CN113946247A - Graphical user interface generation method of infusion system, terminal device and storage medium - Google Patents

Abstract

The application discloses a method for generating a graphical user interface of an infusion system, a terminal device and a storage medium, wherein the method comprises the following steps: displaying a first information presentation area and a second information presentation area on a graphical user interface of the terminal equipment, wherein the first information presentation area displays a plurality of first text icons, each first text icon corresponds to one ward in a hospital, and each ward is provided with a plurality of infusion pumps; and responding to a first instruction, displaying the form in the second information presentation area, wherein each line in the form displays the operating parameters of one infusion pump in a first target ward, and the first instruction is generated according to the detected operation of the user on at least one first text icon, wherein the first target ward is the ward corresponding to the operated first text icon. By the method, medical care personnel can designate the specific infusion pump in the target ward and display the operating parameters of each infusion pump in the target ward.

Description

Graphical user interface generation method of infusion system, terminal device and storage medium

Technical Field

The present application relates to the technical field of medical devices, and in particular, to a method for generating a graphical user interface of an infusion system, a terminal device, and a storage medium.

Background

The infusion pump can automatic control infusion process, and the infusion pump includes: infusion pumps and syringe pumps. In clinical application, dozens of or even hundreds of infusion pumps in a large hospital operate simultaneously, each patient corresponds to one infusion pump, the infusion pumps are located in different department wards, and a plurality of medical staff are required to check the infusion state of the infusion pumps respectively and process infusion column alarm events of the infusion pumps in time.

The related technology can carry out remote parameter configuration on a plurality of infusion pumps through terminal equipment; and the working states of the plurality of infusion pumps can be monitored and displayed through the interface of the terminal equipment. However, the display mode in the related art is inconvenient for medical staff to specify the infusion pump at a specific position and display the working state of the specified infusion pump.

Disclosure of Invention

Based on the above, the application provides a method for generating a graphical user interface of an infusion system, a terminal device and a storage medium.

In a first aspect, the present application provides a method for generating a graphical user interface of an infusion system, where the method is applied to a terminal device, the infusion system includes the terminal device and a plurality of infusion pumps, and the terminal device is communicatively connected to the plurality of infusion pumps, and the method includes:

displaying a first information presentation area and a second information presentation area on a graphical user interface of the terminal equipment, wherein the first information presentation area displays a plurality of first text icons, each first text icon corresponds to one ward in a hospital, and each ward is provided with a plurality of infusion pumps;

and responding to a first instruction, displaying a form in the second information presentation area, wherein each line in the form displays the operating parameters of one infusion pump in a first target ward, and the first instruction is generated according to the detected operation of the user on at least one first text icon, wherein the first target ward is the ward corresponding to the operated first text icon.

In a second aspect, the present application provides a terminal device comprising communication circuitry for communicating with the plurality of infusion pumps, a memory for storing a computer program, and a processor; the processor is adapted to execute the computer program and, when executing the computer program, to implement the method of generating a graphical user interface for an infusion system as described above.

In a third aspect, the present application provides a computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to carry out the method of generating a graphical user interface for an infusion system as described above.

The embodiment of the application provides a method for generating a graphical user interface of an infusion system, a terminal device and a storage medium, wherein a first information presentation area and a second information presentation area are displayed on the graphical user interface of the terminal device, the first information presentation area displays a plurality of first text icons, each first text icon corresponds to one ward in a hospital, and each ward is provided with a plurality of infusion pumps; and responding to a first instruction, displaying a form in the second information presentation area, wherein each line in the form displays the operating parameters of one infusion pump in a first target ward, and the first instruction is generated according to the detected operation of the user on at least one first text icon, wherein the first target ward is the ward corresponding to the operated first text icon. Because two information presentation areas are displayed on the graphical user interface, one area displays a plurality of first text icons corresponding to the wards, when the user operates the first text icons, namely the user selects the target ward, the operating parameters of each infusion pump in the target ward are displayed in the other area. Therefore, medical staff can designate specific infusion pumps in the target ward and display the operating parameters of each infusion pump in the target ward.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

FIG. 1 is a schematic flow chart diagram of an embodiment of a method for generating a graphical user interface for an infusion system of the present application;

FIG. 2 is a schematic diagram of the overall configuration of an infusion pump in an embodiment of the method for generating a graphical user interface for an infusion system of the present application;

FIG. 3 is a schematic diagram of the overall configuration of a syringe pump in an embodiment of the method for generating a graphical user interface for an infusion system of the present application;

FIG. 4 is a schematic diagram of the overall configuration of an infusion system in an embodiment of a method for generating a graphical user interface for an infusion system according to the present application;

FIG. 5 is a schematic diagram illustrating a display of room numbers of a plurality of patient rooms on a graphical user interface in an embodiment of a method for generating a graphical user interface for an infusion system of the present application;

FIG. 6 is a schematic diagram of a display showing selection of a target infusion pump on a graphical user interface in an embodiment of a method for generating a graphical user interface for an infusion system of the present application;

FIG. 7 is a schematic diagram illustrating a display of a visual text box on a graphical user interface in an embodiment of a method for generating a graphical user interface of an infusion system according to the present application;

FIG. 8 is a schematic diagram illustrating a display of a patient management mode on a graphical user interface in an embodiment of a method for generating a graphical user interface for an infusion system of the present application;

FIG. 9 is a schematic diagram of a form display on a graphical user interface in an embodiment of a method for generating a graphical user interface for an infusion system of the present application;

FIG. 10 is a schematic diagram illustrating the display of patient medical record information and operating parameters of an infusion pump on a graphical user interface in an embodiment of a method for generating a graphical user interface for an infusion system of the present application;

FIG. 11 is a schematic diagram of a display of a graphical user interface of an infusion system according to an embodiment of a method for generating a graphical user interface of an infusion system of the present application;

FIG. 12 is a schematic diagram illustrating a display of a warning prompt on a graphical user interface in an embodiment of a method for generating a graphical user interface for an infusion system of the present application;

FIG. 13 is a schematic diagram illustrating a display of a list of information on a graphical user interface in an embodiment of a method for generating a graphical user interface for an infusion system of the present application;

FIG. 14 is a schematic diagram of a communication configuration on a communication interface in an embodiment of a method for generating a graphical user interface for an infusion system of the present application;

FIG. 15 is a schematic diagram of a communication interface displaying a successful status of wireless communication in an embodiment of a method for generating a graphical user interface for an infusion system of the present application;

fig. 16 is a schematic structural diagram of an embodiment of a terminal device according to the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The flow diagrams depicted in the figures are merely illustrative and do not necessarily include all of the elements and operations/steps, nor do they necessarily have to be performed in the order depicted. For example, some operations/steps may be decomposed, combined or partially combined, so that the actual execution sequence may be changed according to the actual situation.

Referring to fig. 1, fig. 1 is a schematic flow chart of an embodiment of a method for generating a graphical user interface of an infusion system according to the present application. The method is suitable for the terminal equipment, the infusion system comprises a plurality of infusion pumps, and the terminal equipment is in communication connection with the plurality of infusion pumps.

