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 |