Patent application number | Description | Published |
20140119012 | ELECTRONIC STICK ASSEMBLY - An electronic incense-stick assembly includes a burning chamber, a number of electronic sticks simulating burning sticks, a wind speed sensor and a controller. The electronic sticks are arranged in the burning chamber. Each of the electronic sticks includes a light guide bar, a glowing end, and a light source. The light guide bar includes a first end and a second end away from the first end. The light source is positioned at the first end. The glowing head is positioned at the second end and simulates the glowing tip of an incense stick. The wind speed sensor is located on the exterior of the burning chamber, and senses changes in the wind speed outside the burning chamber. The controller adjusts the brightness of the light source according to the wind speed sensed by the wind speed sensor. | 05-01-2014 |
20140119047 | ELECTRONIC INCENSE STICK - An electronic incense stick includes a light guide bar, a hollow tube accommodating the light guide bar, and a light source. The light guide bar includes a first end and a second end away from the first end. The light guide bar includes an incense head positioned at the second end. The incense head includes a first portion away from the first end and a second portion connecting with the first portion. A roughness of the first portion is smaller than a roughness of the second portion. The light source is positioned on the first end of the light guide bar. | 05-01-2014 |
20140148055 | SELF-PROTECTING OPTICAL CONNECTOR - An optical connection includes a male connector and a female connector, the connector offers electrical connections in the manner and the size of a USB connector, together with an integral and uncouplable optical connection. The first optical connector is shielded by a first shielding member from damage and pollution at all times until the connection between the connectors is made and the second opposing optical connector enjoys the same protection. Coupling precision between the optical connectors is achieved by magnetism holding the optical connectors together. | 05-29-2014 |
20140185997 | VERTICAL-TYPE OPTICAL WAVEGUIDE AND METHOD FOR MAKING SAME - A vertical-type optical waveguide includes a substrate, a first groove, a second groove, and a protrusion portion. The first groove and the second groove are defined on a top surface of the substrate using a slicing method, and the first groove and the second groove are perpendicular to the top surface. An extending direction of the first groove and the second groove are parallel with each other. The protrusion portion is formed between the first and the second grooves. A titanium (Ti) film is coated on the protrusion portion and the Ti is diffused into the protrusion portion. | 07-03-2014 |
20140208528 | USB CONNECTOR CLEANER - A USB connector cleaner for cleaning conductive pins received in a recess of a USB connector is provided. The USB connector cleaner includes a base, a cleaning head, and a driving member. The cleaning head is configured for inserting into the recess to clean the conductive pins. The cleaning head includes a supporting member fixed on the base and a cleaning brush rotatably connected to the supporting member. The driving member is slidably connected to the base for driving the cleaning brush to cleaning the conductive pins. | 07-31-2014 |
20140321806 | OPTICAL WAVEGUIDE AND METHOD FOR MANUFACTURING SAME - In a method, a substrate is provided and is implanted with argon ions to form an argon ion modified layer. Two slots are defined and extend through the argon ion modified layer to form a ridge. The substrate is etched to change the ridge into a beveled ridge. An etching rate of the argon ion modified layer is higher than that of the substrate. The beveled ridge is diffused with metal to form a beveled ridge waveguide. | 10-30-2014 |
20140354800 | DETECTION SYSTEM AND DETECTION METHOD - A detection method and a detection system for detecting surface abnormalities of a first lens and a second lens of an optical-electrical lens unit are provided. The first lens and the second lens are respectively protruded from two adjacent surfaces of the optical-electrical lens unit. The detection system includes a first detecting element configured to capture the image of the first lens, a second detecting element configured to capture the image of the second lens, a processing device configured to calculate whether the second lens is not oriented toward the second detecting element, and send moving instructions to a control device to control the optical-electrical lens unit to move to a predetermined position, and detect the surface abnormalities of the optical-electrical lens unit based on the captured images. | 12-04-2014 |
20140354985 | DETECTION SYSTEM AND DETECTION METHOD - A detection method and a detection system for detecting surface abnormalities of a first lens and a second lens of an optical-electrical lens unit are provided. The first lens and the second lens are respectively protruded from two adjacent surfaces of the optical-electrical lens unit. The detection system includes a first detecting element configured to capture the image of the first lens, a second detecting element configured to capture the image of the second lens, a processing device configured to calculate whether the second lens is not oriented toward the second detecting element, and send moving instructions to a control device to control the optical-electrical lens unit to move to a predetermined position, and detect the surface abnormalities of the optical-electrical lens unit based on the captured images. | 12-04-2014 |
