CN116071091A

CN116071091A - Pharmacy raw material traceability system based on Internet of things

Info

Publication number: CN116071091A
Application number: CN202310252814.3A
Authority: CN
Inventors: 束德峰; 刘传; 鞠培娜; 金红丹; 马晓君; 张喜洋; 韩静静; 张佳蕊
Original assignee: Shandong Fengmaoyuan Certification Service Co ltd
Current assignee: Shandong Fengmaoyuan Certification Service Co ltd
Priority date: 2023-03-16
Filing date: 2023-03-16
Publication date: 2023-05-05
Anticipated expiration: 2043-03-16
Also published as: CN116071091B

Abstract

The invention relates to the technical field of data processing, in particular to a pharmaceutical raw material traceability system based on the Internet of things, which comprises the following components: the control terminal is a main control terminal of the system and is used for sending out an execution command; the identification module is used for identifying the physical distribution information of the medicinal materials; the uploading module is used for uploading attribute parameter data of the medicinal materials; the capturing module is used for capturing soil attribute parameter data of the medicinal material planting area; the configuration module is used for reading the data content stored in the lower-level sub-module storage unit of the identification module and matching the data content; the system can analyze and match three items of ingredients of the medicinal materials, ingredients of soil in a medicinal material planting area and logistics information of medicinal material transportation in the running process, so that the medicinal materials are identified and traced by taking analysis and matching result data as a reference, the identification and tracing result is accurate, and the identification and tracing process is simple and quick.

Description

Pharmacy raw material traceability system based on Internet of things

Technical Field

The invention relates to the technical field of data processing, in particular to a pharmaceutical raw material traceability system based on the Internet of things.

Background

The invention patent application with the application number of 201910391079.8 provides a food safety tracing system and a food safety tracing method, which are characterized by comprising a one-key tracing interface for tracing food materials and a tracing information display unit; the one-key traceability interface comprises a food material name one-key traceability interface, the displayed food material name is the one-key traceability interface for referring to the food material, one-key traceability of the referring to the food material is realized through the food material name, and traceability information of the referring to the food material is obtained; the tracing information display unit is used for displaying tracing information;

the technical proposal provided by the utility model is that: in the prior art, the food source tracing process is complex, the food material tracing inquiry is complex, the operation is inconvenient, and the tracing defect exists.

For the purchase stage of the traditional Chinese medicine materials, the pharmacist always performs preferential purchase according to the price and the quality of the traditional Chinese medicine materials, but the same rhizome type crude drug materials are different in production places and different in drug properties due to different characteristics of regional soil environments, so that the tracing of the traditional Chinese medicine materials is particularly important for ensuring the administration effect of the traditional Chinese medicine materials;

at present, when the traditional Chinese medicine is purchased by the medicine manufacturer, the purchasing process of the purchased medicinal materials is not supervised in the whole process, the root sources of the medicinal materials are only dictations of suppliers, and the real sources of the purchased traditional Chinese medicine in the middle hospital are not determined.

Therefore, a pharmaceutical raw material traceability system based on the Internet of things is provided to solve the problem of traceability of medicinal materials.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects in the prior art, the invention provides a pharmaceutical raw material traceability system based on the Internet of things, which solves the technical problems in the background art.

Technical proposal

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

pharmaceutical raw material traceability system based on thing networking includes:

the control terminal is a main control terminal of the system and is used for sending out an execution command;

the identification module is used for identifying the physical distribution information of the medicinal materials;

the uploading module is used for uploading attribute parameter data of the medicinal materials;

the capturing module is used for capturing soil attribute parameter data of the medicinal material planting area;

the configuration module is used for reading the data content stored in the lower-level sub-module storage unit of the identification module and matching the data content;

the comparison module is used for receiving the current medicine material logistics information identified by the identification module, acquiring medicine material attribute parameter data corresponding to the current medicine material logistics information, and comparing the medicine material logistics information and the medicine material attribute parameter data with the matched data content in the configuration module;

the verification module is used for verifying the position information of the system end user when the system end user operates in the system;

the feedback module is used for receiving the comparison result data and the position information verification result data obtained by the operation of the comparison module and the verification module, packaging the data and sending the data to the control terminal;

after the feedback module sends the packed data to the control terminal, a system end user decompresses and reads the packed data on the control terminal.

