20th week of 2017 patent applcation highlights part 40 |
Patent application number | Title | Published |
20170139186 | OPTICAL IMAGE CAPTURING SYSTEM - An optical image capturing system includes, along the optical axis in order from an object side to an image side, a first lens, a second lens, a third lens, a fourth lens, a fifth lens, a sixth lens, and a seventh lens. At least one lens among the first to the sixth lenses has positive refractive force. The seventh lens can have negative refractive force. The lenses in the optical image capturing system which have refractive power include the first to the seventh lenses. The optical image capturing system can increase aperture value and improve the imagining quality for use in compact cameras. | 2017-05-18 |
20170139187 | Lens Assembly - A lens assembly includes a first lens, a second lens, a third lens, a fourth lens and a fifth lens. The first lens is with positive refractive power. The second lens is with negative refractive power. The third lens is with positive refractive power. The fourth lens is a meniscus lens and includes a concave surface facing the object side and a convex surface facing the image side. The fifth lens includes a concave surface facing the image side. The first lens and the third lens are made of the same material. An Abbe number of the first lens, an Abbe number of the third lens and an Abbe number of the fifth lens are greater than an Abbe number of the second lens. The fourth lens satisfies: 0.66≦f | 2017-05-18 |
20170139188 | Far Infrared Imaging Lens Set, Objective Lens And Fire Source Detector - An objective lens employing said far infrared imaging lens set ( | 2017-05-18 |
20170139189 | ZOOM LENS AND CAMERA DEVICE - The zoom lens comprises five or more groups of lens pieces, namely, the foremost or first lens group of positive refractive power located the closest to an object, the succeeding second lens group of negative refractive power, the third lens group of positive refractive power, the fourth lens group of positive refractive power, and the fifth lens group all arranged in this order, and if any, the rearmost lens group(s) closer to the imaging plane than the fifth lens group. The zoom lens meets requirements as defined in the conditional expression regarding a combined magnification of the fifth lens group and, if any, the rearmost lens group(s) closer to the imaging plane than the fifth lens group while the zoom lens is taking a telephoto position. | 2017-05-18 |
20170139190 | ZOOM LENS AND IMAGE PICKUP APPARATUS INCLUDING THE SAME - A zoom lens includes, in order from an object side to an image side, a first lens unit having a positive refractive power, a second lens unit having a negative refractive power, a third lens unit having a positive refractive power, a fourth lens unit having a negative refractive power, and a rear unit including at least one lens unit. In the zoom lens, the locus of movement, the focal length, the amount of displacement during zooming, and the shapes of lens surfaces are appropriately set for each lens unit. | 2017-05-18 |
20170139191 | Compact folded optical multipass system - An optical multipass system is configured to include, in addition an end-mirror configuration of reflective surfaces, a multipass pattern folding assembly. The end-mirror configuration includes at least two reflective surfaces arranged to provide for establishing cell stability of an optical multipass cell comprising all or part of the optical multipass system, or further provide for directing and/or focusing light within the optical multipass cell, and can, in various embodiments, comprise a Herriott, White or other conventional or other cell type configuration. The multipass pattern folding assembly includes at least two inner reflective surfaces configured to provide for folding an optical pattern intra-cavity at least twice off one of the inner reflective surfaces of the multipass pattern folding assembly. In various embodiments, the multipass pattern folding assembly includes two substantially flat mirrors or other reflective surfaces disposed between the end reflective surfaces of the end-mirror configuration, and arranged substantially parallel to one another, so as to fold an optical path intra-cavity and in a zig-zag path between the end reflective surfaces of the end-mirror configuration. | 2017-05-18 |
20170139192 | CENTRIFUGE FORCE MICROSCOPE MODULES AND SYSTEMS FOR USE IN A BUCKET OF A CENTRIFUGE - A centrifuge force microscope module for use within a bucket of a centrifuge in measuring a characteristic of a sample under a centrifugal force and/or in monitoring a sample under a centrifugal force. The centrifuge force microscope module includes an electronics module and an optical module. The electronics module includes a housing removably disposable in the bucket of the centrifuge, and at least one of a power source and a connector operably connectable to a power source for powering the electronics module. The optical module is operable to receive and direct light from the sample. The optical module is releaseably connectable to the housing of the electronics module. | 2017-05-18 |
20170139193 | LIGHT SHEET MICROSCOPE AND SHEET ILLUMINATION METHOD - A light sheet microscope includes an illumination optical system that irradiates a light sheet onto a sample and a setting changer that changes a setting of a divergence angle or convergence angle relating to a width direction of the light sheet emitted from the illumination optical system. | 2017-05-18 |
20170139194 | INTERFERENCE OBJECTIVE LENS AND REFERENCE SURFACE UNIT SET - An interference objective lens includes: an objective lens configured to converge a light to be emitted from a light source toward a measurement target; a reference surface unit having a reference surface; and a beam splitter configured to split the light having passed through the objective lens into a reference optical path facing toward the reference surface and a measurement optical path facing toward the measurement target, to synthesize a reflected light from the reference surface and a reflected light from the measurement target, and to output the same as an interference light, wherein the reference surface unit is configured to be replaceable. | 2017-05-18 |
20170139195 | Microscopy Safety Dome - A light containment system providing increased safety to microscopy users while allowing the microscopy instrument to be used in an effective and efficient manner is provided. The light containment system includes a hemisphere or dome shaped enclosure that prevents dangerous intensities of light from exiting an objective lens and or microscopy sample holder while still allowing the user to witness and measure the direction of light in three dimensions. | 2017-05-18 |
20170139196 | METHOD FOR CONTROLLING A PLURALITY OF FUNCTIONAL MODULES INCLUDING A MULTI-WAVELENGTH IMAGING DEVICE, AND CORRESPONDING CONTROL SYSTEM - A method is proposed for driving a plurality of functional modules included in a multi-wavelength microscopy imaging device. The device includes at least one first functional module and a second functional module, adapted respectively to performing a first function and a second function. The method includes at least one iteration of the acts of: sending a first driving signal to the second functional module when the first functional module has performed said first function; the second functional module triggers the function upon reception of the first driving signal; sending a second driving signal to the first functional module when the second functional module has performed said second function; the first functional module triggers said first function upon reception of the second driving signal. | 2017-05-18 |
20170139197 | ROD LENS SYSTEM FOR AN ENDOSCOPE AND ENDOSCOPE HAVING SUCH A ROD LENS SYSTEM - A rod lens system for an endoscope is provided, in which the rod lens system has at least one reversal stage, in order to image an intermediate image lying in a distal intermediate image plane into a proximal intermediate image plane, wherein each reversal stage has at least one rod lens and images an intermediate image into a next intermediate image plane, wherein the rod lens system is formed as an asymmetrical rod lens system and at least one of the reversal stages is formed as an asymmetrical reversal stage. | 2017-05-18 |
20170139198 | ENDOSCOPE - An endoscope includes: an endoscope distal end rigid member; an objective optical system fixing frame; a moving frame; a wire unit including a rigid shaft portion; a wire unit connecting projection portion configured such that a flange having a diameter larger than the rigid shaft portion is screwed to a distal end face side; a first wire unit insertion hole through which a flange of the rigid shaft portion can pass in a state that screwing to the wire unit connecting projection portion is canceled; a lid member; a second wire unit insertion hole configured to be coaxial with a center axis of the first wire unit insertion hole, and through which the flange of the rigid shaft portion can pass; and a sealing member. | 2017-05-18 |
