CN212383040U - Intelligent remote infusion pump control and monitoring system - Google Patents

Abstract

The utility model relates to a long-range transfer pump control monitoring system of intelligence, including transfer pump, detector, transfer line, drug concentration detector, high in the clouds server and programmable controller. When the liquid outlet of transfer line and medicine concentration detector all insert the patient when internal, real-time data transmission to the high in the clouds server that detector and medicine concentration detector will detect, high in the clouds server contrast real-time data and settlement data to liquid medicine output through programmable controller control transfer pump realizes long-range contactless intelligent infusion. Especially in the prevention and treatment process of the new crown epidemic situation, the in-vivo medicine concentration data and the transfusion feedback condition of a new crown patient are very important in the treatment process, so that the patient data are intelligently and remotely monitored and fed back to medical personnel to adjust the input medicine amount in real time, and the cross infection risk between the medical personnel and the new crown patient is reduced.

Description

Intelligent remote infusion pump control and monitoring system

Technical Field

The utility model relates to a medical infusion pump control system, in particular to long-range transfer pump control monitoring system of intelligence.

Background

At present, intravenous infusion is a common administration mode in clinical treatment of patients, and the intravenous infusion speed is different according to the property of the delivered medicine and the constitution of the patients. The expected treatment effect is difficult to achieve even if the infusion is too fast or too slow, and the nursing safety is affected. The common infusion apparatus widely applied to the bed mainly inputs liquid to a receptor by depending on the pressure of liquid level difference, the infusion speed is manually controlled by nursing staff, the infusion mode lacks the functions of blocking alarm, bubble alarm, liquid infusion completion alarm and the like, the external air is easily led into the infusion apparatus to pollute the liquid medicine, and the burden of clinical care is increased. Under the large background of prevention and treatment of new crown epidemic situation, the cross infection risk between medical care personnel and new crown patients is increased.

The traditional infusion pump control system generally adopts an integrated mode, intelligent interaction cannot be realized in the whole monitoring and detecting process, and the output parameters of the infusion pump cannot be adjusted in real time. In the prevention and treatment process of the new coronary epidemic situation, the in-vivo medicine concentration data and the transfusion feedback condition of a new coronary patient are very important in the treatment process, so that the realization of intelligently and remotely monitoring the data of the patient and feeding the data back to medical personnel is very important for adjusting the input medicine amount in real time, and meanwhile, the control of an infusion pump is also of certain practical significance.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an intelligence remote infusion pump control monitoring system, including transfer pump, detector, transfer line, drug concentration detector, high in the clouds server and programmable controller:

a liquid outlet of the infusion pump is communicated with a liquid inlet of the infusion tube through the detector, the detector comprises a flow sensor and a pressure sensor, and the flow sensor and the pressure sensor are respectively and electrically connected with the cloud server;

the programmable controller is electrically connected with the infusion pump and the cloud server respectively;

the drug concentration detector is used for detecting the drug concentration in the body of the patient and is electrically connected with the cloud server;

when the liquid outlet of transfer line and medicine concentration detector all insert the patient when internal, flow sensor, pressure sensor and medicine concentration detector transmit the real-time data that detect to the high in the clouds server, the high in the clouds server contrast real-time data and settlement data, and pass through programmable controller controls the liquid medicine output of transfer pump.

Preferably, the detector with the infusion pump integrated design, the detector include the detector body pressure sensor with flow sensor, pressure sensor with flow sensor is located respectively the both sides of detector body, the liquid delivery outlet of infusion pump passes through the detector body with the inlet intercommunication of transfer line, pressure sensor stretches into in the inlet of transfer line, flow sensor stretches into the liquid delivery outlet of infusion pump.

Preferably, the system further comprises a monitoring center, wherein the monitoring center is electrically connected with the cloud server.

Preferably, the system further comprises an expert system, and the expert system is electrically connected with the cloud server.

