Patent application number | Description | Published |
20100230763 | ACTIVE DEVICE ARRAY SUBSTRATE AND METHOD FOR FABRICATING THE SAME - A method for fabricating an active device array substrate is provided. A first patterned semiconductor layer, a gate insulator, a first patterned conductive layer and a first dielectric layer is sequentially formed on a substrate. First contact holes exposing the first patterned semiconductor layer are formed in the first dielectric layer and the gate insulator. A second patterned conductive layer and a second patterned semiconductor layer disposed thereon are simultaneously formed on the first dielectric layer. The second conductive layer includes contact conductors and a bottom electrode. The second patterned semiconductor layer includes an active layer. A second dielectric layer having second contact holes is formed on the first dielectric layer, wherein a portion of the second contact holes exposes the active layer. A third patterned conductive layer electrically connected to the active layer through a portion of the second contact holes is formed on the second dielectric layer. | 09-16-2010 |
20100267177 | METHOD FOR FABRICATING ACTIVE DEVICE ARRAY SUBSTRATE - A method for fabricating an active device array substrate is provided. First, a substrate having a display area and a sensing area is provided. Then, a first patterned conductor layer is formed on the display area of the substrate. A gate insulator is formed on the substrate. A patterned semiconductor layer, a second patterned conductor layer and a patterned photosensitive dielectric layer are formed on the gate insulator, wherein the second patterned conductor layer includes a source electrode, a drain electrode and a lower electrode, the patterned photosensitive dielectric layer covering the second patterned conductor layer includes an interface protection layer disposed on the source electrode and the drain electrode and a photo-sensing layer disposed on the lower electrode. A passivation layer is then formed on the substrate. After that, a third patterned conductor layer including a pixel electrode and an upper electrode is formed on the passivation layer. | 10-21-2010 |
20120112214 | ACTIVE DEVICE ARRAY SUBSTRATE - An active device array substrate is provided. First, a substrate having a display area and a sensing area is provided. Then, a first patterned conductor layer is disposed on the display area of the substrate. A gate insulator is disposed on the substrate. A patterned semiconductor layer, a second patterned conductor layer and a patterned photosensitive dielectric layer are disposed on the gate insulator, wherein the second patterned conductor layer includes a source electrode, a drain electrode and a lower electrode, the patterned photosensitive dielectric layer covering the second patterned conductor layer includes an interface protection layer disposed on the source electrode and the drain electrode and a photo-sensing layer disposed on the lower electrode. A passivation layer is then disposed on the substrate. After that, a third patterned conductor layer including a pixel electrode and an upper electrode is disposed on the passivation layer. | 05-10-2012 |
20120115288 | METHOD FOR FABRICATING ACTIVE DEVICE ARRAY SUBSTRATE - A method for fabricating an active device array substrate is provided. A first patterned semiconductor layer, a gate insulator, a first patterned conductive layer and a first dielectric layer is sequentially formed on a substrate. First contact holes exposing the first patterned semiconductor layer are formed in the first dielectric layer and the gate insulator. A second patterned conductive layer and a second patterned semiconductor layer disposed thereon are simultaneously formed on the first dielectric layer. The second conductive layer includes contact conductors and a bottom electrode. The second patterned semiconductor layer includes an active layer. A second dielectric layer having second contact holes is formed on the first dielectric layer, wherein a portion of the second contact holes exposes the active layer. A third patterned conductive layer electrically connected to the active layer through a portion of the second contact holes is formed on the second dielectric layer. | 05-10-2012 |
Patent application number | Description | Published |
20110062810 | HIDING STRUCTURE FOR POSITIONING SIGNAL CONVERSION MECHANISM OF A TORQUE MOTOR - A hiding structure for positioning signal conversion mechanism of a torque motor, which includes a stator having a curvature center line, a rotor coaxially fitted with the stator, a positioning/detecting section disposed on the stator between the stator and the rotor for detecting movements of the motor and outputting corresponding analog signals and a signal conversion section for receiving the analog signals provided by the positioning/detecting section and converting the analog signals into digital signals and outputting the digital signals. The signal conversion section is fixed on an end face of one end of the stator in an insulated state. | 03-17-2011 |
20110101810 | SERIAL CONNECTION STRUCTURE OF DIRECT-DRIVE MOTOR - A serial connection structure of a direct-drive motor, including a central shaft, a housing, at least two rotors and stators of the same number as the rotors. The central shaft has a predetermined length. The housing has an internal space and is coaxially fitted around the central shaft. The rotors are received in the housing and coaxially rotatably fitted on the central shaft at predetermined intervals. The stators are received in the housing and coaxially fitted around the central shaft corresponding to the rotors respectively. The stators are spaced from the rotors by a predetermined distance. The serial connection structure is applicable to a generator or a wind power generator system without extra connecting with any transmission gear system. Therefore, the number of components is decreased, the maintenance cost is lowered and the service is simplified. | 05-05-2011 |
