公开(公告)号：US20250031745A1

公开(公告)日：2025-01-30

申请号：US18914277

申请日：2024-10-14

Applicant: QINGDAO UNIVERSITY OF TECHNOLOGY ,  QINGDAO HUANGHAI UNIVERSITY ,  QINGDAO JIMO QINGLI INTELLIGENT MANUFACTURING INDUSTRY RESEARCH INSTITUTE

Inventor： Mingzheng LIU ,  Changhe LI ,  Jixin LIU ,  Yanbin ZHANG ,  Xiaoming WANG ,  Yujie CHEN ,  Kang LI

IPC: A23N12/08 ,  A23N5/00 ,  A23N5/01 ,  A23N5/08

Abstract: An intelligent separation method of peanut kernel and red coat, feeding peanuts to be removed red coats into a device for a gas explosion of the red coats of the peanuts, to complete a preliminary separation of kernels and the red coats of the peanuts; feeding the primarily separated kernels and peanut red coats of the peanuts into the drying device to fully separate the red coats from the kernels; delivering the fully separated peanut kernels and red coats of the peanuts into a negative pressure adsorption device to collect respectively the fully separated kernels and red coats of the peanuts with different densities and qualities by a negative pressure adsorption mode, finally obtaining the kernels of the peanuts without the red coats, and the red coats of the peanuts respectively.

公开(公告)号：US20230034799A1

公开(公告)日：2023-02-02

申请号：US17829666

申请日：2022-06-01

Applicant: QINGDAO UNIVERSITY OF TECHNOLOGY ,  UNIVERSITY OF SHARJAH

Inventor： Changhe LI ,  Dewei LIU ,  Zongming ZHOU ,  Wenfeng DING ,  Yanbin ZHANG ,  Zafar SAID ,  Xiaoming WANG ,  Min YANG ,  Bo LIU ,  Xin CUI ,  Mingzheng LIU ,  Teng GAO

IPC: G01B5/00 ,  G01B11/24

Abstract: Provided a full-automatic wheel hub 3D scanning system for intelligent production line of automotive wheel hubs, comprising: a base plate is provided with an X-directional displacement control device and a Y-directional displacement control device; a roller-table assembly is arranged on the base plate and comprises a roller table, wherein the roller table is provided with an opposite-type photoelectric sensors and a wheel hub centring positioning device for centring positioning a wheel hub; a 3D scanning device, comprising a mounting bracket, wherein the bottom of the mounting bracket is controlled by the Y-directional displacement control device; a 3D scanner is mounted on the mounting bracket; a wheel hub scanning platform is arranged at an end of the roller-table assembly and is controlled by the X-directional displacement control device; and a robot is arranged on a first side of the wheel hub scanning platform, for conveying the wheel hubs after 3D scanning.

公开(公告)号：US20220379418A1

公开(公告)日：2022-12-01

申请号：US17549439

申请日：2021-12-13

Applicant: QINGDAO UNIVERSITY OF TECHNOLOGY ,  QINGDAO KAWS INTELLIGENT MANUFACTURING CO. LTD.

Inventor： Changhe LI ,  Zhuang SHI ,  Aiguo QIN ,  Bo LIU ,  Yun CHEN ,  Huajun CAO ,  Zongming ZHOU ,  Naiqing ZHANG ,  Qidong WU ,  Bingheng LU ,  Teng GAO ,  Yanbin ZHANG ,  Min YANG ,  Mingzheng LIU ,  Xiaoming WANG

