As the existing residual film crushing device in Xinjiang cannot directly crush membrane-impurity mixed material, by analyzing the compressive and cutting force characteristics of residual film material layer and cotton stalk, the cutting conditions of mixed materials were obtained, and the method of cutting was determined. A multi-edge toothed cutters was created, and a cutting device was built. It was preliminarily determined that the number of teeth in the cutters was 8, the clearance between the teeth and between the tooth and fixed blade was 3 mm, the speed of the high-speed cutter was 800 r/min, and the speed difference between the high- and low-speed cutters was –300 r/min. Test results show that the ratio of residual film to total residual film sampling mass was (2.22±0.3)%, (19.19±2.02)%, (58.94±3.19)% and (20.65±2.05)%, respectively, when the maximum outer profile size in the range of [0,20) mm, [20,100) mm, [100,500) mm and [500,~) mm. The mass of cotton stalks with lengths of [0,50) mm, [50,100) mm and [100,~) mm accounted for (32.57±1.5)%, (27.77±1.3)% and (39.66±1.75)%, respectively, and the cutting power consumption was (85.41±15.63) kJ. The test results can provide a basis for the subsequent membrane-impurity mixed material cutting technology, as well as some guidance for the separation of it.
Keywords: multi-edge toothed cutter; membrane-impurity mixed material; cutting device; cutting conditions
DOI: 10.25165/j.ijabe.20231602.7240

Citation: Liang R Q, Zhang B C, Chen X G, Meng H W, Wang X Z, Shen C J, Li Y P, Kan Z. Design and test of a multi-edge cutting device for membrane-impurity mixed material. Int J Agric & Biol Eng, 2023; 16(2): 73-84.

multi-edge toothed cutter; membrane-impurity mixed material; cutting device; cutting conditions

Luo H, Zhang Y, Zhang W. Effects of water stress and rewatering on photosynthesis, root activity, and yield of cotton with drip irrigation under mulch. Photosynthetica: International Journal for Photosynthesis Research, 2016; 54(1): 65-73.

Wang Z, Wu Q, Fan B, Fan B, Zhang J, Li W, et al. Testing biodegradable films as alternatives to plastic films in enhancing cotton (Gossypium hirsutum L.) yield under mulched drip irrigation. Soil and Tillage Research, 2019; 192: 196-205.

He H, Wang Z, Guo L, Zheng X, Zhang J, Li W, Fan B. Distribution characteristics of residual film over a cotton field under long-term film mulching and drip irrigation in an oasis agroecosystem. Soil & Tillage Research, 2017; 180: 194-203.

Ileana B, Viviana L R, Carmela S, Evelia S, Giuliano V. Agricultural plastic waste mapping using GIS. A case study in Italy. Resources, Conservation and Recycling, 2018; 137: 229-242.

Liang R, Chen X, Zhang B, Meng H, Jiang P, Peng X, et al. Problems and countermeasures of recycling methods and resource reuse of residual film in cotton fields of Xinjiang. Transactions of the CSAE, 2019; 35(16): 1-13. (in Chinese)

Sheriff K, Subramanian N, Rahman S, Jayaram J. Integrated optimization model and methodology for plastics recycling: Indian empirical evidence. Journal of Cleaner Production, 2016; 153(1): 707-717.

Rahim R, Raman A. Carbon dioxide emission reduction through cleaner production strategies in a recycled plastic resins producing plant. Journal of Cleaner Production, 2017; 141(10): 1067-1073.

Zhang J, Wang X, Zhang L, Yu C, Jiang Y, Zhang H, et al. Effects of mechanical tensile properties of plastic film on plastic recycling method. Transactions of the CSAE, 2015; 31(20): 41-47. (in Chinese)

Jiang D, Chen X, Yan L, Mo Y, Yang S. Design and experiment on spiral impurity cleaning device for profile modeling residual plastic film collector. Transactions of the CSAM, 2019; 50(4): 137-145. (in Chinese)

Shi X, Niu C, Wang X, Zhang H, Yang H. Design of roller sieve waste plastic film and trash winnowing machine. Transactions of the CSAE, 2017; 33(18): 19-26. (in Chinese)