20110187356 | RESOLVER UNIT - A resolver unit including a first resolver and a second resolver. The first resolver includes a first rotor. A certain number of first rotor magnetic poles are annularly disposed on the first rotor at equal intervals. The second resolver includes a second rotor coaxial with the first rotor. A certain number of second rotor magnetic poles are annularly disposed on the second rotor at equal intervals. The number of the second rotor magnetic poles is different from the number of the first rotor magnetic poles. | 08-04-2011 |
20120229125 | IRON CORE MEMBER OF A RESOLVER - An iron core member of a resolver, which is a one-piece member integrally formed of iron powder. The iron core member includes an annular core section and multiple pole sections annularly arranged on outer circumference of the core section at equal intervals and projecting from the outer circumference of the core section. Each pole section has recessed sections. Enameled wires can be conveniently wound around the recessed sections to form coils located in the recessed sections. The pole section further has multiple projection posts. After the winding process is completed, the terminals of the enameled wires are hooked and located on the projection posts. In comparison with the conventional iron core member, the present iron core member has lower iron loss and the manufacturing process is simplified. | 09-13-2012 |
20120229242 | JACKET MEMBER - A jacket member for fitting on a pole of a resolver stator. Enameled wires can be wound around the jacket member to indirectly form coils on the pole of the resolver stator. The jacket member includes a hoop body for fitting on the pole of the resolver stator, whereby the enameled wires can be wound around the hoop body to form the coils. The jacket member further includes multiple projections disposed on the hoop body and projecting therefrom. After the enameled wires are wound around the hoop body, the terminals of the enameled wires can be hooked and located on the projections. | 09-13-2012 |
Patent application number | Description | Published |
20110227842 | TOUCH PANEL AND THE MANUFACTURING METHOD THEREOF - A touch panel structure and the manufacturing method thereof are disclosed, in which the manufacturing method includes the steps of: providing a bonding layer; and forming a conductive pattern layer on the bonding layer; wherein the conductive pattern layer is composed of at least one first and at least one second major conductors with an insulation layer interposed between the first and the second major conductors. Comparing with the prior art for manufacturing touch panels, the disclosure is advantageous in material cost, production cost, and production yield; moreover, the panel lamination process can be simplified and the touch panel structure can be joined to a planar or curvy panel and facilitate the design of a thinner product. | 09-22-2011 |
20140022468 | TOUCH PANEL - A touch panel having a transparent region and a peripheral region surrounding the transparent region is provided. The touch panel includes a transparent cover, a touch device, a light-shielding layer, a layer of conductive lines, and a touch chip. The transparent cover has a touch surface and a device mounting surface opposite thereto. The touch device is disposed on the device mounting surface and at least located at the transparent region. The light-shielding layer is disposed on the transparent cover and located inside the peripheral region. The layer of conductive lines is disposed on the device mounting surface, located inside the peripheral region, and electrically connected to the touch device. The touch chip is disposed on the layer of conductive lines through a chip-on-glass process. | 01-23-2014 |
20140022469 | TOUCH PANEL - A touch panel having a transparent region and a peripheral region surrounding the transparent region is provided. The touch panel includes a transparent cover, a touch device, a light-shielding layer, a layer of conductive lines, and a touch chip. The transparent cover has a touch surface and a device mounting surface opposite thereto. The touch device is disposed on the device mounting surface and at least located at the transparent region. The light-shielding layer is disposed on the transparent cover and located inside the peripheral region. The layer of conductive lines is disposed on the device mounting surface, located inside the peripheral region, and electrically connected to the touch device. The touch chip is disposed on the layer of conductive lines through a chip-on-glass process. | 01-23-2014 |
Patent application number | Description | Published |
20100258268 | TEMPERATURE ADJUSTABLE CUP HOLDER HAVING MEMORY CARD READABLE FUNCTION - A temperature adjustable cup holder having a memory card readable function includes a base and a cover mounted on the base. The base has a fan device received therein. A fin radiator is mounted on the fan device. A controlling chip is contactingly mounted on the fin radiator. The fan device electrically connected to the controlling chip. The cover has a cup seat disposed thereon. The cup seat contacted with the controlling chip. The cover has a connecting port and a switch disposed on a side thereof. A memory card reader is pivotally received in the base. The memory card reader has multiple sockets disposed thereon for connecting to different standards of memory cards. | 10-14-2010 |
20120103374 | WASHING DEVICE AND BRAKE MECHANISM THEREOF - A washing device and brake mechanism thereof includes a casing and a bucket received in the casing. The bucket has a plurality of through holes and orifices defined therein. A brake mechanism is connected with the casing and includes a base mounted on the casing. The base has a receiving space defined therein. A spindle is pivotally connected with the bucket for driving the bucket to rotate. A seat is received in the receiving space and two support portions oppositely formed thereon. A pedal is pivotally connected with the seat and located between the two support portions for driving the spindle to rotate. The pedal has a braking pad disposed thereon for selectively abutting against the spindle. When the braking pad is driven by the pedal, the spindle is abutted against by the braking pad and stops rotating. | 05-03-2012 |