20170139199 | Magnifying Container Apparatus - A magnifying container apparatus including a generally cylindrical member and one or more magnifying lenses is provided for magnifying, viewing, and carrying items. A magnifying lens is detachably connected to the lower end of the cylindrical member to close the lower end. The magnifying lens magnifies the items present below the magnifying lens. The cylindrical member accommodates and carries the items within a space defined by a generally cylindrical wall and between an open upper end and the closed lower end of the cylindrical member. The magnifying container apparatus further includes a threaded rod, a threaded wheel, and a generally cylindrical sieve member. The sieve member drains a predetermined amount of an extraneous element from the magnifying container apparatus, when the threaded rod, in communication with the threaded wheel, traverses the magnifying lens from the lower end of the cylindrical member toward a lower end of the sieve member. | 2017-05-18 |
20170139200 | TUNABLE OPTICAL DEVICE - A tunable optical device including a substrate, at least one support unit, a flexible frame, an elastic component, a first reflector, and at least one actuator is provided. The support unit is fixed onto the substrate. The flexible frame is connected to the support unit and suspended above the substrate. The elastic component is connected to the flexible frame. A stiffness of the elastic component in the Z-axis is smaller than a stiffness of the flexible frame in the Z-axis. The Z-axis direction is parallel to a normal direction of the substrate. The first reflector is connected to the elastic component. The actuator is located between the flexible frame and the substrate or located between the first reflector and the substrate. | 2017-05-18 |
20170139201 | ELECTROWETTING DISPLAY DEVICE INCLUDING A STRENGTHENED HYDROPHOBIC LAYER - An electrowetting display device includes a base substrate, a hydrophobic layer disposed on the base substrate and including at least about 49 atomic percent (at %) of fluorine atoms in a surface thereof, a wall disposed on the base substrate which partitions a pixel area, and an electrowetting layer that includes a first fluid and a second fluid, which are disposed in the pixel area and are immiscible with each other. The second fluid has an electrical conductivity or a polarity. The electrowetting display device further includes an electronic device is configured to apply an electric field to the electrowetting layer to control the electrowetting layer. | 2017-05-18 |
20170139202 | Apparatus and Method for Positioning an Optical Element - The current invention concerns an apparatus and a method for positioning an optical element, said apparatus comprising a positionable part to which the optical element can be mounted; a base part; a suspension system, said positionable part being mounted on said base part in a movable manner with said suspension system; an actuation system for actuating movement of said positionable part with respect to said base part; and a control system for controlling movement of said positionable part. | 2017-05-18 |
20170139203 | Broadband Optics for Manipulating Light Beams and Images - Pointing and positioning system of light beams and images including a plurality of cycloidal diffractive waveplates, each waveplate capable of deviating a generally broadband light beam over a predetermined angle. The lateral translation and deviation angles of the light beams are controlled by controlling the relative distance, rotational position, and the diffraction efficiency of at least one in the plurality of waveplates. | 2017-05-18 |
20170139204 | Design of a Refractive Surface - Method of designing a refractive surface, comprising providing a refractive object having a refractive surface with an initial geometry, determining a refraction of incident illumination through the refractive surface with the initial geometry to create a source irradiance E | 2017-05-18 |
20170139205 | HEAD-UP DISPLAY SYSTEM, HEAD-UP DISPLAY DEVICE AND NAVIGATION INFORMATION DISPLAY METHOD - A head-up display system includes a head-up display device | 2017-05-18 |
20170139206 | COLD MIRROR FOR HEAD-UP DISPLAY APPARATUS AND HEAD-UP DISPLAY APPARATUS - This invention relates to a cold mirror for a head-up display apparatus and provides a cold mirror that enables suppression of a phenomenon of change in color tone of an image depending on a position from which the image is viewed. This invention also provides a head-up display apparatus including the cold mirror. In a head-up display apparatus, display light of an image displayed on a display is reflected by a cold mirror and a reflected image of the image is viewed by a viewer. A relationship between an incident wavelength and a reflection phase difference in the cold mirror is set so that the reflection phase difference falls within a range of 180±60 degrees for an entire visible wavelength range of 420 to 680 nm. | 2017-05-18 |
20170139207 | COMMUNICATION METHOD AND DEVICE - An entertainment device includes a virtual environment generator to generate a virtual environment for display. The device also includes reception means to receive content from a mobile communication device on a local network. Content parsing means is adapted to parse the content for information of one or more predetermined information types. And transmission means is adapted to signal to a mobile communication device that the entertainment device is a wearable device, despite the fact that the entertainment device is not a wearable device. The reception means is adapted to receive selected content from the mobile communication device that has been formatted for use by such a wearable device. In addition, information of one or more predetermined information types is incorporated into the virtual environment for display. | 2017-05-18 |
20170139208 | HEAD-UP DISPLAY DEVICE - A head-up display device includes a housing, a base, a projecting board assembly, a protecting cover and a driving mechanism. The projecting board assembly has a holder and a projecting board. The protecting cover is movably arranged on the projecting board assembly, and can be used to cover the projecting board or uncover to expose the projecting board. The projecting board assembly is rotatably arranged above the base by the driving mechanism, and the driving mechanism can drive the projecting board assembly at a storing position or a displaying position. The driving mechanism can drive the protecting cover to be guided by the first guiding mechanism, so as to move the protecting cover. Otherwise, the driving mechanism can pull down the protecting cover by the second guiding mechanism to expose the projecting board, and make the projecting board assembly in the displaying position. | 2017-05-18 |
20170139209 | SYSTEM, METHOD, AND APPARATUS FOR DISPLAYING AN IMAGE USING A CURVED MIRROR AND PARTIALLY TRANSPARENT PLATE | 2017-05-18 |
20170139210 | RAINBOW REMOVAL IN NEAR-EYE DISPLAY USING POLARIZATION-SENSITIVE GRATING - In a near-eye optical display system comprising a waveguide and diffractive optical elements (DOEs) configured for in-coupling, exit pupil expansion, and out-coupling, a rainbow phenomenon manifested in the display may be removed or reduced using a polarizing filter at the front of the system so that real-world/stray light entering the system has a particular polarization state, for example TM-polarized. The polarizing filter is utilized in conjunction with a downstream out-coupling DOE that includes diffractive grating structures that are configured to enable sensitivity to an opposite polarization state, for example TE-polarized. An imager is configured to produce virtual-world images that also have a TE-polarized state. The polarization-sensitive out-coupling DOE diffracts the TE-polarized imaging beam out of the grating for display while the TM-polarized light from the real world and/or stray light passes through the grating without diffraction and thus cannot contribute to rainbows in the display. | 2017-05-18 |
20170139211 | Directed Display Architecture - A head-mounted display (HMD) includes an electronic display element, a microlens array, and an optics block. The electronic display element outputs image light via sub-pixels having different colors, the sub-pixels separated from each other by a dark space region. The sub-pixels have associated emission distributions that describe ranges of angles of light emitted from the plurality of sub-pixels. The microlens array includes microlenses that are each coupled to at least one corresponding sub-pixel, of the sub-pixels, where the microlenses concentrate the emission distributions and direct the emission distributions toward a target region. The optics block, which is located in the target region optically corrects the image light and directs the optically corrected image light from the microlens array to an exit pupil of the HMD corresponding to a location of an eye of a user of the HMD. | 2017-05-18 |
20170139212 | CAP TYPE VIRTUAL REALITY DISPLAY IMAGE SYSTEM - A cap type virtual reality display image system including a cap provided with an image display through which virtual reality, game, 3D game image and smart phone's image can be viewed, where a mounting hole is provided at an upper surface of the cap visor, an image display, an eyepiece lens and a reflection mirror are provided inside the mounting hole. One of the reflection mirror, the semi-transmissive reflection mirror and the spherical semi-transmissive reflection mirror is arranged to rotate on a lower portion of the cap visor, and a positioning device is provided on one surface of the cap such that an observer can view simultaneously 2D and 3D display image and external sights. | 2017-05-18 |
