医疗卫生装备2017,Vol.38Issue(9):86-89,4.DOI:10.7687/j.issn1003-8868.2017.09.086
高频电刀检测方法的改进与实践
Improvement and practice of high-frequency electrotome detection
王佳庆 1魏永昌 1王贝贝 1沈子立 1李成1
作者信息
摘要
Abstract
Objective To discuss the technical specifications of current high-frequency electrotome detection,to avoid the hidden danger of high-frequency electrotome power detectors,and to measure the leakage current of different kinds of highfrequency electrotome accurately.Methods The power and leakage current of the high frequency electrotome were measured by FLUCK QA-ES Ⅱ high frequency electrotome analyzer.The safety of the two methods was compared before and after the improvement of the power measurement.Four parameters of leakage current were repeatedly measured with the ways of high frequency earthing and high frequency isolation respectively.The maximum measurement of leakage current was recorded.Results The improved connection method was safe in the power measurement.For the high-frequency electrotome in the model of high frequency earthing,the values of leakage current were restrained within the range of error with two ways of monopolar loading operation electrode and neutral electrode.For the high-frequency electrotome in the model of high frequency isolation,the values of leakage current were limited within the range of error withtwo ways of monopolar empty operation electrode and neutral electrode.Conclusion The improved high-frequency electrotome power detection method is safe for detectors.The data obtained from the leakage current detection method using the national standard correction method reflect the actual state of the high-frequency electrotome,when the electrotome with earth as the reference is used to detect the leakage current with loading or the insulated electrotome is applied to measuring the leakage current with no loading.关键词
高频电刀/功率检测/漏电流检测/空载/加载/电极Key words
high-frequency electrotome/power detection/leakage current detection/idle load/loading/electrode分类
医药卫生引用本文复制引用
王佳庆,魏永昌,王贝贝,沈子立,李成..高频电刀检测方法的改进与实践[J].医疗卫生装备,2017,38(9):86-89,4.
