【产品中文介绍】

DH-2型打滑检测器是一款专为工业输送系统设计的智能化监测设备，致力于为各类带式、链式传送装置提供精准的运行状态反馈。本产品采用创新的非接触式传感技术，通过实时监测传动部件的运动轨迹，有效识别设备运行中的速度异常、传动带松弛或物料堆积等潜在问题，帮助用户及时采取干预措施，规避生产中断风险。

设备内置高灵敏度动态分析模块，可适配不同材质的输送介质，适用于矿山、水泥、冶金、电力等复杂工况环境。特殊设计的防护结构能抵御粉尘、潮湿及温度波动的影响，确保长期稳定运行。通过模块化设计理念，用户可根据现场需求灵活配置报警阈值与响应机制，实现与现有控制系统的无缝对接。

DH-2型配备多维度数据采集功能，支持运行参数可视化呈现。人性化的本地指示灯与远程通信接口同步工作，既满足现场人员的即时判断需求，又能为智能工厂的数字化管理提供基础数据支撑。产品安装过程简便，维护周期长达6个月以上，显著降低设备运维成本。

【English Product Introduction】

The DH-2 Slip Detector is an intelligent monitoring solution engineered for industrial conveying systems, delivering precise operational feedback for belt-driven and chain-driven transmission equipment. Utilizing advanced non-contact sensing technology, this device continuously tracks the motion patterns of mechanical components, effectively detecting speed anomalies, belt slackness, and material accumulation to enable proactive system maintenance.

Featuring an adaptive dynamic analysis module, the equipment demonstrates exceptional compatibility with various conveyor materials, making it ideal for challenging environments in mining, cement production, metallurgy, and power generation sectors. Its fortified enclosure provides reliable protection against dust, moisture, and thermal variations, ensuring sustained performance. The modular architecture allows customizable alarm thresholds and response protocols, facilitating seamless integration with existing control systems.

Equipped with multidimensional data acquisition capabilities, the DH-2 offers visualized operational parameter display. Dual alert mechanisms combining local indicator lights and remote communication interfaces cater to both on-site decision-making and digital plant management requirements. Simplified installation procedures and extended maintenance intervals (over 6 months) substantially reduce total ownership costs.

This solution emphasizes practical reliability through industrial-grade components and adaptive algorithms, delivering 360° monitoring coverage for critical drive points. Its compact design minimizes spatial requirements while maintaining compatibility with mainstream industrial communication protocols, providing flexible deployment options for diverse production scenarios.