Patents by Inventor Weifeng He
Weifeng He 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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Patent number: 12533601Abstract: An electrowetting effect-based solar-driven high efficiency humidification system and a working method. A photovoltaic power generation module and an electrowetting high efficiency humidification module are combined, which conform to a solar energy transfer principle in a PV/T device, while liquid droplets are also sprayed at regular intervals on an upper surface of a heat exchange flow channel in the PV/T device, the principles of acceleration of liquid droplet internal flow and a change to surface hydrophilicity/hydrophobicity by electrowetting technology are used, liquid drop evaporation is accelerated, and highly efficient humidification of air is achieved. By means of coupled utilization of electrowetting technology and a PV/T system, water is saved while a large amount of moist air and clean electric energy which can be used for actual production are obtained.Type: GrantFiled: December 19, 2022Date of Patent: January 27, 2026Assignee: NANJING UNIVERSITY OF AERONAUTICS AND ASTRONAUTICSInventors: Weifeng He, Yanfei Gao, Dong Han, Wenhao Pu, Zhaohui Yao, Qile Shi
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Publication number: 20250332638Abstract: Provided is an ultrafast laser shock forging assisted laser powder bed fusion (LPBF) method with an ultrafast laser to allow on-line control of a stress field for an additive-manufactured component. Technical points of the present disclosure: During a LPBF-based additive manufacturing process, ultra-high-pressure shock waves induced byan ultrafast laser are allowed to forge a molten layer on-line, and a stress field distribution of a molten layer can be accurately controlled layer by layer, so as to reduce a residual stress level of an additive-manufactured component and improve the mechanical properties of an additive-manufactured component, thereby allowing the high-performance LPBF-based additive manufacturing. The present disclosure has the following advantages: Due to the layer-by-layer shock forging mode, the method can control a stress field with a high accuracy and a better effect, will not cause secondary pollution or destruction, and exhibits excellent technical applicability.Type: ApplicationFiled: July 9, 2024Publication date: October 30, 2025Inventors: Liucheng Zhou, Xinlei Pan, Weifeng He
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Publication number: 20250043430Abstract: Disclosed are a laser assisted cold spray repair device and process method for aviation-grade aluminum alloy structural parts. In the present disclosure, a laser device, a high-pressure gas source, a powder feeder, a water cooling system, a reflector, an integrated spray gun, a mobile platform, an air pipe, a powder-gas mixed channel, a lower-pressure powder-gas powder feeding port, an air pressure regulating valve, a high-pressure airflow heater and a powder pipe are included. The powder spray gun and a heating laser source are connected coaxially, and a processing zone of the mobile platform is provided with a specimen to be processed. In the present disclosure, fatigue properties of repaired aviation-grade aluminum alloy specimens are restored to an original state before damage and satisfy service requirements.Type: ApplicationFiled: August 3, 2023Publication date: February 6, 2025Inventors: LIUCHENG ZHOU, ZONGHUI CHENG, QIANG WANG, XINLEI PAN, SONG SHU, WENJUAN NIU, XIAOQING LIANG, WEIFENG HE
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Publication number: 20250041970Abstract: Disclosed are a strengthening device and method for improving fatigue, wear and corrosion performance of metals. In the present disclosure, a femtosecond laser device, an optical transmission module, an optical platform, a five-axis mobile platform, a femtosecond laser processing head, and a central processing unit are included, where laser scanning processing is completed by means of the synergy of the five-axis mobile platform and a scanning galvanometer. A femtosecond laser processing process method for regulating and controlling shock wave pressure and surface self-organizing structure characteristics is proposed by the present disclosure, where a work-hardening layer and a wear-resistant and hydrophobic micro-nano structure are prepared on a surface of the metal in one step by means of the femtosecond laser, and simultaneous improvement of the fatigue, wear and corrosion performance of the metals is achieved.Type: ApplicationFiled: August 4, 2023Publication date: February 6, 2025Inventors: LIUCHENG ZHOU, WEIFENG HE, XINLEI PAN, YANQING YU