20120133153 | PEDAL POWER GENERATING DEVICE - A pedal power generating device includes a base having two supporting arms upwardly extending therefrom. The base has a gearbox mounted thereon. A pedal assembly is mounted between the two supporting arms. The pedal assembly has a pedal, a supporter extending from the pedal, a connecting rod assembled with the supporter and connected to the gearbox, and a twist spring mounted between the pedal and the two supporting arms. A transmitting assembly is mounted in the gearbox. The transmitting assembly includes a driver, a first gear train engaged with the driver, a second gear train engaged with the first gear train, and a steering gear set simultaneously engaging with the first gear train and the second gear train. A generator is mounted adjacent to the gearbox, and the generator has a rotor engaged with the second gear train. | 05-31-2012 |
Patent application number | Description | Published |
20090005513 | Organic/inorganic hybrid material and method for manufacturing the same - The invention provides an organic/inorganic hybrid material and the method for manufacturing the same. A variety of functional monomers are co-polymerized to form a copolymer. The copolymer is subjected to sol-gel reactions with metal alkoxide oligomers to form an organic/inorganic hybrid material. The hybrid material has a high refractive index, a low moisture absorption, a high light transmission ratio, and a high glass transition point, such that the material can be applied in high light extraction efficient LED sealing materials, thin and light myopia/hypropia lens, portable projector lens, high brightness LCD prism films, solar cell refractive photoelectric conversion mirrors, and camera phone/digital camera lens. | 01-01-2009 |
20100164143 | NUCLEATING AGENT AND INJECTION MOLDING METHOD OF POLYETHYLENE TEREPHALATE - The invention relates to a nucleating agent for polyethylene terephthalate and injection molding method thereof. The nucleating agent comprises a SiO | 07-01-2010 |
20130208488 | ILLUMINATION DEVICE - An illumination device including a base, at least one LED light source and a first diffusing element is provided. The base has a supporting plane. The LED light source disposed on the supporting plane has a light emitting surface substantially parallel to the supporting plane. The first diffusing element disposed on the supporting plane is a hollow column surrounding the LED light source. An inner diameter width of the first diffusing element is gradually reduced outward from the base. The first diffusing element has a rough surface comprising a plurality of surface structures. | 08-15-2013 |
Patent application number | Description | Published |
20120086787 | OPTICAL IMAGING LENS SYSTEM WITH DOUBLE OPTICAL PATHS - The present invention provides an optical imaging lens system with double optical paths, comprising: the first optical subsystem; the second optical subsystem having a back focal length equal to that of the first optical subsystem; an optical path selector selectively having a light reflection state or a light passing state; the first reflector set disposed at an image side of the first optical subsystem for directing light from the first optical subsystem to the optical path selector; and the second reflector set disposed at an image side of the second optical subsystem for directing light from the second optical subsystem to the optical path selector. In the present invention, the optical path selector can be controlled to have the light reflection state or the light passing state selectively, so that an image coming from the first optical subsystem or from the second optical subsystem is captured. | 04-12-2012 |
20120147196 | CALIBRATION METHOD AND APPARATUS FOR OPTICAL IMAGING LENS SYSTEM WITH DOUBLE OPTICAL PATHS - This invention provides a calibration method and a corresponding apparatus for optical imaging lens system with double optical paths. The apparatus for optical imaging lens system with double optical paths comprises a first optical subsystem, a second optical subsystem and a calibration module. The calibration module receives a first image data from the first optical subsystem and a second image data from the second optical subsystem. The calibration module calibrates the first image data according to at least one selected optical parameter of the second optical subsystem, and calibrates the second image data according to at least one selected optical parameter of the first optical subsystem. The selected optical parameters of the first optical subsystem and the second optical subsystem are different. | 06-14-2012 |
20120212584 | Imagery Axle Turning Method for Stereo Vision and Apparatus Thereof - An imagery axle turning method for stereo vision and an apparatus thereof. The method turns an imagery axle of a stereo vision apparatus to capture images, and constructs a 3D image from the captured 2D images. The imagery axle turning method is realized by rotating the imagery axles of the first lens unit and second lens unit to an angle θ, so as to have different aspect ratios for the first image and second image. Thereby, the 3D image formed from the stereo vision reconstruction steps can achieve a user's expectation of capturing images with an appropriate aspect ratio. This invention also provides specific stereo vision apparatus corresponding to various applications by the imagery axle turning method. | 08-23-2012 |
20140253739 | CALIBRATION METHOD AND APPARATUS FOR OPTICAL IMAGING LENS SYSTEM WITH DOUBLE OPTICAL PATHS - This invention provides a calibration method and a corresponding apparatus for optical imaging lens system with double optical paths. The apparatus for optical imaging lens system with double optical paths comprises a first optical subsystem, a second optical subsystem and a calibration module. The calibration module receives a first image data from the first optical subsystem and a second image data from the second optical subsystem. The calibration module calibrates the first image data according to at least one selected optical parameter of the second optical subsystem, and calibrates the second image data according to at least one selected optical parameter of the first optical subsystem. The selected optical parameters of the first optical subsystem and the second optical subsystem are different. | 09-11-2014 |