Still further, the identification module is provided with a sub-module at a lower stage, including:

the distinguishing unit is used for receiving the medicinal material logistics information identified by the identification module and acquiring the medicinal material attribution by applying the medicinal material logistics information;

the storage unit is used for receiving the information of the attribution of the medicinal material logistics information obtained by the operation of the distinguishing unit, and distinguishing and storing the medicinal material according to the information of the attribution;

the storage unit synchronously stores the received medicinal material logistics information, and deletes the stored medicinal material logistics information after the data comparison is completed by the comparison module.

Further, when the uploading module operates, a user at the system end samples the medicinal materials, sets at least three groups of medicinal material sampling samples, and when the medicinal materials are sampled, collects soil on the surface of the medicinal materials synchronously to serve as soil samples, sets at least three groups of soil samples, performs component analysis on the three groups of medicinal material samples and the three groups of soil samples, calculates component proportion average values of the medicinal material samples and the three groups of soil samples according to analysis results, and sends the calculated component proportion average values to the uploading module for storage in the uploading module;

the calculated component proportion average value of the medicinal material sample and the soil sample is recorded as attribute parameter data of an uploading module, and the sampling operation of the soil on the surface of the medicinal material is subjected to user-defined decision making according to a system end user.

Furthermore, when capturing the soil attribute parameter data of the medicinal material planting area, the capturing module is synchronous with the distinguishing unit to acquire the medicinal material attribution, and the medicinal material attribution is used as the medicinal material planting area to capture the soil attribute parameter data;

wherein, the capture module subordinate is provided with the submodule, includes:

the receiving unit is used for receiving the average value of the proportion of the components of the medicinal material sample sent by the system end user to the uploading module;

and the packaging unit is used for acquiring the soil attribute parameter data of the medicinal material planting area captured by the capturing module and the proportion average value of the medicinal material sample components received by the receiving unit, packaging the soil attribute parameter data and the proportion average value of the medicinal material sample components, and then transmitting the data to the storage unit.

Further, when the configuration module operates, the soil attribute parameter data of the medicinal material planting area, the proportion average value of the medicinal material sample components and the information of the medicinal material attribution are read from the storage unit, association matching is carried out on medicinal material targets corresponding to the three groups of data, and the medicinal material targets are synchronously stored in the storage unit after the association matching is completed;

in the configuration module, the medicinal material sample component proportion average value data applied in the data matching stage is data sent to the uploading module by a system end user in the initial operation stage of the system.

Still further, the configuration module and the comparison module are provided with sub-modules at lower stages, including:

the logic unit is used for setting a comparison threshold value and comparison logic of the comparison module during comparison;

the comparison threshold set in the logic unit is manually edited and set by a system end user; the comparison logic set in the logic unit is: acquiring medicinal material attribution information and a medicinal material sample component proportion average value from the current medicinal material logistics information and medicinal material attribute parameter data, and judging whether the acquired medicinal material attribution information is consistent with medicinal material attribution information in the matched data content in the configuration module; and judging whether the obtained proportion average value of the components of the medicinal material samples is consistent with the proportion average value of the components of the medicinal material samples in the matched data content in the configuration module in an application comparison threshold state.

Still further, the comparison module is provided with a sub-module at a lower stage, and includes:

the decision unit is used for deciding whether the current medicinal material logistics information and medicinal material attribute parameter data applied during comparison are sent to the identification module and the uploading module or not;

the decision unit operates to acquire an operation result of the comparison module in real time, when the operation results of the comparison module are consistent, the operation result of the decision module is negative, and when any operation result of the comparison module is inconsistent, the operation result of the decision module is positive, and current medicinal material logistics information and medicinal material attribute parameter data applied by the comparison module during comparison are sent to the identification module and the uploading module and are processed by the identification module, the uploading module, the capturing module, the logic unit and the configuration module.

Further, the verification module runs in real time in the system, and when the verification module runs, the position information of the attribute parameter data state of the medicinal materials uploaded by the system end user through the uploading module is obtained, the position information of the set comparison threshold state is manually edited by the system end user through the logic unit, and whether the two groups of position information are consistent is judged.

