CN112138238A - Infusion monitoring system and method based on NB-IOT and infusion equipment - Google Patents

Abstract

The invention relates to an infusion monitoring system and method based on NB-IOT and infusion equipment, comprising: an infusion device, a nursing terminal and a cloud platform; the infusion equipment is in communication connection with the nursing terminal, acquires infusion state information of the infusion equipment in real time and sends the infusion state information to the nursing terminal; the nursing terminal receives and processes the infusion state information, obtains and displays infusion state data of the infusion equipment, and sends the infusion state data to the cloud platform; the cloud platform is in communication connection with the nursing terminal, receives the infusion state data, processes and integrates the infusion state data, and displays the processed and integrated infusion state data. The invention can directly upload data to a nursing terminal or a cloud platform, has accurate data uploading and low power consumption, and has strong applicability to intelligent applications such as telemedicine and the like. In addition, data can be uploaded efficiently in real time, the real-time performance of medical care personnel in mastering the infusion state is improved, and the infusion safety is improved.

Description

Infusion monitoring system and method based on NB-IOT and infusion equipment

Technical Field

The invention relates to the technical field of medical interconnection, in particular to an infusion monitoring system and method based on NB-IOT and infusion equipment.

Background

With the rapid development of the internet of things, infusion equipment such as infusion pumps and the like can be completely in internet of things under the environment of internet of everything interconnection, remote medical treatment can be realized through the wireless network cable technology, the remote medical treatment is rapidly developed in the LTE era, but the remote medical treatment is limited by network characteristics, and the industry itself does not make essential breakthrough.

For example, data collected by technologies such as WI-FI and bluetooth are transmitted to a mobile phone of a user, so that big data is difficult to form, the data accuracy is low, and the power consumption is very high.

Disclosure of Invention

The invention aims to solve the technical problem of providing an infusion monitoring system and method based on NB-IOT and infusion equipment aiming at the defects in the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: constructing an NB-IOT based infusion monitoring system comprising: an infusion device, a care terminal, and a cloud platform;

the infusion equipment is in communication connection with the nursing terminal and is used for acquiring infusion state information of the infusion equipment in real time and sending the infusion state information to the nursing terminal;

the nursing terminal receives the infusion state information, processes the infusion state information, obtains and displays infusion state data of the infusion equipment, and sends the infusion state data to the cloud platform;

the cloud platform is in communication connection with the nursing terminal, receives the infusion state data, processes and integrates the infusion state data, and displays the processed and integrated infusion state data.

Preferably, the method further comprises the following steps: the infusion device comprises a plurality of infusion devices which are respectively arranged in each medical care area, and the nursing terminal comprises a nursing terminal which is respectively arranged in each medical care area.

Preferably, the infusion equipment and the nursing terminal realize data communication in an NB-IOT mode; the nursing terminal and the cloud platform realize data communication in an NB-IOT mode.

Preferably, the infusion device is in communication connection with the cloud platform to send the infusion state information to the cloud platform.

Preferably, the infusion device is in communication connection with the cloud platform by means of NB-IOT.

Preferably, the method further comprises the following steps: an intelligent terminal;

the intelligent terminal is in communication connection with the cloud platform and used for acquiring the processed and integrated infusion state data on the cloud platform.

The invention also provides an infusion device based on NB-IOT, comprising: the shell, set up the main control board in the shell, set up main control unit on the main control board, with the sensing unit that the main control unit is connected, with the human-computer interaction module that the main control unit is connected, with the communication module that the main control unit is connected.

Preferably, the communication module is an NB-IOT communication module.

Preferably, the sensing unit is a pressure sensor.

Preferably, the method further comprises the following steps: and the power supply management module is connected with the main control unit.

The invention also provides an infusion monitoring method based on NB-IOT, which comprises the following steps:

the infusion equipment collects infusion state information of the infusion equipment in real time and sends the infusion state information to the nursing terminal;

the nursing terminal receives the infusion state information, processes the infusion state information, obtains infusion state data of the infusion equipment, displays the infusion state data and sends the infusion state data to a cloud platform;

and the cloud platform receives the infusion state data, processes and integrates the infusion state data, and displays the processed and integrated infusion state data.