Preferably, the cloud server further comprises a handheld device, and the handheld device is electrically connected with the cloud server.

Preferably, the system further comprises an alarm system, and the alarm system is electrically connected with the cloud server.

Preferably, the cloud server further comprises a printing system, and the printing system is electrically connected with the cloud server.

Preferably, still include expert system, handheld device, alarm system and printing system, expert system, handheld device, alarm system respectively with the high in the clouds server is connected with the printing system electricity, connect respectively between expert system, handheld device and the alarm system electricity, can share patient's data.

Preferably, the important detection position of the drug concentration detector is the hand or/and the right chest of the patient.

Compared with the prior art, the utility model discloses there are following technological effect:

1. the utility model provides a long-range infusion pump control monitoring system of intelligence, when the liquid outlet of transfer line and drug concentration detector all insert the patient internal, real-time data transmission to high in the clouds server that detector and drug concentration detector will detect, high in the clouds server contrast real-time data and settlement data to liquid medicine output through programmable controller control transfer pump realizes long-range contactless intelligent infusion. Especially in the prevention and treatment process of the new crown epidemic situation, the in-vivo medicine concentration data and the transfusion feedback condition of a new crown patient are very important in the treatment process, so that the patient data are intelligently and remotely monitored and fed back to medical personnel to adjust the input medicine amount in real time, and the cross infection risk between the medical personnel and the new crown patient is reduced.

2. The utility model provides a long-range transfer pump control monitoring system of intelligence can upload high in the clouds server in real time with patient's infusion data, supplies medical personnel to monitor to and connect alarm system one-key alarm.

3. The utility model provides a long-range transfer pump control monitoring system of intelligence, high in the clouds server inserts expert system, handheld device, print system etc. can derive alarm log and concentration monitoring data a key, and convenient contrast is looked up.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts. In the drawings:

fig. 1 is a schematic structural diagram of an intelligent remote infusion pump control and monitoring system according to a preferred embodiment of the present invention;

fig. 2 is a schematic structural diagram of a cloud server according to an embodiment of the present invention;

fig. 3 is a schematic diagram of the location of the intensive monitoring of the concentration of a drug in a patient according to the preferred embodiment of the present invention.

Detailed Description

The present invention provides an intelligent remote infusion pump control and monitoring system, which will be described in detail with reference to fig. 1 to 3, and the present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, however, the present invention is not limited to the following embodiments, and those skilled in the art can modify and color the system without changing the spirit and content of the present invention.

Referring to fig. 1 to 3, an intelligent remote infusion pump control and monitoring system includes an infusion pump 1, a detector 2, an infusion tube 3, a drug concentration detector 5, a cloud server 6, a programmable controller 8, and a monitoring center 7:

a liquid outlet of the infusion pump 1 is communicated with a liquid inlet of the infusion tube 3 through the detector 2, and a liquid outlet of the infusion tube 3 is connected with the patient 4 and used for providing medicines for the patient 4;

the detector 2 comprises a detector body, a pressure sensor 201 and a flow sensor 202, the pressure sensor 201 and the flow sensor 202 are respectively positioned at two sides of the detector body, a liquid outlet of the infusion pump 1 is communicated with a liquid inlet of the infusion tube 3 through the detector body, and the pressure sensor 201 extends into the liquid inlet of the infusion tube 3 and is used for detecting the infusion pressure in the infusion tube 3; the flow sensor 202 extends into the liquid outlet of the infusion pump 1 and is used for detecting the output flow of the infusion pump 1. In this embodiment, the detector body is provided with a hole for communicating the liquid outlet of the infusion pump 1 with the liquid inlet of the infusion tube 3, and the output flow rate of the infusion pump 1 is the same as the output flow rate of the infusion tube 3, that is, the detector 2 is used for detecting the infusion pressure and the infusion flow rate of the infusion tube 3.

