20th week of 2016 patent applcation highlights part 41 |
Patent application number | Title | Published |
20160139372 | IMAGING LENS AND IMAGING APPARATUS EQUIPPED WITH THE IMAGING LENS - An imaging lens consisting essentially of, in order from the object side, a first lens having a negative refractive power with the object side surface having a concave shape, a second lens, a third lens, a fourth lens, a fifth lens, a sixth lens, and a seventh lens having a negative refractive power with the image side surface having a concave shape with at least one inflection point, in which an aperture stop is provided between the first lens and the fifth lens, and the imaging lens satisfies predetermined conditional expressions. One of the second lens and the third lens has a positive refractive power and the other has a negative refractive power, and one of the fifth lens and the sixth lens has a positive refractive power and the other has a negative refractive power. | 2016-05-19 |
20160139373 | IMAGE LENS ASSEMBLY AND IMAGE CAPTURING DEVICE - An image lens assembly includes, in order from an object side to an image side, a first lens element, a second lens element, a third lens element, a fourth lens element, a fifth lens element and a sixth lens element. The first lens element with positive refractive power has a convex object-side surface. The second lens element has positive refractive power. The third lens element has refractive power. The fourth lens element has refractive power. The fifth lens element with negative refractive power has a concave object-side surface, wherein both of the surfaces of the fifth lens element are aspheric. The sixth lens element with refractive power has a concave image-side surface, wherein the image-side surface thereof has at least one inflection point, and both of the surfaces of the sixth lens element are aspheric. The image lens assembly has a total of six lens elements with refractive power. | 2016-05-19 |
20160139374 | ELECTRONIC IMAGE PICKUP SYSTEM - The invention relates to an electronic image pickup system whose depth dimension is extremely reduced, taking advantage of an optical system type that can overcome conditions imposed on the movement of a zooming movable lens group while high specifications and performance are kept. The electronic image pickup system comprises an optical path-banding zoom optical system comprising, in order from its object side, a 1-1st lens group G | 2016-05-19 |
20160139375 | CAMERA METHODS AND APPARATUS USING OPTICAL CHAIN MODULES WHICH ALTER THE DIRECTION OF RECEIVED LIGHT - Methods and apparatus for capturing or generating images using multiple optical chains operating in parallel are described. Pixel values captured by individual optical chains corresponding to the same scene area are combined to provide an image with at least some of the benefits which would have been provided by capturing an image of the scene using a larger lens than that of the individual lenses of the optical chain modules. By using multiple optical chains in parallel at least some benefits normally obtained from using a large lens can be obtained without the need for a large lens. Furthermore in at least some embodiments, a wide dynamic range can be supported through the use of multiple sensors with the overall supported dynamic range being potentially larger than that of the individual sensors. Some lens and/or optical chain configurations are designed for use in small handheld devices, e.g., cell phones. | 2016-05-19 |
20160139376 | ZOOM LENS AND IMAGE PICKUP APPARATUS INCLUDING THE SAME - Provided is a zoom lens, comprising, 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 negative refractive power; and a fourth lens unit having a positive refractive power. The second lens unit and the third lens unit are configured to move along loci different from each other during zooming. At least one lens unit of the first lens unit, the second lens unit, the third lens unit, or the fourth lens unit includes a positive lens and a negative lens that are arranged adjacent to each other, and materials for the positive lens and the negative lens are appropriately set, respectively. | 2016-05-19 |
20160139377 | OPTICAL IMAGE CAPTURING SYSTEM - A five-piece optical lens for capturing image and a five-piece optical module for capturing image, along the optical axis in order from an object side to an image side, include a first lens with positive refractive power, wherein an object-side surface thereof can be convex; a second lens with refractive power; a third lens with refractive power; a fourth lens with refractive power; and a fifth lens, wherein the fifth lens can have negative refractive power, and an image-side surface thereof can be concave; an image-side surface and an object-side surface of each of the five lens elements are both aspheric. At least one surface of the fifth lens has an inflection point. The optical lens can increase aperture value and improve the imagining quality for use in compact cameras. | 2016-05-19 |
20160139378 | ZOOM LENS AND OPTICAL APPARATUS - A zoom lens is equipped with: a first lens group, which is fixed when changing magnification, provided most toward the magnification side; and a second lens group having a positive refractive power, which moves when changing magnification, provided adjacent to the first lens group at the reduction side thereof. The first lens group is constituted essentially by, in order from the magnification side to the reduction side, a front group having a positive refractive power and a rear group having a negative refractive power. Focusing operations are performed by changing the distance between the front group and the rear group. Conditional Formula (1): −0.3 5≦flb/ft<0 related to the focal length flb of the rear group and the focal length ft of the entire lens system at the telephoto end is satisfied. | 2016-05-19 |
20160139379 | Zoom Lens and Image Pickup Apparatus Using the Same - A zoom lens comprises in order from an object side,
| 2016-05-19 |
20160139380 | Zoom Lens and Image Pickup Apparatus Using the Same - A zoom lens comprises in order from an object side,
| 2016-05-19 |
20160139381 | Zoom Lens and Image Pickup Apparatus Using the Same - A zoom lens comprises in order from an object side,
| 2016-05-19 |
20160139382 | IMAGING OPTICAL SYSTEM FOR FORMING HIGH-DEFINITION IMAGE AND IMAGE PROJECTION APPARATUS HAVING THE SAME - An imaging optical system includes a first lens unit (B | 2016-05-19 |
20160139383 | ZOOM LENS FOR FORMING HIGH-DEFINITION IMAGE AND IMAGE PROJECTION APPARATUS HAVING THE SAME - A zoom lens includes, in order from an enlargement conjugate side to a reduction conjugate side, a first lens unit (B | 2016-05-19 |
20160139384 | IMAGING LENS AND IMAGING APPARATUS - An imaging lens is constituted by, in order from the object side to the image side: a first lens group having a negative refractive power; a second lens group having a positive refractive power; a stop; and a third lens group having a positive refractive power or a negative refractive power. The first lens group has at least two positive lenses, a first positive lens from among the at least two positive lenses being positioned most toward the object side, and three negative lenses being consecutively provided adjacent to the first positive lens at the image side thereof. The first lens group is fixed with respect to an imaging surface, and focusing operations are performed by moving the second lens group and the third lens group. | 2016-05-19 |
20160139385 | OPTICAL SYSTEM, AND OPTICAL APPARATUS INCLUDING THE SAME - Provided is an optical system including, in order from an object side to an image side, a first lens unit and a second lens unit with a positive refractive power. One of lenses of the first lens unit is the closest to the object side and has a negative refractive power. The second lens unit includes an aperture diaphragm. One of lenses that is included in the second lens unit, located on the object side or the image side of the aperture diaphragm and the closest to the aperture diaphragm has a concave lens surface that faces the aperture diaphragm. Conditions are satisfied whose values are set by using refractive indexes of a negative lens and a positive lens of the first lens unit that respectively have the smallest Abbe number. | 2016-05-19 |
20160139386 | INNER FOCUS MACROLENS AND IMAGE PICKUP DEVICE USING THE SAME - This disclosure is directed to an inner focus macrolens. The inner focus macrolens can include sequentially from an object side, a first lens unit, an aperture stop, a second lens unit having a positive refractive power, a third lens unit having a negative refractive power and a fourth lens unit having a positive refractive power, wherein the first lens unit comprises a negative lens as the closest powered lens to the object side and a positive lens, the second lens unit comprises an object side negative lens as the closest powered lens to the object side and a positive lens, the third lens unit comprises a negative lens, and the fourth lens unit comprises a positive lens. | 2016-05-19 |
