往复式压缩机网状阀设计软件开发
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摘要
本文以往复式压缩机网状阀为研究对象,在总结前人工作的基础上,对各种常见的往复式压缩机网状阀结构特点、工作原理及应用范围进行了系统阐述,建立了各种往复式压缩机网状阀统一的工作过程数学模型,通过该数学模型,可以得到气阀的运动规律、气流流过气阀的流量、气阀的能耗等结果。根据最终确定的压缩机网状阀结构参数,采用Visual C++ 6.0和AutoDesk公司提供的ObjectARX进行软件的设计开发,形成在AutoCAD环境下绘制压缩机网状阀CAD图纸的设计软件系统,开发的设计软件应用于实际的压缩机气阀改造设计,取得了令人满意的结果。通过利用开发的设计软件对D-23.5/131-143氮氢气循环压缩机气阀进行改造设计表明,该压缩机网状阀设计软件能帮助气阀设计人员较大幅度降低气阀设计的工作量,同时设计更可靠。
本论文所做的这些工作以及开发出的往复式压缩机网状阀设计软件系统可以提高设计质量和速度,能够节省设计人员的时间和精力,对提高设计质量、缩短工程周期、降低设计成本有很大的促进作用,具有较好的实用价值。
In this thesis, the reticular valves of reciprocating compressor would be used for research object. Based on the former scientist's research, the expatiation for structural characteristics, working principle and application range of the reticular valves of the reciprocating compressors would be given. The uniform working process mathematical model would be built. Through it, motion laws, flow and energy consumption were gained. Through the final decided configuration parameters, the software was developed by means of Visual C++ 6.0 and ObjectARX. Design software system for reticular valves of reciprocating compressor was formed. It ran under AutoCAD environment. The design software applied to practical reconstruct design of reciprocating compressor valves, it achieved satisfying result.
The developed software for reticular valves of reciprocating compressor can improve design quality and design speed. Meanwhile, time and energy are greatly saved to the engineers. The software has promotion effect for improving design quality, shortening project periods, and reducing design cost. It has a better practical value.
本论文所做的这些工作以及开发出的往复式压缩机网状阀设计软件系统可以提高设计质量和速度,能够节省设计人员的时间和精力,对提高设计质量、缩短工程周期、降低设计成本有很大的促进作用,具有较好的实用价值。
In this thesis, the reticular valves of reciprocating compressor would be used for research object. Based on the former scientist's research, the expatiation for structural characteristics, working principle and application range of the reticular valves of the reciprocating compressors would be given. The uniform working process mathematical model would be built. Through it, motion laws, flow and energy consumption were gained. Through the final decided configuration parameters, the software was developed by means of Visual C++ 6.0 and ObjectARX. Design software system for reticular valves of reciprocating compressor was formed. It ran under AutoCAD environment. The design software applied to practical reconstruct design of reciprocating compressor valves, it achieved satisfying result.
The developed software for reticular valves of reciprocating compressor can improve design quality and design speed. Meanwhile, time and energy are greatly saved to the engineers. The software has promotion effect for improving design quality, shortening project periods, and reducing design cost. It has a better practical value.