Patent application number | Description | Published |
20120277556 | APPARATUS FOR NON-INVASIVE BLOOD GLUCOSE MONITORING - An apparatus for non-invasive blood glucose monitoring includes a light source for generating at least one ray of light, a beam splitter with a focusing function leads the light into an eyeball and focuses on the eyeball, a set of photo detectors for measuring optical rotatory distribution (ORD) information and absorption energy information of the reflected light reflected from the eyeball and transmitted through the first beam splitter to the set of photo detectors, and a processing unit. The processing unit receives and processes the ORD information and the absorption energy information to obtain an ORD difference and an absorption energy difference resulting from the light emitted from the light source and the reflected light transmitted to the set of photo detectors, and analyzes the ORD difference and the absorption energy difference to obtain a glucose information to read the blood glucose information. | 11-01-2012 |
20120277557 | METHOD FOR NON-INVASIVE BLOOD GLUCOSE MONITORING AND METHOD FOR ANALYSING BIOLOGICAL MOLECULE - A method for non-invasive blood glucose monitoring includes the following steps. At least one ray of light is emitted from at least one light source. The light emitted from the light source is leaded into an eyeball and focused on the eyeball through a first beam splitter. The reflected light reflected from the eyeball is transmitted through the first beam splitter to a set of photo detectors. Optical rotatory distribution (ORD) information and absorption energy information of the reflected light transmitted to the set of photo detectors are measured. ORD difference and absorption energy difference resulting from the light emitted from the light source and the reflected light transmitted to the set of photo detectors are obtained. Glucose information is obtained by analyzing the ORD difference and the absorption energy difference, and since glucose information has a corresponding relationship with blood glucose information, blood glucose information may be read. | 11-01-2012 |
20130248482 | METHODS OF PATTERNING LAYERED-MATERIAL AND FORMING IMPRINTING MOLD - Disclosed is a method of patterning a layered material. A layered material is provided, and a photoresist layer is formed thereon. The photoresist layer is patterned by a focused laser beam to expose a part of the layered material. The exposed layered material is etched to pattern the layered material. | 09-26-2013 |
20130320190 | LIGHT SOURCE DEVICE - A light source device including at least one light source, an optical module, a diffractive optical element, and a shielding component is provided. The at least one light source emits at least one light beam, and the light beam has a wavelength range. The optical module is disposed on a transmission path of the light beam to provide a plurality of optical surfaces. The optical surfaces respectively have a plurality of different inclination angles, so as to transmit at least a portion of the light beam having at least a predefined wavelength to a plurality of different directions. The diffractive optical element is disposed on the transmission path of the light beam, so as to diffract the light beam. The shielding component has an outlet. A portion of the diffracted light beam passes through the outlet to the outside. | 12-05-2013 |
20130324722 | PHOSPHOR - A phosphor is provided, which has a chemical structure represented by General Formula I: | 12-05-2013 |
20140051955 | DETECTING DEVICE - A detecting device includes at least one detecting module. In the detecting module, a light source unit is configured to emit a first beam and a second beam. The wavelength of the first beam is different from that of the second beam. A packaging unit is disposed on the light source unit and a light detecting unit and on transmission paths of the first beam and the second beam from the light source unit. An optical microstructure unit is disposed on the transmission paths of the first beam and the second beam. The first beam and the second beam emitted from the light source unit pass through the packaging unit to pass the optical microstructure unit to be transmitted to a biological tissue, and then pass through the optical microstructure unit to pass the packaging unit to be transmitted to the light detecting unit in sequence. | 02-20-2014 |
20140171765 | APPARATUS FOR NON-INVASIVE GLUCOSE MONITORING - An apparatus for non-invasive glucose monitoring includes a light source for emitting at least one ray of light; a first beam splitter, a set of photo detectors for measuring optical rotatory distribution (ORD) information and absorption energy information; a reference component receiving the light from the first beam splitter, and the light reflected by the reference component being transmitted to the set of photo detectors by the first beam splitter, wherein the light emitted from the light source is transmitted to the set of photo detectors by the first beam splitter and the eyeball to form a first optical path, the light emitted from the light source is transmitted to the set of photo detectors by the first beam splitter and the reference component to form a second optical path; and a processing unit receiving and processing the ORD information and the absorption energy information to obtain a glucose information. | 06-19-2014 |
20140180041 | APPARATUS FOR NON-INVASIVE GLUCOSE MONITORING - An apparatus for non-invasive glucose monitoring includes a first light source for emitting at least one ray of first light; a first beam splitter with a focusing function; a set of photo detectors for measuring optical rotatory distribution (ORD) information and absorption energy information of the first light reflected from the eyeball and transmitted through the first beam splitter to the set of photo detectors, and the first light emitted from the first light source being transmitted to the set of photo detectors by the first beam splitter and the eyeball to form an optical path; a processing unit receiving and processing the ORD information and the absorption energy information to obtain glucose information; and an eye positioning device including a second beam splitter disposed on the optical path between the first beam splitter and the eyeball and a camera for receiving image information transmitted from the second beam splitter. | 06-26-2014 |