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Publication number: 20240246008Abstract: An electrowetting effect-based solar-driven high efficiency humidification system and a working method. A photovoltaic power generation module and an electrowetting high efficiency humidification module are combined, which conform to a solar energy transfer principle in a PV/T device, while liquid droplets are also sprayed at regular intervals on an upper surface of a heat exchange flow channel in the PV/T device, the principles of acceleration of liquid droplet internal flow and a change to surface hydrophilicity/hydrophobicity by electrowetting technology are used, liquid drop evaporation is accelerated, and highly efficient humidification of air is achieved. By means of coupled utilization of electrowetting technology and a PV/T system, water is saved while a large amount of moist air and clean electric energy which can be used for actual production are obtained.Type: ApplicationFiled: December 19, 2022Publication date: July 25, 2024Applicant: NANJING UNIVERSITY OF AERONAUTICS AND ASTRONAUTICSInventors: Weifeng He, Yanfei Gao, Dong Han, Wenhao PU, Zhaohui Yao, Qile Shi
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Patent number: 11860066Abstract: The present invention discloses a dynamic strain field measuring method and system for a rotor blade based on blade tip timing. The method includes the following steps: establishing a three-dimensional finite element model of a to-be-measured rotor blade, and extracting modal parameters of the three-dimensional finite element model; determining the number and circumferential mounting positions of blade tip timing sensors; establishing a mapping relationship between single-point displacement and full-field dynamic strains of the blade; acquiring blade tip single-point displacement of the rotor blade based on the blade tip timing sensors; and realizing, by the single-point displacement, dynamic strain measurement in any position and direction of the rotor blade based on the mapping relationship.Type: GrantFiled: May 20, 2021Date of Patent: January 2, 2024Assignee: XI'AN JIAOTONG UNIVERSITYInventors: Baijie Qiao, Xuefeng Chen, Chunyan Ao, Weifeng He, Laihao Yang
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Patent number: 11189468Abstract: The present invention discloses a magnetic filter tube, and relates to the technical field of magnetic filters. The magnetic filter tube includes a first rectangular tube and a second rectangular tube, where one end of the first rectangular tube is fixedly connected to one end of the second rectangular tube; the other end of the first rectangular tube forms an inlet of the magnetic filter tube; the inlet of the magnetic filter tube is connected with a cathode target flange; the other end of the second rectangular tube forms an outlet of the magnetic filter tube; the outlet of the magnetic filter tube is connected with a vacuum chamber; an inner wall of the first rectangular tube and an inner wall of the second rectangular tube are each provided with a protrusion and a groove; the protrusion is filled with cold water.Type: GrantFiled: May 26, 2020Date of Patent: November 30, 2021Assignees: Beijing Normal University, Wenli (Guangdong) Technology Co., Ltd.Inventors: Bin Liao, Xiaoping Ouyang, Qingsong Hua, Jun Luo, Lin Chen, Xu Zhang, Xianying Wu, Pan Pang, Ran Han, Minju Ying, Weifeng He, Guangyu He
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Publication number: 20210278312Abstract: The present invention discloses a dynamic strain field measuring method and system for a rotor blade based on blade tip timing. The method includes the following steps: establishing a three-dimensional finite element model of a to-be-measured rotor blade, and extracting modal parameters of the three-dimensional finite element model; determining the number and circumferential mounting positions of blade tip timing sensors; establishing a mapping relationship between single-point displacement and full-field dynamic strains of the blade; acquiring blade tip single-point displacement of the rotor blade based on the blade tip timing sensors; and realizing, by the single-point displacement, dynamic strain measurement in any position and direction of the rotor blade based on the mapping relationship.Type: ApplicationFiled: May 20, 2021Publication date: September 9, 2021Inventors: Baijie Qiao, Xuefeng Chen, Chunyan Ao, Weifeng He, Laihao Yang
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Publication number: 20210175053Abstract: The present invention discloses a magnetic filter tube, and relates to the technical field of magnetic filters. The magnetic filter tube includes a first rectangular tube and a second rectangular tube, where one end of the first rectangular tube is fixedly connected to one end of the second rectangular tube; the other end of the first rectangular tube forms an inlet of the magnetic filter tube; the inlet of the magnetic filter tube is connected with a cathode target flange; the other end of the second rectangular tube forms an outlet of the magnetic filter tube; the outlet of the magnetic filter tube is connected with a vacuum chamber; an inner wall of the first rectangular tube and an inner wall of the second rectangular tube are each provided with a protrusion and a groove; the protrusion is filled with cold water.Type: ApplicationFiled: May 26, 2020Publication date: June 10, 2021Inventors: Bin Liao, Xiaoping Ouyang, Qingsong Hua, Jun Luo, Lin Chen, Xu Zhang, Xianying Wu, Pan Pang, Ran Han, Minju Ying, Weifeng He, Guangyu He
