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Corresponding Author(s)

任广跃(1971—),男,河南科技大学教授,博士。E-mail: guangyueyao@163.com

Abstract

Shelling rate and kernel breaking rate are the two key indicators of shelled materials, and mechanical shelling is one of the important methods to improve these key indicators. In this paper, the common mechanical shelling methods, mechanical shelling types, mechanical shelling principles and development status of shelling materials were analyzed. The advantages and disadvantages of mechanical hulling equipment were summarized, and suggestions were made for the problems existing in the current application of mechanical hulling.

Publication Date

10-20-2023

First Page

215

Last Page

222

DOI

10.13652/j.spjx.1003.5788.2022.80985

References

[1] 刘亚娜, 杨小红, 耿阳阳, 等. 不同野生榛子果实特性及营养成分分析[J]. 中国粮油学报, 2021, 36(1): 117-122. LIU Y N, YANG X H, GENG Y Y, et al. Analysis of fruit characteristics and nutritional composition of different wild hazelnuts[J]. Journal of the Chinese Cereals and Oils Association, 2021, 36(1): 117-122.
[2] PRUSSIA S E, VERMA B P. Apparatus for cracking edible nuts: US4467710A[P]. 1984-08-01.
[3] OLUWOLE F A, ABDULRAHIM A T. Evaluation of some centrifugal impaction devices for shelling bambara groundnut[J]. International Commission of Agricultural Engineering, 2007, 9: 1-14.
[4] 吕小莲, 吕小荣, 张孝琼. 坚果剥壳机具的研究现状与分析[J]. 食品工业科技, 2011, 32(8): 485-488. LU X L, LU X R, ZHANG X Q. Research and analysis of nuts shelling machines[J]. Science and Technology Industry, 2011, 32(8): 485-488.
[5] 李晓霞, 郭玉明. 带壳物料脱壳方法及脱壳装备现状与分析[J]. 农产品加工(学刊), 2007(4): 83-86. LI X X, GUO Y M. Actuality of the decladding method and sheller of shell fruit[J]. Academic Periodical of Farm Products Processing, 2007(4): 83-86.
[6] 宋建双, 刘翠红, 刘洪旭, 等. 坚果剥壳方法的研究与应用现状[J]. 农业科技与装备, 2014(6): 42-43. SONG J S, LIU C H, LIU H X, et al. Research and application status of the nuts shelling methods[J]. Agricultural Science & Technology and Equipment, 2014(6): 42-43.
[7] 姚会玲, 陈伟超, 张瑞洋, 等. 棉籽剥壳机的研究现状及发展对策[J]. 粮食与食品工业, 2011, 18(4): 49-51. YAO H L, CHEN W C, ZHANG R Y, et al. Research actuality and developing countermeasures of cotton seedrinding machine[J]. Cereal and Food Industry, 2011, 18(4): 49-51.
[8] 杜文华. 带壳物料脱壳技术研究初探[J]. 太原师范学院学报(自然科学版), 2003(1): 58-61. DU W H. Study on the hulling technology of fruit[J]. Journal of Taiyuan Teachers College (Natural Science Edition), 2003(1): 58-61.
[9] 张荣荣, 李小昱, 王为. 基于揉搓方法的板栗破壳性能的试验研究[J]. 农业工程学报, 2007(5): 177-179. ZHANG R R, LI X Y, WANG W. Experimental research on cracking performance of Chinese chestnut based on flexible rubbing method[J]. Transactions of the Chinese Society of Agricultural Engineering, 2007(5): 177-179.
[10] 马秋成, 陈强, 卢安舸, 等. 核桃定向破壳装置设计及试验[J]. 江西农业大学学报, 2022, 44(2): 473-485. MA Q C, CHEN Q, LU A G, et al. Design and test of walnut directional shell breaking device[J]. Acta Agriculturae Universitatis Jiangxiensis, 2022, 44(2): 473-485.