20150107036 | CLEANING DEVICE - A cleaning device includes a cleaning portion and a driving portion. One end of the cleaning portion includes a cleaning head configured to clean an object to be cleaned. A spiral shaped guide groove is defined in an outside surface of the cleaning head. The driving portion includes a protruding portion. The protruding portion is movably received in the spiral shaped guide groove. When the cleaning head is resisted to the object to be cleaned, and the driving portion moves toward the object to be cleaned, the protruding portion slides along the spiral shaped guide groove to drive the cleaning head to rotate to clean the object to be cleaned. | 04-23-2015 |
Patent application number | Description | Published |
20130300632 | DISPLAY SYSTEM, DISPLAY METHOD AND PORTABLE ELECTRONIC DEVICE - A portable electronic device includes a storage unit, a data obtaining unit, a display unit, a display control unit, and a control unit. The display control unit controls the display unit to display data obtained from the storage unit by the data obtaining unit. The control unit stores undisplayed portion of data that is not displayed on the display unit. The communicating unit communicates with another portable electronic device, and transmits the undisplayed portion to the another portable electronic device for allowing the another portable electronic device to display the undisplayed portion of data. | 11-14-2013 |
20140323042 | WATCH WITH WIRELESS COMMUNICATION FUNCTIONALITY - A watch having wireless communication functionality includes an NFC chip, a selecting module electrically connected to the NFC chip, a first NFC antenna electrically connected to the selecting module, and a second NFC antenna alternatively connected to the selecting module. When the second NFC antenna is connected to the selecting module, the selecting module turns on a connection between the second NFC antenna and the NFC chip, and turns off a connection between the first NFC antenna and the NFC chip, so that the second NFC antenna is capable of communicating with an external device. When the second NFC antenna is not connected from the selecting module, the selecting module turns on the connection between the first NFC antenna and the NFC chip, so that the first NFC antenna is capable of communicating with the external device. | 10-30-2014 |
Patent application number | Description | Published |
20130284613 | HOLDER FOR PORTABLE ELECTRONIC DEVICE - A foldable holder for holding and supporting a portable electronic device includes a first outer sheet, a second outer sheet, a handle portion extending from the first outer sheet and the second outer sheet configured for being handled. A base plate, a first main supporting plate, a second main supporting plate, two first side supporting plates, and two second side supporting plates located on the second outer sheet. When the holder is folded, the base plate, the first main supporting plate, the first side supporting plates, and the second side supporting plates cooperatively form a three-dimensional structure that can support the portable electronic device at an angle relative to the second outer sheet without collapsing. | 10-31-2013 |
20130284614 | HOLDER FOR PORTABLE ELECTRONIC DEVICE - A holder includes a first outer sheet, a second outer sheet, and a handled portion. A base portion, a first supporting portion and a second supporting portion are formed on the second outer sheet. A latching piece is formed on the base portion, the latching piece having a bendable portion. The first supporting portion is folded relative to the base portion, and the second supporting portion is folded relative to the first supporting portion until the second supporting portion is held by the latching piece, the base portion, the first supporting portion and the second supporting portion cooperatively form a three-dimensional structure that can support the portable electronic device at an angle relative to the second outer sheet without collapsing. | 10-31-2013 |
20130284615 | HOLDER FOR PORTABLE ELECTRONIC DEVICE - A holder is for supporting a portable electronic device, including at least one sheet. A base portion, a first supporting portion and a second supporting portion formed on the at least one sheet. The base portion, the first supporting portion and the second supporting portion are parallel with each other and folded relative to each other. A latching piece is formed on the base portion, the latching piece having a bendable portion. The first supporting portion is folded relative to the base portion, and the second supporting portion is folded relative to the first supporting portion until the second supporting portion is held by the latching piece, the base portion, the first supporting portion and the second supporting portion cooperatively form a three-dimensional structure that can support the portable electronic device at an angle relative to the at least one sheet without collapsing. | 10-31-2013 |
20130284866 | HOLDER FOR PORTABLE ELECTRONIC DEVICE - A foldable holder for holding and supporting a portable electronic device includes at least one sheet. A base plate, a first main supporting plate, a second main supporting plate, two first side supporting plates, and two second side supporting plates located on the at least one sheet sheet. The base plate, the first main supporting plate and the second main supporting plate are foldable relative to each other. When the holder is folded, the base plate, the first main supporting plate, the first side supporting plates, and the second side supporting plates cooperatively form a three-dimensional structure that can support the portable electronic device at an angle relative to the at least one sheet without collapsing. | 10-31-2013 |
20140116898 | PROTECTIVE COVER FOR PORTABLE ELETRONIC DEVICE - A protective cover for a portable electronic device includes a housing and a cover detachably mounted to the housing. The housing includes a first bottom wall, a first compartment, and a second compartment. The first compartment and the second compartment defined at two opposite sides of the housing. The first compartment is configured to receive the portable electronic device; the second compartment is configured to receive a card. The cover is configured to cover the second compartment. | 05-01-2014 |
