轻型门式刚架成乳牛舍结构优化设计研究
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摘要
本文在大量调查研究的基础上,针对目前我国牛舍发展落后的现状,针对北京地区,从成乳牛舍内饲养工艺—成乳牛舍建筑参数确定—成乳牛舍结构角度出发,选取轻型门式刚架牛舍作为研究对象,阐述了轻型门式刚架牛舍结构优化的理论和方法,并取得了一些结论。
本文从结构力学的角度出发,把目前广泛用于工业与民用建筑结构优化的方法用于成乳牛舍的结构优化,首次从饲养工艺的角度对牛舍的建筑参数进行了优选,对荷载的取值及组合进行了讨论,对结构用材进行了优选。
建立了牛舍结构优化的数学模型,利用有限元法和满应力准则法编制了程序,并用典型算例对程序进行了反复考核,证明了程序的可靠性。通过程序,对牛舍三种门式刚架结构在不同工况下进行了应力分析,分析了不同柱距、屋面坡度与结构受力及结构用钢量的关系,并用准则法中的浮动应力指数法对优选出的结构进行了截面优化,达到了降低结构用钢量的目标。最终得出了一种受力合理、施工方便的牛舍结构,为成乳牛舍的标准化设计和在我国推广提供了理论计算依据。
通过该课题的研究表明,通过优化设计所得的结果比使用传统设计方法所得结果有较大降低结构成本的效果,优化技术在结构设计中有很好的工程应用价值,本文的优化设计方法对类似的结构设计可以推广应用。
Based on large amounts of investigations on domestic dairy housings at present in Beijing and aimed at dairy breeding technology-dairy building parameters-dairy structure, this paper made the portal frame of light-weight steel structure in cowshed to be the researched case and elaborated the theories and methods of structure optimization of portal frame of light-weight steel structure in cowshed. At last, some conclusions were drawn.
Proceeding from the structural mechanics, this paper used method which is widely used in structure optimization of industry and civil building to the structure optimization of dairy housing. It was the first time to choose the structural parameters of dairy housing according to the feeding technology, discussed the load values and combinations ,optimized the structural materials.
The entire mathematical model of structure optimization of dairy housing was set. Computer programs were made with finite-element method and full-stress method. Some typical cases were drawn up and checked out to prove that the program was reliable. Stress which three portal frames of dairy housing bore under different conditions was analyzed and relations between different post distance, roof gradient and structure internal force capability and steel dosage were obtained. At the same time, the structural section was optimized with float stress exponent method to lower steel dosage. A kind of dairy structure which bore rational stress and was built easily was available to provide a scientific basis for the standard designing and popularization of dairy housing.
The study indicated that the optimization designing decreased the structural cost comparing with the traditional designing. The optimization method has better foreground in structural design and can be applied in similar structure.
本文从结构力学的角度出发,把目前广泛用于工业与民用建筑结构优化的方法用于成乳牛舍的结构优化,首次从饲养工艺的角度对牛舍的建筑参数进行了优选,对荷载的取值及组合进行了讨论,对结构用材进行了优选。
建立了牛舍结构优化的数学模型,利用有限元法和满应力准则法编制了程序,并用典型算例对程序进行了反复考核,证明了程序的可靠性。通过程序,对牛舍三种门式刚架结构在不同工况下进行了应力分析,分析了不同柱距、屋面坡度与结构受力及结构用钢量的关系,并用准则法中的浮动应力指数法对优选出的结构进行了截面优化,达到了降低结构用钢量的目标。最终得出了一种受力合理、施工方便的牛舍结构,为成乳牛舍的标准化设计和在我国推广提供了理论计算依据。
通过该课题的研究表明,通过优化设计所得的结果比使用传统设计方法所得结果有较大降低结构成本的效果,优化技术在结构设计中有很好的工程应用价值,本文的优化设计方法对类似的结构设计可以推广应用。
Based on large amounts of investigations on domestic dairy housings at present in Beijing and aimed at dairy breeding technology-dairy building parameters-dairy structure, this paper made the portal frame of light-weight steel structure in cowshed to be the researched case and elaborated the theories and methods of structure optimization of portal frame of light-weight steel structure in cowshed. At last, some conclusions were drawn.
Proceeding from the structural mechanics, this paper used method which is widely used in structure optimization of industry and civil building to the structure optimization of dairy housing. It was the first time to choose the structural parameters of dairy housing according to the feeding technology, discussed the load values and combinations ,optimized the structural materials.
The entire mathematical model of structure optimization of dairy housing was set. Computer programs were made with finite-element method and full-stress method. Some typical cases were drawn up and checked out to prove that the program was reliable. Stress which three portal frames of dairy housing bore under different conditions was analyzed and relations between different post distance, roof gradient and structure internal force capability and steel dosage were obtained. At the same time, the structural section was optimized with float stress exponent method to lower steel dosage. A kind of dairy structure which bore rational stress and was built easily was available to provide a scientific basis for the standard designing and popularization of dairy housing.
The study indicated that the optimization designing decreased the structural cost comparing with the traditional designing. The optimization method has better foreground in structural design and can be applied in similar structure.
