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Corresponding Author(s)

徐雪萌(1972—),女,河南工业大学教授,硕士。E-mail:xuxuemeng7439@163.com

Abstract

As the key equipment in rice processing,the technological performance of the rubber roller huller significantly impacts the quality,energy consumption,efficiency,and other performance indicators of rice processing.With the in -depth development of the Fourth Industrial Revolution,characterized by intelligence,the development of intelligent hullers has become an inevitable trend in the advancement of rice processing machinery.This paper explains the basic connotation,technical characteristics,and research scope of intelligent hullers,reviews the research progress on hulling theory,perception monitoring technology,and quality regulation technology,analyzes the existing issues in the intelligent upgrading of hullers,and looks forward to future development directions.

Publication Date

6-13-2025

First Page

241

Last Page

248

DOI

10.13652/j.spjx.1003.5788.2024.80979

References

[1] 阮竞兰,武文斌.粮食机械原理及应用 [M].北京:机械工业出版社,2017:358-397.RUAN J L,WU W B.Principles and applications of grain processing machine [M].Beijing:China Machine Press,2017:358-397.
[2] 舒服华.基于灰色关联的砻谷机工作参数优化 [J].盐城工学院学报 (自然科学版 ),2017,30(1):18-23.SHU F H.Working parameter optimization of rice huller based on grey correlation [J].Journal of Yancheng Institute of Technology (Natural Science Edition ),2017,30(1):18-23.
[3] 康荣杰,杨铖浩,杨名远,等.会思考的机器 ——机械智能 [J].机械工程学报,2018,54(13):15-24.KANG R J,YANG C H,YANG M Y,et al.Machines which can think —mechanical intelligence (MI) [J].Journal of Mechanical Engineering,2018,54(13):15-24.
[4] 马 春 玲.智 能 机 械 设 计 制 造 自 动 化 特 点 与 发 展 趋 势 研 究 [J].内燃机与配件,2020 (20):165-166.MA C L.Research on characteristics and development trends of intelligent machinery design and manufacturing automation [J].Internal Combustion Engine & Parts,2020 (20):165-166.
[5] 刘 强.智 能 制 造 理 论 体 系 架 构 研 究 [J].中 国 机 械 工 程,2020,31(1):24-36.LIU Q.Study on architecture of intelligent manufacturing theory[J].China Mechanical Engineering,2020,31(1):24-36.
[6] 郑晓.胶辊接触应力及接触变形的分析与计算 [J].粮食与饲料工业,1995 (2):5-8.ZHENG X.Analysis and calculation of the contact stress and elastic deformation of rubber roll [J].Cereal & Feed Industry,1995 (2):5-8.
[7] HAN Y L,ZHAO D,JIA F G,et al.Experimental and numerical investigation on the shape approximation of rice particle by multi-sphere particle models [J].Advanced Powder Technology,2020,31(4):1 574-1 586.
[8] 李佳,曹毅,吕荣文,等.两种不同品种稻谷储藏期间加工品质 及 其 米 饭 质 构 特 性 研 究 [J].粮 食 与 食 品 工 业,2021,28(3):29-33.LI J,CAO Y,LU R W,et al.Study on the processing quality and texture characteristics of two different varieties of rice during storage [J].Cereal & Food Industry,2021,28(3):29-33.
[9] SHARIFI S K A.Effect of different husking and whitening machines to rice kernel varieties Abasiya and Mushkhab 1 for both seasons 2006,2007 [J].Euphrates Journal of Agriculture Science,2010,2(3):11-35.
[10] ZAREIFOROUSH H,KOMARIZADEH M H,ALIZADEH M R,et al.Effects of moisture content,loading rate,and grain orientation on fracture resistance of paddy (Oryza sativa L.)grain [J].International Journal of Food Properties,2012,15(1):89-98.
