CN114331279A - Block chain-based medical drug transfer method and system - Google Patents

Abstract

The invention discloses a block chain-based medical drug transferring method and system, which can monitor a transferring environment and prompt transfer personnel to adopt a coping measure in real time in the transferring process, and comprises the following steps: step 1: acquiring first medicine storage requirement information; step 2: acquiring first drug transfer information; and step 3: acquiring temperature information of a first medicine transfer bin, and carrying out online monitoring; and 4, step 4: forming a first warning initiation requirement according to the temperature information of the first medicine transportation bin; and 5: the transshipment personnel are warned according to the first warning initiation requirement.

Description

Block chain-based medical drug transfer method and system

Technical Field

The invention relates to the technical field of medicine transportation, in particular to a block chain-based medical medicine transportation method and system.

Background

Medicine logistics is not simple medicine feeding, selling, storing or medicine distribution, upstream and downstream resources of a marketing channel are effectively integrated by relying on certain logistics equipment, technology and a logistics management information system, and logistics cost is reduced and profitability is achieved by optimizing operation processes of acceptance, storage, sorting, distribution and the like in a medicine supply, selling, distribution and transportation link.

The block chain is a shared database, the data or information stored in the database has the characteristics of 'unforgeability', 'whole-course trace', 'traceability', 'public transparency', 'collective maintenance' and the like, and can combine modern logistics with medical treatment.

At present, some medicines with special requirements on storage environment, such as vaccines, are transported as biological products, and are particularly sensitive to environmental factors such as temperature, and the like, and the environmental factors such as too high or too low temperature can affect the medicines.

Disclosure of Invention

In order to overcome the defects of the prior art, one of the objectives of the present invention is to provide a method for transferring a medical drug based on a block chain, which can monitor a transfer environment and prompt a transfer person to adopt a measure in real time during the transfer process.

One of the purposes of the invention is realized by adopting the following technical mode:

a method for transporting medical drugs based on a block chain comprises the following steps:

step 1: acquiring first medicine storage requirement information;

step 2: acquiring first drug transfer information;

and step 3: acquiring temperature information of a first medicine transfer bin, and carrying out online monitoring;

and 4, step 4: forming a first warning initiation requirement according to the temperature information of the first medicine transportation bin;

and 5: the transshipment personnel are warned according to the first warning initiation requirement.

Further, the first alarm triggering requirement forming method in step 4 is as follows:

step S100: acquiring a first change duration;

the temperature change is monitored on line through first monitoring equipment, and whether the current temperature change time meets the warning initiation requirement of first change duration time or not is judged;

step S120: if the current temperature-changing time meets the alarm initiation requirement of the first change duration, correspondingly acquiring a first alarm signal and a second alarm signal according to two alarm levels corresponding to the alarm initiation requirement;

step S130: and sending the first warning signal or the second warning signal to warning equipment.

Further, step 100 includes:

step S110: carrying out bag temperature sensing analysis on the information of the first medicine transfer box to obtain a plurality of temperature sensing influence targets;

step S120: establishing a preset maximum temperature sensing critical value according to a plurality of temperature sensing influence targets;

step S130: the predetermined maximum temperature threshold is used as a time limit requirement to form a first change duration.

Further, comprising step 400, step 400 comprises:

step S410: carrying out heat insulation monitoring on the first medicine transportation bin information to obtain a first heat insulation monitoring coefficient;

step S420: sequentially acquiring a plurality of conversion influence targets and a plurality of heat insulation influence targets corresponding to the first temperature conversion coefficient and the first heat insulation monitoring coefficient;

step S430: guiding a plurality of conversion influence targets and a plurality of heat insulation influence targets into an association matching module to carry out target association retrieval, and obtaining a first association conclusion;

step S440: judging whether the first temperature conversion coefficient has conversion comparability or not according to the first correlation conclusion;

and if the temperature conversion coefficient has conversion comparability, acquiring a first comparison command.

