[1]
中华人民共和国国家统计局. 中国统计年鉴—2020[M]. 北京: 中国统计出版社, 2020.
[2]
苟新卯, 高丹. 果树枝条粉碎还田大有可为[J]. 西北园艺(果树), 2019(2): 13-15.
[3]
李智强, 闫文刚, 李志昊, 等. 灌木切割粉碎一体机结构设计与仿真分析[J]. 林产工业, 2020, 57(11): 42-47.
Li Zhiqiang, Yan Wengang, Li Zhihao, et al. Structure design and simulation analysis of shrub cutting and pulverizing integrated machine [J]. China Forest Products Industry, 2020, 57(11): 42-47.
[4]
李震, 韦安宁, 曹丽英, 等. 新型锤片式饲料粉碎机粉碎性能的试验研究与参数优化[J]. 饲料工业, 2019, 40(5): 6-10.
Li Zhen, Wei Anning, Cao Liying, et al. Experimental research and optimal design of new feed hammer grinders smashing performance [J]. Feed Industry, 2019, 40(5): 6-10.
[5]
郑爽, 邓干然, 张劲, 等. 立轴式木薯茎秆粉碎还田机的研制与试验[J]. 现代农业装备, 2018(3): 40-44.
Zheng Shuang, Deng Ganran, Zhang Jin, et al. The design and field testing of verticalspindle cassava straw chopper [J]. Modern Agricultural Equipment, 2018(3): 40-44.
[6]
魏万成. 多功能枝条粉碎机设计与优化研究[D]. 兰州: 甘肃农业大学, 2020.
Wei Wancheng. Research on the design and optimization of multifunctional branch shredder [D]. Lanzhou: Gansu Agricultural University, 2020.
[7]
Eyma F, Meausoone P J, Martin P. Strains and cutting forces involved in the solid wood rotating cutting process [J]. Journal of Materials Processing Technology, 2004, 148(2): 220-225.
[8]
Cristovao L, Broman O, Gronlund A, et al. Main cutting force models for two species of tropical wood [J]. Wood Material Science & Engineering, 2012, 7(3): 143-149.
[9]
Lousada C M. Wood cellulose as a hydrogen storage material [J]. International Journal of Hydrogen Energy, 2020, 45(29).
[10]
Putri N T, Taufik, Buana F S. Preventive maintenance scheduling by modularity design applied to limestone crusher machine [J]. Procedia Manufacturing, 2020, 43: 682-687.
[11]
杨彩娟. 果园修剪枝条处理工艺及机械研究[D]. 保定: 河北农业大学, 2013.
Yang Caijuan. Research on the processing technology and mechanical of orchard pruning [D]. Baoding: Hebei Agricultural University, 2013.
[12]
赵映, 肖宏儒, 梅松, 等. 我国果园机械化生产现状与发展策略[J]. 中国农业大学学报, 2017, 22(6): 116-127.
Zhao Ying, Xiao Hongru, Mei Song, et al. Current situation and development strategies of orchard mechanization production in China [J]. Journal of China Agricultural University, 2017, 22(6): 116-127.
[13]
常有宏, 吕晓兰, 蔺经, 等. 我国果园机械化现状与发展思路[J]. 中国农机化学报, 2013, 34(6): 21-26.
Chang Youhong, Lü Xiaolan, Lin Jing, et al. Present state and thinking about development of orchard mechanization in China [J]. Journal of Chinese Agricultural Mechanization, 2013, 34(6): 21-26.
[14]
高倩, 周岭, 米强, 等. 果树残枝粉碎机研究现状分析[J]. 新疆农机化, 2020(5): 19-23.
Gao Qian, Zhou Ling, Mi Qiang, et al, Analysis on the research status of fruit tree broken branch crusher [J]. Xinjiang Agricultural Mechanization, 2020(5): 19-23.
[15]
党革荣, 王珊, 郑欣敦, 等. 一种用于粉碎树枝的树枝粉碎机[P]. 中国专利: CN212493331U, 2021-02-09.
[16]
陈学永, 沈美雄. 粉碎机智能负荷控制系统设计[J]. 福建工程学院学报, 2009, 7(3): 260-263.
Chen Xueyong, Shen Meixiong. Intelligent workload control system design for grinder [J]. Journal of Fujian University of Technology, 2009, 7(3): 260-263.
[17]
李培乾, 孙明友. 基于PLC的粉碎机自动喂料控制系统设计和实现[J]. 饲料工业, 2008, 29(21): 1-2.
Li Peiqian, Sun Mingyou. Design and realization of automaticfeeding control system for hammermill based on PLC [J]. Feed Industry, 2008, 29(21): 1-2.
[18]
牛龙华, 樊磊磊, 王晓剑, 等. 一种自动调速植物粉碎机[P]. 中国专利: CN210474212U, 2020-05-08.
[19]
王万元. 可编程序控制器在树枝粉碎机上的应用[J]. 上海电器技术, 2004, 23(4): 47-49.
Wang Wanyuan. The application of PLC in branch shredder [J]. Shanghai Electric Appliance Technology, 2004, 23(4): 47-49.
