血液透析机电源及控制系统的研制

Q4 Engineering
Volodymyr Yaskiv, Anna Yaskiv
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引用次数: 0

摘要

文章描述了创建一个自动控制血液透析的自主紧凑系统的新方法。建议组织一个闭路清洗透析溶液,使用电解再生器作为其中尿素浓度的函数。给出了系统的功能框图,并对其进行了描述。为了给蓄热器供电,保证溶液的热稳定性,并为辅助的电子和电气设备供电,开发和研究了一种基于高频磁放大器的血液透析机多通道供电和控制系统。给出了基于高频磁放大器的功率开关与晶体管开关相比的优点,包括在可控电源结构方面的优点。介绍了高频磁放大器稳压器的工作原理。给出了理论和实验示波图。提供了实验装置的照片以及血液透析机的多通道电源和控制系统的工业样品。给出了它们的主要技术特点。对所进行的工作进行了总结。进行透析液的再生可显着降低其成本- 2升溶液,适用于使用6个月,足以用于设备的操作。现有的血液透析机是一种固定的开放式系统,使用一次性透析溶液,速率高达35升/小时,这将机器与固定的临床条件联系在一起。引入对透析液中尿素浓度的反馈,可以使血液净化过程自动化,并在必要的时间自动完成血液透析,同时也消除了设备对医院条件的依赖。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
DEVELOPMENT OF THE POWER SUPPLY AND CONTROL SYSTEM FOR THE HEMODIALYSIS MACHINE
The article describes new approaches to creating an autonomous compact system with automatic control for hemodialysis. It is proposed to organize a closed circuit for cleaning the dialysis solution using an electrolytic regenerator as a function of the concentration of urea in it. The functional diagram of the created system is presented and described. To power the regenerator, ensure thermal stabilization of the solution, and power auxiliary electronic and electrical equipment, a multi-channel power supply and control system for the hemodialysis machine based on high-frequency magnetic amplifiers has been developed and researched. The advantages of power switches based on high-frequency magnetic amplifiers in comparison with transistor switches, including in the construction of controlled power sources, are given. The principle of operation of the voltage regulator on high-frequency magnetic amplifiers is described. Theoretical and experimental oscillograms are given. Photographs of the experimental unit as well as an industrial sample of the multi-channel power supply and control system of the hemodialysis machine are provided. Their main technical characteristics are given. Conclusions to the conducted work are formulated. Carrying out the regeneration of the dialysis solution significantly reduces its costs – 2 liters of solution, which is suitable for use for 6 months, is enough for the operation of the device. Existing hemodialysis machines are a stationary open system using a single-use dialysis solution at a rate of up to 35 l/h, which ties the machine to stationary clinical conditions. Introducing feedback on the concentration of urea in the dialysis solution allows you to automate the blood purification procedure, as well as automatically complete hemodialysis at the necessary time, and also eliminates the dependence of the device on the conditions of the hospital.
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来源期刊
CiteScore
0.90
自引率
0.00%
发文量
40
审稿时长
10 weeks
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