It should be noted that "infusion" in this embodiment includes: both infusion and injection, the infusion pump comprising an infusion pump (as shown in fig. 2) and a syringe pump (as shown in fig. 3), and thus the infusion system in this embodiment comprises an infusion system and an injection system.

Referring to fig. 4, the infusion system includes: the terminal equipment and many infusion pumps, terminal equipment with many infusion pump communication connection. The terminal device may be configured to receive operating parameters for each infusion pump output. The terminal device can be an electronic device such as a mobile phone, a desktop computer or a tablet computer.

Wherein, one-way communication can be realized between terminal equipment and many transfer pumps, that is to say: the terminal device can receive data sent by the infusion pump, the terminal device cannot transmit the data to the infusion pump, and the terminal device cannot control the infusion state of the infusion pump, because the infusion pump is used as a medical device, the medical device is different from a mobile phone, an air conditioner and the like, the safety of the medical device is higher, and in order to ensure the safety, the user needs to manually control the infusion state of each infusion pump, and the remote control cannot be performed in a remote communication mode. Therefore, in an embodiment of the present application, there is "one-way communication" between the terminal device and the infusion pumps, that is, the terminal device belongs to the data receiving end, each infusion pump belongs to the data sending end, and the user checks the infusion state of each infusion pump through the terminal device.

The one-way communication mode between the infusion pump and the terminal device can be as follows: WiFi or ZigBee.

Wherein the operating parameters of the infusion pump output include: the number of the infusion pump, the date of manufacture of the infusion pump, the name of the medication used by the infusion pump, the remaining fluid infusion time of the infusion pump, the time the fluid of the infusion pump has been infused, the fluid flow rate of the infusion pump, the fluid pressure detected by the infusion pump, the total volume of fluid infused by the infusion pump, the preset volume of fluid infused by the infusion pump, the remaining volume of fluid infused by the infusion pump, and the like.

The method for generating the graphical user interface of the infusion system comprises the following steps: step S101 and step S102.

Step S101: displaying a first information presentation area and a second information presentation area on a graphical user interface of the terminal device, wherein the first information presentation area displays a plurality of first text icons, each first text icon corresponds to one ward in a hospital, and each ward is provided with a plurality of infusion pumps.

Specifically, referring to fig. 5, a plurality of first text icons are displayed in the first information presenting area: "room 1", "room 2", …, and each patient room has multiple infusion pumps disposed therein, the first information presentation area may display the number of patient rooms in the hospital where the infusion pumps are used.

In step S101, displaying the first information presentation area and the second information presentation area on the graphical user interface of the terminal device may be: and responding to an eighth instruction, and displaying the first information presentation area and the second information presentation area on a graphical user interface of the terminal equipment.

Wherein the eighth instruction may be generated according to a detected operation of the user for a second tag displayed on the graphical user interface of the terminal device.

Specifically, a second label may be displayed on a graphical user interface of the terminal device; wherein the second tab corresponds to a run display mode. When the user operates the second tag, the terminal device generates an eighth instruction after detecting that the user operates the second tag, and the infusion system is considered to enter the operation display mode, so that the graphical user interface is divided into: the first information presentation area and the second information presentation area are used for displaying corresponding information respectively.

Step S102: and responding to a first instruction, displaying a form in the second information presentation area, wherein each line in the form displays the operating parameters of one infusion pump in a first target ward, and the first instruction is generated according to the detected operation of the user on at least one first text icon, wherein the first target ward is the ward corresponding to the operated first text icon.

The user may select one or more first text icons within the first information presentation area to treat the patient room corresponding to the selected first text icon as a first target patient room, so that the user may view the operating state of the infusion pump within the patient room. Illustratively, in fig. 5, the "1 room" icon and the "2 room" icon (i.e., two icons hatched in the figure) are selected by the first instruction input by the user, and the patient room corresponding to the 1 room and the patient room corresponding to the 2 room are taken as the first target patient room.

Displaying a form in the second information presentation area, wherein each row in the form displays operating parameters of an infusion pump in a first target patient room. Wherein the displayed operating parameters of the infusion pump include: operating parameters of the infusion pump in an operating state and operating parameters of the infusion pump in a stopped state; when the infusion pump is in a stopped state, the fluid flow rate of the infusion pump is 0.

The first instruction input by the user selects a first target ward, and the operating parameters of all infusion pumps in the first target ward are displayed in a form in the second information presentation area so as to monitor the operating states of all infusion pumps in the first target ward. As shown in fig. 5, with "room 1" and "room 2" as the first target ward, the following information will be presented in the second information presentation area: the operating parameters for each infusion pump in "room 1" and the operating parameters for each infusion pump in "room 2". In this way, the user can select and view the operating parameters of the infusion pump in any ward according to actual requirements.

In an embodiment, the method further comprises: step S103.

Step S103: and responding to the first instruction, displaying a plurality of second text icons in the first information presenting area, wherein each second text icon corresponds to the sickbed number of the infusion pump in the first target ward.

When the user operates the first text icon, the first information presenting area can be further controlled to display a plurality of second text icons, wherein each second text icon corresponds to the number of a sickbed to which one infusion pump in the first target ward belongs.

In this embodiment, one infusion pump and one hospital bed number are in a one-to-one correspondence.

Specifically, after it is detected that the user triggers at least one first text icon to generate a first instruction, the first information presenting area is controlled to display a plurality of second text icons so as to display the number of a sickbed to which each infusion pump in the first target ward belongs. Illustratively, as shown in fig. 6, if the user selects "room 1" and "room 2" as the first target ward, where "room 1" includes: 9 infusion pumps, respectively: no. 1 (corresponding to No. 1 hospital bed), No. 2 (corresponding to No. 2 hospital bed), …; the "2 rooms" include: 6 infusion pumps, respectively: no. 10 (corresponding to No. 10 bed), No. 11 (corresponding to No. 11 bed), …; therefore, in fig. 6, the first information presenting area displays 15 second text icons, each second text icon corresponds to one infusion pump in the first target ward, and the first information presenting area displays the bed numbers of all infusion pumps in the first target ward.

In an embodiment, the method further comprises: and step S104.

Step S104: and displaying at least one graphic frame on a graphic user interface of the terminal equipment in response to a second instruction, wherein each graphic frame displays the operating parameters of a target infusion pump in a graphic-text combination mode, the second instruction is generated according to the detected operation of the user on at least one second text icon, and the target infusion pump is the infusion pump corresponding to the operated second text icon.

Specifically, please refer to fig. 6, each second text icon corresponds to one infusion pump in the first target ward, when the user needs to check the operating state of one or more infusion pumps in the first target ward, the user may operate the corresponding second text icon, and after detecting that the user operates the second text icon, the corresponding infusion pump is used as the target infusion pump to generate a second instruction; where the target infusion pump is the infusion pump that the user desires to view.