IPC: B23Q3/18 ,  B23C9/00 ,  B23Q11/10

Abstract: Positioning system with an adjustable clamping force and milling equipment for a rail transit honeycomb workpiece. The positioning system includes a positioning apparatus, including a positioning table to support a workpiece, and a clamping apparatus, including a turntable, which is fixedly disposed on a periphery of the positioning table, a top of the turntable is connected to a mechanical arm, a pressure plate is disposed at an end of the mechanical arm, the pressure plate being capable of cooperating with the positioning table to clamp the workpiece, working regions of all the clamping apparatuses being capable of covering a machining surface of the workpiece, when machining is performed in an intersection region, a clamping apparatus corresponding to the region clamps the workpiece, and when machining is performed in a non-intersection region, a clamping apparatus corresponding to the region dodges, and an adjacent clamping apparatus clamps the workpiece.
The present invention discloses a positioning system with an adjustable clamping force and a milling equipment for a rail transit honeycomb workpiece. The positioning system includes: a positioning apparatus, including a positioning table to support a workpiece; and a clamping apparatus, including a turntable, where the turntable is fixedly disposed on a periphery of the positioning table, a top of the turntable is connected to a mechanical arm, a pressure plate is disposed at an end of the mechanical arm, and the pressure plate is capable of cooperating with the positioning table to clamp the workpiece, where there are a plurality of clamping apparatuses, working regions of adjacent clamping apparatuses have an intersection, and working regions of all the clamping apparatuses are capable of covering a machining surface of the workpiece; and when machining is performed in an intersection region, a clamping apparatus corresponding to the region clamps the workpiece, and when machining is performed in a non-intersection region, a clamping apparatus corresponding to the region dodges, and an adjacent clamping apparatus clamps the workpiece.

公开(公告)号：US20220143867A1

公开(公告)日：2022-05-12

申请号：US17282211

申请日：2020-05-08

Applicant: QINGDAO UNIVERSITY OF TECHNOLOGY ,  SHENYANG HONGYANG PRECISION CERAMICS CO., LTD.

Inventor： Changhe LI ,  Mingcun SHI ,  Xiangyang MA ,  Baoda XING ,  Xiaohong MA ,  Yanbin ZHANG ,  Min YANG ,  Xin CUI ,  Teng GAO ,  Xiaoming WANG ,  Yali HOU ,  Han ZHAI ,  Zhen WANG ,  Bingheng LU ,  Huajun CAO ,  Naiqing ZHANG ,  Qidong WU

IPC: B28B7/00 ,  B28B7/10

Abstract: The present invention relates to a powder dry-pressing molding device and method. The powder dry-pressing molding device includes a rack, the rack is provided with an first pressure mechanism, a workbench mechanism and a second pressure mechanism in sequence along an up-and-down direction, and one side of the workbench mechanism is provided with a scraping mechanism; the first pressure mechanism includes an upper slide block capable of moving up and down, and an upper punch is disposed at a bottom of the upper slide block; the workbench mechanism includes a middle mold seat, a workbench is fixed above the middle mold seat, a middle mold is disposed inside the middle mold seat, and a mandrel runs through the inside of the middle mold; the second pressure mechanism includes a lower slide block capable of moving up and down, a lower punch is fixed at the top end of the lower slide block, and the lower punch is capable of extending into a compacting space between the mandrel and the middle mold; and the scraping mechanism includes a pusher connected with a scraping driving mechanism and capable of moving along the workbench, the pusher is provided with a feeding channel capable of being communicated with the compacting space, and the feeding channel is capable of being communicated with a barrel disposed on the rack. The dry-pressing molding device of the present invention has a high degree of automation, can scrape the powder, and has a good processing effect.

公开(公告)号：US20210402638A1

公开(公告)日：2021-12-30

申请号：US16960821

申请日：2019-10-30

Applicant: QINGDAO UNIVERSITY OF TECHNOLOGY ,  INNER MONGOLIA UNIVERSITY FOR NATIONALITIES

Inventor： Yali HOU ,  Changhe LI ,  Dongzhou JIA ,  Huayang ZHAO ,  Wenyue LIU ,  Dan LIU ,  Yuhui ZHAO ,  Zhongqi LU ,  Yucheng WANG ,  Yanbin ZHANG ,  Min YANG

