Design of Unmanned Monitoring and Automatic Monitoring System
Abstract
With the development of electronic technology, medical equipment is also undergoing some changes, and the traditional manual monitoring mode is clearly unsatisï¬ed with today’s monitoring needs. At present, China’s medical institutions in the infusion treatment, the infusion rate control or the use of conventional clinical infusion, general use of hanging bottle infusion, and direct observation with the eyes, relying on manual clip to control the infusion rate, this mode of operation cannot be precisely controlled Infusion speed, and the workload. Therefore, the need for both cheap and practical medical infusion detection monitoring device to meet today’s medical needs. The system is designed with the single chip AT89C51 as the core, the keyboard and photoelectric sensor as the input system to digital tube and motor as the output system of intelligent infusion control and monitoring system. The keyboard system is a stand-alone key system, the function of the photoelectric sensor for the liquid droplet speed and infusion bottle page height of the reliable detection. When the liquid level is below the alert value, the system issues an alarm and can manually remove the alarm. The motor has a large controllable power and the input pulse can be maintained when the same torque and other advantages, so that you can control the bottle by the upper and lower slowly to achieve the purpose of intelligent control of liquid drip speed.
References
ZT . Wang, RF. Wang, TF. Yan. Intelligent liquid drip speed monitor. Automation and Instrumentation, 2004, (5): 48-50
DT. Zhang, W. Wei. Intelligent medical drip control system design and implementation. Jilin Journal of Engineering and Technology, 2009,25 (10)
XL. Song, HL. Wang, JL. Wan. Design of liquid droplet speed monitoring device based on single chip micro-computer system. Computer development and application, 2007, 20 (5).
LP. Zhu. Single-chip microcomputer control double stepper motor motion control system. Electronic Communication and automatic control technology, 2008,8.
Design and Development of General Infusion Alarm and Control System [J]. Medical Equipment Information, 2004 (9): 10-11 (in Chinese with English abstract)
W. Xiao, YQ. Tu, J. Wang, etc. Liquid droplet wireless intelligent monitoring system design and implementation [J]. Electronic Measurement Technology, 2008 (1): 133-136
M. Yin, Y. Xie. Design of a new wireless infusion monitoring system [J]. Computer u0026 Digital Engineering, 2007 (8): 176-178
Copyright (c) 2019 Xudong Ding et al.
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.