[11] 陈沛瑀.胶辊砻谷机内稻谷脱壳特性研究 [D].哈尔滨:东北农业大学,2020:35-39.CHEN P Y.Study on the hulling mechanism of paddy grain in a rubber roll huller [D].Harbin:Northeast Agricultural University,2020:35-39.[12] CHEN P Y,JIA F G,LIU H R,et al.Effects of feeding direction on the hulling of paddy grain in a rubber roll huller[J].Biosystems Engineering,2019,183:196-208.
[13] 张金成.稻谷胶辊砻谷喂入取向角调节机制及系统优化设计[D].哈尔滨:东北农业大学,2023:21-50.ZHANG J C.Regulation mechanism of feeding orientation of hulling rice with rubber roller and system optimization design[D].Harbin:Northeast Agricultural University,2023:21-50.
[14] MINAEI S,ALIZADEH M R,KHOSHTAGHAZA M H,et al.Effects of de-awning and moisture content on husking characteristics of paddy in rubber-roll husker [J].American Eurasian Journal of Agricultural & Environmental Sciences,2007,78(1):1-5.
[15] PAYMAN M,BAGHERI I,ALIZADEH M R,et al.Effective parameters of broken rice during paddy hulling using rubber roll huller [J].Journal of Biological Sciences,2007,7(1):47-51.
[16] 范雨超.基于稻谷结构特性的砻谷破碎机理研究 [D].武汉:武汉轻工大学,2023:9-34.FAN Y C.Research on hulling and crushing mechanism based on structure property of rice paddy [D].Wuhan:Wuhan University of Light Industry,2023:9-34.
[17] 徐永阳,邓安,邱伟强,等.不同含水率稻谷电学物理量变化规律 [J].食品工业,2024,45(2):114-120.XU Y Y,DENG A,QIU W Q,et al.The change law of electrical physical quantity of rice with different moisture [J].The Food Industry,2024,45(2):114-120.
[18] 龙继英.对胶辊砻谷机胶辊冷却方式的改进 [J].粮食与饲料工业,2008 (11):3-4.LONG J Y.Improvement of cots cooling mode of cots husker[J].Cereal & Feed Industry,2008 (11):3-4.
[19] 刘晓霞,鱼鹏飞,武照云,等.基于 ANSYS 的胶辊砻谷机活动辊装置可靠性分析 [J].河北农机,2021 (12):6-7.LIU X X,YU P F,WU Z Y,et al.Reliability analysis of movable roller device of rubber roller husker based on ANSYS[J].Hebei Agricultural Machinery,2021 (12):6-7.
[20] 鱼鹏飞.胶辊砻谷机活动辊装置可靠性分析及优化设计 [D].郑州:河南工业大学,2021:33-63.YU P F.Reliability analysis and optimization design of movable roller for rice huller with rubber roller [D].Zhengzhou:Henan University of Technology,2021:33-63.
[21] BAKER A,DWYER-JOYCE R S,BRIGGS C,et al.Effect of different rubber materials on husking dynamics of paddy rice[J].Proceedings of the Institution of Mechanical Engineers,Part J:Journal of Engineering Tribology,2012,226(6):516-528.
[22] PARAMASIVAM P,RANGANATHAN R,RATHANASAMY R,et al.Experimental analysis on the technical behavior of carbon black filled rubber blends' rollers for rice husk removal application [J].Polimery,2019,64(1):50-55.
[23] 吴中华,王珊珊,董晓林,等.不同温度及含水率稻米籽粒加|工 过 程 破 裂 载 荷 分 析 [J].农 业 工 程 学 报,2019,35(2):278-283.WU Z H,WANG S S,DONG X L,et al.Analysis of rice compression fracture load in processes with various temperatures and moisture content [J].Transactions of the Chinese Society of Agricultural Engineering,2019,35(2):278-283.
[24] ALSHARIFI S K A,ARABHOSSEINI A,KIANMEHR M H,et al.Effect of moisture content,clearance and machine type on some qualitative characteristics of rice (tarm hashemi ) cultivar [J].Bulgarian Journal of Agricultural Science,2017,23(2):348-355.
[25] ALWAN S K,ARABHOSSEINI A,KIANMEHER M H,et al.The effect of clearance on the performance of machine husking rubber rolls for two [J].Journal of Babylon of University/Pure and Applied Sciences,2018,26(3):207-214.