In response to the second command, the graphical user interface is then controlled to display at least one graphical box, each of which graphically displays operating parameters of a target infusion pump. The graphic boxes can be referred to as "visual text boxes" in fig. 7, and each graphic box correspondingly displays the operating parameters of one target infusion pump; when the user selects one or more target infusion pumps, the corresponding graphical frames can be sequentially arranged on the graphical user interface, and the user can simultaneously check the actual operating states of the one or more target infusion pumps, so that the operating safety of the target infusion pumps is guaranteed.

In an embodiment, in step S103, the displaying a plurality of second text icons in the first information presentation area may further include: displaying a plurality of second text icons in the first information presentation area, wherein the second text icons comprise an operable activated state second text icon and a non-operable deactivated state second text icon, the infusion pump corresponding to the activated state second text icon is in an operating state, and the infusion pump corresponding to the deactivated state second text icon is in a stopping state.

It may be detected whether each infusion pump in the first target patient room is in operation. Specifically, when the infusion pump delivers the liquid to the patient, the infusion pump is in a running state; when the infusion pump is not delivering fluid to the patient, the infusion pump is in a stopped state. It should be noted that whether the infusion pump is in an operating state or a stopped state, the infusion pump sends the operating parameters to the terminal device. Therefore, in this embodiment, the operating parameters are not transmitted to the terminal device only by the operating infusion pump, but the operating parameters are transmitted by the stopped infusion pump.

If the infusion pump is detected to be in the running state, displaying a second text icon corresponding to the infusion pump as an operable activation state; and if the infusion pump is detected to be in a stop state, displaying a second text icon corresponding to the infusion pump as an inoperable disable state.

At this time, in step S104, the second instruction is generated according to the detected operation of the user on the at least one activated second text icon, and the target infusion pump is the infusion pump corresponding to the operated activated second text icon.

And when the infusion pump is in the running state, the infusion pump is in the liquid delivery state, the running parameters of the infusion pump have actual physical meanings, the second text icon corresponding to the infusion pump is displayed in the activated state, the user can trigger the second text icon belonging to the activated state, and the target infusion pump selected by the user is in the running state certainly. The infusion pump is in a stop state, the operation parameters of the infusion pump do not have any actual physical meanings, the user does not need to know the operation parameters of the infusion pump in the stop state, the second text icon corresponding to the infusion pump in the stop state is displayed in a forbidden state, and the user cannot trigger the second text icon in the forbidden state.

For example, referring to fig. 6, the "room 1" and "room 2" in the hospital are both: a first target ward, in which, in the "room 1", the infusion pumps No. 2, No. 4, No. 5, and No. 8 are all in an operating state, and in the "room 2", the infusion pumps No. 12, No. 13, and No. 15 are all in an operating state, then the second text icons corresponding to the infusion pumps No. 2, No. 4, No. 5, No. 8, No. 12, No. 13, and No. 15 are displayed in an activated state (the icons in fig. 6 are hatched by oblique lines), and the second text icons corresponding to the infusion pumps No. 1, No. 3, No. 6, No. 7, No. 9, No. 10, No. 11, and No. 14 are displayed in a deactivated state (the icons in fig. 6 are displayed by white); the user can only select those second text icons that are in the active state and cannot select those second text icons that are in the inactive state. Then in step S104, the graphical frame on the gui only displays the operating parameters of the operating infusion pump in a text-text combination manner, so that the content displayed on the gui has a higher reference value and does not display too much disturbance.

Besides the above display mode, the display mode may be displayed in other modes on the graphical user interface according to the needs of the user, which is specifically described as follows.

In an embodiment, the method further comprises: step S105.

Step S105: and responding to a third instruction, displaying a plurality of information items on a graphical user interface of the terminal equipment, wherein each information item displays the medical record information of a corresponding patient.

The third instruction can be generated according to the detected operation of the user on the first label displayed on the graphical user interface of the terminal equipment.

Specifically, a first tag may be displayed on a graphical user interface of the terminal device, or a first tag and a second tag may be displayed on the graphical user interface of the terminal device; wherein the first tab corresponds to a patient management mode and the second tab corresponds to an operational display mode.

Specifically, please refer to fig. 8 and 9, wherein fig. 8 corresponds to a patient management mode and fig. 9 corresponds to an operation display mode; in the patient management mode, the physiological and medical record status of each patient can be monitored (as shown in fig. 8); in the operation display mode, the operation status of each infusion pump can be monitored (as shown in fig. 9); the user may thus choose to trigger either the first tab or the second tab to place the infusion system in a patient management mode or a run display mode.

And if the condition that the user triggers the first label is detected, displaying a plurality of information areas on a graphical user interface of the terminal equipment, wherein each information area displays the medical record information of a corresponding patient.

When the user triggers the first tag, the fact that the user needs to check the medical record information of the patient is indicated, and the infusion system enters a patient management mode, so that medical staff can check the medical record information of the patient in real time. Wherein the medical record information of the patient includes: name, age, signs of symptoms, time of admission, time of discharge, attending physician, department, bed number, hospital number, etc. For example, referring to fig. 8, fig. 8 shows medical record information of a plurality of patients in the form of a table, wherein one row in the table is used for displaying medical record information of a corresponding patient. It should be noted that, the graphical user interface in fig. 8 displays medical record information of multiple patients in a form only as an example, in addition, the graphical user interface may also display medical record information of multiple patients in a form of combining pictures and texts, for example, if it is detected that the user triggers the first tag, multiple visual text boxes are displayed on the graphical user interface of the terminal device, where each visual text box displays medical record information of a corresponding patient, and the graphical user interface displays medical record information of multiple patients in a form of combining pictures and texts ("a specific implementation of a form of combining pictures and texts" may be referred to in fig. 7, and will not be described repeatedly here).

In an embodiment, the method may further include: step S106, step S107, and step S108.

Step S106: search terms are extracted from medical record information of a plurality of patients.

Specifically, as shown in fig. 8, the data attributes of the medical record information of the patient include: bed number, hospital number, name, sex, age, time of admission, etc.; one or more of the data attributes are selected as search terms, the identity of each patient can be identified according to the search terms, and then medical record information of a certain patient is found, so that the function of accurately searching is realized.

Step S107: and controlling a graphical user interface of the terminal equipment to display a search text box according to the search term, wherein the search term and characters in the search text box have the same attribute.

Step S108: and searching in the medical record information of a plurality of patients according to the target characters input by the user in the search text box to find the medical record information of the patient matched with the target characters, and displaying on the graphical user interface.

Specifically, after the search term is extracted in step S106, the user may input a target character in the search text box, and search medical record information of a plurality of patients by using the input target character as the search term, so as to find medical record information of the patient that is required by the user. For example, referring to fig. 8, if the bed number of the patient is used as a search term, a search text box is displayed on the graphical user interface, and the user can input a target bed number (i.e., a target character) in the search text box, then perform a search according to the target bed number to obtain medical record information of the patient matching the target bed number, and display the medical record information of the patient on the graphical user interface; for example, if the user wants to search the medical record information of the patient with the bed number of 30, the user inputs "30" in the search text box, and clicks the "search" button, the medical record information of the patient with the bed number of 30 can be quickly searched, so that the user can conveniently check the medical record information, and the operation is very convenient.

