CN105955112A - Intelligent transfusion monitoring system - Google Patents

Abstract

The invention discloses an intelligent transfusion monitoring system comprising a transfusion monitoring module and an APP module. According to the transfusion monitoring module, an infrared emitting tube and a photoelectric receiving tube are respectively arranged at the two sides of a drip cup. The photoelectric receiving tube receives a variable-intensity optical signal and then outputs a changing voltage signal, an amplifier circuit amplifies the voltage signal, an RC circuit shapes the voltage signal, a dual voltage comparator converts the voltage signal into a level signal to trigger external interrupt of a single chip microcomputer and counting, the total number of pulses is taken regularly from a timer to get the dropping speed, and the dropping speed information is sent through a network to the APP module.

Description

A kind of Intelligent transfusion monitoring system

Technical field

The present invention relates to medical instruments field, particularly relate to a kind of Intelligent transfusion monitoring system.

Background technology

Prior art has two kinds of transfusion monitoring systems:

The infusion monitor design monitored in real time based on transfusion speed and temperature, it uses infrared tube as sensor pair Drips acquisition counter, it is achieved transfusion speed and the monitoring of transfusion surplus.There is the functions such as certain transfusion speed monitoring.

The novel infusion monitor integrating monitoring temperature transfusion speed and residue amount of infusion monitoring, warning function etc. is defeated Liquid monitor, system be designed with modularization idea, be divided into monitoring infusion module, temperature control modules, alarm module, communication Module and human-computer interaction module.

Both shortcomings above-mentioned are: patient is interfered by existing buzzer siren, and hardware volume this height of great achievement, carries Inconvenience；The existing Novel alarming formula transfusion device response rate is low, and easily medicine is produced certain pollution；Avoid patient because processing individual Things and miss and pull out pin, change the liquid time, security incident occurs；It is big hardware device, not by clinical and convenient, popular intelligence Exploitation can be combined by mobile phone.

Summary of the invention

In order to overcome the shortcoming of above-mentioned prior art, the invention provides a kind of Intelligent transfusion monitoring system.

The invention provides a kind of Intelligent transfusion monitoring system, it is characterised in that described Intelligent transfusion monitoring system includes: Monitoring infusion module and APP module.

Described monitoring infusion module includes: be respectively provided with infrared transmitting tube and photoelectric receiving tube dripping kettle both sides；Photoelectricity connects The voltage signal of exporting change after the optical signal of closed tube receiving intensity change, voltage signal is amplified by amplifying circuit, RC circuit is whole After shape, being converted into level signal through twin voltage comparator, trigger single-chip microcomputer external interrupt and count, in intervalometer, timing takes arteries and veins Rush sum and obtain dropping speed, and by dropping speed information by network, send to APP module；

Described APP module includes: the signal of dropping speed information uses WiFi module with the communication of mobile phone third party app, Uart-Wifi module is the flush bonding module meeting WiFi wireless network standards based on serial ports, built-in wireless network protocol IEEE802.11 protocol stack and ICP/IP protocol stack, it is possible to realize user's serial ports or Transistor-Transistor Logic level data between wireless network Conversion, data are sent to the input of WiFi module by single-chip microcomputer by serial ports, and WiFi module forms focus, passes through wireless network Network is connected on server, and WiFi module, as user end to server application port, carries out office by ICP/IP protocol afterwards Territory Network Communication, was entered into sequence number and dropping speed, the persistent period etc. of patient in server info storehouse.

Wherein, the data that monitoring system is collected are transferred to the case database of corresponding patient, and the later stage may be used for optimizing doctor Treatment scheme, optimizes medical scheme.

A. information gathering

On the one hand, from hospital's database of case history, all patient essential informations relevant with treatment are imported, including patient's Sex, age occupation, disease, doctor's advice and write a prescription；

On the other hand, medicining condition and the treatment time of patient is gathered from native system；

Total administration time is equal with cure time, is designated as C；

Therapeutic scheme, being designated as T, T is an one-dimensional vector；

C=f (T) (1).

B. data are uploaded

Above-mentioned various data are uploaded in data base, set up a single data base for each middle disease；Data In storehouse, each data is i.e. a therapeutic scheme；The data put in order are for next step process.

