CN115475305B

CN115475305B - Liquid medicine infusion control method, infusion system and infusion pump

Info

Publication number: CN115475305B
Application number: CN202211155103.6A
Authority: CN
Inventors: 唐小成; 梁敏铧; 胡铃; 黄浩科; 董俊
Original assignee: Medcaptain Medical Technology Co Ltd
Current assignee: Medcaptain Medical Technology Co Ltd
Priority date: 2022-09-22
Filing date: 2022-09-22
Publication date: 2024-08-16
Anticipated expiration: 2042-09-22
Also published as: CN115475305A

Abstract

The application provides a liquid medicine infusion control method, an infusion system and an infusion pump, wherein the method is applied to the infusion system, the infusion system comprises a workstation and at least two infusion pumps, and the method comprises the following steps: firstly, acquiring the infusion parameters of each of at least two infusion pumps, wherein the infusion parameters comprise identification numbers of the infusion pumps and infusion control parameters, the infusion control parameters comprise infusion starting time, then summarizing the infusion parameters of the at least two infusion pumps according to the sequence from front to back of the infusion starting time, and finally controlling the at least two infusion pumps to output liquid medicine according to the summarized infusion parameters of the at least two infusion pumps. According to the application, the liquid medicine infusion of at least two infusion pumps can be controlled by setting the infusion parameters of the at least two infusion pumps in the infusion system, so that the liquid medicine is infused at fixed time, and the intelligence and convenience of the liquid medicine infusion are improved.

Description

Liquid medicine infusion control method, infusion system and infusion pump

Technical Field

The application relates to the technical field of medical equipment, in particular to a liquid medicine infusion control method, an infusion system and an infusion pump.

Background

Clinical studies prove that the same medicament is taken and used at different times in one day, avoids the active period of normal cell division, and reduces toxic and side effects and improves curative effect by adopting the time-of-day administration mode of large-dose anticancer medicaments when cancer cells are active in division, so that in order to realize the control of tumors and kill cancer cells which cannot be contacted by surgery and radiotherapy, the mode of time-of-day chemotherapy is usually required to be selected, namely, the high-concentration chemotherapeutic medicament is injected into a patient in the minimum time of toxicity of the chemotherapeutic medicament, so as to achieve the purposes of optimal curative effect and minimum toxicity.

However, at present, the chemotherapy is implemented mainly by medical staff to perform manual operation administration under the corresponding time, so that the workload is large, the mechanization degree is low, and the administration can not be performed according to the specific time when a large number of patients exist.

Disclosure of Invention

The embodiment of the application provides a liquid medicine infusion control method, an infusion system and an infusion pump, so as to improve the intelligence and convenience of liquid medicine infusion.

In a first aspect, an embodiment of the present application provides an infusion control method applied to an infusion system including a workstation and at least two infusion pumps, the method including:

Acquiring an infusion parameter of each of the at least two infusion pumps, wherein the infusion parameter comprises an identification number of the infusion pump and an infusion control parameter, and the infusion control parameter comprises an infusion starting time;

Summarizing infusion parameters of the at least two infusion pumps according to the sequence from front to back of the infusion start time;

and respectively controlling the at least two infusion pumps to output liquid medicine according to the summarized infusion parameters of the at least two infusion pumps.

In a second aspect, an embodiment of the present application provides an infusion control method applied to an infusion pump including at least two drug bags, the method including:

acquiring infusion parameters of each of the at least two medicine bags, wherein the infusion parameters comprise identification numbers of the medicine bags and infusion control parameters, and the infusion control parameters comprise infusion starting time;

summarizing infusion parameters of the at least two medicine bags according to the sequence from front to back of the infusion starting time;

and respectively controlling the at least two medicine bags to output medicine liquid according to the summarized infusion parameters of the at least two medicine bags.

In a third aspect, embodiments of the present application provide an infusion system comprising a workstation and at least two infusion pumps, the infusion system comprising:

An acquisition unit configured to acquire an infusion parameter of each of the at least two infusion pumps, the infusion parameter including an identification number of the infusion pump and an infusion control parameter including an infusion start time;

A summarizing unit, configured to summarize infusion parameters of the at least two infusion pumps according to a sequence from front to back of the infusion start time;

And the control unit is used for respectively controlling the at least two infusion pumps to output liquid medicine according to the summarized infusion parameters of the at least two infusion pumps.

In a fourth aspect, an embodiment of the present application provides a medical fluid infusion control device applied to an infusion pump including at least two medical bags, the medical fluid infusion control device including:

An acquisition unit for acquiring an infusion parameter of each of the at least two drug bags, the infusion parameter comprising an identification number of the drug bag and an infusion control parameter comprising an infusion start time;

the summarizing unit is used for summarizing the infusion parameters of the at least two medicine bags according to the sequence from front to back of the infusion starting time;

and the control unit is used for respectively controlling the at least two medicine bags to output medicine liquid according to the summarized infusion parameters of the at least two medicine bags.

In a fifth aspect, an embodiment of the present application provides an infusion pump comprising a processor, a memory, a communication interface, and one or more programs stored in the memory and configured for execution by the processor, the programs comprising instructions for performing steps in the method of the second aspect of the embodiment of the present application.

In a sixth aspect, embodiments of the present application provide a computer-readable storage medium storing a computer program for electronic data exchange, the computer program including instructions for causing a computer to perform part or all of the steps as described in the first or second aspects of the embodiments of the present application.

In a seventh aspect, embodiments of the present application provide a computer program product, wherein the computer program product comprises a computer program operable to cause a computer to perform some or all of the steps as described in the first or second aspects of the embodiments of the present application.

The embodiment of the application has the following beneficial effects:

It can be seen that the method for controlling infusion of a medical fluid, the infusion system and the infusion pump described in the embodiments of the present application, the method being applied to an infusion system comprising a workstation and at least two infusion pumps, the method comprising: firstly, acquiring the infusion parameters of each of at least two infusion pumps, wherein the infusion parameters comprise identification numbers of the infusion pumps and infusion control parameters, the infusion control parameters comprise infusion starting time, then summarizing the infusion parameters of the at least two infusion pumps according to the sequence from front to back of the infusion starting time, and finally controlling the at least two infusion pumps to output liquid medicine according to the summarized infusion parameters of the at least two infusion pumps. According to the application, the liquid medicine infusion of at least two infusion pumps can be controlled by setting the infusion parameters of the at least two infusion pumps in the infusion system, so that the liquid medicine is infused at fixed time, and the intelligence and convenience of the liquid medicine infusion are improved.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an infusion system according to an embodiment of the present application;

fig. 2A is a schematic flow chart of a method for controlling infusion of a liquid medicine according to an embodiment of the present application;

FIG. 2B is an interface schematic diagram of a parameter input interface of a workstation according to an embodiment of the present application;

FIG. 2C is an interface diagram of another workstation parameter input interface provided in accordance with an embodiment of the present application;

FIG. 2D is an interface diagram of a parameter input interface of yet another workstation according to an embodiment of the present application;

FIG. 2E is an interface diagram of an infusion parameter upload authentication interface provided by an embodiment of the present application;

FIG. 3 is a schematic view of an infusion pump according to an embodiment of the present application;

Fig. 4A is a schematic flow chart of another method for controlling infusion of a medical fluid according to an embodiment of the present application;

FIG. 4B is an interface schematic diagram of a parameter input interface for an infusion pump according to an embodiment of the present application;

FIG. 4C is an interface schematic diagram of another parameter input interface for an infusion pump provided in accordance with an embodiment of the present application;

FIG. 4D is an interface schematic diagram of a parameter input interface for yet another infusion pump provided in accordance with an embodiment of the present application;

FIG. 5 is a block diagram of functional units of an infusion system according to an embodiment of the present application;

fig. 6 is a functional unit block diagram of a medical fluid infusion control device according to an embodiment of the present application.

Detailed Description

The terms first, second and the like in the description and in the claims and in the above-described figures are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed steps or elements but may include other steps or elements not listed or inherent to such process, method, article, or apparatus. The term "plurality" may refer to two or more, and is not described in detail below.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

In order that those skilled in the art will better understand the present application, a technical solution in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

At present, the implementation of the time chemotherapy mainly depends on the medical staff to carry out manual operation administration under the corresponding time, the workload is large, the mechanization degree is low, and the administration can not be carried out according to the specific time when a large number of patients exist.

In order to solve the above problems, the present application provides a medical fluid infusion control method, an infusion system, and an infusion pump, which are described in detail below with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an infusion system according to an embodiment of the present application. As shown in fig. 1, the infusion system 100 may include a workstation 110 and infusion pumps 120, where the number of infusion pumps 120 is not limited. As shown in FIG. 1, there are two infusion pumps 120, each infusion pump 120 shown in FIG. 1 may be respectively networked to the workstation 110, such that each infusion pump 120 may interact with the workstation 110 via the network connection, and the workstation 110 may be capable of controlling each infusion pump 120 to perform infusion of a medical fluid.