In an embodiment, the method further comprises: step S109.

Step S109: and responding to a fourth instruction, displaying a left view area and a right view area on a graphical user interface of the terminal equipment, wherein the left view area displays a plurality of information items, each information item displays medical record information of a corresponding patient, the right view area displays a plurality of information items, and each information item displays the operating parameter of a corresponding infusion pump.

After a fourth instruction input by a user is received, dividing a graphical user interface of the terminal device into a left view area and a right view area, wherein a plurality of information items are displayed on the left view area, and each information item displays medical record information of a corresponding patient; displaying a plurality of information items on the right view area, wherein each information item displays operating parameters of a corresponding infusion pump.

Fig. 8 corresponds to a patient management mode, fig. 9 corresponds to an operation display mode, in fig. 8, the graphical user interface displays medical record information of a plurality of patients in a full screen mode, in fig. 9, the graphical user interface displays operation parameters of a plurality of infusion pumps in a full screen mode, and a user can only see the medical record information of the patients or the operation parameters of the infusion pumps through the graphical user interface. In this embodiment, the graphical user interface is divided into two parts (as shown in fig. 10), the left view area displays medical record information of a patient, the right view area displays operating parameters of the infusion pump, and the graphical user interface can monitor physiological status of the patient and operating status of the infusion pump at the same time, so that the content displayed on the graphical user interface is more comprehensive and the coverage is wider.

It should be noted that, in fig. 10, in the left view area and the right view area of the graphical user interface, the information items present the medical record information of the patient and the operation parameters of the infusion pump in a form of a table, similar to the form of the graph and text combination in fig. 7, the information items can also be presented in a form of a visual text box, and reference can be made to the embodiment of fig. 7, and the description is not repeated here.

In an embodiment, the method further comprises: step S110.

Step S110: and responding to a fifth instruction, displaying a form on a graphical user interface of the terminal equipment, wherein each line in the form displays the operating parameters of a corresponding infusion pump.

And after receiving a fifth instruction input by the user, displaying a form on a graphical user interface of the terminal equipment, wherein each line in the form displays the operating parameters of a corresponding infusion pump. For example: the form display button may be displayed on a graphical user interface of the terminal device, the fifth instruction may be generated according to a detected operation of the user on the form display button, when the user triggers the form display button, that is, the fifth instruction is received by the terminal device, the form is displayed on the graphical user interface of the terminal device in response to the fifth instruction, and the operation parameter of the corresponding infusion pump is displayed on each line in the form.

Referring to fig. 9, the operating parameters of the plurality of infusion pumps are displayed in a form of a table, and the operating parameters of the plurality of infusion pumps are sequentially displayed in the table so that the user can directly see the actual operating status of each infusion pump.

In an embodiment, the method further comprises: step S111.

Step S111: and responding to a sixth instruction, displaying a plurality of visual text boxes on a graphical user interface of the terminal equipment, wherein each visual text box displays the operating parameters of a corresponding infusion pump.

Upon receiving a sixth instruction input by the user, displaying a plurality of visual text boxes on the graphical user interface, wherein each of the visual text boxes displays operating parameters of a corresponding one of the infusion pumps. For example: the method includes the steps that a graphical display button can be displayed on a graphical user interface of the terminal device, a sixth instruction can be generated according to detected operation of a user on the graphical display button, when the user triggers the graphical display button, namely the terminal device receives the sixth instruction input by the user, a plurality of visual text boxes are displayed on the graphical user interface of the terminal device in response to the sixth instruction, and each visual text box displays the operating parameters of a corresponding infusion pump.

Referring to FIG. 7, each of the visual text boxes is capable of presenting the operating parameters of each infusion pump in a text-by-text manner so that a user can visually monitor the actual operating status of each infusion pump; the visual text boxes are sequentially arranged and displayed on the graphical user interface, and a user can simultaneously monitor the operating parameters of the infusion pumps.

In an embodiment, the method further comprises: step S112.

Step S112: and responding to a seventh instruction, displaying a left view area and a right view area on a graphical user interface of the terminal equipment, wherein the left view area displays a plurality of visual text boxes, each visual text box displays the operating parameters of a corresponding infusion pump, and the right view area displays a form, and each line in the form displays the operating parameters of a corresponding infusion pump.

After a seventh instruction input by a user is received, dividing the graphical user interface into a left view area and a right view area; wherein a plurality of visual text boxes are displayed on the left view area, each of the visual text boxes displaying operating parameters of a corresponding one of the infusion pumps; displaying a table in the right view area, wherein each row in the table displays operating parameters of a corresponding one of the infusion pumps.

Both fig. 9 and fig. 7 are displayed in a full screen manner, in a form or in a combined form, and a user can only read the form or the combined form; in the embodiment, the graphical user interface is divided into two (as shown in fig. 11), and then the user can view the visual text box and the form to meet the diversified viewing requirements of the user.

In an embodiment, the method further comprises: step S113.

Step S113: and displaying a graphic display button and a form display button on the graphic user interface.

Specifically, please refer to fig. 9 and 7, wherein the operating parameters of the plurality of infusion pumps are shown in a form in fig. 9, and the operating parameters of the plurality of infusion pumps are shown in a graph-text combination manner in fig. 7; for example, referring to fig. 9 and 7, the gui displays a graphic display button and a form display button, wherein the graphic display button corresponds to the graphics-text combination mode one to one, and the form display button corresponds to the form one to one; the user may then trigger the graphical display button and the form display button to change the operating parameter display format on the graphical user interface.

And when the user triggers the form display button, displaying a form on the graphical user interface, wherein each line in the form displays the operating parameters of a corresponding infusion pump.

When the user triggers the graphical display button, a plurality of visual text boxes are displayed on the graphical user interface, wherein each of the visual text boxes displays operating parameters of a corresponding one of the infusion pumps.

When the user needs to display the operating parameters of the plurality of infusion pumps in the form of a list, the user can trigger a list display button to enable a graphical user interface of the terminal device to present the operating parameters of the plurality of infusion pumps in the form of a list (as shown in fig. 9); when the user needs to display the operating parameters of the plurality of infusion pumps in a combined form, the user can trigger the graphical display button to enable the graphical user interface of the terminal device to present the operating parameters of the plurality of infusion pumps in a combined form (as shown in fig. 7).

The terminal equipment can display in a mode of meeting user requirements on a graphical user interface, can display the emergency degree priority of the current infusion alarm event of the infusion pump in time when the current infusion alarm event of the infusion pump is detected, can provide technical support for medical personnel to process the corresponding alarm events according to the emergency degree priority of the alarm events and the sequence, and can clearly distinguish the alarm event with high emergency degree priority from the alarm event with low emergency degree priority; therefore, the infusion safety of each patient can be ensured, and the humanization and infusion safety level are higher. Namely, the method further comprises: step S114.