引文
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[2] 李易方.中国奶业的回顾与展望.中国乳业,2003,2:6~7
[3] 本刊评论员.热烈祝贺国家学生饮用奶计划正式启动.中国奶牛,2000,(6)
[4] Fregonesi Jose A,Leaver. J. D. Influence of space allowance and milk yield level on behaviour, performance and health of dairy cows housed in strawyard and cubicle systems. Livestock Production Science,2002, 78 (3):245~257
[5] Kavolelis B. The parameters of the ventilation system of uninsulated cow shed. Energy and Buildings,2000, 32(1):1~4
[6] Rensis Fabio D, Scaramuzzi R.J. Heat stress and seasonal effects on reproduction in the dairy cow—a review. Theriogenology,2003, 60 (6):1139~1151
[7] Stefanowska J,Swierstra D,Braam C.R. Cow behaviour on a new grooved floor in comparison with a slatted floor, taking claw health and floor properties into account. Applied Animal Behaviour Science,2001,71 (2):87~103
[8] Meroney Robert N. The effect of surroundings with different separation distances on surface pressures on low-rise buildings. Journal of Wind Engineering and Industrial Aerodynamics,2003, 91 (8) :1039~1050
[9] 丁龙章,陈水福.门架钢结构实用优化设计方法.杭州应用工程技术学院学报,2000,12(增刊):86-90
[10] 任兴平.门式刚架轻型房屋结构的优化设计.钢结构,2000,15(4):7
[11] 张炳华,侯昶.土建结构优化设计.上海:同济大学出版社,1998,3
[12] 贺致存.我国奶牛场规划与环境初探.农业工程学报,1987,2:36~44
[13] Armstrong J.D, Pajor E.A. Changes in animal welfare needed to maintain social sustainability. Proceedings of the Sixth International Symposium on Livestock Environment,2001:1~4, USA
[14] Me Farland D.F. Freestali Design:Cow recommended refinements. International Dairy Housing. Proceedings of the 29-31 January 2003:131~138
[15] Donald L. Bath Enclosed Free-stall Barns Dairy Cattle.USA,1985:365~371
[16] The Danish Agricultural Advisory Center.Housing Design for Cattal-Danish Recommendations,Interdisciplinary report, Third Edition, the Danish Agricultural Advisory Center, Danish,2001
[17] 吴德让.农业建筑学.北京:中国农业出版社,1994
[18] 朱能武,李保明.规模化畜禽养殖环境工程技术研究进展.农业工程学报,2001,17(增刊):17~19
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[20] 李炳威.结构优化设计.北京:中国科学出版社,1979
[21] 陶全心,李著景.结构优化设计方法.北京:清华大学出版社,2001,1
[22] 尚书旗,董佑福,史岩.设施养殖工程技术.北京:中国农业出版社,2001,1
[23] 林承英.门式刚架跨度与柱距的优化设计.山东冶金,2001,(2):35
[24] 张来仪.结构力学.北京:中国建筑工业出版社,1997,6
[25] 王朝元,李保明,施正香.奶牛舍饲散栏饲养工程工艺研究.畜牧工程科技创新与发展论文集.北京:中国农业科学技术出版社,2003,9
[26] Mwps-7.Dairy freestall housing and equipment. Six Edition ,1997,MidWest Plan Service,Iowa State University, Ames,Iowa 50011~3080,USA
[27] 钱令希.超静定结构学.北京:科学技术出版社,1975
[28] 卢小松.轻型门式刚架的设计.钢结构,2000,15(3):61~63
[29] 苗香雯,崔绍荣.连栋温室结构设计中动态风压取值方法初探.农业工程学报,2002,18(1):93~95
[30] 中华人民共和国建设部编.建筑结构荷载规范(GB50009-2001).北京:中国建筑工业出版,2002,2
[31] 张相庭.结构风压和风振计算.上海:同济大学出版社,1985,10
[32] 吴太成,陈钦豪.大型屋面风压风洞试验研究.第八届全国结构风效应会议论文集.庐山,1997
[33] 顾志福,林荣生.北京体育中心游泳馆屋顶风荷载的实验研究.气动实验与测量控制,1992,(6)
[34] 卢博坚,郑启明.相邻建筑物之间距对周围环境风场的影响.第五届全国风工程及工业空气动力学学术会议论文集.张家界,1998
[35] 陈钦豪,吴太成.建筑群中建筑物间的相互气动干扰.第五届全国风工程及工业空气动力学学术会议论文集.张家界,1998
[36] 中华人民共和国建设部编.《建筑抗震设计规范》(GB50011—2001),中国建筑工业出版社,2001,10
[37] 程志军,楼文娟,孙炳楠.屋面风荷载及风致破坏机理.建筑结构学报,2000,21(4):39~46
[38] 邵卓民,蔡益燕,王学东.《门式刚架轻型房屋钢结构技术规程》的风荷载规定.建筑结构,1999,(8):31~32
[39] 中华人民共和国建设部编.《建筑结构设计统一标准》(GBJ68-84),中国建筑工业出版社,1984
[40] 冷弯薄壁型钢结构设计手册编写组.冷弯薄壁型钢结构设计手册.北京:中国建筑工业出版社,1996
[41] 刘承宗,周志勇.我国轻钢建筑及其发展问题探讨工业建筑,2000,30(4):18~23
[42] 高崧.轻钢结构在商业建筑中的应用工业建筑,1991,(6):8~10
[43] 肖作国.压型钢板在屋面工程中应用的问题与探讨.建筑结构,1998,(1):26~28
[44] 刘承宗.轻钢建筑彩涂钢板选用技术问题探讨.建筑钢结构进展,2000,(2):6~12
[45] 陈雪庭,张中权.冷弯薄壁型钢结构构件.北京:中国铁道出版社,1990
[46] 黄文彬.有限单元法基础.北京:中国农业大学材料力学教研室,1991
[47] 许素强,夏人伟.结构优化方法研究综述.航空学报,1995,16(4):385~396
[48] 王光远.结构优化设计.北京:高等教育出版社,1987,10
[49] O Brien E.J,Dixon A.S. Optimal plastic design of pitched roof frames for multiple loading. Computers & Structures. 1997,64 (1-4):737~740
[50] Lombardi M,Haftka Raphael T. Anti-optimization technique for structural design under load uncertainties. Computer Metheds in Applied Mechanics and Engineering. 1998, 157 (1~2): 19~31
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