CN209827798U - Infusion system with safety feedback function - Google Patents

Abstract

The utility model relates to an infusion system with safety feedback function, including gravity monitoring device, the liquid medicine bag, the transfusion system, the transfer pump, patient's wrist strap, sweep a yard equipment, data processing unit, gravity monitoring device hangs on the infusion support, the liquid medicine bag hangs on gravity monitoring device, the liquid medicine bag is connected with the transfer pump, gravity monitoring device and transfer pump are connected with data processing unit through the communication mode, link to each other through the transfusion system between liquid medicine bag, transfer pump and the patient, blood oxygen monitoring module links to each other with data processing unit through wireless communication mode, data processing unit connects medical care terminal; gravity monitoring device, liquid medicine bag, transfer pump, patient's wrist strap all have the ID sign, sweep a yard equipment and be connected with data processing unit through wireless communication mode, medical personnel realize that the information between patient, equipment, the medicine is checked through sweeping ID sign on a yard gravity monitoring device, liquid medicine bag, transfer pump, the patient's wrist strap, realize that data is equal.

Description

Infusion system with safety feedback function

Technical Field

The utility model belongs to the technical field of medical treatment and specifically relates to a transfusion system with safety feedback function.

Background

With the rapid development of information technology, the traditional infusion mode is gradually changed. The operation mode of hanging a medicine bottle on an infusion support, installing an infusion set and then starting infusion has the disadvantages that the efficiency is low, medicines sometimes mistakenly correspond to patients, various infusion parameter records consume a lot of working hours and the like. At present, the medical institution is more specialized in infusion operation, so that more safe and efficient infusion modes are emerging;

as shown in figure 1, this is an infusion mode in the existing medical institution, is equipped with the bar code on the liquid medicine bag, lets the patient wear the wrist strap, makes liquid medicine bag and patient all be equipped with the ID, then scans a yard liquid medicine bag and patient ID with PDA and checks patient infusion information, guarantees the correct matching of medicine information, patient's information, guarantees patient's safety, the defect lies in: the method can not realize the monitoring of the infusion flow rate, needs manual work to participate in the monitoring of the infusion flow rate, still needs a nurse to count the number of drops of the liquid medicine in the drip cup at regular time, wastes more manual work, and does not manage and control the infusion pump;

as shown in fig. 2, this is a conventional way to monitor the infusion process, i.e. an intelligent infusion alarm is arranged above the infusion bag to monitor the infusion process. The alarm adopts an automatic weight deduction principle, applies a modern Internet of things technology, monitors the weight of liquid medicine in the medicine bag, gives an early warning before the infusion is completed, and enables a nurse to be clear of infusion information of all wards in a monitoring room. The defects are that: the mode carries out certain monitoring to the infusion process, has guaranteed infusion safety under the ordinary condition, but does not have the pairing operation of initial medicine and patient, does not introduce the management and control that the transfer pump carries out the infusion yet. Therefore, when the infusion pump is used for infusion, the intelligent infusion alarm still needs more manual work in operation, and is inconvenient to use.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an infusion system with safe feedback function in order to solve the defect that prior art exists.

In order to realize the purpose, the utility model discloses a technical scheme is:

a transfusion system with a safety feedback function comprises a gravity monitoring device, a liquid medicine bag, a transfusion device, a transfusion pump, a patient wrist strap, a code scanning device and a data processing unit, wherein the gravity monitoring device is hung on a transfusion bracket; the gravity monitoring device, the liquid medicine bag, the infusion pump and the patient wristband are all provided with ID marks.

Furthermore, the blood oxygen monitoring module is an oximeter with a communication function, and the gravity monitoring device is an intelligent gravity sensor with a communication function.

Further, the data processing unit is a server, an embedded system or a PC.

Further, the medical care terminal is a PDA connected with the data processing unit, a nurse station PC and a PAD display device.

Furthermore, the code scanning device is a handheld code scanning device, the handheld code scanning device is connected with the data processing unit in a wireless communication or wired mode, and the handheld code scanning device comprises a PAD, a PDA or a mobile phone with a code scanning function.

Further, the ID is a two-dimensional code, a bar code or a fingerprint.

The utility model has the advantages that: when the system is used, medical staff checks information among patients, equipment and medicines through ID marks on a code scanning gravity monitoring device, a liquid medicine bag, an infusion pump and a patient wrist strap, and data peer-to-peer is realized; in the transfer pump course of operation, liquid medicine reduces gradually in the liquid medicine bag, gravity monitoring devices real-time supervision liquid medicine bag weight change, send monitoring data for data processing unit through wireless communication or wired mode, the computational analysis through data processing unit reachs the actual velocity of flow, set up the velocity of flow with the transfer pump with the actual velocity of flow and contrast, establish a feedback system, thereby judge whether the transfer pump stalls, in case the stall just can let the transfer pump report to the police, and feed back the nurse who doctorses and nurses the terminal and handle. In addition, the blood oxygen monitoring module also monitors the physiological indexes of blood oxygen, heart rate and the like of the patient in the infusion in real time, sends monitoring data to the data processing unit, and feeds back the physiological index state information of the patient to the medical care terminal through the judgment of the data processing unit so as to avoid the infusion risk caused by infusion dosage, medication errors and human errors and ensure the safety of the patient.