Further, step 440 includes:

step S441: acquiring a first association target according to the first association conclusion;

acquiring a first correlation ratio of a first correlation target to a plurality of conversion influence targets;

step S442: acquiring a second correlation ratio of the first correlation target to a plurality of heat insulation influence targets;

step S443: and when the first association ratio and the second association ratio simultaneously accord with a preset association ratio, acquiring a first judgment result, wherein the first judgment result is that the temperature conversion coefficient has conversion comparability.

Further, step 450 is included, and step 450 includes:

step S451: acquiring information of a second medicine transfer bin according to the requirement of the first transfer task, wherein the second medicine transfer bin is different from the first medicine transfer bin;

step S452: acquiring a second heat insulation monitoring coefficient by monitoring the heat insulation performance of the second medicine transportation bin information;

forming a first difference characteristic based on the second thermal insulation monitoring coefficient and the first thermal insulation monitoring coefficient;

step S453: the comparison is performed on the first temperature conversion factor in accordance with a first comparison command.

Further, comprising step 500, step S500 comprises:

step S510: constructing a corresponding information base according to the first temperature-changing temperature-sensing factor and the first medicine transfer bin temperature-sensing factor to form a first information practice base;

step S520: carrying out information ratio distinguishing on the first pre-information exercise library according to the size of the temperature variation;

step S530: acquiring a second information exercise library, wherein the second information exercise library comprises a plurality of grouped exercise data sets;

step S540: practice the module exercise in importing into medicine transportation storehouse temperature influence module as a plurality of packet exercise data sets as the import data, wherein, practice to restraint and acquire through data in the medicine transportation storehouse temperature influence module.

A medical drug transfer system based on a block chain comprises a network module, warning equipment, a server, a drug transfer monitoring system, a meteorological database and monitoring equipment;

the network module is used for communication, data transmission and interaction among the medicine transfer monitoring system, the monitoring equipment, the meteorological database, the warning equipment and the server, and uploading data in the meteorological database and the warning equipment to the block chain through the network module for data alternation and analysis;

the warning equipment is positioned in the transit transportation equipment and comprises an acousto-optic warning module and a display screen;

the monitoring equipment comprises a GPS positioning module and a temperature sensing module;

the medicine transfer monitoring system collects environmental information through monitoring equipment.

Further, the drug transport monitoring system uploads data to a blockchain.

Compared with the prior art, the invention has the advantages that: can carry out the monitoring to the transportation environment in the transportation, real-time suggestion transportation personnel adopt to deal with the measure, and then realize automatic monitoring transportation environment, through real-time suggestion and warning, make transportation personnel can deal with in real time, protect the stability of medicine in the transportation, avoid the loss, guarantee the benefit.

The foregoing description is only an overview of the technical aspects of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented in accordance with the content of the specification, and in order to make the above and other objects, features, and advantages of the present invention more clearly understood, the following preferred embodiments are described in detail with reference to the accompanying drawings.

Drawings

FIG. 1 is a block diagram of a blockchain-based medical drug delivery system.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, which should be construed as embodying the new embodiments in any combination among the embodiments or among the technical features described below, without conflict. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, a method for transporting a medical drug based on a blockchain includes the steps of:

step 1: acquiring first drug storage requirement information (including but not limited to storage temperature requirements);

step 2: acquiring first drug transfer information (including but not limited to one of a drug with delivery order, a transfer starting place, a transfer destination, transfer tool information, transfer times, transfer time and a real-time position of a transfer tool);

and step 3: acquiring temperature information of a first medicine transfer bin, and carrying out online monitoring;

and 4, step 4: forming a first warning initiation requirement according to the temperature information of the first medicine transportation bin;

and 5: according to first warning initiation requirement to transport personnel and warn, transport personnel can transport the storehouse to the medicine and control the temperature, or control the temperature to medicine transport box.

The medicine transfer bin is a carriage on the transfer vehicle for storing the medicine transfer box;

the medicine transfer box is a packing box for medicines.

The first warning initiation request in step 4 is formed as follows:

step S100: acquiring a first change duration;

the temperature change is monitored on line through first monitoring equipment, and whether the current temperature change time meets the warning initiation requirement of first change duration time or not is judged;

step S120: if the current temperature-changing time meets the alarm initiation requirement of the first change duration, correspondingly acquiring a first alarm signal and a second alarm signal according to two alarm levels corresponding to the alarm initiation requirement;

step S130: and sending the first warning signal or the second warning signal to warning equipment.