Furthermore, when the system end decompresses and reads the package data sent by the feedback module on the control terminal, the verification module synchronously acquires the position information of the system end user when the data is decompressed and read, compares the position information with the position information applied when the verification module operates for the first time, and judges whether the position information is consistent or not;

after decompressing and reading the packed data on the control terminal, the system end user reads the further judging result of the verification module.

Still further, the control terminal has the identification module through medium electric connection, identification module next-door has distinguishing unit and storage unit through medium electric connection, identification module has uploading module and capturing module through medium electric connection, capturing module next-door has receiving element and packing unit through medium electric connection, receiving element is connected with uploading module through medium electric connection, capturing module has configuration module and comparison module through medium electric connection, configuration module and comparison module next-door have logic unit through medium electric connection, comparison module next-door has decision unit through medium electric connection, decision unit is connected with identification module through medium electric connection, comparison module has verification module and feedback module through medium electric connection.

Advantageous effects

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

1. the invention provides a pharmaceutical raw material traceability system based on the Internet of things, which can analyze and match three items of components of medicinal materials, components of soil in a medicinal material planting area and logistics information of medicinal material transportation in the running process, so that the medicinal materials are identified and traced by taking analysis and matching result data as references, the identification and tracing result is accurate, and the identification and tracing process is simple and quick.

2. In the running process of the system, the position information of a user at the system end during operation can be acquired, so that whether the acquired position information is consistent is further verified, whether the system is safe to run is judged according to the verification result, and the identification and tracing result of the system is referenced, so that the identification and tracing result of the system on medicinal materials is more reliable.

3. In the running process of the system, the system can independently decide the related data of the identified medicinal materials, and further reprocess the data processed in real time in the system through decision results, so that the distinguishing and identification of different attribute parameters of the same medicinal material are realized, the running application range of the system is wider, the system can also be used for distinguishing different qualities or medicinal properties of the same medicinal material, and a certain degree of medicament tracing and identifying robustness is brought to the system.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

Fig. 1 is a schematic structural diagram of a pharmaceutical raw material traceability system based on the internet of things;

reference numerals in the drawings represent respectively: 1. a control terminal; 2. an identification module; 21. a distinguishing unit; 22. a storage unit; 3. an uploading module; 4. a capture module; 41. a receiving unit; 42. a packing unit; 5. a configuration module; 6. comparison module; 61. a logic unit; 62. a decision unit; 7. a verification module; 8. and a feedback module.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Example 1

The pharmaceutical raw material traceability system based on the internet of things of the embodiment, as shown in fig. 1, includes:

the control terminal 1 is a main control end of the system and is used for sending out an execution command;

the identification module 2 is used for identifying the physical distribution information of the medicinal materials;

the uploading module 3 is used for uploading attribute parameter data of the medicinal materials;

the capturing module 4 is used for capturing soil attribute parameter data of the medicinal material planting area;

the configuration module 5 is used for reading the data content stored in the lower-level sub-module storage unit 22 of the identification module 2 and matching the data content;

the comparison module 6 is used for receiving the current medicine logistics information identified by the identification module 2, acquiring medicine attribute parameter data corresponding to the current medicine logistics information, and comparing the medicine logistics information and the medicine attribute parameter data with the matched data content in the configuration module 5;

the verification module 7 is used for verifying the position information of the system end user when the system end user operates in the system;

the feedback module 8 is used for receiving the comparison result data and the position information verification result data obtained by the operation of the comparison module 6 and the verification module 7, packaging the data and sending the data to the control terminal 1;

after sending the packet data to the control terminal 1, the feedback module 8 decompresses and reads the packet data on the control terminal 1 by the system end user.