The programmable controller 8 is respectively electrically connected with the infusion pump 1 and the cloud server 6, the infusion pump 1 is controlled by the programmable controller 8, and the programmable controller 8 is controlled by the cloud server 6;

the flow sensor 202, the pressure sensor 201, the drug concentration detector 5 and the monitoring center 7 are respectively electrically connected with the cloud server 6, and the drug concentration detector 5 is used for detecting the drug concentration in the patient 4 in real time when being connected into the patient 4. The drug concentration detector 5 belongs to the prior art, and the utility model does not specifically limit this, in this embodiment, the drug concentration detector 5 is inserted into the body of the patient 4 by using a needle; in the present embodiment, referring to fig. 3, the detection position of the drug concentration detector 5 is preferably the left and right hands (402, 403) or/and the right chest 401 of the patient 4;

when the liquid outlet of transfer line 3 and medicine concentration detector 5 all insert patient 4 internal, flow sensor 202, pressure sensor 201 and medicine concentration detector 5 transmit the real-time data that detect to high in the clouds server 6, high in the clouds server 6 contrast real-time data and settlement data, and pass through programmable controller 8 controls the liquid medicine output of transfer pump 1.

In the embodiment, the detector 2 and the drug concentration detector 5 are used for coordinately detecting, and the detection object of the detector 22 is the drug delivery condition of the infusion tube 3, so that the problem that the infusion safety is affected by bubbles appearing in the infusion tube 3 due to problems of equipment connection, equipment performance and the like in the infusion process is prevented; the detection object of the drug concentration detector 5 is the drug concentration of the patient 4, so that the concentration of the drug in the body of the patient 4 is prevented from being problematic, for example, the drug is not introduced into the vein.

In the present embodiment, the detector 2 is integrated with the infusion pump 1, and can detect the output flow rate of the infusion pump 1 and the infusion pressure inside the infusion tube 3 simultaneously.

The flow sensor 202, the pressure sensor 201 and the drug concentration detector 5 respectively upload the obtained real-time data to the cloud server 6, and the system can be monitored in real time through the cloud server 6.

The monitoring center 7 and the cloud server 6 are shared synchronously, and can further monitor the data stored in the cloud server 6. The programmable controller 8 further adjusts and controls the output characteristics of the infusion pump 1 according to the response of the cloud server 6, so as to ensure the safety of the patient 4.

The cloud server 6 is also electrically connected to the expert system 8, the handheld device 9, the alarm system 10 or/and the printing system 11, respectively.

Preferably, the expert system 8, the handheld device 9 and the alarm system 10 are electrically connected with the cloud server 6 and the printing system 11, respectively, and the expert system 8, the handheld device 9 and the alarm system 10 are electrically connected with each other, so that the data of the patient 4 can be shared.

In this embodiment, the cloud server 6 can be accessed through the expert system 8 and the handheld device 9, and the data of the patient 4 can be shared between the expert system 8 and the handheld device 9.

The alarm system 10 can be triggered directly by the cloud server 6, and transmits alarm data to the expert system 8 and the handheld device 9.

The printing system 11 can print all the files of the cloud server 6 and export data such as an alarm log by one key.

This system can control the infusion speed of adjusting transfer pump 1, and then adjust the infusion flow of transfer pump 1, the internal drug concentration of real time monitoring patient 4, and upload data to high in the clouds server 6, supply medical personnel to pass through handheld device 9, expert system 8 etc. to inspect (i.e. medical personnel pass through handheld device 9, expert system 8 etc. can visit the condition of inspection patient 4 in real time), when detector 2 detects the pipe wall pressure of transfer line 3 or drug flow abnormal, or accessible alarm system 10 key when data such as drug concentration appear great deviation reports to the police, thereby guarantee the steady of transfer pump 1 work and patient 4's life safety.