20160139387 | PREVIEW STATION AND METHOD FOR TAKING PREVIEW IMAGES OF MICROSCOPE SLIDES - A preview station for previewing microscope slides where each slide has one or more specimens thereon, the preview station having a tray holder supporting a slide tray with a plurality of slides thereon. A digital camera and lens is located on an optical axis relative to the slide tray and a light source illuminates the slide tray. The camera is activated to image each slide in the slide tray and has a memory to store and transmit data from each slide. The preview station can be used in combination with a scanning system and can be made part of a scanning system. | 2016-05-19 |
20160139388 | METHODS AND SYSTEMS FOR TRANSPORT-OF-INTENSITY IMAGING - A transport-of-intensity imaging system is proposed which incorporates a control element positioned in an optical relay system, such as a 4f optical relay system, between a microscope system for generating an image of a specimen, and an image capturing device. The control element is located with an optical relay system, and is controllable to vary the focal plane without changing the spacing of the specimen and the image capturing device. In one form the control element is an electronically tunable lens (ETL). In another form, the control element is a spatial light modulator (SLM). The arrangement may include a beam splitter arrangement for generating a plurality of beams, which are not all subject to the same control element, such that multiple images with different focal planes are captured from the respective beams. | 2016-05-19 |
20160139389 | MICROSCOPE SYSTEM - A microscope system includes a virtual-slide microscope that acquires a virtual-slide image of a specimen when mounted on a first stage, and a fluorescence microscope that acquires a fluorescence image of the specimen when mounted on a second stage. The virtual-slide microscope includes a display and an image-capturing-condition setting portion that sets image capturing conditions, including a fluorescence-image acquisition position, on the virtual-slide image. The fluorescence microscope includes a memory portion that stores coordinate transformation data between the coordinates of the specimen when fixed on the first stage and the coordinates of the specimen when fixed on the second stage, a condition input portion to which the image capturing conditions are input, and a driving-condition setting portion that sets a driving condition on the basis of the image capturing conditions and the coordinate transformation data. | 2016-05-19 |
20160139390 | MULTIPASS VIRTUALLY IMAGED PHASED ARRAY ETALON - An example system determines biomechanical properties of eye tissue. The system includes a confocal microscopy system configured to scan the incident light across a plurality of cross-sections of the tissue. The incident light is reflected by the plurality of cross-sections of tissue as scattered light. The system includes a spectrometer to receive the scattered light and provide spectral information for the scattered light. The system includes processor(s) to determine a Brillouin frequency shift from the spectral information and to generate a three-dimensional profile of the corneal tissue according to the Brillouin frequency shift. The three-dimensional profile provides an indicator of one or more biomechanical properties of the tissue. The spectrometer includes a multipass optical device that generates an interference pattern from the scattered light. The interference pattern provides the spectral information for the scattered light. The spectrometer includes a camera to detect the interference pattern from the optical device. | 2016-05-19 |
20160139391 | OPTICAL SYSTEM FOR FLUORESCENCE OBSERVATION - An optical system for fluorescence observation comprises optics including an ocular | 2016-05-19 |
20160139392 | OPTICAL MICROSCOPE DEVICE, MICROSCOPIC OBSERVATION METHOD AND COMPUTER PROGRAM FOR MICROSCOPIC OBSERVATION USING SINGLE LIGHT-EMITTING PARTICLE DETECTION TECHNIQUE - There is provided a microscopic observation technique capable of detecting a light-emitting object or a light-emitting particle moving in a thick sample by the scanning molecule counting method. In the inventive technique, the light from a light detection region of is detected the optical system of a confocal or multiphoton microscope is detected with while moving the light detection region in each observed subregion obtained by dividing a region to be observed into plural regions; the signal of the light from a light-emitting particle is individually detected; and the position of the light-emitting particle corresponding to the detected signal is determined in the region to be observed. The moving of the position of the light detection region in each observed subregion is performed continuously in at least two directions or and/or continuously multiple times in each observed subregion. | 2016-05-19 |
20160139393 | UPRIGHT AND INVERTED MICROSCOPE - A dual-configuration microscope is provided. The microscope may be converted into an upright configuration or an inverted configuration. The microscope includes a base. The microscope further includes a body having a first portion and a second portion, wherein the body is rotatably coupled to the base at a rotational coupling. The microscope further includes one or more objectives coupled to the first portion of the body, a condenser coupled to the second portion of the body and a stage positioned between the one or more objectives and the condenser. The stage includes a first specimen supporting surface and a second specimen supporting surface, wherein the second specimen supporting surface is positioned opposite the first specimen supporting surface. | 2016-05-19 |
20160139394 | MICROSCOPE, FOCUSING UNIT, FLUID HOLDING UNIT, AND OPTICAL UNIT - A microscope includes: a sample placement part having a placement surface on which to place a sample and a bottom face opposite to the placement surface; an observation lens; and an optical unit for generating sheet light and use of the microscope. The microscope of an embodiment is arranged such that the sheet light enters the sample placement part from the bottom face and passing through the sample placement part to irradiate the sample, and fluorescence from the sample passes through the sample placement part toward the bottom face to be received by the observation lens. The microscope can, with this arrangement, utilize the advantages of a SPIM, and allows observation of a sample which observation is free from a restriction of the size of a sample. | 2016-05-19 |
20160139395 | SCANNING MICROSCOPE - A scanning microscope includes a scanner, an objective irradiates a sample with illumination light deflected by the scanner, and a beam splitter that is arranged between the objective and an exit pupil position, and that reflects one of the illumination light and observation light from the sample and transmits the other. The objective has the exit pupil position outside the objective. | 2016-05-19 |
20160139396 | OPTICAL APPARATUS - Provided is an optical apparatus including: a mounting section on which an object is mounted; an observation section including an imaging optical system that forms an image of the object mounted on the mounting section; a shaft section rotatable in a first direction and a second direction opposite to the first direction; a drive section that moves one of the observation section and the mounting section in a third direction that defies a gravity according to a rotation of the shaft section in the first direction and in a fourth direction opposite to the third direction according to a rotation of the shaft section in the second direction; and a torque control section including a clutch section that permits the rotation of the shaft section in the first direction, inhibits the rotation of the shaft section in the second direction, and rotates in the second direction with the shaft section as a rotation force in the second direction is input to the shaft section, and a restriction section that restricts the rotation of the clutch section. | 2016-05-19 |
20160139397 | Specimen Stand - A specimen stand includes a base, a support, an “L”-shaped arm, and a specimen-holding portion. The specimen-holding portion is rotatable relative to the “L”-shaped arm. The “L” support arm is rotatable relative to the support and the base. The specimen stand has a swappable plate having distinct colors to allow specimens to be positioned over different colors for examination. The specimen stand has a magnet on the base to assist in positioning the base. | 2016-05-19 |
20160139398 | Specimen Holder, Specimen Preparation Device, and Positioning Method - A specimen holder is used for an optical microscope, comprising: a specimen support that supports a specimen to enable the specimen to tilt relative to the optical axis of the optical microscope; an adjustment plate that has an observation surface for making observations using the optical microscope; and an adjustment plate support that supports the adjustment plate, so that the angle formed by the optical axis and the observation surface is larger than the angle formed by the optical axis and a specimen surface of the specimen. | 2016-05-19 |
