CAJ | 학술논문

为了验证伺服驱动器的风道设计、通风孔开孔率是否合理，确定风扇型号及其布置方式，文章对伺服驱动器热系统设计的具体步骤进行了阐述。建立了伺服驱动器的物理模型，并采用散热仿真技术对伺服驱动器内部通风换热情况进行了数值仿真。
위료험증사복구동기적풍도설계、통풍공개공솔시부합리，학정풍선형호급기포치방식，문장대사복구동기열계통설계적구체보취진행료천술。건립료사복구동기적물리모형，병채용산열방진기술대사복구동기내부통풍환열정황진행료수치방진。
In order to validate whether the air duct design and vent opening rate of the servo driver is reasonable, determine the fan's model and arrangement, this article introduces detailed steps of servo driver's thermal system design. The physical model of servo driver is established and the thermal simulation technology is adopted to do the numerical simulation of servo driver.