Drawings

FIG. 1 is a schematic diagram of a prior art infusion mode;

FIG. 2 is a schematic diagram of a prior art infusion process monitoring system;

fig. 3 is a schematic diagram of the present invention.

Detailed Description

As shown in fig. 3, an infusion system with safety feedback function, including gravity monitoring device 1, liquid medicine bag 2, the transfusion system, transfer pump 3, the patient's wrist strap, sweep yard equipment 9, data processing unit 4, gravity monitoring device 1 hangs on infusion support, liquid medicine bag 2 hangs on gravity monitoring device 1, liquid medicine bag 2 connects transfer pump 3, gravity monitoring device 1 and transfer pump 3 are connected with data processing unit 4 through the communication mode, liquid medicine bag 2, link to each other through the transfusion system between transfer pump 3 and the patient 5, this infusion system still has blood oxygen monitoring module 6, blood oxygen monitoring module 6 links to each other with data processing unit 4 through the communication mode, the preferred wireless communication of communication mode.

The data processing unit 4 is connected with the medical care terminal 7; the gravity monitoring device 1, the liquid medicine bag 2, the infusion pump 3 and the patient wristband are all provided with ID marks. The blood oxygen monitoring module 6 and the gravity monitoring device 1 can be either one of two for safety feedback, and the blood oxygen monitoring module 6 can be a supplement to the gravity monitoring device 1.

The blood oxygen monitoring module 6 is an oximeter with a communication function and is used for measuring the blood oxygen saturation and the heart rate of a patient, and when the heart rate data of the patient received by the data processing unit 4 exceeds a normal standard, the medical care terminal 7 is informed to give an alarm; the gravity monitoring device 1 is an intelligent gravity sensor with a communication function, the change of the transfusion flow can be calculated by signals transmitted by the gravity monitoring device 1 and received by the data processing unit 4, and an alarm is given if the flow and the set flow rate exceed the specified deviation. The data processing unit 4 may be a server, an embedded system, a PC, etc.

The medical care terminal 7 is a PDA connected with the data processing unit 4, a nurse station PC and a PAD display device; the data processing unit 4 may also send information to a medical care terminal for a nurse to handle, and send data to a hospital information system for backup.

The code scanning device 9 is a handheld code scanning device 9 corresponding to the ID identification, the handheld code scanning device 9 comprises a PAD, a PDA or a mobile phone with a code scanning function, and the ID identification is a two-dimensional code, a bar code or a fingerprint.

When using this system, medical personnel sweep ID sign indicating on sign indicating number gravity monitoring devices 1, liquid medicine bag 2, transfer pump 3, patient 5 wrist strap through handheld sign indicating number equipment 9 of sweeping, realize that the information between patient, equipment, the medicine is checked, should sweep a sign indicating number equipment 9 by handheld and be connected with data processing unit 4 through the wireless communication mode, realize that data is equal.

After checking that the medication information is correct, the nurse empties the infusion pump 3, and then the infusion pump 3 receives the infusion parameters sent by the data processing unit 4 to start infusion. In 3 course of work at the transfer pump, liquid medicine reduces gradually in the liquid medicine bag 2, gravity monitoring device 1 real-time supervision liquid medicine bag weight change, send monitoring data for data processing unit 4 through wireless communication, calculate the analysis through data processing unit 4 and draw actual velocity of flow, set up the velocity of flow with actual velocity of flow and transfer pump 3 and contrast, establish a feedback system, thereby judge whether the transfer pump stalls, in case the stall just can let transfer pump 3 report to the police, and feed back to the nurse who nurses medical care terminal 7 and handle. In addition, blood oxygen monitoring module 6 also monitors patient's blood oxygen and heart rate in the infusion in real time, sends monitoring data to data processing unit 4, and through data processing unit 4's judgement, feeds back patient's physiological index situation information to medical care terminal 7, ensures patient's safety.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A transfusion system with a safety feedback function comprises a gravity monitoring device, a liquid medicine bag, a transfusion device, a transfusion pump, a patient wrist strap, a code scanning device and a data processing unit, wherein the gravity monitoring device is hung on a transfusion bracket; the gravity monitoring device, the liquid medicine bag, the infusion pump and the patient wristband are all provided with ID marks.

2. The infusion system with safety feedback function as claimed in claim 1, wherein the blood oxygen monitoring module is an oximeter with communication function, and the gravity monitoring device is an intelligent gravity sensor with communication function.

3. The infusion system with the safety feedback function as claimed in claim 1, wherein the data processing unit is a server, an embedded system or a PC.

4. The infusion system with safety feedback function of claim 1, wherein said medical care terminal is a PDA, nurse station PC and PAD display device connected with data processing unit.

5. The infusion system with the safety feedback function as claimed in claim 3, wherein the code scanning device is a handheld code scanning device, the handheld code scanning device is connected with the data processing unit through wireless communication or wired communication, and the handheld code scanning device comprises a PAD, a PDA or a mobile phone with the code scanning function.

6. The infusion system with safety feedback function as claimed in claim 5, wherein said ID is a two-dimensional code, a bar code or a fingerprint.