CN111178909A - Vegetable safety detection two-dimensional code storage method based on satellite positioning and website system - Google Patents

Abstract

The invention discloses a vegetable safety detection two-dimensional code storage method based on satellite positioning and a website system. The website system comprises a database, a server, a processor, two-dimensional code preparation equipment, a two-dimensional code reading device, a vegetable detection parameter module and a display module; the two-dimension code preparation device is connected with the server and the vegetable detection module and is used for receiving an instruction of the server and preparing a two-dimension code according to detection information sent by the vegetable detection module; the two-dimensional code reading device is connected with the processor and used for reading the two-dimensional code and sending the information of the two-dimensional code to the processor; the vegetable detection parameter module is connected with the server and the two-dimensional code preparation equipment and used for detecting related vegetable detection data through the vegetable safety detection device. The server is connected with the two-dimension code preparation and database through a network address URL, and controls and transmits the two-dimension code to the database. The invention enables a user to trace the source of vegetables and obtain safety information more conveniently through the two-dimensional code.

Description

Vegetable safety detection two-dimensional code storage method based on satellite positioning and website system

Technical Field

The invention relates to the technical field of internet, in particular to a vegetable safety detection two-dimensional code storage method based on satellite positioning and a website system.

Background

With the continuous progress of the economic society and the continuous deep development of the economic globalization, the dietary culture of people is increasingly diversified, and the food sanitation and safety become the hot topics which are concerned. The eating of vegetables is indispensable for people's life, but the quality inspection on vegetables is safe and has no real-time property. The safe vegetable tracing technology is a key development direction in China, and a safe vegetable tracing system established by fusing big data through the Internet plus has important significance for promoting food safety law. The Internet and agricultural manufacturing is completed by using the Internet and safe vegetable authentication, tracing system technology and safe food certification trademark authorization so as to solve the problem of food safety tracing. The existing problem is the technical problem of tracing the source of safe vegetables, and still needs to be further perfected and solved to realize the production and sale of the safe vegetables.

At present, a pesticide residue analysis instrument is high in cost, heavy in size and long in detection time, and the field test requirement is difficult to meet, and a portable multichannel pesticide residue information acquisition method and a related system which can be used for rapid test and convenient operation are urgently needed by many law enforcement departments.

Disclosure of Invention

Aiming at the problems of the existing vegetable safety detection, the invention provides a vegetable safety detection two-dimensional code storage method and a website system based on satellite positioning.

The purpose of the invention is realized by at least one of the following technical solutions.

A vegetable safety detection two-dimensional code website system based on satellite positioning comprises a database, a server, a processor, two-dimensional code preparation equipment, a two-dimensional code reading device, a vegetable detection parameter module and a display module; the server module comprises an acquisition module, a storage module, a comparison module and an updating module;

the server is connected with the database, the processor and the two-dimensional code preparation device, is used for operating and controlling a computer operating system, is connected with the two-dimensional code preparation equipment and the database through a network address URL, and controls and transmits the two-dimensional code to the database;

the database is connected with the server and the vegetable detection module and is used for storing the two-dimension codes and orderly storing vegetable detection data;

the processor is connected with the server, the display module and the two-dimensional code reading device and used for processing the received data and sending the processed data to the server or sending the processed data to the display module for display;

the two-dimension code preparation device is connected with the server and the vegetable detection module and is used for receiving an instruction of the server and preparing a two-dimension code according to detection information sent by the vegetable detection module;

the two-dimensional code reading device is connected with the processor and used for reading the two-dimensional code and sending the information of the two-dimensional code to the processor;

the vegetable detection parameter module is connected with the server and the two-dimensional code preparation equipment, and is used for detecting the origin place information and the vegetable safety information of vegetables through the satellite positioning module and the vegetable safety detection device and sending the information to the two-dimensional code preparation equipment and the server;

and the display module is connected with the processor and used for displaying the result after the processor processes and analyzes.

Furthermore, the vegetable detection data detected by the vegetable detection parameter module comprise core parameters, and the core parameters comprise pesticide residue, vegetable type, vegetable batch, geographic position information of a place of origin, vegetable picking date, quality guarantee period, vegetable information input date, vegetable safety detection personnel information, pesticide residue and additive residue.