[11] 伍毅, 阮少兰. 胶辊砻谷机工作参数对稻谷脱壳率的影响[J]. 粮食与饲料工业, 2011(11): 1-3. WU Y, RUAN S L. Effect of operating parameters of rubber huller machine on paddy shelling rate[J]. Cereal & Feed Industry, 2011(11): 1-3.
[12] 史艳花, 张国全, 黄志平, 等. 基于外碾削立式碾米机的离散元法仿真分析[J]. 农机化研究, 2015, 37(5): 54-57. SHI Y H, ZHANG G Q, HUANG Z P, et al. Simulation analysis of the outer vertical milling machine grinding cut discrete element method[J]. Journal of Agricultural Mechanization Research, 2015, 37(5): 54-57.
[13] 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: 18-38. CHEN P Y. Study on the hulling mechanism of paddy grain in an rubber roll huller[D]. Harbin: Northeast Agricultural University, 2020: 18-38.
[14] 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: 67-71. LI Y. Optimization of working parameters of rubber roller husker based on mechanical characteristics of rice[D]. Zhengzhou: Henan University of Technology, 2019: 67-71.
[15] 朱新华, 范维果, 李泽, 等. 苦荞麦非热脱壳机试验研制[J]. 中国农业大学学报, 2017, 22(12): 146-155. ZHU X H, FAN W G, LI Z, et al. Test and development of an non-thermal tartary buckwheat huller[J]. Journal of China Agricultural University, 2017, 22(12): 146-155.
[16] 陈伟, 杜文亮, 政东红, 等. 荞麦剥壳机性能参数试验研究[J]. 中国农业大学学报, 2017, 22(7): 107-114. CHEN W, DU W L, ZHENG D H, et al. Experimental study and parameter analysis on buckwheat huller[J]. Journal of China Agricultural University, 2017, 22(7): 107-114.
[17] 丁进锋. 亚麻籽脱壳分离系统关键技术及设备研究[D]. 北京: 中国农业机械化科学研究院, 2016: 31-96. DING J F. Study on the critical technology of flaxseed dehulling and separation and dehull equipment[D]. Beijing: Chinese Academy of Agricultural Mechanization Sciences, 2016: 31-96.
[18] 丁进锋, 赵凤敏, 曹有福, 等. 亚麻籽脱壳机脱壳性能试验研究[J]. 农机化研究, 2017, 39(1): 158-164. DING J F, ZHAO F M, CAO Y F, et al. Experiment on shelling machine of flaxseed[J]. Journal of Agricultural Mechanization Research, 2017, 39(1): 158-164.
[19] 薛旭东, 赵知辛, 王琨. 小麦脱皮机转子预弯工艺及优化设计[J]. 中国农机化学报, 2020, 41(3): 104-108. XUE X D, ZHAO Z X, WANG K. Pre-bending technology and optimum design of the rotor in wheat peeler[J]. Journal of Chinese Agricultural Mechanization, 2020, 41(3): 104-108.
[20] 陈万程. 砂盘式薏仁脱壳机设计研究[D]. 武汉: 武汉轻工大学, 2016: 14-45. CHEN W C. Research and design of coix seed huller featured of abrasive and rubber discs[D]. Wuhan: Wuhan Polytechnic University, 2016: 14-45.
[21] 郝建军, 聂庆亮, 马璐萍, 等. 锥盘式花生种子脱壳装置研制[J]. 农业工程学报, 2020, 36(17): 27-34. HAO J J, NIE Q L, MA L P, et al. Development of cone disc type shelling mechanism for peanut seeds[J]. Transactions of the Chinese Society of Agricultural Engineering, 2020, 36(17): 27-34.
[22] 张远东, 王东伟, 何晓宁, 等. 基于Workbench LS-dyna的花生荚果脱壳受力仿真研究[J]. 花生学报, 2022, 51(1): 66-71. ZHANG Y D, WANG D W, HE X Y, et al. Simulation study on peanut pod shelling force based on Workbench LS-Dyna[J]. Journal of Peanut Science, 2022, 51(1): 66-71.