Patent application number | Description | Published |
20150019772 | SIGNAL PROCESSING APPARATUS - A signal processing apparatus includes a switch, a signal conditioner, multiple storage units, and a controller. Each of the storage units stores a set of signal transmission parameters in compliance with a communication protocol. The controller sends one or more control signals to the switch. The switch selects one of the storage units according to the control signals and connects the signal conditioner to the selected storage unit. The signal conditioner retrieves a set of signal transmission parameters from the selected storage unit. The signal conditioner receives a data signal from a transmitter, conditions the data signal according to the retrieved set of signal transmission parameters, and transmits the conditioned data signal to a receiver. A signal processing method is also disclosed. | 01-15-2015 |
20150019773 | SIGNAL PROCESSING APPARATUS - A signal processing apparatus includes a switch, a signal conditioner, and multiple storage units. Each of the storage units stores a set of signal transmission parameters in compliance with a communication protocol. The switch selects one of the storage units and connects the signal conditioner to the selected storage unit. The signal conditioner retrieves a set of signal transmission parameters from the selected storage unit. The signal conditioner receives a data signal from a transmitter, conditions the data signal according to the retrieved set of signal transmission parameters, and transmits the conditioned data signal to a receiver. A signal processing method is also disclosed. | 01-15-2015 |
20150019774 | SIGNAL PROCESSING APPARATUS - A signal processing apparatus includes a storage unit, a signal conditioner, and a controller. The controller connected writes a set of signal transmission parameters in compliance with a communication protocol into the storage unit. The signal conditioner retrieves the set of signal transmission parameters from the storage unit. The signal conditioner receives a data signal from a transmitter, conditions the data signal according to the retrieved set of signal transmission parameters, and transmits the conditioned data signal to a receiver. A signal processing method is also disclosed. | 01-15-2015 |
Patent application number | Description | Published |
20120183255 | LENS-INTEGRATED OPTICAL WAVEGUIDE AND METHOD OF MAKING THE SAME - A lens-integrated optical waveguide includes an optical conduit, a lens, and a non-wetting coating underlying the lens. A method for making an lens-integrated optical waveguide includes: forming an optical conduit having an end defining a planar end surface through which lights are transmitted out and received in; injecting a curable glue into a mold to form a pool of curable glues, the mold including a cavity having a concave shape to define a lens outer face; dipping the planar end of the optical conduit into the pool of curable glues; and curing the pool of curable glues onto the planar end surface of the optical conduit. | 07-19-2012 |
20140016898 | OPTICAL WAVEGUIDE CONNECTOR - An optical waveguide connector for transmitting light from a laser emitter and to a photo receiver on a circuit board, including a base section having a receiving passageway; a planar waveguide received in the receiving passageway; and a light guide device coupling to the planar waveguide; wherein the planar waveguide has an input waveguide core corresponding to the laser emitter and an output waveguide core corresponding to the photo receiver; wherein the planar waveguide has a smooth front face, the input waveguide core and the output waveguide core extending to the front face; and wherein the light guide device comprises a first reflector proximal to the front face and a second reflector distal from the front face, the second reflector turns the light from the laser emitter toward the input waveguide core, and the first reflector turns the light from the output waveguide core toward the photo receiver. | 01-16-2014 |
20140169733 | OPTICAL MODULE - An optical module includes a first switch card ( | 06-19-2014 |
20140205242 | OPTICAL MODULE ASSEMBLY WITH CONNECTING MECHANISM - An optical module assembly comprises a first optical module and a second optical module engaged with the first optical module. Each of the first and second optical modules comprises a ferrule comprising a first planar surface, a second surface opposite to the first planar surface and at least one connecting mechanism exposed on the second surface of the ferrule, an optical waveguide mounted on the first planar surface of the ferrule, a light guide device coupling to the optical waveguide and disposed on the ferrule, an optical signal transmitted between the first planar surface and the second surface through the light guide device; and wherein the first optical module can be connected with the second optical module by the connecting mechanisms for increasing the transmitting distance of the optical signal. | 07-24-2014 |
Patent application number | Description | Published |
20130044411 | SUPPORTING APPARATUS FOR ELECTRONIC DEVICE - A supporting apparatus for an electronic device includes a mounting mechanism, and a supporting assembly. The mounting mechanism includes a fixing bracket fixed to the electronic device, and a latching member mounted to the fixing bracket. The supporting assembly includes a mount, and a locking member fixed to the mount. The locking member includes a locking tab and a locking tongue opposite to the locking tab. The latch member is slidable between a locking position, where the latch member abuts the locking tongue to preventing the fixing bracket from moving away from the locking member, and an unlocking position, where the latch member disengages from the locking tongue to enable the fixing bracket to move away from the locking member. | 02-21-2013 |
