Patent application number | Description | Published |
20140125157 | Poly-Phase Reluctance Electric Motor with Transverse Magnetic Flux - Disclosed is a poly-phase reluctance electric motor with transverse magnetic flux, which electric motor is composed of a stator and a rotor. The stator is composed of a housing ( | 05-08-2014 |
20140125181 | Magnetic Field-Modulated Transverse Flux Multiphase Permanent Magnet Motor - A magnetic field-modulated transverse flux multiphase permanent magnet motor consisting of a stator and a rotor. A number m of phase armature units are arranged in a row along the axial direction within a motor housing ( | 05-08-2014 |
20140252888 | Permanent magnet synchronous planar motor with structure of concentric winding - A permanent magnet synchronous planar motor with a structure of concentric winding comprises a primary structure, a secondary structure, and an air gap. Armature windings in the primary structure of the permanent magnet synchronous planar motor are fixed on an air gap side of the primary base plate in a shape of board, wherein the air gap side is defined as a side adjacent to the air gap. The armature winding of each phase comprises a plurality of concentric rectangular coils. The rectangular coils are connected in series in turn from inside to outside, and winding directions of the two adjacent rectangular coils are opposite. A distance L | 09-11-2014 |
20140327327 | Magnetic suspension planar motor with structure of superconductor excitation - A magnetic suspension planar motor comprises a structure of superconductor excitation. A primary base plate is in a shape of board. Armature windings are fixed on an air gap side of the primary base plate. A secondary base plate in a secondary structure is evenly divided into 2 h*2 h magnet cells. 2 h | 11-06-2014 |
Patent application number | Description | Published |
20130049903 | ARTIFICIAL MICROSTRUCTURE AND METAMATERIAL WITH THE SAME - An artificial microstructure made of conductive wires includes a split resonant ring with a split, and two curves. The two curves respectively start from first end and the second end of the split resonant ring and curvedly extend inside the split resonant ring, where the two curves do not intersect with each other, and do not intersect with the split resonant ring. | 02-28-2013 |
20130089715 | ARTIFICIAL ELECTROMAGNETIC MATERIAL - An artificial electromagnetic material is provided. The artificial electromagnetic material includes at least one material sheet. Each material sheet includes a laminary substrate and a plurality of artificial microstructures attached to the substrate. The substrate is made from transparent material. Because the substrate is made from transparent material, therefore the artificial electromagnetic material is capable of generating responses to visible light wave and convergence, divergence, deflection of visible light wave and so on can be achieved. | 04-11-2013 |
20130108856 | ARTIFICIAL MICROSTRUCTURE AND ARTIFICIAL ELECTROMAGNETIC MATERIAL USING THE SAME | 05-02-2013 |
20130154901 | ARTIFICIAL MICROSTRUCTURE AND METAMATERIAL USING THE SAME - The present invention provides an artificial microstructure including a first metal wire, a second metal wire parallel to the first metal wire, at least one first metal wire branch and at least one second metal wire branch. The at least one first metal wire branch and the at least one second metal wire branch are distributed in an interlacement arrangement. One end of the at least one first metal wire branch is connected to the first metal wire; the other end is a free end facing towards the second metal wire. One end of the at least one second metal wire branch is connected to the second metal wire, and the other end of the at least one second metal wire is a free end facing towards the first metal wire. The present invention also discloses a metamaterial with the artificial microstructures. | 06-20-2013 |
20130154902 | ARTIFICIAL ELECTROMAGNETIC MATERIAL - An artificial electromagnetic material includes at least one material sheet. Each material sheet includes a substrate and a plurality of artificial microstructures attached to the substrate. Each substrate is virtually divided into multiple of substrate units arranged into an array. A pair of artificial microstructures is attached to each substrate. The pair of artificial microstructures includes a first artificial microstructure and a second artificial microstructure with different shapes. The dielectric constant of artificial electromagnetic materials gradually increases from zero in a certain frequency range, therefore the material has a low dielectric constant in the certain frequency range and can meet some needs of special situation. | 06-20-2013 |
