2020年度高等学校科学研究优秀成果奖(科学技术)提名项目公示信息(技术进步)
Public Information of the nomination Project of the 2020 Scientific Research Outstanding Achievement Award (Science and Technology) of Institutions of Higher Learning (Technological Progress)
项目名称 Item |
Intelligent air conditioning circulating pump equipment and digital detection key technology and industrialization |
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提名单位 Nominated unit |
浙江省教育厅 Zhejiang Education Department |
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主要完成单位 Main completion unit |
中国计量大学,贝德科技有限公司,南方中金环境股份有限公司,浙江工业大学,浙江工业大学之江学院,宁波九荣环保科技有限公司 China Jiliang University,Better Technology Co.,LTD, Nanfang Zhongjin Environment Co., Ltd. Zhejiang University of Technology,Zhijiang College of Zhejiang University of Technology, Ningbo Jiurong Environmental Protection Technology Co. LTD |
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主要完成人情况 Major completion cases |
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排名Rank |
姓名 Name |
技术职称 technical titles |
工作单位 Work units |
完成单位 Completion unit |
对本项目主要技术发明的贡献 Contributions to major technical inventions of the project |
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1 |
牟介刚 |
教授 Professor |
中国计量大学 China Jiliang University |
中国计量大学 China Jiliang University |
项目总体负责人,全面负责项目技术研发的总体思路、技术路线和推广应用;提出了空调循环泵优化设计方法和空调循环泵控制策略,对创新点1、2、3均有贡献,主要发明专利《具有仿生结构的减振降噪离心泵》、《驱动并联水泵电机的脉冲调制方法》、《一种多泵并联恒压供水控制系统及控制方法》和《一种基于功率和压差的离心泵流量预测方法》。 Project leader, responsible for the overall thinking, technical route and promotion and application of the project technology r&d;Put forward the method for the optimization design of air conditioning circulating pump and air conditioning circulating pump control strategy, the innovation points 1, 2, 3, all have contribution, mainly for a patent for invention "with the bionic structure vibration noise centrifugal pump, the motor driven pumps in parallel pulse modulation method", "more than a pump in parallel and the control methods of constant pressure water supply control system, and "the one based on power and differential pressure of centrifugal pump flow prediction method". |
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2 |
周佩剑 |
副教授 Associate professor |
中国计量大学 China Jiliang University |
中国计量大学 China Jiliang University |
负责图纸的绘制/样机的测试及相关技术文档的编写,提出了空调循环泵叶轮的抛光方法,参与了泵结构的仿生设计及加工,对创新点2、3有贡献,提出了空调循环泵优化设计方法,完成了发明专利《一种离心泵叶轮复合式旋转抛光装置》,参与发明专利《一种短距离管道内壁仿生沟槽表面加工装置及其加工方法》。 Responsible for the drawings of the draw/prototype test and related technical document writing, air-conditioning circulation pump impeller polishing method is proposed, and participated in the bionic design and the processing of pump structure, contributes to the innovation points 2, 3, and put forward the method for the optimization design of air conditioning circulating pump, completed the invention patent "one kind of compound centrifugal pump impeller rotating polishing device", involved in a patent for invention "a short pipe inner surface bionic grooved surface processing device and its processing method. |
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3 |
罗卫华 |
工程师 Engineer |
贝德科技有限公司 Better Technology Co.,LTD |
贝德科技有限公司 Better Technology Co.,LTD |
负责生产工艺的编写、样机的制作与测试,设计了空调循环泵的减震垫,对创新点3有贡献,完成了发明专利《一种离心泵的减振垫》和《一种多向输出的卧式管道离心泵》。 Responsible for the preparation of the production process, the production and testing of the prototype, the design of the shock absorber for the air conditioning circulating pump, contributing to innovation 3, the completion of the invention patents "a centrifugal pump vibration absorber" and "a multidirectional output horizontal pipe centrifugal pump".
