CN110907635A - Device and method for detecting information verification sample of virus-involved person - Google Patents

Abstract

The invention belongs to the technical field of drug detection, and particularly relates to a device and a method for verifying a sample by drug-involved person information. The system comprises a mobile control terminal, a detection terminal, an identification code output terminal and a data carrier printing terminal. The product integrates various modules, so that the work of field law enforcement personnel becomes high-quality, efficient and high-precision. Each terminal is provided with a battery, is connected with the drug fast inspection instrument through Bluetooth, and can perform mobile control, mobile card reading, mobile face verification, mobile fingerprint verification and mobile data transmission. The adaptability of the field environment is improved. The device is internally provided with a data carrier generation algorithm and a data carrier analysis algorithm, so that the biological samples, the reagent cards and the test results of field personnel can be effectively identified, and the result confusion is prevented.

Description

Device and method for detecting information verification sample of virus-involved person

Technical Field

The invention belongs to the technical field of hair drug detection, and particularly relates to a device and a method for detecting information verification samples of drug-related personnel.

Background

The current on-site hair drug detector has the following characteristics:

the on-site law enforcement personnel need to manually input identity information of the suspect, so that the efficiency is low and mistakes are easily made. The field law enforcement officer confirms the identity through the subjective comparison of the identity card of the virus-involved officer and the human face, or confirms the identity through the dictation of the identity information of the virus-involved officer. The subjective opinion components are large. The field law enforcement personnel can not be in butt joint with the data center in real time, and the test report can not be judged and decided in real time through field printing or bringing back to the data center for comparison and analysis. The terminal machine comprises a shell, a power supply, an operation panel and a corresponding detection card socket.

In conclusion, the detection operation steps of the field law enforcement personnel are complicated due to the offline detection of the single device, so that the identity of the field virus-involved personnel cannot be confirmed, further, the information cannot be subjected to data interaction with a background, and finally, the situation that the field biological sample, the reagent card and the detection result are disordered is presented.

Disclosure of Invention

Aiming at the technical problems, the invention provides a sample detection device for information verification of virus-related personnel, which integrates biological sample drug detection, an identity card reader, a photographing module, a face recognition module, a fingerprint recognition module, a data transmission module, a data carrier production algorithm, a data carrier analysis algorithm and a printer module, so that the work of field law enforcement personnel is high-quality, efficient and high-precision.

The technical scheme of the device provided by the invention is as follows:

a sample detection device for information verification of virus-related personnel comprises a mobile control terminal and a detection terminal

And an identification code output terminal;

the mobile control terminal comprises a central processing unit, and a result display module, a data storage module, a main control Bluetooth module, a network link module, a data carrier generation module, a data carrier analysis module, an identity card reading module, a face recognition module and a camera module which are connected with the central processing unit;

the detection terminal comprises a detection control single chip microcomputer, a thermosensitive report printer, a detection Bluetooth module, a standard curve card wireless reading module, a fluorescence reading module and a detection storage module, wherein the thermosensitive report printer, the detection Bluetooth module, the standard curve card wireless reading module, the fluorescence reading module and the detection storage module are connected with the detection control single chip microcomputer;

the master control Bluetooth module is in communication connection with the detection Bluetooth module.

Furthermore, identification code output terminal is the data carrier printer, identification code output terminal includes, data carrier print module and data carrier printer bluetooth module, be equipped with the data carrier on the data carrier printer and print the export, data carrier printer bluetooth module is connected with master control bluetooth module looks communication.

Furthermore, the detection terminal is provided with an embedded groove matched with the mobile control terminal in shape.

Further, the depth of the embedding groove is 0.5-0.6 times of the thickness of the mobile control terminal.

Furthermore, a first slot for inserting the identification code output terminal is arranged on the detection terminal.

Furthermore, the depth of the first slot groove is 0.7-0.9 times of the height of the data carrier printer, and the printing outlet of the data carrier is exposed out of the detection terminal.