Referring to fig. 2A, fig. 2A is a schematic flow chart of a method for controlling infusion of a liquid medicine according to an embodiment of the present application, as shown in fig. 2A, the method may be performed by an infusion system, as the method may be applied to the infusion system 100 shown in fig. 1, as shown in fig. 2A, and the method for controlling infusion of a liquid medicine includes steps S101 to S103:

S101, acquiring the infusion parameters of each of the at least two infusion pumps, wherein the infusion parameters of the infusion pumps comprise identification numbers of the infusion pumps and infusion control parameters, and the infusion control parameters comprise infusion starting time.

The identification number of the infusion pump can include, but is not limited to, the number and the IP address of the infusion pump, and the infusion control parameter can also include, but is not limited to, at least one of the end time of infusion, the duration of infusion, the infusion speed and the infusion quantity.

In a specific implementation, the infusion start time of a single infusion pump may be at least one, if the infusion start time of the infusion pump is only one, the infusion system will start the infusion pump to output the liquid medicine at the infusion start time, and if the infusion start time of the infusion pump is at least two, the infusion system will start the infusion pump to output the liquid medicine at the at least two infusion start times respectively.

And S102, summarizing the infusion parameters of the at least two infusion pumps according to the sequence from front to back of the infusion starting time.

And when the infusion starting times of the two or more infusion pumps are detected to be the same in the process of summarizing the infusion parameters of the at least two infusion pumps according to the sequence from front to back of the infusion starting times, summarizing the infusion parameters of the two or more infusion pumps with the same infusion starting times according to the sequence from big to small of the serial numbers of the infusion pumps.

For example, the infusion system includes an infusion pump 1, an infusion pump 2, and an infusion pump 3, the infusion start time of the infusion pump 1 is 11 am, the infusion start time of the infusion pump 2 is 10 am and 3 pm, and the infusion start time of the infusion pump 3 is 11 am: 30 pm and 3 pm, according to 10 am, 11 am: the infusion parameters of the corresponding infusion pump 1, the infusion pump 2 and the infusion pump 3 are summarized at 30 and 3 afternoon in sequence, and as the infusion starting time of the infusion pump 2 and the infusion pump 3 comprises 3 afternoon, the infusion parameters of the infusion pump 2 corresponding to 3 afternoon are summarized firstly and then the infusion parameters of the infusion pump 3 corresponding to 3 afternoon are summarized according to the sequence of the serial numbers of the infusion pumps from large to small.

S103, respectively controlling the at least two infusion pumps to output liquid medicine according to the summarized infusion parameters of the at least two infusion pumps.

In a specific implementation, the controlling the at least two infusion pumps to output the liquid medicine according to the summarized infusion parameters of the at least two infusion pumps includes: detecting that the current system time is the infusion starting time of an infusion pump to be infused, generating a starting control instruction, and sending the starting control instruction to the infusion pump to be infused so as to facilitate the infusion pump to be infused to start and output liquid medicine.

In addition, when the infusion control parameter includes an infusion end time or an infusion duration, the controlling the at least two infusion pumps to output the medical fluid according to the summarized infusion parameters of the at least two infusion pumps respectively further includes: detecting that the current system time is the infusion end starting time of the infusion pump which is infusing, or detecting that the infusion duration of the infusion pump which is infusing reaches the preset infusion duration of the infusion pump which is infusing, generating a closing control instruction, and sending the closing control instruction to the infusion pump which is infusing so as to facilitate the infusion pump which is infusing to stop outputting the liquid medicine.

It can be seen that, in this example, the infusion system can control the liquid medicine infusion of at least two infusion pumps in the infusion system through setting up the infusion parameter of these at least two infusion pumps, realizes the timing infusion liquid medicine, promotes the intelligence and the convenience of liquid medicine infusion.

In a specific implementation, the infusion system may obtain the infusion parameters of each infusion pump in the infusion system by two methods: firstly, respectively acquiring infusion parameters of each infusion pump in the infusion system through a workstation; second, the infusion parameters of the infusion system are obtained by each infusion pump in the infusion system.

Next, a detailed description will be given of a method in which the infusion system acquires infusion parameters of each infusion pump in the infusion system through the workstation, respectively.

As a possible implementation manner, a display screen with a touch function may be provided on the workstation, so that the obtaining the infusion parameter of each of the at least two infusion pumps includes step A1 and step A2, or includes step A1 and step A3, where:

A1, detecting an infusion parameter setting starting operation, and displaying a parameter input interface on a display screen of the workstation according to the starting operation;

A2, the parameter input interface comprises a first input area, the input of a target identification number of a target infusion pump which is required to be set currently is detected to be completed through the first input area, the parameter input interface is updated, the updated parameter input interface is obtained, the updated parameter input interface is displayed on a display screen of the workstation, and the updated parameter input interface comprises a second input area; and detecting that the input of the target infusion starting time is completed through the second input area, and determining the target identification number and the target infusion starting time as the infusion parameters of the target infusion pump.

A3, the parameter input interface comprises a first input area and a second input area, the input of a target identification number of a target infusion pump which is required to be set currently is detected to be completed through the first input area, the input of a target infusion starting time is completed through the second input area, and the target identification number and the target infusion starting time are determined to be the infusion parameters of the target infusion pump.

Wherein the infusion parameter setting initiation operation may be, but is not limited to, an initiation operation directed to a specific key set in advance provided on the workstation.

In a specific implementation, the first input area may include an infusion pump identification number input box, an infusion pump identification number determination button, and an infusion pump identification number modification button, when the user inputs the infusion pump identification number through the infusion pump identification number input box, the user clicks the infusion pump identification number determination button, and the input of the infusion pump identification number is completed, where the infusion pump identification number is in a locked state, that is, the currently input infusion pump identification number is determined, and if the user clicks the infusion pump identification number modification button, the infusion pump identification number is in an editable state, where the user may modify the input infusion pump identification number in the infusion pump identification number input box. The second input area may include an infusion start time input box, an infusion start time determination button, and an infusion start time modification button, when the user inputs the infusion start time through the infusion start time input box, the user clicks the infusion start time determination button, and the infusion start time is in a locked state, that is, the currently input infusion start time is already determined, and if the user clicks the infusion start time modification button, the infusion start time is in an editable state, and at this time, the user may modify the input infusion start time in the infusion start time input box.

It will be appreciated that in the case where the parameter input interface includes a first input area and a second input area, the identification number of the infusion pump and the infusion start time of the infusion pump may be obtained together through the parameter input interface.

For example, referring to fig. 2B, fig. 2B is an interface schematic diagram of a parameter input interface of a workstation according to an embodiment of the present application, after a user performs an infusion parameter setting start operation, the parameter input interface shown in fig. 2B is displayed on a display screen of the workstation, where the parameter input interface includes a first input area presented in a dashed line box 01 and a second input area presented in a dashed line box 02, the first input area includes a text prompt 010 of an "infusion pump identification number", an input box 011 of an infusion pump identification number, an input pump identification number determination button 012 that displays "determined" and an input pump identification number modification button 013 that displays "modified", the second input area includes a text prompt 020 of an "infusion start time", an input box 021 that displays "determined" and an input start time modification button 023 that displays "modified", and the user further inputs the "determined" pump identification number 012 "by clicking in the input box 011 of an infusion pump identification number in addition, and the user inputs the" determined "pump identification number 012" by inputting "001" in the input box 011 of the infusion pump identification number: 30", then click on the" ok "infusion start time determination button 022, the infusion parameters of the infusion pump obtained are determined as follows: infusion pump identification number 001, infusion start time 11:30.

It will be appreciated that where the parameter input interface includes a first input area, after the infusion pump identification number is obtained via the first input area, the parameter input interface needs to be updated, and the updated parameter input interface includes a second input area to further obtain the infusion start time of the infusion pump. The updated parameter input interface may include only the second input area, and the updated parameter input interface may also include part or all of the first infusion area and the second input area, where the position of the second input area is not specifically limited.

For example, referring to fig. 2C, fig. 2D is an interface schematic diagram of a parameter input interface of another workstation provided by the embodiment of the present application, and fig. 2C and 2D are interface schematic diagrams of parameter input interfaces of another workstation provided by the embodiment of the present application, where after the user performs the above-mentioned infusion parameter setting start operation, as shown in fig. 2C and 2D, the parameter input interface shown in fig. 2C is displayed on a display screen of the workstation, where the parameter input interface includes a first input area 03 presented in a dashed line box, the first input area 03 includes a text prompt 030 for an "infusion pump identifier", an input box 031 for an infusion pump identifier, an infusion pump identifier determination button 032 for displaying "ok", and an infusion pump identifier modification button 033 for displaying "modify", and if the user clicks the infusion pump identifier determination button 032 for "ok" in the input box 031 for an infusion pump identifier, the parameter input interface shown in fig. 2D is displayed on the display screen of the workstation, the parameter input interface includes a first input area 03 presented in the dashed line box, the first input area 0404 includes a second input area 0411 for an infusion start time, and a start time display 0411 for inputting "modify" input time is displayed in the start time 0411 ", and a start time display of the input box 0404 is displayed in the start time of the input box for" modify "input button" start time of input "input button 043: 30", if the user clicks the" ok "infusion start time determination button 042, the infusion parameters of the infusion pump obtained are determined as follows: infusion pump identification number 001, infusion start time 11:30.