C. model training

Use and first train a bp neutral net to be used for assessment and the prediction of therapy by data.

D. cure time prediction

After previous step completes, for any given therapeutic scheme, by neutral net, treatment practice is made a prediction.

Beneficial effect: by the mobile phone app module detection not transfusion speed in safety range and residue amount of infusion, very Alerting pattern, it is to avoid bother other people, disease can be reflected in real time to cellphone subscriber with forms such as " music, the tinkle of bells, vibrations " simultaneously The information such as people " takes the needle, terminates transfusion speed and residue amount of infusion monitoring ".Detecting infusion data by app, the data of collection can For optimizing medical scheme.

Accompanying drawing explanation

Fig. 1 is the monitoring infusion function structure chart of the Intelligent transfusion monitoring system of the embodiment of the present invention.

Fig. 2 is the APP function structure chart of the Intelligent transfusion monitoring system of the embodiment of the present invention.

Fig. 3 is the circuit overall design drawing of the Intelligent transfusion monitoring system of the embodiment of the present invention.

Fig. 4 is the workflow diagram of the Intelligent transfusion monitoring system of the embodiment of the present invention.

Fig. 5 is the Nokia5110 circuit diagram of the Intelligent transfusion monitoring system of the embodiment of the present invention.

Fig. 6 is the minimum system circuit diagram of the Intelligent transfusion monitoring system of the embodiment of the present invention.

Fig. 7 is the power circuit diagram of the Intelligent transfusion monitoring system of the embodiment of the present invention.

Fig. 8 is the buzzer circuit figure of the Intelligent transfusion monitoring system of the embodiment of the present invention.

Fig. 9 is that the infrared tube of the Intelligent transfusion monitoring system of the embodiment of the present invention is launched and receives circuit diagram.

Figure 10 is the serial port circuit figure of the Intelligent transfusion monitoring system of the embodiment of the present invention.

Figure 11 is the key circuit figure of the Intelligent transfusion monitoring system of the embodiment of the present invention.

Figure 12 is the reserved I/O circuit figure of the Intelligent transfusion monitoring system of the embodiment of the present invention.

Figure 13 is that the Intelligent transfusion monitoring system of the embodiment of the present invention optimizes medical scheme flow chart.

Detailed description of the invention

Technical scheme and the technique effect reached for making to present invention solves the technical problem that, using are clearer, below The present invention is described in further detail in conjunction with the accompanying drawings and embodiments.It is embodied as it is understood that described herein Example is used only for explaining the present invention, rather than limitation of the invention.It also should be noted that, for the ease of describing, accompanying drawing In illustrate only part related to the present invention rather than full content.

One, embodiment Study on Technique Programs of Establishing

Based on ultrared counting circuit, realize vein with 51 single-chip microcomputers for core and drip drips acquisition counter in kettle, And then realize transfusion speed and the monitoring of residue amount of infusion, and by drop data delivery service device, it is achieved follow-up point of data Analysis and process；Mobile phone app is utilized to select " the tinkle of bells or vibrations " one to be set to many corresponding alerting patterns, so real to cellphone subscriber The information such as patient Shi Fanying " takes the needle, terminates transfusion speed and residue amount of infusion monitoring ".

Utilize infrared sensor to convert optical signal into signal of telecommunication amplification and be shaped as level signal, reach to count purpose.

By the information of a upper plate, set up transfusion device, intermediate server, the connection of mobile phone terminal three by LAN System, feeds back to mobile phone app.

As the app of the mobile phone development of client, the data in server can be accessed, collect and detect infusion data, And select " music, the tinkle of bells, vibrations " one to be set to various alerting pattern, and then reflect that to cellphone subscriber patient " walks in real time Pin, terminate transfusion speed and residue amount of infusion monitoring " etc. information.

Infusion data is detected, it is achieved the function of patient reminded in the way of gentle by mobile phone, reduces noise same by mobile phone app Time the data that mobile phone is collected are transferred to the case database of corresponding patient, the later stage may be used for optimizing medical scheme.

