CN113018587A - Artificial intelligent micro-injection pump control system and method thereof - Google Patents

Abstract

The invention provides an artificial intelligent micro-injection pump control system which comprises a self-checking function module, an operation guide module, a two-dimensional code identification induction module, an input module, a storage module, a synchronization module, an operation module, a fault alarm module and a wireless Internet of things module, wherein the two-dimensional code identification induction module is connected with the input module; the control method of the system comprises the following steps: s1) starting up, self-checking and networking the system; s2) implementing operation according to the operation guide, inputting patient information and medication information; s3), checking and correcting the information, if the checking is correct, operating, otherwise, reporting an error prompt; s4) ends the operation, and enters a standby state. The invention has the advantages that: an AI-intelligent chip is additionally arranged to implant a micro-injection pump, so that a series of functions such as artificial intelligence and the like are added; the remote networking can not only communicate data, but also check the medication information, and ensure the use safety of the remote monitoring micro-injection pump.

Description

Artificial intelligent micro-injection pump control system and method thereof

Technical Field

The invention relates to the technical field of medical instruments, in particular to an artificial intelligent micro-injection pump control system and a method thereof.

Background

The micro-injection pump is a novel pump force instrument, consists of a controller, an actuating mechanism and an injector, and can accurately, micro, uniformly and continuously output a small amount of fluid.

At present, a micro-injection pump for clinical application lacks artificial intelligence detection and prompt functions, completely depends on manual setting of speed, time and the like, and has potential safety hazards. In case of wrong setting of the administration rate of the high-warning drug, for example, wrong setting of 5.0ml/h to 50ml/h can cause serious adverse effects and even endanger the life of a patient.

In response to a guaranteed safe administration (GOAL 3) and a safe use device alarm (goal.6) as set forth in international patient safety objective 2021, the present invention proposes a novel AI micro-syringe pump. On the basis of the technology of a common micro-injection pump, the invention implants an AI-intelligent chip into the micro-injection pump, and adds the functions of artificial intelligent input, detection and prompt, thereby standardizing the operation flow and ensuring the safety of medication.

Disclosure of Invention

The invention aims to provide an artificial intelligent micro-injection pump control system and a method thereof, which are safe to use and convenient to operate.

In order to achieve the purpose, the invention is realized by the following technical scheme:

an artificial intelligence micro-injection pump control system comprises a self-checking function module, an operation guide module, a two-dimension code identification induction module, an input module, a storage module, a synchronization module, an operation module, a fault alarm module and a wireless Internet of things module;

the self-checking function module is used for self-checking of the system, and detecting whether related functions of the system, the motor, the operation module, the fault alarm module, the input module and the like are normal or not;

the operation guide module can guide an operator to operate according to steps through subtitles of a display screen of the equipment and voice prompts of a loudspeaker of the equipment;

the two-dimensional code identification induction module respectively guides patient information or medication information into the control system by scanning a two-dimensional code labeled on a patient wrist strap or an injector through a scanning gun;

the input module is used for an operator to manually input medicine infusion information and leading in patient and medicine information through the two-dimensional code identification induction module;

the storage module is used for storing patient information, drug infusion information, operation records and alarm content records;

the synchronous module is used for checking and correcting the patient and medication information led in by the two-dimensional code identification induction module, the drug infusion information input by an operator and the information of the remote medical advice medication system;

the operation module indicates and drives the execution mechanism and the injector to operate through the control system;

the fault alarm module reminds an operation error through voice or display screen captions or light sensation display, and is in communication connection with the synchronous module;

the wireless Internet of things module can realize remote communication between the control system and the medical advice medication system.

Further, the control system also comprises an infusion pressure detection module, wherein the infusion pressure detection module is used for detecting the hydraulic pressure during drug infusion, dynamically displaying the drug infusion amount and sensing the infusion pressure, if the sensed pressure is abnormal, vein blockage, pipeline disconnection, torsion, bubbles mixed during liquid infusion and the like occur, and at the moment, the fault alarm module carries out early warning or alarm.