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4 |
赵才甫 |
高级工程师 senior engineer |
南方中金环境股份有限 公司 Nanfang Zhongjin Environment Co., Ltd |
南方中金环境股份有限公司 Nanfang Zhongjin Environment Co., Ltd |
产品生产方案制定与实施,负责产品生产工艺的编写、样机的制作与测试;负责生产工艺的编写、样机的制作与测试,对创新点3有贡献。 Formulated and implemented the product production plan, responsible for the preparation of product production process, prototype production and testing;Responsible for the preparation of production process, production and testing of prototype, contributing to innovation point 3. |
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5 |
曾九孙 |
教授 Professor |
中国计量大学 China Jiliang University |
中国计量大学 China Jiliang University |
编写了空调循环泵的监测软件,对创新点1有贡献,完成了软件著作《石化泵状态监测与故障分析可视化云平台软件V1.0》和《用于空调温控阀中弹簧管和螺帽自动装配装置》。 Wrote the monitoring software for air conditioning circulating pump and contributed to innovation point 1, and completed the software works "Petrochemical Pump Status Monitoring and Fault Analysis Visual Cloud Platform Software V1.0" and "Automatic Assembly Device for spring pipe and nut in air conditioning temperature control valve". |
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6 |
张聚 |
教授 Professor |
浙江工业大学之江学院 Zhijiang College of Zhejiang University of Technology |
浙江工业大学之江学院 Zhijiang College of Zhejiang University of Technology |
提出了空调循环泵控制系统中点定位问题的同义去冗余网格法和快速二叉树法,对创新点1有贡献,完成了主要发明专利《控制系统中点定位问题的同义去冗余网格法》和《控制系统中点定位问题的快速二叉树法》。 The synonymous de-Redundant grid method and fast binary tree method for the control system of air conditioning circulating pump midpoint positioning are proposed, which contribute to innovation point 1. The main invention patents, synonymy de-redundant Grid Method for the Control System midpoint positioning problem and fast Binary Tree Method for the Control System Midpoint positioning problem are completed. |
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7 |
徐茂森 |
助理研究员 research assistant |
中国计量大学 China Jiliang University |
中国计量大学 China Jiliang University |
参与了空调循环泵相关智能算法的测试与分析,对创新点1有贡献。 Participated in the test and analysis of intelligent algorithm related to air conditioning circulating pump, and contributed to innovation point 1. |
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8 |
郑水华 |
副教授 Associate professor |
浙江工业大学 Zhejiang University of Technology |
浙江工业大学 Zhejiang University of Technology |
参与了空调循环泵优化设计中的数值模拟部分,对创新点3有贡献,参与发明专利《一种离心泵叶轮复合式旋转抛光装置》和《一种短距离管道内壁仿生沟槽表面加工装置及其加工方法》。 Participated in the numerical simulation part in the optimization design of air conditioning circulating pump, contributed to innovation point 3, participated in the invention of patents "A centrifugal pump impeller compound rotary polishing device" and "a bionic groove surface processing device for the inner wall of short distance pipeline and its processing method". |
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9 |
任芸 |
副教授 Associate professor |
浙江工业大学之江学院 Zhijiang College of Zhejiang University of Technology |
浙江工业大学之江学院 Zhijiang College of Zhejiang University of Technology |
参与了空调循环泵优化设计和离心泵流量预测方法相关技术,对创新点2有贡献。完成发明专利《一种空间导叶离心泵水力设计方法》,参与发明专利《一种基于功率和压差的离心泵流量预测方法》。 Participated in the optimization design of air conditioning circulating pump and related technologies of centrifugal pump flow prediction method, and contributed to innovation point 2. Completed the invention patent "A Space guide vane centrifugal pump Hydraulic Design Method", participated in the invention patent "a Centrifugal pump flow prediction Method based on power and pressure difference". |
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10 |
徐海味 |
工程师 Engineer |
宁波九荣环保科技有限公司 Ningbo Jiurong Environmental Protection Technology Co. LTD |
宁波九荣环保科技有限公司 Ningbo Jiurong Environmental Protection Technology Co. LTD |
参与了空调循环泵控制方法与智能化相关技术,对创新点1有贡献。 Participated in the control method of air conditioning circulating pump and related intelligent technology, and contributed to innovation point 1. |
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主要知识产权和标准规范等目录(不超过10件) Catalogue of major Intellectual Property rights, Standards and Specifications (no more than 10 pieces) |
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序号 NO. |
知识产权(标准)类别 Intellectual Property (standard) categories |
知识产权(标准) 具体名称 Intellectual Property (Standard) |
国家 (地区) countries |
授权号 (标准编号) License no. |
授权(标准发布)日期 Date of authorization (standard release) |
