公开(公告)号：US11819932B2

公开(公告)日：2023-11-21

申请号：US17406746

申请日：2021-08-19

申请人： Qingdao University of Technology ,  Shanghai Jinzhao Energy Saving Technology Co., Ltd. ,  Shaanxi Jinzhao Aviation Technology Co., Ltd.

发明人： Changhe Li ,  Xifeng Wu ,  Yixue Han ,  Naiqing Zhang ,  Qidong Wu ,  Huajun Cao ,  Teng Gao ,  Yanbin Zhang ,  Min Yang ,  Bingheng Lu ,  Yuying Yang ,  Xin Cui ,  Xufeng Zhao ,  Mingzheng Liu ,  Dongzhou Jia ,  Xiaowei Zhang ,  Hao Ma

IPC分类号： B23C5/28

CPC分类号： B23C5/28 ,  B23C2250/12

摘要： An intelligent switching system for switching internal cooling and external cooling and a method are provided. The system includes a vision system, a cooling system and a control system. The vision system monitors a real-time milling state of a cutter, collects a real-time milling depth image that the cutter mills a workpiece, and transmits the collected real-time milling depth image to the control system. The control system includes a lubrication mode control center, and a motor control center. The lubrication mode control center receives the real-time image transmitted by the image collection control center; analyzes and processes the real-time image to obtain real-time milling depth data of the cutter. The motor control center receives a signal sent by the lubrication mode control center; analyzes and processes the signal, and transmits a control instruction to the cooling system. The cooling system executes a switching command issued by the control system.

公开(公告)号：US11794297B2

公开(公告)日：2023-10-24

申请号：US17341326

申请日：2021-06-07

申请人： QINGDAO UNIVERSITY OF TECHNOLOGY ,  SHANGHAI JINZHAO ENERGY SAVING TECHNOLOGY CO., LTD. ,  SHANXI JINZHAO AVIATION TECHNOLOGY CO., LTD.

发明人： Changhe Li ,  Xifeng Wu ,  Yixue Han ,  Naiqing Zhang ,  Yanbin Zhang ,  Qidong Wu ,  Huajun Cao ,  Teng Gao ,  Min Yang ,  Bingheng Lu ,  Yuying Yang ,  Xin Cui ,  Xufeng Zhao ,  Mingzheng Liu ,  Dongzhou Jia ,  Xiaowei Zhang ,  Hao Ma

IPC分类号： B23Q11/10 ,  B23C5/28 ,  B23Q17/24

CPC分类号： B23Q11/10 ,  B23C5/28 ,  B23Q11/1015 ,  B23Q11/1046 ,  B23Q17/249

摘要： The present disclosure provides an internal cooling/external cooling-switching milling minimum-quantity-lubrication intelligent nozzle system and method, relating to the field of milling lubrication. The system includes: a vision system, configured to acquire a real-time milling depth of a workpiece and send the real-time milling depth to a lubrication manner controller for processing; a lubrication system, including an internal cooling system and an external cooling system connected together to a cutting fluid supply source through a reversing device; and the lubrication manner controller, configured to communicate with the vision system and the lubrication system respectively, and control the reversing device to act according to a set milling depth threshold and data acquired by the vision system, so as to adjust and switch to the internal cooling system or the external cooling system to work. Milling depth data of a machine tool is collected, the milling depth data is transmitted to a control center for data analysis and processing, the data is compared with an initially set internal cooling/external cooling switching threshold to obtain the most suitable cooling and lubrication manner under current machining conditions of the machine tool, and the control center controls the internal cooling and external cooling systems according to the obtained result to realize intelligent switching of the cooling and lubrication manner between internal cooling and external cooling.

公开(公告)号：US11731137B2

公开(公告)日：2023-08-22

申请号：US17541059

申请日：2021-12-02

申请人： QINGDAO UNIVERSITY OF TECHNOLOGY ,  HANERGY (QINGDAO) LUBRICATION TECHNOLOGY CO., LTD.