The invention provides a method for verifying information of virus-related personnel, which comprises the following steps:

step 1: starting the machine;

step 2: the mobile control terminal verifies the identity of the virus-involved person, including the identity card reading of the virus-involved person, the face verification and the fingerprint verification, and generates a data carrier by the information;

and step 3: cutting off enough hair from the heads of the virus-involved persons by law enforcement personnel according to the standard, loading the hair into a sample bag, and simultaneously attaching the data carrier generated in the step 1 to the sample bag and a reagent card;

and 4, step 4: the hair sample collected in the step 2 is cracked and incubated at normal temperature to generate a post-treatment sample, and the post-treatment sample is placed on a reagent card attached with the data carrier in the step 3;

and 5: the detection terminal identifies the label of the data carrier, and then inserts the standard curve card and the reagent card in the step 4 into the corresponding card slot to carry out the card reading comparison of the reagent card to obtain the information whether the person is toxic or not;

step 6: detecting the sample and generating a printing report; simultaneously attaching the data carrier generated in the step 2 to a report;

and 7: storing or returning the data to the data center; and the data center analyzes and studies the test report and feeds back a decision result.

Further, the identity card recording and data carrier label printing in the step 2 specifically comprises that the identity card reading module sends the read identity card information to the data storage module, the result display module and the data carrier generation module through the central processing unit; the data carrier generating module generates data carrier information after receiving the identity card information and respectively sends the data carrier information to the data storage module, the result display module and the central processing unit; after receiving the information of the data carrier, the central processing unit automatically generates a Bluetooth control signaling for printing the data carrier and informs the main control Bluetooth module of printing the data carrier; the main control Bluetooth module informs the data carrier printer of printing data carrier information through a Bluetooth communication protocol which is generated by the main control Bluetooth module and used for controlling the data carrier printer through a mobile control terminal; the data carrier information path is: the data carrier generating module finally reaches the data carrier printer module through the central processing unit, the main control Bluetooth module and the data carrier printer Bluetooth module.

Further, the 2 nd person verification in the step specifically comprises the steps of shooting and generating a suspect face picture by the camera module, generating a result by the central unit and the previously stored data called from the data storage block through the face recognition module, and sending the result to the result display module for displaying.

Further, the step 5 of identifying the label specifically includes that the camera collects previously generated data, and the data is analyzed by the data carrier analysis module and then exported to the result display module for display.

Further, the step 5 of reading the card by the standard curve card specifically comprises; a detection instruction is sent from the touch control module to the standard curve card wireless reading module through the central processing unit, a transmission path of the detection instruction is as follows, a detection control singlechip controls the standard curve card wireless reading module signaling to the central processing unit through the touch control module, the central processing unit sends a Bluetooth control signaling of the detection unit to the master control Bluetooth module, the master control Bluetooth module sends a communication protocol of the master control Bluetooth module controlling the detection Bluetooth module to the detection Bluetooth module, the detection Bluetooth module initiates the detection control singlechip to control the standard curve card wireless reading module signaling to the detection control singlechip, and the detection control singlechip sends the detection control singlechip controls the standard curve card wireless reading module signaling to the standard curve card wireless reading module; and then the standard curve card wireless card reading module reversely returns the generated standard curve information to the data storage module connected with the central processing unit for storage according to the original path.

Further, the step 5 of reading the reagent card specifically includes that the touch control module initiates a signal of controlling the fluorescence reading module by the detection control unit to the fluorescence reading module through the central processing unit, the central processing unit sends a signal request of controlling the fluorescence reading module by the detection control unit in the following path, the central processing unit sends a bluetooth control signal of the detection unit to the master control bluetooth module, the master control bluetooth module sends a signal of controlling the fluorescence reading module by the detection control unit to the detection bluetooth module, and the detection bluetooth module sends a signal of controlling the fluorescence reading module to the detection control single chip.

Further, the step 6 of generating a print report specifically includes that the central processing unit initiates report printing to the master bluetooth module. Through the Bluetooth control signaling of the detection unit, the detection control unit sends the detection control unit control signaling and the detection result generated by the central processing unit to the thermosensitive report printer through the master control Bluetooth module, the detection Bluetooth module and the detection control singlechip.

Further, the step 7 of storing or returning the data to the data center specifically includes that the central processing unit automatically generates the detection result, and transmits the detection result to the cloud data center through the network link module.

