Binglong
Binglong Li, Shenzhen City CN
Patent application number | Description | Published |
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20140291125 | Roller for Transporting Glass Substrate and Transporting Device Thereof - The present invention provides a roller for transporting glass substrate and a transporting device thereof. Wherein, the roller comprises: a cylindrical body and an outside layer coated on the side of the cylindrical body. The distance between the top and the bottom of the cylindrical body is 100˜120 mm, the cylindrical body is made of MC nylon, and the outside layer is polyurethane coating. In the roller and the transporting device of the transporting glass substrate according to the present invention, the roller is widened, which is made of the material with better buffering performance. When it is used for transporting the glass substrate, the contact area between the roller and the glass substrate will be increased. And the distance between the rollers is decreased, so that the glass substrate will be transported steadily with average stress, and the structural damage of the substrate will be decreased, which avoids the mura problems and improves the level and quality of the glass substrate. | 10-02-2014 |
Binglong Qiu, Zhongshan CN
Patent application number | Description | Published |
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20140139917 | MAGNETO-OPTIC SWITCH - Systems, methods, and apparatus for optical switching. In some implementations, a magneto-optic switch includes multiple optical components positioned in order along a light path including: a single optical fiber collimator, a first pair of refraction crystals, a first half wave plate assembly, refraction components, a second half wave plate assembly, a second pair of refraction crystals, and a dual fiber optic collimator, wherein a first side of the refraction components near the first half wave plate assembly includes a first Faraday effect element, a second side of the refraction components near the second half wave plate assembly includes an optic rotation assembly, the optic rotation assembly having a magnetic field generating component outside the first Faraday effect element. | 05-22-2014 |
20140139918 | MAGNETO-OPTIC SWITCH - Systems, methods, and apparatus for optical switching. In some implementations, a magneto-optic switch includes multiple optical components positioned in order along a light path including: a single fiber optical collimator, a first birefringent optic crystal, a first half wave plate assembly, a polarization rotation assembly, a second half wave plate assembly, a second birefringent optic crystal, and a dual fiber optic collimator, wherein a first side of the polarization rotation assembly near the first half wave plate assembly includes a first Faraday rotator element, a second side of the polarization rotation assembly near the second half wave plate assembly includes an optic rotation component, the polarization rotation assembly having a magnetic field generating component outside the first Faraday rotator element. | 05-22-2014 |
Binglong Xie, San Diego, CA US
Patent application number | Description | Published |
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20140359559 | AUTOMATED GRAPH-BASED PROGRAMMING - A method includes capturing an image of a scene that includes a diagram. The method further includes applying functional block recognition rules to image data of the image to recognize functional blocks of the diagram. The functional blocks include at least a first functional block associated with a first computer operation. The method further includes determining whether the functional blocks comply with functional block syntax rules. A functional graph is computer-generated based on the functional blocks complying with the functional block syntax rules. The functional graph corresponds to the diagram, and the functional graph includes the functional blocks. | 12-04-2014 |
20140359563 | EFFICIENT EXECUTION OF GRAPH-BASED PROGRAMS - A method includes accessing, at a computing device, data descriptive of a graph representing a program. The graph includes multiple nodes representing execution steps of the program and includes multiple edges representing data transfer steps. The method also includes determining at least two heterogeneous hardware resources of the computing device that are available to execute code represented by one or more of the nodes, and determining one or more paths from a source node to a sink node based on a topology of the graph. The method further includes scheduling execution of code at the at least two heterogeneous hardware resources. The code is represented by at least one of the multiple nodes, and the execution of the code is scheduled based on the one or more paths. | 12-04-2014 |