Preferably, the infusion device sends the infusion state information to the nursing terminal in an NB-IOT manner; and the nursing terminal sends the infusion state information to the cloud platform in an NB-IOT mode.

Preferably, the method further comprises the following steps:

the infusion equipment collects infusion state information of the infusion equipment in real time and sends the infusion state information to the cloud platform;

and the cloud platform receives the infusion state information, processes and integrates the infusion state information, and displays the processed and integrated infusion state data.

Preferably, the infusion device sends the infusion state information to the cloud platform in an NB-IOT manner.

Preferably, the method further comprises the following steps:

and the intelligent terminal accesses the cloud platform to acquire the processed and integrated infusion state data on the cloud platform.

The infusion monitoring system and method based on NB-IOT and the infusion equipment have the following beneficial effects: the method comprises the following steps: an infusion device, a nursing terminal and a cloud platform; the infusion equipment is in communication connection with the nursing terminal, acquires infusion state information of the infusion equipment in real time and sends the infusion state information to the nursing terminal; the nursing terminal receives and processes the infusion state information, obtains and displays infusion state data of the infusion equipment, and sends the infusion state data to the cloud platform; the cloud platform is in communication connection with the nursing terminal, receives the infusion state data, processes and integrates the infusion state data, and displays the processed and integrated infusion state data. The invention can directly upload data to a nursing terminal or a cloud platform, has accurate data uploading and low power consumption, and has strong applicability to intelligent applications such as telemedicine and the like. In addition, data can be uploaded efficiently in real time, the real-time performance of medical care personnel in mastering the infusion state is improved, and the infusion safety is improved.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic block diagram of an NB-IOT based infusion monitoring system according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an NB-IOT based infusion device according to an embodiment of the present invention;

FIG. 3 is a flowchart illustrating a first embodiment of an NB-IOT based infusion monitoring method according to an embodiment of the present invention;

FIG. 4 is a flowchart illustrating a second embodiment of an NB-IOT based infusion monitoring method according to an embodiment of the present invention;

FIG. 5 is a schematic view of the display of infusion status data processed and integrated by the cloud platform;

fig. 6 is a schematic view showing the infusion state data processed by the nursing terminal.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an NB-IOT based infusion monitoring system provided by the present invention.

As shown in FIG. 1, the NB-IOT based infusion monitoring system may include: an infusion device 10, a care terminal 20, and a cloud platform 30.

The infusion device 10 is in communication connection with the nursing terminal 20, and is configured to collect infusion state information of the infusion device in real time and send the infusion state information to the nursing terminal 20. The nursing terminal 20 receives and processes the infusion state information, obtains and displays infusion state data of the infusion device 10, and sends the infusion state data to the cloud platform 30. The cloud platform 30 is in communication connection with the nursing terminal 20, receives the infusion state data, processes and integrates the infusion state data, and displays the processed and integrated infusion state data. Optionally, the infusion device herein includes, but is not limited to, an infusion pump.

Further, as shown in fig. 1, the infusion monitoring system may further include: a plurality of different care areas, the infusion device 10 comprising a plurality of infusion devices 10 respectively disposed at each care area, the care terminal 20 comprising a care terminal 20 respectively disposed at each care area.

It should be noted that the medical care area may be different hospitals. Specifically, as shown in fig. 1, each hospital may be provided with a plurality of infusion apparatuses 10 and a nursing terminal 20 (the nursing terminal 20 may be a terminal of a nurse workstation), wherein the plurality of infusion apparatuses 10 of each hospital may be a plurality of infusion apparatuses 10 distributed in different areas of the hospital, such as different wards, different floors, different department and institution (e.g., obstetrical department, surgical department, medical department) and so on.

As shown in fig. 1, a plurality of infusion devices 10 of each hospital acquire their own infusion state information in real time, and send the acquired infusion state information to a nursing terminal 20 of the hospital, the nursing terminal 20 of the hospital processes the infusion state information transmitted by each infusion device 10 to obtain corresponding infusion state data, and the nursing terminal 20 displays the processed infusion state data, so that medical staff at the nursing terminal 20 can check and master real-time infusion conditions of different infusion devices 10 in each area of the hospital in time.