[23] 唐湘, 谢方平, 李旭, 等. 油茶果脱壳装置设计及试验[J]. 湖南农业大学学报(自然科学版), 2014, 40(6): 665-668. TANG X, XIE F P, LI X, et al. Design and test of dehulling machine for camellia oleifera fruit[J]. Journal of Hunan Agricultural University (Natural Sciences), 2014, 40(6): 665-668.
[24] 王晓暄, 史建新, 周军. 离心式核桃二次破壳机的设计与实验研究[J]. 新疆农业科学, 2013, 50(6): 1 115-1 121. WANG X X, SHI J X, ZHOU J. Design and test of centrifugal secondary broker for walnuts[J]. Xinjing Agricultural Sciences, 2013, 50(6): 1 115-1 121.
[25] 丁冉, 曹成茂, 詹超, 等. 仿生敲击式山核桃破壳机的设计与试验[J]. 农业工程学报, 2017, 33(3): 257-264. DING R, CAO C M, ZHAN C, et al. Design and experiment of bionic-impact type pecan shell breaker[J]. Transactions of the Chinese Society of Agricultural Engineering, 2017, 33(3): 257-264.
[26] SHAHBAZI F. Effects of moisture content and impact energy on the cracking characteristics of walnuts[J]. International Journal of Food Engineering, 2014, 10(1): 149-156.
[27] CELIK H K, CAGLAYAN N, RENNIE A E W. Nonlinear FEM based high-speed shell shattering simulation for shelled edible agricultural products: Pecan fruit shattering[J]. Journal of Food Process Engineering, 2017, 40(5): 1-8.
[28] 甘肃省林业科学研究院. 一种用于榛子壳仁分选的吸式层选机: CN202121958974.2[P]. 2022-04-05. Gansu Research Academy of Forestry Science and Technology. A suction type layer sorter for hazelnut shell kernel sorting: CN202121958974.2[P]. 2022-04-05.
[29] 汤晶宇, 王东, 寇欣, 等. 四通道全自动油茶成熟鲜果脱壳机设计与试验[J]. 农业机械学报, 2021, 52(4): 109-116, 229. TANG J Y, WANG D, KOU X, et al. Design and experiment of four-channel fully automatic shelling machine for ripe fresh camellia oleifera fruit[J]. Transactions of the Chinese Society for Agricultural Machinery, 2021, 52(4): 109-116, 229.
[30] 杨发展, 李全满, 尹海龙, 等. 葵花籽精准高效碾压破壳脱壳技术装备研发[J]. 机械研究与应用, 2017, 30(3): 94-95, 98. YANG F Z, LI Q M, YIN H L, et al. Research and equipment development of precise and efficient shell breaking/shelling technology of sunflower seeds[J]. Mechanical Research & Application, 2017, 30(3): 94-95, 98.
[31] 杨然兵, 尚书旗. 花生果实撞击试验及分析[J]. 农机化研究, 2010, 32(9): 176-178, 183. YANG R B, SHANG S Q. The crash test and analysis of peanut[J]. Journal of Agricultural Mechanization Research, 2010, 32(9): 176-178, 183.
[32] 杨忠强, 杨莉玲, 闫圣坤, 等. 杏核破壳技术及装备研究进展[J]. 食品与机械, 2016, 32(10): 230-236. YANG Z Q, YANG L L, YAN S K, et al. Research progress on almond cracking technology and equipment[J]. Food & Machinery, 2016, 32(10): 230-236.
[33] 廖配, 全腊珍, 肖旭, 等. 撞击式油茶果破壳装置的设计及试验[J]. 湖南农业大学学报(自然科学版), 2019, 45(1): 108-112. LIAO P, QUAN L Z, XIAO X, et al. Deign and experimental study of percussive shelling device for Camellia oleifera fruit[J]. Journal of Hunan Agricultural University (Natural Sciences), 2019, 45(1): 108-112.
[34] 李忠新, 杨军, 杨莉玲, 等. 核桃破壳取仁工艺及关键设备[J]. 农机化研究, 2008(12): 27-29, 89. LI Z X, YANG J, YANG L L, et al. Walnut exuviating takes the kind craft and the key equipment[J]. Journal of Agricultural Mechanization Research, 2008(12): 27-29, 89.