20160139399 | Visual and Tactile Assessment Tool - A selectively attachable and removable visual and tactile assessment tool or clip for use with a mobile device is provided. Clip is an elongate member forming a curvilinear shape having a magnifying lens at a distal end thereof. Clip has a transparent tubular member disposed between first and second openings through the body portion of the clip. Tubular member has varying internal diameters to simulate, for example, the constriction or stenosis of a patient's vessel lumen. Once clip is attached to mobile device and the magnifying lens is positioned over the camera of the mobile device, a catheter is inserted through tubular member. The magnifying lens enlarges the size of the catheter displayed on the screen of the mobile device. | 2016-05-19 |
20160139400 | DISPLAY APPARATUS - A display apparatus includes a display panel including a display device; and a light transmission control panel disposed to face one side of the display panel and configured to control a transmission amount of visible rays incident from the outside or visible rays generated from the display panel. The light transmission control panel includes a base member; a first electrode disposed on the base member; a second electrode disposed to face the first electrode; a polar fluid disposed between the first electrode and the second electrode, having a hydrophobic or hydrophilic surface characteristic, and having an electric polarity; and a blocking member disposed between the polar fluid and the first electrode, having an opposite surface characteristic to a surface characteristic of the polar fluid, and including a fluid configured to block at least some of the visible rays. | 2016-05-19 |
20160139401 | GLASS PHOSPHOR COLOR WHEEL AND METHODS FOR PRODUCING THE SAME - A glass phosphor color wheel includes a wheel body made of a glass phosphor formed by sintering a glass material and fluorescent powder. The fluorescent powder is a fluorescent material selected from the group consisting of yttrium aluminum garnet, nitride, silicate, aluminate, and oxynitride. The glass material is selected from the group consisting of a silicate system, a phosphor system, a borate system, and a tellurate system. A method for producing a glass phosphor color wheel includes concentrically placing an inner tube into an outer tube. The glass material and the fluorescent powder are placed between the outer and inner tubes and are formed into a wheel body. In another method, the glass material and the fluorescent powder are sintered at a temperature of 500-1000° C. to form at least one glass phosphor color block that is subsequently coupled to a substrate to form a glass phosphor color wheel. | 2016-05-19 |
20160139402 | Shuttered Waveguide Light Field Display - A light field display device comprising at least one multiplexed light field display module, the multiplexed light field display module comprising a view image generator, a waveguide, and a set of shutters spatially distributed along the waveguide, the view image generator optically coupled to the waveguide, the waveguide optically coupled to each shutter, the view image generator operable to generate a set of beams of light from one of a set of view images, the waveguide configured to transmit the set of beams along its length via internal reflection, each shutter operable to be switched between a closed state and an open state, the closed state of the shutter configured to prevent the beams from escaping the waveguide, the open state of the shutter configured to allow the beams to escape the waveguide, the module operable to generate, over time, the set of beams from a different one of the set of view images, and to open, over time, a different subset of the set of shutters, thereby to allow the set of beams escaping from the subset to correspond to a different one of the set of view images. | 2016-05-19 |
20160139403 | OPTICAL APPARATUS, PROCESSING APPARATUS, AND ARTICLE MANUFACTURING METHOD - An optical apparatus is provided. The apparatus comprises a rotatable reflecting member including a first reflecting surface and a second reflecting surface, an optical system configured to sequentially reflect, by a plurality of reflecting surfaces included therein, light reflected by the first reflecting surface and cause the light to be incident on the second reflecting surface, and an adjusting device configured to change a rotation angle of the reflecting member to adjust an optical path of light that is reflected by the second reflecting surface and exits the second reflecting surface. | 2016-05-19 |
20160139404 | LIGHT DEFLECTOR, AND DEVICES INCORPORATING THE SAME - A light deflector includes a mirror unit having a light reflection plane, a base, a pair of elastic supporting members each having one end attached to the mirror unit and the other end attached to the base and configured to support the mirror unit in a rotatable and oscillatable manner, and a pair of drive bars each having one end attached to another end of a corresponding one of the elastic supporting members and the other end attached to the base in a cantilevered state. The mirror unit rotates and oscillates about a center of rotation as deformation of the drive bars is transmitted to the mirror unit through the elastic supporting members. The center of rotation of the mirror unit is within a range of −0.05×D to −0.01×D, where D denotes a diameter of the mirror unit. | 2016-05-19 |
20160139405 | OSCILLATION DEVICE, SCANNING-TYPE SCANNER DEVICE, INFORMATION TERMINAL, PHASE-SHIFT AMOUNT ADJUSTMENT DEVICE, AND PHASE-SHIFT AMOUNT ADJUSTMENT METHOD - An oscillation device includes an oscillator, an oscillation detection unit that detects oscillation of the oscillator and outputs an oscillation detection signal, and a drive unit that generates a drive signal in keeping with the oscillation detection signal and outputs the drive signal to the oscillator. The drive unit includes a phase shift unit that shifts the phase to provide the drive signal as positive feedback to the oscillator. The phase shift unit includes a disturbance generating unit that outputs the periodic signal, a fluctuation unit that causes the amount of phase shift to fluctuate based on the periodic signal, a drive amplitude detection unit that detects the amplitude of the drive signal and outputs a drive amplitude signal, a product detection unit that outputs a detection signal after performing product detection on the drive amplitude signal based on the periodic signal, and an adjustment unit that adjusts the phase-shift amount based on the detection signal. | 2016-05-19 |
20160139406 | SYSTEM, DEVICE AND METHOD EMPLOYING MACHINE-READABLE SYMBOL READER AND SHIELD - Machine-readable symbol reader systems including one or more shields are provided. One example machine-readable symbol reader system includes a conveyor system to convey objects bearing one or more machine-readable symbols past a first region that is transmissive to light. The system includes a machine-readable symbol reader having a housing, a window formed in the housing, and at least one optical sensor received in the housing and having a field of view that extends outward of the window, at least the window of the machine-readable symbol reader positioned relatively below the conveyor system with the field of view aligned with the first region of the conveyor system. The system can further include a shield having a frame with a plurality of apertures that are transmissive to light, the shield positioned relatively below the first region and positioned relatively above the window of the machine-readable symbol reader. | 2016-05-19 |
20160139407 | LIGHT FLUX DIAMETER-EXPANDING ELEMENT AND DISPLAY APPARATUS - A light flux diameter-expanding element (pupil expanding element) which is used in a retina scanning type display apparatus includes a first diffraction grating having a grating pattern extending in a first direction X, a second diffraction grating, a third diffraction grating, and a fourth diffraction grating, and expands a diameter of the incident light flux in a second direction Y so as to emit the light. In addition, the light flux diameter-expanding element includes a fifth diffraction grating having a grating pattern extending in the second direction Y, a sixth diffraction grating, a seventh diffraction grating, and an eighth diffraction grating, and expands a diameter of the incident light flux in the first direction X so as to emit the light. | 2016-05-19 |
20160139408 | HEAD-UP DISPLAY DEVICE AND BACKLIGHT DEVICE - A head-up display device includes: a light source that emits light; a condenser that condenses the light emitted from the light source in a first direction; an adjuster that adjusts the light emitted from the condenser; a first reflector that reflects the light emitted from the adjuster in a second direction different from the first direction; a display that includes an image display surface forming a display image and emits a display light representing the display image with the image display surface transmitting the light reflected by the first reflector; a second reflector that reflects the display light being emitted from the display and being incident from above; and a third reflector that reflects the display light incident from the second reflector to the projection member. The adjuster adjusts the light emitted from the condenser according to a size of the image display surface. | 2016-05-19 |