20130164508 | ARTIFICIAL MICROSTRUCTURE AND ARTIFICIAL ELECTROMAGNETIC MATERIAL USING THE SAME - An artificial microstructure comprises two “I” shaped metal wire structures. The two “I” shaped metal wire structures are separated to each other. The present invention also discloses an artificial electromagnetic material using the artificial microstructures. The artificial electromagnetic material has high resonance frequency, wide effective frequency band and has a wide application range. | 06-27-2013 |
20140011002 | ARTIFICIAL MICROSTRUCTURE AND ARTIFICIAL ELECTROMAGNETIC MATERIAL USING THE SAME - An artificial microstructure used in artificial electromagnetic material includes a first line segment and a second line segment. The second line segment is perpendicular to the first line segment. The first line segment and the second line segment intersect with each other to form a cross-type structure. The present disclosure further relates to an artificial electromagnetic material using the artificial microstructure. | 01-09-2014 |
20140043124 | ARTIFICIAL ELECTROMAGNETIC MATERIAL - The present invention provides an artificial electromagnetic material, comprising at least one material sheet layer; wherein each material sheet layer is provided with a first substrate and a second substrate which are oppositely arranged; and a plurality of artificial microstructures are attached on a surface, facing the second substrate, of the first substrate. The first substrate and the second substrate on both sides of the artificial microstructure are in such tight contact therewith that the number of electric field lines passing through the substrates is increased and the equivalent permittivity of the artificial electromagnetic material is effectively improved. | 02-13-2014 |
20140111365 | ARTIFICIAL MICROSTRUCTURE AND ARTIFICIAL ELECTROMAGNETIC MATERIAL USING THE SAME - The present invention provides an artificial microstructure. The artificial microstructure includes at least three split rings. The at least three split rings surround and embed in turn. Each split ring is formed by a wire which is made of conductive material, with two terminals of the wire towards each other to form an opening of the corresponding split ring. The present invention also provides an artificial electromagnetic material using the artificial microstructure. The artificial electromagnetic material with the artificial microstructure can achieve the function of broadband wave-absorbing. | 04-24-2014 |
20150138009 | WIDE-FREQUENCY WAVE-ABSORBING METAMATERIAL, ELECTRONIC DEVICE AND METHOD FOR OBTAINING WIDE-FREQUENCY WAVE-ABSORBING METAMATERIAL - The disclosure discloses a wide-frequency wave-absorbing metamaterial, which comprises a plurality of layers of substrates and microstructures respectively arranged on the substrates at different layers. The wave-absorbing frequency band of the wide-frequency wave-absorbing metamaterial is relatively wide. The disclosure further discloses an electronic device and a method for obtaining a wide-frequency wave-absorbing metamaterial. By using the foregoing manner, the disclosure can enable a wave-absorbing metamaterial to significantly increase a wave-absorbing bandwidth based on a relatively good electromagnetic wave absorbing effect. | 05-21-2015 |
20150380830 | ARTIFICIAL MICROSTRUCTURE AND ARTIFICIAL ELECTROMAGNETIC MATERIAL USING THE SAME - The present invention provides an artificial microstructure. The artificial microstructure includes at least three split rings. The at least three split rings surround and embed in turn. Each split ring is formed by a wire which is made of conductive material, with two terminals of the wire towards each other to form an opening of the corresponding split ring. The present invention also provides an artificial electromagnetic material using the artificial microstructure. The artificial electromagnetic material with the artificial microstructure can achieve the function of broadband wave-absorbing. | 12-31-2015 |
Patent application number | Description | Published |
20100151486 | OSTEOPONTIN FUNCTIONAL EPITOPES, MONOCLONAL ANTIBODIES AGAINST THE EPITOPES AND USES THEREOF - Provided are functional epitopes of osteopontin (OPN), monoclonal antibodies that specifically bind to the epitopes, immunoconjugates comprising the monoclonal antibodies and use of the monoclonal antibodies or immunoconjugates for manufacturing a medicament for the treatment of tumor. Also provided are nucleotide sequences encoding the monoclonal antibodies and vectors and host cells comprising the sequences. The monoclonal antibodies or immunoconjugates can be used for detecting the OPN, blocking the promoting metastasis-signaling pathway mediated by OPN and preventing the development and metastasis of tumor, thereby inhibiting the tumor. | 06-17-2010 |