The device integrates biological sample drug detection, an identity card reader, a photographing module, a face recognition module, a fingerprint recognition module, a data transmission module, a data carrier production algorithm, a data carrier analysis algorithm and a printer module, so that the work of field law enforcement personnel becomes high-quality, efficient and high-precision.

The device adopts the design of portable desktop, can direct external power up (220 VAC), simple operation.

Each terminal of the device is provided with a battery, is connected with the drug fast-checking instrument through Bluetooth, and can perform mobile control, mobile card reading, mobile face verification, mobile fingerprint verification and mobile data transmission. The adaptability of the field environment is further improved.

The device is internally provided with a data carrier generation algorithm and a data carrier analysis algorithm, so that the biological samples, the reagent cards and the test results of field personnel can be effectively identified, and the result confusion is prevented.

The information verification of the virus-involved personnel has the characteristics of flexibility, convenience and quickness in case handling. In addition, the on-site information collection, the information receipt and the like can be realized, so that the working efficiency is improved.

Drawings

FIG. 1 is a schematic perspective view of the present apparatus;

FIG. 2 is a schematic diagram showing the internal structure of the detection terminal of the present apparatus;

FIG. 3 is a general view of the structure of the present apparatus;

FIG. 4 is a block diagram of an identity card entry and data carrier label printing process;

FIG. 5 is a block diagram of a human authentication verification process;

FIG. 6 is a block diagram of a tag identification process;

FIG. 7 is a block diagram of a standard curve card reading process;

FIG. 8 is a block diagram of a reagent card reading process;

FIG. 9 is a report printing flow block diagram;

FIG. 10 is a block diagram of a data transmission flow;

reference numerals: 01 mobile control terminal, 101 central processing unit, 102 result display module, 103 data storage module, 104 main control Bluetooth module, 105 network link module, 106 data carrier generation module, 107 data carrier analysis module, 108 ID card reading module, 109 face recognition module, 110 camera module, 111 touch control module, 02 detection terminal, 201 detection control single chip, 202 heat sensitive report printer, 203 detection Bluetooth module, 204 standard curve card wireless reading module, 205 fluorescence reading module, 206 card slot module, 207 detection storage module, 208 embedding groove, 209 first slot;

03 data carrier printer, 301 data carrier printing module, 302 data carrier printer bluetooth module, data carrier printing outlet 304;

401 data carrier label, 402 ID card, 403 suspect, 404 cloud data center, 405 reagent card, 406 standard curve card, 407 test report.

Detailed Description

The invention will be explained in detail below with reference to specific embodiments, first of all further explanation of the information transmission part, 2001: identity card information, the information comprising: identity card number, name, gender, photo; 2002: data carrier information, which may be a data carrier picture; 2007: the detection result, the information includes: identity card information, detection results, data carrier information; 2016: and (3) standard curve card: due to the difference of the antigen and the antibody of each batch, a curve is established for each batch according to the characteristics of the batch.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Meanwhile, the transmitted data information is explained so as to more clearly understand the technical scheme of the invention: 1001 suspect, 2001 identity card information, 2002 data carrier information, 2003 print data carrier Bluetooth control signaling, 2004 mobile control terminal control data carrier printer Bluetooth communication protocol, 2005 suspect face photo, 2006 face comparison result, 2007 detection result, 2008 main control Bluetooth module control detection Bluetooth module communication protocol, 2009 hair detection result, 2010 detection unit Bluetooth control signaling, 2011 detection control singlechip control standard curve card wireless reading module signaling, 2012 standard curve information, 2013 reagent card information, 2014 detection control unit control fluorescence reading module signaling, 2015 detection control unit control thermal printer signaling, 2016 standard curve card, 2017 detection reagent card.

Example 1

The embodiment provides a device for detecting information verification samples of virus-related personnel, which comprises a mobile control terminal 01, a detection terminal 02 and an identification code output terminal;

the mobile control terminal 01 comprises a central processing unit 101, a result display module 102, a data storage module 103, a main control Bluetooth module 104, a network link module 105, a data carrier generation module 106, a data carrier analysis module 107, an identity card reading module 108, a face recognition module 109 and a camera module 110, which are connected with the central processing unit 101;

the detection terminal 02 comprises a detection control singlechip 201, a thermosensitive report printer 202, a detection Bluetooth module 203, a standard curve card wireless reading module 204, a fluorescence reading module 205 and a detection storage module 207 which are connected with the detection control singlechip 201, and also comprises a card slot module 206 connected with the fluorescence reading module 205;

the master bluetooth module 104 is in communication connection with the detection bluetooth module 203. Each terminal is provided with an independent power supply.

