Patents by Inventor Qin Sun
Qin Sun has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20190208651Abstract: The present disclosure provides a rear structure coupled to a display panel. The rear structure comprises a rear cover comprising a rib structure for supporting the display panel, the rib structure comprising a plurality of horizontal bars, a plurality of vertical bars, and a plurality of blocks, and each of the blocks formed by at least one of the horizontal bars and at least one of the vertical bars. Wherein a first section of the rib structure comprises at least two aligned adjacent horizontal bars and at least two aligned adjacent vertical bars, and a second section of the rib structure comprises at least two non-aligned vertical bars.Type: ApplicationFiled: January 3, 2019Publication date: July 4, 2019Inventors: Wen-Pin Wang, Yao-Shih Chung, I-Ting Huang, Yu-Jen Chang, Hai-Ping Xiang, Hui Huang, Xiu-Gao Yang, Dong-Ping Zhang, Yong Yang, Hui Zhang, Bo Hu, Qin Sun
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Patent number: 10315998Abstract: The present invention belongs to the field of fungicides, and relates to an amide compound and the preparation method and use thereof. The amide compound is as shown in general formula I: Each substituent in Formula I is defined in the description. The compound of general formula I of the present invention has an outstanding fungicidal activity, and can be used for controlling fungal diseases.Type: GrantFiled: May 4, 2016Date of Patent: June 11, 2019Assignee: SHENYANG SINOCHEM AGROCHEMICALS R&D CO., LTD.Inventors: Liang Lv, Gang Wang, Zhonggang Shan, Jiyong Liu, Qin Sun, Junfeng Wang, Bin Li
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Publication number: 20180362450Abstract: Disclosed is a malononitrile oxime ether compound having a novel structure as shown in the general formula I. Respective substituents in the general formula I as defined in the specification. The compound of the general formula I exhibits an excellent microbicidal activity, and can effectively prevent and treat plant diseases caused by bacteria and fungi. Also provided is a use of the compound of the general formula I as a microbicide in the agricultural and other fields.Type: ApplicationFiled: December 22, 2016Publication date: December 20, 2018Applicant: Shenyang Sinochem Agrochemicals R&D Co., Ltd.Inventors: Xueming CHENG, Lixin ZHANG, Liang CHEN, Qin SUN, Junli LIU, Zhinian LI, Jie ZHAO, Jingbo XU, Hongfei WU
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Patent number: 10158596Abstract: Techniques are provided for proposing automatic corrections of online identifiers, such as an email address or a subject name of a directory entry or a certificate. In an embodiment, one or more computers store domain correction records. Each domain correction record comprises a misspelled domain name and candidate domain name corrections. The computers detect that an unprocessed online identifier is not contained in a plurality of known online identifiers. The unprocessed online identifier comprises a misspelled domain name. Each known online identifier of the plurality of known online identifiers comprises a domain name. The computers retrieve, based on the misspelled domain name of the unprocessed online identifier, from the plurality of domain correction records, a matching domain correction record having a same misspelled domain name as the unprocessed online identifiers. A client device displays the one or more candidate domain name corrections of the matching domain correction record.Type: GrantFiled: July 7, 2015Date of Patent: December 18, 2018Assignee: Microsoft Technology Licensing, LLCInventors: David Stephen Mandell Freeman, Qin Sun, Thomas Chow
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Patent number: 9902907Abstract: A gasification system for producing synthetic gas from biomass, including: a biomass material pre-processing part; a pyrolysis part; a condensing part; and a gasification part. The pyrolysis part includes a pyrolysis bed and a combustion bed. The condensate tank of the condensing part is connected to a non-condensable pyrolysis gas compressor via a pipeline; an output of the non-condensable pyrolysis gas compressor is connected to the pyrolysis bed and the combustion bed. The non-condensable pyrolysis gas acts as a fuel of the combustion bed and a fluidizing medium of the pyrolysis bed.Type: GrantFiled: December 29, 2015Date of Patent: February 27, 2018Assignee: WUHAN KAIDI ENGINEERING TECHNOLOGY RESEARCH INSTITUTE CO., LTD.Inventors: Kan Song, Manyi Jiang, Qin Sun, Shirong Zhang, Haiqing Zhang, Jinqiao Zhang
