摘要
随动平台可使仪器在受到外界干扰情况下保持相对初始惯性空间方位不变。为解决随动平台传统设计过程中设计周期长、工作量大、设计成本高等问题,使用C#语言开发了一种由设计人员驱动的随动平台参数化设计系统。基于随动平台的技术指标,通过人机交互界面对主动参数赋予不同参数值,系统自动生成一系列随动平台模型。该系统在保证开发产品准确性的同时,提高了设计效率与建模的可靠性,缩短了设计周期,使随动平台可满足个性化的设计需求。
The following platform can keep the relative initial inertial space orientation constant under the action of external disturbance.In order to solve the problems of long design cycle,heavy workload and high design cost in the traditional design process of the servo platform,a parametric design system of the servo platform driven by the designer was developed using C#language.Based on the technical indicators of the follow-up platform,the system automatically generates a series of follow-up platform models by giving different parameter values to the active parameters through the human-computer interaction interface.The system not only ensures the accuracy of product development,but also improves the design efficiency and the reliability of modeling,and shortens the design cycle,so that the following platform can meet the requirements of personalized design.
作者
万健
周洪
付彦琨
王红
吴恩启
WAN Jian;ZHOU Hong;FU Yan-kun;WANG Hong;WU En-qi(School of Mechanical Engineering,University of Shanghai for Science and Technology,Shanghai 200093,China;Shanghai Marine Equipment Research Institute,Shanghai 200079,China)
出处
《软件导刊》
2021年第8期150-154,共5页
Software Guide
关键词
随动平台
人机交互界面
二次开发
参数化设计
自动装配技术
follow-up platform
human-computer interaction interface
secondary development
parametric design
automatic assembly technique