Specifically, a real-time first variable temperature sensing factor (obtained by monitoring the temperature outside the drug transfer bin) is led into a drug transfer bin temperature influence module (obtained by establishing a data connection between the first variable temperature sensing factor and the temperature sensing factor in the first drug transfer bin), first derived data is obtained, the loss duration is called as first change duration, first monitoring equipment carries out online monitoring on variable temperature, the variable temperature time can be monitored, whether the variable temperature time meets the first change duration or not is judged, if the first variable temperature time is short, the influence on the external variable temperature sensing factor is low, and then the alarm triggering requirement cannot be triggered. If the current variable temperature time accords with the requirement of warning initiation of first change duration, carry out the suggestion to the transport personnel, wherein, warning initiation requires to divide into two warning grades according to the criticality, correspond and acquire first warning signal and second warning signal, when the transport personnel received first warning signal, it has formed the influence to the medicine in the car to show the variable temperature, need set up rain-proof facility as early as possible, along with the increase of variable temperature volume, the extension of variable temperature time receives the second warning signal, the transport personnel should adopt at once to correspond the measure, guarantee the stability of medicine of transporting in the medicine transportation storehouse. Through the establishment of the warning level, the warning signal is sent in a grading manner according to the criticality of the event, the alertness of the transport personnel can be improved, measures can be adopted in time, and the drug effect of the transport drug can be better guaranteed.

The step 100 comprises:

step S110: carrying out bag temperature sensing analysis on the information of the first medicine transfer box to obtain a plurality of temperature sensing influence targets;

step S120: establishing a preset maximum temperature sensing critical value according to a plurality of temperature sensing influence targets;

step S130: the predetermined maximum temperature threshold is used as a time limit requirement to form a first change duration.

Specifically, first medicine transport case is first medicine transport case, considers the physical characteristic difference of different medicine transport cases. Carry out case and bag temperature to first medicine transport case information and feel the analysis, analyze a plurality of temperature that influence medicine in the medicine transport case influence the target, such as medicine transport case material, thickness, heat conductivility etc.. And establishing a preset maximum temperature sensing critical value according to a plurality of temperature sensing influence targets. The maximum temperature critical value is the temperature on-line, and when the temperature reaches the critical value, the stability of the medicine is affected. The predetermined maximum temperature threshold is used as a time limit requirement, that is, the time consumed when the temperature change in the drug delivery bin gradually reaches the predetermined maximum temperature threshold is used as the first change duration. By introducing a plurality of temperature-sensitive influence targets, the state in the drug transfer process can be accurately judged. Thereby ensuring the drug effect of the transported drugs and reducing the loss of the transportation cost.

Comprising step 400, step 400 comprising:

step S410: carrying out heat insulation monitoring on the first medicine transportation bin information to obtain a first heat insulation monitoring coefficient;

step S420: sequentially acquiring a plurality of conversion influence targets and a plurality of heat insulation influence targets corresponding to the first temperature conversion coefficient and the first heat insulation monitoring coefficient;

step S430: guiding a plurality of conversion influence targets and a plurality of heat insulation influence targets into an association matching module to carry out target association retrieval, and obtaining a first association conclusion;

step S440: judging whether the first temperature conversion coefficient has conversion comparability or not according to the first correlation conclusion;

and if the temperature conversion coefficient has conversion comparability, acquiring a first comparison command.

Specifically, the type of storehouse is transported to the medicine is various, and the heat-proof quality is also different, and the monitoring of heat-proof quality plays the key role to the heat preservation of medicine to first medicine transport storehouse. A first thermal insulation monitoring coefficient is obtained for balancing the thermal insulation performance. A plurality of thermal-insulated influence targets indicate type, the medicine of transfer car (buggy) and transport storehouse structure, major structure thickness, connection structure, for example old-fashioned medicine transportation storehouse gap is too big, and ambient temperature is changeed and is interacted with inside temperature, and the storehouse is transported to thick, the inseparable medicine of connection of storehouse panel is transported to the medicine, and heat-proof quality is good, and ambient temperature is difficult for influencing the inside temperature of medicine transportation storehouse. A plurality of conversion targets correspond to the first temperature conversion coefficient, and the first variable temperature sensing factor which influences monitoring outside the medicine transfer bin is converted into the target of the first medicine transfer bin temperature sensing factor in the medicine transfer bin, wherein the target comprises ventilation, heat insulation of the medicine transfer bin, plate thickness of the medicine transfer bin and the like.