Further, operation guide information, a touch key area, patient information and medication information are displayed on the display screen of the equipment, the operation guide information is displayed in a bright color font or a dark color font, the bright color font is displayed in an unoperated step, and the dark color font is displayed in an operated step.

Further, the touch key area of the device display screen comprises a number key, a check key, a start key, a reset key, a fast forward key and a stop key; the decimal point display in the device display screen is distinguished from the conventional digital display.

An artificial intelligent micro-injection pump control method comprises the following steps:

s1) starting up and self-checking a micro-injection pump control system, and networking the control system with a remote medical advice medication system;

s2) performing operation according to operation guidance, scanning the two-dimensional codes on the patient wrist strap and the injector by using the scanning gun, and introducing patient information and medication information into the control system, wherein the operator inputs medication infusion information into the control system;

s3) the information of the patient, the medication information and the medication infusion information received by the control system is checked and corrected with the medication system of the remote medical advice, if the information is checked correctly, the execution mechanism and the injector are driven to operate, and if the information is not checked correctly, an error is reported to remind and the medication infusion information is reset;

s4), the operation is finished, and the control system parameters are reset to zero and are in a standby state.

Further, the drug infusion information is an injection rate.

Compared with the prior art, the invention has the following advantages:

the invention relates to an artificial intelligence micro-injection pump control system, which is additionally provided with an AI-intelligent chip to implant a micro-injection pump on the basis of a conventional micro-injection pump, thereby adding new functional modules of system self-check, artificial intelligence input, artificial intelligence setting, artificial intelligence detection, intelligent prompt, operation flow guidance and the like; the system is connected with a remote doctor's advice medicine taking system, a scanning gun, a mobile nurse station and the like in a network, so that data can be communicated, medicine taking information can be checked and corrected, and the use safety of the micro-injection pump can be remotely monitored; the device display screen displays the operation flow, the liquid medicine infusion speed, the infusion amount, the operation indicator lamp and the touch key area, clearly displays the operation steps and the operation data, and the decimal point display on the device display screen is obviously different from the conventional digital display, so that the correct operation is further facilitated, and the setting error can be effectively avoided; when a fault or an operation error occurs in the operation process, the system can timely warn and report the error, thereby ensuring the use safety.

Drawings

FIG. 1 is a schematic diagram of the functional modules of an artificial intelligence microinjection pump control system according to the present invention.

FIG. 2 is a schematic flow chart of a control method of an artificial intelligence microinjection pump according to the present invention.

FIG. 3 is a schematic view of an apparatus display screen of an artificial intelligence micro-syringe pump of the present invention.

Detailed Description

Embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

As shown in figure 1, an artificial intelligence microinjection pump control system comprises a self-checking function module, an operation guide module, a two-dimension code identification induction module, an input module, a storage module, a synchronization module, an operation module, an infusion pressure detection module, a fault alarm module and a wireless Internet of things module.

The self-checking function module is used for self-checking of the system and detecting whether related functions of the system, the motor, the operation module, the fault alarm module, the input module and the like are normal or not.

The operation guide module can guide an operator to operate according to steps through subtitles of a display screen of the equipment and voice prompts of a loudspeaker of the equipment. And displaying operation guide information, a touch key area, patient information and medication information on the display screen of the equipment, wherein the operation guide information is displayed by adopting a bright-color font or a dark-color font, the bright-color font is displayed in an unoperated step, and the dark-color font is displayed in an operated step. The touch key area of the device display screen comprises a number key, a check key, a start key, a reset key, a fast forward key and a stop key; the decimal point display in the display screen of the equipment is different from the conventional number display, namely, the decimal point is obviously raised by pressing keys and has a color different from that of the conventional number keys.

The two-dimensional code identification induction module respectively guides patient information or medicine information into the control system through the two-dimensional code of the label on the scanning gun scanning patient wrist strap or the injector, the guided information is displayed on the equipment display screen, and the scanning gun is networked with the control system.