[35] 程国梁, 郑甲红, 王超. 二次挤压式核桃破壳机[J]. 食品与机械, 2022, 38(2): 64-67. CHNEG G L, ZHENG J H, WANG C. Secondary extrusion walnut shell breaker[J]. Food & Machinery, 2022, 38(2): 64-67.
[36] 何义川, 王序俭, 曹肆林, 等. 对辊挤压式核桃破壳装置的设计与试验研究[J]. 江苏农业科学, 2012, 40(9): 350-352. HE Y C, WANG X J, CAO S L, et al. Design and experimental study of walnut shell breaking device with roll extrusion[J]. Jiangsu Agricultural Sciences, 2012, 40(9): 350-352.
[37] 刘明政. 核桃剪切挤压柔性破壳取仁的机理分析与实验研究[D]. 青岛: 青岛理工大学, 2015: 89-105. LIU M Z. Mechanization analysis and experimentation research of walnut shearing-extrusion flexible shell-crushing[D]. Qingdao: Qingdao University of Technology, 2015: 89-105.
[38] 刘明政, 李长河, 张彦彬, 等. 柔性带差速挤压核桃脱壳性能试验[J]. 农业机械学报, 2016, 47(9): 99-107. LIUM Z, LI C H, ZHAG Y B, et al. Performance test of walnut shelling using flexible-belt and differential velocity extrusion[J]. Transactions of the Chinese Society for Agricultural Machinery, 2016, 47(9): 99-107.
[39] 甘肃省林业科学研究院. 一种双层多滚轮间隙可调式榛子脱壳机: CN202121959210.5[P]. 2022-04-05. Gansu Research Academy of Forestry Science and Technology. A double-layer multi-roller gap adjustable hazelnut hulling machine: CN202121959210.5[P]. 2022-04-05.
[40] 铁岭市清河区兴农农机制造有限公司. 新型高效榛子脱壳机: CN201520165613.0[P]. 2015-07-22. Tieling Qinghe District Xingnong Agricultural Machinery Manufacturing CO. New high efficiency hazelnut hulling machine: CN201520165613.0[P]. 2015-07-22.
[41] 张振兴, 王家兴, 李海龙, 等. 榛子剥壳筛选设备结构设计[J]. 科技经济市场, 2020(12): 27-28. ZHANG Z X, WANG J X, LI H L, et al. Hazelnut shelling and screening equipment structure design[J]. Science & Technology Ecnony Market, 2020(12): 27-28.
[42] 韩闰劳, 左志刚, 赵宗朝. 对辊挤压式杏核破壳机关键部件的优化设计[J]. 机械研究与应用, 2020, 33(5): 139-141, 144. HAN R L, ZUO Z G, ZHAO Z C. Optimization design for the key components of twin-roll evtrusion apricot shell breaker[J]. Mechanical Research & Application, 2020, 33(5): 139-141, 144.
[43] 祝兆帅. 斜齿对辊挤压式杏核破壳机的设计与试验[D]. 乌鲁木齐: 新疆农业大学, 2021: 37-45. ZHU Z S. Design and experiment of extrusion type apricot stone breaking machine with oblique tooth and counter rollers[D]. Wulumuqi: Xinjiang Agricultural University, 2021: 37-45.
[44] 锦州俏牌机械有限公司, 锦州俏牌生物科技有限公司. 对辊式不分级杏核脱壳机: CN201621423772.7[P]. 2017-09-12. Jinzhou Pretty Brand Machinery CO, Jinzhou Pretty Brand Biotechnology Co. Non-graded apricot kernel hulling machine of roller type: CN201621423772.7[P]. 2017-09-12.
[45] 刘义军, 朱德明, 黄茂芳. 腰果加工利用的研究进展[J]. 农产品加工(学刊), 2013(22): 43-45. LIU Y J, ZHU D M, HUANG M F. Advances in research on processing technology of anacardium occidentalie linn[J]. Academic Periodical of Farm Products Processing, 2013(22): 43-45.
[46] 刘义军, 黄晖, 张帆, 等. 腰果脱壳机机械性能测试研究[J]. 食品与机械, 2016, 32(10): 74-76. LIU Y J, HUANG H, ZHANG F, et al. Mechanical performance test of cashew nut sheller[J]. Food & Machinery, 2016, 32(10): 74-76.
[47] 刘义军, 陈民, 周延德, 等. 一种全自动腰果脱壳机的脱壳试验研究[J]. 食品与机械, 2017, 33(7): 92-94, 103. LIU Y J, CHEN M, ZHOU Y D, et al. Experimental study on shelling of a kind of self-designed and manufactured cashew nut sheller[J]. Food & Machinery, 2017, 33(7): 92-94, 103.