Furthermore, the acquisition module is used for acquiring the geographic position information of the origin of the vegetables, the type and batch information of the vegetables and the information input time information from the database;

the storage module is used for classifying the information acquired by the acquisition module according to the geographic position information of the origin of the vegetables, the vegetable types, the batch information and the information input time and temporarily storing the information;

the comparison module is used for comparing and analyzing the information related to the vegetable safety detection with the vegetable safety detection standard stored in the server;

the updating module is used for processing and updating the data stored in the server periodically.

Further, the comparing module specifically includes: comparing security detection core parameters; comparing and analyzing the difference value between the information input date and the production date and the quality guarantee period; the difference between the purchase date and the production date and the quality guarantee date are compared and analyzed.

Further, the vegetable safety detection device structure includes: the device comprises a communication module, a detector, a liquid crystal display screen, a satellite positioning module, a power switch and a sample room; the sample chamber contains 96 measurement channels; and the geographic position information of the origin of the vegetables acquired by the satellite positioning module and the detection data acquired by the detector are uploaded to a configured network server.

Furthermore, the content displayed by the display module comprises a vegetable batch comparison result, a core parameter comparison result and a date difference comparison result; the display module adopts a liquid crystal display screen.

Further, the detection method of the vegetable safety detection device comprises the following steps:

s1, replacing a table sample, and cutting the table sample into a square with the side length of 1 cm;

s2, weighing 2g of the extract, adding 10ml of buffer solution, shaking for 2 minutes, filtering, and taking the filtrate;

s3, testing software is entered, and corresponding detection parameters are selected, wherein the detection parameters comprise heavy metal harmful substances, pesticide residues and additive residues;

s4, adding 20 mu L of enzyme and 20 mu L of color developing agent into all sample wells, and uniformly mixing;

s5, adding 200 mu L of the solution to be detected into the first hole A1 or the first row as a control hole, and adding 200 mu L of the solution to be detected into the other holes;

s6, reacting for 10min, and oscillating the pore plates as much as possible to ensure that the reaction is fully carried out;

s7, quickly adding 20 mu L of substrate into all the holes, shaking at a high speed for 10S, and starting the vegetable safety detection device.

Further, the processing procedure of the comparison module comprises:

b1, scanning the two-dimensional code by using a two-dimensional code reading device to obtain the vegetable recording date, the vegetable batch, the vegetable origin geographical position and corresponding vegetable safety detection information;

b2, comparing the obtained vegetable safety detection information with the same batch of same-type vegetable detection information stored in the server for consistency, if so, ensuring that the batch of vegetables are vegetable varieties which are detected to be safe by the detection device, and if not, questioning the sources of the vegetables and giving out a warning;

b3, comparing and analyzing the difference between the date and the production date and the quality guarantee date, judging whether the vegetables purchased on the same day are in the quality guarantee period, and prompting;

and B4, sending the comparison information of the pesticide residue of the core parameter in the safety detection information and the safety standard of the vegetables and the comparison result of the date to a display module to be presented to a user.

The vegetable detection safety information storage method using the vegetable safety detection two-dimensional code website system based on satellite positioning comprises the following steps:

a1, detecting the safety information of the vegetables by a safety detection device;

a2, classifying and inputting information related to vegetable safety detection into a database according to time and vegetable types and batches;

a3, acquiring core parameters of the security detection information from a database through an acquisition module of the server as required;

a4, comparing and analyzing the core parameters of the obtained vegetable detection data with the vegetable safety standard through a comparison module of the server, if the measured core parameters reach the vegetable safety standard, performing step A5, and if the measured core parameters do not reach the vegetable safety standard, noting that the safety detection does not pass;

a5, in order to further ensure that the vegetables have passed the pesticide residue period and are in the guarantee period, further carrying out comparative analysis on the difference between the recording date and the production date and the guarantee period; if the obtained difference value is less than the quality guarantee period, the vegetable varieties of the batch are allowed to be stored in the storage module, and if the obtained difference value is greater than the quality guarantee period, the vegetable varieties of the batch are marked;

a6, finally judging the safety condition of the vegetables through the comparison result of the server comparison module;

a7, storing the vegetables with safety judgment in a storage module of a server in a classified manner, wherein the classified category comprises vegetable origin place information, vegetable batch and category, vegetable safety information entry date and safety detection personnel information; the vegetables which do not meet the safety standard are given marking treatment;

a8, storing the information recorded to reach the vegetable safety standard in the two-dimensional code through the sequence number for scanning and identifying, and preparing the corresponding two-dimensional code through a two-dimensional code preparation device.