20160139409 | HEAD-UP DISPLAY AND VEHICLE USING THE SAME - A head-up display (HUD) comprises a detection unit, a picture generating unit and a control unit. The detection unit detects a position of an object and generates a detection signal indicated the position of the object. The picture generating unit comprises a screen and an optical unit. The screen displays a visual image. The optical unit projects the visual image onto the screen. The control unit is coupled to the detection unit and the picture generating unit, controlling the screen to facing toward the object in response to the detection signal. | 2016-05-19 |
20160139410 | POSITIONING MODULE FOR HEAD-UP DISPLAY DEVICE - The present invention provides a positioning module for a head-up display device, including: a positioning motor which is operated by an operating signal from a control unit; a lead screw which is connected with the positioning motor and rotated by an operation of the positioning motor; a movable link which is in threaded engagement with the lead screw and moved in an axial direction of the lead screw by the rotation of the lead screw; and a connecting member which connects a mirror unit, which is provided to be rotatable about a rotating shaft, with the movable link, and rotates the mirror unit according to the movement of the movable link, in which connection portions between the connecting member and the movable link are in surface contact with each other, thereby improving durability and positioning performance. | 2016-05-19 |
20160139411 | WEARABLE DEVICE AND METHOD FOR OUTPUTTING VIRTUAL IMAGE - A wearable device and a method of outputting a virtual image by the wearable device area provided. The wearable device includes a projection type display unit that includes a variable lens and configured to project a light forming an image, a first sensor configured to detect a light reflected from an eye of a user, and a processor configured to control to display the virtual image on the projection type display unit by controlling one of a location of the variable lens and refractive power of the variable lens based on retina image information corresponding to the detected light. | 2016-05-19 |
20160139412 | DISPLAY DEVICE - According to one embodiment, a display device includes a display, an optical unit, and a reflector. The display includes a first display region emitting a first bundle of rays and a second display region emitting a second bundle of rays. The optical unit includes first and second emission regions transmitting the first and the second bundle of rays. The reflector includes a first reflection region reflecting the first bundle of rays, and a second reflection region reflecting the second bundle of rays. The optical unit forms a first focal point of the first bundle of rays between the optical unit and the reflector, and forms a second focal point of the second bundle of rays between the optical unit and the reflector. A distance between the first emission region and the first reflection region is shorter than a distance between the second emission region and the second reflection region. | 2016-05-19 |
20160139413 | WIDE FIELD OF VIEW HEAD MOUNTED DISPLAY APPARATUSES, METHODS AND SYSTEMS - In one general aspect, an optical system for a head mounted display system is provided. The optical system includes an image source and an optical component. The optical component includes a reflective surface configured to receive an image from the image source, the optical component having a specified curvature that reflects and presents the image to a user of the head mounted display. | 2016-05-19 |
20160139414 | INFORMATION PROCESSING METHOD AND WEARABLE DEVICE - The present disclosure discloses an information processing method and wearable device. The method comprises: acquiring first action data of a first part of a user, by using a first wearable device worn on the first part of a user; and transmitting the first action data to a second wearable device worn on a second part of the user, wherein the second wearable device is capable of modifying information that is presented to the user in accordance with the first action data acquired by the first wearable device. | 2016-05-19 |
20160139415 | METHOD AND DEVICE FOR DETECTING THE POSITION OF THE FACE OF A PERSON, IN PARTICULAR OF A MOTOR VEHICLE DRIVER, AND DISPLAY INCLUDING SUCH A DEVICE - The invention relates to a device ( | 2016-05-19 |
20160139416 | COLOR MIXING DEVICE AND DISPLAY DEVICE - A color mixing device and a display device are configured to represent the color white in a consistent fashion, even in low-luminance areas. These devices are provided with: a red light source for outputting red light at optical intensity in response to a first current presented thereto; a green light source for outputting green light at optical intensity in response to a second current presented thereto; a blue light source for outputting blue light at optical intensity in response to a third current presented thereto; and a color mixing means for color mixing of the red light, the green light, and the blue light together. A light attenuating part transmits or reflects the blue light, bringing about attenuation and advance thereof in the output direction. The blue light output by the blue light source is attenuated to a greater extent than the light of the other colors during output. | 2016-05-19 |
20160139417 | MULTIPLE BEAM COMBINER FOR LASER PROCESSING APPARATUS - Apparatus and methods for combining beams of amplified radiation are disclosed. A beam combiner has a collimating optic positioned to receive a plurality of coherent radiation beams at a constant angle of incidence with respect to an optical axis of the collimating optic. The respective angles of incidence may also be different in some embodiments. The collimating optic has an optical property that collimates the beams. The optical property may be refractive or reflective, or a combination thereof. A collecting optic may also be provided to direct the plurality of beams to the collimating optic. The beam combiner may be used in a thermal processing apparatus to combine more than two beams of coherent amplified radiation, such as lasers, into a single beam. | 2016-05-19 |
20160139418 | LIQUID CRYSTAL GRATING AND DISPLAY DEVICE - The liquid crystal grating includes a first substrate and a second substrate arranged opposite to each other, and a liquid crystal layer arranged therebetween. The liquid crystal grating further includes: a plurality of first electrodes having a first extension direction and arranged parallel to each other and on the first substrate; and a plurality of second electrodes having a second extension direction and arranged parallel to each other and on the second substrate. The first electrodes and the second electrodes cross each other and are configured to enable, under control of a first driving signal, the liquid crystal layer to form a first grating for the 3D display together with the display panel in a first direction, and to enable, under control of a second driving signal, the liquid crystal layer to form a second grating for the 3D display together with the display panel in a second direction. | 2016-05-19 |
20160139419 | SIX-PRIMARY SOLID STATE ILLUMINATOR - A six-primary solid state illuminator is provided, including a blue light output unit. The blue light output unit continuously outputs a first blue light and a second blue light simultaneously. The wavelength of the first blue light differs from the wavelength of the second blue light. In a first mode, the first blue light and the second blue light are modulated into S-polarized and are output as a first combined light. In a second mode, the first blue light and the second blue light are modulated into P-polarized and are output as a second combined light. | 2016-05-19 |
20160139420 | DISPLAY APPARATUS - The present disclosure provides a display apparatus. The display apparatus includes a 2D display panel, and a grating arranged above a light-exiting surface of the 2D display panel. A first supporting layer is further arranged between the 2D display panel and the grating, and it includes a plurality of first support members with an identical height. The first support member partially covers a black matrix fringe in the 2D display panel in a direction of the black matrix fringe. | 2016-05-19 |
20160139421 | PARALLAX BARRIER AND FABRICATING METHOD THEREOF, DISPLAY PANEL AND DISPLAY DEVICE - The embodiments of the present invention disclose a parallax bather and a fabricating method thereof. The parallax barrier comprises a first transparent conducting layer ( | 2016-05-19 |
20160139422 | THREE-DIMENSIONAL IMAGE DISPLAY APPARATUS - A three-dimensional (3D) image display apparatus comprises a tracking module, a backlight module, a first optical structure, a display panel and a second optical structure. The tracking module outputs a coordinate information of a target. The backlight module outputs a light. The first optical structure is disposed on the backlight module and splits the light into at least two light beams. The display panel is disposed on the first optical structure and converts the light beams into a plurality of images according to the coordinate information. The second optical structure is disposed on the display panel and changes the emission angles of the images of the display panel to achieve the multi-view effect. | 2016-05-19 |