In this embodiment, the control terminal 1 controls the identification module 2 to identify the physical distribution information of the medicinal material, the system end user uploads the attribute parameter data of the medicinal material synchronously through the uploading module 3, the capturing module 4 operates the soil attribute parameter data of the planting area of the captured medicinal material at a rear position, the configuration module 5 reads the data content stored in the storage unit 22 of the lower-level submodule of the identification module 2 synchronously, matches the data content, receives the physical distribution information of the medicinal material currently identified by the identification module 2 at a rear position of the comparison module 6, acquires the physical distribution information of the current medicinal material corresponding to the physical distribution parameter data, compares the physical distribution information of the medicinal material and the attribute parameter data of the medicinal material with the data content of which the configuration module 5 is matched, verifies the position information of the system end user when the system is operated, and finally receives the comparison result data and the position information verification result data obtained by the operation of the comparison module 6 and the verification module 7 through the feedback module 8, packages the data and sends the data to the control terminal 1, and the system end user decompresses and reads the package data on the control terminal 1.

Example 2

On the aspect of specific implementation, on the basis of embodiment 1, this embodiment further specifically describes a pharmaceutical raw material traceability system based on the internet of things in embodiment 1 with reference to fig. 1:

the identification module 2 is provided with a sub-module at a lower stage, including:

a distinguishing unit 21, configured to receive the drug logistics information identified by the identifying module 2, and obtain a location where the drug belongs by using the drug logistics information;

the storage unit 22 is configured to receive the information of the attribution of the medicinal material physical distribution information obtained by the operation of the distinguishing unit 21, and distinguish and store the medicinal material according to the attribution information;

the storage unit 22 synchronously stores the received drug logistics information, and deletes the stored drug logistics information after the data comparison is completed by the comparison module 6.

Through the sub-module that above-mentioned identification module 2 subordinate set up, can make identification module 2 after discernment medicinal material commodity circulation information, further distinguish through its attribution to the medicinal material commodity circulation information of discernment and store, by this, when having the demand of seeking, can be convenient system end user swift seek, and because the attribution to the medicinal material obtains, can provide the system and further compare the target when tracing to the source to the medicinal material, bring certain data support for the system operation.

As shown in fig. 1, when the uploading module 3 operates, a system end user samples a medicinal material, sets at least three groups of medicinal material sampling samples, and when the medicinal material is sampled, collects soil as soil samples in synchronization with the surface of the medicinal material, sets at least three groups of soil samples, performs component analysis on the three groups of medicinal material samples and the three groups of soil samples, calculates component proportion average values of the medicinal material samples and the three groups of soil samples according to analysis results, and sends the calculated component proportion average values to the uploading module 3 for storage in the uploading module 3;

the calculated component proportion average value of the medicinal material sample and the soil sample is recorded as attribute parameter data of the uploading module 3, and the sampling operation of the soil on the surface of the medicinal material is subjected to user-defined decision-making according to a system end user.

In the above arrangement, in order to implement the technical scheme, the sampled target medicinal material needs to be purchased together with part of soil in the purchasing stage;

in addition, in order to avoid that part of medicinal materials are not rhizome-like, so that the medicinal materials do not carry soil, the composition analysis of the soil and the calculation of the composition proportion average value can be carried out by the user-defined decision of a system end user on whether sampling treatment is carried out or not so as to avoid the error reporting of the system operation;

for the component analysis target of the soil on the surface of the medicinal material, the organic matter content and the total nitrogen content in the soil are selected (the organic matter content is variable, the organic matter content can be changed according to different soil samples), when the organic matter content in the soil samples is analyzed, under the condition of external heating of the soil samples (the oil bath temperature is set to 180 ℃ and boiling is carried out for 5 min), the organic matter in the soil is oxidized by using a dichromic acid-sulfuric acid solution with standard concentration (then the rest of the dichromate is titrated by ferrous sulfate, and the content of the organic matter (carbon) is calculated from the amount of the dichromate consumed by oxidation, so the final result is multiplied by a correction coefficient of 1.1, and the organic matter content of the soil samples is expressed by mass fraction OMC (%), and the calculation formula is as follows:

；

wherein: c is the concentration of the potassium dichromate standard solution used, in g/mL;

the volume of the added potassium dichromate standard solution is in unit mL; />

Volume of ferrous sulfate used for blank titration, unit mL; v is the volume of ferrous sulfate for sample titration, unit mL; m is the mass of the weighed soil sample, and the unit g; k is a coefficient for converting the air-dry soil into the drying; 0.003 is the molar mass of 1/4 carbon atoms per kg/mol;1.724 is a coefficient of converting organic matter into organic matter; 1.1 is an oxidation correction coefficient; />