Patent application number | Description | Published |
20100231544 | PIXEL STRUCTURE, TOUCH DISPLAY PANEL AND LIQUID CRYSTAL DISPLAY - A pixel structure disposed on a substrate including a scan line, a data line, an active element, a first electrode, and a second electrode is provided. The scan line and the data line are intersected to define a rectangular pixel area. The active element is electrically connected to the scan line and the data line. The first electrode has stripe patterns and connecting patterns located in the rectangular pixel area. Each connecting pattern is connected to the central parts or the parts near the central parts of two adjacent stripe patterns to demarcate or define two silts between the two adjacent stripe patterns. The extending direction of the slits is intersected to the rectangle length of the rectangular pixel area by an angle θ wherein 0°≦θ<45°. The second electrode is located between the first electrode and the substrate and part of the second electrode is exposed by the slits. | 09-16-2010 |
20110299022 | DISPLAY PANEL - A display panel including a first plate, a second plate, and a spacer and a display medium between the first plate and the second plate is provided. The first plate has a first substrate, a scan line and a data line on the first substrate, an active device electrically connected to the scan line and the data line, a pixel electrode electrically connected to the active device, and a first common electrode electrically insulated from the pixel electrode and alternatively arranged with the pixel electrode. The second plate has a second substrate, a second common electrode on the second substrate and disposed corresponding to the first common electrode of the first plate, and a floating electrode electrically insulated from the second common electrode and disposed corresponding to the pixel electrode of the first plate. | 12-08-2011 |
20120086897 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display (LCD) panel includes a first substrate, a second substrate, a polymer stabilized alignment (PSA) liquid crystal layer, a first alignment layer, a second alignment layer, and a plurality of pixel structures. The PSA liquid crystal layer is configured between the first and second substrates, and liquid crystal molecules of the PSA liquid crystal layer are substantially arranged in parallel to the first and second substrates. The first alignment layer is configured between the first substrate and the PSA liquid crystal layer and has a first alignment direction. The second alignment layer is configured between the second substrate and the PSA liquid crystal layer. Each pixel structure is configured between the second substrate and the second alignment layer and has a pixel electrode and a first common electrode. The pixel electrode has at least one slit which is overlapped with the first common electrode. | 04-12-2012 |
Patent application number | Description | Published |
20130052778 | SEMICONDUCTOR PROCESS - A semiconductor process includes the following steps. A substrate is provided. At least a fin-shaped structure is formed on the substrate. An oxide layer is formed on the substrate without the fin-shaped structure being formed thereon. A gate is formed to cover a part of the oxide layer and a part of the fin-shaped structure. An etching process is performed to etch a part of the fin-shaped structure beside the gate, therefore at least a recess is formed in the fin-shaped structure. An epitaxial process is performed to form an epitaxial layer in the recess, wherein the epitaxial layer has a hexagon-shaped profile structure. | 02-28-2013 |
20130122698 | METHOD FOR MANUFACTURING MULTI-GATE TRANSISTOR DEVICE - A method for manufacturing multi-gate transistor device includes providing a semiconductor substrate having a patterned semiconductor layer and a patterned hard mask sequentially formed thereon, removing the patterned hard mask, performing a thermal treatment to rounding the patterned semiconductor layer with a process temperature lower than 800° C., and sequentially forming a gate dielectric layer and a gate layer covering a portion of the patterned semiconductor layer on the semiconductor substrate. | 05-16-2013 |
20130341638 | MULTI-GATE FIELD-EFFECT TRANSISTOR AND PROCESS THEREOF - A Multi-Gate Field-Effect Transistor includes a fin-shaped structure, a gate structure, at least an epitaxial structure and a gradient cap layer. The fin-shaped structure is located on a substrate. The gate structure is disposed across a part of the fin-shaped structure and the substrate. The epitaxial structure is located on the fin-shaped structure beside the gate structure. The gradient cap layer is located on each of the epitaxial structures. The gradient cap layer is a compound semiconductor, and the concentration of one of the ingredients of the compound semiconductor has a gradient distribution decreasing from bottom to top. Moreover, the present invention also provides a Multi-Gate Field-Effect Transistor process forming said Multi-Gate Field-Effect Transistor. | 12-26-2013 |
20140295634 | MULTI-GATE FIELD-EFFECT TRANSISTOR PROCESS - A Multi-Gate Field-Effect Transistor includes a fin-shaped structure, a gate structure, at least an epitaxial structure and a gradient cap layer. The fin-shaped structure is located on a substrate. The gate structure is disposed across a part of the fin-shaped structure and the substrate. The epitaxial structure is located on the fin-shaped structure beside the gate structure. The gradient cap layer is located on each of the epitaxial structures. The gradient cap layer is a compound semiconductor, and the concentration of one of the ingredients of the compound semiconductor has a gradient distribution decreasing from inner to outer. Moreover, the present invention also provides a Multi-Gate Field-Effect Transistor process forming said Multi-Gate Field-Effect Transistor. | 10-02-2014 |
Patent application number | Description | Published |