引文
[1] 王迪生,杨乐之.活塞式压缩机结构[M].北京:机械工业出版社,1990:6-11
[2] 林槑,吴业正.压缩机自动阀[M].西安:西安交通大学出版社,1991:1-5
[3] 《活塞式压缩机设计》编写组.活塞式压缩机设计[C].北京:机械工业出版社,1974:176-178
[4] 郁永章,孙嗣莹,陈洪俊等.容积式压缩机技术手册[M].北京:机械工业出版社,1987:116-118
[5] 潘树林,龚曙光,卢朝霞.带自弹缓冲片压缩机网状阀研究及应用[J],中国机械工程,2004(3):214-216
[6] 甘辉.化工合成塔设备CAD软件开发[D].成都:四川大学,2003:21-26
[7] 殷国富,陈永华.计算机辅助设计技术与应用[M].北京:科学出版社,2000:3-4
[8] 童秉枢,李学志.机械CAD技术基础[M].北京:清华大学出版社,1996:4-6
[9] 潘树林.往复式压缩机网状阀工作特性研究[D].西安:西安交通大学,1996:23-30
[10] 王平,孙学军,杜英生.浮阀塔设计的CAD开发[J].化学工业与工程,2002(6):274-275
[11] 潘树林,卢朝霞,张增营.压缩机无摩擦网状阀缓冲片改造[J].压缩机技术,2002(5):43-45
[12] 李长勋.AutoCAD ObjectARX程序开发技术[M].北京:国防工业出版社,2005:1-8
[13] Soedel W. On Dynamic Stresses in Compressor Valve Reeds or Plates during Collinear Impact on Valve Seats[J]. Proceedings of the 1974 Purdue Compressor Technology Conference, 1974: 319-328
[14] 邢万坤,朱洪江,何丽江.大型压缩机气阀寿命的研究[J].化工科技,2001(6):24-28
[15] 江书勇.基于ObjectARX的图形自动编程系统的研究与开发[D].成都:四川大学,2003:35-38
[16] Chlumski V. Reciprocating and Rotary Compressors[M]. London: Spon Lid, 1965: 45-49
[17] Dusil R, Johansson B. Influence of Seat Positioning and Seat Design or Valve Fatigue Performance[C]. Proceedings of the 1980 Purdue Compressor Technology Conference, 1980: 368-373
[18] Sprang J O, Nilsson J O, Persson G. A Method of Measuring the Impact Velocity of Flapper Valves[R]. Proceedings of the 1980 Purdue Compressor Technology Conference, 1980: 381-385
[19] Simonitsch J. Mechanical Stresses of Valve Plates on Impact Against Valve Seat and Guard[C]. Proceedings of the 1978 Purdue Compressor Technology Conference, 1978: 162-168
[20] Fuiakawa A, Namura K. A Fundamental Study on Valve Impact Stress in Reciprocating Compressor[C]. Proceedings of the 1980 Purdue Compressor Technology Conference, 1980: 277-287
[21] Kim JS, Soedel W. Impact Stress Wave Propagation in a Compressor Valve[C], Proceedings of the 1986 Purdue Compressor Technology Conference, 1986: 382-397
[22] Nilsson J O, Nilsson L, Oldenburg M. Impact Stresses in Flapper Valves —A Finite Element Analysis[C]. Proceedings of the 1980 Purdue Compressor Technology Conference, 1980: 390-395
[23] Tajima T, Sakitani K, Fujimoto S. A Study on Impact Fatigue of Compressor[C]. Proceedings of the 1988 Purdue Compressor Technology Conference, 1988: 277-284
[24] 张晋西.Visual Basic.NET二次开发AutoCAD范例精解[M].北京:清华大学出版社,2004:3-4
[25] 江思敏,曹默,胡春江.AutoCAD 2000开发工具——ObjectARX开发工具与应用实例[M].北京:人民邮电出版社,1999:119-120