20100239588 | THE FUNCTIONAL EPITOPE OF OSTEOPONTIN, THE ANTI-OSTEOPONTIN MONOCLONAL ANTIBODY AND USE THEREOF - The present invention discloses the functional epitope of osteopontin; the anti-osteopontin monoclonal antibody and immune conjugate raising against the functional epitope and their use for preparing anti-tumor drug. The present invention also discloses the DNA sequence encoding the monoclonal antibody, the vector and host cell containing the DNA sequence. The monoclonal antibody and immune conjugate of present invention can also be used to detect OPN. Through inhibiting OPN, the monoclonal antibody or immune conjugate of present invention can remedy or respite autoimmune diseases and protect correlative tissues, so they can be used to remedy autoimmune diseases. | 09-23-2010 |
20110111495 | CONCENTRATED MEDIUM AND ITS USAGE - This invention discloses a kind of concentrated medium for large-scale culture of Chinese Hamster Ovary cell. The said medium comprises basic medium and high dose additives. This invention also discloses the method of adding the described concentrated medium in large-scale fed-batch culture of CHO cells. | 05-12-2011 |
Patent application number | Description | Published |
20130126870 | Thin Film Transistor, Array Substrate, Device and Manufacturing Method - The present invention discloses a TFT, an array substrate, a device and a manufacturing method. The TFT comprises a conductive metal layer; an insulting oxidizing layer is formed on the surface of the metal layer. In the present invention, because the oxidation treatment is conducted on the surface of the metal layer, the insulating oxidizing layer is formed and can substitute for the silicon nitride as a TFT barrier layer; compared with the preparation of a silicon nitride barrier layer needing the drilling crew and the material cost, the preparation of the oxidizing layer needs cheap equipment without increasing further materials so that the cost is saved; in addition, the oxidizing layer only exists on the surface of the metal layer, and has small obstruction for light and low requirement for the penetration rate; thus, the process control is relatively simple and the cost can be further reduced. | 05-23-2013 |
20130141408 | Automatic Optical Detection Method and Optical Automatic Detector - The present invention relates to an automatic optical detection method and an optical automatic detector. The automatic optical detection method includes the following steps: in the step of colored light projection, the lamplight with tricolor light is uniformly projected on an object to be detected to form images with different colors; gray-scale information corresponding to different zones of the images is obtained, then, an automatic optical inspection standard image is generated, and the automatic optical inspection standard image and a prestored reference image are contrastively detected. In the present invention, only the gray-scale information of the images needs processing, so the data quantity and the processing difficulty of an image processing unit and a statistical analysis unit are reduced, which is favorable for increasing the reliability, accuracy, repeatability and speed of data acquisition, and the present invention reduces the requirement of the detector, which is favorable for reducing the input cost of the detector. | 06-06-2013 |
20130239987 | Method for Cleansing Glass Substrate of TFT-LCD - The present invention provides a method for cleansing a glass substrate of a TFT-LCD, includes the following steps: providing an ultrasonic cleansing machine, a glass substrate in-feeding conveyor, and a glass substrate out-feeding conveyor, wherein the ultrasonic cleansing machine includes a cleansing tank, a cleansing liquid contained in the cleansing tank, and first and second ultrasonic frequency generators arranged in the cleansing tank and having different frequencies; conveying a glass substrate with the glass substrate in-feeding conveyor into the cleansing tank; immersing the glass substrate in the cleansing liquid of the cleansing tank; generating ultrasonic waves of different frequencies with the first and second ultrasonic frequency generators to be applied to the cleansing liquid to effect ultrasonic cleansing of the glass substrate; and conveying the cleansed glass substrate out of the cleansing tank with the glass substrate out-feeding conveyor. | 09-19-2013 |
20130319856 | Method for Manufacturing Target Material for Copper Lead of TFT-LCD Array Substrate and Target Material - The present invention relates to a method for manufacturing target material for copper lead of TFT-LCD array substrate and a target material. The method includes (1) providing copper powder and a spark plasma activated sintering device; and (2) placing the copper powder in the spark plasma activated sintering device for sintering to obtain a target material for manufacturing copper lead of TFT-LCD array substrate. The method for manufacturing target material for copper lead of TFT-LCD array substrate according to the present invention uses a spark plasma activated sintering device to sinter copper power for forming a target material. The process is simple and efficiency is high. Also, the orientation of crystalline plane of the target material can be effectively controlled to improve the performance of the target material, whereby a copper lead manufactured with such a target material shows low electrical resistivity, low film stress, and low surface roughness. | 12-05-2013 |