20140013720 | DUST FILTER MOUNTING APPARATUS - A dust filter mounting apparatus includes a side plate, a dust filter, and a latching member. The side plate includes a main plate defining a receiving recess, and a sidewall defining an opening communicating with the receiving recess. A resilient member is formed in the receiving recess. The dust filter is extended through the opening and slidably received in the receiving recess. A block is formed on the dust filter. The latching member is mounted to the main plate and includes a latch extending into the receiving recess and engaging with the block. When the dust filter is pressed into the receiving recess, the dust filter pushes the latching member to slide backward and away from the sidewall, the resilient member is deformed, and the latch disengages from the block, then the resilient member is restored to push the dust filter to slide partially out of the opening. | 01-16-2014 |
20140117196 | CHASSIS ASSEMBLY AND ANTI-THEFT DEVICE THEREOF - A chassis assembly includes a chassis, a supporting bracket, and an anti-theft device. The chassis defines a slide slot. A stop hook is formed in the slide slot. The supporting bracket includes a stop block. The stop block slides into the slide slot and supports the chassis. The anti-theft device includes a slide plate, a pivoting member, a resilient member to rotate the pivoting member to an angle relative to the slide plate, and a fastener. A position hook extends from the pivoting member. When the pivoting member is parallel to the slide plate, the slide plate and the pivoting member enter the slide slot. The pivoting member is released when the slide plate abuts the stop block. The resilient member forces the position hook to engage with the stop hook. The pivoting member and the slide plate are held together with an anti-theft fastener. | 05-01-2014 |
20140340862 | ELECTRONIC DEVICE WITH SUPPORTING APPARATUS - An electronic device includes a main body, an installing assembly, a support, and a connecting assembly. The main body includes a shell and a display screen installed in the shell. The installing assembly is connected to a side of the shell opposite to the display screen. The connecting assembly is rotatably connected between the installing assembly and the support. The support includes a connecting pole and two opposite extending poles perpendicularly extending out from two opposite ends of the connecting pole. The connecting pole and the extending poles cooperatively bound a receiving space. The connecting assembly can be rotated to be received in the receiving space. | 11-20-2014 |
20140354127 | HANDLE ASSEMBLY AND ELECTRONIC DEVICE CHASSIS HAVING THE SAME - A handle assembly includes a fixing member, a latching member received in the fixing member, and a handle slidably mounted to the fixing member. The latching member includes two resilient arms at opposite ends. Each resilient arm includes a projection. The handle includes a hold portion and two legs extending down from opposite ends of the hold portion. Each leg defines an engaging hole. The hold portion is pressed toward the fixing member, and the projections are engaged in the engaging holes. | 12-04-2014 |
20140362497 | POWER SUPPLY ASSEMBLY - A power supply assembly includes a bracket defining an opening, a plurality of power supply units detachably installed in the bracket through the opening, and a plurality of shunt-wound connectors mounted in the bracket opposite to the opening. Each power supply unit includes a plug. The plugs of the power supply units are detachably and electrically coupled to the connectors. | 12-11-2014 |
20150116209 | ELECTRONIC DEVICE AND METHOD FOR CONTROLLING BUTTONS OF ELECTRONIC DEVICE - In a method for controlling buttons of an electronic device, a facial image of a user is captured by an image capturing unit installed in the electronic device. The method determines a button of the electronic device which corresponds to a point of focus on the electronic device, based on the facial image. When an audio signal of the user is detected by an audio collection unit installed in the electronic device, a control command is recognized from the audio signal, and a function of the button is activated to perform the required function of the electronic device based on the control command. | 04-30-2015 |
20150153871 | TOUCH-SENSITIVE DEVICE AND METHOD - A touch-sensitive method is applied in a touch-sensitive device including a touch-sensitive screen. The method includes the following steps. Detecting touch points on the touch-sensitive screen according to touch signals from the touch-sensitive screen. Determining a covered area of the touch points. Identifying a shape and a size of the covered area. Determining which part of a finger touches the touch-sensitive screen according to the identified shape and identified size of the covered area. Controlling the touch-sensitive device to perform different operations according to which part of the finger touches the touch-sensitive screen. | 06-04-2015 |
Patent application number | Description | Published |
20140168786 | VIDEO WALL AND MULLION ELIMINATION STRUCTURE THEREOF - An exemplary video wall includes two display panels and a mullion elimination structure. The display panels each include a main body and a bezel. The mullion elimination structure includes a triangular prism and two transparent quadrangular prisms. The triangular prism includes a first bottom and two opposite first sides. The first bottom is attached to and covers two adjacent bezels of the display panels. The transparent quadrangular prisms each include a second bottom attached to the main body of one display panel, a second side, and an opposite third side . The third side is attached to the corresponding first side of the triangular prism. The second side is coated with a transflective film for partially transmitting and partially reflecting light incident thereon. A reflective surface is formed between the first sides of the triangular prism and the second sides of the quadrangular prisms for reflecting light incident thereon. | 06-19-2014 |