In this example, the infusion system can uniformly acquire all or part of the infusion parameters of the infusion pump in the infusion system through the display screen of the workstation, so as to improve the intelligence of the infusion system in acquiring the infusion parameters of the infusion pump.

As another possible embodiment, the workstation is communicatively connected to an electronic device, and the acquiring the infusion parameter of each of the at least two infusion pumps includes: receiving an infusion parameter uploading request from the electronic device, wherein the infusion parameter uploading request comprises identification code information of the electronic device; generating an infusion parameter uploading authentication interface according to the identification code information of the electronic equipment, wherein the infusion parameter uploading authentication interface comprises a first control, and the first control is used for confirming that the transmission of the infusion parameters on the electronic equipment is allowed; and when the first operation on the first control is detected, controlling the electronic equipment to upload the infusion parameters of at least one of the at least two infusion pumps to the workstation.

The specific implementation manner of the infusion system for controlling the electronic device to upload the infusion parameters of at least one of the at least two infusion pumps to the workstation may be: the infusion system generating control instructions in response to the first operation, the control instructions for instructing transmission of infusion parameters onto the workstation; the infusion system sends the control instruction to the electronic equipment; and after the electronic equipment receives the control instruction, uploading the infusion parameters of at least one of the at least two infusion pumps to the workstation.

The identification code information of the electronic device includes, but is not limited to, a device name and an IP address of the electronic device.

In a specific implementation, referring to fig. 2E, fig. 2E is an interface schematic diagram of an infusion parameter uploading authentication interface provided by an embodiment of the present application, when a user needs to set an infusion parameter of an infusion pump in an infusion system through an electronic device, the electronic device may be connected with a workstation in advance, after the connection is established, the user may send an infusion parameter uploading request to the workstation through the electronic device, after the workstation receives the infusion parameter uploading request of the electronic device, the workstation generates the infusion parameter uploading authentication interface based on identification code information of the electronic device carried by the infusion parameter uploading request, where the infusion parameter uploading authentication interface 05 includes a "whether to receive the infusion parameter" and a "yes" display first control 051, and after detecting a click operation for the "yes" display first control 051, the workstation controls the electronic device to upload the infusion parameter of at least one of the at least two infusion pumps in the infusion system to the workstation.

In addition, the infusion parameter uploading authentication interface 05 may further include a second control for displaying no, and after detecting a click operation on the second control for displaying no, the workstation rejects the infusion parameters of at least one of the at least two infusion pumps in the infusion system uploaded by the electronic device to the workstation, and generates a prompt message similar to "the user has refused to receive the infusion parameters" and transmits the prompt message to the electronic device.

In this example, the infusion system can establish communication connection with other electronic devices through the workstation, and under the condition of authorization of the workstation, the infusion parameters of all or part of the infusion pumps in the infusion system can be obtained through other electronic devices, so that convenience in obtaining the infusion parameters of the infusion pumps by the infusion system is improved.

The method of obtaining the own infusion parameters by each of the at least two infusion pumps is described in detail below.

Specifically, the acquiring the infusion parameter of each of the at least two infusion pumps includes: obtaining, by each of the at least two infusion pumps, its own infusion parameters and uploading the own infusion parameters to the workstation.

As a possible implementation manner, a display screen with a touch function may be disposed on each of the at least two infusion pumps, and the acquiring the infusion parameters of each of the at least two infusion pumps includes performing the following operations through each of the at least two infusion pumps respectively: when a target infusion parameter setting starting operation aiming at a current infusion pump is detected, displaying a parameter input interface on a display screen of the current infusion pump according to the target infusion parameter setting starting operation, wherein the parameter input interface comprises a target input area; detecting that the input of the target infusion starting time is completed through the target input area, and acquiring a pre-stored target identification number of the current infusion pump; and determining the target identification number and the target infusion starting time as the infusion parameters of the current infusion pump.

Wherein the target infusion parameter setting initiation operation may be, but is not limited to, an initiation operation for a specific key set in advance in the current infusion pump.

In a specific implementation, when a user needs to set an infusion parameter of the infusion pump through the infusion pump, the user performs the above-mentioned target infusion parameter setting start operation on the infusion pump, the infusion system displays a parameter input interface on a display screen of the infusion pump based on the target infusion parameter setting start operation, where the parameter input interface includes a target input area, and the target input area includes a text prompt of "infusion start time", an input box of "infusion start time", an infusion start time determination button displaying "determine", and an infusion start time modification button displaying "modify", and inputs "15" in the input box of the infusion start time: 30", if the user clicks the" determined "infusion start time determination button, the pre-stored identification number of the infusion pump is acquired, and if the identification number of the infusion pump is" 002", the identification number" 002 "and the infusion start time are" 15:30 "is the infusion parameter of the infusion pump, which will then have an identification number" 002 "and an infusion start time of" 15:30 "to the workstation for subsequent summarization operations by the workstation.

In this example, the infusion system can acquire its own infusion parameters through the display screen of each infusion pump and upload its own infusion parameters to the workstation, so that the workstation performs the operation of summarizing the infusion parameters.

In one possible example, after the summarizing of the infusion parameters of the at least two infusion pumps according to the order of the infusion start times from front to back, the method further comprises: displaying the summarized infusion parameters of the at least two infusion pumps through a display screen of the workstation; monitoring a second operation of the infusion parameters for the summarized at least two infusion pumps in a display screen of the workstation; detecting the second operation as a modification operation for a target infusion parameter of the infusion parameters of the at least two infusion pumps, and judging whether the target infusion parameter after modification and the target infusion parameter before modification are the same in response to the second operation; if not, updating the target infusion parameters in the summarized infusion parameters of the at least two infusion pumps to be the modified target infusion parameters.

After the determining, in response to the second operation, whether the modified target infusion parameter and the target infusion parameter before modification are the same, the method further includes: and if the target infusion parameters are the same as the target infusion parameters before modification, continuously displaying the summarized infusion parameters of the at least two infusion pumps, namely if the target infusion parameters are the same as the target infusion parameters before modification, maintaining the current infusion parameters.

In a specific example, after summarizing the infusion parameters of the three infusion pumps in the infusion system, the infusion pump 1, the infusion pump 2 and the infusion pump 3, the infusion parameters of the three infusion pumps after summarizing are displayed on the display screen of the workstation, the user can modify the infusion parameters of the three infusion pumps after summarizing through the display screen of the workstation, if the user modifies the infusion speed 1 of the infusion pump 1 in the infusion parameters of the three infusion pumps after summarizing, the infusion speed 1 in the infusion parameters after summarizing is updated to be the infusion speed after user modification if the infusion speed after modification is different from the infusion speed before modification, the infusion parameter a after modification is updated to be the infusion parameter a 001 in the infusion pump 1 after updating if the infusion parameter a after modification is 001 and the infusion parameter a before modification is 002 is different from each other.

Therefore, in the example, the infusion system can modify the infusion parameters of the infusion pump after the infusion is summarized through the display screen of the workstation, so that the infusion coordination capacity of the workstation to the liquid medicine is improved, and a user can monitor and control the liquid medicine infusion of the infusion pump through the workstation conveniently.

In one possible example, after the determining whether the target infusion parameter after modification and the target infusion parameter before modification are the same, the method further includes steps B1-B3:

B1, if the infusion parameters are different, judging the type of the target infusion parameters;

B2, if the target infusion parameter is an infusion control parameter, determining a target identification number corresponding to the target infusion parameter; controlling an infusion pump where the target identification number is located to update the target infusion parameter to the modified target infusion parameter;

b3, if the target infusion parameter is an identification number, acquiring a target infusion control parameter corresponding to the target infusion parameter; and controlling the infusion pump where the target infusion parameter is located to update the own infusion control parameter to the target infusion control parameter.

In a specific example, a user may modify the infusion parameters of the three infusion pumps after being summarized through a display screen of the workstation, if the user modifies the infusion speed 1 of the infusion pump 1 in the infusion parameters of the three infusion pumps after being summarized, if it is determined that the modified infusion speed is different from the infusion speed before modification, the infusion pump 1 corresponding to the infusion speed 1 is further determined to be an infusion control parameter, the user modifies the infusion parameter a of the infusion pump 1 after being summarized through the display screen of the workstation, if the modified infusion parameter a is 001, the infusion parameter a before being modified is 002, if it is determined that the infusion parameter a is different from the infusion parameter a, other control parameters b corresponding to the infusion parameter a are further determined to be identification numbers, and the infusion pump 1 is controlled to update the own infusion control parameter to the other control parameters b.

In this example, the infusion system can modify the infusion parameters of the summarized infusion pump through the display screen of the workstation, when the modified infusion parameters are the infusion parameters except the identification number, the infusion pump is controlled to automatically update the modified infusion parameters, so as to dynamically control the infusion pump to perform liquid medicine infusion, when the modified infusion parameters are the identification number, the target infusion parameters associated with the identification number are acquired, the infusion pump of the identification number is controlled to automatically update the target infusion parameters, so that the infusion pump is dynamically controlled to perform liquid medicine infusion, the infusion coordination capacity of the workstation to liquid medicine is improved, and the user can monitor and control the liquid medicine infusion of the infusion pump through the workstation conveniently.