Example 2

Refer to fig. 1 and 2. In this embodiment, as a preferable scheme of embodiment 1, the identification code output terminal is a data carrier printer 03, the identification code output terminal includes a data carrier printing module 301 and a data carrier printer bluetooth module 302, a data carrier printing outlet 304 is provided on the data carrier printer 03, and the data carrier printer bluetooth module 302 is in communication connection with the main control bluetooth module 104. The detection terminal 02 is provided with an embedded groove 208 which is matched with the mobile control terminal 01 in shape. The depth of the embedding groove 208 is 0.5-0.6 times of the thickness of the mobile control terminal 01. The detection terminal 02 is provided with a first slot 209 into which the identification code output terminal is inserted. The first slot 209 has a slot depth of 0.7 to 0.9 times the height of the data carrier printer 03, and the data carrier print outlet 304 is exposed to the detection terminal 02.

The present embodiment discloses a data carrier printer 03 and a mobile control terminal 01 as a preferable configuration, and the data carrier printer 03 and the mobile control terminal 01 may be partially or completely embedded in a detection terminal 02.

When the device is used for sampling in some urban entertainment places, the device can only carry the mobile control terminal 01 to collect samples at a high speed, and then the samples are brought back to the detection terminal to prepare the samples and carry out detection for hours. The method can be used only by ensuring that personnel in the entertainment place do not leave the place, and the normal business of the place is not influenced. The existing verification device needs all personnel to detect one by one on the spot, and the business of the entertainment place can be influenced.

Example 3

Referring to fig. 3, the invention provides a method for verifying information of virus-related personnel, which comprises the following steps:

step 1: starting the machine;

step 2: the mobile control terminal verifies the identity of the virus-involved person, including the identity card reading of the virus-involved person, the face verification and the fingerprint verification, and generates a data carrier by the information;

and step 3: cutting off enough hair from the heads of the virus-involved persons by law enforcement personnel according to the standard, loading the hair into a sample bag, and simultaneously attaching the data carrier generated in the step 1 to the sample bag and a reagent card;

and 4, step 4: the hair sample collected in the step 2 is cracked and incubated at normal temperature to generate a post-treatment sample, and the post-treatment sample is placed on a reagent card attached with the data carrier in the step 3;

and 5: the detection terminal identifies the label of the data carrier, and then inserts the standard curve card and the reagent card in the step 4 into the corresponding card slot to carry out the card reading comparison of the reagent card to obtain the information whether the person is toxic or not;

step 6: detecting the sample and generating a printing report; simultaneously attaching the data carrier generated in the step 2 to a report;

and 7: storing or returning the data to the data center; and the data center analyzes and studies the test report and feeds back a decision result.

Referring to fig. 4, the identity card entry and data carrier label printing in step 2 specifically includes that the identity card reading module 108 sends the read identity card information 2001 to the data storage module 103, the result display module 102 and the data carrier generation module 106 through the central processing unit 01; after receiving the identification card information 2001, the data carrier generation module 106 generates data carrier information 2002, and sends the data carrier information 2002 to the data storage module 103, the result display module 102 and the central processing unit 101; after the central processing unit 101 receives the data carrier information 2002, it automatically generates a bluetooth control signal 2003 for printing the data carrier and informs the master bluetooth module 104 of the printing of the data carrier. The master bluetooth module 104 informs the data carrier printer 03 to print the data carrier information 2002 via the bluetooth communication protocol 2004 generated by the mobile control terminal for controlling the data carrier printer; the data carrier information path is: from the data carrier generation module 106 via the central processing unit 101, the master bluetooth module 104, the data carrier printer bluetooth module 301 and finally to the data carrier printer module 302.

