Remote monitoring system of upper infusion computer
Technical Field
The invention relates to the technical field of monitoring systems, in particular to a remote monitoring system of an upper infusion computer.
Background
People who often transfuse the liquid certainly know that the air in the transfusion tube needs to be exhausted before transfusion. If the air is not exhausted, or the connection of the pipeline is not tight and leaks, the air in the infusion pipeline enters the vein along with the liquid medicine to cause air embolism, which causes dyspnea, severe cyanosis, oxygen deficiency and even sudden death; in view of the potential risks mentioned above, there is a need for real-time on-site monitoring by medical personnel, but in situations with many patients, problems are evident, and we have developed a remote monitoring system that enables medical personnel to monitor infusion remotely and to remind medical personnel to change medications.
Disclosure of Invention
The invention aims to solve the defects in the prior art, and provides a remote monitoring system of an upper infusion computer.
In order to achieve the purpose, the invention adopts the following technical scheme:
a remote monitoring system of an upper infusion computer comprises an information acquisition module, a communication module, a cloud end, a software display module, a monitoring module and an alarm reminding module, wherein the information acquisition module, the software display module, the monitoring module and the alarm reminding module perform data interaction with the cloud end through the communication module;
the information acquisition module acquires medicine information and patient information, matches the acquired data with the mis system of the hospital, calls corresponding medicine information and patient information to be displayed on the software display module, detects infusion by the monitoring module, and triggers the alarm reminding module to remind medical staff of changing the medicine within a specified time.
Preferably, the communication module is based on ZigBee and TCP protocol, and is used to establish data interaction between modules.
Preferably, the cloud is built based on a hospital mis system and is used for storing medicine information and patient information.
Preferably, the software display module adopts a C/S software architecture and comprises a primary interface and a secondary interface, wherein the primary interface displays the machine number, the name of the patient, the number of infusion drops and the infusion condition; the second-level interface displays specific patient information, patient name, age, sex, current infusion drug, drug weight, current infusion drop number, current infusion state and infusion allowance.
Preferably, the monitoring module monitors the infusion process, sends an instruction to the alarm reminding module to prompt medical staff when an abnormal condition occurs or 1-5 minutes before the infusion is completed.
Preferably, the alarm reminding module receives the instruction, the color of the graphical interface in the software display module changes, and the acousto-optic alarm is triggered.
Preferably, the color of the graphical interface shows that the color of the graphical interface is green for normal transfusion, red for abnormal transfusion and yellow for transfusion ending.
Compared with the prior art, the invention has the beneficial effects that: the invention solves the problems that medical care personnel do not need to go to each patient ward to check the transfusion condition any more, the patient does not need to call the medical care personnel for treatment when the transfusion is finished or the transfusion is abnormal, the medical care personnel can monitor remotely, the working efficiency is improved, and the occurrence of medical accidents is reduced.
Drawings
In order to more particularly and intuitively illustrate an embodiment of the present invention or a prior art solution, a brief description of the drawings needed for use in the description of the embodiment or the prior art will be provided below.
Fig. 1 is a schematic diagram of a system according to the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.
Referring to fig. 1, the monitoring system comprises an information acquisition module, a communication module, a cloud, a software display module, a monitoring module and an alarm reminding module, wherein the information acquisition module, the software display module, the monitoring module and the alarm reminding module perform data interaction with the cloud through the communication module;
the information acquisition module acquires medicine information and patient information, matches the acquired data with the mis system of the hospital, calls corresponding medicine information and patient information to be displayed on the software display module, detects infusion by the monitoring module, and triggers the alarm reminding module to remind medical staff of changing the medicine within a specified time.
Specifically, the communication module is based on ZigBee and TCP protocols, and is used for establishing data interaction between the modules.
Specifically, the cloud is built based on a hospital mis system and used for storing medicine information and patient information.
Specifically, the software display module adopts a C/S software architecture and comprises a primary interface and a secondary interface, wherein the primary interface displays the machine number, the name of a patient, the number of infusion drops and the infusion condition; the second-level interface displays specific patient information, patient name, age, sex, current infusion drug, drug weight, current infusion drop number, current infusion state and infusion allowance.
Specifically, the monitoring module monitors the infusion process, sends an instruction to the alarm reminding module when an abnormal condition occurs or 1-5 minutes before the infusion is completed, and prompts medical staff.
Specifically, the alarm reminding module receives the instruction, the color of the graphical interface in the software display module can be changed, and meanwhile, the acousto-optic alarm is triggered.
Specifically, the color of the graphical interface shows that the green meaning is normal transfusion, the red meaning is abnormal transfusion, and the yellow meaning is transfusion ending.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.