[20]
段然. 一种园林绿化修剪粉碎车[P]. 中国专利: CN110149940A, 2019-08-23.
[21]
Sulaiman, Egbe P, Kolo Y B, et al. Development of a horizontal shaft hammer mill [C]. 2nd International Engineering Conference (IEC2017), 2020.
[22]
Mugabi R, Eskridge K M, Weller C L. Comparison of experimental designs used to study variables during hammer milling of corn bran [J]. Transactions of the Asae American Society of Agricultural Engineers, 2017, 60(2): 537-544.
[23]
Eisenlauer M, Teipel U. Comminution of wood influence of process parameters [J]. Chemical Engineering Technology, 2020, 43.
[24]
Nakamura H, Kan H, Takeuchi H, et al. Effect of stator geometry of impact pulverizer on its grinding performance [J]. Chemical Engineering ence, 2015, 122: 565-572.
[25]
Ghodki B M, Goswami T K. DEM simulation of flow of black pepper seeds in cryogenic grinding system [J]. Journal of Food Engineering, 2016, 196: 36-51.
[26]
冯天涛, 宋月鹏. 樊桂菊丘陵果园枝条粉碎机研究现状分析[J]. 纳税, 2018(18): 231.
[27]
赵俊. 移动式树枝切碎机控制系统设计[D]. 北京: 中国农业机械化科学研究院, 2013.
Zhao Jun. Control system design of mobile branch shredder [D]. Beijing: Chinese Academy of Agricultural Mechanization Sciences, 2013.
[28]
Spinelli R, Marchi E. Trends and perspectives in the design of mobile wood chippers [J]. Croatian Journal of Forest Engineering, 2021, 42(1): 25-38.
[29]
Colantoni A, Mazzocchi F, Laurendi V, et al. Agriculture innovative solution for reducing the rundown time of the chipper disc using a brake clamp device [J]. Agriculture, 2019.
[30]
Rehman A U, Naqvi R A, Saleem M A, et al. Effect of blurring on real time quality inspection of knives in a wood chipper [J]. World Applied Sciences Journal, 2014, 32(10): 2106-2113.
[31]
Arthur J F, Kepner R A, Debbie J B, et al. Tub grinder performance with crop and forest residues [J]. Transactions of the ASAE, 1982, 25(6): 1488-1494.
[32]
Lopez M, Vilan J A, Matias J M, et al. Quality control of woodpulp chips using a 3D laser scanner and Functional pattern recognition [J]. Industrial Electronics, 2007, 1773-1778.
[33]
赵映, 肖宏儒, 梅松, 等. 我国果园机械化生产现状与发展策略[J]. 中国农业大学学报, 2017, 22(6): 116-127.
Zhao Ying, Xiao Hongru, Mei Song, et al. Current situation and development strategy of orchard mechanization production in China [J]. Journal of China Agricultural University, 2017, 22(6): 116-127.
[34]
陈曦, 韩志群, 孔繁华, 等. 生物质能源的开发与利用[J]. 化学进展, 2007, 19(7): 1091-1096.
Chen Xi, Han Zhiqun, Kong Fanhua, et al. Development and utilization of biomass energy [J]. Progress in Chemistry, 2007, 19(7): 1091-1096.
[35]
VelazquezMarti B, FernandezGonzaolez E. Analysis of the process of biomass harvesting with collecting chippers fed by pick up headers in plantations of olive trees [J]. Biosystems Engineering, 2009, 104(3): 184-190.
[36]
Hartmann H, Bohm T, Jenson P D, et al. Methods for size classification of wood chips [J]. Biomass and Bioenergy, 2006, 30(11): 944-953.
[37]
唐硕. 移动式枝桠粉碎机的设计及研究[D]. 哈尔滨: 东北林业大学, 2011.
Tan Shuo. Design and research of mobile twig chipping crusher [D]. Harbin: Northeast Forestry University, 2011.
[38]
凌杰. 自动控制技术在农业机械中的应用研究[J]. 南方农机, 2019, 50(6): 177-178.
[39]
刘虎. 农业机械自动化与智能化研究[J]. 山西农经, 2019(5): 136.
[40]
Cristóvo L, Broman O, Grnlund A, et al. Main cutting force models for two species of tropical wood [J]. Wood Material Science & Engineering, 2012, 7(3): 143-149.
[41]
Eyma F, Méausoone P, Martin P. Strains and cutting forces involved in the solid wood rotating cutting process [J]. Journal of Materials Processing Technology, 2004, 148(7): 220-225.
[42]
Paivinen M, Heinimaa T. The effects of different hand tool blade coatings on force demands when cutting wood [J]. International Journal of Industrial Ergonomics, 2003, 32(5): 139-146.
[43]
冯秀清. 农业机械自动化运用研究[J]. 黑龙江科学, 2020, 11(8): 104-105.
Feng Xiuqing. Research on the application of agricultural machinery automation [J]. Heilongjiang Science, 2020, 11(8): 104-105.
[44]
谢召举. 农业机械自动化与智能化的研究[J]. 南方农机, 2021, 52(2): 27-28.
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