20140177062 | VIDEO WALL AND MULLION ELIMINATION LENS THEREOF - An exemplary video wall includes two display panels and a polygonal mullion elimination lens. Each of the display panels includes a main body and a bezel surrounding the main body. The polygonal mullion elimination lens includes a central first concave surface configured to reflect internal light incident thereon, two flat surfaces respectively attached to the main bodies of the display panels, a central second concave surface opposite to the first concave surface, and two lateral surfaces each connecting between a corresponding one of the flat surfaces and the second concave surface. Portions of light emitted by the main bodies of the display panels can enter the mullion elimination lens via the flat surfaces. | 06-26-2014 |
20150118412 | DEVICE AND METHOD TO FORM PROTECTIVE COATING - Device configured to form a protective film includes a receiving unit made of transparent material, an attracting unit, and an UV curing unit. The receiving unit defines a receiving groove configured to locate and hold an uncoated component. A shape of the receiving groove is same as that of the uncoated component, and a size of the receiving groove is greater than that of the uncoated component. The attracting unit is configured to attract and hold the component as it is coated with protective glue. The UV curing unit is arranged below the receiving unit to cure the glue with UV light to form a protective coating. A method to form a protective film is also provided. | 04-30-2015 |
20150183147 | METHOD OF FORMING FILMS FOR A COMPONENT - A method of forming films for a component includes providing a curing device. The curing device includes a receiving die defining a groove, a suction device, and a UV curing system. The suction device suctions a component suctioning the component into the groove and defining a gap between the component and the groove. A UV curing glue is injected into the gap, the UV curing glue selected from a monomer, an oligomer, and a photoinitiator. The UV curing glue is cured by the UV curing system so as to form a cured film for easy demolding. | 07-02-2015 |
Patent application number | Description | Published |
20130213495 | LIQUID LEVEL SENSOR - A quartz glass liquid level sensor includes a support frame, a light masking plate, a quartz glass tube, and a sensor module. The light masking plate is movably mounted on the support frame. The quartz glass tube is movably mounted to the support frame. One end of the quartz glass tube is securely fixed to the light masking plate. The sensor module is mounted on the support frame, for sensing a position of the light masking plate relative to the support frame. | 08-22-2013 |
20130228455 | SUPPORT MECHANISM - A support mechanism used in an electro plasma polishing process includes a support beam, a first electrically conducting assembly, and a second electrically conducting assembly. The first electrically conducting assembly and the second electrically conducting assembly are mounted on the support beam. The first electrically conducting assembly is electrically insulated from the second electrically conducting assembly. | 09-05-2013 |
20130233724 | SYSTEM AND METHOD OF ELECTROLYTIC DEBURRING FOR METAL PIECES - A system for electrolytic deburring of metal workpieces includes a power supply case, an electrolyte chamber, an anode, a cathode and a nozzle. The power supply case includes an anode connector and a cathode connector. Electrolyte is received in the electrolyte chamber. The anode holds at least one of workpiece and is immersed in the electrolyte, and electrically connected to the anode connector. The cathode is positioned in the electrolyte chamber and electrically connected to the cathode connector , and at least a part of the cathode is immersed in the electrolyte. The nozzle is positioned in the electrolyte chamber and sprays the electrolyte under pressure to form a vortex and turbulence for deburring metal. The disclosure also supplies a method of electrolytic deburring of metal. | 09-12-2013 |
20140060592 | CLEANING DEVICE - A cleaning device includes a first linearly driving assembly, a second linearly driving assembly, a rotation driving assembly, and a sprayer connected one by one in that order. The first linearly driving assembly drives the second linearly driving assembly, the rotation driving assembly, and the sprayer to move along a first direction. The second linearly driving assembly drives the rotation driving assembly and the sprayer to move along a second direction. The rotation driving assembly rotates the sprayer along an axis perpendicular to the first direction and the second direction. | 03-06-2014 |
Patent application number | Description | Published |
20140247024 | SAFE ELECTRIC POWER REGULATING CIRCUIT - A safe electric power regulating circuit is connected between a power supply and a voltage boost/buck circuit to regulate the output voltage by the power supply to have a target voltage through the voltage boost/buck circuit. A switching device includes a switch unit, a first diode, and a first capacitor. The switch unit includes a first end, a second end, and a third end. The first end is connected to the power supply, and the second end is connected to the voltage boost/buck circuit. The switch unit is controlled to connect the third end to the first end or the second end. The first diode has one end connected to the first end of the switch unit. The first capacitor has one end connected to the third end of the switch unit and the other end connected to circuit ground. | 09-04-2014 |