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Publication number: 20180029991Abstract: The present invention belongs to the field of fungicides, and relates to an amide compound and the preparation method and use thereof. The amide compound is as shown in general formula I: Each substituent in Formula I is defined in the description. The compound of general formula I of the present invention has an outstanding fungicidal activity, and can be used for controlling fungal diseases.Type: ApplicationFiled: May 4, 2016Publication date: February 1, 2018Applicant: SHENYANG SINOCHEM AGROCHEMICALS R&D CO., LTDInventors: Liang LV, Gang WANG, Zhonggang SHAN, Jiyong LIU, Qin SUN, Junfeng WANG, Bin LI
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Patent number: 9770026Abstract: Disclosed is a substituted pyrimidine compound having a structure as represented by formula PY. See the description for the definition of each substituent in the formula. The compound of the present invention provides broad-spectrum bactericidal, pesticidal, and acaricidal activities, provides great control effects against plant diseases such as cucumber downy mildew, corn rust, wheat powdery mildew, rice blast, and cucumber gray mold, specifically provides improved control effects against cucumber downy mildew, corn rust, wheat powdery mildew, and rice blast, provides great control effects against aphid, carmine spider mite, diamondback moth, and armyworm, and acquires great effects at a minimal dosage. The compound of the present invention also provides characteristics such as a simplified preparation method.Type: GrantFiled: October 24, 2013Date of Patent: September 26, 2017Assignee: Shenyang Sinochem Agrochemicals R&D Co., Ltd.Inventors: Changling Liu, Lizeng Wang, Yuquan Song, Xufeng Sun, Jie Lan, Aiying Guan, Junfeng Wang, Jinbo Zhang, Cong Feng, Minna Zhu, Zhinian Li, Lanhui Ren, Xiuhui Chang, Fan Yang, Qin Sun, Wei Chen, Shaowu Liu, Yinping Zhou, Zhonggang Shan, Baoshan Chai, Bin Wang, Jizhong Zhou
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Publication number: 20170012924Abstract: Techniques are provided for proposing automatic corrections of online identifiers, such as an email address or a subject name of a directory entry or a certificate. In an embodiment, one or more computers store domain correction records. Each domain correction record comprises a misspelled domain name and candidate domain name corrections. The computers detect that an unprocessed online identifier is not contained in a plurality of known online identifiers. The unprocessed online identifier comprises a misspelled domain name. Each known online identifier of the plurality of known online identifiers comprises a domain name. The computers retrieve, based on the misspelled domain name of the unprocessed online identifier, from the plurality of domain correction records, a matching domain correction record having a same misspelled domain name as the unprocessed online identifiers. A client device displays the one or more candidate domain name corrections of the matching domain correction record.Type: ApplicationFiled: July 7, 2015Publication date: January 12, 2017Inventors: David Stephen Mandell Freeman, Qin Sun, Thomas Chow
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Patent number: 9447081Abstract: The invention discloses a homopiperony lamine compound which has a structural general formula I as follows as shown in the specification: wherein definitions of substituents in the formula are as shown in the specification. The compound shown as the general formula I has broad-spectrum bactericidal and insecticidal activity in the field of agriculture. The compound shown as the general formula I has a good prevention effect on various germs such as cucumber downy mildew, wheat powdery mildew, puccinia sorghi, rice blast and cucumber gray mold, and particularly, still has the good prevention and control effect on the cucumber downy mildew, the puccinia sorghi and the wheat powdery mildew at a lower dosage. At the same time, a part of compound has better insecticidal activity, and can be used for preventing and controlling various insect pests such as diamondback moths, myzus persicae, armyworms and tetranychus cinabarinus boisdu.Type: GrantFiled: October 24, 2013Date of Patent: September 20, 2016Assignee: SHENYANG SINOCHEM AGROCHEMICALS R&D CO., LTD.Inventors: Changling Liu, Aiying Guan, Jie Lan, Lizeng Wang, Bin Wang, Minna Zhu, Qin Sun, Weijing Ren, Cong Feng, Lanhui Ren, Baoshan Chai, Zhinian Li