When the total nitrogen content in the soil sample is analyzed, firstly, strong oxide potassium-highly-Yu-acid is used for oxidizing nitrite nitrogen in the sample into nitrate nitrogen, then reduced iron powder is used for reducing and converting all nitrate nitrogen into Qian Tai nitrogen, then concentrated sulfuric acid is used for digesting iron nitrogen, and various nitrogen-containing organic compounds are converted into nitrate nitrogen under the action of a catalyst; and then ammonia distilled out in a strong alkali environment is absorbed by boric acid, and the total nitrogen content of soil is calculated by titration with a standard strong acid solution, wherein the total nitrogen content of a sample is expressed by mass percent (%), and the calculation formula is as follows:

；

wherein: v is the volume of the acid standard solution used in titration of the test solution, and the unit is mL;

the volume of the acid standard solution used for blank drop is unit mL; CH is the concentration of the acid standard solution, and the unit mol/L;0.014 is the molar mass of nitrogen atoms per kg/mol; m is the mass of the dried soil sample, and the unit g;

it should be noted that the pH of the soil sample can be measured as well, and the measured pH can be used as a treatment for component analysis and component proportion average of the soil, and the pH of the soil sample can be directly read by using an acidometer.

As shown in fig. 1, when capturing the soil attribute parameter data of the medicinal material planting area, the capturing module 4 is synchronized with the distinguishing unit 21 to obtain the medicinal material attribution, and uses the medicinal material attribution as the medicinal material planting area to capture the soil attribute parameter data;

wherein, the capturing module 4 is provided with the submodule in the next stage, include:

the receiving unit 41 is configured to receive a component proportion average value of the medicinal material sample sent by the system end user to the uploading module 3;

the packing unit 42 is configured to obtain the soil attribute parameter data of the medicinal material planting area captured by the capturing module 4 and the proportion average value of the medicinal material sample components received by the receiving unit 41, perform data packing processing on the soil attribute parameter data and the proportion average value of the medicinal material sample components, and send the data to the storage unit 22.

Through the arrangement of the lower sub-module of the capturing module 4, the proportion average value of the components of the medicinal material sample can be forwarded and stored for repeated use during system operation.

As shown in fig. 1, when the configuration module 5 operates, the soil attribute parameter data of the medicinal material planting area, the component proportion average value of the medicinal material sample and the information of the medicinal material attribution are read from the storage unit 22, and the association matching is performed through the medicinal material targets corresponding to the three groups of data, and the medicinal material targets are synchronously stored in the storage unit 22 after the association matching is completed;

in the configuration module 5, the data of the proportion average value of the components of the medicinal material sample applied in the data matching stage is the data sent by the system end user to the uploading module 3 in the initial operation stage of the system.

Through the arrangement, the soil attribute parameter data of the medicinal material planting area, the proportion average value of the medicinal material sample components and the information of the medicinal material attribution which are stored in the storage unit 22 can be mutually associated and matched, and necessary comparison target data are provided for the operation process of the comparison module 6 of the subsequent operation of the system;

in the three-group data matching stage, the configuration module 5 identifies source medicinal materials of the three groups of data, so that soil attribute parameter data of a medicinal material planting area of the same medicinal material, a medicinal material sample component proportion average value and medicinal material attribution information are stored in the same folder, and the operation of association matching of the three groups of data is completed.

Example 3

the configuration module 5 and the comparison module 6 are provided with sub-modules at the lower level, and the sub-modules comprise:

a logic unit 61, configured to set a comparison threshold and a comparison logic when the comparison module 6 performs comparison;

wherein, the comparison threshold value set in the logic unit 61 is manually edited and set by a system end user; the comparison logic set in the logic unit 61 is: acquiring medicinal material attribution information and a medicinal material sample component proportion average value from the current medicinal material logistics information and medicinal material attribute parameter data, and judging whether the acquired medicinal material attribution information is consistent with medicinal material attribution information in the matched data content in the configuration module 5; and judging whether the obtained proportion average value of the components of the medicinal material samples is consistent with the proportion average value of the components of the medicinal material samples in the matched data content in the configuration module 5 in the state of applying a comparison threshold value.