20160139423 | LIQUID CRYSTAL DISPLAY SYSTEM AND POLARIZED GLASSES - A liquid crystal display system is provided. The liquid crystal display system includes a backlight module, an LCD panel, and polarized glasses. The LCD panel includes a first polarizer, a liquid crystal layer, an array substrate, and a color film substrate. The polarized glasses include a second polarizer. The direction of the polarized light axis of the second polarizer is perpendicular to the direction of the polarized light axis of the first polarizer when the polarized glasses are used for displaying the display picture of the LCD panel. A private display can be performed for specific users by the present invention. | 2016-05-19 |
20160139424 | IMAGING METHOD AND SYSTEM WITH OPTIMIZED EXTENDED DEPTH OF FOCUS - An optical processor is presented for applying optical processing to a light field passing through a predetermined imaging lens unit. The optical processor comprises a pattern in the form of spaced apart regions of different optical properties. The pattern is configured to define a phase coder, and a dispersion profile coder. The phase coder affects profiles of Through Focus Modulation Transfer Function (TFMTF) for different wavelength components of the light field in accordance with a predetermined profile of an extended depth of focusing to be obtained by the imaging lens unit. The dispersion profile coder is configured in accordance with the imaging lens unit and the predetermined profile of the extended depth of focusing to provide a predetermined overlapping between said TFMTF profiles within said predetermined profile of the extended depth of focusing. | 2016-05-19 |
20160139425 | Lens Moving Apparatus - A lens moving apparatus includes a bobbin including a first coil disposed therearound, a first magnet disposed to face the first coil, a housing for supporting the first magnet, upper and lower elastic members each coupled to both the bobbin and the housing, a base disposed to be spaced apart from the housing by a predetermined distance, a second coil disposed to face the first magnet, a printed circuit board on which the second coil is mounted, a plurality of support members, which support the housing such that the housing is movable in second and/or third directions and which connect at least one of the upper and lower elastic members to the printed circuit board, and a conductive member for conductively connecting the upper and lower elastic members. | 2016-05-19 |
20160139426 | Lens Moving Apparatus - A lens moving apparatus includes a bobbin of which a first coil is provided, a first magnet disposed to face the first coil, a housing for supporting the first magnet, a second coil disposed under the housing so as to face the first magnet, a printed circuit board on which the second coil is mounted, a base on which the printed circuit board is mounted, and a yoke disposed between the printed circuit board and the base. | 2016-05-19 |
20160139427 | Method For Optimizing An Optical Surface - Method for optimizing an optical surface comprising: an initial optical surface providing step, a working optical surface defining step, during which a working optical surface is defined to be equal to the initial optical surface, a first surface cost function providing step, during which a first surface cost function of the nth derivative of the surface is provided, a set of surface cost functions providing step, during which a set of surface cost functions function of at least one criterion over evaluation zones is provided, a global surface cost function evaluation step during which a global surface cost function equal to a weighted sum of the previous cost functions is evaluated, a modifying step, during which the working surface is modified, wherein the evaluation and modifying steps are repeated so as to minimize the global surface cost function. | 2016-05-19 |
20160139428 | Method For Optimizing A Measured Contour Of A Spectacle Frame - Method implemented by computer means for optimizing a measured contour of an opening of a spectacle frame, the method comprising: a contour data providing step, a working contour defining step, during which a working contour of the spectacle frame is defined, a first contour cost function providing step, during which a first contour cost function function of the mth derivative of the curve of the contour is provided, a set of contour cost functions providing step, during which a set of contour cost functions is provided, a global contour cost function evaluation step during which a global contour cost function is evaluated, a contour modifying step, during which the working contour is modified, wherein the global contour cost function evaluation and contour modifying steps are repeated so as to minimize the global contour cost function. | 2016-05-19 |
20160139429 | Wearable Apparatus, Detection System and Detection Method - Embodiments of the present invention provide a wearable apparatus, a detection system and a detection method. The wearable apparatus includes a frame, a controller and LCD lenses. The controller and the LCD lenses are provided on the frame. The frame is used for fixing the LCD lenses in front of human eyes, the controller is used for applying a predetermined voltage to the LCD lenses, and the LCD lenses are used for displaying a color corresponding to the predetermined voltage according to the applied predetermined voltage, so that the detection system, in which the wearable apparatus is applied, can detect qualified rate of the display panel under light with any colors by equipping with a white light source only, thereby reducing the apparatus cost. In addition, it is possible to switch over among different display colors conveniently and efficiently for the wearable apparatus, thereby improving the efficiency of detection. | 2016-05-19 |
20160139430 | Eyeblack Glass Frames - A sun glare reducer provides a right templar portion and a left templar portion. Each of the right templar portion and the left templar portion includes an elongate member having a first free end and a second connected end that connects the elongate member to the facial portion. A facial portion extends between the right templar portion and the left templar portion. The facial portion includes a right under-portion that extends inwardly toward a center of the facial portion from the right vertical portion and a left under-portion that extends inwardly toward a center of the facial portion the left vertical portion. A light absorbing surface extends outwardly away from each of the right under-portion and the left under-portion. | 2016-05-19 |
20160139431 | COMINATION JEWELRY PIECE WITH CAMOUFLAGED EYEGLASS MOUNT - A U-shaped resilient jewelry band configured with a pair of legs to be retained around a wearer's neck, wrist or the like and including a pair of lenses in the closed extremity of the band, the band further being constructed so the legs will act as temples to retain the band on the wearer's head with the lenses in confronting relationship with the wearer's eyes. A pair visors carried from the respective legs to be selectively shifted between covering relationship over the lenses and retracted uncovering relationship to the wearer can view through the lenses. | 2016-05-19 |
20160139432 | USING GOOGLE GLASS TO PROJECT A RED OVERLAY THAT ENHANCES NIGHT VISION - There is provided an apparatus, a method and computer program product for improving a night vision. A pair of eyeglasses comprises: a sensor that detects an intensity of a light near a user; a comparator device that compares the detected light intensity near the user against a dimness threshold; and an onboard projector in the pair of eyeglasses projecting a red light simultaneously into each eye of the user if the detected light intensity near the user becomes lower than the threshold. | 2016-05-19 |
20160139433 | IMAGING APPARATUS AND IMAGING METHOD - An imaging apparatus includes: an imaging lens module, having an adjustable imaging parameter, and used to image an observed object of an imaging receiver; an information processing module, used to detect a focus position of the imaging receiver, and determine the imaging parameter of the imaging lens module according to the focus position; and a lens adjustment module, used to adjust the imaging lens module according to the determined imaging parameter. Through the apparatus and method of the embodiments of the present invention, a focus position of an imaging receiver is automatically detected and an imaging parameter of an imaging lens module located between the imaging receiver and an object is automatically adjusted according to the focus position, thereby enabling an imaging receiver (for example, a user's eyes) to conveniently obtain clear imaging of objects at different distances. | 2016-05-19 |
20160139434 | USING GOOGLE GLASS TO PROJECT A RED OVERLAY THAT ENHANCES NIGHT VISION - There is provided a method for improving a night vision by operating a pair of eyeglasses comprising: a sensor that detects an intensity of a light near a user; a comparator device that compares the detected light intensity near the user against a dimness threshold; and an onboard projector in the pair of eyeglasses projecting a red light simultaneously into each eye of the user if the detected light intensity near the user becomes lower than the threshold. | 2016-05-19 |