20130335663 | Array Substrate, LCD Device, and Method for manufacturing Array Substrate - The present disclosure discloses an array substrate, an LCD device and a manufacturing method of the array substrate. The TFT-LCD array substrate includes a metal electrode; the metal electrode includes a conducting layer; one side of the conducting layer is provided with an adhesive layer made of VO | 12-19-2013 |
20130341558 | ETCHING SOLUTION FOR COPPER LEAD OF TFT ARRAY SUBSTRATE - The present invention relates to an etching solution for copper lead of TFT array substrate, which includes: primary oxidant, secondary oxidant, chelating agent, inhibitor, and additive. The primary oxidant is hydrogen peroxide and the secondary oxidant is phosphoric acid, sulfuric acid, and nitric acid. The chelating agent is amino compound. The inhibitor is amino azole compound and carboxylate compound. The additive is amine compound containing amino nitrogen and coordinating carboxylate oxygen atom. Through adoption of novel components and types of chelating agent and additive, the etching solution improves the characteristics of relatively short process window for copper lead etching solution, reduces the difficult of engineering control, improves stability of engineering operation and improves yield rate, increases stability of shelf time to thereby provide stable etching performance even in the rear half of shelf time, and extends lifespan (≧5000 ppm). | 12-26-2013 |
20150115224 | OLED DEVICE AND CORRESPONDING DISPLAY APPARATUS - The present invention relates to an OLED device and a corresponding display apparatus, which includes a metal cathode; an organic emitter layer which is disposed on the metal cathode; a transparent cathode which is disposed on the organic emitter layer; and a reflective layer which is disposed between the metal cathode and the organic emitter layer. The reflective layer is an Ag—Mg—Cu alloy layer. The OLED device and the corresponding display apparatus of the present invention have low production cost and high light outputted efficiency. | 04-30-2015 |
Patent application number | Description | Published |
20100179234 | TRANSITION METAL NANOCATALYST, METHOD FOR PREPARING THE SAME, AND PROCESS FOR FISCHER-TROPSCH SYNTHESIS USING THE SAME - The present invention discloses a transition metal nano-catalyst, a method for preparing the same, and a process for Fischer-Tropsch synthesis using the catalyst. The transition metal nano-catalyst comprises transition metal nanoparticles and polymer stabilizers, and the transition metal nanoparticles are dispersed in liquid media to form stable colloids. The transition metal nano-catalyst can be prepared by mixing and dispersing transition metal salts and polymer stabilizers in liquid media, and then reducing the transition metal salts with hydrogen at 100-200° C. The nano-catalyst can be used for F-T synthesis reaction. The process for F-T synthesis using the nano-catalyst comprises contacting a reactant gas mixture comprising carbon monoxide and hydrogen with the catalyst and reacting. The catalyst can rotate freely in three-dimensional space under reaction conditions, and have excellent catalystic activity at a low temperature of 100-200° C. Those reaction conditions are much milder than those for current industrial catalysts for F-T synthesis (200-350° C.). In addition, the transition metal nanoparticles have smaller diameter and narrower diameter distribution, which is beneficial to control product distribution. Meanwhile, the catalyst can be easily separated from hydrocarbon products and reused. All of the above merits imply the broad application prospects of the transition metal nano-catalyst. | 07-15-2010 |
20140039073 | TRANSITION METAL NANOCATALYST, METHOD FOR PREPARING THE SAME, AND PROCESS FOR FISCHER-TROPSCH SYNTHESIS USING THE SAME - The present invention discloses a transition metal nano-catalyst, a method for preparing the same, and a process for Fischer-Tropsch synthesis using the catalyst. The transition metal nano-catalyst comprises transition metal nanoparticles and polymer stabilizers, and the transition metal nanoparticles are dispersed in liquid media to form stable colloids. The transition metal nano-catalyst can be prepared by mixing and dispersing transition metal salts and polymer stabilizers in liquid media, and then reducing the transition metal salts with hydrogen at 100-200° C. The process for F-T synthesis using the nano-catalyst comprises contacting a reactant gas mixture comprising carbon monoxide and hydrogen with the catalyst and reacting. In addition, the transition metal nanoparticles have smaller diameter and narrower diameter distribution, which is beneficial to control product distribution. Meanwhile, the catalyst can be easily separated from hydrocarbon products and reused. | 02-06-2014 |