公开(公告)号：US11766753B2

公开(公告)日：2023-09-26

申请号：US17468668

申请日：2021-09-07

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

Inventor： Changhe Li ,  Qingan Yin ,  Yanbin Zhang ,  Huajun Cao ,  Zhenjing Duan ,  Cong Mao ,  Wenfeng Ding ,  Naiqing Zhang ,  Lan Dong ,  Xiufang Bai ,  Menghua Sui ,  Yonghong Liu ,  Wentao Wu ,  Teng Gao ,  Min Yang ,  Dongzhou Jia ,  Runze Li ,  Yali Hou

IPC: B23Q3/157 ,  B23Q11/10 ,  B23C1/06 ,  B23Q3/155 ,  B23Q15/12 ,  B23Q17/09

CPC classification number: B23Q3/15503 ,  B23C1/06 ,  B23Q3/15713 ,  B23Q3/15722 ,  B23Q11/1046 ,  B23Q15/12 ,  B23Q17/0957 ,  B23Q17/0966 ,  Y10T409/304032 ,  Y10T483/10 ,  Y10T483/1755

Abstract: The disclosure provides a milling system and method under different lubrication conditions. The system uses a tool to mill the workpiece, a force measuring system to measure the milling force, a tool change system to replace the tools, a tool storage to store the tools. It can store the tools, provide the lubricating oil to the milling surface, select different tools according to different processing conditions, select the best angle differences of the unequal spiral angle tools according to different conditions comprising dry cutting, casting-type lubrication, minimal quantities of lubrication or minimal quantities of nanofluid lubrication, and/or choose the optimal tool according to different cutting parameters in order to obtain the minimum milling force.

公开(公告)号：US20200248867A1

公开(公告)日：2020-08-06

申请号：US16726169

申请日：2019-12-23

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

Inventor： Changhe Li ,  Zhenjing Duan ,  Huajun Cao ,  Xuefeng Xu ,  Naiqing Zhang ,  Lan Dong ,  Yanbin Zhang ,  Xiufang Bai ,  Wentao Wu ,  Teng Gao ,  Min Yang ,  Dongzhou Jia ,  Runze Li ,  Yali Hou

IPC: F16N7/32 ,  B23Q11/10

Abstract: The present invention relates to a device for recovering, separating and purifying oil mist in a minimum quantity lubricant (MQL) grinding process, comprising: an air separating mechanism, which comprises a pipeline and a fan fixedly connected with one end of the pipeline, wherein the fan is used for forming negative pressure in the pipeline, at least, one conical filter mesh mechanism is arranged in the pipeline, and a tip of the conical filter mesh mechanism faces one side of an air inlet direction of the pipeline; and a filtering and recovering mechanism, which is connected with the pipeline and comprises a tank body, a filtering mechanism and a recovering mechanism, wherein the tank body is connected with the pipeline by a connecting part, and the filtering mechanism is connected with the recovering mechanism.

公开(公告)号：US11441729B2

公开(公告)日：2022-09-13

申请号：US16726169

申请日：2019-12-23

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

Inventor： Changhe Li ,  Zhenjing Duan ,  Huajun Cao ,  Xuefeng Xu ,  Naiqing Zhang ,  Lan Dong ,  Yanbin Zhang ,  Xiufang Bai ,  Wentao Wu ,  Teng Gao ,  Min Yang ,  Dongzhou Jia ,  Runze Li ,  Yali Hou

IPC: F01M1/00 ,  F16N7/32 ,  B23Q11/10 ,  B24B55/12 ,  F01M13/04 ,  B01D45/16 ,  F16C33/66 ,  B01D50/20

Abstract: The present invention relates to a device for recovering, separating and purifying oil mist in a minimum quantity lubricant (MQL) grinding process, comprising: an air separating mechanism, which comprises a pipeline and a fan fixedly connected with one end of the pipeline, wherein the fan is used for forming negative pressure in the pipeline, at least one conical filter mesh mechanism is arranged in the pipeline, and a tip of the conical filter mesh mechanism faces one side of an air inlet direction of the pipeline; and a filtering and recovering mechanism, which is connected with the pipeline and comprises a tank body, a filtering mechanism and a recovering mechanism, wherein the tank body is connected with the pipeline by a connecting part, and the filtering mechanism is connected with the recovering mechanism.