Two, embodiment technological core content

1, design content summary

With 51 single-chip microcomputers as core, it is achieved vein drips the monitoring of kettle herb liquid flow velocity, and by drop data delivery service device, Realize subsequent analysis and the process of data.

2, technical scheme

The monitoring of A, drop uses infrared sensor, is respectively provided with infrared transmitting tube and photoelectric receiving tube, liquid dripping kettle both sides Shelter from, when drippage is between infrared transmitting tube and photoelectric receiving tube, the infrared light that infrared transmitting tube emits, infrared After penetrating the light transmission drop that pipe is launched, intensity changes, exporting change after the optical signal of photoelectric receiving tube receiving intensity change Voltage signal, this voltage signal is amplified, be converted into level signal after shaping, triggers single-chip microcomputer external interrupt and also counts, In intervalometer, regularly taking pulse sum obtains dropping speed.This sensor has the spies such as volume is little, highly sensitive, the linearity is good Point, the advantages such as its peripheral circuit is simple, stable and reliable for performance.

The communication of B and server uses WiFi module, Uart-Wifi module based on serial ports, meet WiFi wireless network The flush bonding module of network standard, built-in wireless network protocol IEEE802.11 protocol stack and ICP/IP protocol stack, it is possible to realize User's serial ports or Transistor-Transistor Logic level data are to the conversion between wireless network, and data are sent to WiFi module by serial ports by single-chip microcomputer Input, WiFi module formed focus, be connected on server by wireless network, WiFi module as client to service Device application port, carries out local area network communication by ICP/IP protocol afterwards, by sequence number and dropping speed, the persistent period of patient Etc. being entered in server info storehouse.

C, mobile phone and PC can access the data in server as client, are monitored and subsequent data analysis and place Reason.

3, program and circuit design

As it is shown on figure 3, circuit design is as follows:

Wherein with single-chip microcomputer as control core, the square-wave pulse being converted to received IR signal counts, Ke Yitong Cross Nokia5110 display screen to show, carried out the typing of patient's sequence number by button, last in real time by WiFi module and clothes Business device communicates.Program circuit such as Fig. 4.

Wherein, step-by-step counting code:

Code is read in intervalometer timing

void Timer0_Irq_Handler()interrupt 1

{

ET0=0；

Water_speed_per_minute=Water_count；

Water_count=0；

ET0=1；

}

Serial ports router:

Nokia5110 bitmap drafting function:

The Intelligent transfusion monitoring system of the present embodiment includes: monitoring infusion module and APP module.

Described monitoring infusion module includes: be respectively provided with infrared transmitting tube and photoelectric receiving tube dripping kettle both sides；Photoelectricity connects The voltage signal of exporting change after the optical signal of closed tube receiving intensity change, voltage signal is amplified by amplifying circuit, RC circuit is whole After shape, being converted into level signal through twin voltage comparator, trigger single-chip microcomputer external interrupt and count, in intervalometer, timing takes arteries and veins Rush sum and obtain dropping speed, and by dropping speed information by network, send to APP module.

Described APP module includes: the signal of dropping speed information uses WiFi module with the communication of mobile phone third party app, Uart-Wifi module is the flush bonding module meeting WiFi wireless network standards based on serial ports, built-in wireless network protocol IEEE802.11 protocol stack and ICP/IP protocol stack, it is possible to realize user's serial ports or Transistor-Transistor Logic level data between wireless network Conversion, data are sent to the input of WiFi module by single-chip microcomputer by serial ports, and WiFi module forms focus, passes through wireless network Network is connected on server, and WiFi module, as user end to server application port, carries out office by ICP/IP protocol afterwards Territory Network Communication, was entered into sequence number and dropping speed, the persistent period etc. of patient in server info storehouse.

The data that monitoring system is collected are transferred to the case database of corresponding patient, and the later stage may be used for optimizing medical treatment side Case, optimization medical scheme:

A. information gathering

On the one hand, from hospital's database of case history, all patient essential informations relevant with treatment are imported, including patient's Sex, age occupation, disease, doctor's advice and write a prescription；

On the other hand, medicining condition and the treatment time of patient is gathered from native system.It should be noted that this model pair The situation that patient dies of illness is not considered；

1. assume that total administration time is equal with cure time, is designated as C.In reality, there is some patients and not yet fully recovered the most Through leaving hospital.They are typically due to economic cause or for the slightest consideration of the state of an illness.Due to actual therapeutic data Lacking, we make this and assume.