Step S114: responding to a detected current infusion alarm event of the infusion pump, and displaying an alarm display mode corresponding to the current infusion alarm event in a relevant area of the graphical user interface according to a preset corresponding relation, wherein the corresponding alarm display mode can display the urgency priority of the current infusion alarm event of the infusion pump, and the preset corresponding relation comprises the corresponding relation among the preset infusion alarm event, the preset urgency priority and the preset alarm display mode.

In this embodiment, a preset corresponding relationship, that is, a corresponding relationship among a preset infusion alarm event, a preset urgency priority, and a preset alarm display mode, is preset according to an alarm classification method, where an infusion alarm event at each stage corresponds to an alarm display mode. Therefore, according to the current infusion alarm event of the infusion pump, the urgency priority of the current infusion alarm event can be determined, and the corresponding alarm display mode is determined according to the urgency priority.

The terminal equipment receives operation parameters sent by the infusion pumps, and detects whether each infusion pump triggers a current infusion alarm event or not according to the operation parameters. If the fact that one or more infusion pumps trigger the current infusion alarm event is detected, determining corresponding urgency priority and a corresponding alarm display mode for the current infusion alarm event of the one or more infusion pumps according to a preset corresponding relation, then controlling a relevant area of a graphical user interface to display in the alarm display mode corresponding to the current infusion alarm event, and displaying the urgency priority of the current infusion alarm event of the infusion pumps in the alarm display mode.

Wherein the infusion alert event comprises: insufficient residual infusion time of the infusion pump, liquid blockage in the infusion tube detected by the infusion pump, falling of the infusion tube from the infusion pump, lack of close adhesion between the syringe and the injection pump and the like.

Specifically, it can be determined whether the infusion pump triggers an infusion alarm event according to the operating parameters of the infusion pump, for example, when the remaining infusion time of the infusion pump is less than 1 minute, the infusion alarm event needs to be triggered; for example, if the infusion rate of the infusion pump is determined to be too fast based on the fluid flow rate of the infusion pump, an infusion alarm event may need to be triggered.

When the infusion pump triggers the current infusion alarm event, it indicates that the infusion pump needs to be brought to the attention of the medical personnel who also needs to timely handle the infusion pump that triggered the current infusion alarm event. And for each stage of infusion alarm events, warning is sent out according to a preset alarm display mode. Generally, the higher the urgency priority of an infusion alarm event, the more conspicuous the alert will be to remind the medical personnel to deal with those infusion alarm events with high urgency priority in time; therefore, each level of infusion alarm events corresponds to one alarm display mode, any two alarm display modes are different, once medical staff see the alarm display modes, the priority of the corresponding infusion alarm events can be distinguished easily, and the medical staff can know which infusion alarm events are dangerous and need to be processed immediately and which infusion alarm events are not urgent and do not need to be processed immediately. Thus, the control safety of the infusion pump can be guaranteed.

In the above embodiment, the types of the priority levels of the emergency degrees can be classified for the infusion alarm events of a plurality of infusion pumps, and since the alarm display modes corresponding to the infusion alarm events of each level are different, the alarms sent out according to the alarm display modes are different, the emergency degree of each infusion pump can be easily distinguished according to the alarms, so that the infusion alarm events with higher emergency degree can be processed as soon as possible by medical staff.

Wherein the relevant area comprises at least one of: a region on the graphical user interface that displays operating parameters of the infusion pump; a region on the graphical user interface that displays medical record information for a patient corresponding to the infusion pump; displaying an area of the patient room corresponding to the infusion pump on the graphical user interface; displaying a region of a hospital bed number corresponding to the infusion pump on the graphical user interface; an area displayed on the graphical user interface is superimposed.

The corresponding relationship among the infusion pump, the patient corresponding to the infusion pump, the ward where the infusion pump is located and the sickbed corresponding to the infusion pump can be pre-established. In response to a detected current infusion alarm event of the infusion pump, if the operating parameters of the infusion pump are displayed on a current graphical user interface, displaying the area, in which the operating parameters of the infusion pump are displayed, on the current graphical user interface in a corresponding alarm display mode; if the medical record information of the patient corresponding to the infusion pump is displayed on the current graphical user interface, displaying the area, which can display the medical record information of the patient corresponding to the infusion pump, of the current graphical user interface in a corresponding alarm display mode; if the ward corresponding to the infusion pump is displayed on the current graphical user interface, displaying the area of the ward corresponding to the infusion pump on the graphical user interface in a corresponding alarm display mode; if the patient bed number corresponding to the infusion pump is displayed on the current graphical user interface, the area of the patient bed number corresponding to the infusion pump can be displayed on the graphical user interface in a corresponding alarm display mode; or displaying in a corresponding alarm display mode in an area superposed and displayed on the graphical user interface; if the operation parameters of the infusion pump and the corresponding medical record information of the patient are displayed on the current graphical user interface, the region for displaying the operation parameters of the infusion pump and the region for displaying the medical record information of the patient can be displayed on the current graphical user interface in a corresponding alarm display mode; and so on.

By the aid of the method, no matter what content is currently displayed on the graphical user interface of the terminal device, as long as the detected current infusion alarm event of the infusion pump is detected, the detected current infusion alarm event of the infusion pump can be responded quickly, the priority of the emergency degree of the current infusion alarm event of the infusion pump is displayed in time, and technical support can be provided for medical staff to process the corresponding alarm events according to the priority of the emergency degree of the alarm event in sequence.

The alarm display mode will be described in detail below.

In an embodiment, if the operating parameters of the infusion pump are displayed in the form of a table on the current gui, in step S114, the displaying in the alarm display mode corresponding to the current infusion alarm event in the relevant area of the gui according to the preset corresponding relationship may include: substep S1141, substep S1142, substep S114A3, and substep S114a 4.

Substep S1141: an alarm ranking table is preset, wherein a one-to-one correspondence between each infusion alarm event and an urgency priority is defined in the alarm ranking table.

An alarm ranking table may be pre-configured according to clinical experience of a healthcare worker, wherein the alarm ranking table defines a degree of urgency priority for each infusion alarm event, the degree of urgency priority representing a degree of risk that the infusion alarm event poses to the infusion safety of the patient. Generally, a higher priority level for urgency of an infusion alert event indicates a higher risk level due to infusion safety of the patient. Illustratively, the urgency priority is in order from low to high: level 1, level 2, level 3, level 4, level 5, level 6, …; such as the alarm ranking table shown in table 1 below.

TABLE 1 alarm ranking Table

Wherein, the correspondence in table 1 above is merely an example; and the correspondence in table 1 above is set according to clinical experience of the medical staff, so detailed description is not given here as to "how the alarm ranking table is specifically obtained".