20160139435 | DIGITAL EYEWEAR - Improved eyewear is disclosed. The eyewear comprises a frame member and a lens. The eyewear also includes circuitry within the frame member for enhancing the use of the eyewear. A system and method in accordance with the present invention is directed to a variety of ways to enhance the use of eyeglasses. They are: (1) media focals, that is, utilizing the eyewear for its intended purpose and enhancing that use by using imaging techniques to improve the vision of the user; (2) telecommunications enhancements that allow the eyeglasses to be integrated with telecommunication devices such as cell phones or the like; and (3) entertainment enhancements that allow the eyewear to be integrated with devices such as MP3 players, radios, or the like. | 2016-05-19 |
20160139436 | ELECTRO-OPTICAL SINGLE CRYSTAL ELEMENT, METHOD FOR THE PREPARATION THEREOF, AND SYSTEMS EMPLOYING THE SAME - The present invention relates to an Electro-Optical (E-O) crystal elements, their applications and the processes for the preparation thereof. More specifically, the present invention relates to the E-O crystal elements (which can be made from doped or un-doped PMN-PT, PIN-PMN-PT or PZN-PT ferroelectric crystals) showing super-high linear E-O coefficient γ | 2016-05-19 |
20160139437 | Nonreciprocal Three-Way Divider Based on a Magneto-Optical Resonator - The present invention is based on a two-dimensional photonic crystal in which defects are inserted in a controlled manner, has the main function of division of the power of an input signal, excited in one of its six waveguides, among other three waveguides (output ones), while keeping isolation of the input port by means of two other waveguides. The operating principle of the device is based on the alignment of a dipole mode excited in the resonant cavity, in such a way that the nodes of this mode are oriented in the direction of two waveguides, so that these waveguides are not excited. Due to this alignment, each of the three output waveguides receive about one third of the power of input signal. The orientation of dipole mode is controlled by the applied DC magnetic field and the physical and geometrical parameters of the resonator. | 2016-05-19 |
20160139438 | TURNOVER DEVICE, SUBSTRATE CELL-ASSEMBLING APPARATUS AND SUBSTRATE CELL-ASSEMBLING METHOD - A turnover device, a substrate cell-assembling apparatus and a substrate cell-assembling method are provided. The turnover device comprises: a fixed support and a turnover platform connected with the fixed support by a first rotary shaft, the turnover platform having a first suction surface and a second suction surface which are oppositely arranged and are configured to suction a substrate; a second rotary shaft and a third rotary shaft, configured to respectively drive the first suction surface and the second suction surface to rotate in an in-plane direction, axial directions of the second rotary shaft and the third rotary shaft being basically perpendicular to that of the first rotary shaft. The turnover platform is configured to turn over the first suction surface and the second suction surface by the first rotary shaft. | 2016-05-19 |
20160139439 | LIGHTING-ON APPARATUS - A lighting-on apparatus comprises at least one gate line pin and further comprises a gate line pin moving unit. The at least one gate line pin is moved by the gate line pin moving unit so that the at least one gate line pin corresponds with a gate line interface of a liquid crystal display panel under test. The lighting-on apparatus according to the embodiments of the present disclosure is configured to perform a test on the liquid crystal display panel, and is capable of simplifying test work of liquid crystal display panels, saving test time and cost, and improving work efficiency. | 2016-05-19 |
20160139440 | DISPLAY APPARATUS AND METHOD OF MANUFACTURING THE SAME - A display apparatus in which a photocatalyst thin film is formed is provided. The display apparatus includes a housing forming an exterior of the display apparatus, a display panel coupled to the housing, and a photocatalyst thin film which is formed on a surface of one of the housing and the display panel. | 2016-05-19 |
20160139441 | LIQUID CRYSTAL DISPLAY DEVICE - Provided is a liquid crystal display device which sufficiently prevents a spacer from coming in contact with pixel portions of opposed substrates, and fully inhibits a light leakage from occurring. A liquid crystal display device of the present invention includes a first substrate, a second substrate, a liquid crystal layer interposed between both of the substrates, and a spacer holding a gap between the first substrate and the second substrate, the spacer being configured by laminating a first spacer and a second spacer, the first substrate including the first spacer, the second substrate including the second spacer, each of the first spacer and the second spacer being slender in a plan view of a main surface of each of the substrates, the liquid crystal display device being configured by bonding the first substrate and the second substrate, the first spacer and the second spacer intersecting with each other. | 2016-05-19 |
20160139442 | TOUCH LIQUID CRYSTAL DISPLAY DEVICE - A touch liquid crystal display device includes: a backplate; a mold frame installed on the backplate; a liquid crystal panel installed on the mold frame; a bezel covering an edge of the liquid crystal panel, wherein the bezel is connected with the backplate; an optical film and a light source fixed between the backplate and the mold frame; and an electromagnetic screen disposed on the backplate. | 2016-05-19 |
20160139443 | ARRAY SUBSTRATE, FABRICATION METHOD THEREOF, AND DISPLAY DEVICE - Embodiments of the disclosure provide an array substrate and a fabrication method thereof, and a display device. The array substrate includes: a base substrate and a switch unit disposed on the base substrate. The array substrate further includes: a passivation layer disposed on the base substrate and a spacer disposed on the passivation layer; and the spacer corresponds to the switch unit. | 2016-05-19 |
20160139444 | DISPLAY PANEL, MANUFACTURING METHOD THEREOF AND DISPLAY DEVICE - A display panel includes: an array substrate, which includes a gate line and a data line crossing to each other, a thin film transistor disposed in a crossing region of the gate line and the data line; a color filter substrate, cell-assembled with the array substrate; and a spacer, located between the array substrate and the color filter substrate, wherein a contact face between the spacer and the array substrate is positioned in a region of the gate line and/or a region of the data line except a region where the thin film transistor is located. A manufacturing method of a display panel and a display device also are provided. | 2016-05-19 |
20160139445 | LIQUID CRYSTAL CELL AND METHOD FOR FABRICATING THE SAME, LIQUID CRYSTAL DISPLAY PANEL, AND DISPLAY DEVICE - A liquid crystal cell and method for fabricating the same, a liquid crystal display panel, and a display device are disclosed. The liquid crystal cell comprises an active area and a dummy area, and comprises a first and second substrate which are arranged oppositely and separated by spacers, and liquid crystal arranged between the first and second substrate. The liquid crystal cell further comprises a volume variation compensating component which is arranged in the active area, and the volume variation compensating component comprises a material with a thermal expansion coefficient opposite to that of the liquid crystal, so as to compensate variation in the volume of liquid crystal when temperature varies. Not only defects of gravity mura at high temperature and bubbles at low temperature are eliminated to spread LC Margin, but also the scope of application environment for the liquid crystal display panel is expanded. | 2016-05-19 |
20160139446 | Panel Carrier For A Liquid Crystal On Silicon Panel And Method For Electrically Interconnecting Same - A liquid-crystal-on-silicon (LCOS) panel includes a wafer having bond pads thereon, a liquid crystal layer, and a conductive layer. The panel carrier for the LCOS panel includes a conductive-layer electrode for electrically connecting the conductive layer to a printed circuit assembly (PCA), address electrodes for electrically connecting the bond pads to the PCA, and a cavity for holding the LCOS panel. The cavity includes a conductive pad for electrically connecting the conductive layer to the conductive-layer electrode, and bond-pad electrodes for electrically connecting each bond pad to a respective address electrode. A method for electrically connecting an LCOS panel to a panel carrier includes a step of electrically connecting each bond pad to a respective address electrode, and a step of electrically connecting the conductive layer to the conductive pad. | 2016-05-19 |
20160139447 | TRANSPARENT LIQUID CRYSTAL DISPLAY DEVICE - A transparent liquid crystal display device is provided including a transparent liquid crystal cell disposed on a transparent luminous plate. The transparent luminous plate includes a first transparent electrode plate, phosphor layer, and an electron-generating plate, which are sequentially disposed on a second transparent electrode plate. Since the liquid crystal cell and the luminous plate are transparent, a viewer can not only see an image to be displayed by a screen of the display panel, but can also see an object or a scene behind the display panel through the screen. | 2016-05-19 |