20170139213 | Combination Prism Array for Focusing Light - A beam deflection device includes two arrays of prisms. The prisms in the first array of prisms have an apex angle below a critical angle such that light passes through the prism and is deflected at an angle below a specified angle. The prisms in the second array of prisms have an apex angle above the critical angle such that light that enters the prism will reflect off the apex surface to an exit surface, resulting in the light being deflected at an angle above the specified angle. In some embodiments, the prisms in the first array and the second array work in conjunction to direct light from multiple locations to a single focal point. | 2017-05-18 |
20170139214 | Image Display Device and Deflection Unit - A head-mounted display includes an image light unit, a holder that holds a deflection member that deflects image light, and a casing. The casing includes three extending parts (a first extending part, a second extending part, and a third extending part) which extend between a left side of the image light unit, and left ends of the casing. A first rear surface comes into contact with the holder in a mounted state. A second regulation member is provided on the first rear surface. A front-side first regulation member and a rear-side first regulation member are provided on a second rear surface. A front-side first regulation member and a rear-side first regulation member are provided on a third rear surface. A half mirror deflects image light to a rear side in a state in which the holder is mounted to the casing. | 2017-05-18 |
20170139215 | AUGMENTED REALITY SYSTEM EYE RELIEF ADJUSTMENT MECHANISM - A head mounted display (HMD) may comprise an adjustable crown band, a crown band circumference adjusting mechanism coupled to the adjustable crown band and configured to adjust a crown band circumference to releasably secure the crown band to the user's crown, an armature including left and right arms, each of the left and right arms mounted at a respective proximal end to corresponding left and right HMD attachment structures, a display mounted at left and right sides to respective distal ends of the left and right arms, and an eye relief distance adjustment mechanism configured to move the left and right arms in a timed manner toward and away from the crown band along a substantially linear path, to thereby adjust an eye relief distance from the display to an eye of a the user when the crown band is fitted on the crown of the user. | 2017-05-18 |
20170139216 | MAGNIFYING BOTTLE ASSEMBLY WITH IMPROVED SEALING CAPABILITY - A magnifying bottle assembly, comprising a cap; further comprising a cap housing and a magnifying lens. Said magnifying lens provides a radially extended portion, further comprising an integral retaining ring oriented upwardly for engaging said cap housing, and a gasket engaging ring oriented downwardly for engaging a gasket. Said retaining ring is oriented with respect to said radially extended portion so as to form a pressure channel. The magnifying bottle assembly further comprises a container suitable for engaging said cap. | 2017-05-18 |
20170139217 | MAGNIFYING BOTTLE CAP ASSEMBLY - A magnifying bottle cap assembly comprising a magnifying lens assembly. Said magnifying lens assembly comprising a magnifying lens with an integral radially extended periphery and a plurality of standoff reinforcing elements integral to said radially extended periphery, said standoff reinforcing elements arranged non-radially to the lateral plane of said radially extended periphery, a unitary cap body comprising an annular portion for engaging a bottle, said portion for engaging having an inner diameter less than or equal to the diameter of said magnifying lens assembly, a first annular retaining portion formed to mechanically engage the top of said magnifying lens assembly and to mechanically engage the perimeter of the standoff reinforcing elements integral to the top of said radially extended periphery, a second annular retaining portion formed to mechanically engage the bottom of said magnifying lens assembly and to mechanically engage the perimeter of the standoff reinforcing elements integral to the top of said radially extended periphery. | 2017-05-18 |
20170139218 | 2D/3D SWITCHABLE DISPLAY PANEL, AND DISPLAY METHOD AND DISPLAY DEVICE THEREOF - The embodiment of the present application discloses a 2D/3D switchable display panel, and a display method and a display device thereof, so as to solve the problem of poor display effect in 2D display mode of existing 2D/3D display panel. The 2D/3D switchable display panel includes a self-luminescent OLED display panel and a LCD panel provided with no color resistance layer, which LCD display panel is disposed on the display side of the OLED display panel. The OLED display panel is used for display images when the 2D/3D switchable display panel operates in 3D display mode while functions as a backlight source module when the 2D/3D switchable display panel operates in 2D display mode; whereas the LCD display panel functions as a grating when the 2D/3D switchable display panel operates in 3D display mode while displays images when the 2D/3D switchable display panel operates in 2D display mode. | 2017-05-18 |
20170139219 | ARRAY SUBSTRATE, DISPLAY PANEL AND DISPLAY APPARATUS - The present disclosure relates to the field of display technology. Disclosed is an array substrate including: a plurality of gate lines, a plurality of data lines, and an array of pixels defined by intersections of the plurality of gate lines and the plurality of data lines, wherein, pixels in the array of pixels are arranged inclinedly along an inclination direction, making an angle α with a rim of the array substrate, in which the angle α is greater than 0° but is less than 90°, and, being consistent with a rectilinear direction along which the gate lines or the data lines are. The pixel is in a shape of parallelogram, and a rectilinear direction along which a pair of opposite sides of the parallelogram are is consistent with the inclination direction. A display panel and a display apparatus including the abovementioned array substrate are also disclosed. | 2017-05-18 |
20170139220 | DISPLAY DEVICE - A display device is provided. The display device includes a projection lens, a Fresnel lens, an angle magnifying screen, a vertical diffuser and a first micro-deflector. The projection lens is configured to provide an original image. The first micro-deflector is provided between the Fresnel lens and the angle magnifying screen, and the angle magnifying screen is provided between the first micro-deflector and the vertical diffuser. The first micro-deflector is configured to redirect the original image into a first perspective image and a second perspective image. A perspective direction of the first perspective image differs from a perspective direction of the second perspective image. | 2017-05-18 |
20170139221 | THREE-DIMENSIONAL (3D) DISPLAY DEVICE - A 3D display device is provided. The 3D display device includes a display panel and a liquid crystal lens panel. The display panel operates in one of a 2D mode for displaying a 2D image, a 3D mode for displaying a 3D image, and a coincident mode for displaying the 2D image and the 3D image. The liquid crystal lens panel is disposed on the display panel. The liquid crystal lens panel is configured to refract the 3D image through a third region of the liquid crystal lens panel and to transmit the 2D image without refracting the 2D image when the display panel operates in the coincident mode. | 2017-05-18 |
20170139222 | THREE DIMENSIONAL GRATING, COLOR FILTER SUBSTRATE, DISPLAY DEVICE AND CONTROL METHOD THEREOF - A 3D grating, a color filter substrate, a display device and a control method thereof are provided. The 3D grating comprises: a first transparent electrode layer; a second transparent electrode layer; and an electrochromic material layer formed between the first transparent electrode layer and the second transparent electrode layer; wherein the first transparent electrode layer comprises a pattern of strip-shaped electrodes, which comprises a plurality of strip-shaped electrodes and an electrode wire electrically connected with each of the strip-shaped electrodes in the pattern; and wherein the electrochromic material layer is configured to be non-transparent when it is in an electric field and to be transparent when it is not in an electric field, or the electrochromic material layer is configured to be transparent when it is in an electric field and to be non-transparent when it is not in an electric field. | 2017-05-18 |
20170139223 | OPTICAL COLLIMATOR - A collimator having an overall bowl shape. The collimator is rotationally symmetrical about an optical axis of the collimator, and has an output wall, an input recess opposite the output wall, the input recess being defined by an internal side wall and an internal upper wall which interrupts the internal side wall in such a way as to define an intersection region, the internal side wall and the internal upper wall being designed to allow an incident light ray to enter the collimator peripherally and centrally, respectively, and a peripheral reflective wall joining the output wall to the internal side wall, the surface of the internal side wall being designed in such a way that a straight line, which is tangential to the internal side wall and joins the intersection region, passes through the focal point of the collimator. | 2017-05-18 |