IPC: B26D7/06

Abstract: A conical self-positioning limit feeding device and method. The conical self-positioning limit feeding device has bearing pot, empty circle in the center of bearing pot, U-shaped slide way formed between outer circle and inner circle, rotating evacuation cone and limit feeding rod arranged in the bearing pot and rotate in the same direction, and the speed of the rotating evacuation cone is greater than that of the limit feeding rod; materials are placed in the bearing pot, the evacuation cone rotates, and the materials rotate in the U-shaped slide way of the bearing pot by the torque generated by the friction between rotating evacuation cone and materials, till the long axes of the materials are tangent to the radius of the rotating evacuation cone; the limit feeding rod rotates and pushes materials to exit at equal intervals, thereby achieving the arrangement of the materials in the direction of long axis.

公开(公告)号：US20210229238A1

公开(公告)日：2021-07-29

申请号：US16965658

申请日：2020-02-06

Applicant: QINGDAO UNIVERSITY OF TECHNOLOGY ,  INNER MONGOLIA UNIVERSITY FOR NATIONALITIES

Inventor： Changhe LI ,  Dongzhou JIA ,  Huajun CAO ,  Xuefeng XU ,  Zhiguang HAN ,  Naiqing ZHANG ,  Huayang ZHAO ,  Min YANG ,  Yanbin ZHANG ,  Xiaoming WANG ,  Runze LI ,  Teng GAO ,  Wentao WU ,  Xin CUI ,  Yali HOU

IPC: B24B55/02 ,  B05B5/03 ,  B05B5/043 ,  B05B5/053

Abstract: An electrostatic nozzle and a minimal quantity lubricating and grinding system for a controllable jet. An electrostatic nozzle includes a nozzle core, an upper nozzle body being connected above the nozzle core; an empty space being formed between the upper nozzle body and the nozzle core for storing compressed air and decompression; a lower nozzle body being connected below the nozzle core; a gas-liquid mixing chamber, an acceleration chamber, and a nozzle outlet being sequentially disposed inside the nozzle core from top to bottom; and micro-convex bodies being evenly arranged on an inner wall of the acceleration chamber.

公开(公告)号：US20200282411A1

公开(公告)日：2020-09-10

申请号：US16744146

申请日：2020-01-15

Applicant: QINGDAO UNIVERSITY OF TECHNOLOGY ,  INNER MONGOLIA UNIVERSITY FOR NATIONALITIES

Inventor： Changhe LI ,  Dongzhou JIA ,  Huajun CAO ,  Xuefeng XU ,  Zhiguang HAN ,  Naiqing ZHANG ,  Huayang ZHAO ,  Min YANG ,  Yanbin ZHANG ,  Xiaoming WANG ,  Runze LI ,  Teng GAO ,  Wentao WU ,  Xin CUI ,  Yali HOU

IPC: B05B5/03 ,  B05B5/025 ,  B05B5/16

Abstract: The present disclosure provides an electrostatic nozzle and a controllable jet minimal quantity lubrication (MQL) grinding system. The electrostatic nozzle comprises a nozzle core; an upper nozzle body is connected above the nozzle core; a free space is formed between the upper nozzle body and the nozzle core for storing compressed air and reducing pressure; a lower nozzle body is connected below the nozzle core; a gas-liquid mixing chamber, an acceleration chamber and a nozzle outlet are sequentially arranged inside the nozzle core from top to bottom; and micro-bulges are uniformly distributed on an inner wall of the acceleration chamber.

公开(公告)号：US20200164475A1

公开(公告)日：2020-05-28

申请号：US16683454

申请日：2019-11-14

Applicant: QINGDAO UNIVERSITY OF TECHNOLOGY ,  CHONGQING UNIVERSITY ,  SHANGHAI JINZHAO ENERGY SAVING TECHNOLOGY CO., LTD

Inventor： Changhe LI ,  Qingan YIN ,  Huajun CAO ,  Wenfeng DING ,  Naiqing ZHANG ,  Yonghong LIU ,  Xiufang BAI ,  Lan DONG ,  Zhenjing DUAN ,  Yanbin ZHANG ,  Menghua SUI ,  Wentao WU ,  Teng GAO ,  Min YANG ,  Dongzhou JIA ,  Runze LI ,  Yali HOU

