Transfusion monitor and transfusion monitoring system based on cloud service

Abstract

The invention provides a transfusion monitor. The transfusion monitor comprises a shell, a fluid amount collecting and controlling device, a WIFI (Wireless Fidelity) communication module and a power supply management module, wherein the fluid amount collecting and controlling device, the WIFI communication module and the power supply management module are respectively arranged on the shell. The fluid amount collecting and controlling device is used for collecting relevant parameters in a transfusion device, and obtaining the dripping speed and residual liquid measure by the relevant parameters so as to obtain the residual time of the transfusion, realize the prediction on the transfusion completing time and achieve an early warning aim. The invention further provides a transfusion monitoring system based on a cloud service which comprises a transfusion monitor, a wireless receiving and dispatching module, a nurse station computer group, a cloud server and a patient terminal, wherein the transfusion monitor is used for transmitting monitoring information collected by the transfusion motor to the nurse station computer group through the wireless receiving and dispatching module, the nurse station computer group is used for transmitting the monitoring information to the cloud server, and the patient terminal and the nurse station computer group can visit the cloud server to obtain the monitoring information.

Description

Technical field [0001] The invention relates to the field of medical instruments, in particular to an infusion monitor for monitoring the infusion process and a cloud service-based infusion monitoring system containing the infusion monitor. Background technique [0002] Intravenous infusion is an important treatment method in clinical medicine. During the infusion process, it is necessary to select the appropriate intravenous infusion drip rate according to the infusion drug and the patient's condition. Too fast infusion may lead to poisoning, and in severe cases, it can lead to edema and heart failure; too slow infusion may cause insufficient medicine and affect the treatment effect. When the liquid is infused, the dressing should be changed or the needle should be removed in time, otherwise, it may cause vascular embolism. Therefore, when an abnormal drip rate (too fast, too slow, not dripping) occurs, or the infusion is completed, medical personnel need to deal with it in tim...

AI Technical Summary

Problems solved by technology

The disadvantages of the infusion monitoring system based on weighing technology are as follows: First, when the patient moves (such as when the patient walks with the infusion stand) or pulls or lightly supports the infusion set (such as when the patient turns over), it is easy to produce measurement errors

Second, due to the wide variety of medicine bottles and different weights, and their weight is generally not marked on the infusion bottle, how to measure the weight of an empty bottle is difficult to operate

Although the infusion monitoring system based on photoelectric technology does not have these shortcomings compared with the weighing system, it still has deficiencies in data communication, data storage, data discovery and information services.

Among the existing infusion monitoring systems, systems with communication functions, especially wireless communication functions, mostly use radio frequency technology, Bluetooth technology or ZigBee technology, and their communication distance, communication speed, communication data volume and frequency are all limited by the technology used

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