Further, in step A8, the two-dimensional code specifically includes a first positioning area, a second positioning area, a third positioning area, an auxiliary positioning area, a vegetable origin information verification area, and a vegetable security detection verification information area; the information verified by the vegetable origin information verification area comprises vegetable origin geographical position information, vegetable type supply information, vegetable safety detection personnel information, vegetable detection information input time and vegetable batch management information; the information verified by the vegetable safety detection verification information area comprises detection parameters of vegetable pesticide residues, heavy metals and additives.

Compared with the prior art, the invention has the advantages that: the invention can lead the user to trace the source of the vegetables and obtain the safety information of the vegetables more conveniently through the two-dimension code.

Drawings

FIG. 1 is a structure diagram of a vegetable safety detection two-dimensional code website system based on satellite positioning according to the present invention;

fig. 2 is a block diagram of a vegetable detection security information server according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a vegetable safety detection device according to an embodiment of the present invention;

FIG. 4 is a diagram illustrating the specific steps of vegetable safety inspection according to an embodiment of the present invention;

FIG. 5 is a flowchart of a method for storing vegetable detection safety information according to an embodiment of the present invention;

FIG. 6 is a structural diagram of a two-dimensional code for vegetable security detection in an embodiment of the present invention;

fig. 7 is a flowchart of a method for acquiring vegetable detection safety information in an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Example (b):

a vegetable safety detection two-dimensional code website system based on satellite positioning, as shown in fig. 1, comprises a database, a server, a processor, two-dimensional code preparation equipment, a two-dimensional code reading device, a vegetable detection parameter module and a display module; as shown in fig. 2, the server module includes an obtaining module, a storage module, a comparing module and an updating module;

the server is connected with the database, the processor and the two-dimensional code preparation device, is used for operating and controlling a computer operating system, is connected with the two-dimensional code preparation equipment and the database through a network address URL, and controls and transmits the two-dimensional code to the database;

the database is connected with the server and the vegetable detection module and is used for storing the two-dimension codes and orderly storing vegetable detection data;

the processor is connected with the server, the display module and the two-dimensional code reading device and used for processing the received data and sending the processed data to the server or sending the processed data to the display module for display;

the two-dimension code preparation device is connected with the server and the vegetable detection module and is used for receiving an instruction of the server and preparing a two-dimension code according to detection information sent by the vegetable detection module;

the two-dimensional code reading device is connected with the processor and used for reading the two-dimensional code and sending the information of the two-dimensional code to the processor;

the vegetable detection parameter module is connected with the server and the two-dimensional code preparation equipment, and is used for detecting the origin place information and the vegetable safety information of vegetables through the satellite positioning module and the vegetable safety detection device and sending the information to the two-dimensional code preparation equipment and the server;

and the display module is connected with the processor and used for displaying the result after the processor processes and analyzes.

The vegetable detection data detected by the vegetable detection parameter module comprise core parameters, such as pesticide residue, vegetable type, vegetable batch and geographical position information of a place of origin, vegetable picking date, quality guarantee period, vegetable information input date, vegetable safety detection personnel information, residual pesticide (methamidophos, trichlorfon, monocrotophos, omethoate and other pyrethroid pesticides) and residual additive.

The acquisition module is used for acquiring the geographic position information of the vegetable origin place, the vegetable type, batch information and information input time information from the database;

the storage module is used for classifying the information acquired by the acquisition module according to the geographic position information of the origin of the vegetables, the vegetable types, the batch information and the information input time and temporarily storing the information;

the comparison module is used for comparing and analyzing the information related to the vegetable safety detection with the existing vegetable safety detection standard stored in the server;

the updating module is used for processing and updating the data stored in the server periodically.

The comparison module specifically comprises: comparing security detection core parameters; comparing and analyzing the difference value between the information input date and the production date and the quality guarantee period; the difference between the purchase date and the production date and the quality guarantee date are compared and analyzed.