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Patent number: 9334502Abstract: The present invention discloses the use of a human NLK gene and associated drugs thereof. The present invention discloses the use of the NLK gene for tumor treatment, tumor diagnosis and drug preparation. The present invention further constructs an isolated molecule that attenuates expression of the NLK gene of tumor cells, cells comprising the isolated molecule and a NLK interference lentivirus, and discloses the use thereof as well. The isolated molecule or the NLK interference lentivirus that attenuates expression of the NLK gene provided in the present invention can specifically attenuate expression of the human NLK gene, especially the lentivirus, can effectively infect target cells, efficiently inhibit the expression of the NLK gene in target cells, and inhibit the growth of tumor cells, thus has great significance in tumor treatment.Type: GrantFiled: January 18, 2012Date of Patent: May 10, 2016Assignee: SHANGHAI GENECHEM CO., LTDInventors: Haixiong Han, Xiangying Zhu, Qin Sun, Xuefeng Gu, Shenghua Xie, Yang Li, Yangsheng Jin, Honghua Qu, Yueqiong Cao
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Publication number: 20160108319Abstract: A gasification system for producing synthetic gas from biomass, including: a biomass material pre-processing part; a pyrolysis part; a condensing part; and a gasification part. The pyrolysis part includes a pyrolysis bed and a combustion bed. The condensate tank of the condensing part is connected to a non-condensable pyrolysis gas compressor via a pipeline; an output of the non-condensable pyrolysis gas compressor is connected to the pyrolysis bed and the combustion bed. The non-condensable pyrolysis gas acts as a fuel of the combustion bed and a fluidizing medium of the pyrolysis bed.Type: ApplicationFiled: December 29, 2015Publication date: April 21, 2016Inventors: Kan SONG, Manyi JIANG, Qin SUN, Shirong ZHANG, Haiqing ZHANG, Jinqiao ZHANG
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Patent number: 9249358Abstract: A method for producing synthesis gas, including: 1) pre-processing a biomass raw material; 2) pyrolyzing the biomass raw material to yield a pyrolysis gas and a carbon powder; 3) separating the pyrolysis gas from the carbon powder and a solid heat carrier; 4) separating the carbon powder away from the solid heat carrier via a solid-solid separator; 5) conveying the generated pyrolysis gas to a condensate tank for spray condensation, condensing a condensable part in the pyrolysis gas to generate biological fuel oil, pressurizing the generated biological fuel oil by a high pressure oil pump and feeding to a gasification furnace to be gasified; and 6) feeding one part of non-condensable pyrolysis gas to a combustion bed to combust with air, and conveying the other part of the non-condensable pyrolysis gas to the pyrolysis bed as a fluidizing medium.Type: GrantFiled: September 24, 2012Date of Patent: February 2, 2016Assignee: Wuhan Kaidi Engineering Technology Research Institute Co., Ltd.Inventors: Kan Song, Manyi Jiang, Qin Sun, Shirong Zhang, Haiqing Zhang, Jinqiao Zhang