20170139224 | PHOSPHOR CERAMIC, ENCAPSULATED OPTICAL SEMICONDUCTOR ELEMENT, CIRCUIT BOARD, OPTICAL SEMICONDUCTOR DEVICE AND LIGHT-EMITTING DEVICE - The phosphor ceramic has pores with a pore diameter of 3.0 μm or more and 12.0 μm or less. In the phosphor ceramic, a pore volume percentage of pores with a pore diameter of 3.0 μm or more and 12.0 μm or less is 1.5% by volume or more and 9.5% by volume or less. | 2017-05-18 |
20170139225 | LENS DRIVING APPARATUS AND CAMERA MODULE INCLUDING THE SAME - A lens driving apparatus and a camera module including the same are provided. A lens driving apparatus includes a shake compensation unit configured to move in directions perpendicular to an optical axis, and ball members supporting the shake compensation unit, such that a degree of freedom for one of the ball members is different from a degree of freedom for another of the ball members. | 2017-05-18 |
20170139226 | LENS ARRANGEMENT AND A MONITORING CAMERA COMPRISING THE LENS ARRANGEMENT - A lens arrangement for a monitoring camera and a monitoring camera including a lens arrangement is provided. The lens arrangement includes a lens member having a connection portion with an outer thread, an adjustment member having a through hole for receiving the connection portion and an inner thread corresponding to the outer thread, a holder member having a receiving portion for receiving the connection portion and an inner thread corresponding to the outer thread. The lens arrangement is assembled by the connection portion being screwed into the through hole and further into the receiving portion. The receiving portion has a top engagement surface and the adjustment member has a bottom engagement surface. The adjustment member is movable relative to the holder member by screwing between non-engaging and engaging states. In the engaging state, the bottom engagement surface wedgingly engages with the top engagement surface for locking the lens member. | 2017-05-18 |
20170139227 | CAMERA LENS MODULE - A camera lens module of a portable terminal includes an external case; an OIS carrier disposed in the external case; a lens system which is guided along an optical axis in the OIS carrier; an AF driving unit facing to a first surface of the external case and which enables the lens system to move; a first OIS driving unit disposed in parallel along a second surface of the external case at the other side opposite to the first surface on which the AF driving unit is disposed; and a second OIS driving unit disposed in parallel along a third surface of the external case between the first OIS driving unit and the AF driving unit. | 2017-05-18 |
20170139228 | DEVICE AND METHOD FOR ADJUSTING THE POSITION OF EYEGLASSES ON THE FACE OF A USER - A device for adjusting a position of eyeglasses with progressive or multifocal lenses is provided. The device includes a body having a length, a proximal end and a distal end. The proximal end includes at least one nose engaging member structured to engage with a bridge of a nose of the user, and the distal end includes at least one frame engaging member structured to engage with the frame, e.g., the bridge, of the eyeglasses. When worn, the device raises the position of the eyeglasses on the face of the user so that the user's line-of-sight in a selected head position passes through a lower zone of the progressive or multifocal lenses. | 2017-05-18 |
20170139229 | ELASTIC HINGE FOR EYEGLASS FRAMES AND PROCESS FOR THE MOUNTING THEREOF - Elastic hinge for eyeglass frames, provided with two pivot elements hinged together by means of a pin. A first pivot element is provided with an elastic device comprising a carriage provided, at an external end thereof, with a head portion having a first hole which is extended passing between its two lateral faces. A second pivot element comprises two shoulders provided with second holes and delimiting a slit between them in which the head portion is inserted. The head portion comprises a tilted slide surface, which is extended towards the external end of the carriage on at least one of the lateral faces of the head portion directed towards the head of the pin, covering at least one area adjacent to the first through hole. | 2017-05-18 |
20170139230 | COMPOSITE CONSTRUCTED OPTICAL LENS - The present invention describes composite constructed ophthalmic lenses comprising at least two layers of optical materials that provide a composite structure over a practical vision zone of the lens product, are identifiably disparate from each other, and are integrally bonded to each other such that the adhesion of the first layer to the second layer exceeds a ranking of at least 3 when tested according to specified tests. In a preferred embodiment, one layer comprises thermoplastic polycarbonate and the second layer comprises polyurea-urethane material and one or more additives. The first layer may comprise a polarizer. The composite lens may also comprise coatings or other components. | 2017-05-18 |
20170139231 | TRUNCATED TRANSLATING CONTACT LENS WITH OPTIMIZED PERFORMANCE AND METHOD OF DESIGN - Translating contact lenses which are truncated for correcting presbyopia and whose design is optimized to maximize translation ability while maintaining comfort when the lens is worn on eye. Truncation of the lenses results in a non-round geometry while still retaining under-lid residency in select portions of the lens itself. Maximum thickness and back surface radius of curvature along with ramp shape can be optimized individually or in combination to maximize translation of the lens relative to the eye, when the lens is positioned on eye. | 2017-05-18 |
20170139232 | COLORED CONTACT LENS - A colored contact lens includes an iris region made of a first mixed liquid, and the first mixed liquid includes a colored material and a contact lens material. The colored material absorbs and stores light when in a well lit environment and emits lights when in a poorly lit environment or a dark environment. Therefore, when the colored contact lens is located in a well lit environment, light is absorbed and stored, and when the contact lens is in a poorly lit environment or the dark environment light is emitted. | 2017-05-18 |
20170139233 | AUTOMATED DIGITAL MIGRAINE DIARY - Disclosed herein are platforms and methods for collecting migraine associated data. Migraine associated data is collected automatically, such as via a sensor, or is self-reported manually. | 2017-05-18 |
20170139234 | OPTICAL FILTER WITH COLOR ENHANCEMENT - An eyewear lens is described that provides polarization filtering and spectral filtering using polarization interference. The lens produces enhanced saturation and colorfulness, increasing enjoyment when observing commonly encountered imagery. The lens can be configured to optimize accuracy/efficiency when performing a task involving colored imagery, and can improve performance in sports. The lens can further be helpful for color scrimination by those with certain types of color vision deficiency. | 2017-05-18 |
20170139235 | INTELLIGENT TEMPERATURE- AND HUMIDITY-CONTROL VISIBLE MULTI-FUNCTION EYE-CARE MASSAGE GLASSES - The present invention discloses a pair of intelligent temperature- and humidity-control visible multi-function eye-care massage glasses, comprising blinders in which they are equipped with windows and control circuits corresponding to eye positions, and also comprising heating devices and humidity-control devices equipped at the peripheries of the windows, wherein the control circuits are electrically connected to the heating devices and the humidity-control devices respectively. The beneficial effects of the present invention: it does not press on the eyeballs, so as to avoid causing or aggravating eye diseases; it provides intelligent temperature- and humidity-control devices, which can effectively ameliorate eye discomfort; people can work or recreate as usual when wearing it, which is good for long-term wear so as to achieve a good long-term effect. It also has balloon-like airbags, which can more effectively stimulate the meridian points of the eyes so as to enhance the massage effect. | 2017-05-18 |
20170139236 | APPARATUS AND METHOD OF RESONANCE WAVELENGTH ALIGNMENT FOR RING MODULATORS - An apparatus, system and method of resonance wavelength alignment for ring modulators is provided which includes: an optical input bus configured to convey a given optical input signal having a given optical frequency; an optical ring modulator configured to: receive and modulate the input signal from the input bus; an optical output bus configured to convey a modulated optical signal from the ring; a first optical tap on the input bus configured to sample the input signal; a second optical tap configured to sample the modulated signal; a controller in communication with the ring, the first tap and the second tap, the controller configured to: determine a current insertion loss of the ring from respective signals received from both the first tap and the second tap; and, control the ring in a feedback loop with the current insertion loss until the current insertion loss comprises a given insertion loss. | 2017-05-18 |