2. assume that therapeutic scheme is closely related with the personal information of patient.It is to say, change the patient of same disease, due to The difference of the aspects such as its sex, age, occupation, even if identical medicining condition also can obtain different effects.

3. define the above-mentioned all data collected, in addition to kinds of Diseases and cure time, be a therapeutic scheme, note For T.This is based on the 2nd article of definition that hypothesis is made.Understanding, T can regard an one-dimensional vector as.

Obviously, the difference of therapeutic scheme is led and cure time can be caused different, certainly exists therebetween certain functional relationships System, and therapeutic scheme is relevant with above-mentioned many factors, it may be assumed that

C=f (T) (1)

B. data are uploaded

Above-mentioned various data are uploaded in data base, set up a single data base for each middle disease.Data In storehouse, each data is i.e. a therapeutic scheme.The data put in order are for next step process.

C. model training

From (1) formula, f is a complicated function, and therefore we can use and first train a bp nerve net by data Network is used for assessment and the prediction of therapy.

D. cure time prediction

After previous step completes, for any given therapeutic scheme, treatment practice can be made pre-by neutral net by we Survey.

Last it is noted that various embodiments above is only in order to illustrate technical scheme, it is not intended to limit；To the greatest extent The present invention has been described in detail by pipe with reference to foregoing embodiments, it will be understood by those within the art that: it is right Technical scheme described in foregoing embodiments is modified, or the most some or all of technical characteristic is carried out equivalent replaces Change, do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (2)

1. an Intelligent transfusion monitoring system, it is characterised in that described Intelligent transfusion monitoring system includes: monitoring infusion module with And APP module；

Described monitoring infusion module includes: be respectively provided with infrared transmitting tube and photoelectric receiving tube dripping kettle both sides；Photoelectric receiving tube The voltage signal of exporting change after the optical signal of receiving intensity change, voltage signal is amplified by amplifying circuit, after RC circuit shaping, It is converted into level signal through twin voltage comparator, triggers single-chip microcomputer external interrupt and count, in intervalometer, regularly take pulse total Number obtains dropping speed, and by dropping speed information by network, sends to APP module；

Described APP module includes: the signal of dropping speed information uses WiFi module, Uart-with the communication of mobile phone third party app Wifi module is the flush bonding module meeting WiFi wireless network standards based on serial ports, built-in wireless network protocol IEEE802.11 protocol stack and ICP/IP protocol stack, it is possible to realize user's serial ports or Transistor-Transistor Logic level data between wireless network Conversion, data are sent to the input of WiFi module by single-chip microcomputer by serial ports, and WiFi module forms focus, passes through wireless network Network is connected on server, and WiFi module, as user end to server application port, carries out office by ICP/IP protocol afterwards Territory Network Communication, was entered into sequence number and dropping speed, the persistent period etc. of patient in server info storehouse.

Intelligent transfusion monitoring system the most according to claim 1, it is characterised in that the data that monitoring system is collected are transferred to The case database of corresponding patient, the later stage may be used for optimizing medical scheme, optimizes medical scheme:

A. information gathering

On the one hand, from hospital's database of case history, import all patient essential informations relevant with treatment, including patient sex, Age occupation, disease, doctor's advice and write a prescription；

On the other hand, medicining condition and the treatment time of patient is gathered from native system；

Total administration time is equal with cure time, is designated as C；

Therapeutic scheme, being designated as T, T is an one-dimensional vector；

C=f (T) (1)

B. data are uploaded

Above-mentioned various data are uploaded in data base, set up a single data base for each middle disease；In data base Each data is i.e. a therapeutic scheme；The data put in order are for next step process；

C. model training

Use and first train a bp neutral net to be used for assessment and the prediction of therapy by data；

D. cure time prediction

After previous step completes, for any given therapeutic scheme, by neutral net, treatment practice is made a prediction.