1) special clamp
专用钻套夹具
1.
Taken into account the machining cost, practicability and maneuverability, based on the traditional machining technology, a kind of newly developed brazed diamond trepanning tool and special clamp were designed to machine engineering ceramics.
立足于传统加工方法 ,考虑加工的经济性、实用性和易操作性 ,采用新研制的单层高温钎焊金刚石套料钻及专用钻套夹具对工程陶瓷材料进行了钻孔加工试验 ,试验结果表明 ,该工艺方法可高效、简便地加工出高质量的陶瓷孔 ,具有实用和推广价值。
2) special clamp
专用夹具
1.
Interim plate is an important part of the steel-plastic extruding die, made a special clamp in the lathe turning procedure,guaranteed the precision, and enhanced the work efficiency.
针对钢塑共挤模具重要零件之一过渡板,在机械加工车工工序中制造了专用夹具,保证精度,同时提高工效。
2.
Introduced a special clamp applied in batch manufacture copper electrode, the clamp is simple, exchange performance is good in various machine, improved location precision in EDM machining, cutted clamp time, enhanced precision and productivity.
介绍了一种适用大批量加工铜电极的专用夹具,结构简单,在各机床间具有较好的互换性,能提高零件在电火花加工时的定位精度,并减少装夹时间,提高产品精度和生产效率。
3) Special fixture
专用夹具
1.
The Application of CATIA Parameterization in the Rapid Design ofthe Special Fixture;
CATIA参数化设计在专用夹具快速设计中的应用
2.
Aimed at characteristic that many standard parts are repeatedly used in designing special fixture,by taking VB6.
针对专用夹具设计中大量重复使用标准件的特点,以VB6。
3.
Based on the analyze of process of special fixture design and application situation of fixture CAD technology, this paper presents the structure of fixture CAD System of scheme design by expert system principle and structure design of fixture based on 3D feature modeling.
在分析传统专用夹具设计过程和夹具CAD技术应用状况的基础上 ,提出引入专家系统原理进行夹具方案设计和采用三维特征建模进行夹具结构设计的专用夹具CAD系统的体系结构 ,并论述主要模块功能 ,方案设计的知识表达方法 ,应用特征建模技术建立夹具元件模型 ,实现专用夹具的三维设计。
4) unit clamp
专用夹具
1.
This paper analyzes the features of combined clamp, compares the combined clamp with unit clamp, and introduces the advantages of combined clamp and its wide applicability.
分析了组合夹具的特点,对组合夹具与专用夹具进行了比较,介绍了组合夹具的诸多优点及其广泛的应用范围。
5) self-made drilling tools
专用钻具
6) jig and fixture of special machine tool
专用机床夹具
补充资料:刀具:套料钻
以环形切削方式在实体材料上加工孔的钻头。套料加工能留下料芯﹐可以节约材料﹐减少机床的动力消耗。当需要从材料中心取出试样作性能检验时﹐套料钻是别种刀具所不能代替的。套料钻通常用於加工直径60毫米以上的孔﹐套料深度可达十几米。套料钻有外排屑和内排屑两种(见深孔钻)。外排屑套料钻的主要优点是所需的切削液系统的设备简单﹐但钻杆直径较小﹐因而强度和刚度较差﹐多用於单件小批生產﹔内排屑套料钻依靠切削液的压力﹐将切屑从钻杆中衝出﹐因此需要配备较为复杂的供液系统和解决密封问题﹐但生產率高﹐适用於成批生產。套料钻(见图 多齿外排屑套料钻 )可有一个或多个高速钢或硬质合金刀头﹐刀体上装有导向块﹐以防止切削时振动和减小孔的偏斜。导向块用硬质合金﹑胶木或尼龙等耐磨材料製造。刀体与管状钻杆可用焊接或特殊方牙螺纹联接。为了保证排屑畅通﹑降低切削负荷﹐套料钻各个刀头的刀刃被设计成不同的形状﹐使切屑分得较窄﹐同时在各个刀齿的前面上磨有断屑台﹐使切屑碎断。对大直径的盲孔套料时﹐需要用专门的切断装置﹐使料芯与本体分离。
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参考词条