20170139237 | DUAL-RING-MODULATED LASER THAT USES PUSH-PULL MODULATION - A dual-ring-modulated laser includes a gain medium having a reflective end coupled to a gain-medium reflector and an output end coupled to a reflector circuit to form a lasing cavity. This reflector circuit comprises: a first ring modulator; a second ring modulator; and a shared waveguide that optically couples the first and second ring modulators. The first and second ring modulators have resonance peaks, which are tuned to have an alignment separation from each other. During operation, the first and second ring modulators are driven in opposing directions based on the same electrical input signal, so the resonance peaks of the first and second ring modulators shift wavelengths in the opposing directions during modulation. The modulation shift for each of the resonance peaks equals the alignment separation, so the resonance peaks interchange positions during modulation to cancel out reflectivity changes in the lasing cavity caused by the modulation. | 2017-05-18 |
20170139238 | Incoherently-Induced Coherent Perfect Absorption (CPA) Apparatus, Method, and Applications Thereof - A thin film photonic structure that enables segregation of the effective absorption of the thin film and its intrinsic absorption while substantially eliminating bandwidth restrictions. In the form of an optical resonator, the structure includes two, multi-layer, aperiodic dielectric mirrors and a lossy, dielectric thin film and characterized by an intrinsic optical absorption over at least a one octave bandwidth. The two, multi-layer, aperiodic dielectric mirrors are characterized by a reflectivity amplitude that increases in-step with increasing wavelength over the at least one octave bandwidth. Upon a single incoherent beam of optical radiation having a spectrum over the at least one octave bandwidth incident on one side of the resonator structure, the lossy, dielectric thin film is characterized by an effective optical absorption over the at least one octave bandwidth that is greater than the intrinsic optical absorption over the at least one octave bandwidth. | 2017-05-18 |
20170139239 | SILICON-GERMANIUM ELECTRO-ABSORPTION MODULATOR - An electro-absorption modulator, comprising: a substrate layer, including a silicon substrate and an oxide layer disposed on the silicon substrate; top-layer silicon, formed on the oxide layer, where a waveguide layer is formed on the top-layer silicon; a doping layer, including a first doping panel and a second doping panel, where a first-type light doping area is formed on the first doping panel, a second-type light doping area is formed on the second doping panel; and a modulation layer, disposed on the waveguide layer and connected in parallel to the PIN junction. For an incident beam with a specific wavelength, when a modulating electrical signal is reversely applied to the PIN junction, a light absorption coefficient of the modulation layer for the beam changes with the modulating electrical signal, and after the beam passes through a modulation area, optical power of the beam changes. | 2017-05-18 |
20170139240 | OPTICAL WAVEGUIDE ELEMENT MODULE - The purpose is to provide an optical waveguide element module which is to prevent deterioration of electric characteristics by decreasing discontinuity of electrical connection between an optical waveguide element and a connecting substrate (a relay substrate or a terminal substrate) without wire-bonding using long wires. An edge shape L of the signal electrode side of the ground electrode is set to be, in case of a plane view, located in an area surrounded by two shapes (L | 2017-05-18 |
20170139241 | DISPLAY DEVICE AND METHOD OF DRIVING THE SAME - Provided are a display device and a method of driving the same. The display device includes a polymer layer including dichroic dyes and a liquid crystal, which is not mixed or reacted with the polymer layer, dispersed in the polymer layer. The polymer and the liquid crystal having different refractive indices from each other are used to provide a display device which is reflective and transmissible. | 2017-05-18 |
20170139242 | Liquid Crystal Display Module And Device - The present invention provides a liquid crystal display (LCD) module and device with switchable viewing angles. The LCD module and device contain parallel and sequentially stacked backlight unit, LCD unit, and view-angle adjustment unit. The backlight unit is positioned along a back side of the LCD module and device as a backlight light source. The LCD unit is sandwiched between the backlight unit and the view-angle adjustment unit. Light produced by the backlight unit propagates through the LCD unit and the view-angle adjustment unit sequentially. Through the view-angle adjustment unit, The LCD module and device can switch between a wide angle mode and a narrow angle mode. | 2017-05-18 |
20170139243 | DISPLAY DEVICE AND DISPLAY METHOD - The present disclosure provides a display device and a display method, relates to a field of display technology, and improves user's poor experiences in the existing anti-peeping display device. A display device includes: a display panel; a visual angle adjustment panel provided on an exit side of the display panel, the panel including at least one first region in strip shape and at least one second region in strip shape, the first region and the second region being alternately arranged relative to each other; and a control device connected to the panel, wherein the control device is configured to control the panel such that the first region and the second region are transmissive upon receipt of a first instruction and to control the panel such that the first region is opaque and the second region is transmissive upon receipt of a second instruction. | 2017-05-18 |
20170139244 | DISPLAY PANEL, AND METHOD FOR CURING SEALANT THEREOF AND DISPLAY APPARATUS - This present invention provides a display panel, a method for curing a sealant thereof, and a display apparatus. This display panel comprises a first substrate and a second substrate, which are oppositely provided, and a sealant structure for binding the first substrate and the second substrate, wherein the sealant structure comprises a sealant and a conversion unit, and the conversion unit is used for converting infrared light, which irradiates it when the sealant is being cured, to ultraviolet light. With respect to the display panel provided by the invention, photocuring and thermocuring are achieved with a one-step process by providing a conversion unit in the sealant structure so as to prevent the problems in liquid crystal contamination, puncture, and the like, for the reason that the incompletely pre-cured sealant is prone to become in contact with liquid crystal, when ultraviolet photocuring and thermocuring are performed on a sealant separately. | 2017-05-18 |
20170139245 | Liquid Crystal Display Device and Display Apparatus - Disclosed is a liquid crystal display (LCD) device. The LCD device includes a first substrate and a second substrate facing each other, a liquid crystal layer between the first substrate and the second substrate, an alignment layer on at least one of the first and second substrates for alignment of liquid crystals in the liquid crystal layer, and a sealant in an edge area of each of the first and second substrates to bond the first substrate to the second substrate, the sealant including a diene compound. | 2017-05-18 |
20170139246 | ARRAY SUBSTRATE, MANUFACTURING METHOD THEREOF AND DISPLAY DEVICE - An array substrate, a manufacturing method thereof and a display device are disclosed. The array substrate comprises a plurality of pixel unit regions each including a thin-film transistor (TFTs) and a pixel electrode. A first insulating layer provided with a first through hole and a second through hole is formed between an active layer of the TFT and the pixel electrode. A source electrode of the TFT is connected with the active layer through the first through hole. A drain electrode of the TFT is lapped onto the pixel electrode and connected with the active layer through the second through hole. The array substrate can prevent the oxidization of metal such as copper in the process of patterning a transparent conductive film. | 2017-05-18 |
20170139247 | Thin Film Transistor Array Substrate, Manufacturing for the Same, and Liquid Crystal Display Panel Having the Same - A thin film transistor array substrate includes a glass substrate and a plurality of TFTs thereon. Each TFT includes a gate formed on the glass substrate, a gate insulating layer covering the gate, an active layer formed on the gate insulating layer, a source on the active layer, and a drain on the active layer. A gap is between the source and the drain in a first direction. An area of the active layer that matches the gap is a channel. A plurality of protrusions and recesses on a coarse surface of the gate insulating layer face the active layer, at least within the area corresponding to the channel. The active layer fits with the gate insulting layer. The present invention also proposes a method for manufacturing the thin film transistor array substrate and a liquid crystal display panel having the thin film transistor array substrate. | 2017-05-18 |