And guiding the plurality of conversion influence targets and the plurality of heat insulation influence targets into a correlation matching module to carry out correlation operation, and obtaining a first correlation conclusion. When the transport volume is big, the storehouse rate of utilization is transported to the medicine promotes greatly, and the storehouse is transported to the medicine of different heat-proof properties all probably is used for transporting the medicine, so judge whether first temperature conversion coefficient has conversion comparability in the storehouse is transported to the medicine of different heat-proof properties, if have conversion comparability, acquire first comparison command to carry out the calculation with the storehouse type is transported to the medicine that will have conversion comparability. The practical effect of the method on the medicine transferring bin similar to the first medicine transferring bin can be explored, and the practicability of the intelligent environment monitoring method for medicine transferring is improved.

Step 440 includes:

step S441: acquiring a first association target according to the first association conclusion;

acquiring a first correlation ratio of a first correlation target to a plurality of conversion influence targets;

step S442: acquiring a second correlation ratio of the first correlation target to a plurality of heat insulation influence targets;

step S443: and when the first association ratio and the second association ratio simultaneously accord with a preset association ratio, acquiring a first judgment result, wherein the first judgment result is that the temperature conversion coefficient has conversion comparability.

Specifically, the first correlation target refers to a target which is attributed to both a plurality of conversion influence targets and a plurality of heat insulation influence targets, such as a gap between doors of a medicine transfer bin, and the heat insulation performance of the medicine transfer bin is reduced when the gap between the doors of the medicine transfer bin is too large, and the first temperature conversion coefficient is larger. And calculating the ratio of the first associated target to the plurality of conversion influence targets to obtain the first associated ratio. And calculating the ratio of the first associated target to the plurality of heat insulation influence targets to obtain a second associated ratio. And predetermining an association ratio, and when the first association ratio and the second association ratio simultaneously accord with the predetermined association ratio, obtaining a first judgment conclusion that the temperature conversion coefficient has conversion comparison, and estimating the temperature conversion coefficient of the medicine transportation bin by monitoring the heat insulation difference of the medicine transportation bin so as to enhance the accuracy of the temperature conversion coefficient.

Comprising a step 450, wherein the step 450 comprises:

step S451: acquiring information of a second medicine transfer bin according to the requirement of the first transfer task, wherein the second medicine transfer bin is different from the first medicine transfer bin;

step S452: acquiring a second heat insulation monitoring coefficient by monitoring the heat insulation performance of the second medicine transportation bin information;

forming a first difference characteristic based on the second thermal insulation monitoring coefficient and the first thermal insulation monitoring coefficient;

step S453: the comparison is performed on the first temperature conversion factor in accordance with a first comparison command.

Specifically, the drug transfer bin information can be known according to the first transfer task, and any drug transfer bin information different from the first drug transfer bin is obtained and serves as the second drug transfer bin information. Carry out the thermal-insulated monitoring to the storehouse is transported to the second medicine according to small-size medicine transportation storehouse heat preservation heat-proof quality test mode, acquire the thermal-insulated monitoring coefficient of second, and the second is thermal-insulated monitoring coefficient is big more, and heat-proof quality is better. The difference exists between the second thermal-insulated monitoring coefficient that leads to and the first thermal-insulated monitoring coefficient in view of the difference between bin type model and the individual medicine transportation storehouse, forms first difference characteristic, has the conversion comparability in view of first temperature conversion coefficient, carries out the comparison to first temperature conversion coefficient according to first comparison command then, carries out the adjustment to first temperature conversion coefficient according to first difference characteristic, and then makes the practicality of improvement comparison result on the second medicine transportation storehouse.