[26] 李 阳.基 于 稻 谷 力 学 特 性 胶 辊 砻 谷 机 工 作 参 数 优 化 [D].郑州:河南工业大学,2019:48-72.LI Y.Optimization of working parameters of rubber roller husker based on mechanical characteristics of rice [D].Zhengzhou:Henan University of Technology,2019:48-72.
[27] 陈伟超,曹海军,陈伟.胶辊砻谷机主轴的设计与优化 [J].粮食与食品工业,2017 (5):80-82,85.CHEN W C,CAO H J,CHEN W.Design and optimization of the main shaft of rubber roller husker [J].Cereal & Food Industry,2017 (5):80-82,85.
[28] 程敏,陈睿斌,曹宪周.胶辊砻谷机转子系统机械结构的等效 设 计 方 法 [J].河 南 工 业 大 学 学 报 (自 然 科 学 版 ),2023,44(3):113-119.CHENG M,CHEN R B,CAO X Z.An equivalent design method for mechanical structure of rotor system of rubber roller huller [J].Journal of Henan University of Technology (Natural Science Edition ),2023,44(3):113-119.
[29] 刘亚奇,任瑞龙,顾仁刚,等.基于双变频电机驱动的胶辊砻谷机研究与实践 [J].粮食加工,2021,46(6):55-58.LIU Y Q,REN R L,GU R G,et al.Research and practice of rubber roll husker driven by dual frequency motor [J].Grain Processing,2021,46(6):55-58.
[30] 贾乐乐,阮竞兰,石定秒,等.常用胶辊砻谷机的结构特点及性能分析 [J].粮食加工,2014,39(3):53-56.JIA L L,RUAN J L,SHI D M,et al.The structure characteristics and performance analysis of the commonly used rubber roller husker [J].Grain Processing,2014,39(3):53-56.
[31] 贾 乐 乐,阮 竞 兰.胶 辊 砻 谷 机 振 动 喂 料 参 数 分 析 与 优 化 [J].粮食与饲料工业,2014 (12):6-9.JIA L L,RUAN J L.The analysis and optimization of vibration feeding parameters in rubber roller husker [J].Cereal & Feed Industry,2014 (12):6-9.
[32] 贾乐乐,王凤成,阮竞兰.砻谷机喂料器隔振系统的优化分析[J].食品与机械,2014,30(6):89-91.JIA L L,WANG F C,RUAN J L.Optimization analysis of rubber roller husker feeder isolation system [J].Food & Machinery,2014,30(6):89-91.
[33] 贾乐乐.胶辊砻谷机进料系统的数值模拟与运动仿真 [D].郑州:河南工业大学,2015:37-56.JIA L L.The numerical modeling and motion simulation on the feeding system of rubber roller husker [D].Zhengzhou:Henan University of Technology,2015:37-56.
[34] 贾乐乐,阮竞兰.砻谷机振动喂料器中物料流的离散元模拟及试验研究 [J].食品与机械,2016,32(5):91-93.JIA L L,RUAN J L.Discrete element simulation and experiment research of material flow in rubber roller husker vibrating feeder [J].Food & Machinery,2016,32(5):91-93.
[35] 任 晋 博.胶 辊 砻 谷 机 的 改 进 优 化 [J].粮 食 加 工,2018,43(5):66-71.REN J B.Improvement and optimization of top roller huller[J].Grain Processing,2018,43(5):66-71.
[36] 胡 仕 兵.基 于γ射 线 强 度 测 量 的 智 能 料 位 监 控 仪 的 研 制 [J].核电子学与探测技术,2014,34(2):164-169.HU S B.Development of an intelligent material-position monitoring and controlling instrument based on γ-ray intensity measurement [J].Nuclear Electronics & Detection Technology,2014,34(2):164-169.
[37] 杨育坤.激光测距原理的带式输送机监控系统中煤流量检测的研究 [D].天津:天津工业大学,2019:41-49.YANG Y K.Research on coal flow detection in belt conveyor monitoring system based on laser ranging principle [D].Tianjin:Tianjin Polytechnic University,2019:41-49.
[38] 袁娜,宋伟刚,姜涛.散状物料输送机称重的图像处理方法初步研究 [J].煤矿机械,2007,28(12):58-60.YUAN N,SONG W G,JIANG T.Pilot study of imaging-processing method for weighing bulk material on belt conveyor[J].Coal Mine Machinery,2007,28(12):58-60.
[39] 谭长森,倪春明.电场感应式料流传感器设计 [J].工矿自动化,2016,42(4):27-30.TAN C S,NI C M.Design of material flow sensor based on electric field induction [J].Industry and Mine Automation,2016,42(4):27-30.