20130162008 | WHEEL RIM STRUCTURE - A wheel rim structure includes a rim body having a plurality of assembling grooves equidistantly defined along an inner periphery thereof, each assembling groove having a receiving space defined at one end thereof and a positioning space defined at another end thereof, the receiving space communicating with the positioning space, a plurality of spokes having a connecting end formed at one end thereof and having a positioning block which is adjacent to the connecting end, a wheel hub having a plurality of second connecting holes equidistantly opened thereon. Under this arrangement, the connecting end is assembled into the receiving space and the positioning block is locked at the positioning space; another end of the spokes is assembled into the second connecting hole. Therefore, the spoke could be easily detached from the rim body or be easily assembled to the rim body via the assembling groove. | 06-27-2013 |
20130169026 | BICYCLE RIM STRUCTURE - A bicycle rim structure comprises a rim body, a hub, a plurality of spokes for fastening the hub and the rim body, and a plurality of adhesives. The spokes in assembling slots of the rim body and assembling grooves of the hub are enclosed by the adhesive. Therefore, the spoke is tightly connected in the assembling slot and assembling groove after the adhesive is solidified. Moreover, the weight of the bicycle rim body is reduced because there are no bolts and nuts, or other assemblies in the bicycle rim structure. | 07-04-2013 |
20130214116 | SEAT POST STRUCTURE - A seat post structure includes a seat post having a post body, a middle portion and a top portion, the middle portion connected between the post body and the top portion, the saddle horizontally set onto the top portion, a the supporting slice embedded into the seat post and passing through the top portion and the middle portion therein. Under this arrangement, when a rider is sitting on the saddle and riding on a bumpy road, the top portion, the middle portion and the supporting slice in the seat post are bent slightly by the weight of the rider and the elasticity of the supporting slice provides a recovery force to bend the plank unit, the middle portion and the supporting slice back toward the original position. | 08-22-2013 |
20140062167 | WHEEL RIM STRUCTURE - A wheel rim structure includes a rim body having a plurality of rim connectors, each rim connectors assembled onto an inner periphery of the rim body and having a first connecting end and a second connecting end at two ends thereof, the first connecting end assembled into the inner periphery of the rim body, the second connecting end exposed from the inner periphery of the rim body, a plurality of spokes, each spoke having an assembling end and an engaging end at two ends thereof, the assembling end assembled to a wheel hub, the engaging end engaging with the second connecting end. Under this arrangement, when the user wants to detach the spokes from the rim body, the user just detaches the engaging end and the assembling end. | 03-06-2014 |
20140141310 | BATTERY FASTENING DEVICE FOR A SEAT TUBE OF A BICYCLE - A battery fastening device for a seat tube of a bicycle includes a tube member, a cap member and a cover member, the tube member having a receiving channel, the cap member having an assembling portion, one end of the assembling portion assembled to the tube member, another end of the cap member having a handling block, the handling block exposed out from the seat tube, the cap member having a passage which communicating with the receiving channel, the battery assembly received into the receiving channel, the battery assembly attached to the passage, the cover member defined between the seat tube and the tube member and sleeving on the tube member tightly. Under this arrangement, the tube member is tightly positioned in the seat tube because of the cover member, so that the battery assembly is stably positioned within the seat tube. | 05-22-2014 |
20140145479 | SEAT DEVICE FOR A BICYCLE - A seat device for a bicycle includes a seat and a frame assembled to a bottom of the seat. The frame has a front assembling portion and two elastic arms. Each elastic arm has a first inclined segment, a connecting segment and a second inclined segment in an order from a front end to a rear end of the seat. Each first inclined segment and each second inclined segment have flat cross sections, and each connecting segment has a circular cross section. Under this arrangement, when a rider rides on an unsmooth road, a road-induced vibration is delivered to the seat; and then, the seat shifts said vibration to the frame so that the frame deforms to absorb said vibration; therefore, the rider has a lower possibility in suffering damages caused by the road-induced vibration and the comfortableness of the rider is improved as well. | 05-29-2014 |
Patent application number | Description | Published |
20110037968 | LASER RANGEFINDER WITH A VOICE CONTROL FUNCTION - A laser rangefinder with a voice control function has a housing, a voice sensor module, a measure module, a circuit board and a display module. The housing has a voice-receiving hole and a screen. The voice sensor module receives voice commands through the voice-receiving hole. The measure module produces and emits a laser beam toward an object and then receives the laser beam reflected from the object. The circuit board judges the voice command sent by the voice sensor module to activate the measure module for calculating and determining a distance between the laser rangefinder and the object based by a time interval of the laser beam traveling toward and returning from the object. The display module shows a determined result on the screen. | 02-17-2011 |