[26] 刘卫华.近十年来压缩机技术研究动向[J].压缩机技术,1998(4):33-35
[27] 潘树林、谢莲花、杨霖.一种压缩机气阀[P].中国,ZL98217013.0,1998
[28] Finkelstein E.AutoCAD 2002宝典[M].北京:电子工业出版社,2004:23-35
[29] 谭跃进.关于活塞式压缩机环状阀升力系数的理论分析及实验研究[D].西安:西安交通大学,1993:43-55
[30] 莫乾赐.压缩机网状阀自弹缓冲片研究[D].南宁:广西大学,2005:3-25
[31] 李凤华.AutoCAD 2002/2000 VBA开发指南[M].北京:清华大学出版社,2001:11-23
[32] 林梅,吴业正,吴丹青.压缩机环状阀原理[M].北京:化学工业出版社,1982:4-9
[33] 李兰友,李玮,白克壮等.Visual Basic.NET图形图像编程与实例详解[M].北京:电子工业出版社,2002:41-55
[34] 华徐勇.基于ARX的液压系统CAD软件的开发[D].大连:大连理工大学,2003:32-45
[35] 潘树林.无摩擦网状阀片弹性环臂的计算[J].流体工程,1993(3):42-45
[36] 潘树林,欧胜芳,莫乾赐等.Study on the Self-elastic Damping Plate of Frictionless Compressor Plate Valves[C].国际压缩机与制冷学术会议,西 安,2005:13-17
[37] 倪振华,振动力学[M].西安:西安交通大学出版社,1989:48-52
[38] 潘树林,林槑.气阀弹性元件或弹性部分等效质量的求取[J].流体机械,1994(3):24-27
[39] 赵海晖.基于AutoCAD参数化绘图的研究与实现[D].济南:山东大学,2003:34-36
[40] 刑子文.压缩机自动阀结构参数的最佳化[J].西安交通大学学报,1987(5):14-16
[41] 潘树林,卢朝霞,张增营.倾侧运动对压缩机网状阀可靠性的影响[J].压缩机技术,2003(1):21-22
[42] 潘树林,林槑,束鹏程.往复式压缩机网状阀倾侧运动研究[J].化工机械,1995(5):272-276
[43] 张增营.往复式压缩机环状阀工作过程冲击应力分析[D].南宁:广西大学,2004:12-32.45-52
[44] 李云,顾兆林,郁永章.不同阀片质量的气阀性能理论研究[J].流体机械,1998(2):20-22
[45] 李嵘.基于ObjectARX2000的船舶结构CAD[D].武汉:武汉理工大学,2003:6-8
[47] 薛锦.应力腐蚀与环境氢脆故障分析及测试方法[M].西安:西安交通大学出版社,1986:20-22
[48] 杜刚.球形储罐CAD系统的研制与开发[D].大连:大连理工大学,2004:2-8
[2] 林槑,吴业正.压缩机自动阀[M].西安:西安交通大学出版社,1991:1-5
[3] 《活塞式压缩机设计》编写组.活塞式压缩机设计[C].北京:机械工业出版社,1974:176-178
[4] 郁永章,孙嗣莹,陈洪俊等.容积式压缩机技术手册[M].北京:机械工业出版社,1987:116-118
[5] 潘树林,龚曙光,卢朝霞.带自弹缓冲片压缩机网状阀研究及应用[J],中国机械工程,2004(3):214-216
[6] 甘辉.化工合成塔设备CAD软件开发[D].成都:四川大学,2003:21-26
[7] 殷国富,陈永华.计算机辅助设计技术与应用[M].北京:科学出版社,2000:3-4
[8] 童秉枢,李学志.机械CAD技术基础[M].北京:清华大学出版社,1996:4-6
[9] 潘树林.往复式压缩机网状阀工作特性研究[D].西安:西安交通大学,1996:23-30
[10] 王平,孙学军,杜英生.浮阀塔设计的CAD开发[J].化学工业与工程,2002(6):274-275
[11] 潘树林,卢朝霞,张增营.压缩机无摩擦网状阀缓冲片改造[J].压缩机技术,2002(5):43-45
[12] 李长勋.AutoCAD ObjectARX程序开发技术[M].北京:国防工业出版社,2005:1-8
[13] Soedel W. On Dynamic Stresses in Compressor Valve Reeds or Plates during Collinear Impact on Valve Seats[J]. Proceedings of the 1974 Purdue Compressor Technology Conference, 1974: 319-328
[14] 邢万坤,朱洪江,何丽江.大型压缩机气阀寿命的研究[J].化工科技,2001(6):24-28
[15] 江书勇.基于ObjectARX的图形自动编程系统的研究与开发[D].成都:四川大学,2003:35-38
[16] Chlumski V. Reciprocating and Rotary Compressors[M]. London: Spon Lid, 1965: 45-49
[17] Dusil R, Johansson B. Influence of Seat Positioning and Seat Design or Valve Fatigue Performance[C]. Proceedings of the 1980 Purdue Compressor Technology Conference, 1980: 368-373
