分析了弹力支座的工艺性,介绍了级进模总体设计结构和排样方案。
The manufacturability of the elastic pedestal was analyzed. The general structural design and layout scheme of the progressive die were introduced.
分析了护板件的冲压工艺性,介绍了护板级进模总体结构和排样方案。
The stamping manufacturability of the protecting sheet part was analyzed. The structure of the progressive die and the stock layout design was introduced.
分析了零件的特点,介绍了级进模设计要点,总体设计结构和排样方案。
Parts characters are analyzed, as well as, the critical progressive die design points, general design structure and layout program are introduced.
该算法编制的软件可迅速求出外轮廓为任意形状的制件的优化排样方案。
The optimum layout plan of a workpiece in arbitrary shape Can be made out by the software developed on this algorithm.
分析了侧弯支座零件的工艺性,介绍了级进模总体结构设计和排样方案。
The technological property of the side bent pedestal part is analyzed. The overall structure and layout of the special progressive die for the part are introduced.
分析了拉簧钩件的工艺性,介绍了其特殊级进模总体设计结构和排样方案。
The technology of the pull-spring parts was analyzed, the particular progressive structure and arrange layout was introduced.
通过对各个目标设定不同的优先级,可生成满足实际生产环境需要的排样方案。
By setting different priorities for each objective, appropriate layout plans can be generated for practical production environments need.
分析了转换推杆零件的冲压工艺,介绍了带料排样方案及级进模模具结构设计。
The pressing process of transforming throwout lever is analyzed, Layout of multi-position progressive and die structure are introduced.
通过该冲件特点的工艺分析,确定级进模排样方案过程和模具主要工作零件及模具总装结构设计。
Analyzing the craft features of a punching piece, ascertain the process and scheme of a progressive die blank layout, and the design of main die working parts and final assembly structures.
针对马达壳结构,分析了其工艺特点,制定了零件的排样方案。详细介绍了模具结构及工作过程。
Aimed at the structure of motor case, its' process characters are analyzed, the blank layout program of parts is defined, the structure of die and the working process are introduced respectively.
通过该冲件特点的工艺分析,确定级进模排样方案过程和模具主要工作零件及模具总装结构设计。
The layout design and die structure were introduced, and the key points in designing the major components and structure of service position were discussed.
通过该冲件特点的工艺分析,确定级进模排样方案过程和模具主要工作零件及模具总装结构设计。
According to the punching technology character of brackets, layout design and die structural design are carried out, as well as stamping and bending fixed distance fashion is applied.
分析了侧弯支架零件的工艺性,介绍了侧弯支架多工位级进模的总体结构、主要零部件和排样方案。
We have analyzed the side bend bracket parts of the process and introduced the side bend bracket of multi-position progressive die for the overall structure, main parts and the layout scheme.
分析了铰链支座的工艺性,详细介绍了级进模排样方案和总体结构,阐述了关键部件的设计计算方法。
The paper introduces the hinge mount forming process, designs forming die structure, and analyzes the die working process and main designing points.
本算法适合应用于大批量、多种类的矩形零件在定宽无限长板材上的优化排样,获得了较好的优化排样方案;
This algorithm is suitable for optimized layout of rectangle parts with large amounts and many kinds and better optimized layout is got.
介绍了摆动连杆的冲压工艺分析过程、载体的合理选择、带料排样方案的确定及级进模模具的总装结构设计。
Introduced the pressing technology analysis, the carrier choosing, layout designing and structure design of the progressive die for the swinging connecting rod.
分析了电器活动支架零件的结构工艺性和冲压工艺,介绍了零件的排样方案、模具的总体结构、主要零部件的设计。
The technological property and the stamping technology of the electrical appliance movable support were analyzed. Layout scheme and total structure of die, design of the key parts were introduced.
分析了电器触动支架零件的结构工艺性和冲压工艺,介绍了零件的排样方案、模具的总体结构、主要零部件的设计。
The technological property and the stamping technology of the electrical appliance touch support were analyzed. Layout scheme, die structure, the key parts design were introduced.
通过对插座连接焊片结构特点的分析,确定该冲压件的排样方案,设计了一副级进模。介绍了主要工作零件及模具总装结构设计。
Through analysis of structure of the socket weld connection pieces, determined the layout project, designed a progressive die. Introduced the design points of main parts and die structure.
通过分析级进模工序排样设计中的模糊性准则,利用模糊综合评判理论建立了对排样方案进行优化数学模型,并通过了事例验证。
By analyzing the fuzzy regulation for design of strip layout on progressive die, a optimum model has been set up based on the theory of fuzzy multi-factorial evaluation, which has been verified.
针对压力臂的技术要求,确定了合理的排样方案,阐述了该级进模设计特点及要点,同时,还介绍了两种扭曲成形装置,可供类似多工位级进模的设计、制造作参考。
And meanwhile, two kinds of twisting formation devices are introduced, which could serve as a reference for the design and manufacture of similar multi-position progressive dies.
这些环节中优化下料方案是提高原材料利用率最直接的方法,而优化下料方案的关键是构造有效的优化排样算法。
The most direct method to improve material usage is to optimize the cutting scheme, and the key is to develop efficient algorithms.
板材排样优化的核心问题是规划零件在板型原材料上最佳的下料组合与每个下料零件在板材上的最优布局方案。
The kernel of this problem is to programming the best nesting combination and the best composition scheme of each part on the blank sheet.
分析了盖板零件的冲压成形工艺,介绍了零件排样设计方案,阐述了模具结构及其主要零件的设计和制造工艺。
Analyzed the forming process of the cover plate, introduced the layout design, and expound design and manufacture process of die structure and its main components.
在对比分析各种排样优化技术方案的基础上,本文提出了GASA分布式协同优化算法模型。
Brought forward the GASA distributed cooperating model based on the fully and deeply analyse of all kinds of intelligence optimal approaches.
分析了接线片的结构特点和冲压工艺性,介绍了零件的排样设计方案、模具结构及主要特点。
The structure characteristics and pressing process of the connection piece were analyzed, and the layout design of the part, the structure and main characteristics of the die were introduced.
分析了摇臂件的冲压工艺性,介绍了其级进模总体结构及排样设计方案。
The manufacturability of stamping for the rock arm was analyzed. The general structure and the stock layout design proposal of the progressive die were introduced.
分析了端子的工艺特点,介绍了零件的排样设计方案、模具结构及主要特点。
The technological characteristics of the terminal were analyzed. and the layout design of the part, the structure and mainly characteristics of the die were introduced.
分析了支架的冲压工艺,给出了排样设计方案和相应的模具结构,并就主要零件设计加工中应注意的问题进行了分析,提出了解决办法。
Analyzing the craft features of a punching piece, ascertain the process and scheme of a progressive die blank layout, and the design of main die working parts and final assembly structures.
分析了支架的冲压工艺,给出了排样设计方案和相应的模具结构,并就主要零件设计加工中应注意的问题进行了分析,提出了解决办法。
Analyzing the craft features of a punching piece, ascertain the process and scheme of a progressive die blank layout, and the design of main die working parts and final assembly structures.
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