The input module is used for inputting the injection speed of the medicine by an operator, the injection speed of the medicine is the key of medicine taking safety, the medicine is led into a patient and medicine taking information through the two-dimensional code identification sensing module, and the CHECK key is pressed on the display screen to detect whether the injection speed of the manually input medicine is consistent with the medicine taking information led in by the two-dimensional code.

The storage module is used for storing patient information, drug infusion information, operation records and alarm content records.

The synchronous module is used for checking and correcting the patient and medication information led in by the two-dimensional code identification sensing module, the injection speed of the medicine input by an operator and the information of the remote medical advice medication system.

The operation module indicates and drives the execution mechanism and the injector to operate through the control system.

The infusion pressure detection module is used for detecting hydraulic pressure during drug infusion, dynamically displaying drug infusion amount and sensing infusion pressure, if the sensed pressure is abnormal, vein blockage, pipeline disconnection and torsion, bubbles mixed during liquid infusion and the like occur, and at the moment, the fault alarm module carries out early warning or alarm.

The fault alarm module reminds an operation error through voice or display screen caption or light sensation display, is in communication connection with the synchronization module, and timely reports an error when the synchronization module checks information.

The wireless Internet of things module can realize remote communication between the control system and the medical advice medication system.

An artificial intelligence micro-injection pump control method, as shown in fig. 2, comprises the following steps:

s1) starting up and self-checking a micro-injection pump control system, and networking the control system with a remote medical advice medication system;

s2) performing operation according to operation guidance, scanning the two-dimensional codes on the patient wrist strap and the injector by using the scanning gun, and introducing patient information and medication information into the control system, wherein the operator inputs medication infusion information into the control system;

s3) the information of the patient, the medication information and the medication infusion information received by the control system is checked and corrected with the medication system of the remote medical advice, if the information is checked correctly, the execution mechanism and the injector are driven to operate, and if the information is not checked correctly, an error is reported to remind and the medication infusion information is reset;

s4), the operation is finished, and the control system parameters are reset to zero and are in a standby state.

The technical solution of the present invention is further described in the following with specific examples.

As shown in fig. 3, the design size of the artificial intelligence micro-injection pump is 30cm in length, 8cm in width and 16cm in height, the upper part of the device is provided with an operation console provided with a display screen, the lower part of the device is provided with an execution mechanism and an injector, and the back surface and the inside of the device are provided with a USB interface, a loudspeaker, a motor and an intelligent chip. The size of the display screen is 20cm x 10cm, an operation guide System Test- > Set up- > Check- > Act is displayed above the display screen, an operator performs operation according to the operation guide, the bright font represents a step to be operated, the dark font represents an operated step, and safety and high efficiency of operation are further guaranteed.

The device is provided with an operation indicator light which can dynamically operate on a display screen and can also display the liquid quantity through the induction of the infusion pressure detection module. The decimal point display on the display screen is obviously different from the conventional number keys, the adjustable range is 0.01/h-99.99/h, the bright color display speed on the display screen and the voice prompt display speed are achieved simultaneously. The touch key area includes numeric keys, Check key, Act key, Esc key, Fast key, Stop key, alarm and mute keys. Wherein, alarm information (if the infusion is not smooth, the pipeline is thrown off, the infusion surplus is not enough etc.) carries out voice prompt, and corresponding digital code is matchd to different alarm information to be scintillation digit and remind in the lower left corner of display screen.

The system is externally connected with a scanning gun through a wireless Internet of things function or a USB interface, and medicine information is led in through two-dimensional code recognition and induction. The system has the functions of storage and memory, can store the infusion process, the operation record and the alarm content record, the alarm content record comprises unsmooth infusion, blocked infusion pipelines, stop running of an injection pump, falling of a pipeline, insufficient infusion liquid residual quantity, bubbles in the infusion liquid and the like, and the data can be exported through a USB interface. The system has an intelligent voice prompt function, all keys have the intelligent voice prompt function, and voice/caption/light sensation combined alarm can be realized. The system is set in a day and night mode, and the volume/screen brightness of the day and the night can be set in a user-defined mode and automatically switched.