Through the arrangement of the logic unit 61, a designated comparison target is provided for the comparison module 6 to run, so that the tracing judgment result of the current system processed medicinal material is obtained according to the comparison result.

As shown in fig. 1, the comparison module 6 is provided with a sub-module at a lower stage, and includes:

the decision unit 62 is configured to decide whether the current drug logistics information and the drug attribute parameter data applied during the comparison performed by the comparison module 6 are sent to the identification module 2 and the uploading module 3;

the decision unit 62 obtains the operation result of the comparison module 6 in real time, if the operation results of the comparison module 6 are all consistent, the operation result of the decision module 62 is no, if any operation result of the comparison module 6 is inconsistent, the operation result of the decision module 62 is yes, the current drug logistics information and drug attribute parameter data applied by the comparison module 6 when the comparison module 6 performs comparison are sent to the identification module 2 and the uploading module 3, and are processed by the identification module 2, the uploading module 3, the capturing module 4, the logic unit 61 and the configuration module 5.

Through the setting of the decision unit 62, the system has a certain degree of robustness, so that the untraced medicinal materials obtained by the comparison result of the comparison module 6 can be further processed and stored for use according to the self parameters, the system can trace to and judge the medicinal materials with the same medicinal materials but different medicinal properties and attributes, and the applicability of the system is further improved.

As shown in fig. 1, the verification module 7 operates in real time in the system, and when the verification module 7 operates, the position information of the attribute parameter data state of the medicinal material uploaded by the system end user through the uploading module 3 is obtained, and the position information of the set comparison threshold state is manually edited by the system end user through the logic unit 61, so as to determine whether the two groups of position information are consistent.

Through the arrangement, the system can further verify the state safety of the traceability judgment of the medicinal materials, so that the traceability judgment result of the medicinal materials is more reliable and reliable;

the location of the system end user may be obtained by the network to which the system end user applies when accessing the system to operate in the system.

As shown in fig. 1, when the system end decompresses and reads the package data sent by the feedback module 8 on the control terminal 1, the verification module 7 synchronously acquires the position information of the system end user when the data is decompressed and read, compares the position information with the position information applied when the verification module 7 runs for the first time, and determines whether the position information is consistent;

after decompressing and reading the packet data on the control terminal 1, the system end user reads the further determination result of the verification module 7.

Through the arrangement, the position of the system end user in the last decompression and reading operation in the system can be obtained again, so that the running condition of the verification module 7 running again is provided, and the aim of verifying the state safety of the traditional Chinese medicinal materials of the system again for tracing judgment is fulfilled.

As shown in fig. 1, the control terminal 1 is electrically connected with the identification module 2 through a medium, the lower stage of the identification module 2 is electrically connected with the distinguishing unit 21 and the storage unit 22 through a medium, the identification module 2 is electrically connected with the uploading module 3 and the capturing module 4 through a medium, the capturing module 4 is electrically connected with the distinguishing unit 21 through a medium, the capturing module 4 is electrically connected with the receiving unit 41 and the packing unit 42 through a medium, the receiving unit 41 is electrically connected with the uploading module 3 through a medium, the capturing module 4 is electrically connected with the configuration module 5 and the comparison module 6 through a medium, the configuration module 5 and the comparison module 6 are electrically connected with the logic unit 61 through a medium, the lower stage of the comparison module 6 is electrically connected with the decision unit 62 through a medium, the decision unit 62 is electrically connected with the identification module 2 through a medium, and the comparison module 6 is electrically connected with the verification module 7 and the feedback module 8 through a medium.

