低压内线工程是配电系统的重要组成部分，其施工质量直接影响建筑供电安全与系统稳定。传统质量管控依赖人工巡检与经验判断，存在监测滞后、数据片面和追溯困难等问题，难以适应现代工程的智能化管理需求。随着物联网、传感器网络与数据分析技术的发展，智能监测成为低压内线施工质量控制的新方向。本文以智能监测技术为核心，构建集传感感知、数据采集、智能分析与决策反馈于一体的动态管控体系，建立多维监测模型与质量指标体系，实现施工全过程的可视化与可追溯。研究结果表明，该体系可降低施工缺陷率30%以上、提高施工效率25%，显著提升工程安全性与可靠性，为电气安装行业数字化与智能化转型提供了实践依据与技术支撑。

As a critical component of power distribution systems, low-voltage internal wiring projects directly impact building power supply safety and system stability. Traditional quality control methods relying on manual inspections and empirical judgments suffer from issues like delayed monitoring, partial data, and tracing difficulties, making them inadequate for modern intelligent engineering management. With advancements in IoT, sensor networks, and data analytics, intelligent monitoring has emerged as a new direction for quality control in low-voltage wiring construction. This study focuses on intelligent monitoring technology to establish a dynamic control system integrating sensor perception, data acquisition, intelligent analysis, and decision feedback. By developing multidimensional monitoring models and quality indicator systems, the system achieves full-process visualization and traceability. Research results demonstrate that this framework reduces construction defect rates by over 30%, enhances construction efficiency by 25%, and significantly improves project safety and reliability. These findings provide practical evidence and technical support for the digital and intelligent transformation of electrical installation industries.