The identity card is placed at the identity card reading position of the mobile control terminal 01, and identity card information 2001 is read. Meanwhile, the central processing unit 101 sends the identification card information 2001 to the data storage module 103, the result display module 102 and the data carrier generation module 106. 2. After receiving the id card information 2001, the data carrier generation module 106 immediately generates data carrier information 2002 and transmits the data carrier information 2002 to the central control unit 101, and the central control unit 101 sends the data carrier information 2002 to the result display module 102, to the data storage module 103, and to the main control bluetooth module 104. The main control bluetooth module 104 receives a bluetooth control signaling 2003 for printing the data carrier, processes the instruction through a bluetooth communication protocol 2004 for controlling the data carrier printer by the mobile control terminal, and sends the processed data carrier information 2002 to the data carrier printer bluetooth module 302; the data carrier printer bluetooth module 302 then sends the data carrier information 2002 to the data carrier printer module 301 and prints out the data carrier label 401.

Referring to fig. 5, the verification of the person in step 2 specifically includes the camera module 110 capturing a picture 2005 of the generated suspected face, the previously stored 2001 data called from the data storage block via the central processing unit, the face recognition module 109 generating a result 2006, and sending the result 2006 to the display module 102 for display.

At the same time of identity card information entry, the camera module 110 captures a suspected face 1001 of the suspected person 403, and sends a suspected face picture 2005 to the central processing unit 101. The central processing unit 101 sends the suspected face picture 2005 to the face recognition module 109 to wait for verification to generate a verification result 2006; the central processing unit 101 calls out the identification card information 2001 from the data storage module 103, which includes: the identity card number, name, gender and picture are sent to the face recognition module 109, the suspected face picture 2005 and the identity card information 2001 are compared by the face recognition module 109, then the face comparison result 2006 is sent to the central processing unit 101, and then the central processing unit 101 sends the face comparison result 2006 to the result display module 102.

Referring to fig. 6, the step 5 of tag identification specifically includes that the camera 110 collects previously generated data 401, analyzes the data by the data carrier analysis module 107, and then exports the data to the result display module for display.

The data carrier label 401 on this reagent card 405 is photographed with the camera module 110 of the mobile control terminal 01. After photographing, the camera module 110 automatically sends the data carrier information 2002 to the central processing unit 101, the central processing unit 101 immediately sends the data carrier information 2002 to the data carrier analysis module 107 for data carrier analysis, then the data carrier analysis module 107 returns result identification card information 2001 after data carrier analysis to the central processing unit 101, and finally the central processing unit 101 sends the identification card information 2001 to the result display module 102

Referring to fig. 7, step 5, the standard curve card reading specifically includes; a detection instruction is sent from the touch control module 111 to the standard curve card wireless reading module through the central processing unit 101, a transmission path of the detection instruction is as follows, a detection control singlechip controls a standard curve card wireless reading module signaling 2011 is sent to the central processing unit 101 through the touch control module 111, the central processing unit 101 sends a Bluetooth control signaling 2010 of the detection unit to the master control Bluetooth module 104, the master control Bluetooth module 104 sends a communication protocol 2008 of the master control Bluetooth module controlling the detection Bluetooth module to the detection Bluetooth module 203, the detection Bluetooth module 203 initiates a detection control singlechip controls a standard curve card wireless reading module signaling 2011 to the detection control singlechip 201, and the detection control singlechip 201 sends a detection control singlechip controls a standard curve card wireless reading module signaling 2011 to the standard curve card wireless reading module 204; and then the standard curve card wireless card reading module 204 reversely returns the generated standard curve information 2012 to the data storage module 103 connected with the central processing unit for storage according to the original path.

Referring to fig. 8, in step 5, the reagent card reading specifically includes that the touch control module 111 initiates a detection control unit control fluorescence reading module signaling 2014 to the fluorescence reading module 205 through the central processing unit, the path of the detection control unit control fluorescence reading module signaling 2014 is sent by the following central processing unit 101, the central processing unit 101 sends a bluetooth control signaling 2010 of the detection unit to the master bluetooth module 104, the master bluetooth module 104 sends a detection control unit control fluorescence reading module signaling 2014 to the detection bluetooth module 203, and the detection bluetooth module 203 sends the detection control unit control fluorescence reading module signaling 2014 to the detection control single chip microcomputer

Referring to fig. 9, step 6, generating the print report specifically includes the central processing unit 101 initiating report printing to the master bluetooth module 104. Through the bluetooth control signaling 2010 of the detection unit, the detection control unit control thermal printer signaling 2015 and the detection result 2007 generated by the central processing unit 101 are sent to the thermal report printer 202 through the master bluetooth module 104, the detection bluetooth module 203 and the detection control single-chip microcomputer 201.