[48] 宫杰, 付云飞, 黄晖, 等. 基于灰色神经网络的腰果自适应破壳刀具的整仁率预测[J]. 中国农机化学报, 2016, 37(6): 113-117. GONG J, FU Y F, HUANG H, et al. Prediction of whole-kernel rate of adaptive cashew shelling cutter based on grey neural network[J]. Journal of Chinese Agricultural Mechanization, 2016, 37(6): 113-117.
[49] 张旭. 一种智能化腰果自动开壳去壳设备: CN202110905735.9[P]. 2021-10-01. ZHANG X. An intelligent cashew nuts automatic shelling and shelling equipment: CN202110905735.9[P]. 2021-10-01.
[50] 中国热带农业科学院农产品加工研究所. 一种腰果破壳方法: CN201410671134.6[P]. 2015-04-01. Institute of Food Science and Technology CAAS. A cashew nut shelling method: CN201410671134.6[P]. 2015-04-01.
[51] 李双红. 一种用于榛子的连续剥壳装置: CN202011499900.7[P]. 2021-04-06. LI S H. A continuous shelling device for hazelnuts: CN202011499900.7[P]. 2021-04-06.
[52] 马士龙. 板栗剥壳机的设计与试验[D]. 合肥: 安徽农业大学, 2018: 10-53. MA S L. Design and experimental study of chestnut peel removing shelling machine[D]. Hefei: Anhui Agricultural University, 2018: 10-53.
[53] 李强, 刘俊凤, 汪卓, 等. 板栗去壳机优化设计及实验研究[J]. 蚌埠学院学报, 2022, 11(5): 25-28, 44. LI Q, LIU J F, WANG Z, et al. Optimization design and experimental study of chestnut sheller[J]. Journal of Bengbu University, 2022, 11(5): 25-28, 44.
[54] 石鑫, 杨豫新, 乔园园, 等. 薄皮扁桃低损伤脱壳分析与试验[J]. 中国农机化学报, 2022, 43(9): 81-87. SHI X, YANG Y X, QIAO Y Y, et al. Analysis and experiment of low damage shelling of thin shelled almond[J]. Journal of Chinese Agricultural Mechanization, 2022, 43(9): 81-87.
[55] 张远东, 王东伟, 尚书旗, 等. 滚筒凹板筛式花生脱壳结构仿真试验研究[J]. 农机化研究, 2023, 45(3): 152-158. ZHANG Y D, WANG D W, SHANG S Q, et al. Simulation test study on peanut shelling structure of roller concave sieve[J]. Journal of Agricultural Mechanization Research, 2023, 45(3): 152-158.
[56] 赵乐然, 王涛. 组合式橡胶籽脱壳机构设计与试验[J]. 食品与机械, 2022, 38(4): 114-120. ZHAO L R, WANG T. Design and test of combined rubber seed shelling machine[J]. Food & Machinery, 2022, 38(4): 114-120.
[57] LI C H, ZHANG Y B, JIA D Z, et al. Semi-theoretical analyses on mechanical performance of flexible-belt shearing extrusion walnut shell crushing[J]. Applied Engineering in Agriculture, 2016, 32(4): 459-467.
[58] LIU M Z, LI C H, ZHANG Y B, et al. Advances and recent patents about cracking walnut and fetching kernel device[J]. Recent Patents on Mechanical Engineering, 2015, 8(1): 44-58.
[59] 张禹鑫. 差速对搓式油茶果脱壳机脱壳受力分析与参数优化[D]. 哈尔滨: 哈尔滨理工大学, 2022: 10-68. ZHANG Y X. Stress analysis and parameter optimization of different-speed-pair-rubbing camellia oleifera fruit sheller[D]. Harbin: Harbin University of Science and Technology, 2022: 10-68.
[60] 汤晶宇, 张禹鑫, 吴昊, 等. 立锥结构式油茶脱壳机技术分析研究[J]. 林业机械与木工设备, 2021, 49(6): 21-24. TANG J Y, ZHANG Y X, WU H, et al. Technical analysis and research on cone-structured camellia shelling machine[J]. Forestry Machinery & Woodworking Equipment, 2021, 49(6): 21-24.

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