20130100432 | LASER RANGEFINDER WITH SINGLE SHUTTER - A laser rangefinder with single shutter includes a body and a laser-radiating board. The body has a transmitting gateway and a receiving gateway. A shutter is mounted in the transmitting gateway. The body has an adjusting gateway communicating with the transmitting gateway and the receiving gateway. The laser beam is radiated to the object via the transmitting gateway and the shutter. When the object receives the laser beam, the laser beam is reflected into the receiving gateway by the object and the laser beam goes through the receiving gateway to the laser-radiating board thereafter the laser-radiating board calculates the actual distance from the laser rangefinder with single shutter to the object. Furthermore, the adjusting gateway prevents the laser beam interfering in the operating of the laser-radiating board and the laser beam is reflected by the shutter to the laser-radiating board via the adjusting gateway for calculating a reference distance. | 04-25-2013 |
20140218715 | STRUCTURE OF AN OPTICAL PATH FOR LASER RANGE FINDING - A structure of an optical path for laser range finding includes a main body and a light-emitting unit assembled in the main body. The main body has a transmitting channel, a receiving channel and a calibration channel. The light-emitting unit is assembled in the transmitting channel. The light-emitting unit emits an external optical beam and an internal optical beam. The external optical beam is emitted through the transmitting channel. The internal optical beam is emitted to the receiving channel via the calibration channel. An included angle is defined between the external optical beam and the internal optical beam. A receiver is mounted in the receiving channel. Under this arrangement, the external optical beam and the internal optical beam do not interfere with each other. | 08-07-2014 |
Patent application number | Description | Published |
20130127718 | Method for Operating Computer Objects and Computer Program Product Thereof - A method for operating computer objects and the computer program product thereof are disclosed, and they are utilized to a computer. The computer includes an operating interface which comprises defining a work region, function instruction list and a plurality of computer objects, and parts of the computer objects are chosen. The steps of the method comprises: an input device which is connected to a processing device in the computer for defining the position information of the input device, and a computer object which is chosen on the work region of the operating interface is clicked for operating the computer object; wherein a function instruction, which comprises actions of rotation, zoom in/zoom out, movement, of the computer object, is clicked for users to operate the computer object. | 05-23-2013 |
20130127745 | Method for Multiple Touch Control Virtual Objects and System thereof - A multi-user operating system through a multi-touch panel comprises a processor; a storage medium coupled to the processor; a multiple touch panel coupled to the processor to sense multi-touch event by at least one user, followed by displaying instruction result corresponding to the multi-touch event; a display dividing module coupled to the processor to divide the multiple touch panel into at least two sub-display areas; multiple user operation module being stored in the storage medium to instruct the display dividing module to execute a multiple user mode or a single user mode, thereby allowing the multiple user manipulate virtual objects on the at least two sub-display areas, simultaneously. | 05-23-2013 |
20130205201 | Touch Control Presentation System and the Method thereof - A method of operating presentation through a multi-touch panel, comprises steps of providing a presenting module having a format transformation module, user interface generator and presenting/reading mode switching module to a system; activating the presenting module and display interface generated by the user interface generator on a multiple-touch panel of the system, wherein the interface generated by the user interface generator includes a shrinkage image area to display the non-activated file, an operation area to display file which is activated and a buffer zoon to allow a user drag file in the shrinkage image area to the operation area, thereby activating the dragged file. | 08-08-2013 |
Patent application number | Description | Published |
20120013243 | Phosphor composition for AC LEDS and AC LED manufactured with the same - The present invention provides a phosphor composition for AC LEDs, which is represented by the following formula (I): | 01-19-2012 |
20120074443 | LED package structure - An LED package structure includes a base, an LED chip, a frame, and a microstructure lens. The LED chip is arranged on the base. The microstructure lens is arranged on the LED chip, and is a first-order optical lens being subject to surface optical microstructure treatment. The frame is provided for securing the microstructure lens on the base. The microstructure lens of the LED package structure can concentrate the light emitted from the LED chip or vary light patterns of the light emitted from the LED chip so as to achieve the purpose of increasing brightness and luminous angles. | 03-29-2012 |
20120119238 | LED package structure - An LED package structure includes an insulation substrate, a heat-sink slug, an LED chip assembly, four diodes, and a lead-frame assembly. The heat-sink slug is inserted on the insulation substrate, and includes a loading surface exposed externally, where the LED chip assembly is fixed on the loading surface. The lead-frame assembly includes two externally-extended lead frames and four loading lead frames which are apart from one another, and which are all inserted on the insulation substrate. The four diodes are correspondingly loaded on, and electrically connected with, the four loading lead frames. The LED chip assembly and the four diodes constitute a bridge circuit, wherein the bridge circuit has its positive electrode and negative electrode located at the two externally-extended lead frames, respectively. Therefore, there is no need for the LED package structure to connect externally a rectifier diode module so as to achieve the purpose of convenient use. | 05-17-2012 |
Patent application number | Description | Published |
