrated device of the elastomer lens and the sturdy image sensing element. Fig. 4 is a perspective exploded view of a preferred embodiment of the integrated device of the elastomer lens and the flexible image sensing element. Fig. 5 is a schematic view showing the surface curvature and positional change of the elastomer 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. Fig. 6 is a perspective view showing an elastic lens curvature adjusting ring of a preferred embodiment of the integrated elastic lens and flexible image sensing element. Figure 7 is a perspective view of an image sensing film of a preferred embodiment of the integrated elastomer lens and flexible image sensing device. Figure 8 is a cross-sectional view of a flexible image sensing film for a unequal substrate thickness in accordance with a preferred embodiment of the integrated elastomer lens and flexible image sensing device. [Main component symbol description] 1~Integral device of elastic lens and flexible image sensing element; 2~light. U~ray barrel body; 12~flexible image sensing film; 13~elastomer lens; 14 ~ transparent liquid; 15~ elastomer lens curvature adjustment ring; 16~ elastomer lens curvature adjustment soil screw; 121~ flexible image sensing film fixing ring; ~ flexible image sensing film fixing screw; 123~ flexible Image sensing film position before deformation '·124~flexible image sensing 臈 post-deformation position; 125~flexible image sensing film substrate; 126~flexible image sensing film sensing element; 127~ Flexibility 201104295 Image sensing film central area; 128~Flexible image sensory peripheral area · (3) ~ Elastomer lens fixing ring; 132~ Elastomer lens fixing ring screw; 133~ Elastomer lens original position; 134~elastic The position of the body lens after being pressed; ~ the position of the original focused light path; 22 the path of the focused light after the deformation of the elastomer lens. VII. Patent application scope: 1. An integrated arrangement of an elastomer lens and a flexible image sensing component for sensing images, including: - a lens barrel body, the lens barrel is surrounded by "Sister (4), and An optical hole is provided at the optical axis for component placement and light penetration; an elastic lens is disposed on the lens barrel body; and a flexible image sensing film is mounted on the lens barrel body; and - the light is refractable The flexible body is filled between the lens barrel body, the elastic lens and the prismatic image sensing film; wherein the lens barrel body, the elastic lens, the flexible image sensing film and the photorefractive flexible body are formed - system Further, an elastic lens curvature adjusting element is provided on the elastic lens table for controlling the curvature change of the elastic lens, and the flexible image sensing film automatically generates position and curvature compensation changes to adjust the optimal imaging surface position. With curvature. The elastomer lens described in claim 1 is composed of an elastic film and a liquid object or an elastomer. Shen•^专#1$〖围丨丨丨The elastic lens and reversible image sensing

Claims (1)

201104295 Image sensing film central area; 128~Flexible image sensory peripheral area · (3) ~ Elastomer lens fixing ring; 132~ Elastomer lens fixing ring screw; 133~ Elastomer lens original position; 134~ Elastomer lens subject Post-pressure position; ~ original focus ray path position; 22~ focused ray path after deformation of the elastomer lens. VII. Patent application scope: 1. An integrated arrangement of an elastomer lens and a flexible image sensing component for sensing images, including: - a lens barrel body, the lens barrel is surrounded by "Sister (4), and An optical hole is provided at the optical axis for component placement and light penetration; an elastic lens is disposed on the lens barrel body; and a flexible image sensing film is mounted on the lens barrel body; and - the light is refractable The flexible body is filled between the lens barrel body, the elastic lens and the prismatic image sensing film; wherein the lens barrel body, the elastic lens, the flexible image sensing film and the photorefractive flexible body are formed - system Further, an elastic lens curvature adjusting element is provided on the elastic lens table for controlling the curvature change of the elastic lens, and the flexible image sensing film automatically generates position and curvature compensation changes to adjust the optimal imaging surface position. With curvature. The elastomer lens described in claim 1 is composed of an elastic film and a liquid object or an elastomer. The invention relates to an elastomer lens and a reversible image sensing device as described in the Japanese Patent Application No. 201104295. The above-mentioned elastic lens curvature adjusting component is a hollow cylindrical component. 4. The elastomer lens curvature adjusting element' as described in claim 3 has an inclination characteristic to reduce the thickness of the hollow column material contacting the surface portion of the elastomer lens. An integrated device for an elastomer lens and a flexible image sensing element as described in the above-mentioned patent scope, wherein the light refracting flexible body described above may be a transparent liquid. 6_ The integrated device of the elastic lens and the tractable image sensing element described in the first item of the fourth patent (4), wherein the flexible image is sensitive to the towel, and is a tractable image sensing film base. The material and the flexible image sensor are composed of sensing elements. 7. The flexible image sensing film of claim 1, wherein the flexible image sensing film substrate has a thickness that is not specific to the cross section, so that the flexible image sensing film is subjected to pressure. The deformation curvature and displacement correspond to the best focus plane of the system. 8. If the patent application scope is an integrated device of the elastomer lens and the flexible image sensing device, the curvature of the flexible image sensing element changes according to the pressure applied to the elastic lens, and the elastic lens is automatically Produces complementary optical properties. 9. The elastomer lens and the flexible image sensing element of claim 1, wherein the spacer element can be independently applied with pressure without interaction.