公开(公告)号：US11161210B2

公开(公告)日：2021-11-02

申请号：US16683550

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 ,  Yanbin Zhang ,  Huajun Cao ,  Zhenjing Duan ,  Cong Mao ,  Wenfeng Ding ,  Naiqing Zhang ,  Lan Dong ,  Xiufang Bai ,  Menghua Sui ,  Yonghong Liu ,  Wentao Wu ,  Teng Gao ,  Min Yang ,  Dongzhou Jia ,  Runze Li ,  Yali Hou

IPC: B23Q3/157 ,  B23Q11/10 ,  B23C1/06 ,  B23Q15/12 ,  B23Q17/09

Abstract: The disclosure provides a milling system and method under different lubrication conditions. The system uses a tool to mill the workpiece, a force measuring system to measure the milling force, a tool change system to replace the tools, a tool storage to store the tools. It can store the tools, provide the lubricating oil to the milling surface, select different tools according to different processing conditions, select the best angle differences of the unequal spiral angle tools according to different conditions comprising dry cutting, casting-type lubrication, minimal quantities of lubrication or minimal quantities of nanofluid lubrication, and/or choose the optimal tool according to different cutting parameters in order to obtain the minimum milling force.

公开(公告)号：US11084136B2

公开(公告)日：2021-08-10

申请号：US16683605

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 ,  Yonghong Liu ,  Wenfeng Ding ,  Naiqing Zhang ,  Lan Dong ,  Zhenjing Duan ,  Yanbin Zhang ,  Xiufang Bai ,  Menghua Sui ,  Wentao Wu ,  Gao Teng ,  Min Yang ,  Dongzhou Jia ,  Runze Li ,  Yali Hou

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

Abstract: The disclosure provides a method and system for milling injected cutting fluid under different working conditions. By analyzing influence of airflow fields in a milling area under different working conditions on injection of cutting fluid, an influence rule of a helical angle and a rotation speed of a cutter on the flow field is quantitatively analyzed, an optimal target distance of a nozzle, an angle between the nozzle and a milling cutter feeding direction and an angle between the nozzle and the surface of a workpiece are comprehensively determined, the nozzle is set according to a determined setting manner, and lubricating oil is sprayed to the milling area by utilizing the nozzle.

公开(公告)号：US11524379B2

公开(公告)日：2022-12-13

申请号：US16711851

申请日：2019-12-12

Applicant: QINGDAO UNIVERSITY OF TECHNOLOGY ,  CHONGQING UNIVERSITY

Inventor： Changhe Li ,  Wentao Wu ,  Huajun Cao ,  Cong Mao ,  Wenfeng Ding ,  Naiqing Zhang ,  Menghua Sui ,  Han Zhai ,  Teng Gao ,  Yanbin Zhang ,  Min Yang ,  Dongzhou Jia ,  Qingan Yin ,  Xiaoyang Zhang ,  Yali Hou

IPC: B23Q11/10

Abstract: The present invention relates to a milling machine processing system with an intelligently follow-up cutting fluid nozzle and a working method. The milling machine processing system comprises a workpiece stage, wherein a milling machine box body is arranged above the workpiece stage; a milling cutter mechanism is mounted on the milling machine box body for processing workpieces on the workpiece stage; a rotating mechanism is mounted on an end surface of the milling machine box body located at one side of a milling cutter; the rotating mechanism is connected with a two-axis linkage mechanism and drives the two-axis linkage mechanism to rotate about a center line on which the milling cutter is located; the two-axis linkage system is connected with a nozzle through an angle adjusting mechanism and is used for adjusting a position and an angle of the nozzle.

公开(公告)号：US12269139B2

公开(公告)日：2025-04-08

申请号：US17404544

申请日：2021-08-17

Applicant: Qingdao University of Technology ,  Ningbo Sanhan Alloy Material Co., Ltd.

