CSCIED

期刊目次

加入编委

期刊订阅

添加您的邮件地址以接收即将发行期刊数据:

Open Access Article

International Journal of Clinical Research. 2024; 8: (9) ; 119-122 ; DOI: 10.12208/j.ijcr.20240368.

Structural analysis and fault case analysis of Philips 64 row 128-layer incision aurora CT
飞利浦64排128层Incisive极光CT结构分析及故障案列剖析

作者: 李耐宁 *

广西壮族自治区贵港市中西医结合骨科医院 广西贵港

*通讯作者: 李耐宁,单位:广西壮族自治区贵港市中西医结合骨科医院 广西贵港;

发布时间: 2024-09-28 总浏览量: 158

摘要

本文深入剖析了飞利浦64排128层Incisive极光CT的结构特点分析及其在日常使用与维护中可能遇到的故障案例。探讨了人为因素(如技师培训不足、极限参数调整不当、非正规维修)对设备稳定性的影响,以及环境因素(温湿度控制、腐蚀性清洁剂使用、防虫防水不足)的潜在威胁。提出详尽的日常保养(如开关机、球管预热、清洁消毒)、专业维护(电压检查、紧急开关、床板、电缆与电路板、散热系统检查)及第三方维保策略。总结了常见故障类型,并给出故障排查流程,强调先排查操作与环境问题,再深入设备检测,以确保飞利浦64排128层Incisive极光CT机稳定高效运行。

关键词: 飞利浦;64排128层Incisive极光CT;结构分析;故障

Abstract

This article provides an in-depth analysis of the structural characteristics of the Philips 64 row 128 layer Incision Aurora CT and potential failure cases that may be encountered in daily use and maintenance. Explored the impact of human factors such as insufficient technician training, improper adjustment of limit parameters, and informal maintenance on equipment stability, as well as potential threats from environmental factors such as temperature and humidity control, use of corrosive cleaning agents, and insufficient insect and water resistance. Provide detailed daily maintenance (such as power on/off, tube preheating, cleaning and disinfection), professional maintenance (voltage inspection, emergency switch, bed board, cable and circuit board, cooling system inspection), and third-party maintenance strategies. Summarized common types of faults and provided a troubleshooting process, emphasizing the need to first investigate operational and environmental issues before delving into equipment testing to ensure stable and efficient operation of Philips 64 row 128 layer Incision Aurora CT machines.

Key words: Philips; 64 row 128 slice Incisive Aurora CT; Structural analysis; fault

参考文献 References

[1] 周文杰,陈兰芬,李颖,等.飞利浦64排128层CT的故障处理与维护保养[J].医疗装备, 2022(035-003).

[2] 孙俊峰,申路.CT高压典型故障分析与维修策略研究[J].设备管理与维修,2022,(02):58-59.

[3] 陈建勤.飞利浦Brilliance iCT故障维修分析三例[J].医疗装备,2023,36(08):121-122.

[4] 孔江涛.CT设备的常见故障及处理方法[J].中国医疗器械信息,2023,29(20):152-155.

[5] 韩梅,段岩,李贺.飞利浦Brilliance64排128层CT管球故障维修实践[J].临床普外科电子杂志, 2020, 8(4):1545-1546.

[6] 孙惠平.飞利浦EPIQ7超声诊断仪故障分析与预防性维护解决方案[J].中国设备工程,2021(4):28-29.

[7] 王存勇.飞利浦128排Brilliance iCT故障维修案例分析[J].中国医疗设备,2022,37(4):166-169.

[8] 张翔.飞利浦Ingenuity Core 128 CT故障案例分析与维修[J].医疗装备,2021,34(17):158-159.

引用本文

李耐宁, 飞利浦64排128层Incisive极光CT结构分析及故障案列剖析[J]. 国际临床研究杂志, 2024; 8: (9) : 119-122.