[1]邓应兰,姚凯学. 基于滑阀组件的高精度配套系统的研究与实现[J].计算机技术与发展,2016,26(09):16-20.
 DENG Ying-lan,YAO Kai-xue. Study and Implementation of High Precision Matching System Based on Slide Valve Components[J].,2016,26(09):16-20.
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 基于滑阀组件的高精度配套系统的研究与实现()
分享到:

《计算机技术与发展》[ISSN:1006-6977/CN:61-1281/TN]

卷:
26
期数:
2016年09期
页码:
16-20
栏目:
应用开发研究
出版日期:
2016-09-10

文章信息/Info

Title:
 Study and Implementation of High Precision Matching System Based on Slide Valve Components
文章编号:
1673-629X(2016)09-0016-05
作者:
 邓应兰姚凯学
 贵州大学 计算机科学与技术学院
Author(s):
 DENG Ying-lan YAO Kai-xue
关键词:
 滑阀组件配套算法 配套系统  三层架构
Keywords:
 slide valve assembly matching algorithm matching system three-tier architecture
分类号:
TP399
文献标志码:
A
摘要:
 滑阀组件通常是将工艺不同的孔轴零件按照一定的配套规则组合而成。文中研究的滑阀组件具有较高的配合精度,然而,精度越高配套难度越大。为了解决人工配套方式存在的低效率问题,详细研究了滑阀组件的工艺规程,并设计出了符合生产线实际要求的基于零件复用次数的配套算法。然后详细分析了用户需求,并采用。 NET技术、SQL Server数据库技术和三层架构模式来构建基于滑阀组件的高精度配套系统,旨在通过系统来实现零组件入库、配套、统计和出库等相关操作,方便管理并提高了生产效率。通过录入某工厂的零件历史测量数据,对该系统进行了功能和性能测试。结果表明,该系统不仅能够减轻工作量,而且在配套效率、数量和精确度上也有很大的提高和改善。
Abstract:
 Slide valve assembly are made up by the hole and axis parts of different craft regulation. The studied slide valve assembly has a high fitting accuracy,however,the higher the accuracy,the greater the difficulty of selective assembly. In order to solve the problem of the low efficiency by artificially selective assembly,the procedure of slide valve is researched in detail,and the matching algorithm based on reused number meeting the requirements of actual production line is designed. Then after detailed analysis of user needs,constructs a high-precision matching system based on the slide valve assembly by . NET,SQL Server database and the three-tier architecture model to implement the parts warehousing,selective assembly,statistics,delivery and so on. It’ s convenient to manage and improve the production efficiency. Tested the system for function and performance by typing historical data of a factory,the results show that this system can not only reduce the workload,but also improve the matching efficiency,quantity,and accuracy greatly.

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更新日期/Last Update: 2016-10-24