Wherein, the nursing terminal also displays the processed infusion state data in real time after processing the infusion state information, as shown in fig. 6. As shown in fig. 6, by visualizing the infusion state data, a medical staff (e.g. a nurse) can visually and quickly check the infusion state of the infusion device of each bed, such as the remaining amount of infusion medicine, the remaining infusion time, and the like.

Further, in some other embodiments, the infusion device 10 may also communicate directly with the cloud platform 30, and then transmit the infusion state information acquired by itself in real time to the cloud platform 30. Wherein the infusion device 10 is shown in fig. 1 as several infusion devices 10 per hospital. After receiving the infusion state information uploaded by the plurality of infusion devices 10 of each hospital, the cloud platform 30 processes and integrates the infusion state information uploaded by each infusion device 10 to obtain processed and integrated infusion state data, and meanwhile, the cloud platform 30 displays the processed and integrated infusion state data for inquiry and viewing. The processed and integrated infusion state data are displayed as shown in fig. 5, and referring to fig. 5, the processed and integrated infusion state data can enable a user to intuitively, quickly and timely know and master related information such as total equipment number, available equipment number, maintenance equipment data, total infusion amount, infusion medicine information, infusion amount and the like.

Optionally, in the embodiment of the present invention, the infusion device 10 and the care terminal 20 implement data communication in an NB-IOT manner; the nursing terminal 20 and the cloud platform 30 realize data communication in an NB-IOT mode. Data of the nursing terminal 20 is first sent to the NB-IOT base station, and then data transmission is completed between the NB-IOT base station and the cloud platform 30 through a TCP/IP protocol.

Further, in the embodiment of the present invention, the infusion device 10 and the cloud platform 30 are communicatively connected by way of NB-IOT. The data of the infusion device 10 is first sent to the NB-IOT base station, and then data transmission is completed between the NB-IOT base station and the cloud platform 30 through a TCP/IP protocol.

Further, in some other embodiments, the NB-IOT based infusion monitoring system further comprises: and an intelligent terminal 40. The intelligent terminal 40 is in communication connection with the cloud platform 30 and is used for acquiring the processed and integrated infusion state data on the cloud platform 30.

The intelligent terminal 40 includes but is not limited to a desktop computer, a notebook computer, a tablet computer, a mobile phone, and the like, and the intelligent terminal 40 can acquire the infusion state data processed and integrated by the cloud platform 30 by accessing the cloud platform 30, so that a user can conveniently check and acquire the infusion state data required to be known at any time. The users herein include, but are not limited to, doctors, nurses, patients, etc.

The invention utilizes NB-IOT technology, after NB-IOT connection, data can be directly uploaded to the cloud, data transmission is accurate, endurance time is ultra-long, and endurance which can not be charged in several years can be achieved generally. Further, the NB-IOT technology solves the problems of time delay, coverage and small connection capacity of data transmission, and has strong applicability to intelligent applications such as remote medical treatment and the like.

In addition, the infusion monitoring system based on NB-IOT realizes the intelligent regional networking of medical equipment, forms a complete data chain between the infusion equipment and people, improves the data acquisition efficiency of the infusion equipment, reduces the problem of data packet loss in the data transmission process, and provides a brand new visual angle for doctors and/or nurses: namely, the real-time transfusion condition of patients in the ward of the area where the patient belongs can be monitored at any place and any time.

Referring to fig. 2, fig. 2 is a schematic diagram of the NB-IOT based infusion device 10 of the present invention. The NB-IOT based infusion device 10 is applicable to the NB-IOT based infusion monitoring system disclosed in embodiments of the present invention.

As shown in FIG. 2, the NB-IOT based infusion device 10 may include: the device comprises a shell 11, a main control board 12 arranged in the shell 11, a main control unit 124 arranged on the main control board 12, a sensing unit 123 connected with the main control unit 124, a man-machine interaction module 121 connected with the main control unit 124, and a communication module 11 connected with the main control unit 124.