In summary, the system provided in the above embodiment can analyze and match three items of components of the medicinal materials, components of soil in a medicinal material planting area and logistics information of medicinal material transportation, so that the medicinal materials are identified and traced by taking analysis and matching result data as a reference, the identification and tracing result is accurate, and the identification and tracing process is simple and quick; meanwhile, the position information of a user at the system end when operating in the system is acquired, so that whether the acquired position information is consistent is further verified, whether the system is safe to operate is judged according to a verification result, and a reference is brought to a recognition and source tracing result of the system, so that the recognition and source tracing result of the system on medicinal materials is more reliable; the system can independently make decisions on the identified relevant data of the medicinal materials, and further reprocesses the data processed in real time in the system through decision results, so that the distinguishing and identification of different attribute parameters of the same medicinal material are realized, the operation application range of the system is wider, the system can also be used for distinguishing different qualities or medicinal properties of the same medicinal material, and a certain degree of medicament tracing and identifying robustness is brought to the system.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. Pharmaceutical raw material traceability system based on thing networking, its characterized in that includes:

the control terminal (1) is a main control end of the system and is used for sending out an execution command;

the identification module (2) is used for identifying the physical distribution information of the medicinal materials;

the uploading module (3) is used for uploading attribute parameter data of the medicinal materials;

the capturing module (4) is used for capturing soil attribute parameter data of the medicinal material planting area;

the configuration module (5) is used for reading the data content stored in the lower-level sub-module storage unit (22) of the identification module (2) and matching the data content;

the comparison module (6) is used for receiving the current medicine logistics information identified by the identification module (2), acquiring medicine attribute parameter data corresponding to the current medicine logistics information, and comparing the medicine logistics information and the medicine attribute parameter data with the matched data content in the configuration module (5);

the verification module (7) is used for verifying the position information of the system end user when the system end user operates in the system;

the feedback module (8) is used for receiving the comparison result data and the position information verification result data obtained by the operation of the comparison module (6) and the verification module (7), packaging the data and sending the data to the control terminal (1);

after sending the packing data to the control terminal (1), the feedback module (8) decompresses and reads the packing data on the control terminal (1) by a system end user.

2. The pharmaceutical raw material traceability system based on the internet of things according to claim 1, wherein the identification module (2) is provided with a sub-module at a lower level, and comprises:

the distinguishing unit (21) is used for receiving the medicinal material logistics information identified by the identification module (2) and acquiring the medicinal material attribution by applying the medicinal material logistics information;

the storage unit (22) is used for receiving the attribution information of the medicinal material logistics information obtained by the operation of the distinguishing unit (21) and distinguishing and storing the medicinal materials according to the attribution information;

the storage unit (22) synchronously stores the received medicinal material logistics information, and deletes the stored medicinal material logistics information after the data comparison is completed by the comparison module (6).

3. The pharmaceutical raw material traceability system based on the internet of things according to claim 1, wherein when the uploading module (3) operates, a user at a system end samples a medicinal material, sets at least three groups of medicinal material sampling samples, and collects soil as soil samples synchronously with the surface of the medicinal material when sampling the medicinal material, sets at least three groups of soil samples, performs component analysis on the three groups of medicinal material samples and the three groups of soil samples, calculates component proportion average values of the medicinal material samples and the soil samples according to analysis results, sends the calculated component proportion average values to the uploading module (3), and stores the obtained component proportion average values in the uploading module (3);

the calculated component proportion average value of the medicinal material sample and the soil sample is recorded as attribute parameter data of the uploading module (3), and the sampling operation of the soil on the surface of the medicinal material is subjected to user-defined decision-making according to a system end user.

4. The pharmaceutical raw material traceability system based on the internet of things according to claim 1 or 2, wherein when capturing the soil attribute parameter data of the medicinal material planting area, the capturing module (4) is synchronous with the acquisition of the medicinal material attribution in the distinguishing unit (21) and captures the soil attribute parameter data by using the medicinal material attribution as the medicinal material planting area;

wherein, capture module (4) subordinate is provided with the submodule piece, includes:

the receiving unit (41) is used for receiving the medicinal material sample component proportion average value sent by the system end user to the uploading module (3);

and the packing unit (42) is used for acquiring the soil attribute parameter data of the medicinal material planting area captured by the capturing module (4) and the medicinal material sample component proportion average value received by the receiving unit (41), carrying out data packing processing on the soil attribute parameter data and the medicinal material sample component proportion average value, and then sending the data to the storage unit (22).