20090008624 | Optoelectronic device - The present invention provides an optoelectronic device, which includes a first electrode, a substrate on the first electrode, and a buffer layer on the substrate. The buffer layer further includes a first gallium nitride based compound layer on the substrate, a II-V group compound layer on the first gallium nitride based compound layer, a second gallium nitride based compound layer on the II-V group compound layer, and a third gallium nitride based compound layer on the second gallium nitride based compound layer. Then, a first semiconductor conductive layer is formed on the buffer layer; an active layer is formed on the first semiconductor conductive layer, in which the active layer is an uneven Multi-Quantum Well; a second semiconductor conductive layer on the active layer; a transparent conductive layer on the second semiconductor conductive layer; and a second electrode on the transparent conductive layer. | 01-08-2009 |
20090008626 | Optoelectronic device - The present invention provides an optoelectronic device which includes a first electrode, a substrate on the first electrode; a buffer layer on the substrate, in which the buffer layer includes a first gallium nitride based compound layer on the substrate, a second gallium nitride based compound layer, and a II-V group compound layer between the first gallium nitride based compound layer and the second gallium nitride based compound layer; a first semiconductor conductive layer on the buffer layer; an active layer on the first semiconductor conductive layer, in which the active layer is an uneven Multi-Quantum Well; a semiconductor conductive layer on the active layer; a transparent layer on the second semiconductor conductive layer; and a second electrode on the transparent layer. | 01-08-2009 |
Patent application number | Description | Published |
20120291594 | Ratchet Wrench with a Sliding Drive Head - A ratchet wrench includes a wrench body, a control wheel mounted in the wrench body, a control shaft mounted in the wrench body and having a pressing recess, a drive head movably mounted on the control shaft and having a positioning hole, a positioning ball movably mounted in the positioning hole of the drive head and movable into the pressing recess of the control shaft, and an elastic member biased between the control shaft and the drive head. Thus, when the wrench body is moved toward the socket, the drive head is forced by the socket and moved on the control shaft to align the positioning hole of the drive head with the pressing recess of the control shaft and to retract the positioning ball into the positioning hole of the drive head so that the socket is connected with the drive head. | 11-22-2012 |
20150047476 | Torque Wrench - A torque wrench, a torque wrench contains a hollowing extension, a tool head, a torque adjusting mechanism, a controlling member, and a value adjusting device. The tool head connects with a first end of the hollow extension, the torque adjusting mechanism includes a first end coupling with a second end of the hollow extension, the controlling member connects with a second end of the torque adjusting mechanism. The value displaying device couples with the controlling member and includes a housing, a plurality of digital wheels mounted in the housing, a central shaft, and a plurality of driving gears, wherein the central shaft inserts through the plurality of driving gears, each driving gear meshes with one side of a respective one of the plurality of digital wheels so as to drive the respective one of the plurality of digital wheels. | 02-19-2015 |
20150047477 | Positioning Torque Mechanism for Torque Wrench - A torque wrench comprising: a body, an extension, a torque mechanism, a handle, and a positioning torque mechanism. The positioning torque mechanism includes a pressing cap, a clutch ring, and a spring. The pressing cap has a boss and an orifice, the orifice has plural shoulders, between two spaced shoulders is defined a recess, the pressing cap has an elongated hole and a peg. The clutch ring has plural teeth and plural first limiting projections, each first limiting projection has a tilted end portion, and between two spaced first limiting projections is defined a first limit notch, the handle includes a hollow locking member, and the locking member has at least one protrusion, each protrusion has a tilted second limit notch and an inclined edge, between two spaced protrusions is defined a third limit notch; the spring has two ends abutting against the clutch ring and the fixing member. | 02-19-2015 |
Patent application number | Description | Published |
20130070242 | SYSTEM AND ANALYTICAL METHOD FOR LASER-INDUCED BREAKDOWN SPECTROSCOPY - A system for laser-induced breakdown spectroscopy (LIBS) is provided. The system for the LIBS includes a laser module generating a first pulse laser and a second pulse laser. An optical delay device incident by the second pulse laser is used to increase an optical path of the second pulse laser. A Kerr medium incident by the second pulse laser generates a time gate, and allows a plasma light beam generated from a sample incident by the first pulse laser, passing through the time gate and being output at a time point. A detection device receives and measures the plasma light beam output at the time point to generate a signal. A processing module connected to the detection device detects a signal, and compares the signal with a data base to obtain information concerning a composition and element concentrations of the sample. | 03-21-2013 |
20140084176 | MATERIAL AGING TEST APPARATUS AND METHOD THEREOF - A material aging test apparatus and method thereof are provided. The aging apparatus includes a pulsed laser, a beam expansion assembly, a platform, and a spectrum analyzer. The pulsed laser is used for transmitting a first beam. The beam expansion assembly is used for converting the first beam into a second beam and projecting the second beam onto an object. The platform is used for carrying the object. The spectrum analyzer is used for measuring the spectral response which is generated from the object by the projection of the second beam. | 03-27-2014 |
20140084180 | MATERIAL AGING APPARATUS - An aging apparatus including a pulse laser, a beam expansion assembly, and a platform configured to carry an object is provided. The pulse laser transmits a first beam to the beam expansion assembly. The beam expansion assembly expands the first beam to a second beam and projects the second beam onto the object. | 03-27-2014 |