发明人： Changhe Li ,  Yue Lu ,  Zongming Zhou ,  Xiaochu Liu ,  Mingzheng Liu ,  Xiaoming Wang ,  Xiaowei Zhang ,  Mingcun Shi ,  Bingheng Lu

IPC分类号： B02C4/10 ,  B02C4/12 ,  B01F23/53 ,  B02C4/28 ,  B02C4/34 ,  B02C4/44 ,  B02C23/18 ,  B01F101/32

CPC分类号： B02C4/12 ,  B01F23/53 ,  B02C4/286 ,  B02C4/34 ,  B02C4/44 ,  B02C23/18 ,  B01F2101/32

摘要： A fertilizer grinding mechanism, a water and fertilizer mixing device, and an aqueous fertilizer solution preparation production line. A fertilizer receiving body, where an edge is provided with a arranged first channel; a connecting body, fixed to a bottom of the fertilizer receiving body and provided with a second channel with the first channel, a bottom of the second channel is communicated with a buffer bin, a pushing block is arranged in the buffer bin, and the pushing block is connected with a drive mechanism for driving the block to move in direction of the body; and an inner grinding block, where the block is fixed to a bottom of the connecting body, an outer side of the inner grinding block is with a vertically movable grinding roller, the pushing block can push fertilizer under vertical movement of the roller. The grinding mechanism has a heat dissipation effect.

公开(公告)号：US11951487B2

公开(公告)日：2024-04-09

申请号：US17285627

申请日：2020-05-09

申请人： QINGDAO UNIVERSITY OF TECHNOLOGY ,  RESEARCH INSTITUTE OF AGRICULTURAL MECHANIZATION XINJIANG ACADEMY OF AGRICULTURAL SCIENCES ,  XINJIANG JIANG NING LIGHT INDUSTRIAL MACHINERY ENGINEERING TECHNOLOGY CO., LTD.

发明人： Changhe Li ,  Mingzheng Liu ,  Xiaoming Wang ,  Huimin Yang ,  Xinping Li ,  Xiangdong Liu ,  Tuluhon Turdi ,  Ji Che ,  Lianxing Gao ,  Huayang Zhao ,  Xiaowei Zhang ,  Yanbin Zhang ,  Yifei Chen ,  Yali Hou

IPC分类号： B02C23/38 ,  B02C2/10 ,  B02C19/00 ,  B02C19/06 ,  B02C21/00 ,  B02C23/02 ,  B02C23/30

CPC分类号： B02C23/38 ,  B02C19/005 ,  B02C21/00 ,  B02C23/02 ,  B02C23/30

摘要： The present invention discloses a same-cavity integrated vertical high-speed multistage superfine pulverizing device and method for walnut shells. The same-cavity integrated vertical high-speed multistage superfine pulverizing device for walnut shells includes a double-channel sliding type feeding device and a same-cavity integrated vertical pulverizing device. The same-cavity integrated vertical pulverizing device includes a material lifting disc and a same-cavity integrated vertical pulverizing barrel. A first-stage coarse crushing region, a second-stage fine crushing region, a third-stage pneumatic impact micro pulverizing region and a fourth-stage airflow mill superfine pulverizing region are disposed in the same-cavity integrated vertical pulverizing barrel. Walnut shells falling through the double-channel sliding type feeding device are uniformly lifted by the material lifting disc to a wedge-shaped gap of the first-stage coarse crushing region to be coarsely crushed, and coarsely crushed materials are finely crushed by the second-stage fine crushing region through a two-stage wedge-shaped direct-through gradually reducing gap. The third-stage pneumatic impact micro pulverizing region performs high-speed collision on finely crushed walnut shell particles, and walnut shell fine particles are carried by a high-speed airflow and are collided and violently rubbed to be pulverized. The microparticle grading is realized by the fourth-stage airflow mill superfine pulverizing region by using arc-shaped blades, and microparticles conforming to a particle size condition are attracted out through negative pressure attraction.