20170139248 | METHOD FOR DETECTING DEFECTS OF TFT ARRAY SUBSTRATE - Disclosed is a method for detecting defects of a TFT array substrate. The method comprises steps of: positioning an abnormal area of the TFT array substrate; separating the abnormal area from other areas of the array substrate; and treating the abnormal area as such that multiple layers in the abnormal area can be revealed one by one, and detecting the revealed layers to determine a defective layer in the abnormal area. | 2017-05-18 |
20170139249 | CURVED DISPLAY APPARATUS HAVING RADIALLY EXTENDING FLEXIBLE SUBSTRATES AND METHOD OF MANUFACTURING THE SAME - A curved display apparatus includes a curved display panel, a driver, a controller and a plurality of flexible substrates. The curved display panel extends in a tangential direction with respect to a first axis direction. The driver applies a driving signal to the curved display panel. The controller includes a curved printed circuit board extending in the tangential direction with respect to a first axis direction. The controller applies a control signal to the driver. The flexible substrates electrically connect the curved printed circuit board with the curved display panel. Each of the flexible substrates includes a first connection portion connected to the curved display panel, a second connection portion connected to the curved printed circuit board and a flexible substrate body connecting the first connection portion with the second connection portion. The flexible substrate body extends in a radial direction with respect to the first axis direction. | 2017-05-18 |
20170139250 | LCD PANEL, TERMINAL DEVICE AND PHOTO-SENSING CONTROL METHOD - An LCD panel, a terminal device and a photo-sensing control method are provided. The LCD panel includes: a backlight source, an array substrate disposed on the backlight source; a photosensitive device array disposed on the array substrate; and a control circuit coupled to the photosensitive device array. By disposing the photosensitive device array on the array substrate of the LCD panel, a front panel of the terminal device is not required to be divided into multiple regions. Therefore, the camera function can be integrated into the LCD panel, and only the LCD panel is needed in the front panel of the terminal device which has both the display function and the camera function. The integration and appearance of the front panel of the terminal device is thus improved. | 2017-05-18 |
20170139251 | VA TYPE IN-CELL TOUCH CONTROL DISPLAY PANEL STRUCTURE - The present invention provides a VA type In-Cell touch control display panel structure, of which the color filter comprises a black matrix ( | 2017-05-18 |
20170139252 | TOUCH PANEL FOR NARROWING BEZEL REGION AND TOUCH DISPLAY DEVICE USING THE SAME - A touch panel for narrowing bezel region and a touch display device using the same is disclosed. The touch panel includes a first transparent substrate, a first conduction layer, a transparent optical glue layer, a second transparent substrate and a second conduction layer from bottom to top. A bezel region of the first transparent substrate is provided with first conduction pads respectively connected with second conduction pads respectively through first conduction wires. The second transparent substrate is provided with third conduction pads. The second transparent substrate is penetrated with penetrating holes respectively arranged over the second conduction pads and respectively neighboring the third conduction pads. A third conduction layer is arranged on the third conduction pads and fills the penetrating holes. The second conduction pads are respectively connected with the third conduction pads through the third conduction layer in the penetrating holes. | 2017-05-18 |
20170139253 | DISPLAY DEVICE, INPUT/OUTPUT DEVICE, AND DATA PROCESSING DEVICE - A signal line, a pixel connected to the signal line, a first conductive film connected to the pixel, a second conductive film including a region overlapping with the first conductive film, and a first insulating film including a region sandwiched between the first conductive film and the second conductive film and a second opening in the sandwiched region are included. The pixel includes a pixel circuit connected to the signal line, a third conductive film connected to the pixel circuit, a fourth conductive film including a region overlapping with the third conductive film, a second insulating film including a region sandwiched between the fourth conductive film and the third conductive film and an opening in the sandwiched region, a first display element electrically connected to the fourth conductive film, and a second display element connected to the pixel circuit. | 2017-05-18 |
20170139254 | DISPLAY PANELS AND DISPLAY DEVICES - The display panel includes a first substrate, a second substrate, a color filtering layer, and a spacer. The first substrate includes a non-active area and an active area. The second substrate is opposite to the first substrate. The color filtering layer is arranged on the first substrate. The color filtering layer includes a plurality of color filters, and a through hole is formed between adjacent color filters. One end of the spacer has been arranged within the through hole and the other end of the spacer supports the second substrate. In this way, the stability of the spacer is enhanced and the spacer is prevented from being detached. | 2017-05-18 |
20170139255 | FLAT DISPLAY PANEL AND MANUFACTURING METHOD FOR THE SAME - A flat display panel and manufacturing method are disclosed. The flat display panel includes a first substrate, a second substrate disposed oppositely to the first substrate. The second substrate is provided with a material layer having multiple concave slots. Multiple spacers are disposed on the first substrate and facing toward the second substrate. Wherein, multiple spacers include multiple main spacers and auxiliary spacers. The multiple auxiliary spacers respectively face toward regions which the multiple concave slots are located on, and the multiple main spacers respectively face toward regions which the multiple concave slots are not located on. A height of each main spacer and a height of each auxiliary spacer are the same such that when the flat display panel is not pressed, supporting the flat display panel through the main spacers, and when the flat display panel is pressed, further supporting the flat display panel through the auxiliary spacers. | 2017-05-18 |
20170139256 | ARRAY SUBSTRATE STRUCTURE AND MANUFACTURING METHOD THEREOF - The present invention provides an array substrate structure and a manufacturing method thereof, in which after a common electrode ( | 2017-05-18 |
20170139257 | METHOD FOR MANUFACTURING SLIT ELECTRODE, SLIT ELECTRODE, AND DISPLAY PANEL - The present disclosure provides a method for manufacturing a slit electrode, the slit electrode, and a display panel. The method includes steps of forming a first photoresist pattern on a passivation layer, the first photoresist pattern being of a shape identical to a slit of the slit electrode, forming a slit electrode pattern on the passivation layer with the first photoresist pattern, the slit electrode pattern being covering with a second photoresist pattern which has a shape identical to the slit electrode; and removing the first photoresist pattern and the second photoresist pattern. | 2017-05-18 |
20170139258 | DISPLAY DEVICE - Disclosed is a display device including a rear cover, a backlight module and a liquid crystal panel arranged in the rear cover, and a bezel, wherein a front wall of the bezel is magnetically connected with a front wall of a mold frame of the backlight module, and a sidewall of the bezel is magnetically connected with a sidewall of the rear cover. The bezel of the display device can be attractively secured to the mold frame and the rear cover thereof through magnets instead of bolts, and as compared with the prior art, operations of assembling the display device can be simplified to thereby improve a product quality of the display device, and also improve an overall appearance effect of the display device. | 2017-05-18 |
20170139259 | DISPLAY APPARATUS - A display apparatus includes a display panel configured to display an image, a lower receiving container comprising a bottom portion and a side wall and accommodating the display panel and a mold frame integrally formed with the lower receiving container, extending along the side wall of the lower receiving container, and comprising a plurality of groove portions extending from an inner surface of the mold frame toward an outer surface of the mold frame. | 2017-05-18 |
20170139260 | DISPLAY DEVICE AND METHOD FOR MANUFACTURING SAME - There are provided a display device including a highly reliable wiring having excellent adhesion to an insulating film, and a method for manufacturing the same. A molybdenum-niobium layer has good adhesion to an insulating film, and thus, a first wiring having the molybdenum-niobium layer as an upper layer wiring is tightly adhered to a gate insulating film which is formed on the surface of the upper layer wiring. When there is a need to exchange a semiconductor chip mounted on a connection terminal that is provided at an end portion of a wiring such as a gate lead line or a source lead line formed of the first wiring, an ACF which was used for pressure-bonding of the semiconductor chip remains on the connection terminal even if the semiconductor chip is peeled off. To thoroughly remove the ACF, a force has to be applied to the connection terminal, but because the gate insulating film is tightly adhered to the molybdenum-niobium layer, the gate insulating film protecting the periphery of the connection terminal is not easily peeled off. | 2017-05-18 |