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Patent number: 10278636Abstract: A near-infrared spectrum imaging system for diagnosis of the depth and the area of burn skin necrosis comprises a spectrum imager and a computer controlled system. The spectrum imaging system comprises a light source (101), an optical lens (102), a filter (103), a driving controller (105a, 105b, 104), and a CCD camera (106). The filter (103) uses a wide-spectrum liquid crystal tunable filter (LCTF) or an acousto-optic tunable filter (AOTF) that obtain 1100-2500 nm waveband spectral signals of burn skin necrosis tissue of a target region. A compute controlled system is internally provided with a universal module, a data module, a spectrum correction module, a spectrum matching module, and a burn wound three-dimensional synthesizing module.Type: GrantFiled: January 9, 2015Date of Patent: May 7, 2019Assignee: BEIJING HEFENGLIANKANG INVESTMENT MANAGEMENT LTDInventors: Jun Wu, Cangli Liu, Junjie Yang, Yongquan Luo, Lixian Huang, Gaoxing Luo, Zhiqiang Chen, Jianheng Zhao, Dayong Zhang, Zhixue Shen, Jianfeng Li, Weifeng He
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Publication number: 20160345888Abstract: A near-infrared spectrum imaging system for diagnosis of the depth and the area of burn skin necrosis comprises a spectrum imager and a computer controlled system. The spectrum imaging system comprises a light source (101), an optical lens (102), a filter (103), a driving controller (105a, 105b, 104), and a CCD camera (106). The filter (103) uses a wide-spectrum liquid crystal tunable filter (LCTF) or an acousto-optic tunable filter (AOTF) that obtain 1100-2500 nm waveband spectral signals of burn skin necrosis tissue of a target region. A compute controlled system is internally provided with a universal module, a data module, a spectrum correction module, a spectrum matching module, and a burn wound three-dimensional synthesizing module.Type: ApplicationFiled: January 9, 2015Publication date: December 1, 2016Inventors: Jun WU, Cangli LIU, Junjie YANG, Yongquan LUO, Lixian HUANG, Gaoxing LUO, Zhiqiang CHEN, Jianheng ZHAO, Dayong ZHANG, Zhixue SHEN, Jianfeng LI, Weifeng HE
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Publication number: 20140205764Abstract: A method and apparatus for acquiring a nanostructured coating on a metal surface by using an intense shock wave generated by continuous explosion of a laser-induced plasma is provided. The method comprises: irradiating a laser beam on a black paint surface of an upper opening of a high pressure resistant glass pipe having a black paint strip arranged therein; the black paint absorbing the light energy and producing a plasma; generating an initial plasma explosion shock wave; transmitting the initial plasma explosion shock wave in the high pressure resistant glass pipe; generating a plasma cloud reaching a lower opening of a glass catheter; and, the shock wave pressure outputted embedding nanoparticles into a surface of a workpiece. The apparatus comprises the high pressure-resistant glass pipe with a zigzagging switchback shape or a spiral and inverted cone shape.Type: ApplicationFiled: July 28, 2011Publication date: July 24, 2014Applicants: AIR FORCE ENGINEERING UNIVERSITY OF THE CHINESE PEOPLES LIBERATION ARMY, JIANGSU UNIVERSITYInventors: Xudong Ren, Cheng Wang, Yongzhuo Huangfu, Wei Chu, Yinghong Li, Weifeng He, Xin Zhou, Liang Ruan, Yongkang Zhang, Fengze Dai, Tian Zhang
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Publication number: 20140178593Abstract: A method and apparatus for nanocrystallizing a metal surface by laser-induced shock wave-accelerated nanoparticles. The apparatus comprises a control system, a light guiding system, a workbench control system and an auxiliary system, wherein the auxiliary system comprises an air compressor, a paint feeder device, a nanoparticle nozzle, a powder feeder device, an exhaust, a sealed working chamber and a metal nanoparticle recycler device. The method comprises the following steps: pre-processing and fixing a workpiece; activating the air compressor to feed a powder; controlling and adjusting the paint feeder device to eject a black paint; transmitting a high-power pulse laser beam; recycling excess metal nanoparticles; and rinsing non-vaporized/ionized black paint off a surface of the workpiece.Type: ApplicationFiled: July 28, 2011Publication date: June 26, 2014Applicants: Air Force Engineering University of the Chinese People's Liberation Army, Jiangsu UniversityInventors: Xudong Ren, Yinghong Li, Liang Ruan, Cheng Wang, Wei Chu, Weifeng He, Xin Zhou, Yongzhuo Huangfu, Yongkang Zhang, Fengze Dai, Tian Zhang