证书编号 Certificate number |
权利人 (标准起草单位) The holder of the |
发明人 (标准起草人) The inventor |
发明专利(标准)有效状态 Patent for invention (standard) effective status
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1 |
软件著作权 software copyright |
石化泵状态监测与故障分析可视化云平台软件V1.0 Petrochemical pump status monitoring and fault analysis Visual cloud platform software V1.0 |
中国 China |
2019SR0103528 |
2018-10-20 |
3524285 |
中国计量大学 China Jiliang University |
曾九孙 |
有效软件 Effective software |
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2 |
patent for invention |
用于空调温控阀中弹簧管和螺帽自动装配装置 Used for automatic assembly of spring pipe and nut in air conditioning temperature control valve |
中国 China |
ZL201610254816.6 |
2018-01-30 |
2795603 |
中国计量大学 China Jiliang University |
曾九孙;邹泽桦;蔡晋辉;姚燕;谷小红 |
有效专利 patent in force |
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3 |
发明专利 patent for invention |
一种基于功率和压差的离心泵流量预测方法 A centrifugal pump flow prediction method based on power and differential pressure is presented |
中国 China |
ZL201410538240.7 |
2017-10-31 |
2675434 |
浙江工业大学之江学院 Zhijiang College of Zhejiang University of Technology |
吴登昊;任芸;杨友东;蒋兰芳;牟介刚;刘健 |
有效专利 patent in force |
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4 |
发明专利 patent for invention |
一种空间导叶离心泵水力设计方法 A hydraulic design method for a space guide vane centrifugal pump is presented |
中国 China |
ZL201510593425.2 |
2017-08-0 |
2571016 |
浙江工业大学之江学院 Zhijiang College of Zhejiang University of Technology |
任芸;吴登昊;牟介刚;杨友东;蒋兰芳;谷云庆 |
有效专利 patent in force |
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5 |
发明专利 patent for invention |
控制系统中点定位问题的快速二叉树法 A fast binary tree method for control system midpoint location problem |
中国 China |
ZL201410587619.7 |
2017-09-29 |
2640319 |
浙江工业大学 Zhejiang University of Technology |
张聚;胡标标;林广阔;谢作樟;修晓杰 |
有效专利 patent in force |
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6 |
发明专利 patent for invention |
具有仿生结构的减振降噪离心泵 Vibration and noise reduction centrifugal pump with bionic structure |
中国 China |
ZL201510351784.7 |
2017-09-26 |
2639321 |
浙江工业大学 Zhejiang University of Technology |
牟介刚;刘剑;谷云庆;代东顺;郑水华;钱亨;陈莹 |
有效专利 patent in force |
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7 |
发明专利 patent for invention |
一种多泵并联恒压供水控制系统及控制方法 The utility model relates to a multi-pump parallel constant pressure water supply control system and its control method |
中国 China |
ZL201610057552.5 |
2018-02-23 |
2823329 |
宁波九荣环保科技有限公司 Ningbo Jiurong Environmental Protection Technology Co. LTD |
迟颂;牟介刚 |
有效专利 patent in force |
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8 |
发明专利 patent for invention |
一种离心泵叶轮复合式旋转抛光装置 The utility model relates to a centrifugal pump impeller compound rotary polishing device |
中国 China |
ZL201611256885.7 |
2018-09-27 |
3064415 |
浙江工业大学 Zhejiang University of Technology |
周佩剑;吴振兴;牟介刚;唐佳新;郑水华;谷云庆 |
有效专利 patent in force |
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9 |
发明专利 patent for invention |
一种短距离管道内壁仿生沟槽表面加工装置 The invention relates to a bionic groove surface machining device for short distance pipe inner wall |
中国 China |
ZL201710059722.8 |
2018-06-05 |
2947440 |
浙江工业大学 Zhejiang University of Technology |
谷云庆;刘涛;牟介刚;郑水华;周佩剑;吴登昊 |
有效专利 patent in force |
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10 |
发明专利 patent for invention |
驱动并联水泵电机的脉冲调制方法 Pulse Modulation method for actuating parallel water pump motor |
中国 |
ZL201610075278.4 |
2018-10-23 |
3119414 |
宁波九荣环保科技有限公司 Ningbo Jiurong Environmental Protection Technology Co. LTD |
迟颂;牟介刚 |
有效专利 |
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合 计 10 Total 10 |
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备注:上表中“对本项目主要技术发明的贡献”,应具体写明完成人对本项目做出的实质性贡献并注明对应“四、主要科技创新”所列第几项科技创新;与他人合作完成的科技创新,要细致说明本人独立于合作者的具体贡献,以及支持本人贡献成立的证明材料在附件中的编号。
Note: In the above table, "contributions to the major technological inventions of the Project", the substantial contributions made by the completed person to the project shall be specified and the corresponding scientific and technological innovations listed in "iv. Major Scientific and technological Innovations" shall be indicated. For the scientific and technological innovation completed in cooperation with others, the specific contributions made by myself independently of the collaborators shall be explained in detail, as well as the number of the supporting documents in the attachment.