According to the above table 1, the urgency priority corresponding to each infusion alarm event can be obtained; for example, when the infusion pump detects the presence of an air bubble in the infusion tube, such an infusion alarm event is very dangerous, and once the air bubble is continuously infused into the vein of the human body, the life safety of the patient is endangered, so the corresponding urgency priority is 6, so as to prompt the medical staff to immediately deal with the air bubble alarm event; for another example, when the remaining infusion time of the infusion pump is less than or equal to 1 minute, the infusion alarm event is very slight, the medical staff can do urgent matters on hand first and then deal with the slight infusion alarm event, and the corresponding urgency level of the infusion alarm event is 2 level; for example, two infusion pumps, wherein the priority of the degree of urgency of one infusion pump is 6, and the priority of the degree of urgency of the other infusion pump is 2, so that the infusion alarm event with the priority of the degree of urgency of 6 requires the medical staff to perform priority processing, and after the infusion alarm event with the priority of the degree of urgency of 6 is processed, the infusion alarm event with the priority of the degree of urgency of 2 is processed, so that the infusion safety of multiple infusion pumps can be ensured simultaneously.

Substep S1142: a table is looked up in the alarm ranking table according to the current infusion alarm event for each infusion pump to obtain an urgency priority for each infusion pump.

If detecting that a plurality of infusion pumps trigger infusion alarm events, looking up a table in the table 1 according to the current infusion alarm event of each infusion pump to obtain corresponding urgency priority; for example, the current infusion alarm event for an infusion pump is: if the infusion pump detects an occlusion fault, looking up a table to obtain a corresponding emergency degree priority as: and 4, level.

Sub-step S114a 3: the plurality of current infusion alarm events are divided according to the urgency priority of each infusion pump, wherein the higher the urgency priority of an infusion pump, the higher the ranking of the corresponding current infusion alarm event.

When an infusion alarm event triggered by a plurality of infusion pumps is acquired, after S1142, the emergency degree priority of each infusion pump is acquired, and sequencing is performed according to the emergency degree priority of the infusion pumps. Illustratively, referring to Table 1, the ordered infusion alarm events are, in order: detecting that bubbles exist in the infusion tube by the infusion pump, detecting that blood returns exist in the infusion tube by the infusion pump, and detecting that an occlusion fault exists by the infusion pump; the more advanced the infusion alarm event ranking, the more urgent the infusion alarm event is, the more attention needs to be paid to the medical staff.

S114a 4: and sequencing and updating each line of data in the form according to a sequencing rule determined by the infusion alarm event, and controlling the reordered form to be displayed on the graphical user interface.

Specifically, referring to fig. 9 as an example, wherein each row in the table of fig. 9 represents the operating parameters of an infusion pump, according to fig. 9, the operating parameters of the infusion pump include: the patient room number to which the infusion pump belongs, the name of the drug used by the infusion pump, and the remaining time of the infusion pump; assume that the preset alarm ranking table defines: on the basis of the same other conditions, the less the remaining time of the infusion pump, the higher the urgency priority of the infusion pump, and the sorting of each infusion alarm event in the form according to the sorting rule of the infusion alarm events of the infusion pump, wherein the higher the urgency priority of the infusion alarm event, the higher the number of the line of data in the form, the more advanced the ranking of the urgency priorities of the various infusion alarm events, and the reordering and updating of each line of data in the form can be correspondingly performed; the more advanced the line data in the form, the more urgent the infusion alarm event of the corresponding infusion pump is, and the medical staff is required to immediately process the event.

For example, referring to fig. 9, when the remaining time of infusion pump a is 00:00:01, the remaining time of infusion pump B is 00: 09:29, the urgency priority of the infusion pump a is higher than the urgency priority of the infusion pump B, and according to the sorting rule, the order of the line of data corresponding to the infusion pump a in the table is before the order of the line of data corresponding to the infusion pump B in the table; that is, the operating parameters of infusion pump a are in the first row, and the operating parameters of infusion pump B are in the second row; after reordering the data in the form, the remaining time of the infusion pump is smaller and the operating parameters of the infusion pump in the form are earlier.

The precedence of each row of data in the reordered form represents the priority of infusion alarm events of the plurality of infusion pumps, and the earlier in the form, the infusion alarm events of the infusion pumps need to be processed preferentially by medical personnel, so that the clear and clear operation can be realized.

It should be noted that there are some differences between FIG. 9 and Table 1 above, and the table in FIG. 9 only ranks the infusion alarm events by reference to the remaining time of the infusion pump; however, the above table 1 considers a plurality of factors such as pressure, blood returning, remaining time, etc. in combination, so please note the difference between the two.

In an embodiment, if the operating parameters of the infusion pump are displayed in the form of a visual text box on the current gui, the step S114 of displaying the operating parameters in the alarm display mode corresponding to the current infusion alarm event in the relevant area of the gui according to the preset corresponding relationship may include: substep S1141, substep S1142, substep S114B3, and substep S114B 4.

Substep S1141: please refer to the above description.

Substep S1142: please refer to the above description.

Sub-step S114B 3: a correspondence between each urgency priority and an emphasis color and/or a blinking frequency is set.

Specifically, for each urgency priority, the present embodiment takes emphasis color and/or blinking frequency as an attribute form to match each urgency priority; urgency priorities for different infusion alert events can be visually distinguished based on different emphasis colors and/or flashing frequencies.

Illustratively, table 2 shows the correspondence between the various urgency priorities and the emphasis colors and the blinking frequencies, as shown in table 2:

TABLE 2 correspondence between urgency priority and emphasis color, flicker frequency

Urgency priority	Strong color modulation	Frequency of flicker
			Grade
6	Red colour	30 times/min
			Grade
5	Yellow colour	20 times/min
			4 stage	Blue color	15 times/min
Grade
	3	Green colour	10 times/min
Stage
	2	Purple color	5 times/min
Level
	1	Black color	1 time/minute

In table 2 above, the higher the urgency priority, the more the infusion alarm event of the corresponding infusion pump needs to be handled by the medical staff as soon as possible; accordingly, when the urgency priority is higher, the flashing frequency is higher, and the highlighting is easier for the medical staff to pay attention so that the medical staff can prioritize the infusion alarm event with higher urgency priority.

S114B 4: and determining the corresponding priority of the degree of urgency according to the infusion alarm event of the infusion pump, further determining the corresponding emphasis color and/or flashing frequency, dyeing the background color of the corresponding visual text box according to the corresponding emphasis color, controlling the dyed visual text box to be displayed on the graphical user interface, and/or controlling the corresponding visual text box to be flashed on the graphical user interface according to the corresponding flashing frequency.

After sub-step S1142, the urgency level priority corresponding to the current infusion alarm event of each infusion pump is obtained, and the correspondence between the urgency level priority and the emphasis color and/or blinking frequency is set in sub-step S114B3, so that the emphasis color and/or blinking frequency corresponding to the current infusion alarm event of each infusion pump can be obtained.