The whole System is self-tested when the System is started, the self-testing mark 'System Test' on the display screen is changed from light color to dark color, and the voice prompts that the self-testing is passed. In the infusion process, the system detects the online pressure of the liquid infusion pipeline in real time, such as pipeline blockage, bubble existence and the like, and gives an alarm in real time. The system has an automatic screen locking function, and the digital keys automatically lock keys after the system runs to the Act operation.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and improvements can be made without departing from the spirit of the present invention, and these modifications and improvements should also be considered as within the scope of the present invention.

Claims (6)

1. An artificial intelligence microinjection pump control system which characterized in that: the system comprises a self-checking function module, an operation guide module, a two-dimension code identification induction module, an input module, a storage module, a synchronization module, an operation module, a fault alarm module and a wireless Internet of things module;

the self-checking functional module is used for self-checking of the system and checking whether related functions such as the system, the motor and the like are normal or not;

the operation guide module can guide an operator to operate according to steps through subtitles of a display screen of the equipment and voice prompts of a loudspeaker of the equipment;

the two-dimensional code identification induction module respectively guides patient information or medication information into the control system by scanning a two-dimensional code labeled on a patient wrist strap or an injector through a scanning gun;

the input module is used for an operator to manually input medicine infusion information and leading in patient and medicine information through the two-dimensional code identification induction module;

the storage module is used for storing patient information, drug infusion information, operation records and alarm content records;

the synchronous module is used for checking and correcting the patient and medication information led in by the two-dimensional code identification induction module, the drug infusion information input by an operator and the information of the remote medical advice medication system;

the operation module indicates and drives the execution mechanism and the injector to operate through the control system;

the fault alarm module reminds an operation error through voice or display screen captions or light sensation display, and is in communication connection with the synchronous module;

the wireless Internet of things module can realize remote communication between the control system and the medical advice medication system.

2. The artificial intelligence micro-syringe pump control system of claim 1, wherein: the control system further comprises an infusion pressure detection module, wherein the infusion pressure detection module is used for detecting hydraulic pressure during drug infusion, dynamically displaying drug infusion amount and sensing infusion pressure, if the sensed pressure is abnormal, vein blockage, pipeline disconnection and torsion are caused, bubbles are mixed during liquid infusion, and the like, and at the moment, the fault alarm module carries out early warning or alarm.

3. The artificial intelligence micro-syringe pump control system of claim 1, wherein: and displaying operation guide information, a touch key area, patient information and medication information on the display screen of the equipment, wherein the operation guide information is displayed by adopting a bright-color font or a dark-color font, the bright-color font is displayed in an unoperated step, and the dark-color font is displayed in an operated step.

4. An artificial intelligence micro-syringe pump control system according to claim 3, wherein: the touch key area of the device display screen comprises a number key, a check key, a start key, a reset key, a fast forward key and a stop key; the decimal point display in the device display screen is distinguished from the conventional digital display.

5. An artificial intelligence micro-injection pump control method is characterized by comprising the following steps:

s1) starting up and self-checking a micro-injection pump control system, and networking the control system with a remote medical advice medication system;

s2) performing operation according to operation guidance, scanning the two-dimensional codes on the patient wrist strap and the injector by using the scanning gun, and introducing patient information and medication information into the control system, wherein the operator inputs medication infusion information into the control system;

s3) the information of the patient, the medication information and the medication infusion information received by the control system is checked and corrected with the medication system of the remote medical advice, if the information is checked correctly, the execution mechanism and the injector are driven to operate, and if the information is not checked correctly, an error is reported to remind and the medication infusion information is reset;

s4), the operation is finished, and the control system parameters are reset to zero and are in a standby state.

6. The method of claim 5, wherein the method comprises: the drug infusion information is an injection rate.

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