20170139261 | METHOD FOR PRODUCING LIQUID CRYSTAL PANEL AND HEATING DEVICE - The present disclosure provides a method for producing a liquid crystal panel and a heating device. The liquid crystal panel includes a first substrate, a second substrate and liquid crystals between the first and second substrates. The method includes: heating the liquid crystal panel placed onto the heating device; during the heating process adjusting a position of the liquid crystal panel in the heating device through at least one angle adjusting process, which includes adjusting an angle of the liquid crystal panel with respect to a plane in which the heating device is placed at least twice, the angle of the liquid crystal panel after each adjustment with respect to the plane has an absolute value larger than 0, and a sum of the angles of the liquid crystal panel which are obtained for all of at least two adjustments respectively, with respect to the plane is equal to 0. | 2017-05-18 |
20170139262 | POLARIZERS AND THE MANUFACTURING METHODS THEREOF, AND LIQUID CRYSTAL PANELS - A polarizer includes a polarizer base and a plurality of protrusive microstructures being arranged on the polarizer base. The microstructure includes at least two layers of curing-light or thermosetting resin materials. The manufacturing method of the curing-light or thermosetting resin materials includes: providing a polarizer base and coating at least two layers of curing-light or thermosetting resin materials on the polarizer base; and arranging a plurality of lighting dots or heating dots on the curing-light or thermosetting resin materials such that the curing-light or thermosetting resin materials shrink and the lighting dots or heating dots are centers of the shrinkage to form a plurality of protrusive microstructures. In addition, a liquid crystal panel includes the above-mentioned polarizer. | 2017-05-18 |
20170139263 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes a display panel having an active area and a non-active area; a first black matrix in the active area; a second black matrix on at least a peripheral portion of the display panel and the second black matrix spaced apart from the first black matrix, and the second black matrix positioned in the active area and a portion of the non-active area; and an opaque layer corresponding to a gap between the first black matrix and the second black matrix. | 2017-05-18 |
20170139264 | DISPLAY PANEL AND DISPLAY DEVICE - A display panel and a display device are provided by embodiments of the present disclosure, relating to a field of display technology. The display panel comprises a pixel array substrate and an opposite substrate which is located opposite to the pixel array substrate, the pixel array substrate comprising a pixel array and a substrate on which the pixel array is arranged; the pixel array comprises a plurality of columns of sub-pixels, a light-shielding wall being provided between any two adjacent columns of sub-pixels; and a first length of the light-shielding wall in a direction perpendicular to the substrate is smaller than a spacing between the pixel array substrate and the opposite substrate. By providing the light-shielding wall which is enabled to shield sub-pixels(s) so as to decrease a visual range of the display panel, between any two adjacent columns of sub-pixels within the pixel array, a peep-proof aim can be achieved by the embodiments of the present disclosure. And the first length of the light-shielding wall in a direction perpendicular to the substrate is smaller than a spacing between the pixel array substrate and the opposite substrate, such that neither the thickness of the display panel nor that of the display apparatus can be increased by providing the light-shielding wall. | 2017-05-18 |
20170139265 | DISPLAY DEVICE - Provided is a display device, in which: a center position of a row-wise width of a black matrix located between a red pixel and a green pixel is displaced toward a red pixel side from the center position of a row-wise line width of a data line overlapping with the black matrix in a plan view; and the center position of the row-wise width of the black matrix located between the green pixel and a blue pixel is displaced toward a blue pixel side from the center position of the row-wise line width of the data line overlapping with the black matrix in a plan view. | 2017-05-18 |
20170139266 | COLOR FILTER SUBSTRATE AND LIQUID CRYSTAL DISPLAY PANEL - The present invention provides a color filter substrate and a liquid crystal display panel. Both comprises a color filter layer ( | 2017-05-18 |
20170139267 | COLOR FILTERS AND THE MANUFACTURING METHOD THEREOF, AND LIQUID CRYSTAL DEVICES (LCDS) - The present disclosure relates to a color filter including components having black matrixes, a color layer, a protection layer, and a gap layer. At least one of the components is provided with the blue light absorbing agents. A weight of the blue light absorbing agents is in a range of 1% and 10% of a total weight of the component containing the blue light absorbing agents. In view of the above, the components of the color filters are configured with blue light absorbing agents for absorbing a portion or all of the blue lights harmful to human eyes, which reduces the risks of damaging the eyesight. | 2017-05-18 |
20170139268 | SUBSTRATE AND METHOD OF FORMING PHOTORESIST LAYER - A method of forming a photoresist layer includes: forming alignment electrodes on a base; mixing color QRs and photoresist to form a mixed material; coating the mixed material on the base; applying the base coated with the mixed material with positive and negative voltages so that the long axes of the color QRs align horizontally under the effect of the horizontal electric fields generated by the alignment electrodes; vacuum-drying the base coated with the mixed material to enhance the viscosity of the photoresist; interrupting electricity at a designated point to form a photoresist layer, wherein the long axes of QRs remain aligned horizontally; the color film substrate includes color resist films; when a backlight source emits blue light to the color film substrate, a color filter is disposed on top of the red color film to filtrate the blue light. | 2017-05-18 |
20170139269 | DISPLAY DEVICE - According to one embodiment, a display device includes a light source unit and a color filter unit. The light source unit includes a laser light source unit including a red laser light source, a green laser light source and a blue laser light source. The color filter unit includes a red filter film, a green filter film and a blue filter film. The difference between the center emission wavelength of the green laser beam and that of the blue laser beam falls within the range of 65 to 95 nm. In the green filter film, the difference between a wavelength at a maximum light transmittance and a wavelength at a light transmittance of 10% on the shorter wavelength side is 70 nm or less. | 2017-05-18 |
20170139270 | COLOR CONVERSION IN LCD DISPLAYS - Color conversion films for a LCD (liquid crystal display) having RGB (red, green, blue) color filters, as well as such displays, formulations, precursors and methods are provided, which improve display performances with respect to color gamut, energy efficiency, materials and costs. The color conversion films absorb backlight illumination and convert the energy to green and/or red emission at high efficiency, specified wavelength ranges and narrow emission peaks. For example, rhodamine-based fluorescent compounds are used in matrices produced by sol gel processes and/or UV (ultraviolet) curing processes which are configured to stabilize the compounds and extend their lifetime—to provide the required emission specifications of the color conversion films. Film integration and display configurations further enhance the display performance with color conversion films utilizing various color conversion elements. | 2017-05-18 |
20170139271 | COLOR CONVERSION IN LCD DISPLAYS - Color conversion films for a LCD (liquid crystal display) having RGB (red, green, blue) color filters, as well as such displays, formulations, precursors and methods are provided, which improve display performances with respect to color gamut, energy efficiency, materials and costs. The color conversion films absorb backlight illumination and convert the energy to green and/or red emission at high efficiency, specified wavelength ranges and narrow emission peaks. For example, rhodamine-based fluorescent compounds are used in matrices produced by sol gel processes and/or UV (ultraviolet) curing processes which are configured to stabilize the compounds and extend their lifetime—to provide the required emission specifications of the color conversion films. Film integration and display configurations further enhance the display performance with color conversion films utilizing various color conversion elements. | 2017-05-18 |