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Publication number: 20150257385Abstract: Disclosed is a substituted pyrimidine compound having a structure as represented by formula PY. See the description for the definition of each substituent in the formula. The compound of the present invention provides broad-spectrum bactericidal, pesticidal, and acaricidal activities, provides great control effects against plant diseases such as cucumber downy mildew, corn rust, wheat powdery mildew, rice blast, and cucumber gray mold, specifically provides improved control effects against cucumber downy mildew, corn rust, wheat powdery mildew, and rice blast, provides great control effects against aphid, carmine spider mite, diamondback moth, and armyworm, and acquires great effects at a minimal dosage. The compound of the present invention also provides characteristics such as a simplified preparation method.Type: ApplicationFiled: October 24, 2013Publication date: September 17, 2015Inventors: Changling Liu, Lizeng Wang, Yuquan Song, Xufeng Sun, Jie Lan, Aiying Guan, Junfeng Wang, Jinbo Zhang, Cong Feng, Minna Zhu, Zhinian Li, Lanhui Ren, Xiuhui Chang, Fan Yang, Qin Sun, Wei Chen, Shaowu Liu, Yinping Zhou, Zhonggang Shan, Baoshan Chai, Bin Wang, Jizhong Zhou
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Publication number: 20150225378Abstract: The invention discloses a homopiperony lamine compound which has a structural general formula I as follows as shown in the specification: wherein definitions of substituents in the formula are as shown in the specification. The compound shown as the general formula I has broad-spectrum bactericidal and insecticidal activity in the field of agriculture. The compound shown as the general formula I has a good prevention effect on various germs such as cucumber downy mildew, wheat powdery mildew, puccinia sorghi, rice blast and cucumber gray mold, and particularly, still has the good prevention and control effect on the cucumber downy mildew, the puccinia sorghi and the wheat powdery mildew at a lower dosage. At the same time, a part of compound has better insecticidal activity, and can be used for preventing and controlling various insect pests such as diamondback moths, myzus persicae, armyworms and tetranychus cinabarinus boisdu.Type: ApplicationFiled: October 24, 2013Publication date: August 13, 2015Applicant: SINOCHEM CORPORATIONInventors: Changling Liu, Aiying Guan, Jie Lan, Lizeng Wang, Bin Wang, Minna Zhu, Qin Sun, Weijing Ren, Cong Feng, Lanhui Ren, Baoshan Chai, Zhinian Li
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Patent number: 8974700Abstract: A method for producing synthesis gas, including: 1) pre-treating a biomass raw material; 2) carrying out low-temperature carbonization to obtain pyrolysis gas and charcoal, cooling the charcoal at an outlet of an carbonization furnace, and conveying the cooled charcoal to a charcoal storage bin; 3) separating the pyrolysis gas from charcoal powder; 4) delivering part of a separated pyrolysis gas to a combustion bed for combustion, heating the other part of the separated pyrolysis gas, and delivering a heated pyrolysis gas to the carbonization furnace; delivering a waste hot flue gas after heat exchange to a pretreatment part for the biomass raw material for drying; conveying the separated charcoal powder to the charcoal storage bin; 5) milling the charcoal powder to prepare a charcoal slurry; and 6) using high-pressure charcoal slurry pump, introducing the charcoal slurry to a gasification furnace for gasification.Type: GrantFiled: September 24, 2012Date of Patent: March 10, 2015Assignee: Wuhan Kaidi Engineering Technology Research Institute Co., Ltd.Inventors: Kan Song, Zhenhua Yao, Qin Sun, Shirong Zhang, Haiqing Zhang, Jinqiao Zhang
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Publication number: 20150005370Abstract: The present invention discloses the use of a human NLK gene and associated drugs thereof. The present invention discloses the use of the NLK gene for tumor treatment, tumor diagnosis and drug preparation. The present invention further constructs an isolated molecule that attenuates expression of the NLK gene of tumor cells, cells comprising the isolated molecule and a NLK interference lentivirus, and discloses the use thereof as well. The isolated molecule or the NLK interference lentivirus that attenuates expression of the NLK gene provided in the present invention can specifically attenuate expression of the human NLK gene, especially the lentivirus, can effectively infect target cells, efficiently inhibit the expression of the NLK gene in target cells, and inhibit the growth of tumor cells, thus has great significance in tumor treatment.Type: ApplicationFiled: January 18, 2012Publication date: January 1, 2015Applicant: SHANGHAI GENECHEM CO., LTDInventors: Haixiong Han, Xiangying Zhu, Qin Sun, Xuefeng Gu, Shenghua Xie, Yang Li, Yangsheng Jin, Honghua Qu, Yueqiong Cao