In one possible example, before the summarizing the infusion parameters of the at least two infusion pumps according to the order of the infusion start times from front to back, the method further comprises: detecting that the infusion parameters of any one of the at least two infusion pumps are set, and acquiring pre-stored reference infusion information, wherein the reference infusion information comprises at least one of medical advice, medical treatment scheme and a drug library; judging whether the infusion parameters of any infusion pump are abnormal according to the reference infusion information; if the infusion parameters of any one of the infusion pumps are normal, determining that the setting of the infusion parameters of any one of the infusion pumps is normal; if the infusion parameters of any one of the infusion pumps are abnormal, generating target prompt information according to the infusion parameters of any one of the infusion pumps, wherein the target prompt information is used for prompting that the setting of the infusion parameters of any one of the infusion pumps has a problem; and outputting the target prompt information.

Wherein, the outputting the target prompt information may be: displaying target prompt information through a display screen of a workstation and/or a display screen of each of the at least two infusion pumps; and/or broadcasting the target prompt information through a voice device of the infusion system. The number of the voice devices is not particularly limited, and the voice devices may be disposed on the workstation or the infusion pump.

It can be seen that, in this example, before the infusion system gathers the infusion parameters of the infusion pump, if the completion of the setting of the infusion parameters of one infusion pump is detected, at least one of the medical advice, the medical solution and the drug library is acquired to perform the authenticity verification on the set infusion parameters of the infusion pump, the gathering operation is performed only when the verification result is normal, and the user is prompted that the infusion parameters of the infusion pump have a problem when the verification result is abnormal, so that the error rate of the infusion system for performing the drug infusion is reduced.

In one possible example, the method further comprises: detecting that the infusion pump outputs liquid medicine in the at least two infusion pumps, and determining the identification number and the infusion starting time of the infusion pump which is currently used for infusion; acquiring the infusion end time of the infusion pump currently performing infusion; obtaining the residual infusion duration of the infusion pump for the current infusion according to the infusion starting time and the infusion ending time of the infusion pump for the current infusion; displaying the identification number of the infusion pump currently performing infusion and the residual infusion duration through a display screen of the workstation; and/or displaying the residual infusion duration through a display screen of the infusion pump currently performing infusion.

Optionally, the obtaining the remaining infusion duration of the infusion pump currently performing infusion according to the infusion start time and the infusion end time of the infusion pump currently performing infusion includes: obtaining the total infusion duration of the current infusion according to the infusion starting time and the infusion ending time of the infusion pump for the current infusion; acquiring current system time, and determining the infused duration of the infusion pump currently infusing according to the current system time and the infusion starting time; and determining the residual infusion duration according to the infused duration and the total infusion duration.

In a specific implementation, in the infusion system, if the infusion pump a is infusing, the identification number of the infusion pump a is 001, the infusion start time is 9:30 am, the infusion end time is 11:30 am, the total infusion time of the infusion pump 001 is two hours, and if the current system time is 9:46, the infusion duration is 16 minutes, the remaining infusion duration is 1 hour and 44 minutes according to the total infusion time of two hours and the infusion duration of 16 minutes, 001 can be displayed on a display screen of a workstation to be infused, the remaining infusion duration is 1 hour and 44 minutes, the infusion is displayed on a display screen of an infusion pump 001, and the remaining infusion duration is 1 hour and 44 minutes.

In this example, the infusion system can determine the identification number and the remaining infusion duration of the infusion pump currently performing the infusion, and display the identification number and the remaining infusion duration of the infusion pump currently performing the infusion on a display screen of the workstation, and/or display the remaining infusion duration on a display screen of the infusion pump currently performing the infusion, so that the user can conveniently know the condition of the infusion in progress in real time.

Referring to fig. 3, fig. 3 is a schematic structural diagram of an infusion pump according to an embodiment of the application. As shown in fig. 3, the infusion pump 300 includes a processor 310, a memory 320, a communication interface 330, and one or more programs 321, the processor 310 being communicatively coupled to the memory 320, the communication interface 330 via an internal communication bus, as shown in fig. 3.

Wherein the one or more programs 321 are stored in the memory 320 and configured to be executed by the processor 310, the one or more programs 321 comprising instructions for performing any of the method embodiments described below.

The Processor 310 may be, for example, a central processing unit (Central Processing Unit, CPU), a general purpose Processor, a digital signal Processor (DIGITAL SIGNAL Processor, DSP), an Application-specific integrated Circuit (ASIC), a field programmable gate array (Field Programmable GATE ARRAY, FPGA) or other programmable logic device, a transistor logic device, a hardware component, or any combination thereof. Which may implement or perform the various exemplary logic blocks, units and circuits described in connection with this disclosure. Processor 310 may also be a combination that performs computing functions, e.g., including one or more microprocessors, a combination of a DSP and a microprocessor, and the like.

Memory 320 may be volatile memory or nonvolatile memory, or may include both volatile and nonvolatile memory. The nonvolatile memory may be a read-only memory (ROM), a Programmable ROM (PROM), an erasable programmable ROM (erasable PROM), an electrically erasable programmable EPROM (EEPROM), or a flash memory. The volatile memory may be random access memory (random access memory, RAM) which acts as external cache memory. By way of example, and not limitation, many forms of random access memory (random access memory, RAM) are available, such as static random access memory (STATIC RAM, SRAM), dynamic Random Access Memory (DRAM), synchronous Dynamic Random Access Memory (SDRAM), double data rate synchronous dynamic random access memory (double DATA RATE SDRAM, DDR SDRAM), enhanced synchronous dynamic random access memory (ENHANCED SDRAM, ESDRAM), synchronous link dynamic random access memory (SYNCHLINK DRAM, SLDRAM), and direct memory bus random access memory (direct rambus RAM, DR RAM).

Referring to fig. 4A, fig. 4A is a flowchart of another method for controlling infusion of a liquid medicine according to an embodiment of the present application, and as shown in fig. 4A, the method may be performed by an infusion pump, and as shown in fig. 4A, the method may be applied to the infusion pump 300 shown in fig. 3, and the infusion pump includes at least two medicine bags, and as shown in fig. 4A, the method for controlling infusion of a liquid medicine includes steps S201 to S203:

S201, acquiring infusion parameters of each of the at least two medicine bags, wherein the infusion parameters comprise identification numbers of the medicine bags and infusion control parameters, and the infusion control parameters comprise infusion starting time.

Wherein the identification number of the medicine bag includes, but is not limited to, the number of the medicine bag. Furthermore, the infusion control parameters may also include, but are not limited to, at least one of end of infusion time, length of infusion, infusion rate, and infusion volume.

In a specific implementation, the infusion start time of a single medicine bag can be at least one, if the infusion start time of the medicine bag is only one, the infusion pump can be switched to the medicine bag at the infusion start time and control the medicine bag to output the medicine liquid, and if the infusion start time of the medicine bag is at least two, the infusion pump can be switched to the medicine bag at the at least two infusion start times and control the medicine bag to output the medicine liquid.

And S202, summarizing the infusion parameters of the at least two medicine bags according to the sequence from front to back of the infusion starting time.

And when the infusion starting time of the two or more medicine bags is detected to be the same in the process of summarizing the infusion parameters of the at least two medicine bags according to the sequence from front to back of the infusion starting time, summarizing the infusion parameters of the two or more medicine bags with the same infusion starting time according to the serial numbers of the medicine bags from large to small.

For example, the infusion pump includes a medicine bag 01 and a medicine bag 02, the infusion start time of the medicine bag 01 is 9 am, the infusion start time of the medicine bag 2 is 9 am and 4 pm, and the infusion parameters of the medicine bag 1 and the medicine bag 2 are summarized according to the 9 am and the 4 pm respectively, and the infusion start time of the medicine bag 1 and the infusion start time of the medicine bag 2 each include 9 am, so that the infusion parameters of the medicine bag 1 corresponding to 9 am are summarized according to the order of the numbers of the medicine bags from large to small, and the infusion parameters of the medicine bag 2 corresponding to 9 am are summarized.

S203, respectively controlling the at least two medicine bags to output medicine liquid according to the summarized infusion parameters of the at least two medicine bags.

In a specific implementation, the controlling the at least two medicine bags to output the medicine liquid according to the summarized infusion parameters of the at least two medicine bags respectively includes: detecting that the current system time is the infusion starting time of the medicine bag to be infused, and connecting the infusion channel of the medicine bag to be infused according to the identification number of the medicine bag to be infused so as to facilitate the medicine bag to be infused to output liquid medicine.

In addition, when the infusion control parameter includes an infusion end time or an infusion duration, the controlling the at least two drug bags to output the drug solution according to the summarized infusion parameters of the at least two drug bags respectively further includes: detecting that the current system time is the infusion ending starting time of the medicine bag being infused or detecting that the infusion time of the medicine bag being infused reaches the preset infusion time of the medicine bag being infused, cutting off the infusion channel of the medicine bag to be infused so as to facilitate the medicine bag to be infused to stop the medicine liquid.