Specifically, when the accent color is adopted as a way of marking the visual text boxes, the background colors of the visual text boxes of the infusion pumps are colored according to the accent color of the infusion pumps respectively, infusion alarm events with different urgency priorities are provided, the corresponding visual text boxes have different background colors, and users can distinguish the urgency priorities of the corresponding infusion pumps by seeing the background colors of the visual text boxes and preferentially process the infusion alarm events with higher urgency priorities.

For example, in fig. 7, the priority of urgency for infusion pump 01 is: and 6, according to the corresponding relation in the table 2, the background color of the visual text box corresponding to the infusion pump 01 is as follows: red; the urgency priority of infusion pump 02 is: and 5, according to the corresponding relation in the table 2, the background color of the visual text box corresponding to the infusion pump 02 is as follows: yellow; the urgency priority of the infusion pump 03 is: and 4, according to the corresponding relation in the table 2, the background color of the visual text box corresponding to the infusion pump 03 is: blue; the urgency priority of the infusion pump 04 is: and 3, according to the corresponding relation in the table 2, the background color of the visual text box corresponding to the infusion pump 04 is as follows: green; medical personnel can directly distinguish according to the background color of the visual text box that infusion pump corresponds: infusion alarm events for which infusion pumps need to be processed in priority in order to ensure infusion safety for multiple infusion pumps.

Similarly, when the flicker frequency is adopted as a mode for marking the visual text box, the visual text box of the infusion pump is controlled to flicker and display on the graphical user interface according to the flicker frequency of the infusion pump, infusion alarm events with different urgency priorities are provided, the corresponding visual text box has different flicker frequencies, and when the user sees that the visual text box flickers, the user knows that: the corresponding infusion pump triggers an infusion alarm event; and when the flashing frequencies of the visual text boxes are different, the user can distinguish infusion alarm events with different urgency levels and priorities and timely process the infusion alarm events with high urgency levels and priorities.

For example, in fig. 7, the priority of urgency for infusion pump 01 is: and 6, according to the corresponding relation in the table 2, the flashing frequency of the visual text box corresponding to the infusion pump 01 on the graphical user interface is as follows: 30 times/minute (i.e., control the infusion pump 01 corresponding visual text box to flash 30 times per minute on the graphical user interface); the urgency priority of infusion pump 02 is: and 5, according to the corresponding relation in the table 2, the flashing frequency of the visual text box corresponding to the infusion pump 02 on the graphical user interface is as follows: 20 times/min; the urgency priority of the infusion pump 03 is: and 4, according to the corresponding relationship in the table 2, the flashing frequency of the visual text box corresponding to the infusion pump 03 on the graphical user interface is as follows: 15 times/min; the urgency priority of the infusion pump 04 is: and 3, according to the corresponding relation in the table 2, the flashing frequency of the visual text box corresponding to the infusion pump 04 on the graphical user interface is as follows: 10 times/min. The user may thus be able to readily prioritize the urgency of each infusion alert event based on the frequency of flashing of the visual text box.

It should be noted that the expressions "highlight color" and "blinking frequency" and/or "blinking frequency" in this embodiment mean that at least any one of the "highlight color" and the "blinking frequency" can be used as an embodiment of a visual text box to distinguish different infusion alarm events.

In an embodiment, the displaying may be performed in a corresponding alarm display manner in an area displayed on the graphical user interface in an overlapping manner, and in step S114, the displaying may be performed in an alarm display manner corresponding to the current infusion alarm event in a relevant area of the graphical user interface according to a preset corresponding relationship, which may include: substep S1141, substep S1142, substep S114C3, and substep S114C 4.

Substep S1141: please refer to the above description.

Substep S1142: please refer to the above description.

Sub-step S114C 3: the plurality of infusion alarm events are divided according to an urgency priority of each infusion pump, wherein the higher the urgency priority of the infusion pump, the earlier the level of the corresponding infusion alarm event.

Sub-step S114C 4: popping up a warning prompt box on the graphical user interface according to the infusion alarm event of each infusion pump, wherein the warning prompt box with high urgency priority covers the warning prompt box with low urgency priority on the graphical user interface.

Specifically, referring to fig. 12, after the urgency priority of the infusion alarm event for each infusion pump is obtained, a warning prompt pops up on the graphical user interface to prompt the user to: infusion faults of the infusion pumps need to be processed, wherein the warning prompt box is used for displaying fault warning information of the corresponding infusion pump; when a plurality of infusion pumps trigger an infusion alarm event, controlling an alarm prompt box with high emergency degree priority to cover an alarm prompt box with low emergency degree priority on a graphical user interface according to the priority of the emergency degree priority division of each infusion pump, enabling a user to see only the alarm prompt box with the highest emergency degree priority on the graphical user interface, enabling medical personnel to process the infusion pumps with the highest emergency degree priority in priority, and enabling the medical personnel to gradually process the infusion alarm event of each infusion pump according to the priority; such as: the 6 infusion pumps No. 99, No. 98, No. 97, No. 96, No. 95 and No. 94 trigger infusion alarm events, and according to the rules determined by the alarm sorting table, the priority of the urgency degree of the 6 infusion alarm events is obtained as follows: no. 99, No. 98, No. 97, No. 96, No. 95 and No. 94, then the warning prompt box corresponding to the No. 99 infusion pump is drawn on the top layer of the graphical user interface, and the user firstly sees the warning prompt box corresponding to the No. 99 infusion pump; a warning prompt box corresponding to the infusion pump No. 98 is drawn on the second layer of the graphical user interface, and so on; only after the medical staff has processed the infusion alarm event corresponding to the No. 99 infusion pump can the medical staff see the warning prompt box corresponding to the No. 98 infusion pump, and then the infusion alarm event corresponding to the No. 98 infusion pump is processed.

This embodiment can set up a plurality of warning prompt boxes to the relation of mutual cover on graphical user interface to medical personnel can distinguish fast: it is necessary to process the infusion alarm events of which infusion pumps first and which infusion pumps second.

In one embodiment, after detecting that one or more infusion pumps trigger an infusion alarm event, the method may further comprise: step S115, step S116, and step S117.

Step S115: recording an infusion alarm event for each of the infusion pumps in an information list, wherein each row in the information list is used to record an infusion alarm event for one of the infusion pumps.

When the infusion alarm event triggered by each infusion pump is detected, the infusion alarm time of the infusion pump is sequentially recorded in an information list according to a form, so that the follow-up information is consulted and backtracked conveniently.

Step S116: and displaying the history label on a graphical user interface of the terminal equipment.

Step S117: and controlling the graphical user interface to display the information list according to the detected operation of the user on the history label.

Referring to fig. 13, where the history tag corresponds to the historical infusion alarm event display mode, when the user needs to view previous infusion alarm events of the infusion pump on the graphical user interface, the user may trigger the history tag, the terminal device enters the historical infusion alarm event display mode, and the graphical user interface of the terminal device will display the previous infusion alarm events of each infusion pump, so that the user can view and analyze the reason and type of the alarm issued by the infusion pump.