5. The pharmaceutical raw material traceability system based on the internet of things according to claim 4, wherein when the configuration module (5) operates, soil attribute parameter data of a medicinal material planting area, a medicinal material sample component proportion average value and medicinal material attribution information are read from the storage unit (22), association matching is performed on medicinal material targets corresponding to three groups of data, and the medicinal material targets are synchronously stored in the storage unit (22) after the association matching is completed;

in the configuration module (5), the medicinal material sample component proportion average value data applied in the data matching stage is data sent by a system end user to the uploading module (3) in the initial operation stage of the system.

6. The pharmaceutical raw material traceability system based on the internet of things according to claim 5, wherein the configuration module (5) and the comparison module (6) are provided with sub-modules at a lower level, and the pharmaceutical raw material traceability system comprises:

the logic unit (61) is used for setting a comparison threshold and comparison logic when the comparison module (6) performs comparison;

wherein, the comparison threshold value set in the logic unit (61) is manually edited and set by a system end user; the comparison logic set in the logic unit (61) is: acquiring medicinal material attribution information and a medicinal material sample component proportion average value from the current medicinal material logistics information and medicinal material attribute parameter data, and judging whether the acquired medicinal material attribution information is consistent with medicinal material attribution information in the matched data content in the configuration module (5); and judging whether the obtained proportion average value of the components of the medicinal material samples is consistent with the proportion average value of the components of the medicinal material samples in the matched data content in the configuration module (5) in the state of applying the comparison threshold value.

7. The pharmaceutical raw material traceability system based on the internet of things according to claim 6, wherein the comparison module (6) is provided with a sub-module at a lower level, and the pharmaceutical raw material traceability system comprises:

the decision unit (62) is used for deciding whether the current medicinal material logistics information and medicinal material attribute parameter data applied by the comparison module (6) are sent to the identification module (2) and the uploading module (3) or not;

the decision unit (62) obtains the operation result of the comparison module (6) in real time, when the operation results of the comparison module (6) are consistent, the operation result of the decision module (62) is no, when any operation result of the comparison module (6) is inconsistent, the operation result of the decision module (62) is yes, the comparison module (6) sends the current medicinal material logistics information and medicinal material attribute parameter data applied during comparison to the identification module (2) and the uploading module (3), and the current medicinal material logistics information and medicinal material attribute parameter data are processed by the identification module (2), the uploading module (3), the capturing module (4), the logic unit (61) and the configuration module (5).

8. The pharmaceutical raw material traceability system based on the internet of things according to claim 1, wherein the verification module (7) operates in the system in real time, and when the verification module (7) operates, position information of an attribute parameter data state of medicinal materials uploaded by a system end user through the uploading module (3) is obtained, and the system end user manually edits the position information of a set comparison threshold state through the logic unit (61) to determine whether the two groups of position information are consistent.

9. The pharmaceutical raw material traceability system based on the internet of things according to claim 1, wherein when the system end decompresses and reads the package data sent by the feedback module (8) on the control terminal (1), the verification module (7) synchronously obtains the position information of a system end user when the data are decompressed and read, compares the position information with the position information applied by the verification module (7) when the verification module operates for the first time, and judges whether the position information is consistent;

after decompressing and reading the packet data on the control terminal (1), the system end user reads the further judging result of the verification module (7).

10. The pharmaceutical raw material tracing system based on the internet of things according to claim 1, wherein the control terminal (1) is electrically connected with the identification module (2) through a medium, the lower stage of the identification module (2) is electrically connected with the distinguishing unit (21) and the storage unit (22) through the medium, the identification module (2) is electrically connected with the uploading module (3) and the capturing module (4) through the medium, the capturing module (4) is electrically connected with the distinguishing unit (21) through the medium, the lower stage of the capturing module (4) is electrically connected with the receiving unit (41) and the packing unit (42) through the medium, the receiving unit (41) is electrically connected with the uploading module (3) through the medium, the capturing module (4) is electrically connected with the configuration module (5) and the comparison module (6) through the medium, the lower stage of the configuration module (5) and the comparison module (6) is electrically connected with the logic unit (61) through the medium, the lower stage of the comparison module (6) is electrically connected with the decision unit (62) through the medium, and the comparison module (6) is electrically connected with the feedback module (7) through the medium and the comparison module (8).