It can be seen that, in this example, the infusion pump can control the liquid medicine infusion of two at least medicine bags through the setting of the infusion parameter of two at least medicine bags in the infusion pump, realizes regularly infusing the liquid medicine, promotes the intelligent and the convenience of liquid medicine infusion.

In one possible example, the obtaining infusion parameters for each of the at least two drug bags includes step D1 and step D2, or includes step D1 and step D3, wherein:

D1, detecting an infusion parameter setting starting operation, and displaying a parameter input interface on a display screen of the infusion pump according to the starting operation;

D2, the parameter input interface comprises a first input area, the input of a target identification number of a target medicine bag which is required to be set currently is detected to be completed through the first input area, the parameter input interface is updated, the updated parameter input interface is obtained, the updated parameter input interface is displayed on a display screen of the infusion pump, and the updated parameter input interface comprises a second input area; detecting that the input of the target infusion starting time is completed through the second input area, and determining the target identification number and the target infusion starting time as the infusion parameters of the target medicine bag;

And D3, the parameter input interface comprises the first input area and the second input area, the input of a target identification number of a target medicine bag which is required to be set currently is detected to be completed through the first input area, the input of a target infusion starting time is completed through the second input area, and the target identification number and the target infusion starting time are determined to be the infusion parameters of the target medicine bag.

Wherein the infusion parameter setting initiation operation may be, but is not limited to, an initiation operation directed to a specific key set in advance provided on the infusion pump.

In a specific implementation, the first input area may include a medicine bag identification number input box, a medicine bag identification number determining button and a medicine bag identification number modifying button, when the user inputs the medicine bag identification number through the medicine bag identification number input box, the user clicks the medicine bag identification number determining button, the input of the medicine bag identification number is completed, the medicine bag identification number is in a locking state, that is, the currently input medicine bag identification number is determined, if the user clicks the medicine bag identification number modifying button, the medicine bag identification number is in an editable state, and at this time, the user can modify the medicine bag identification number input in the medicine bag identification number input box. The second input area may include an infusion start time input box, an infusion start time determination button, and an infusion start time modification button, when the user inputs the infusion start time through the infusion start time input box, the user clicks the infusion start time determination button, and the infusion start time is in a locked state, that is, the currently input infusion start time is already determined, and if the user clicks the infusion start time modification button, the infusion start time is in an editable state, and at this time, the user may modify the input infusion start time in the infusion start time input box.

It will be appreciated that where the parameter input interface includes a first input area and a second input area, the identification number of the medication bag and the infusion start time of the medication bag may be obtained together through the parameter input interface.

For example, referring to fig. 4B, fig. 4B is an interface schematic diagram of a parameter input interface of an infusion pump provided by the embodiment of the present application, when a user performs the above-mentioned infusion parameter setting start operation, the infusion pump displays the parameter input interface shown in fig. 4B on a display screen, where the parameter input interface includes a first input area presented in a dashed line box 06 and a second input area presented in a dashed line box 07, the first input area includes a text prompt 060 of a "medicine bag identifier", an input box 061 of a medicine bag identifier, a medicine bag identifier determination button 062 displaying "determining" and a medicine bag identifier modification button 063 displaying "modifying", the second input area 07 includes a text prompt 070 of "infusion start time", an input box 071 displaying "determining" infusion start time, and an input start time modification button 073 displaying "modifying", and the user clicks the "determining" medicine bag identifier "after inputting" 001 "in the input box 061 of the medicine bag identifier, and further clicks the" determining "bag identifier" by inputting "13 in the input box 071: 30", then click on the" ok "infusion start time determination button 072, the infusion parameters of the obtained drug bag are determined as follows: the drug bag identification number is 001, and the infusion starting time is 13:30.

It will be appreciated that where the parameter input interface includes a first input area, after the identification number of the medication bag is obtained through the first input area, the parameter input interface needs to be updated and the updated parameter input interface includes a second input area to further obtain the infusion start time of the medication bag.

The updated parameter input interface may include only the second input area, and the updated parameter input interface may also include the first infusion area and the second input area, where the positions of the first infusion area and the second input area are not specifically limited.

For example, referring to fig. 4C, fig. 4C is an interface schematic diagram of a parameter input interface of another infusion pump provided by the embodiment of the present application, fig. 4D is an interface schematic diagram of a parameter input interface of another infusion pump provided by the embodiment of the present application, as shown in fig. 4C and fig. 4D, when the user performs the above-mentioned infusion parameter setting start operation, the infusion pump will display the parameter input interface shown in fig. 4C on the display screen, the parameter input interface includes a first input area 08 presented in a dashed line box, the first input area 08 includes a text prompt 080 of "a medicine bag identification number", an input box 081 displaying "ok" medicine bag identification number "and a medicine bag identification number modifying button 083 displaying" modify "after the user inputs" 001 "in the input box of the medicine bag identification number, if the user clicks the medicine bag identification number determining button 082, the parameter input interface shown in fig. 4D is displayed on the display screen of the infusion pump, the first input area 08 includes a text prompt 080 of" medicine bag identification number "in the dashed line box, the input box 091 includes a second input start time is displayed in the input box 091, the start time is displayed 093, and the start time is displayed 091 is displayed in the input box 09, and the start time is displayed in the input box 091 is displayed as" start time of infusion "is displayed" input "is displayed" is 091 ". 30", if the user clicks the" ok "infusion start time determination button 092, the infusion parameters of the obtained pouch are determined as follows: the drug bag identification number is 001, and the infusion starting time is 13:30.

It can be seen that, in this example, the infusion pump can obtain the infusion parameter of all or some medicine bags in this infusion pump through the display screen unification of infusion pump, promotes the intelligent of infusion pump acquisition medicine bag's infusion parameter.

In one possible example, the pouch is communicatively connected to an electronic device, and the obtaining the infusion parameter for each of the at least two pouches includes: receiving an infusion parameter uploading request from the electronic equipment, wherein the infusion parameter uploading request comprises identification code information of identification number electronic equipment of the electronic equipment and infusion parameters of at least one medicine bag in the at least two medicine bags; generating an infusion parameter uploading authentication interface according to identification code information of identification number electronic equipment of the electronic equipment, wherein the infusion parameter uploading authentication interface comprises a first control, and the first control is used for confirming permission of transmitting the infusion parameters on the electronic equipment; upon detecting a first operation on the first control, controlling the electronic device to upload infusion parameters of at least one of the at least two pouches to the infusion pump in response to the first operation.

In a specific implementation, when a user needs to set an infusion parameter of a medicine bag in an infusion pump through electronic equipment, the electronic equipment and the infusion pump can be in communication connection in advance, after connection is established, the user can send an infusion parameter uploading request to the infusion pump through the electronic equipment, after the infusion pump receives the infusion parameter uploading request of the electronic equipment, an infusion parameter uploading authentication interface is generated based on identification code information of the electronic equipment carried by the infusion parameter uploading request, the infusion parameter uploading authentication interface comprises a first control for displaying yes or not, and after clicking operation of the first control for displaying yes is detected, the infusion pump controls the electronic equipment to upload the infusion parameter of at least one medicine bag in the at least two medicine bags to the infusion pump.

In this example, the infusion pump is in communication connection with other electronic devices, and in the case that the infusion pump is authorized, the infusion parameters of all or part of the medicine bags in the infusion pump can be obtained through other electronic devices, so that convenience in obtaining the infusion parameters of the medicine bags by the infusion pump is improved.

In one possible example, after the summarizing of the infusion parameters of the at least two drug bags according to the order of the infusion start time from front to back, the method further comprises: displaying the summarized infusion parameters of the at least two medicine bags through a display screen of the infusion pump; monitoring a second operation of infusion parameters for the summarized at least two drug bags in a display screen of the infusion pump; detecting the second operation as a modification operation for a target infusion parameter of the infusion parameters of the at least two drug bags, and judging whether the target infusion parameter after modification and the target infusion parameter before modification are the same in response to the second operation; if not, updating the target infusion parameters to the modified target infusion parameters; if the target infusion parameters are the same, generating first prompt information, wherein the first prompt information is used for prompting that the current modification of the target infusion parameters is invalid; and outputting the first prompt information.

In a specific example, after summarizing infusion parameters of three drug bags 1, 2 and 3 in an infusion pump, displaying the summarized infusion parameters of the three drug bags on a display screen of the infusion pump, and if the user modifies the infusion speed 1 and the identification number a of the drug bag 1 in the summarized infusion parameters of the three drug bags, updating the identification number a in the summarized infusion parameters of the three infusion pump to be the infusion speed modified by the user under the condition that the modified infusion speed is the same as the infusion speed before modification and the identification number a after modification is different, generating prompt information similar to the infusion speed 1 and invalid for the current modification, and outputting the prompt information.