The safety of agricultural products mainly involves pesticide residues, heavy metals, nitrates, nitrites, microorganisms and the like. At present, the vegetable pesticide residue detection technology is various in types and is classified according to the principle, and the technology mainly comprises a gas chromatography method, a gas chromatography-mass spectrometry combined method, a high performance liquid chromatography method, a liquid chromatography-mass spectrometry combined method and an enzyme inhibition method. As shown in fig. 3, the vegetable safety detection device structure includes: a communication module 301, a detector 302, a liquid crystal display 303, a GPS satellite positioning module 304, a power switch 305 and a sample room 306; the sample chamber contains 96 measurement channels; and the GPS information acquired by the GPS satellite positioning module and the detection data acquired by the detector are uploaded to a configured network server.

The content displayed by the display module comprises a vegetable batch comparison result, a core parameter comparison result and a date difference comparison result; the display module adopts a liquid crystal display screen.

The vegetable safety detection method, as shown in fig. 4, comprises the following steps:

s1, replacing a table sample, and cutting the table sample into a square with the side length of 1 cm;

s2, weighing 2g of the extract, adding 10ml of buffer solution, shaking for 2 minutes, filtering, and taking the filtrate;

s3, testing software is entered, and corresponding detection parameters are selected, wherein the detection parameters comprise heavy metal harmful substances, pesticide residues and additive residues;

s4, adding 20 mu L of enzyme and 20 mu L of color developing agent into all sample wells, and uniformly mixing;

s5, adding 200 mu L of the solution to be detected into the first hole A1 or the first row as a control hole, and adding 200 mu L of the solution to be detected into the other holes;

s6, reacting for 10min, and oscillating the pore plates as much as possible to ensure that the reaction is fully carried out;

s7, quickly adding 20 mu L of substrate into all the holes, shaking at a high speed for 10S, and starting the vegetable safety detection device.

The storage method of the vegetable detection safety information, as shown in fig. 5, comprises the following steps:

a1, detecting the safety information of the vegetables by a safety detection device;

a2, classifying and inputting information related to vegetable safety detection into a database according to time and vegetable types and batches;

a3, acquiring core parameters of the security detection information from a database through an acquisition module of the server as required;

a4, comparing and analyzing the core parameters of the obtained vegetable detection data with the vegetable safety standard through a comparison module of the server, if the measured core parameters reach the vegetable safety standard, performing step A5, and if the measured core parameters do not reach the vegetable safety standard, noting that the safety detection does not pass;

a5, in order to further ensure that the vegetables have passed the pesticide residue period and are in the guarantee period, further carrying out comparative analysis on the difference between the recording date and the production date and the guarantee period; if the obtained difference value is less than the quality guarantee period, the vegetable varieties of the batch are allowed to be stored in the storage module, and if the obtained difference value is greater than the quality guarantee period, the vegetable varieties of the batch are marked;

a6, finally judging the safety condition of the vegetables through the comparison result of the server comparison module;

a7, storing the vegetables with safety judgment in a storage module of a server in a classified manner, wherein the classified category comprises vegetable origin place information, vegetable batch and category, vegetable safety information entry date and safety detection personnel information; the vegetables which do not meet the safety standard are given marking treatment;

a8, storing the information recorded to reach the vegetable safety standard in the two-dimensional code through the sequence number for scanning and identifying, and preparing the corresponding two-dimensional code through a two-dimensional code preparation device.

In step A8, as shown in fig. 6, the two-dimensional code specifically includes a first positioning area 601, a second positioning area 602, a third positioning area 603, an auxiliary positioning area 604, a vegetable origin information verification area 605, and a vegetable security detection verification information area 606; the information verified by the vegetable origin information verification area 605 includes geographical location information of the vegetable origin, vegetable type supply information, vegetable safety detection personnel information, vegetable detection information entry time, and vegetable batch management information; the information verified by the vegetable safety detection verification information area 606 includes detection parameters of vegetable pesticide residues, heavy metals and additives.