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Patent number: 8632615Abstract: The invention relates to a method and a system for producing synthetic gas from biomass by high temperature gasification, including: feeding raw material, carbonizing, pulverizing the charcoal, and transporting charcoal powder to the gasification furnace for gasification. Prior to pulverizing, the charcoal is reduced to a normal pressure by a decompression feeding system of charcoal, pulverized into powders, and transported to a supercharging feeding system of charcoal powder by normal pressure transport gas. The pressurized charcoal powder is transported to gasifier. The high-temperature charcoal at an outlet of carbonization furnace is cooled to 60-200° C. by a cooler, and transported into the decompression feeding system to be depressurized. The charcoal powder with pressurized is ejected to gasifier by an ejector, pyrolysis gas produced from carbonization furnace is used as carrier gas, and the ratio of solid to gas in the transportation pipe for charcoal powder is controlled at between 0.03 and 0.Type: GrantFiled: June 1, 2011Date of Patent: January 21, 2014Assignee: Wuhan Kaidi Engineering Technology Research Institute Co., Ltd.Inventors: Haiqing Zhang, Shirong Zhang, Qin Sun, Peng Qiu, Shenghua Zheng
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Patent number: 8361348Abstract: A method and a system for producing synthetic gas from biomass by high temperature gasification, including: feeding raw material, carbonizing, pulverizing the charcoal, and transporting charcoal powder to the gasification furnace for gasification. A heat source for the carbonizing is achieved by a direct combustion reaction between external combustible gas and external oxygen in a carbonization furnace. The heat emitted from the reaction being directly provided to the necessary heat of biomass pyrolysis, and yielding pyrolysis gas and charcoal from carbonization furnace.Type: GrantFiled: June 1, 2011Date of Patent: January 29, 2013Assignee: Wuhan Kaidi Engineering Technology Research Institute Co., Ltd.Inventors: Feng Zhao, Haiqing Zhang, Qin Sun, Peng Qiu, Hong Li
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Patent number: 8199198Abstract: Bright spots imaged by a forward-looking monochrome video camera during night-time operation of a host vehicle are detected and classified to determine the presence of leading and on-coming vehicles. A specified region-of-interest in each image frame is globally scanned to adaptively detect the bright spot contours, and search windows bounding the larger bright spot contours are locally scanned to adaptively detect individual bright spot contours that were fused in the global scan. A sensitive area within the region-of-interest is locally scanned to adaptively detect dim taillights of a leading vehicle, and path prediction of the host vehicle is used for frame-to-frame tracking of detected spots. Detected spots are classified depending on their location and frame-to-frame movement within the region-of-interest and their glare and pairing characteristics.Type: GrantFiled: July 18, 2007Date of Patent: June 12, 2012Assignee: Delphi Technologies, Inc.Inventors: Qin Sun, Manoj Dwivedi, John R. Bailey, Su-Birm Park
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Publication number: 20120080647Abstract: A method and a system for producing synthetic gas from biomass by high temperature gasification, including: feeding raw material, carbonizing, pulverizing the charcoal, and transporting charcoal powder to the gasification furnace for gasification. A heat source for the carbonizing is achieved by a direct combustion reaction between external combustible gas and external oxygen in a carbonization furnace. The heat emitted from the reaction being directly provided to the necessary heat of biomass pyrolysis, and yielding pyrolysis gas and charcoal from carbonization furnace.Type: ApplicationFiled: June 1, 2011Publication date: April 5, 2012Inventors: Feng ZHAO, Haiqing ZHANG, Qin SUN, Peng QIU, Hong LI