公开(公告)号：US11571222B2

公开(公告)日：2023-02-07

申请号：US16098277

申请日：2018-02-02

申请人： QINGDAO UNIVERSITY OF TECHNOLOGY

发明人： Changhe Li ,  Min Yang ,  Yiliang Yang ,  Yali Hou ,  Dongzhou Jia ,  Yanbin Zhang ,  Xiaowei Zhang

IPC分类号： A61B17/16 ,  A61F13/02 ,  A61F13/12 ,  A61B17/00

摘要： A neurosurgical ultrasonic focusing assisted three-stage atomization cooling and postoperative wound film forming device has a transducer housing and a nozzle, wherein a horn is arranged in the transducer housing, at least two layers of piezoelectric ceramic sheets are arranged at the top of the horn, an electrode sheet connected with an ultrasonic generator is arranged between two adjacent layers of piezoelectric ceramic sheets, the bottom of the transducer housing is of a hemispherical structure, and a plurality of piezoelectric elements connected with the ultrasonic generator are arranged inside the hemispherical structure; and the nozzle is arranged at the bottom of the horn and connected with a medical nanofluid storage cup, compressed gas can also be introduced into the nozzle, and an electrode is also arranged inside the nozzle.

公开(公告)号：US11975415B2

公开(公告)日：2024-05-07

申请号：US17340753

申请日：2021-06-07

申请人： QINGDAO UNIVERSITY OF TECHNOLOGY ,  SHANXI JINZHAO AVIATION TECHNOLOGY CO., LTD.

发明人： Min Yang ,  Hao Ma ,  Changhe Li ,  Xifeng Wu ,  Yixue Han ,  Yuying Yang ,  Xin Cui ,  Xufeng Zhao ,  Naiqing Zhang ,  Qidong Wu ,  Teng Gao ,  Yanbin Zhang ,  Bingheng Lu ,  Mingzheng Liu ,  Dongzhou Jia ,  Xiaowei Zhang ,  Xiaoming Wang

IPC分类号： B23Q11/10 ,  B23C1/06 ,  B23C9/00 ,  B23Q3/06 ,  B23Q17/00 ,  B23C1/00

CPC分类号： B23Q11/1046 ,  B23C1/06 ,  B23C9/00 ,  B23Q3/069 ,  B23Q11/10 ,  B23Q17/003 ,  B23C1/002 ,  B23C2215/04 ,  B23C2222/04 ,  B23C2270/08 ,  Y10T409/303976 ,  Y10T409/304032 ,  Y10T409/308288 ,  Y10T409/309016

摘要： An aeronautical aluminum alloy minimum-quantity-lubrication milling machining device includes a machine tool worktable and spindle connected with a machine tool power system. The spindle is connected with a tool holder that is fixed with a cutting tool. The machine tool worktable is provided with a machine tool fixture, the tool holder is connected with a minimum-quantity-lubrication mechanism, the machine tool fixture includes a fixture body that is fixedly provided with a limit block for contact with two adjacent side surfaces of a workpiece, the fixture body is provided with a plurality of clamping elements capable of pressing the workpiece against an upper surface of the fixture body, and a top of the clamping element is provided with a detection member for detecting a relative position between the clamping element and the spindle. The device can avoid interference and contact between a nozzle and the clamping element.

公开(公告)号：US11406397B2

公开(公告)日：2022-08-09

申请号：US16090778

申请日：2018-02-02

申请人： QINGDAO UNIVERSITY OF TECHNOLOGY

发明人： Changhe Li ,  Min Yang ,  Yanbin Zhang ,  Dongzhou Jia ,  Naiqing Zhang ,  Yali Hou ,  Xiaowei Zhang

IPC分类号： A61B17/16 ,  A61B17/32

摘要： An electrostatic atomization ultrasonic aided low-damage and controllable biologic bone grinding process and device, which solve the problem of debris blockage and have good cooling effect and high operation efficiency. The device includes: a spindle, arranged rotatably; a water-catching grinding tool for grinding a biologic bone, the spindle being connected with the tool through an ultrasonic vibration mechanism, the tool achieving longitudinal and rotary motions under the drive of the spindle and mechanism; a cooling and film forming mechanism on one side of the tool and connected with an ultrasonic generator in the mechanism, a nozzle connected with a medical nano liquid storage cup arranged at the bottom, compressed gas capable of being introduced into the nozzle to perform pneumatic-ultrasonic atomization on a medical nanofluid, the nanofluid being flushed into a grinding zone in droplets for effective cooling and lubrication; and an endoscope on the other side of the tool.