YC7150磨齿机的数控化改造
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摘要
本文以YC7150磨齿机为研究对象,对高精度齿轮加工设备的传动原理进行了分析,详细分析了钢带滚圆盘展成磨齿机和蜗轮蜗杆、丝杠传动磨齿机的优缺点,提出在最经济的条件下,加工高精度的齿轮应选择钢带滚圆盘展成原理磨齿机。针对现有YC7150在实际使用过程中存在分齿定位精度保持性差,齿轮周节累积误差大,齿形精度低等问题,提出该磨齿机数控化改造方案。具体改造中,在机械方面,取消原分度机构中的离合器和分度定位爪,采用伺服电机驱动;硬件方面,采用STD5081多功能CPU,采用8088芯片作处理器;软件方面,详细研究高精度数控分齿的一种算法,采用汇编语言开发应用程序,具有占用内存空间小,执行速度快等优点。同时,监控模式下的应用程序,可以用EPROM固化运行,这对环境恶劣的工业现场非常有利。
Based on the study of the YC7150 gear grinding machine, this paper analyses the transmission principle of high accuracy gear processing equipment, gives a detailed analysis of the advantages and disadvantages of worm-and-wheel driving gear grinding machine and base circle dish generating gear grinding machine, and on the most economical condition, raises a point that processing high accuracy gear should select base circle dish generating principle. In the light of many problems existing in the YC7150 gear grinding machine on hand in the course of actual use, such as the weak dividing precision maintainable quality, the large gear accumulative pitch error, the low profile precision, it puts forward CNC transform scheme on this equipment. In the process of the specific transformation, in aspect of mechanism, original indexing mechanism' s dividing claw is cancelled and stepping motor driving is applied. In aspect of hardware, STD 5081 multifunction CPU and 8088 chip as microprocessor are utilized. In aspect of software, a algorithm about high precision graduation by CNC is studied and assemble language exploiting application program is used, which has the advantages of occupying less internal space with faster transaction speed. At the same time, under the pattern of supervision, the application program can be carried out by EPROM fixed, which is very advantageous to awful industry locale environment.
Based on the study of the YC7150 gear grinding machine, this paper analyses the transmission principle of high accuracy gear processing equipment, gives a detailed analysis of the advantages and disadvantages of worm-and-wheel driving gear grinding machine and base circle dish generating gear grinding machine, and on the most economical condition, raises a point that processing high accuracy gear should select base circle dish generating principle. In the light of many problems existing in the YC7150 gear grinding machine on hand in the course of actual use, such as the weak dividing precision maintainable quality, the large gear accumulative pitch error, the low profile precision, it puts forward CNC transform scheme on this equipment. In the process of the specific transformation, in aspect of mechanism, original indexing mechanism' s dividing claw is cancelled and stepping motor driving is applied. In aspect of hardware, STD 5081 multifunction CPU and 8088 chip as microprocessor are utilized. In aspect of software, a algorithm about high precision graduation by CNC is studied and assemble language exploiting application program is used, which has the advantages of occupying less internal space with faster transaction speed. At the same time, under the pattern of supervision, the application program can be carried out by EPROM fixed, which is very advantageous to awful industry locale environment.
引文
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[41] Kim K, Kim M K. Volumetric accuracy analysis based on generalized geometric error model in multiaxis machine tools[J].Mechanisms and Machine Theory, 1991(3).
[2] 西安交通大学,秦川机床厂编写组.磨齿工作原理.北京:机械工业出版社,1977.
[3] 孙桓,陈作模主编.机械原理(第五版).北京:高等教育出版社,1996.
[4] 任玉田,焦振学,王宏甫编著.机床计算机数控技术.北京:北京理工大学出版社,1996.
[5] 廖效果,朱启逑主编.数字控制机床.武汉:华中理工大学出版社,1992.
[6] 韩秋实主编.机械制造技术基础.北京:机械工业出版社,1998.
[7] 刘乐善,叶济忠,叶永坚编著.微型计算机接口技术原理及应用.武汉:华中理工大学出版社,1996.
[8] 李诚人,吴武贤编著.机床计算机数控.西安:西北工业大学出版社,1988.