The method for acquiring the vegetable detection safety information, as shown in fig. 7, includes the following steps:

b1, scanning the two-dimensional code by using a two-dimensional code reading device to obtain the vegetable recording date, the vegetable batch, the vegetable origin geographical position and corresponding vegetable safety detection information;

b2, comparing the obtained vegetable safety detection information with the same batch of same-type vegetable detection information stored in the server by using a processor to determine whether the obtained vegetable safety detection information is consistent with the same batch of same-type vegetable detection information stored in the server, if so, ensuring that the batch of vegetables are vegetable varieties which are detected to be safe by the detection device, and if not, questioning the sources of the vegetables, and giving out a warning;

b3, comparing and analyzing the difference between the date and the production date and the quality guarantee date, judging whether the vegetables purchased on the same day are in the quality guarantee period, and prompting;

and B4, sending the comparison information of the pesticide residue of the core parameter in the safety detection information and the safety standard of the vegetables and the comparison result of the date to a display module to be presented to a user.

Claims (10)

1. A vegetable safety detection two-dimensional code website system based on satellite positioning is characterized by comprising a database, a server, a processor, two-dimensional code preparation equipment, a two-dimensional code reading device, a vegetable detection parameter module and a display module; the server module comprises an acquisition module, a storage module, a comparison module and an updating module;

the server is connected with the database, the processor and the two-dimensional code preparation device, is used for operating and controlling a computer operating system, is connected with the two-dimensional code preparation equipment and the database through a network address URL, and controls and transmits the two-dimensional code to the database;

the database is connected with the server and the vegetable detection module and is used for storing the two-dimension codes and orderly storing vegetable detection data;

the processor is connected with the server, the display module and the two-dimensional code reading device and used for processing the received data and sending the processed data to the server or sending the processed data to the display module for display;

the two-dimension code preparation device is connected with the server and the vegetable detection module and is used for receiving an instruction of the server and preparing a two-dimension code according to detection information sent by the vegetable detection module;

the two-dimensional code reading device is connected with the processor and used for reading the two-dimensional code and sending the information of the two-dimensional code to the processor;

the vegetable detection parameter module is connected with the server and the two-dimensional code preparation equipment, and is used for detecting the origin place information and the vegetable safety information of vegetables through the satellite positioning module and the vegetable safety detection device and sending the information to the two-dimensional code preparation equipment and the server;

and the display module is connected with the processor and used for displaying the result after the processor processes and analyzes.

2. The vegetable safety detection two-dimensional code website system based on satellite positioning as claimed in claim 1, wherein the vegetable detection data detected by the vegetable detection parameter module comprises core parameters, and the core parameters comprise pesticide residue, vegetable type and batch and origin geographical position information, vegetable picking date, quality guarantee period, vegetable information entry date, vegetable safety detection personnel information, pesticide residue and additive residue.

3. The vegetable safety detection two-dimensional code website system based on satellite positioning as claimed in claim 1, wherein the acquisition module is used for acquiring vegetable origin geographical position information, vegetable type, batch information and information entry time information from a database;

the storage module is used for classifying the information acquired by the acquisition module according to the geographic position information of the origin of the vegetables, the vegetable types, the batch information and the information input time and temporarily storing the information;

the comparison module is used for comparing and analyzing the information related to the vegetable safety detection with the vegetable safety detection standard stored in the server;

the updating module is used for processing and updating the data stored in the server periodically.

4. The vegetable safety detection two-dimensional code website system based on satellite positioning as claimed in claim 3, wherein the comparing module specifically comprises: comparing security detection core parameters; comparing and analyzing the difference value between the information input date and the production date and the quality guarantee period; the difference between the purchase date and the production date and the quality guarantee date are compared and analyzed.

5. The vegetable safety detection two-dimensional code website system based on satellite positioning as claimed in claim 1, wherein the vegetable safety detection device structure comprises: the device comprises a communication module, a detector, a liquid crystal display screen, a satellite positioning module, a power switch and a sample room; the sample chamber contains 96 measurement channels; and the geographic position information of the origin of the vegetables acquired by the satellite positioning module and the detection data acquired by the detector are uploaded to a configured network server.

6. The vegetable safety detection two-dimensional code website system based on satellite positioning as claimed in claim 1, wherein the content displayed by the display module comprises vegetable batch comparison results, core parameter comparison results, date difference comparison results; the display module adopts a liquid crystal display screen.