Referring to fig. 10, in step 7, the data saving or returning data center specifically includes that the central processing unit 101 automatically generates a detection result 2007, and transmits the detection result 2007 to the cloud data center 404 through the network link module 105.

The product integrates biological sample drug detection, an identity card reader, a photographing module, a face recognition module, a fingerprint recognition module, a data transmission module, a data carrier production algorithm, a data carrier analysis algorithm and a printer module, so that the work of field law enforcement personnel is high-quality, efficient and high-precision.

The product adopts portable desktop design, can direct external power up (220 VAC), simple operation.

The main control panel of the product is provided with a battery, is connected with the drug fast inspection instrument through Bluetooth, and can perform mobile control, mobile card reading, mobile face verification, mobile fingerprint verification and mobile data transmission. The adaptability of the field environment is further improved.

A data carrier generation algorithm and a data carrier analysis algorithm are built in the product, so that field personnel biological samples, reagent cards and test results can be effectively identified, and result confusion is prevented.

The product is created with additional functions of reading card of an identity card, face recognition, fingerprint recognition and the like, and field law enforcement personnel acquire the identity information of the virus-involved personnel through the card reading of the identity card and then ensure the accurate identity of the virus-involved personnel through face verification and fingerprint verification, thereby avoiding the misjudgment condition of artificial subjective judgment.

The product innovatively adds a data transmission module, and the field device can be accessed to a data center of a public security organization through a 4G network through a data return module. The system can realize the online verification of the identity of the virus-related personnel, return the test result to the data center, analyze and judge the test result, and then return the decision result to the site, thereby providing a channel for realizing some extended applications.

All the data transmission can be assisted by the two-dimensional code for the data carrier.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A detection device for information verification samples of virus-related personnel is characterized by comprising a mobile control terminal, a detection terminal and an identification code output terminal;

the mobile control terminal comprises a central processing unit, and a result display module, a data storage module, a main control Bluetooth module, a network link module, a data carrier generation module, a data carrier analysis module, an identity card reading module, a face recognition module and a camera module which are connected with the central processing unit;

the detection terminal comprises a detection control single chip microcomputer, a thermosensitive report printer, a detection Bluetooth module, a standard curve card wireless reading module, a fluorescence reading module and a detection storage module, wherein the thermosensitive report printer, the detection Bluetooth module, the standard curve card wireless reading module, the fluorescence reading module and the detection storage module are connected with the detection control single chip microcomputer;

the master control Bluetooth module is in communication connection with the detection Bluetooth module.

2. The device for detecting the information verification samples of the virus-involved personnel according to claim 1, wherein the identification code output terminal is a data carrier printer, the identification code output terminal comprises a data carrier printing module and a data carrier printer Bluetooth module, the data carrier printer is provided with a data carrier printing outlet, and the data carrier printer Bluetooth module is in communication connection with the main control Bluetooth module.

3. The apparatus according to claim 1, wherein the testing terminal is provided with an insertion groove adapted to the shape of the mobile control terminal.

4. The apparatus of claim 3, wherein the depth of the groove of the insertion groove is 0.5 to 0.6 times the thickness of the mobile control terminal.

5. The apparatus as claimed in claim 1, wherein the test terminal has a first slot for inserting the identification code output terminal.

6. The apparatus according to claim 5, wherein the depth of the first slot is 0.7-0.9 times the height of the data carrier printer, and the print outlet of the data carrier is exposed to the detection terminal.