Comprising a step 500, the step S500 comprises:

step S510: constructing a corresponding information base according to the first temperature-changing temperature-sensing factor and the first medicine transfer bin temperature-sensing factor to form a first information practice base;

step S520: carrying out information ratio distinguishing on the first pre-information exercise library according to the size of the temperature variation;

step S530: acquiring a second information exercise library, wherein the second information exercise library comprises a plurality of grouped exercise data sets;

step S540: practice the module exercise in importing into medicine transportation storehouse temperature influence module as a plurality of packet exercise data sets as the import data, wherein, practice to restraint and acquire through data in the medicine transportation storehouse temperature influence module.

Specifically, when the temperature changes in the transferring process, the first monitoring equipment monitors the temperature change amount of the real-time transferring environment of the first medicine transferring bin, the second monitoring equipment monitors the internal environment of the first medicine transferring bin, a large number of first temperature change temperature sensing factors and first medicine transferring bin temperature sensing factors can be obtained along with the lengthening of the temperature change time, and in view of the fact that the temperature in the medicine transferring bin is closely related to the temperature outside the medicine transferring bin, certain theoretical correlation exists between the first temperature change temperature sensing factors and the first medicine transferring bin temperature sensing factors. And establishing a corresponding information base of the first temperature-changing temperature-sensing factor and the first medicine transfer bin temperature-sensing factor to form a first information exercise base. The first pre-information practice library is distinguished according to the information ratio of the temperature change amount, and a second information practice library is obtained, in other words, the temperature change is a fluctuation process from large temperature change to stable temperature change and then to large temperature change, in actual situations, the ratio of the temperature affected by the medicine transfer bin is different, and the collected data amount is also different. Ratio division is carried out according to the ratio of temperature changing time of different temperature changing quantities (small temperature changing and large temperature changing), the ratio of exercise data with small data quantity is large, and the ratio of exercise data with rich data quantity is small. A plurality of grouped exercise data sets are acquired. Practice the module exercise as leading-in information is imported into medicine transportation storehouse temperature influence module with a plurality of packet exercise data sets, through data exercise to restraint acquisition in the medicine transportation storehouse temperature influence module, obtain first temperature conversion coefficient, divide the abundant degree that can improve exercise data through the ratio to improve the accuracy and the reliability of module.

A medical drug transfer system based on a block chain comprises a network module, warning equipment, a server, a drug transfer monitoring system, a meteorological database and monitoring equipment;

the network module is used for communication, data transmission and interaction among the medicine transfer monitoring system, the monitoring equipment, the meteorological database, the warning equipment and the server, and uploading data in the meteorological database and the warning equipment to the block chain through the network module for data alternation and analysis;

the warning device is positioned in the transit transportation device or is an intelligent wearable device and comprises an acousto-optic warning module (including but not limited to a loudspeaker and a buzzer) and a display screen (used for displaying received warning information);

the monitoring equipment comprises a GPS positioning module and a temperature sensing module, wherein the temperature sensing module is used for monitoring the internal and external temperatures of the medicine transfer bin;

the medicine transfer monitoring system collects environmental information through monitoring equipment.

The drug transport monitoring system uploads the data to the blockchain.

The above embodiments are only preferred embodiments of the present invention, and the protection area of the present invention is not limited thereby, and all the unrealistic transformations and substitutions made by those skilled in the art on the basis of the present invention are all included in the protection area of the present invention.

Claims (9)

1. A block chain-based medical drug transfer method is characterized in that: the method comprises the following steps:

step 1: acquiring first medicine storage requirement information;

step 2: acquiring first drug transfer information;

and step 3: acquiring temperature information of a first medicine transfer bin, and carrying out online monitoring;

and 4, step 4: forming a first warning initiation requirement according to the temperature information of the first medicine transportation bin;

and 5: the transshipment personnel are warned according to the first warning initiation requirement.