Therefore, in this example, the infusion pump can modify the infusion parameters of the summarized medicine bags through the display screen of the infusion pump, and when the modified infusion parameters are the infusion parameters except the identification number, the medicine bags are controlled to automatically update the modified infusion parameters, so that the medicine bags are dynamically controlled to perform medicine liquid infusion, the infusion coordination capacity of the infusion pump to the medicine liquid is improved, and the user can monitor and control the medicine liquid infusion of the medicine bags through the infusion pump conveniently.

In one possible example, before the summarizing the infusion parameters of the at least two drug bags according to the order of the infusion start time from front to back, the method further comprises: detecting that the infusion parameters of any one of the at least two medicine bags are set, and acquiring preset reference infusion information, wherein the reference infusion information comprises at least one of medical advice, medical treatment scheme and medicine library; judging whether the infusion parameters of any medicine bag are abnormal according to the reference infusion information; if the infusion parameters of any medicine bag are normal, determining that the setting of the infusion parameters of any medicine bag is normal; if the infusion parameters of any medicine bag are abnormal, generating second prompt information according to the infusion parameters of any medicine bag, wherein the second prompt information is used for prompting that the setting of the infusion parameters of any medicine bag has problems; and outputting the second prompt information.

Wherein, the outputting the target prompt information may be: displaying target prompt information through a display screen of the infusion pump; and/or broadcasting the target prompt information through a voice device of the infusion pump.

Therefore, in this example, before the infusion parameters of the medicine bags are summarized, if the completion of the setting of the infusion parameters of one medicine bag is detected, at least one of the medical advice, the medical solution and the medicine library is acquired to perform authenticity verification on the set infusion parameters of the medicine bag by referring to the infusion information, the summarizing operation is performed only when the verification result is normal, and the user is prompted that the infusion parameters of the medicine bag have problems when the verification result is abnormal, so that the error rate of the infusion pump for performing medicine infusion is reduced.

In one possible example, the method further comprises: detecting that medicine bags exist in the at least two medicine bags to output medicine liquid, and determining the identification number and the infusion starting time of the medicine bag for infusion at present; acquiring the infusion end time of the liquid medicine which is currently infused; obtaining the residual infusion quantity of the medicine bag for the current infusion according to the infusion starting time and the infusion ending time of the medicine bag for the current infusion; and displaying the identification number of the medicine bag currently infused and the residual infusion duration through a display screen of the infusion pump.

Optionally, the obtaining the remaining infusion duration of the currently infused medicine bag according to the infusion starting time and the infusion ending time of the currently infused medicine bag includes: obtaining the total infusion duration of the currently infused medicine bag according to the infusion starting time and the infusion ending time of the currently infused medicine bag; acquiring current system time, and determining the infused time length of the medicine bag currently infused according to the current system time and infusion starting time; and determining the residual infusion duration according to the infused duration and the total infusion duration.

In a specific implementation, in the infusion pump, if the drug bag A is infusing, the identification number is 01, the infusion starting time is 10:30 am, the infusion ending time is 11:30 am, the total infusion time of the drug bag 001 is 1 hour, and if the current system time is 11:21, the infusion duration is 51 minutes, the remaining infusion duration is 9 minutes according to the total infusion time of 1 hour and the infusion duration of 51 minutes, and the remaining infusion duration is 9 minutes through the display screen of the infusion pump, wherein 01 is displayed to be infused.

In this example, the infusion pump can determine the identification number and the remaining infusion duration of the currently infused drug bag, and display the identification number and the remaining infusion duration of the currently infused drug bag through the display screen of the infusion pump, so that the user can conveniently know the current infusion condition in real time.

Consistent with the embodiment of fig. 2A described above, the infusion system includes corresponding hardware structures and/or software modules that perform the functions of the embodiment of fig. 2A described above. Those of skill in the art will readily appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as hardware or combinations of hardware and computer software. Whether a function is implemented as hardware or computer software driven hardware depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The embodiment of the application can divide the functional units of the infusion system according to the method example, for example, each functional unit can be divided corresponding to each function, or two or more functions can be integrated in one processing unit. The integrated units may be implemented in hardware or in software functional units. It should be noted that, in the embodiment of the present application, the division of the units is schematic, which is merely a logic function division, and other division manners may be implemented in actual practice.

Referring to fig. 5, fig. 5 is a block diagram of functional units of an infusion system 500 according to an embodiment of the present application. The infusion system 500 includes:

An obtaining unit 510, configured to obtain an infusion parameter of each of the at least two infusion pumps, where the infusion parameter includes an identification number of the infusion pump and an infusion control parameter, and the infusion control parameter includes an infusion start time;

A summarizing unit 520, configured to summarize infusion parameters of the at least two infusion pumps according to a sequence from front to back of the infusion start time;

And the control unit 530 is used for respectively controlling the at least two infusion pumps to output the liquid medicine according to the summarized infusion parameters of the at least two infusion pumps.

The infusion system 500 may further comprise a storage unit 540 for storing program code and data of the information processing device. The storage unit 540 may be a memory.

As can be seen, the infusion system described in the embodiments of the present application comprises: the device comprises an acquisition unit, a control unit and a control unit, wherein the acquisition unit is used for acquiring the infusion parameters of each of at least two infusion pumps, the infusion parameters comprise the identification number of the infusion pump and the infusion control parameters, and the infusion control parameters comprise the infusion starting time; the summarizing unit is used for summarizing the infusion parameters of at least two infusion pumps according to the sequence from front to back of the infusion starting time; and the control unit is used for respectively controlling the at least two infusion pumps to output liquid medicine according to the infusion parameters of the at least two infusion pumps after the infusion parameters are summarized. According to the application, the liquid medicine infusion of at least two infusion pumps can be controlled by setting the infusion parameters of the at least two infusion pumps in the infusion system, so that the liquid medicine is infused at fixed time, and the intelligence and convenience of the liquid medicine infusion are improved.

In one possible embodiment, in terms of the acquiring the infusion parameter of each of the at least two infusion pumps, the acquiring unit 510 is specifically configured to:

Detecting an infusion parameter setting starting operation, and displaying a parameter input interface on a display screen of the workstation according to the starting operation;

The parameter input interface comprises a first input area, the input of a target identification number of a target infusion pump which is required to be set currently is detected to be completed through the first input area, the parameter input interface is updated, the updated parameter input interface is obtained, the updated parameter input interface is displayed on a display screen of the workstation, and the updated parameter input interface comprises a second input area; detecting that the input of the target infusion starting time is completed through the second input area, and determining the target identification number and the target infusion starting time as the infusion parameters of the target infusion pump;

Or the parameter input interface comprises a first input area and a second input area, the input of a target identification number of a target infusion pump which is required to be set currently is detected to be completed through the first input area, the input of a target infusion starting time is completed through the second input area, and the target identification number and the target infusion starting time are determined to be the infusion parameters of the target infusion pump. In a possible embodiment, the workstation is communicatively connected to an electronic device, and the obtaining unit 510 is specifically configured to, in terms of obtaining the infusion parameter of each of the at least two infusion pumps: receiving an infusion parameter uploading request from the electronic device, wherein the infusion parameter uploading request comprises identification code information of the electronic device; generating an infusion parameter uploading authentication interface according to the identification code information of the electronic equipment, wherein the infusion parameter uploading authentication interface comprises a first control, and the first control is used for confirming that the transmission of the infusion parameters on the electronic equipment is allowed; upon detecting a first operation on the first control, controlling the electronic device to upload infusion parameters of at least one of the at least two infusion pumps to the workstation in response to the first operation.

In one possible embodiment, in terms of the acquiring the infusion parameter of each of the at least two infusion pumps, the acquiring unit 510 is specifically configured to: obtaining, by each of the at least two infusion pumps, its own infusion parameters and uploading the own infusion parameters to the workstation.

In one possible embodiment, the infusion system 500 further comprises an infusion parameter updating unit 550, said infusion parameter updating unit 550 being adapted to: after the infusion parameters of the at least two infusion pumps are summarized according to the sequence from front to back of the infusion starting time, displaying the summarized infusion parameters of the at least two infusion pumps through a display screen of the workstation; monitoring a second operation of the infusion parameters for the summarized at least two infusion pumps in a display screen of the workstation; detecting the second operation as a modification operation for a target infusion parameter of the infusion parameters of the at least two infusion pumps, and judging whether the target infusion parameter after modification and the target infusion parameter before modification are the same in response to the second operation; if not, updating the target infusion parameters in the summarized infusion parameters of the at least two infusion pumps to be the modified target infusion parameters.

In a possible embodiment, the infusion parameter updating unit 550 is further configured to: judging whether the modified target infusion parameter is the same as the target infusion parameter before modification or not, if not, judging the type of the target infusion parameter;

If the target infusion parameter is an infusion control parameter, determining a target identification number corresponding to the target infusion parameter; controlling an infusion pump where the target identification number is located to update the target infusion parameter to the modified target infusion parameter;

If the target infusion parameter is an identification number, acquiring a target infusion control parameter corresponding to the target infusion parameter; and controlling the infusion pump where the target infusion parameter is located to update the own infusion control parameter to the target infusion control parameter.