20160139448 | SPLICING BACKPLANE FOR BACKLIGHT MODULE AND BACKLIGHT MODULE EMPLOYING SAME - The invention provides a splicing backplane for a backlight module, which is arranged on the backside of the backlight module. The splicing backplane comprises a mounting portion and a supporting portion, wherein the horizontal height of the mounting portion is level with or lower than that of the supporting portion; and a plurality of the splicing backplanes are assembled together by the mutual superposition of various mounting portions. A plurality of the splicing backplanes are superposed with each other and combined into one, and the height differences between the mounting portions and the supporting portions of two adjacent backplanes are unequal, so that one backplane can be accommodated into the other backplane. In addition, after the superposition, the overall thickness of the backplanes is invariable. | 2016-05-19 |
20160139449 | GLUE FRAME AND DISPLAY DEVICE - A glue frame includes a first frame structure enclosed by a plurality of side walls, the first frame structure is injection molded integrally by the plastic cement and the metal sheet component. By applying the glue frame to a display device, the iron frame can be removed, thus saving the manufacturing costs, and improving the connection performance and the reliability. | 2016-05-19 |
20160139450 | CURVED SURFACE DISPLAY DEVICE - The embodiment of the invention relates to the field of display technology, and provides a curved surface display device whose curvature can be adjusted flexibly after assembly. The curved surface display device may comprise a liquid crystal display module, and may also comprise at least one adjustment frame, each adjustment frame comprises a first portion and a second portion, both of the first portion and the second portion comprise a fixed end and a movable end, the fixed end of the first portion and the fixed end of the second portion are respectively attached to the two edges of the liquid crystal display module that are perpendicular to the horizontal direction in case of being viewed normally; an adjustment distance is present between the movable end of the first portion and the movable end of the second portion, the adjustment frame is provided with an adjustment screw which movably connects the movable end of the first portion and the movable end of the second portion; the adjustment frame is used for changing the size of the adjustment distance by regulating the adjustment screw, so as to vary the curvature of the liquid crystal display module. Embodiments of the invention may be used for manufacturing the curved surface display device. | 2016-05-19 |
20160139451 | ELECTRONIC DEVICE AND MANUFACTURING METHOD THEREOF - An electronic device is provided. The electronic device includes a liquid-crystal display module, a diffuser, a prism sheet, a light guide, a back panel and an outer frame. The diffuser, the prism sheet and the light guide are sandwiched between the liquid-crystal display module and the back panel. The outer frame covers the liquid-crystal display module, wherein the outer frame includes a first frame member and a second frame member, a welded portion is formed between the first frame member and the second frame member, the outer frame includes an outer surface, and the outer surface includes a planar area at the welded portion. | 2016-05-19 |
20160139452 | LIQUID-CRYSTAL DISPLAY AND ELEMENT SUBSTRATE THEREOF - An element substrate is provided, including a substrate, a metal layer and a planarization layer. The metal layer is located on the substrate. The metal layer has a first edge in a first direction. The planarization layer is located on the metal layer. The planarization layer includes a contact hole. The contact hole has a contiguous wall and a bottom side. The metal layer is exposed in the bottom side. A contour line of the contiguous wall on a vertical plane is a curved line. The first edge corresponds vertically with a critical point on the contour line. The slope of a tangent line on the critical point of the contour line is between 0.087 to 0.364. | 2016-05-19 |
20160139453 | DISPLAY APPARATUS - A light diffusing member includes a base having light transmissivity, a light diffuser formed with a predetermined height on a surface of the base facing a display body, and a light blocking layer formed in a region other than the light diffuser on the surface of the base facing the display body. The light blocking layer has a thickness smaller than the height of the light diffuser. The light diffuser has a light exit end surface that is in contact with the base, and a light entrance end surface that is opposite the light exit end surface and that has an area larger than the area of the light exit end surface. The light entrance end surface is adhered to the adhesive layer, and the thickness of the adhesive layer is smaller than the height of a space formed between the light diffuser and the light blocking layer, the height extending from the light blocking layer to the light entrance end surface. | 2016-05-19 |
20160139454 | LIGHT DIFFUSION MEMBER, METHOD FOR MANUFACTURING SAME, AND DISPLAY DEVICE - A light diffusion member includes a substrate that has optical transparency, a light diffusion portion that is formed with a prescribed height on one surface of the substrate, a light shielding layer that is formed with a thickness less than the height of the light diffusion portion in another region of the one surface of the substrate than the light diffusion portion, and an antiglare layer that is formed on the other surface of the substrate. The light diffusion portion includes a light emission end surface that contacts with the substrate, a light incident end surface that faces the light emission end surface and has a larger area than an area of the light emission end surface, and a side surface that is formed between the light emission end surface and the light incident end surface, and the antiglare layer includes a binder layer and plural light diffusion particles that are dispersedly arranged in the binder layer. | 2016-05-19 |
20160139455 | Liquid Crystal Display - A liquid crystal display (LCD) includes a thin film transistor positioned on a lower substrate; a plurality of color filters positioned on the thin film transistor and aligned to be spaced apart from each other; an insulation layer positioned on the plurality of color filters; a light-blocking layer positioned on the insulation layer; a transparent layer positioned on the light-blocking layer and having a convex shape; an upper substrate facing the lower substrate; and a liquid crystal layer interposed between the lower substrate and the upper substrate, wherein the light-blocking layer includes an organic black pigment, and the transparent layer having the convex shape has a different shape from the light-blocking layer. | 2016-05-19 |
20160139456 | TRANSPARENT DISPLAY PANEL AND COLOR FILTER SUBSTRATE THEREOF - A transparent display panel and a color filter substrate are proposed. The color filter substrate includes a substrate, a color resistant layer disposed on a color resistant section of the substrate, a transparent material layer disposed on a transparent section of the substrate and comprising transparent units, a protective layer disposed on both of the color resistant layer and the transparent material layer, and an electrode layer disposed on the protective layer. Users can see components behind the transparent display panel easily and clearly. | 2016-05-19 |
20160139457 | CURVED LIQUID CRYSTAL DISPLAY PANEL AND CURVED LIQUID CRYSTAL DISPLAY APPARATUS - A curved LCD panel is provided. The curved LCD panel comprises a curved color filter substrate and a cured array substrate. A plurality of regions are formed along a longitudinal direction of the color filter substrate. In each of the regions of the color filter substrate, according to a greatest shifted distance between the color filter and the array substrate, a width of the black matrix within the region is predetermined. The black matrix can have different widths in the different regions to prevent the color shifting phenomenon. | 2016-05-19 |
20160139458 | CURVED LIQUID CRYSTAL DISPLAY PANEL AND CURVED LIQUID CRYSTAL DISPLAY DEVICE - A curved liquid crystal display panel is disclosed. The curved liquid crystal display panel includes a color filter substrate and an array substrate disposed corresponding to the color filter substrate. The array substrate has pixel electrodes disposed thereon. Each of the pixel electrodes has a first side and a second side. A length of the first side is greater than a length of the second side, and a curved direction of the curved liquid crystal display panel is the same as an extending direction of the first side. In the present invention, the curved direction of the curved liquid crystal display panel is arranged to be the same as a long side of each of the pixel electrodes. | 2016-05-19 |