[18] Sprang J O, Nilsson J O, Persson G. A Method of Measuring the Impact Velocity of Flapper Valves[R]. Proceedings of the 1980 Purdue Compressor Technology Conference, 1980: 381-385
[19] Simonitsch J. Mechanical Stresses of Valve Plates on Impact Against Valve Seat and Guard[C]. Proceedings of the 1978 Purdue Compressor Technology Conference, 1978: 162-168
[20] Fuiakawa A, Namura K. A Fundamental Study on Valve Impact Stress in Reciprocating Compressor[C]. Proceedings of the 1980 Purdue Compressor Technology Conference, 1980: 277-287
[21] Kim JS, Soedel W. Impact Stress Wave Propagation in a Compressor Valve[C], Proceedings of the 1986 Purdue Compressor Technology Conference, 1986: 382-397
[22] Nilsson J O, Nilsson L, Oldenburg M. Impact Stresses in Flapper Valves —A Finite Element Analysis[C]. Proceedings of the 1980 Purdue Compressor Technology Conference, 1980: 390-395
[23] Tajima T, Sakitani K, Fujimoto S. A Study on Impact Fatigue of Compressor[C]. Proceedings of the 1988 Purdue Compressor Technology Conference, 1988: 277-284
[24] 张晋西.Visual Basic.NET二次开发AutoCAD范例精解[M].北京:清华大学出版社,2004:3-4
[25] 江思敏,曹默,胡春江.AutoCAD 2000开发工具——ObjectARX开发工具与应用实例[M].北京:人民邮电出版社,1999:119-120
[26] 刘卫华.近十年来压缩机技术研究动向[J].压缩机技术,1998(4):33-35
[27] 潘树林、谢莲花、杨霖.一种压缩机气阀[P].中国,ZL98217013.0,1998
[28] Finkelstein E.AutoCAD 2002宝典[M].北京:电子工业出版社,2004:23-35
[29] 谭跃进.关于活塞式压缩机环状阀升力系数的理论分析及实验研究[D].西安:西安交通大学,1993:43-55
[30] 莫乾赐.压缩机网状阀自弹缓冲片研究[D].南宁:广西大学,2005:3-25
[31] 李凤华.AutoCAD 2002/2000 VBA开发指南[M].北京:清华大学出版社,2001:11-23
[32] 林梅,吴业正,吴丹青.压缩机环状阀原理[M].北京:化学工业出版社,1982:4-9
[33] 李兰友,李玮,白克壮等.Visual Basic.NET图形图像编程与实例详解[M].北京:电子工业出版社,2002:41-55
[34] 华徐勇.基于ARX的液压系统CAD软件的开发[D].大连:大连理工大学,2003:32-45
[35] 潘树林.无摩擦网状阀片弹性环臂的计算[J].流体工程,1993(3):42-45
[36] 潘树林,欧胜芳,莫乾赐等.Study on the Self-elastic Damping Plate of Frictionless Compressor Plate Valves[C].国际压缩机与制冷学术会议,西 安,2005:13-17
[37] 倪振华,振动力学[M].西安:西安交通大学出版社,1989:48-52
[38] 潘树林,林槑.气阀弹性元件或弹性部分等效质量的求取[J].流体机械,1994(3):24-27
[39] 赵海晖.基于AutoCAD参数化绘图的研究与实现[D].济南:山东大学,2003:34-36
[40] 刑子文.压缩机自动阀结构参数的最佳化[J].西安交通大学学报,1987(5):14-16
[41] 潘树林,卢朝霞,张增营.倾侧运动对压缩机网状阀可靠性的影响[J].压缩机技术,2003(1):21-22
[42] 潘树林,林槑,束鹏程.往复式压缩机网状阀倾侧运动研究[J].化工机械,1995(5):272-276
[43] 张增营.往复式压缩机环状阀工作过程冲击应力分析[D].南宁:广西大学,2004:12-32.45-52
[44] 李云,顾兆林,郁永章.不同阀片质量的气阀性能理论研究[J].流体机械,1998(2):20-22
[45] 李嵘.基于ObjectARX2000的船舶结构CAD[D].武汉:武汉理工大学,2003:6-8
[47] 薛锦.应力腐蚀与环境氢脆故障分析及测试方法[M].西安:西安交通大学出版社,1986:20-22
[48] 杜刚.球形储罐CAD系统的研制与开发[D].大连:大连理工大学,2004:2-8