In the embodiment of the present invention, the main control board 12 may be a PCB board.

Further, in some embodiments, the human-computer interaction module 121 includes a display screen, which may be a touch display screen, including but not limited to an LED display screen, an LCD display, an OLED display screen, a flexible display screen, and the like. The human-computer interaction module 121 may be used for a user (medical staff) to perform an input device selection operation, and may also display relevant information of the infusion device 10 in real time, such as infusion state information of the infusion device 10, device information of the infusion device 10, and infusion drug information in real time. Meanwhile, early warning information display, error reminding display and the like can be carried out.

Further, in some embodiments, the main control unit 124 includes, but is not limited to, a Microprocessor (MCU), a single chip, an ARM embedded processor, and the like.

The main control unit 124 is configured to monitor and organize the usage and infusion state of the infusion device 10 in real time, send the infusion state information of the infusion device 10 to the nursing terminal 20 or the cloud platform 30 through the NB-IOT communication module, monitor the power supply of the infusion device 10, receive the selection setting operation information input by the user, process and determine the input selection device operation information, output corresponding error reminding information to the human-computer interaction module 121 when a setting error or a used device error occurs, and display the corresponding error reminding information through the human-computer interaction module 121.

Optionally, in some embodiments, the communication module 11 is an NB-IOT communication module. By means of the NB-IOT communication module, NB-IOT communication between the infusion device 10 and the care terminal 20 or between the infusion device 10 and the cloud platform 30 can be achieved.

The NB-IOT communication module is arranged, so that the infusion device 10 can carry out ultra-long distance signal transmission, and further, the infusion state information of a patient using the infusion device 10 provided with the NB-IOT communication module for infusion can be quickly transmitted to a designated medical worker in real time, so that the purpose that the medical worker can monitor the infusion state of the patient in real time at any time and any place is achieved, and the safety of the patient or the infusion of the patient is improved.

Optionally, in some embodiments, the sensing unit 123 is a pressure sensor.

Further, the NB-IOT based infusion device 10 further includes: a power management module 122 connected to a master control unit 124. The power management module 122 may implement power management of the infusion device 10, such as charging and discharging management, power monitoring, power pre-warning, and the like.

Referring to fig. 3, fig. 3 is a flowchart illustrating a NB-IOT based infusion monitoring method according to a first embodiment of the present invention. The infusion monitoring method based on the NB-IOT can be realized by the infusion monitoring system based on the NB-IOT disclosed by the embodiment of the invention.

As shown in fig. 3, the NB-IOT based infusion monitoring method includes:

step S301, the infusion device 10 collects infusion state information of itself in real time and sends the infusion state information to the nursing terminal 20.

Step S302, the nursing terminal 20 receives the infusion state information, processes the infusion state information, obtains the infusion state data of the infusion device 10, and displays and sends the infusion state data to the cloud platform 30.

Step S303, the cloud platform 30 receives the infusion state data, processes and integrates the infusion state data, and displays the processed and integrated infusion state data.

Optionally, in this embodiment, the infusion state information includes, but is not limited to, infusion speed, infusion volume, infusion total, infusion remaining amount, infusion in progress, injection in progress, offline, infusate name, infusate model, etc.

Further, as shown in fig. 3, the NB-IOT based infusion monitoring method may further include:

step S304, the intelligent terminal 40 accesses the cloud platform 30 to obtain the processed and integrated infusion state data on the cloud platform 30.

Optionally, in the embodiment of the present invention, the infusion device 10 sends the infusion state information to the care terminal 20 in an NB-IOT manner; the nursing terminal 20 sends the infusion state information to the cloud platform 30 in an NB-IOT manner.

Referring to fig. 4, fig. 4 is a flowchart illustrating a second NB-IOT based infusion monitoring method according to an embodiment of the present invention. The infusion monitoring method based on the NB-IOT can be realized by the infusion monitoring system based on the NB-IOT disclosed by the embodiment of the invention.

As shown in FIG. 4, the NB-IOT based infusion monitoring method may include:

step S401, the infusion device 10 collects infusion state information of itself in real time and sends the infusion state information to the cloud platform 30.