20160139459 | DISPLAY DEVICE, COLOR FILTER AND MANUFACTURING METHOD THEREOF - A method of manufacturing a color filter is provided. The method includes: forming at least black matrix electrodes, first electrodes, second electrodes and third electrodes insulated from each other on a base substrate; and depositing at least a black matrix layer, a first color filter pattern, a second color filter pattern and a third color filter pattern on the base substrate using an electrophoretic deposition process respectively by means of the black matrix electrodes, the first electrodes, the second electrodes and the third electrodes. A color filter and a display device are also provided. The described solution provides a process which is simple, convenient to operate, ease of control, and allows fast film formation. | 2016-05-19 |
20160139460 | DISPLAY DEVICE - The object is to provide a display device that makes a width of a casing look narrower than the actual width thereof or makes the width invisible by using a background image of an installation site and thereby produces a sense of unity with a background. The display device includes a display unit, the casing that is provided on a periphery of the display unit, and a lens that includes a front surface portion which is provided on at least a part of a front surface of the casing and sloped so as to protrude toward a front surface side with respect to a direction from inside to outside of the casing and a back surface portion which protrudes to the outside of the casing when viewed from a back surface side and emits the background image, behind the back surface portion, from the front surface portion. | 2016-05-19 |
20160139461 | DISPLAY APPARATUS - A display apparatus comprises a display panel and a reflection member. The display panel comprises an array of pixels, the array having a quadrangular shape. The reflection member is disposed in a position not to overlap at least a portion of the array when viewed in a normal direction substantially perpendicular to a major surface of the display panel, the reflection member being configured to reflect light that is emitted from the display panel in a direction slanted with respect to the normal direction. The combination of light emitted from the display panel in the normal direction and the reflected light is configured to form an image having a shape other than a quadrangular shape. | 2016-05-19 |
20160139462 | CURVED LIQUID CRYSTAL DISPLAY - A curved liquid crystal display (LCD) includes a curved liquid crystal panel assembly including a first insulation substrate and a second insulation substrate facing each other and a liquid crystal layer interposed therebetween, a first polarizer disposed on the first insulation substrate, and a second polarizer disposed on the second insulation substrate. The first polarizer is disposed inside the curved liquid crystal panel assembly. | 2016-05-19 |
20160139463 | BACKLIGHT UNIT AND DISPLAY DEVICE HAVING BACKLIGHT UNIT - A backlight unit is discussed, which includes a frame including a bottom and a sidewall extending from the bottom; at least one substrate located on the frame, and a plurality of light sources mounted on the at least one substrate; and a reflecting sheet located on the at least one substrate, wherein the reflecting sheet includes: a first sheet part located on the bottom, the first sheet part including a plurality of holes corresponding to the plurality of the light sources; a second sheet part extended from the first sheet part, the second sheet part including first areas and second areas; and a third sheet part extended from the second sheet part and located on the sidewall. | 2016-05-19 |
20160139464 | DISPLAY APPARATUS - Disclosed is a display apparatus including: a display panel; a light source unit; an optical sheet arranged between the display panel and the light source unit; and a housing configured to accommodate the display panel, the light source unit, and the optical sheet, wherein one side in a vertical direction and one side in a horizontal direction among four sides of the optical sheet are support sides held by inside walls of the housing, gaps are provided between the other sides and the inside walls of the housing, the optical sheet has a hole portion near the support sides, and the housing has a positioning portion that engages with the hole portion and restricts movement of the optical sheet in directions perpendicular to the inside walls while allowing deformation of the optical sheet in directions parallel to the support sides. | 2016-05-19 |
20160139465 | ALIGNMENT PLATE - Embodiments of the present invention provide an alignment plate, and relates to the field of display technique. The alignment plate comprises a substrate layer and a protection layer covering a surface of the substrate layer; the protection layer exposes the substrate layer in predefined regions; and the substrate layer is provided with grooves in the predefined regions, and the grooves form alignment marks of the alignment plate. The alignment plate can be used for fabricating a display device, and can prevent alignment marks on the alignment plate from distorting or falling off due to rubbing. | 2016-05-19 |
20160139466 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR MANUFACTURING SAME - A liquid crystal display device ( | 2016-05-19 |
20160139467 | LIQUID CRYSTAL DISPLAY - Provided is a liquid crystal display including: a first substrate; a first subpixel electrode which is positioned on the first substrate, to which a first voltage is configured to be applied, and which includes first and second subregions; a second subpixel electrode which is positioned on the first substrate, to which a second voltage is configured to be applied, and which includes a third, fourth, and fifth subregions; an insulating layer which is positioned on the first subregion and the third subregion and positioned below the second subregion and the fourth and fifth subregions; a second substrate facing the first substrate; a common electrode which is positioned on the second substrate and to which a common voltage is configured to be applied; and a liquid crystal layer positioned between the first substrate and the second substrate, in which the first subregion and the fourth subregion overlap with each other. | 2016-05-19 |
20160139468 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR FABRICATING THE SAME - A liquid crystal display device includes: a first substrate; a second substrate positioned parallel to the first substrate; a liquid crystal layer between the first substrate and the second substrate. A black matrix disposed on one of the first substrate and the second substrate and configured to define a pixel region. A lower pixel electrode on the first substrate corresponding to the pixel region. An upper insulating layer disposed on the lower pixel electrode and having at least one groove. An upper pixel electrode disposed on the upper insulating layer and receiving a data signal from a thin film transistor, the data signal applied from a data line. | 2016-05-19 |
20160139469 | DISPLAY DEVICE - A display device includes: first and second drain electrodes; an organic insulating film; an inorganic insulating film formed on the organic insulating film; and first and second pixel electrodes formed on the inorganic insulating film. The organic insulating film includes an organic insulating film opening spanning the first drain electrode and the second drain electrode. The inorganic insulating film covering the organic insulating film includes first and second inorganic insulating film openings. The first pixel electrode is connected to the first drain electrode via the first inorganic insulating film opening. The second pixel electrode is connected to the second drain electrode via the second inorganic insulating film opening. | 2016-05-19 |
20160139470 | LIQUID CRYSTAL DISPLAY APPARATUS - According to one embodiment, a liquid crystal display apparatus includes a first substrate, a second substrate and a liquid crystal layer. The first substrate includes a gate wiring, a source wiring, an insulating film, a shield electrode, a primary pixel electrode, a peripheral wiring and a peripheral connecting electrode. The shield electrode is opposite to at least a portion of the gate wiring and the source wiring. The peripheral connecting electrode electrically connects the shield electrode and the peripheral wiring. The second substrate includes a pair of primary common electrodes. | 2016-05-19 |
20160139471 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes a first substrate on which a thin film transistor is formed. The liquid crystal display device includes a first transistor which has a gate electrode thereof formed on a side more remote from the first substrate than a semiconductor layer and has a drain electrode thereof connected to the drain line, a second transistor which is connected to the first transistor in series, and has a source electrode thereof electrically connected to a pixel electrode, and a light blocking layer which is formed between the semiconductor layer and the first substrate and blocks a backlight incident from a first substrate side. The light blocking layer is formed in an overlapping manner on the first transistor, blocks a backlight incident on a first transistor side, and allows a backlight incident on a second transistor side to pass therethrough. | 2016-05-19 |