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假肢接受腔阳模数控加工机床的控制系统研制 被引量:2

Design of Control System of NC Machine Tool for Prosthetics Socket Mould Machining
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摘要 对假肢接受腔数控加工机床控制系统的软硬件进行了设计。选用工控机和研华PCI-1240四轴运动控制卡为核心控制单元组成开环控制系统。在Windows2000环境下用Visual C++语言开发了用户程序。经过近一年的应用,证明了该系统的可靠性。 Both of software and hardware of NC machine tool for prosthetics socket machining were designed. The open - loop control is composed of industrial computer and PCI - 1240 four - axle kinetic control card. The user program was developed based on VC + + in Windows 2000 operating system. It proves to he reliable after one year of use.
作者 张晓娟 陈殿生
机构地区 长春理工大学 吉林电子信息职业技术学院 北京航空航天大学
出处 《机床与液压》 北大核心 2010年第4期71-73,共3页 Machine Tool & Hydraulics
关键词 数控机床 控制系统 控制软件 NC machine tool Control system Control software
分类号 TP273 [自动化与计算机技术—检测技术与自动化装置]
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  • 1[2]Dudley SC. Presentation highlights: Computer-Aided Design and Manufacture (CAD-CAM). Journal of Rehabilitation Research and Development, 2002, 39 (3): 15- 16
  • 2[3]Zheng YP, Arthur FTM, Aaron KLL. State-of-the-art methods for geometric and biomechanical assessments of residual limbs: A review. Journal of Rehabilitation Research and Development, 2001: 487- 504
  • 3[5]He P, Xue KF, Chen Q, et al. A PC-based ultrasonic data acquisition system for computer-aided prosthetic socket design. IEEE Transaction Rehabilitation Engineering, 1996, 4: 114- 119
  • 4[6]Zhang M, Mak AFT, Roberts VC. Finite element modeling of a residual lower-limb in a prosthetic socket: a survey of the development of the first decade. Medical Engineering and Physics, 1998: 360- 373
  • 5[7]Zachariah SG, Sanders JE. Interface mechanics in lower-limb external prosthetics: a review of finite element models. IEEE Transaction Rehabilitation Engineering, 1996, 4 (4): 288-302
  • 6[8]Liu GHW, Mak AFT, Lee SY. Biomechanical assessment of below-knee residual limb tissue. Journal of Rehabilitation Research and Development, 1994:188 - 198
  • 7[9]Zheng YP, Mak AFT. An ultrasound indentation system for biomechanical properties assessment of soft tissues in-vivo. IEEE Transaction Rehabilitation Engineering, 1996, 43 (9): 912-918
  • 8[10]Zhang M, Turner-Smith AR, Roberts VC, et al. Frictional action at residual limb/prosthetic socket interface. Medical Engineering and Physics, 1996, 18 (3): 207- 214
  • 9[11]Zhang M, Mak AFT, A finite element analysis of the load transfer between a residual limb and its prosthetic socket-Roles of interfacial friction and distal-end boundary conditions. IEEE Transaction Rehabilitation Engineering [C], 1996, 4 (4): 337 - 346
  • 10[12]Arthru FTM, Zhang Ming, David AB, et al. State-of-the-art research in lower-limb prosthetic biomechanics- socket interface: A review. Journal of Rehabilitation Research and Development, 2001, 38 (2): 161 -1744

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机床与液压
2010年 第4期

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