7. The method for verifying the information of the virus-related personnel is characterized by comprising the following steps of:

step 1: starting the machine;

step 2: the mobile control terminal verifies the identity of the virus-involved person, including the identity card reading of the virus-involved person, the face verification and the fingerprint verification, and generates a data carrier by the information;

and step 3: cutting off enough hair from the heads of the virus-involved persons by law enforcement personnel according to the standard, loading the hair into a sample bag, and simultaneously attaching the data carrier generated in the step 1 to the sample bag and a reagent card;

and 4, step 4: the hair sample collected in the step 2 is cracked and incubated at normal temperature to generate a post-treatment sample, and the post-treatment sample is placed on a reagent card attached with the data carrier in the step 3;

and 5: the detection terminal identifies the label of the data carrier, and then inserts the standard curve card and the reagent card in the step 4 into the corresponding card slot to carry out the card reading comparison of the reagent card to obtain the information whether the person is toxic or not;

step 6: detecting the sample and generating a printing report; simultaneously attaching the data carrier generated in the step 2 to a report;

and 7: storing or returning the data to the data center; and the data center analyzes and studies the test report and feeds back a decision result.

8. The method for verifying the information of the virus-involved personnel according to claim 7, wherein the step 2 of entering the identification card and printing the label of the data carrier specifically comprises the steps that the identification card reading module sends the read identification card information to the data storage module, the result display module and the data carrier generation module through the central processing unit; the data carrier generating module generates data carrier information after receiving the identity card information and respectively sends the data carrier information to the data storage module, the result display module and the central processing unit; after receiving the information of the data carrier, the central processing unit automatically generates a Bluetooth control signaling for printing the data carrier and informs the main control Bluetooth module of printing the data carrier; the main control Bluetooth module informs the data carrier printer of printing data carrier information through a Bluetooth communication protocol which is generated by the main control Bluetooth module and used for controlling the data carrier printer through a mobile control terminal; the data carrier information path is: the data carrier generating module finally reaches the data carrier printer module through the central processing unit, the main control Bluetooth module and the data carrier printer Bluetooth module.

9. The method according to claim 7, wherein the verification of the identity of the person involved in the virus in step 2 comprises the steps of shooting by the camera module a picture of the suspected face, generating a result by the central unit and the previously stored data called from the data storage block, generating the result by the face recognition module, and sending the result to the result display module for display; the step 5 of label identification specifically comprises the steps that the camera collects previously generated data, the data are analyzed by the data carrier analysis module, and the data are exported to the result display module to be displayed; the step 5, reading the card by the standard curve card specifically comprises the following steps; a detection instruction is sent from the touch control module to the standard curve card wireless reading module through the central processing unit, a transmission path of the detection instruction is as follows, a detection control singlechip controls the standard curve card wireless reading module signaling to the central processing unit through the touch control module, the central processing unit sends a Bluetooth control signaling of the detection unit to the master control Bluetooth module, the master control Bluetooth module sends a communication protocol of the master control Bluetooth module controlling the detection Bluetooth module to the detection Bluetooth module, the detection Bluetooth module initiates the detection control singlechip to control the standard curve card wireless reading module signaling to the detection control singlechip, and the detection control singlechip sends the detection control singlechip controls the standard curve card wireless reading module signaling to the standard curve card wireless reading module; and then the standard curve card wireless card reading module reversely returns the generated standard curve information to the data storage module connected with the central processing unit for storage according to the original path.

10. The method for verifying the information of the virus-related personnel according to claim 7, wherein the step 5 of reading the card with the reagent card specifically comprises the steps that the touch control module sends a signal for controlling the fluorescence reading module to the fluorescence reading module through the central processing unit, the central processing unit sends a signal request for controlling the fluorescence reading module by the detection control unit along the path, the central processing unit sends a Bluetooth control signal of the detection unit to the master control Bluetooth module, the master control Bluetooth module sends a signal for controlling the fluorescence reading module by the detection control unit to the detection Bluetooth module, and the detection Bluetooth module sends a signal for controlling the fluorescence reading module by the detection control unit to the detection control singlechip; the step 6 of generating the printing report specifically comprises the steps that the central processing unit initiates report printing to the master control Bluetooth module, and sends a detection control unit control thermal printer signaling and a detection result generated by the central processing unit to the thermal sensitive report printer through a Bluetooth control signaling of the detection unit and the master control Bluetooth module, a detection Bluetooth module and a detection control singlechip; the data storage or data return in step 7 specifically includes that the central processing unit automatically generates a detection result, and transmits the detection result to the cloud data center through the network link module.

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