Optionally, in this embodiment, the infusion state information includes, but is not limited to, infusion speed, infusion volume, infusion total, infusion remaining amount, infusion in progress, injection in progress, offline, infusate name, infusate model, etc.

Step S402, the cloud platform 30 receives the infusion state information, processes and integrates the infusion state information, and displays the processed and integrated infusion state data.

Step S403, the intelligent terminal 40 accesses the cloud platform 30 to obtain the processed and integrated infusion state data on the cloud platform 30.

Optionally, in this embodiment, the infusion device 10 sends the infusion state information to the cloud platform 30 through NB-IOT.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims (15)

1. An NB-IOT based infusion monitoring system, comprising: an infusion device, a care terminal, and a cloud platform;

the infusion equipment is in communication connection with the nursing terminal and is used for acquiring infusion state information of the infusion equipment in real time and sending the infusion state information to the nursing terminal;

the nursing terminal receives the infusion state information, processes the infusion state information, obtains and displays infusion state data of the infusion equipment, and sends the infusion state data to the cloud platform;

the cloud platform is in communication connection with the nursing terminal, receives the infusion state data, processes and integrates the infusion state data, and displays the processed and integrated infusion state data.

2. The NB-IOT based infusion monitoring system according to claim 1, further comprising: the infusion device comprises a plurality of infusion devices which are respectively arranged in each medical care area, and the nursing terminal comprises a nursing terminal which is respectively arranged in each medical care area.

3. The NB-IOT based infusion monitoring system according to claim 1, wherein the infusion device and the care-point are in NB-IOT data communication; the nursing terminal and the cloud platform realize data communication in an NB-IOT mode.

4. The NB-IOT based infusion monitoring system according to claim 1, wherein the infusion device is communicatively coupled to the cloud platform to transmit the infusion status information to the cloud platform.

5. The NB-IOT based infusion monitoring system of claim 4, wherein the infusion device is communicatively coupled with the cloud platform by way of an NB-IOT.

6. The NB-IOT based infusion monitoring system according to claim 1, further comprising: an intelligent terminal;

the intelligent terminal is in communication connection with the cloud platform and used for acquiring the processed and integrated infusion state data on the cloud platform.

7. An NB-IOT based infusion device, comprising: the shell, set up the main control board in the shell, set up main control unit on the main control board, with the sensing unit that the main control unit is connected, with the human-computer interaction module that the main control unit is connected, with the communication module that the main control unit is connected.

8. The NB-IOT based infusion device of claim 7, wherein the communication module is an NB-IOT communication module.

9. The NB-IOT based infusion device according to claim 7, wherein the sensing unit is a pressure sensor.

10. The NB-IOT based infusion device according to claim 7, further comprising: and the power supply management module is connected with the main control unit.

11. An infusion monitoring method based on NB-IOT is characterized by comprising the following steps:

the infusion equipment collects infusion state information of the infusion equipment in real time and sends the infusion state information to the nursing terminal;

the nursing terminal receives the infusion state information, processes the infusion state information, obtains infusion state data of the infusion equipment, displays the infusion state data and sends the infusion state data to a cloud platform;

and the cloud platform receives the infusion state data, processes and integrates the infusion state data, and displays the processed and integrated infusion state data.

12. The NB-IOT based infusion monitoring method according to claim 11, wherein the infusion device sends the infusion status information to the care terminal by way of NB-IOT; and the nursing terminal sends the infusion state information to the cloud platform in an NB-IOT mode.

13. The NB-IOT based infusion monitoring method of claim 11, further comprising:

the infusion equipment collects infusion state information of the infusion equipment in real time and sends the infusion state information to the cloud platform;

and the cloud platform receives the infusion state information, processes and integrates the infusion state information, and displays the processed and integrated infusion state data.

14. The NB-IOT based infusion monitoring method of claim 13, wherein the infusion device sends the infusion status information to the cloud platform via NB-IOT.

15. The NB-IOT based infusion monitoring method according to claim 11 or 13, further comprising:

and the intelligent terminal accesses the cloud platform to acquire the processed and integrated infusion state data on the cloud platform.

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