In one possible embodiment, the infusion system 500 further comprises an infusion parameter correction unit 560, said infusion parameter correction unit 560 being adapted to: before the infusion parameters of the at least two infusion pumps are summarized according to the sequence from front to back of the infusion starting time, detecting that the setting of the infusion parameters of any one of the at least two infusion pumps is finished, and acquiring pre-stored reference infusion information, wherein the reference infusion information comprises at least one of medical advice, medical treatment scheme and a drug library; judging whether the infusion parameters of any infusion pump are abnormal according to the reference infusion information; if the infusion parameters of any one of the infusion pumps are normal, determining that the setting of the infusion parameters of any one of the infusion pumps is normal; if the infusion parameters of any one of the infusion pumps are abnormal, generating target prompt information according to the infusion parameters of any one of the infusion pumps, wherein the target prompt information is used for prompting that the setting of the infusion parameters of any one of the infusion pumps has a problem; and outputting the target prompt information.

In one possible embodiment, the infusion system 500 further comprises an infusion pump display control unit for: detecting that the infusion pump outputs liquid medicine in the at least two infusion pumps, and determining the identification number and the infusion starting time of the infusion pump which is currently used for infusion; acquiring the infusion end time of the infusion pump currently performing infusion; obtaining the residual infusion duration of the infusion pump for the current infusion according to the infusion starting time and the infusion ending time of the infusion pump for the current infusion; displaying the identification number of the infusion pump currently performing infusion and the residual infusion duration through a display screen of the workstation; and/or displaying the residual infusion duration through a display screen of the infusion pump currently performing infusion.

Consistent with the embodiment shown in fig. 4A, the electronic device includes a hardware structure and/or software modules that perform the functions of the embodiment shown in fig. 4A. Those of skill in the art will readily appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as hardware or combinations of hardware and computer software. Whether a function is implemented as hardware or computer software driven hardware depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The embodiment of the application can divide the functional units of the electronic device according to the method example, for example, each functional unit can be divided corresponding to each function, and two or more functions can be integrated in one processing unit. The integrated units may be implemented in hardware or in software functional units. It should be noted that, in the embodiment of the present application, the division of the units is schematic, which is merely a logic function division, and other division manners may be implemented in actual practice.

Referring to fig. 6, fig. 6 is a block diagram showing functional units of a medical fluid infusion control device 600 according to an embodiment of the present application. The medical fluid infusion control apparatus 600 is applied to an infusion pump including at least two medical bags, and the medical fluid infusion control apparatus 600 includes:

An obtaining unit 610, configured to obtain an infusion parameter of each of the at least two drug bags, where the infusion parameter includes an identification number of the drug bag and an infusion control parameter, and the infusion control parameter includes an infusion start time;

A summarizing unit 620, configured to summarize infusion parameters of the at least two drug bags according to a sequence from front to back of the infusion start time;

And the control unit 630 is used for respectively controlling the at least two medicine bags to output medicine liquid according to the summarized infusion parameters of the at least two medicine bags.

It can be seen that the liquid medicine infusion control device described in the embodiment of the present application is applied to an infusion pump including at least two medicine bags, the liquid medicine infusion control device including: the device comprises an acquisition unit, a control unit and a control unit, wherein the acquisition unit is used for acquiring the infusion parameters of each of at least two medicine bags, the infusion parameters comprise the identification number of the medicine bag and the infusion control parameters, and the infusion control parameters comprise the infusion starting time; the summarizing unit is used for summarizing infusion parameters of at least two medicine bags according to the sequence from front to back of the infusion starting time; and the control unit is used for respectively controlling the at least two medicine bags to output medicine liquid according to the infusion parameters of the at least two medicine bags after the integration. According to the application, the liquid medicine infusion of at least two medicine bags can be controlled by setting the infusion parameters of at least two medicine bags in the infusion pump, so that the liquid medicine can be infused at fixed time, and the intelligence and convenience of the liquid medicine infusion are improved.

The medical fluid infusion control device 600 may further include a storage unit 640 for storing program codes and data of the information processing device. The storage unit 640 may be a memory.

In one possible embodiment, in terms of the acquiring infusion parameters of each of the at least two drug bags, the acquiring unit 610 is specifically configured to:

Detecting an infusion parameter setting starting operation, and displaying a parameter input interface on a display screen of the infusion pump according to the starting operation;

The parameter input interface comprises a first input area, the input of a target identification number of a target medicine bag which is required to be set currently is detected to be completed through the first input area, the parameter input interface is updated, the updated parameter input interface is obtained, the updated parameter input interface is displayed on a display screen of the infusion pump, and the updated parameter input interface comprises a second input area; detecting that the input of the target infusion starting time is completed through the second input area, and determining the target identification number and the target infusion starting time as the infusion parameters of the target medicine bag;

or the parameter input interface comprises a first input area and a second input area, the input of a target identification number of a target medicine bag which is required to be set currently is detected to be completed through the first input area, the input of a target infusion starting time is completed through the second input area, and the target identification number and the target infusion starting time are determined to be the infusion parameters of the target medicine bag. In one possible embodiment, in that the infusion pump is communicatively connected to an electronic device, the acquiring unit 610 is specifically configured to: receiving an infusion parameter uploading request from the electronic device, wherein the infusion parameter uploading request comprises identification code information of the electronic device and infusion parameters of at least one of the at least two medicine bags; generating an infusion parameter uploading authentication interface according to the identification code information of the electronic equipment, wherein the infusion parameter uploading authentication interface comprises a first control, and the first control is used for confirming that the transmission of the infusion parameters on the electronic equipment is allowed; upon detecting a first operation on the first control, controlling the electronic device to upload infusion parameters of at least one of the at least two pouches to the infusion pump in response to the first operation.

In one possible embodiment, the medical fluid infusion control apparatus 600 further includes an infusion parameter updating unit 650, and the infusion parameter updating unit 650 is configured to: after summarizing the infusion parameters of the at least two medicine bags according to the sequence from front to back of the infusion starting time, displaying the summarized infusion parameters of the at least two medicine bags through a display screen of the infusion pump; monitoring a second operation of infusion parameters for the summarized at least two drug bags in a display screen of the infusion pump; detecting the second operation as a modification operation for a target infusion parameter of the infusion parameters of the at least two drug bags, and judging whether the target infusion parameter after modification and the target infusion parameter before modification are the same in response to the second operation; if not, updating the target infusion parameters to the modified target infusion parameters; if the target infusion parameters are the same, generating first prompt information, wherein the first prompt information is used for prompting that the current modification of the target infusion parameters is invalid; and outputting the first prompt information.

In one possible embodiment, the medical fluid infusion control apparatus 600 further comprises an infusion parameter correction unit 660, the infusion parameter correction unit 660 being configured to: before the infusion parameters of the at least two medicine bags are summarized according to the sequence from front to back of the infusion starting time, detecting that the setting of the infusion parameters of any one of the at least two medicine bags is completed, and acquiring preset reference infusion information, wherein the reference infusion information comprises at least one of medical advice, medical treatment scheme and medicine library; judging whether the infusion parameters of any medicine bag are abnormal according to the reference infusion information; if the infusion parameters of any medicine bag are normal, determining that the setting of the infusion parameters of any medicine bag is normal; if the infusion parameters of any medicine bag are abnormal, generating second prompt information according to the infusion parameters of any medicine bag, wherein the second prompt information is used for prompting that the setting of the infusion parameters of any medicine bag has problems; and outputting the second prompt information.

In one possible embodiment, the medical fluid infusion control apparatus 600 further includes an infusion pump display control unit for: detecting that medicine bags exist in the at least two medicine bags to output medicine liquid, and determining the identification number and the infusion starting time of the medicine bag for infusion at present; acquiring the infusion end time of the liquid medicine which is currently infused; obtaining the residual infusion quantity of the medicine bag for the current infusion according to the infusion starting time and the infusion ending time of the medicine bag for the current infusion; and displaying the identification number of the medicine bag currently infused and the residual infusion duration through a display screen of the infusion pump.

The embodiment of the application also provides a computer storage medium, wherein the computer storage medium stores a computer program for electronic data exchange, and the computer program makes a computer execute part or all of the steps of any one of the above method embodiments, and the computer includes an electronic device.

Embodiments of the present application also provide a computer program product comprising a non-transitory computer-readable storage medium storing a computer program operable to cause a computer to perform part or all of the steps of any one of the methods described in the method embodiments above. The computer program product may be a software installation package, said computer comprising an electronic device.

It should be noted that, for simplicity of description, the foregoing method embodiments are all described as a series of acts, but it should be understood by those skilled in the art that the present application is not limited by the order of acts described, as some steps may be performed in other orders or concurrently in accordance with the present application. Further, those skilled in the art will also appreciate that the embodiments described in the specification are all preferred embodiments, and that the acts and modules referred to are not necessarily required for the present application.

In the foregoing embodiments, the descriptions of the embodiments are emphasized, and for parts of one embodiment that are not described in detail, reference may be made to related descriptions of other embodiments.

In the several embodiments provided by the present application, it should be understood that the disclosed apparatus may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, such as the above-described division of units, merely a division of logic functions, and there may be additional manners of dividing in actual implementation, such as multiple units or components may be combined or integrated into another system, or some features may be omitted, or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices or units, or may be in electrical or other forms.