In an embodiment, before step S101, the method may further include: step S118, step S119, and step S120.

Step S118: all infusion pumps in the target hospital are counted.

Specifically, each hospital network acts as an internal local area network, e.g., tens or even hundreds of infusion pumps are present in a large target hospital.

Step S119: and configuring the wireless communication state between each infusion pump and the terminal equipment on a communication interface of the terminal equipment according to a communication configuration instruction input by a user, and controlling the communication interface of the terminal equipment to display the wireless communication state between the terminal equipment and each infusion pump.

Because the internal network of the hospital belongs to the local area network, before the infusion pump establishes wireless communication with the terminal equipment, the wireless communication state between the infusion pump and the terminal equipment needs to be configured; as shown in fig. 14, wherein configuring the wireless communication state includes: configuring network name, configuring IP address, setting subnet mask, etc. and configuring parameters on the communication interface according to the communication configuration command input by the user.

Wherein the communication interface also displays the wireless communication status between the terminal device and the infusion pumps, and when the wireless communication between the terminal device and each infusion pump is successful, the wireless communication successful status is displayed on the communication interface (as shown in fig. 15); when wireless communication between the terminal device and the infusion pump is unsuccessful, a wireless communication failure status is displayed on the communication interface (not shown).

Step S120: and when the wireless communication between the terminal equipment and each infusion pump is detected to be successful, controlling the terminal equipment to be switched from the communication interface to the graphical user interface.

Each infusion pump outputs operating parameters to the terminal device upon detecting that wireless communication is established between the terminal device and each infusion pump.

Referring to fig. 16, fig. 16 is a schematic structural diagram of an embodiment of a terminal device 100 of the present application, where the terminal device 100 includes a communication circuit 3, a memory 1 and a processor 2, the communication circuit 3 is used for communicating with the plurality of infusion pumps, and the memory 1 is used for storing a computer program; the processor 3 is adapted to execute the computer program and, when executing the computer program, to implement a method of generating a graphical user interface for an infusion system as described in any of the above. For a detailed description of the related contents, please refer to the related contents of the method for generating the graphical user interface of the infusion system, which will not be described redundantly.

The communication circuit 3, the memory 1, and the processor 2 are connected by a bus.

The processor 2 may be a micro-control unit, a central processing unit, a digital signal processor, or the like.

The memory 1 may be a Flash chip, a read-only memory, a magnetic disk, an optical disk, a usb disk, or a removable hard disk.

The present application further provides a computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to implement the method of generating a graphical user interface for an infusion system as described in any one of the above. For a detailed description of the related contents, please refer to the related contents of the method for generating the graphical user interface of the infusion system, which will not be described redundantly.

The computer-readable storage medium may be an internal storage unit of the terminal device, such as a hard disk or a memory. The computer readable storage medium may also be an external storage device such as a hard drive equipped with a plug-in, smart memory card, secure digital card, flash memory card, or the like.

It is to be understood that the terminology used in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

It should also be understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

The above description is only for the specific embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive various equivalent modifications or substitutions within the technical scope of the present application, and these modifications or substitutions should be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A method for generating a graphical user interface of an infusion system, wherein the method is applied to a terminal device, the infusion system comprises the terminal device and a plurality of infusion pumps, the terminal device is connected with the plurality of infusion pumps in a communication mode, and the method comprises the following steps:

displaying a first information presentation area and a second information presentation area on a graphical user interface of the terminal equipment, wherein the first information presentation area displays a plurality of first text icons, each first text icon corresponds to one ward in a hospital, and each ward is provided with a plurality of infusion pumps;

and responding to a first instruction, displaying a form in the second information presentation area, wherein each line in the form displays the operating parameters of one infusion pump in a first target ward, and the first instruction is generated according to the detected operation of the user on at least one first text icon, wherein the first target ward is the ward corresponding to the operated first text icon.

2. The method of claim 1, further comprising:

and responding to the first instruction, displaying a plurality of second text icons in the first information presenting area, wherein each second text icon corresponds to the sickbed number of the infusion pump in the first target ward.

3. The method of claim 2, further comprising:

and displaying at least one graphic frame on a graphic user interface of the terminal equipment in response to a second instruction, wherein each graphic frame displays the operating parameters of a target infusion pump in a graphic-text combination mode, the second instruction is generated according to the detected operation of the user on at least one second text icon, and the target infusion pump is the infusion pump corresponding to the operated second text icon.

4. The interface display method of claim 2, wherein displaying a plurality of second text icons in the first information presentation area comprises:

displaying a plurality of second text icons in the first information presentation area, wherein the second text icons comprise an operable activated state second text icon and a non-operable deactivated state second text icon, the infusion pump corresponding to the activated state second text icon is in an operating state, and the infusion pump corresponding to the deactivated state second text icon is in a stopping state.

5. The method of claim 1, further comprising:

and responding to a third instruction, displaying a plurality of information items on a graphical user interface of the terminal equipment, wherein each information item displays the medical record information of a corresponding patient.

6. The method of claim 1, further comprising:

and responding to a fourth instruction, displaying a left view area and a right view area on a graphical user interface of the terminal equipment, wherein the left view area displays a plurality of information items, each information item displays medical record information of a corresponding patient, the right view area displays a plurality of information items, and each information item displays the operating parameter of a corresponding infusion pump.

7. The method of claim 1, further comprising:

and responding to a seventh instruction, displaying a left view area and a right view area on a graphical user interface of the terminal equipment, wherein the left view area displays a plurality of visual text boxes, each visual text box displays the operating parameters of a corresponding infusion pump, and the right view area displays a form, and each line in the form displays the operating parameters of a corresponding infusion pump.

8. The method according to any one of claims 1-7, further comprising:

responding to a detected current infusion alarm event of the infusion pump, and displaying an alarm display mode corresponding to the current infusion alarm event in a relevant area of the graphical user interface according to a preset corresponding relation, wherein the corresponding alarm display mode can display the emergency degree priority of the current infusion alarm event of the infusion pump, and the preset corresponding relation comprises the preset infusion alarm event, the preset emergency degree priority and the corresponding relation among the preset alarm display modes;

the relevant area comprises at least one of:

a region on the graphical user interface that displays operating parameters of the infusion pump;

a region on the graphical user interface that displays medical record information for a patient corresponding to the infusion pump;

displaying an area of the patient room corresponding to the infusion pump on the graphical user interface;

displaying a region of a hospital bed number corresponding to the infusion pump on the graphical user interface;

an area displayed on the graphical user interface is superimposed.

9. A terminal device comprising communication circuitry for communicating with the plurality of infusion pumps, a memory for storing a computer program, and a processor; the processor is adapted to execute the computer program and, when executing the computer program, to carry out a method of generating a graphical user interface for an infusion system as claimed in any one of claims 1 to 8.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program which, when executed by a processor, causes the processor to carry out a method of generating a graphical user interface of an infusion system according to any one of claims 1-8.

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