20140326967 | OLED TOUCH DISPLAY PANEL STRUCTURE - An OLED touch display panel structure includes an upper substrate, a lower substrate, a cathode layer, an anode layer, and a thin film transistor and sensing electrode layer. The thin film transistor and sensing electrode layer includes a scan line sub-layer and a data line sub-layer. The scan line sub-layer has a plurality of scan lines arranged in a first direction and a plurality of sensing conductor segments arranged in a second direction. The plurality of sensing conductor segments arranged in the second direction are separated by the plurality of scan lines. The data line sub-layer is disposed at one side of the scan line sub-layer facing the OLED layer and has a plurality of data lines arranged in the second direction and a plurality of sensing conductor segments arranged in the first direction. The plurality of sensing conductor segments arranged in the first direction are separated by the plurality of scan lines. | 11-06-2014 |
20140326968 | IN-CELL OLED TOUCH DISPLAY PANEL STRUCTURE - An in-cell OLED touch display panel structure includes an upper substrate, a lower substrate, a thin film transistor and sensing electrode layer, a cathode layer, and an anode layer. The upper substrate and the lower substrate are parallel to each other and the OLED layer is disposed between the upper and lower substrates. The thin film transistor and sensing electrode layer includes a plurality of gate lines, a plurality of source lines, and a plurality of sensing conductor lines for driving a corresponding pixel driving transistor according to a display pixel signal and a display driving signal. The plurality of sensing conductor lines are disposed corresponding to positions of the plurality of gate lines and the plurality of source lines. | 11-06-2014 |
20140361277 | HIGH-ACCURACY OLED TOUCH DISPLAY PANEL STRUCTURE - A high-accuracy OLED touch display panel structure includes an upper substrate, a lower substrate, an OLED layer configured between the upper and lower substrates, a sensing electrode layer, a thin film transistor and wiring layer, a cathode layer, and an anode layer. The sensing electrode layer has a plurality of sensing conductor lines for sensing an approaching external object. The thin film transistor and wiring layer includes a plurality of gate lines, a plurality of source lines, and a plurality of wirings. The plurality of sensing conductor lines are disposed corresponding to positions of the plurality of gate lines and the plurality of source lines. | 12-11-2014 |
20140368756 | HIGH-ACCURACY FLAT TOUCH DISPLAY PANEL STRUCTURE - A high-accuracy flat touch display panel structure includes an upper substrate, a lower substrate, a liquid crystal layer configured between the upper and lower substrates, a thin film transistor and wiring layer, and a sensing electrode layer. The thin film transistor and wiring layer is disposed at one side of the lower substrate facing the liquid crystal layer, and includes a plurality of gate lines, a plurality of source lines, and a plurality of wirings. The sensing electrode layer is disposed at one side of the thin film transistor and wiring layer facing the liquid crystal layer, and has a plurality of sensing conductor lines. The plurality of sensing conductor lines are disposed corresponding to positions of the plurality of gate lines and the plurality of source lines. | 12-18-2014 |
20150022470 | HIGH-ACCURACY OLED TOUCH DISPLAY PANEL STRUCTURE OF NARROW BORDER - A high-accuracy OLED touch display panel structure of narrow border includes an upper substrate, a lower substrate, an OLED layer configured between the upper and lower substrates, a sensing electrode layer, a thin film transistor layer, a cathode layer, and an anode layer. The sensing electrode layer has a plurality of first conductor line units. The thin film transistor layer includes a plurality of gate lines, a plurality of source lines, and a plurality of second conductor line units. The plurality of first conductor line units and the plurality of second conductor line units form a sensing touch pattern structure for sensing an approaching external object. The plurality of first conductor line units and the plurality of second conductor line units are disposed corresponding to positions of the plurality of gate lines and the plurality of source lines. | 01-22-2015 |
20150042612 | IN-CELL TOUCH DISPLAY STRUCTURE - An in-cell touch display structure includes: an upper substrate, a lower substrate, a liquid crystal layer configured between the upper and lower substrates; a black matrix layer, and a thin film transistor and sensing electrode layer. The thin film transistor and sensing electrode layer includes a gate line sub-layer having a plurality of gate lines and a plurality of connection segments separated by the gate lines, and a source line sub-layer having a plurality of source lines and a plurality of sensing conductor segments separated by the source lines, wherein part of the sensing conductor segments and part of the connection segments are electrically connected together to form a plurality of sensing conductor blocks. | 02-12-2015 |
Patent application number | Description | Published |
20140103956 | POWER SUPPLY DETECTION CIRCUIT AND METHOD - A power supply detection circuit includes a controller including a power module for supplying an input voltage to a to-be-tested power supply unit, a controlling module, a signal module, and a detection module, a resistor, and a MOSFET. A first end of the resistor connects an output end of the power supply unit. A second end of the resistor connects to the MOSFET. The MOSFET connects to the signal module. The detection module connects the output end. The control module controls the signal module to generate a pulse signals. The MOSFET is turned on to connect the resistor to the power supply unit to generate a fast-rising current when the pulse signal is in a high level. The detection module detects an output voltage of the output end, to confirm whether the output voltage is equal to the input voltage. This patent further discloses a power supply detection method. | 04-17-2014 |
