| 摘 要: 煤矿作为我国主要的能源,其开采往往伴随着极高的危险性,每年因为采矿而发生的事故不计其数。针 对这种情况,提出一种矿井液压支架信息化监控系统设计方案。基于C/S架构,使用Qt开发客户端与服务器端程序,利 用串口类实现服务器端与设备间的通讯;引入UDP的通讯方式,实现多台客户端至服务器端,再由服务器端至设备的 双重通讯方式;引入云服务器,数据上传云端,使得设备运行状况不局限于现场,各部分整合,最终完成整个系统的开 发。经测试表明:设计方案可大大减少井下液压支架控制现场的人员数量,保证人员安全的同时,提高采煤效率,为液 压支架信息化构建提供了一些参考。 |
| 关键词: 液压支架;C/S架构;UDP通讯;云端 |
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中图分类号: TP183
文献标识码: A
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| Research and Design of Mine Hydraulic Support Monitoring System |
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CAO Hengfeng1, PENG Laihu1,2, SHI Weimin1
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( 1.Key Laboratory of Modern Textile Equipment Technology, Zhejiang Sci-tech University, Hangzhou 310018, China ;
[2.Hangzhou Qincheng Microelectronics Technology Co., Ltd., Hangzhou 310018, China)
17826856989@163.com;; 43233212@qq.com; swm@zstu.edu.cn
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| Abstract: Coal is a major energy source in China, but coal mining is often accompanied by extremely high risks with countless coal mining accidents occured every year. In view of this situation, this paper proposes a design scheme of mine hydraulic support information monitoring system. Based on a C/S (Client-Server) architecture, Qt software development platform is used to develop client and server programs and serial ports are used to achieve communication between the server and the device. UDP (User Datagram Protocol) communication method is also introduced to achieve double communication: from multiple clients to server, and then from server to devices. In addition, the introduction of cloud server makes it possible for equipment to be operated anywhere as data can be uploaded on cloud. When all the above parts are integrated, the development of the system is constructed. Tests have shown that the design scheme greatly reduce the numbers of on- site personnel, ensure the safety of the personnel, and improve the coal mining ef ciency, which provides references for the hydraulic support information construction. |
| Keywords: hydraulic support; C/S architecture; UDP communication; cloud |