The utility model discloses the theory of operation as follows:

the infusion pump 1 delivers the liquid medicine with the set concentration into the body of a patient 4 through an infusion tube 3:

the detector 2 (including pressure sensor 201 and flow sensor 202) installed at the liquid inlet of the infusion tube 3 monitors the tube wall pressure and the flow of the infusion tube 3 in real time and uploads the tube wall pressure and the flow to the cloud server 6, and the cloud server 6 compares the real-time data of the detector 2 with a set value, so that the working condition of the infusion pump 1 is adjusted through the programmable controller 8. If the detector 2 detects that the wall pressure and the medicine flow of the infusion tube 3 are at set values, the infusion pump 1 works normally; when the detector 2 detects an abnormality in the wall pressure or drug flow of the infusion tube 3, the infusion pump 1 is regulated by the programmable controller 8 so that the infusion pump 1 no longer continues with drug delivery and the alarm system 10 alarms.

The drug concentration detector 5 detects the drug concentration in the patient 4, and simultaneously uploads the obtained real-time data to the cloud server 6, the cloud server 6 compares the obtained drug concentration value in the patient 4 with a set value, and when the drug concentration in the patient 4 reaches a preset drug concentration, the infusion pump 1 is controlled by the programmable controller 8, so that the infusion pump 1 does not continue to deliver the drug any more; when the value of the drug concentration in the patient 4 is abnormal (e.g., the concentration of the drug in the body directly exceeds the preset concentration, or there is no change in the drug concentration over a long period of time, e.g., the drug does not enter a vein), the infusion pump 1 is controlled by the programmable controller 8 so that the infusion pump 1 does not continue with the delivery of the drug, and the alarm system 10 alarms.

Claims (9)

1. The utility model provides a long-range transfer pump control monitoring system of intelligence, its characterized in that, includes transfer pump, detector, transfer line, medicine concentration detector, high in the clouds server and programmable controller:

a liquid outlet of the infusion pump is communicated with a liquid inlet of the infusion tube through the detector, the detector comprises a flow sensor and a pressure sensor, and the flow sensor and the pressure sensor are respectively and electrically connected with the cloud server;

the programmable controller is electrically connected with the infusion pump and the cloud server respectively;

the drug concentration detector is used for detecting the drug concentration in the body of the patient and is electrically connected with the cloud server.

2. The intelligent remote infusion pump control and monitoring system according to claim 1, wherein the detector is integrated with the infusion pump, the detector comprises a detector body, the pressure sensor and the flow sensor are respectively located at two sides of the detector body, a liquid outlet of the infusion pump is communicated with a liquid inlet of the infusion tube through the detector body, the pressure sensor extends into the liquid inlet of the infusion tube, and the flow sensor extends into the liquid outlet of the infusion pump.

3. The intelligent remote infusion pump control and monitoring system according to claim 1, further comprising a monitoring center, wherein the monitoring center is electrically connected to the cloud server.

4. The intelligent remote infusion pump control and monitoring system according to claim 1, further comprising an expert system, wherein the expert system is electrically connected to the cloud server.

5. The intelligent remote infusion pump control and monitoring system according to claim 1, further comprising a handheld device, wherein the handheld device is electrically connected to the cloud server.

6. The intelligent remote infusion pump control and monitoring system according to claim 1, further comprising an alarm system, wherein the alarm system is electrically connected to the cloud server.

7. The intelligent remote infusion pump control and monitoring system according to claim 1, further comprising a printing system, wherein the printing system is electrically connected to the cloud server.

8. The intelligent remote infusion pump control and monitoring system according to claim 1, further comprising an expert system, a handheld device, an alarm system and a printing system, wherein the expert system, the handheld device and the alarm system are electrically connected with the cloud server and the printing system respectively, and the expert system, the handheld device and the alarm system are electrically connected with each other respectively, so that patient data can be shared.

9. The intelligent remote infusion pump control and monitoring system according to claim 1, wherein said drug concentration monitor is located primarily in the patient's hand or/and right chest.

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