WO/2015/176237 CRYSTAL HEAD AND METHOD FOR MANUFACTURING SAME||WO||26.11.2015|
||PCT/CN2014/077947||MEILU ELECTRONICS (SHENZHEN) CO., LTD. ||YEN, Ping |
Disclosed in the present invention is a crystal head, comprising a terminal having metal contacts provided therein and a groove set on the upper surface of the front end of the terminal. A buckle resilient piece is connected above the terminal through injection molding, a projection matched with the size of the groove is provided on the front end of the buckle resilient piece, and the projection is tightly embedded in the groove. The top of the buckle resilient piece extends downwards and is embedded in the front of the terminal. The buckle resilient piece is made of polyamide (NYLON) or polyoxymethylene (POM) material, and the terminal is made of polycarbonate resin (polycarbonate resin) material. Also disclosed in the present invention is a method of manufacturing the crystal head. The buckle resilient piece can be repeatedly pressed and bent without being broken, and can be firmly fixed on the terminal.
WO/2015/176209 CHANNEL STATE INFORMATION REPORTING ENHANCEMENT FOR NETWORK ASSISTED INTERFERENCE CANCELLATION AND SUPPRESSION||WO||26.11.2015|
||PCT/CN2014/077792||PANASONIC INTELLECTUAL PROPERTY CORPORATION OF AMERICA ||EINHAUS, Michael |
The present invention relates to reporting feedback concerning reception quality under at least two different assumptions of interference conditions, i. e. two interference hypotheses.In particular, a first and a second reception quality are determined for the same reference resource under two different interference hypotheses. The first and the second reception quality are then transmitted within the same channel state message.
WO/2015/176218 SINGLE-CYLINDER BOLT STRETCHING DEVICE AND CRANE||WO||26.11.2015|
||PCT/CN2014/077838||XUZHOU HEAVY MACHINERY CO., LTD. ||ZHANG, Haiyan |
A single-cylinder bolt stretching device and a crane are disclosed. The single-cylinder bolt stretching device is applied to a stretching arm system, and comprises: a stretching oil cylinder (5) used for driving each stretching arm (1) in a stretching arm system to make stretching motion relative to a basic arm; double arm bolt structures (3) arranged on two sides of the tail part of each stretching arm (1) and used for realizing locking and unlocking between each stretching arm (1); an arm bolt pulling and inserting mechanism (4) arranged on the cylinder barrel of the stretching oil cylinder (5) and used for pulling and inserting the double arm bolt structures (3); cylinder bolt structures (2) and cylinder bolt oil cylinders (42) arranged on the cylinder barrel of the stretching oil cylinder (5) and used for realizing locking and unlocking between the cylinder barrel of the stretching oil cylinder (5) and each stretching arm (1). The double arm bolt structures of the single-cylinder bolt stretching device are arranged at two sides of the stretching arm and are more uniform in stress than the structure arranged on the upper side of a suspending arm, so that the influences of flexibility deformation of a crane arm on the bolt hole position and the arm bolt stress situation are reduced.
WO/2015/176243 IMPROVED RING TOPOLOGY STRUCTURE AND APPLICATION METHOD THEREOF||WO||26.11.2015|
||PCT/CN2014/077977||HUAWEI TECHNOLOGIES CO., LTD. ||SONG, Liang |
The present invention relates to the field of photoelectric communications. Provided are an improved ring topology structure and application method thereof. The improved ring topology structure is formed by m*n routing nodes connected via a mesh topology structure, and comprises two closed loops: a first routing node in the Kth row is connected to the nth routing node in the (K+1)th row, and the nth routing node in a second row is connected to the first routing node in the (m-1)th row, such that all routing nodes from the second row to the (m-1)th row form a first closed loop, and 1
WO/2015/176300 ELECTRONIC CIGARETTE||WO||26.11.2015|
||PCT/CN2014/078245||KIMREE HI-TECH INC. ||LIU, Qiuming |
An electronic cigarette comprising an electronic cigarette body. The electronic cigarette body comprises a fixing element (4), an e-liquid vial connector (2) movably inserted in the fixing element (4), an e-liquid vial (3) detachably connected to the e-liquid vial connector (2) and accommodated within the electronic cigarette body, a mouthpiece (1) movably arranged at one extremity of the electronic cigarette body away from the e-liquid vial (3), an atomizing component (100), and a battery component. When a thrust running in the direction towards the e-liquid vial (3) is applied to the mouthpiece (1), same is capable of pushing against the e-liquid vial connector (2) to allow the e-liquid vial (3) to be exposed from the electronic cigarette body. The e-liquid vial (3) stores an e-liquid and the e-liquid vial (3) is detachably connected to the e-liquid vial connector (2), thus facilitating a user in that, when replenishing the e-liquid in the e-liquid vial (3) or replacing with an e-liquid of a different flavor, only the e-liquid vial (3) needs to be replaced to complete the process, while the need for replacing the atomizing component (100) is obviated, thus simplifying assembly. The e-liquid vial (3) is accommodated within the electronic cigarette body, thus reducing risks of the e-liquid vial (3) being damaged when impacted by an external force; when detaching the e-liquid vial (3), the mouthpiece (1) needs to be pressed first to allow the e-liquid vial (3) to be exposed from the electronic cigarette body, thus preventing a child from accidentally detaching the e-liquid vial (3) or even accidentally ingesting the e-liquid in the e-liquid vial (3).