2. A blockchain-based drug delivery method according to claim 1, wherein: the first warning initiation request in step 4 is formed as follows:

step S100: acquiring a first change duration;

the temperature change is monitored on line through first monitoring equipment, and whether the current temperature change time meets the warning initiation requirement of first change duration time or not is judged;

step S120: if the current temperature-changing time meets the alarm initiation requirement of the first change duration, correspondingly acquiring a first alarm signal and a second alarm signal according to two alarm levels corresponding to the alarm initiation requirement;

step S130: and sending the first warning signal or the second warning signal to warning equipment.

3. A blockchain-based drug delivery method according to claim 2, wherein: the step 100 comprises:

step S110: carrying out bag temperature sensing analysis on the information of the first medicine transfer box to obtain a plurality of temperature sensing influence targets;

step S120: establishing a preset maximum temperature sensing critical value according to a plurality of temperature sensing influence targets;

step S130: the predetermined maximum temperature threshold is used as a time limit requirement to form a first change duration.

4. A blockchain-based drug delivery method according to claim 3, wherein: comprising step 400, step 400 comprising:

step S410: carrying out heat insulation monitoring on the first medicine transportation bin information to obtain a first heat insulation monitoring coefficient;

step S420: sequentially acquiring a plurality of conversion influence targets and a plurality of heat insulation influence targets corresponding to the first temperature conversion coefficient and the first heat insulation monitoring coefficient;

step S430: guiding a plurality of conversion influence targets and a plurality of heat insulation influence targets into an association matching module to carry out target association retrieval, and obtaining a first association conclusion;

step S440: judging whether the first temperature conversion coefficient has conversion comparability or not according to the first correlation conclusion;

and if the temperature conversion coefficient has conversion comparability, acquiring a first comparison command.

5. A blockchain-based drug delivery method according to claim 4, wherein: step 440 includes:

step S441: acquiring a first association target according to the first association conclusion;

acquiring a first correlation ratio of a first correlation target to a plurality of conversion influence targets;

step S442: acquiring a second correlation ratio of the first correlation target to a plurality of heat insulation influence targets;

step S443: and when the first association ratio and the second association ratio simultaneously accord with a preset association ratio, acquiring a first judgment result, wherein the first judgment result is that the temperature conversion coefficient has conversion comparability.

6. A blockchain-based drug delivery method according to claim 4, wherein: comprising a step 450, wherein the step 450 comprises:

step S451: acquiring information of a second medicine transfer bin according to the requirement of the first transfer task, wherein the second medicine transfer bin is different from the first medicine transfer bin;

step S452: acquiring a second heat insulation monitoring coefficient by monitoring the heat insulation performance of the second medicine transportation bin information;

forming a first difference characteristic based on the second thermal insulation monitoring coefficient and the first thermal insulation monitoring coefficient;

step S453: the comparison is performed on the first temperature conversion factor in accordance with a first comparison command.

7. A blockchain-based drug delivery method according to claim 2, wherein: comprising a step 500, the step S500 comprises:

step S510: constructing a corresponding information base according to the first temperature-changing temperature-sensing factor and the first medicine transfer bin temperature-sensing factor to form a first information practice base;

step S520: carrying out information ratio distinguishing on the first pre-information exercise library according to the size of the temperature variation;

step S530: acquiring a second information exercise library, wherein the second information exercise library comprises a plurality of grouped exercise data sets;

step S540: practice the module exercise in importing into medicine transportation storehouse temperature influence module as a plurality of packet exercise data sets as the import data, wherein, practice to restraint and acquire through data in the medicine transportation storehouse temperature influence module.

8. A medical drug transfer system based on a blockchain is characterized in that: the system comprises a network module, warning equipment, a server, a medicine transfer monitoring system, a meteorological database and monitoring equipment;

the network module is used for communication, data transmission and interaction among the medicine transfer monitoring system, the monitoring equipment, the meteorological database, the warning equipment and the server, and uploading data in the meteorological database and the warning equipment to the block chain through the network module for data alternation and analysis;

the warning equipment is positioned in the transit transportation equipment and comprises an acousto-optic warning module and a display screen;

the monitoring equipment comprises a GPS positioning module and a temperature sensing module;

the medicine transfer monitoring system collects environmental information through monitoring equipment.

9. The blockchain-based drag delivery system of claim 8, wherein: the drug transport monitoring system uploads data to a blockchain.

Images