20140111014 | CHARGING AND DISCHARGING SYSTEM AND METHOD FOR BATTERY - A charging and discharging system for a battery includes an adapter, a charging controller, a converting module, and a battery. The adapter receives an AC voltage, converts the AC voltage to a DC voltage, and electrically connects the charging controller to the converting module. When the adapter is supplying power, the charging controller can switch on and switch off the converting module, and the converting module accordingly connects and disconnects the adapter to or from the battery. When the adapter is not supplying power, the battery provides power for the electronic device. Therefore, the battery is electrically isolated from the adapter and can be protected from a sudden power surge when the adapter is powered on. | 04-24-2014 |
20140117954 | POWER SUPPLY CIRCUIT - A power supply circuit is configured to supply a working voltage for an electric load. The power supply circuit includes a controller and a power supply module connected to the controller. The power supply module includes a first output channel and a second output channel both of which are connected to the electric load. A current sensor is connected to the controller and configured to sense a current output from the first output channel. Either the first output channel or the second output channel is deactivated by the controller when the current sensed by the current sensor is less than a predetermined current value. Both of the first output channel and the second output channel are activated when the current sensed by the current sensor is greater than the predetermined current value. | 05-01-2014 |
20140168088 | KEYBOARD WITH LIGHTING APPARATUS AND LIGHTING METHOD THEREOF - A keyboard includes a key portion, an inputting detecting module, and a lighting controlling module. The key portion includes a plurality of key caps aligned in a regular fashion. Each of the plurality of key caps includes a letter identifier and a first assistant identifier and a second assistant identifier printed thereon. The inputting detecting module detects a current input of a letter of the alphabet, a first assistant identifier, or a second assistant identifier, of the keyboard. The lighting controlling module is connected to the inputting detecting module. The lighting controlling module lights the particular identifier, either letter, or first assistant identifier, or second assistant identifier, on the key cap when the inputting detecting module detects such an input by the keyboard. | 06-19-2014 |
20140368177 | VOLTAGE ADJUSTMENT SYSTEM - A voltage adjustment system includes an adjust module, a control module, and a load module. The adjust module includes a voltage converting unit which includes a buck converter and an inductor. The control module includes a first resistor, a second resistor, and a variable resistance unit. The load module is electrically connected to the buck converter via the inductor. A connecting point between the inductor and the load module is grounded via the first resistor and the second resistor in series. A connecting point between the first resistor and the second resistor is grounded via the variable resistance unit. The variable resistance unit includes a thermal resistor located adjacent to the inductor. A resistance of the thermal resistor changes when a temperature of the inductor changes. An equivalent resistance of the variable resistance unit changes to adjust a voltage received by the load module. | 12-18-2014 |
20140368959 | OVER-CURRENT REGULATING SYSTEM - An over-current regulating system includes a protecting resistor, an amplifying circuit, and a comparing circuit. The protecting resistor is configured to be electrically coupled to a power supply unit. The amplifying circuit is electrically coupled to the protecting resistor and the comparing circuit and configured to amplify a voltage of the protecting resistor, and output the amplified voltage value to the comparing circuit. The comparing circuit is configured to determine whether the amplified voltage is greater than a first predetermined value when the comparing circuit is coupled to the power supply unit. When the voltage is greater than the first predetermined value, the comparing circuit outputs a controlling signal to reduce a work frequency of a load. | 12-18-2014 |
Patent application number | Description | Published |
20140013591 | MACHINING SYSTEM - A machining system includes two machining devices. Each machining device includes a bracket and a machining unit, a transferring unit, a control unit mounted on the bracket. The transferring unit includes a driving member and a transferring member connected to the driving member. The control unit is electrically connected to the machining unit and the driving member. The two machining devices are arranged in a straight line. The transferring members are connected in order. The control unit of one machining device controls the machining unit to machine the workpiece, and when the machining unit has finished machining the workpiece, the control unit controls the driving member to drive the transferring member, thus the transferring member of one machining device conveys the workpiece to the transferring member of an adjacent machining device. | 01-16-2014 |