Li J, Luo X, Hu B, Wang M, Yao Q. Research and experiment of the water-separating device for residual film mixture. Journal of Agricultural Mechanization Research, 2019; 41(5): 152-156. (in Chinese)

Peng Q, Li C, Kang J, Shi G, Zhang H. Improved design and test on pneumatic cylinder sieve film hybrid separator. Transactions of the CSAM, 2020; 51(8): 126-135. (in Chinese)

Pan F, Hu B, Luo X, Guo M, He H. Design and testing of a shearing and breaking device for mulch film and cotton stalk mixtures. Transactions of the ASABE, 2021; 64(2): 545-555.

Liang R Q, Zhang B C, Zhou P F, Li Y P, Meng H W, Kan Z. Power consumption analysis of the multi-edge toothed device for shredding the residual film and impurity mixture. Computers and Electronics in Agriculture, 2022; 196: 106898.

Liang R Q, Zhang B C, Zhou P F, Li Y P, Meng H W, Kan Z. Cotton length distribution characteristics in the shredded mixture of mechanically recovered residual films and impurities. Industrial Crops and Products, 2022; 182: 114917.

Ádám R, Barnabás C. Comminution of single real waste particles in a swing-hammer shredder and axial gap rotary shear. Powder Technology, 2021; 390: 182-189.

Geng D, Zhang D, Wang X, Yang Z. New agricultural machinery. Beijing: National Defense Industry Press, 2011; 231p. (in Chinese)

Chu X. Design and experimental research of cutting key device for collection potato stalk. Beijing: China Agricultural University, 2017. (in Chinese)

Johnson K. Contact mechanics. Beijing: Higher Education Press, 1992.

Kanafojski C. Agricultural machines, theory and construction. Beijng: China Agricultural Machinery Publishing House. 1983: 24-30.

Wu J, Wang J, Huang Y. Dynamic analysis on straight knife cutting cotton stalks. Journal of Shihezi University (Natural Science), 2005; 6: 752-754. (in Chinese)

Zou X, Niu W, Liu J, Li Y, Liang B, Guo L, Guan Y. Effects of residual mulch film on the growth and fruit quality of tomato (lycopersicon esculentum mill.). Water Air & Soil Pollution, 2017; 228(2): 1-18.

Qi A, Du C. Mechanics (Second Edition). Beijing: Higher Education Press, 1997; pp.266-269. (in Chinese)

Sonde V, Belkhode P, Sakhale C. Physical and mechanical characteristic for cotton and pigeon pie as agriculture residues. International Journal of Application or Innovation in Engineering & Management, 2015; 4(7): 156-169.

Wang M, Song W, Xiao H, Ren C, Li S. Design and experiment of 9MF720 cotton stalk crusher. Journal of Agricultural Mechanization Research, 2012; 34(11): 94-96,101. (in Chinese)

Yu C, Zhang L, Zhao Z, Li Y, Zhang H, Jiang Y, Zhang J. Structural design and optimization of cotton straw rubbing filament crusher. Journal Chinese Agricultural Mechanization, 2016; 37(7): 93-96. (in Chinese)

Liao P, Liu K, Chen M, Wang Z, Zhang A. Design and experiment of a roller type cotton stalk cutting mechanism. Journal of China Agricultural University, 2018; 23(9):131-138. (in Chinese)

Sheng K, Ahmed E, Hassan G. Experimental studies on chopping cotton stalk and briquetting process. Transactions of the CSAE, 1999; 15(4): 221-225. (in Chinese)

Dong S, Wang F, Qiu Z, Sun Y. Design and experiment of Self-propelled cotton-stalk combine harvester. Transactions of the CSAM, 2010; 41(S1): 99-102. (in Chinese)

Luo S, Xiao B, Hu Z, Liu S, Guo X. An experimental study on a novel shredder for municipal solid waste (MSW). International Journal of Hydrogen Energy, 2009; 34(3): 1270-1274.

Sakai S, Sawell S, Chandler A, Eighmy T, Hjelmar O. World trends in municipal solid waste management. Waste Management, 1996; 16(5-6): 341-350.