20170139272 | DISPLAY PANEL AND LIQUID CRYSTAL DISPLAY - A display panel and a liquid crystal display are disclosed. The display panel includes an upper polarizer, a lower polarizer, a first substrate and a second substrate disposed oppositely between the upper polarizer and the lower substrate, a liquid crystal layer disposed between the first substrate and the second substrate, a quantum dot layer disposed at a side of the second substrate which is far away from the liquid crystal layer, and a protection layer for protecting the quantum dot layer, disposed between the quantum dot layer and the lower polarizer. The quantum dot layer is disposed at a side of the second substrate far away from the liquid crystal layer, and the protection layer is disposed between the quantum dot layer and the lower polarizer. The protection layer is used for preventing the quantum dot layer from being oxidized. The color gamut of LCD can be increased. | 2017-05-18 |
20170139273 | ARRAY SUBSTRATE AND LCD DEVICE INCLUDING THE SAME - The present invention provides an array substrate and a liquid crystal display (LCD) device including the array substrate. The LCD device contains upper and lower polarizer films of perpendicular first and second polarization directions, respectively. The array substrate contains a number of pixel units, each containing a number of metallic lines for supplying voltage. Each metallic line is configured in a stairwise manner along a third direction that is other than the first and second directions where at least some segments of the metallic line has an included angle relative to the first or second direction less than a preset value. Through the above arrangement, the present invention is capable of achieving reduce dark-state light leakage. | 2017-05-18 |
20170139274 | DISPLAY DEVICE - According to one embodiment, a display device includes a first substrate including a pixel circuit, a second substrate disposed opposite to the first substrate, an optical element layer disposed between the first substrate and the second substrate, and a polarizer disposed between the second substrate and the optical element layer, wherein the second substrate has strength greater than that of the first substrate, and the second substrate constitutes the outermost substrate. | 2017-05-18 |
20170139275 | LIGHT EMITTING UNIT AND BACKLIGHT HAVING THE SAME - A light emitting unit including a first substrate and a plurality of first light emitting elements arranged on the first substrate in a certain arrangement rule. The first light emitting elements are light emitting diodes (LEDs) or organic light emitting diodes (OLEDs) of the same kind, or the first light emitting elements are LEDs or OLEDs of different kind. An alternative a light emitting unit includes a second substrate and a plurality of second light emitting elements and a plurality of third light emitting elements arranged on the second substrate in a certain arrangement rule. The second light emitting elements are LEDs of the same kind or different kind, and the third light emitting elements are OLEDs of the same kind or different kind. A backlight having the light emitting unit is also disclosed. | 2017-05-18 |
20170139276 | Emissive Display with Printed Light Modification Structures - A multi-color emissive display is presented with printed light modifier structures. A fabrication method provides an emissive substrate with a plurality of wells formed in the emissions substrate top surface, and a plurality of emissive elements populating the wells. The method prints light modifier structures overlying the emissive elements. Some examples of light modifier material include light scattering materials, phosphors, and quantum dots. In one aspect, the emissive substrate wells have a first shape, with sidewalls and a first perimeter. Likewise, the emissive elements have the first shape, with sides and a second perimeter, less than the first perimeter. The light modifier structures fill the space between the emissive element sides and the well sidewalls with light modifier material. If the first shape is circular, the method prints the light modifier structures overlying the emissive elements in the circular shape having a first diameter defined by the well sidewalls. | 2017-05-18 |
20170139277 | COLOR CONVERSION IN LCD DISPLAYS - Color conversion films for a LCD (liquid crystal display) having RGB (red, green, blue) color filters, as well as such displays, formulations, precursors and methods are provided, which improve display performances with respect to color gamut, energy efficiency, materials and costs. The color conversion films absorb backlight illumination and convert the energy to green and/or red emission at high efficiency, specified wavelength ranges and narrow emission peaks. For example, rhodamine-based fluorescent compounds are used in matrices produced by sol gel processes and/or UV (ultraviolet) curing processes which are configured to stabilize the compounds and extend their lifetime—to provide the required emission specifications of the color conversion films. Film integration and display configurations further enhance the display performance with color conversion films utilizing various color conversion elements. | 2017-05-18 |
20170139278 | HIGH TRANSMITTANCE PSVA LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - The present invention provides a high transmittance PSVA liquid crystal display panel and a manufacturing method thereof. The liquid crystal display panel includes an upper substrate ( | 2017-05-18 |
20170139279 | LIQUID CRYSTAL DISPLAY - A liquid crystal display is formed by arraying a plurality of pixels | 2017-05-18 |
20170139280 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - A liquid crystal display device includes a first substrate, a first alignment film disposed on the first substrate, a second substrate, and a liquid crystal layer disposed between the first alignment film and the second substrate. The first substrate has a surface curved in a first direction and the second substrate has a surface curved in the first direction. The first alignment film includes a polymerization initiator and a polymer chain that is a copolymer of a dianhydride-based compound and a diamine-based compound. The polymer chain includes a main chain including a repeating unit including an imide group, a first side chain, including a vertical align group, bonded to the main chain, and a second side chain bonded to the main chain. The functional group includes a biphenyl group or a terphenyl group. | 2017-05-18 |
20170139281 | ALIGNMENT METHOD OF FFS TYPE LIQUID CRYSTAL PANEL - The present invention provides an alignment method of a FFS type liquid crystal panel. By irradiating the mixture of liquid crystal ( | 2017-05-18 |
20170139282 | ARRAY SUBSTRATE AND LIQUID CRYSTAL DISPLAY - The present invention discloses an array substrate and liquid crystal display, and the array substrate comprises: a first substrate, which is transparent and a first electrode, located on the first substrate and employed to form a liquid crystal layer electrical field; wherein the first electrode comprises at least two non-parallel electrodes, a first strip electrode and a second strip electrode, and one end of the first strip electrode adjacent to the second strip electrode is bent/bent and extended to a tilt direction of the first strip electrode, and the one end of the first strip electrode adjacent to the second strip electrode is disconnected with the second strip electrode. With the aforesaid arrangement, the present invention can rapidly recover the liquid crystal molecules to the normal twisted directions as the liquid crystal display is acted upon by an external force, and is propitious to raise the image quality. | 2017-05-18 |
20170139283 | LIQUID-CRYSTAL DISPLAY PANEL AND DEVICE - A liquid-crystal display panel and device are provided. The display panel includes: a first substrate; a second substrate disposed opposite to the first substrate, including a pixel electrode; a liquid-crystal layer disposed between the first substrate and the second substrate; in which the pixel electrode is spiral. The liquid-crystal display panel and device of the present invention are capable of broadening a viewing angle of the liquid-crystal display panel by shaping the pixel electrode into the spiral. | 2017-05-18 |
20170139284 | DISPLAY SUBSTRATE AND LIQUID CRYSTAL DISPLAY DEVICE INCLUDING THE SAME - A display substrate may include a base substrate having a plurality of pixel areas; and a pixel electrode in each of the pixel areas. The pixel electrode may include a vertical stem portion extending in a first direction; a horizontal stem portion extending from the vertical stem portion in a second direction intersecting the first direction; a plurality of main branch portions extending from at least one of the vertical stem portion and the horizontal stem portion in an inclined manner; and a sub-branch portion extending from at least one of the plurality of main branch portions. | 2017-05-18 |
20170139285 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display includes a liquid crystal layer between a first substrate and a second substrate, a plurality of gate lines and a plurality of data lines on the first substrate, and a plurality of pixels connected to the plurality of gate lines and the plurality of data lines, the plurality of pixels including a pixel electrode and a switching element connected to the pixel electrode, wherein pixel electrodes in one of an odd-numbered row and an even-numbered row are in odd-numbered columns, respectively, and wherein pixel electrodes in the other of the odd-numbered row and the even numbered row are in even-numbered columns, respectively. | 2017-05-18 |