20140112750 | TRANSFERRING MECHANISM - A transferring mechanism for transferring a workpiece from a tray to a fixture is provided. The transferring mechanism includes a main bracket defining an uploading hole thereon, an uploading assembly, a pick-up assembly and a transferring assembly. The pick-up assembly is located under the uploading hole. The pick-up assembly is mounted on the main bracket above the uploading hole. The transferring assembly includes a fixing bracket and a first transferring subassembly and a blocking member. The fixing bracket is mounted on the main bracket and located under the pick-up assembly. The first transferring subassembly is mounted on the fixing bracket. The blocking member is mounted on the first transferring subassembly and includes a driving portion. The driving portion moves upward to block and position the fixture to enable the pick-up assembly to release the workpiece on the fixture. | 04-24-2014 |
20150210481 | DETECTING SYSTEM AND DETECTING METHOD FOR PRODUCTS - A detecting system for checking shapes, sizes, and/or positions of products, includes a feeding module configured to transfer the products into the detecting system, a detecting module configured to detect the products, a discharging module configured to remove the products out of the detection system, a conveying module configured to transport the products, a data processing module configured to deal with the data information measured by the detecting module, and an electronic control module configured to control the feeding module, the detecting module, the discharging module, the conveying module, and the data processing module. The detecting module includes a first detection module configured to get size and position images of the products, and a second detecting unit configured to detect a gap between two planes of the products. The present disclosure also discloses a detecting method for products. | 07-30-2015 |
Patent application number | Description | Published |
20140111382 | DUAL BAND ANTENNA AND WIRELESS COMMUNICATION DEVICE EMPLOYING SAME - A dual band antenna includes a first radiating portion, a second radiating portion, and a resonating portion. The first radiating portion includes a first feeding arm that feeds first signals at a first frequency band. The second radiating portion is positioned spaced apart from the first radiating portion. The second radiating portion includes a second feeding arm that feeds second signals at a second frequency band. The resonating portion is connected between the first radiating portion and the second radiating portion. The resonating portion resonates with the first and second radiating portions to generate two different frequency bands, so that the dual band antenna receives and sends wireless signals at the first and second frequency bands. | 04-24-2014 |
20140285381 | ANTENNA STRUCTURE - An antenna structure includes a feed portion, a first radiating body, and a resonating section. The first radiating body includes first and second shared sections, and first, second, and third extending sections. The resonating section and the first shared section are connected to the feed portion and on receiving feed signals. The first radiating body achieves a first required frequency band. The first shared section and the resonating section together resonate at a second required frequency band. The first shared section and the second shared section together resonate at a third required frequency band. | 09-25-2014 |
20140320349 | ANTENNA STRUCTURE - An antenna structure includes a feed portion, a ground portion, a primary antenna, a secondary antenna, and a metal portion connected to the ground portion. The primary antenna includes first and second radiating portions. The first radiating portion and the second radiating portion are both connected to the feed portion and are positioned at opposite sides of the feed portion. The secondary antenna includes third and fourth radiating portions. The third radiating portion and the fourth radiating portion are connected to the ground portion and positioned at two sides of the ground portion. | 10-30-2014 |
20140354488 | ANTENNA STRUCTURE AND WIRELESS COMMUNICATION DEVICE EMPLOYING SAME - An antenna structure is electronically connected to a connector of a wireless communication device. The connector includes a power terminal and a ground terminal. The antenna structure includes a main antenna, a secondary antenna, and two posts. The main antenna includes a feed portion and a ground portion. The secondary antenna extends from the main antenna. One post electronically connects the power terminal of the connector to the feed portion, and the other post electronically connects the ground terminal of the connector to the ground portion. A wireless communication device employing the antenna structure is also described. | 12-04-2014 |
20140354508 | MULTI-BAND ANTENNA AND WIRELESS COMMUNICATION DEVICE EMPLOYING SAME - A multi-band antenna includes a radiating portion, a feed portion, a ground portion, a first switch module, and a second switch module. The radiating portion includes a plurality of connecting ends. The ground portion includes two ground sections with different impedances. The first switch module connects the feed portion to a first connecting end or a second connecting end, and the second switch module connects one of the ground sections to a third connecting end or a fourth connecting end. A wireless communication device employing the multi-band antenna is also disclosed. | 12-04-2014 |
20150155633 | ANTENNA STRUCTURE AND WIRELESS COMMUNICATION DEVICE USING THE ANTENNA STRUCTURE - An antenna structure includes a feed portion, a ground portion, a connecting portion, a first radiating portion, a second radiating portion, and a resonance portion. The ground portion is spaced apart from the feed portion. The connecting portion is electrically connected to the feed portion. The first radiating portion and the second radiating portion are both electrically connected to the connecting portion. The resonance portion is electrically connected to the ground portion. The connecting portion and the resonance portion define a slot therebetween. | 06-04-2015 |