Vincent G, Bruijn T, Wijskamp S, Rasheed M, Akkerman R. Shredding and sieving thermoplastic composite scrap: Method development and analyses of the fibre length distributions. Composites Part B Engineering, 2019; 176: 107197.

Maisel F, Chancerel P, Dimitrova G, Emmerich J, Nissen N, Schneider R. Preparing WEEE plastics for recycling - how optimal particle sizes in pre-processing can improve the separation efficiency of high quality plastics. Resources, Conservation and Recycling, 2020; 154: 104619.

Xue Z, Fu J, Chen Z, Wang F, Han S, Ren L. Optimization experiment on parameters of chopping device of forage maize harvester. Journal of Jilin University: Engineering and Technology Edition, 2020; 50(2): 739-748. (in Chinese)

Chinese Academy of Agricultural Mechanization Sciences. Agricultural machinery design manual (Second volume). Beijing: China Agricultural Science and Technology Press, 2007; 1182. (in Chinese)

Tosun A, Konak G. Development of a model estimating energy consumption values of primary and secondary crushers. Arabian Journal of Geosciences, 2015; 8(2): 1133-1144.

Sun N, Wang X, Li H, He J, Wang Q, Wang J, Liu Z, Wang Y. Design and experiment of differential sawing rice straw chopper for turning to field. Transactions of the CSAE, 2019; 35(22): 267-276. (in Chinese)

Wan X, Shu C, Xu Y, Yuan J, Li H, Liao Q. Design and experiment on cylinder sieve with different rotational speed in cleaning system for rape combine harvesters. Transactions of the CSAE, 2018; 34(14): 27-35. (in Chinese)

Chen H, Teng Y, Wang Y, Shi N, Wang X. Design and experiment on single-plant soybean threshing device with differential speed flexible belts. Transactions of the CSAM, 2018; 49(9): 96-104. (in Chinese)

Ruan J, Xiang G, Cheng X. Experiments and optimization of performance parameters on rubber roll husker. Transactions of the CSAE, 2011; 27(5): 353-357. (in Chinese)

Liu P, He J, Li Y, Li H, Wang Q, Lu C, et al. Design and experiment of double rollers maize stalk chopping device with different rotation speeds. Transactions of the CSAE, 2020; 36(14): 69-79. (in Chinese)

Mou X, Jiang H, Sun Y, Xu H, Yao Y, Geng D. Simulation optimization and experiment of disc-type grain crushing device of silage corn harvester. Transactions of the CSAM, 2020; 51(S1): 218-226. (in Chinese)

Kang J, Zhang H, Zhang G, Du H, Peng Q, Song Y. Aerodynamic characteristics of residual film materials and test of membrane separation device. Journal of Chinese Agricultural Mechanization, 2020; 41(1): 167-172. (in Chinese)

Yu Y, Zhang J, Geng A, Zhang Z, Yang Q, Zhang J. Design and test of roller strip chopping device. Journal of Agricultural Mechanization Research, 2019; 41(3): 93-98. (in Chinese)

Zhang D, Sun Y, Zhao H, Wang X. Design of a vertical-roll type of corn picker and stalk chopper. Transactions of the CSAM, 2005; 36(7): 50-52,76. (in Chinese)

Jiang Y, Liao Y, Liao Q. Design and experiment on cylinder-type chopping device of harvester for fodder rapeseed in winter and spring. Transactions of the CSAM, 2019; 50(2): 102-111. (in Chinese)

Jing S W. Design and performance test of key components of field membrane hybrid separation system. Guiyang: Guizhou University, 2018; pp.34-35. (in Chinese)

Qiu J, Wu M, Guang C, Fang Y, Li X. Design and experiment of chopping device with dynamic fixed knife coaxial for rice straw. Transactions of the CSAE, 2015; 31(10): 11-19. (in Chinese)

Li W, Dong X, Wang D, Han Z, Cao H, Wu H. Performance experiment of helix teeth-roller straw adjusting material device. Transactions of the CSAM, 2011; 42(12): 143-147. (in Chinese)

Fu M, Li R, Ma L. Development and test of straw grinder with axial vibration screen type. Transactions of the CSAE, 2012; 28(22): 16-22. (in Chinese)