IPC: B23Q11/10 ,  B23C1/06 ,  B23Q3/157 ,  B23Q3/155

Abstract: The present invention discloses a tool device for auxiliary chip breaking and a tool system for auxiliary chip breaking under different lubricating conditions, which solves the problem that long chips affect the surface quality of a workpiece in the prior art and has the beneficial effects of realizing chip breaking and wide scope of application. The solution of the present invention is as follows: the tool device for auxiliary chip breaking includes a cutting mechanism for cutting the workpiece, arranged above the workpiece; a tool magazine mechanism, including a first rotating mechanism and a plurality of tools connected with the first rotating mechanism; and a tool changing mechanism, including a second rotating mechanism and manipulators connected with the second rotating mechanism, and arranged between the tool magazine mechanism and the cutting mechanism.

公开(公告)号：US20250050457A1

公开(公告)日：2025-02-13

申请号：US18931050

申请日：2024-10-30

Applicant: QINGDAO UNIVERSITY OF TECHNOLOGY ,  QINGDAO HUANGHAI UNIVERSITY ,  GUOHUA (QINGDAO) INTELLIGENT PRECISION DRIVE CONTROL TECHNOLOGY RESEARCH INSTITUTE CO., LTD. ,  QINGDAO JIMO QINGLI INTELLIGENT MANUFACTURING INDUSTRY RESEARCH INSTITUTE

Inventor： Teng GAO ,  Changhe LI ,  Jixin LIU ,  Guang WANG ,  Yanbin ZHANG ,  Mingzheng LIU ,  Yujie CHEN ,  Xin CUI ,  Min YANG ,  Xuelei SONG ,  Xu YAN ,  Zongming ZHOU ,  Quanchang ZHANG ,  Dewei LIU ,  Aiguo QIN ,  Zongyi LIU

IPC: B23P15/28 ,  B65G47/04

Abstract: A method for filling carbide blades in cutter head by using a carbide blade cutter head filling device. The carbide blade cutter head filling device includes a feeding unit, a storage unit, a loading unit and a discharging unit which are arranged successively. The output end of the feeding unit is matched with the input end of the storage unit through the guide mechanism. The output end of the storage unit faces a conveying tray of the loading unit. The conveying tray is provided with a plurality of group of transition holes for accommodating blades. A receiving mechanism for accommodating a cutter head is arranged below the falling pull plate of the discharging unit. The falling pull plate adjusts the communication and isolation between the transition hole and the cutter head in the receiving mechanism by changing the relative position of the falling pull plate and the transition hole.

公开(公告)号：US20240391057A1

公开(公告)日：2024-11-28

申请号：US18271393

申请日：2022-12-21

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

Inventor： Yanbin ZHANG ,  Wenyi LI ,  Xin CUI ,  Changhe LI ,  Zongming ZHOU ,  Shuaiqiang XU ,  Bo LIU ,  Yun CHEN

IPC: B24B55/03 ,  B24B49/12 ,  B24B55/04

Abstract: A device for supplying and recovering a minimal quantity lubricant in a magnetic field-assisted abrasive grinding, including a grinding wheel guard assembly, including a grinding wheel guard, grinding wheel, and wind deflector; a magnetic worktable mounted on the guard, and a magnetic clamp on the worktable; a controllable magnetic field assembly, including a permanent magnet and a first guide rail mechanism mounted on the deflector, the magnet being connected to the mechanism and to a recovering and filtering device; a controllable nozzle assembly, connected to the deflector on an opposite side of the magnetic field assembly, including a nozzle connected to a linear motion mechanism; and a controlling and monitoring assembly, including a vision camera on the worktable, connected to a system control box. The magnetic nanofluid can exert the optimal lubricating properties and cooling performance under the magnetic field-assisted abrasive grinding, and the magnetic nanoparticles can be further recycled.