[9] 齐志儒,高福祥主编.汇编语言程序设计.东北大学出版社,2001.
[10] 李伯成,侯伯亨,张毅坤编著.微型计算机原理及应用.西安:西安电子科技大学出版社,1998.
[11] 焦振学主编.微机数控技术.北京:北京理工大学出版社,2000.
[12] 王润孝,秦现生编著.机床数控原理与系统(第二版).西安:西北工业大学出版社,1997.
[13] 林奕鸿等编著.机床数控技术及其应用.北京:机械工业出版社,1994.
[14] 武自芳,虞鹤松主编.微机控制系统及其应用.西安:西安交通大学出版社,1998.
[15] 商向东,金嘉琦,付景顺等著.齿轮加工精度.北京:机械工业出版社,1999.
[16] 柏鸿文,杨恒哲.80年代国外数控磨齿机的发展[J].磨床与磨削,1994(2).
[17] 马云.CIMT’97磨齿机展品简评[J].磨床与磨削,1997(4).
[18] 马云.CIMT’99磨齿机展品简评[J].磨床与磨削,2000(1).
[19] 孙季初.磨齿机行业群雄并起[J].制造技术与机床,1998(2).
[20] 乐美豪.我国齿轮制造业的发展、现状及展望(下)[J].制造技术与机床,2000(12).
[21] 袁建新.锥面砂轮磨齿机的齿形误差分析[J].磨床与磨削,1995(2).
[22] 阎树田,赵学,杨青年.锥面砂轮磨齿机齿轮修形CNC控制方法的研究[J].机床,1993(8).
[23] 乐美豪.我国齿轮制造业的发展、现状及展望(下)[J].制造技术与机床,2000(12).
[24] 余圣梅.机床数控化改造概述[J].制造技术与机床,1999(9).
[25] 邢丽卿,郭文亮.磨齿机的数控改造[J].山两机械,2002(1).
[26] 杨青年,赵学,阎树田等.用电子分齿解决磨齿机分齿精度下降问题[J].磨床与磨削,1994(1).
[27] 常宏敏,田成新,徐青.用工控机改造螺旋伞齿轮加工控制系统[J].机械工业自动化,1999,21(1).
[28] 吴焱明,王纯贤,韩江等.齿轮加工数控系统体系结构的研究[J].制造技术与机床,2001(12).
[29] 庄磊,王珉,左敦稳.齿轮加工机床的发展特点及相关技术[J].江苏机械制造与自动化,2000(5).
[30] 郭隐彪,张济生,王洪建.大平面砂轮磨齿机数控分度及数控修形研究[J].中国机械工程,1994,5(3).
[31] 杨公源.微机在机电一体化传动系统中的应用[M].北京:电子工业出版社,1994.
[32] 毛军红,郝来成,杨其俊等.锥面砂轮数控磨齿机运动控制系统电气参数设计研究[J].机械科学与技术,1998,18(2).
[33] 朱华炳,肖本贤,范晓晶.基于16位STD工控机的多中断数控系统的设计与应用[J].机电工程,1997(3).
[34] 胡赤兵.齿轮加工CNC系统[J].机械工业自动化,1998,20(2).
[35] 胡赤兵,谭伟明,侯启真.数控齿轮加工中的技术关键[J].甘肃工业大学学报,1997,23(2).
[36] Kushigian Anthony. CNC dressers improve productivity, flexibility[J].Tooling & Production [H.W. Wilson-AST],1997,63(6).
[37] Koelsch James R. Tools, Workholding & Machine Accessories[J]. Manufacturing Engineering, 1992,109(8).
[38] Anonymous. CNC provides PC control for machine tool applications[J].American Machinist, 1998,142(11).
[39] John M Jordan. CNC optimization device[J].Modern Machine Shop, 1998,71(12).
[40] Dorndorf U, Kiridena V S B. Optimal budgeting of quasistatic machine tool errors[J].Journal of Engineering for Industry, 1994,116(2).
[41] Kim K, Kim M K. Volumetric accuracy analysis based on generalized geometric error model in multiaxis machine tools[J].Mechanisms and Machine Theory, 1991(3).