The units described above as separate components may or may not be physically separate, and components shown as units may or may not be physical units, may be located in one place, or may be distributed over a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in the embodiments of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit. The integrated units may be implemented in hardware or in software functional units.

The integrated units described above, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable memory. Based on such understanding, the technical solution of the present application may be embodied in essence or a part contributing to the prior art or all or part of the technical solution in the form of a software product stored in a memory, comprising several instructions for causing a computer device (which may be a personal computer, a server or a network device, etc.) to perform all or part of the steps of the above-mentioned method of the various embodiments of the present application. And the aforementioned memory includes: a usb disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a removable hard disk, a magnetic disk, or an optical disk, or other various media capable of storing program codes.

Those of ordinary skill in the art will appreciate that all or a portion of the steps in the various methods of the above embodiments may be implemented by a program that instructs associated hardware, and the program may be stored in a computer readable memory, which may include: flash disk, read-Only Memory (ROM), random access Memory (Random Access Memory, RAM), magnetic disk or optical disk.

The foregoing has outlined rather broadly the more detailed description of embodiments of the application, wherein the principles and embodiments of the application are explained in detail using specific examples, the above examples being provided solely to facilitate the understanding of the method and core concepts of the application; meanwhile, as those skilled in the art will have variations in the specific embodiments and application scope in accordance with the ideas of the present application, the present description should not be construed as limiting the present application in view of the above.

Claims

1. An infusion system comprising a workstation and at least two infusion pumps, the infusion system being for:

Detecting that the infusion parameters of any one of the at least two infusion pumps are set, and acquiring pre-stored reference infusion information, wherein the reference infusion information comprises at least one of medical advice, medical treatment scheme and a drug library;

Judging whether the infusion parameters of any infusion pump are abnormal according to the reference infusion information; if the infusion parameters of any one of the infusion pumps are abnormal, generating target prompt information according to the infusion parameters of any one of the infusion pumps, wherein the target prompt information is used for prompting that the setting of the infusion parameters of any one of the infusion pumps has a problem; outputting the target prompt information;

If the infusion parameters of any one of the infusion pumps are normal, determining that the setting of the infusion parameters of any one of the infusion pumps is normal; summarizing the infusion parameters of the at least two infusion pumps according to the sequence from front to back of the infusion starting time, and summarizing the infusion parameters of the at least two infusion pumps with the same infusion starting time according to the sequence from big to small of the identification numbers of the infusion pumps when the infusion starting time of the at least two infusion pumps is detected to be the same;

Displaying the summarized infusion parameters of the at least two infusion pumps through a display screen of the workstation; monitoring a second operation of the infusion parameters for the summarized at least two infusion pumps in a display screen of the workstation; detecting the second operation as a modification operation for a target infusion parameter of the infusion parameters of the at least two infusion pumps, and judging whether the target infusion parameter after modification and the target infusion parameter before modification are the same in response to the second operation; if not, updating the target infusion parameters in the summarized infusion parameters of the at least two infusion pumps to be the modified target infusion parameters;

And respectively controlling the at least two infusion pumps to output liquid medicine according to the summarized infusion parameters of the at least two infusion pumps, detecting that the current system time is the infusion starting time of the infusion pump to be infused, generating a starting control instruction, and sending the starting control instruction to the infusion pump to be infused so as to facilitate the starting of the infusion pump to be infused to output the liquid medicine.

2. The system according to claim 1, wherein in terms of obtaining infusion parameters of each of the at least two infusion pumps, the infusion system is specifically configured to:

Or the parameter input interface comprises a first input area and a second input area, the input of a target identification number of a target infusion pump which is required to be set currently is detected to be completed through the first input area, the input of a target infusion starting time is completed through the second input area, and the target identification number and the target infusion starting time are determined to be the infusion parameters of the target infusion pump.

3. The system of claim 1, wherein the workstation is communicatively coupled to an electronic device, wherein the infusion system is specifically configured to, in acquiring infusion parameters of each of the at least two infusion pumps:

Receiving an infusion parameter uploading request from the electronic device, wherein the infusion parameter uploading request comprises identification code information of the electronic device;

Generating an infusion parameter uploading authentication interface according to the identification code information of the electronic equipment, wherein the infusion parameter uploading authentication interface comprises a first control, and the first control is used for confirming that the transmission of the infusion parameters on the electronic equipment is allowed;

upon detecting a first operation on the first control, controlling the electronic device to upload infusion parameters of at least one of the at least two infusion pumps to the workstation in response to the first operation.

4. The system according to claim 1, wherein in terms of said obtaining infusion parameters of each of said at least two infusion pumps, said infusion system is specifically adapted to:

Obtaining, by each of the at least two infusion pumps, its own infusion parameters and uploading the own infusion parameters to the workstation.

5. The system of claim 1, wherein after determining whether the target infusion parameter after modification and the target infusion parameter before modification are the same, the infusion system is further configured to:

If not, judging the type of the target infusion parameters;

6. The system of any one of claims 1-5, wherein the infusion system further comprises an infusion pump display control unit, the infusion system configured to:

Detecting that the infusion pump outputs liquid medicine in the at least two infusion pumps, and determining the identification number and the infusion starting time of the infusion pump which is currently used for infusion;

Acquiring the infusion end time of the infusion pump currently performing infusion;

obtaining the residual infusion duration of the infusion pump for the current infusion according to the infusion starting time and the infusion ending time of the infusion pump for the current infusion;

displaying the identification number of the infusion pump currently performing infusion and the residual infusion duration through a display screen of the workstation; and/or the number of the groups of groups,

And displaying the residual infusion duration through a display screen of the infusion pump currently performing infusion.

7. An infusion pump comprising at least two drug bags, the infusion pump being for:

detecting that the infusion parameters of any one of the at least two medicine bags are set, and acquiring preset reference infusion information, wherein the reference infusion information comprises at least one of medical advice, medical treatment scheme and medicine library;

Judging whether the infusion parameters of any medicine bag are abnormal according to the reference infusion information; if the infusion parameters of any one of the medicine bags are abnormal, generating second prompt information according to the infusion parameters of any one of the medicine bags, wherein the second prompt information is used for prompting that the setting of the infusion parameters of any one of the medicine bags is problematic; outputting the second prompt information;

if the infusion parameters of any one of the medicine bags are normal, determining that the setting of the infusion parameters of any one of the medicine bags is normal; summarizing infusion parameters of the at least two medicine bags according to the sequence from front to back of the infusion starting time;

displaying the summarized infusion parameters of the at least two medicine bags through a display screen of the infusion pump;

Monitoring a second operation of infusion parameters for the summarized at least two drug bags in a display screen of the infusion pump; detecting the second operation as a modification operation for a target infusion parameter of the infusion parameters of the at least two drug bags, and judging whether the target infusion parameter after modification and the target infusion parameter before modification are the same in response to the second operation; if not, updating the target infusion parameters to the modified target infusion parameters;

And respectively controlling the at least two medicine bags to output medicine liquid according to the summarized infusion parameters of the at least two medicine bags, detecting that the current system time is the infusion starting time of the medicine bag to be infused, and connecting the infusion channel of the medicine bag to be infused according to the identification number of the medicine bag to be infused so as to facilitate the medicine bag to be infused to output the medicine liquid.

8. Infusion pump according to claim 7, characterized in that it is particularly adapted to, in terms of obtaining infusion parameters of each of said at least two bags:

Or the parameter input interface comprises a first input area and a second input area, the input of a target identification number of a target medicine bag which is required to be set currently is detected to be completed through the first input area, the input of a target infusion starting time is completed through the second input area, and the target identification number and the target infusion starting time are determined to be the infusion parameters of the target medicine bag.

9. The infusion pump of claim 7, wherein the infusion pump is communicatively coupled to an electronic device, the infusion pump being specifically configured to, in terms of obtaining infusion parameters for each of the at least two drug bags:

Receiving an infusion parameter uploading request from the electronic device, wherein the infusion parameter uploading request comprises identification code information of the electronic device and infusion parameters of at least one of the at least two medicine bags;

upon detecting a first operation on the first control, controlling the electronic device to upload infusion parameters of at least one of the at least two pouches to the infusion pump in response to the first operation.

10. The infusion pump of claim 7, wherein after said determining in response to said second operation whether said target infusion parameter after modification and said target infusion parameter before modification are the same, said infusion pump is further configured to:

If the target infusion parameters are the same, generating first prompt information, wherein the first prompt information is used for prompting that the current modification of the target infusion parameters is invalid; and outputting the first prompt information.

11. The infusion pump of any one of claims 7-10, further comprising:

Detecting that medicine bags exist in the at least two medicine bags to output medicine liquid, and determining the identification number and the infusion starting time of the medicine bag for infusion at present;

Acquiring the infusion end time of the liquid medicine which is currently infused;

obtaining the residual infusion quantity of the medicine bag for the current infusion according to the infusion starting time and the infusion ending time of the medicine bag for the current infusion;

And displaying the identification number of the medicine bag currently infused and the residual infusion duration through a display screen of the infusion pump.