[40] 叶王伟,王志明,华旗,等.基于 PLC 的自动物料检测运输装置设计 [J].工业控制计算机,2019,32(3):139-140.YE W W,WANG Z M,HUA Q,et al.Design of automatic material detection and transportation device based on PLC [J].Industrial Control Computer,2019,32(3):139-140.
[41] 伍毅,阮竞兰,伍维维.基于多指标正交试验设计的胶辊砻谷 机 工 作 参 数 综 合 优 化 分 析 [J].包 装 与 食 品 机 械,2012,30(3):1-5.WU Y,RUAN J L,WU W W.Comprehensive optimization analysis of working parameters for rubber roll husker based on multi-index orthogonal experimental design [J].Packaging and Food Machinery,2012,30(3):1-5.
[42] 阮竞兰,向光波,程相法.胶辊砻谷机性能参数试验与优化[J].农业工程学报,2011,27(5):353-357.RUAN J L,XIANG G B,CHENG X F.Experiments and optimization of performance parameters on rubber roll husker[J].Transactions of the Chinese Society of Agricultural Engineering,2011,27(5):353-357.
[43] 沈俊豪.砻谷机的胶辊半径测量系统设计及分析 [D].武汉:武汉轻工业大学,2019:12-44.SHEN J H.Design and analysis of rubber roller radius measurement system [D].Wuhan:Wuhan Polytechnic University,2019:12-44.
[44] 李莉.印刷胶辊视觉检测系统研究 [D].西安:西安理工大学,2008:19-35.LI L.Study of the visual inspection system for the rubber roller[D].Xi'an:Xi'an University of Technology,2008:19-35.
[45] 鲁邦年,郑疆.全自动辊间压力控制砻谷机和室温常温砻谷工艺 [J].粮食加工,2010,35(3):64-67.LU B N,ZHENG J.Automatic roll pressure control huller and cool hulling technology [J].Grain Processing,2010,35(3):64-67.
[46] 冯叶陶.砻谷室温度场和流场分析与试验研究 [D].成都:西华大学,2021:18-47.FENG Y T.Analysis and experimental study on temperature field and flow field in Huller [D].Chengdou:Xihua University,2021:18-47.
[47] 李薇薇.温度对胶辊粘弹性滚动接触特性的影响研究 [D].哈尔滨:哈尔滨工业大学,2019:11-33.LI W W.Influence of temperature on the viscoelastic rolling contact characteristics of rubber roller [D].Harbin:Harbin Institute of Technology,2019:11-33.
[48] 李秭锦,毛龙所,汤黎明,等.ZJ116卷烟机水松纸涂胶辊冷却系统的研制 [J].中国机械,2023 (24):2-6.LI Z J,MAO L S,TANG L M,et al.Development of cooling system for tipping paper cots of ZJ 116 cigarette maker [J].Machine China,2023 (24):2-6.
[49] 安建江,沈绒,邵焕,等.WRC-KS 82型涡流纺用胶辊的研发与应用 [J].纺织器材,2023,50(5):46-50.AN J J,SHEN R,SHAO H,et al.Development and application of WRC-KS 82 vortex spinning cot [J].Textile Accessories,2023,50(5):46-50.
[50] 刘鹏.胶辊式砻谷的冲击振动隔离技术研究 [D].成都:西华大学,2020:40-53.LIU P.Study on impact vibration isolation technology of rubber roller husker [D].Chengdou:Xihua University,2020:40-53.
[51] 胡志刚,张永林,刘协舫.气压紧辊脱壳机的工作原理及其气动系统设计 [J].液压与气动,2005,29(6):50-52.HU Z G,ZHANG Y L,LIU X F.De-hulling principle and pneumatic system design of the de-huller with a pneumatic roller tightener [J].Chinese Hydraulics & Pneumatics,2005,29(6):50-52.
[52] 张士雄,阮竞兰,武照云,等.基于双电机驱动全自动气压胶辊砻谷机的研制与控制系统设计 [J].粮食与饲料工业,2015(11):5-7.ZHANG S X,RUAN J L,WU Z Y,et al.The development and control system design of dual motor-based automatic pneumatic rubber brick husker [J].Cereal & Feed Industry,2015 (11):5-7.
[53] 王慧.胶辊砻谷机自动调节系统的设计与研究 [D].太原:山西农业大学,2016:30-49.WANG H.The design and research of automatic control system for rubber roller hulling machine [D].Taiyuan:Shanxi Agricultural University,2016:30-49.
[54] 吕泽.基于砻谷机的自反馈自动化系统设计 [D].武汉:武汉轻工大学,2019:11-27.LYU Z.Design of self-feedback automation system based on rice abrasive machine [D].Wuhan:Wuhan Polytechnic University,2019:11-27.

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