WO/2015/176326 DISPLAY PANEL AND DISPLAY DEVICE||WO||26.11.2015|
||PCT/CN2014/078374||SHENZHEN CHINA STAR OPTOELECTRONICS TECHNOLOGY CO., LTD. ||XU, Xiangyang |
A display panel; the display panel comprises at least two sub-pixel units; the sub-pixel units comprise blue sub-pixels (B1, B2, B3, B4), red sub-pixels (R1, R2, R3, R4) and green sub-pixels (G1, G2, G3, G4); the blue sub-pixels (B1, B2, B3, B4) in the same sub-pixel unit are arranged adjacent to each other; the red sub-pixels (R1, R2, R3, R4) in the same sub-pixel unit are arranged adjacent to each other; and the green sub-pixels (G1, G2, G3, G4) in the same sub-pixel unit are arranged adjacent to each other. The display panel automatically switches between a 2D image and a 3D image, thus providing smoother pictures.
WO/2015/176220 SULFUR DOPING METHOD FOR GRAPHENE||WO||26.11.2015|
||PCT/CN2014/077840||SHANGHAI INSTITUTE OF MICROSYSTEM AND INFORMATION TECHNOLOGY, CHINESE ACADEMY OF SCIENCES ||LI, Tie |
Provided is a sulfur doping method for graphene. The method comprises the steps of: 1) providing graphene and placing the grapheme in a chemical vapor deposition reaction chamber; 2) performing ventilation and exhaust treatment on the reaction chamber by using an inert gas; 3) introducing a sulfur source gas to perform sulfur doping on the graphene at 500ºC to 1050ºC; and 4) cooling the reaction chamber in a hydrogen and inert gas atmosphere. By using the method, large-scale sulfur doping can be directly performed on graphene on an insulation substrate or a metal substrate.
WO/2015/176224 ECHO CANCELLATION FOR HIGH SPEED FULL DUPLEX DATA TRANSMISSIONS||WO||26.11.2015|
||PCT/CN2014/077861||LATTICE SEMICONDUCTOR CORPORATION ||WU, Qiming |
Systems, devices and methods for analog echo cancellation for high speed full duplex data transmissions, which include a first set of differential nodes to receive reception data and transmission data, a second set of differential nodes to receive the transmission data, and a subtraction circuit to receive data from the first set of differential nodes and data from the second set of differential nodes. The subtraction circuit includes a plurality of capacitors to receive data from each of the first and second sets differential nodes, and a termination circuit for providing DC termination voltage to subtract the data of the second set of differential nodes from the data of the first set of differential nodes to eliminate echo from the reception data received at the first set differential nodes.
WO/2015/176239 DATA TRANSMISSION METHOD, BASE STATION, AND TERMINAL||WO||26.11.2015|
||PCT/CN2014/077958||HUAWEI TECHNOLOGIES CO., LTD. ||LIU, Jiang |
Disclosed are a data transmission method, a base station, and a terminal. The base station comprises: a first receiving module, used for receiving a first instruction message sent by a terminal to be handed over from the base station to a target base station, the first instruction message being used for instructing the base station to send a to-be-pushed content block to the target base station; a determining module, used for determining the to-be-pushed content block according to the first instruction message received by the first receiving module; and a first sending module, used for sending to the target base station the to-be-pushed content block determined by the determining module. In the data transmission method, the base station and the terminal in embodiments of the present invention, when a terminal is handed over between base stations, an original base station actively pushes buffered content to a target base station, so that the data transmission delay caused by handovers between the base stations can be reduced, thereby improving user experience.
WO/2015/176291 WIRELESS FIDELITY WIFI BACK HAUL METHOD AND DEVICE||WO||26.11.2015|
||PCT/CN2014/078215||HUAWEI TECHNOLOGIES CO., LTD. ||ZHU, Hufei |
The present invention relates to the technical field of communications, particularly to a WiFi back haul method and device. The method comprises: in the solution, after detecting an idle WiFi channel, a transmission end notifies a receiving end that the idle WiFi channel transmission end is available by transmitting a data transmission request message on the idle WiFi channel; the receiving end determines WiFi back haul channels from the idle WiFi channel detected by the transmission end; and the transmission end transmits data packets on at least two discontinuous WiFi channels in the WiFi back haul channels determined by the receiving end. Even if the specified WiFi channel is discontinuous, transmission can be conducted, thus improving resource utilization and transmission efficiency.