Inventor： Changhe Li ,  Haogang Li ,  Liang Luo ,  Weixi Ji ,  Binhui Wan ,  Shuo Yin ,  Huajun Cao ,  Bingheng Lu ,  Lizhi Tang ,  Xin Cui ,  Mingzheng Liu ,  Yanbin Zhang ,  Jie Xu ,  Huiming Luo ,  Haizhou Xu ,  Min Yang ,  Huaping Hong ,  Teng Gao ,  Yuying Yang ,  Wuxing Ma ,  Shuai Chen

IPC: B23Q7/04 ,  B23P23/06 ,  B23Q3/08 ,  B23Q7/10 ,  B23Q7/14 ,  B23Q11/08 ,  B23Q17/24 ,  B23Q41/02 ,  B25J13/08 ,  B25J19/02 ,  B23B13/02 ,  B25J19/00

Abstract: An intelligent production line for turning tool bit cavities and an application method are provided, which solve the problem that a production line in the prior art has low working efficiency. The intelligent production line has the beneficial effects of a compact arrangement structure, higher safety and improved working efficiency. The intelligent production line for turning tool bit cavities includes a robot. Material tables and at least one machining center are arranged around the robot. A transfer station used for transferring materials is arranged between the machining center and the robot. A protective fence is arranged between a position above the material tables and the robot, and between the transfer station and the robot. The robot is provided with a mechanical arm including a base plate. The base plate is provided with at least one clamping jaw and fixed with a laser detecting unit for detecting the materials.

公开(公告)号：US12172249B2

公开(公告)日：2024-12-24

申请号：US17340945

申请日：2021-06-07

Applicant: QINGDAO UNIVERSITY OF TECHNOLOGY ,  NINGBO SANHAN ALLOY MATERIAL CO., LTD.

Inventor： Changhe Li ,  Shuo Yin ,  Liang Luo ,  Weixi Ji ,  Binhui Wan ,  Cong Mao ,  Haogang Li ,  Huajun Cao ,  Bingheng Lu ,  Lizhi Tang ,  Xin Cui ,  Mingzheng Liu ,  Yanbin Zhang ,  Jie Xu ,  Huiming Luo ,  Haizhou Xu ,  Min Yang ,  Huaping Hong ,  Teng Gao ,  Yuying Yang ,  Wuxing Ma ,  Shuai Chen

IPC: B23P15/28 ,  B65G47/04

Abstract: The present disclosure provides a carbide blade cutter head filling device and method, and relates to the field of alloy blade processing. 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. A function of automatically feeding and loading the cutter head is fulfilled, the scattered blades are loaded into the cutter heads in batches instead of manually completing repeated work in a process of loading the blade into the cutter head. Therefore, the labor intensity of workers is reduced, the production efficiency is improved, and the blade production cost is reduced.

公开(公告)号：US12138649B2

公开(公告)日：2024-11-12

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: B05B5/03 ,  B05B5/025 ,  B05B5/043 ,  B05B5/053 ,  B05B5/16 ,  B24B55/02

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：US11976348B2

公开(公告)日：2024-05-07

申请号：US17340831

申请日：2021-06-07

Applicant: QINGDAO UNIVERSITY OF TECHNOLOGY ,  NINGBO SANHAN ALLOY MATERIAL CO., LTD.

Inventor： Yanbin Zhang ,  Liang Luo ,  Lizhi Tang ,  Changhe Li ,  Weixi Ji ,  Binhui Wan ,  Shuo Yin ,  Huajun Cao ,  Bingheng Lu ,  Xin Cui ,  Mingzheng Liu ,  Teng Gao ,  Jie Xu ,  Huiming Luo ,  Haizhou Xu ,  Min Yang ,  Huaping Hong ,  Xiaoming Wang ,  Yuying Yang ,  Haogang Li ,  Wuxing Ma ,  Shuai Chen

IPC: C23C14/02 ,  B08B3/02 ,  B08B3/04 ,  B08B3/12 ,  C23C14/32 ,  C23C14/50

CPC classification number: C23C14/021 ,  B08B3/02 ,  B08B3/045 ,  B08B3/12 ,  C23C14/325 ,  C23C14/505

Abstract: The present invention relates to a carbide tool cleaning and coating production line and a method, including a cleaning device including a support frame, a cleaning mechanism and a drying mechanism are sequentially disposed under the support frame connected to a moving mechanism, the moving mechanism is connected to a lifting mechanism being capable of being connected to a tool fixture bracket being configured to accommodate the tool fixture; a coating device including a coating chamber which a plane target mechanism and a turntable assembly disposed in, the turntable assembly is capable of being connected to a plurality of tool fixtures being capable of rotating around an axial line of the coating chamber under the driving of the turntable assembly and rotating around an axial line thereof at the same time; and, a manipulator being disposed between the cleaning device and the coating device.