本装置主要包括超声振动系统和超声控制系统。
The apparatus includes ultrasonic vibration system and ultrasonic control system.
超声变幅杆是功率超声振动系统中的重要组成部件。
Ultrasonic amplitude transformer is an important part in the power ultrasonic vibrating systems.
因此,功率超声振动系统及其控制的研究越来越受重视。
So research of power hypersonic vibration system and its control technique is paid more and more attention.
超声变幅杆是超声振动系统中一个重要的组成部分,经常在高声强超声中应用。
Solid horn is an important component in ultrasonic vibration system, often used in high power ultrasound applications.
超声加工的核心部分是超声振动系统,而变幅杆又是超声振动系统中关键的一环。
The core of ultrasonic machining is ultrasonic vibration system, while the ultrasonic horn is a key element.
以整个超声振动系统为研究对象,根据力电类比原理,利用计算机辅助测量导纳圆。
The whole ultrasonic vibration system is taken as a researchful object, and the admittance circle, aided by computer, is measured according to the theory of force-electricity analogy.
超声振动系统的变幅杆连接结构分为传统连接结构、锥面定位连接结构、两面定位连接结构。
Such systems have three types of linkage structures, conventional structures, cone-positioned structures, and two-face-positioned structures.
由变幅杆大端直径、放大倍数、面积系数等已知条件,按照变幅杆设计理论对超声振动系统中的变幅杆进行设计;
According to the designing theory of amplitude amplifier pole, it could be designed by big end diameter, magnification, area index and other parameters.
集团核心业务领域覆盖全面,包括“车削”、“铣削”、“超声振动加工”、“激光加工技术”及为机床和太阳跟踪系统而设计的自动化与软件解决方案。
The core business areas of "Turning", "Milling", "Ultrasonic" and "Laser" are complemented by automation and software solutions for machine tools and solar tracking systems.
本研究设计了一种超声频脉冲等离子切割电弧发生系统,并通过实际切割试验,测试、分析了这种高频脉冲电弧的振动特性。
This study designed a system to generate ultrasonic-frequency pulsed plasma cutting arc, and experimentally investigated the vibration characteristics of the high frequency pulsed arc.
论述超声波振动珩磨振动系统的原理,通过振动试验分析振动系统中的变幅杆、弯曲振动圆盘、振动子系统的振动效果。
The principle of vibration systems of ultrasonic vibration honing are discussed. The vibration effect of horn, curved vibrating disc and child system are analyzed by experiments.
本文研制一种超声轴向振动系统,并对合金铜进行试验。
In this paper, the author developed an ultrasonic vibration drilling system, and utilized it to do experiments on copper alloy.
以UG为开发平台,利用UG的二次开发工具开发出了压电超声振动CAD系统。
The piezoelectricity ultrasonic vibration CAD system is developed on the platform of UG with the second development tool.
将超声波变幅杆与弯曲振动刀杆作为一个系统加以研究。
The ultrasonic horn and bending vibration cutter are studied as a system in this paper.
本文对超声波纵向振动内圆磨削系统进行了系统的研究。
The ultrasonic vibration hole grinding system has been studied in this paper.
最后,介绍了功率超声处理系统中超声功率发生器和换能振动系统等关键技术。
The key technologies of the power ultrasonic processing system, including ultrasonic power generator and vibration sys-tem, are introduced in the end.
实验结果表明,研制的智能超声波发生器频率跟踪迅速准确,并能实现振动系统的恒定振幅控制,可以实现振动系统的自动运行。
Preliminary experiments show that the smart ultrasonic generator based on the new method can quickly and accurately frequency track, and can work well with constant amplitude control.
采用多普勒激光振动测量系统,获得了热超声倒装键合过程中工具末端及芯片的振动速度曲线。
With the Doppler laser vibration measurement system, the vibration velocity curves of the flip chip and tool tip were obtained during thermo-sonic flip chip bonding.
针对细胞微超声振动切割系统对超声变幅杆的要求,将等截面圆柱形阶梯变幅杆的一端替换成圆锥形变幅杆构成一种复合圆锥阶梯形变幅杆。
By studying ultrasonic amplitude transformers to meet the requirements of an ultrasonic vibration cell cutting system, a new compound cone step type amplitude transformer is constructed.
对此系统的超声振动单元结构及原理进行了分析,阐明了应用中的关键技术点——频率选择,并通过实验验证了超声振动对于减小细胞在切剖中的变形和损伤是非常有效的。
It introduces the structure and principle of the ultrasonic vibration unit, analyzes how to choose the work frequency, and proves that it is valid and feasible by cow ovum cutting experiment.
系统由超声波驱动器、换能器、变幅杆、拉丝模、拉伸机等组成,通过对黄铜丝的拉拔实验,考察了超声振动对拉拔力和丝的表面质量的影响。
Through a series of drawing experiments of brass wires, the effects of ultrasonic vibration on drawing force and surface quality of the wires were discussed.
介绍了基于超声波平行轴珩齿的超声波振动系统的设计原理,重点介绍了确定各组成部分参数的方法。
This paper introduces the design principle used for ultrasonic parallel-axes honing, the key is to confirm the parameter of every part.
利用传统电磁感应理论研究了无接触感应电能传输系统和应用在超声振动加工系统中的设计方法。
Contactless inductive power transfer system with conventional inductive technology was researched and a design method was presented after applying it to ultrasonic vibration machining system.
超声珩磨装置在工作状态时,珩磨负载对超声珩磨振动系统谐振频率有一定的影响。
Honing load has influence on the resonance frequency of ultrasonic honing vibration system when ultrasonic honing device is working.
在此基础上,设计出利用无接触感应电能传输的超声振动刀柄集成系统。
The system integrated with Ultrasonic-vibration toolholder based on contactless inductive power transfer is designed.
作者将超声振动引入薄壁镜筒零件车削中以减少零件变形,并开发出了适用于振动切削系统的刀尖高度调节机构,最后给出了超声切削和普通切削的对比数据。
The author apply ultrasonic vibration to the turning of thin-wall pieces to reduce the deformation, and an tools-tip height adjustment mechanism adapted to the vibration cutting system was developed.
作者将超声振动引入薄壁镜筒零件车削中以减少零件变形,并开发出了适用于振动切削系统的刀尖高度调节机构,最后给出了超声切削和普通切削的对比数据。
The author apply ultrasonic vibration to the turning of thin-wall pieces to reduce the deformation, and an tools-tip height adjustment mechanism adapted to the vibration cutting system was developed.
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