7. The vegetable safety detection two-dimensional code website system based on satellite positioning as claimed in claim 1, wherein the detection method of the vegetable safety detection device comprises the following steps:

s1, replacing a table sample, and cutting the table sample into a square with the side length of 1 cm;

s2, weighing 2g of the extract, adding 10ml of buffer solution, shaking for 2 minutes, filtering, and taking the filtrate;

s3, testing software is entered, and corresponding detection parameters are selected, wherein the detection parameters comprise heavy metal harmful substances, pesticide residues and additive residues;

s4, adding 20 mu L of enzyme and 20 mu L of color developing agent into all sample wells, and uniformly mixing;

s5, adding 200 mu L of the solution to be detected into the first hole A1 or the first row as a control hole, and adding 200 mu L of the solution to be detected into the other holes;

s6, reacting for 10min, and oscillating the pore plates as much as possible to ensure that the reaction is fully carried out;

s7, quickly adding 20 mu L of substrate into all the holes, shaking at a high speed for 10S, and starting the vegetable safety detection device.

8. The vegetable safety detection two-dimensional code website system based on satellite positioning as claimed in claim 4, wherein the processing procedure of the comparison module comprises:

b1, scanning the two-dimensional code by using a two-dimensional code reading device to obtain the vegetable recording date, the vegetable batch, the vegetable origin geographical position and corresponding vegetable safety detection information;

b2, comparing the obtained vegetable safety detection information with the same batch of same-type vegetable detection information stored in the server for consistency, if so, ensuring that the batch of vegetables are vegetable varieties which are detected to be safe by the detection device, and if not, questioning the sources of the vegetables and giving out a warning;

b3, comparing and analyzing the difference between the date and the production date and the quality guarantee date, judging whether the vegetables purchased on the same day are in the quality guarantee period, and prompting;

and B4, sending the comparison information of the pesticide residue of the core parameter in the safety detection information and the safety standard of the vegetables and the comparison result of the date to a display module to be presented to a user.

9. The vegetable detection safety information storage method of the vegetable safety detection two-dimensional code website system based on satellite positioning as claimed in claim 1, which comprises the following steps:

a1, detecting the safety information of the vegetables by a safety detection device;

a2, classifying and inputting information related to vegetable safety detection into a database according to time and vegetable types and batches;

a3, acquiring core parameters of the security detection information from a database through an acquisition module of the server as required;

a4, comparing and analyzing the core parameters of the obtained vegetable detection data with the vegetable safety standard through a comparison module of the server, if the measured core parameters reach the vegetable safety standard, performing step A5, and if the measured core parameters do not reach the vegetable safety standard, noting that the safety detection does not pass;

a5, in order to further ensure that the vegetables have passed the pesticide residue period and are in the guarantee period, further carrying out comparative analysis on the difference between the recording date and the production date and the guarantee period; if the obtained difference value is less than the quality guarantee period, the vegetable varieties of the batch are allowed to be stored in the storage module, and if the obtained difference value is greater than the quality guarantee period, the vegetable varieties of the batch are marked;

a6, finally judging the safety condition of the vegetables through the comparison result of the server comparison module;

a7, storing the vegetables with safety judgment in a storage module of a server in a classified manner, wherein the classified category comprises vegetable origin place information, vegetable batch and category, vegetable safety information entry date and safety detection personnel information; the vegetables which do not meet the safety standard are given marking treatment;

a8, storing the information recorded to reach the vegetable safety standard in the two-dimensional code through the sequence number for scanning and identifying, and preparing the corresponding two-dimensional code through a two-dimensional code preparation device.

10. The storage method of vegetable detection safety information as claimed in claim 8, wherein in step A8, the two-dimensional code specifically includes a first location area (601), a second location area (602), a third location area (603), an auxiliary location area (604), a vegetable origin information verification area (605), a vegetable safety detection verification information area (606); the information verified by the vegetable origin information verification area (605) comprises vegetable origin geographical position information, vegetable type supply information, vegetable safety detection personnel information, vegetable detection information input time and vegetable batch management information; the information verified by the vegetable safety detection verification information area (606) comprises detection parameters of vegetable pesticide residues, heavy metals and additives.

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