CN113960026A - Drug detection method and system - Google Patents

Abstract

The invention discloses a method and a system for detecting drugs, wherein the method comprises the following steps: s1, after the mobile terminal scans the two-dimension code of the detection equipment, whether the detection personnel has the authority to operate the detection equipment or not is verified, and if the verification is passed, the detection equipment is activated and connected; s2, scanning the unique code of the reagent card through the mobile terminal, and binding the unique code with the recorded information of the virus-related personnel; s3, inserting the reagent card loaded with the hair sample into the detection equipment, and then sending a drug detection instruction to the detection equipment through the mobile terminal; and S4, the detection equipment automatically acquires the drug detection item and the label data corresponding to the reagent card after receiving the drug detection instruction, and then outputs the drug detection result after performing card reading comparison on the reagent card. The invention effectively avoids the false detection of the poison by binding the unique code of the reagent card with the information of the person involved in the poison, simplifies the process of the poison detection and improves the intelligent level of the poison detection by integrating the process of the poison detection in the APP.

Description

Drug detection method and system

Technical Field

The invention relates to the technical field of drug detection, in particular to a drug detection method and system.

Background

The hair drug detection is a current main drug detection means due to the fact that samples are easy to collect, operate and convenient to use. The existing hair drug detection method generally comprises the following steps: generating a label containing the identity information of the drug-related personnel, attaching the label to a reagent card, placing the hair sample on the reagent card attached with the label of the drug-related personnel, then inserting the reagent card and a label card into drug detection equipment, and finally reading the reagent card by the drug detection equipment and comparing the reagent card with the label card to judge whether the drug-related personnel inhales the drug.

The existing hair drug detection method has the following defects:

1. for example, a person involved in a virus may tear off the label attached to the reagent card and re-attach the label of the person involved in the virus to the reagent card, and the obtained detection result is also non-drug-absorbed, which obviously does not conform to the actual drug-absorbed situation, and the detection is easy to be false.

2. The label card used as the basis for virus detection needs to be manually inserted into the detection equipment, so that the operation process is complicated and the intelligence is not sufficient.

3. The detection personnel are not restricted, any detection personnel can use the detection equipment to carry out virus detection on the virus-involved personnel, the detection flow is not standard, and detection messy images are easy to appear.

Disclosure of Invention

The invention aims to standardize the drug detection process, prevent detection from being false and improve the intelligent level of drug detection, and provides a drug detection method and a drug detection system.

In order to achieve the purpose, the invention adopts the following technical scheme:

provided is a method for detecting a drug, comprising the steps of:

s1, after the mobile terminal scans the two-dimension code of the detection equipment, the operation authority of the detection equipment of a detection person is verified, and if the verification is passed, the detection equipment is activated and connected;

s2, scanning the unique code of the reagent card through the mobile terminal, and performing associated binding with the entered information of the virus-related personnel;

s3, inserting the reagent card loaded with the hair sample into the detection device, and then sending a drug detection instruction to the detection device through the mobile terminal;

and S4, the detection equipment receives the drug detection instruction, automatically acquires drug detection items and label data corresponding to the reagent card from the cloud, and then performs card reading comparison on the reagent card to output a drug detection result.

As a preferred embodiment of the present invention, after each reagent card binds the information of the person involved in the virus once, the mobile terminal stores the unique code corresponding to the reagent card having the binding record into the used code library, in step S2, when the mobile terminal binds the unique code of the reagent card and the information of the person involved in the virus, the mobile terminal matches whether the unique code of the reagent card currently being bound has the binding record from the used code library,

if yes, refusing to bind again and terminating the drug detection process;

if not, the process proceeds to step S3 after binding.

As a preferred scheme of the present invention, the mobile terminal automatically records the number of times of scanning the unique code of the reagent card, compares the current number of times of scanning with a preset threshold value of the number of times of scanning when the unique code of the reagent card is scanned each time, and refuses to show the virus detection result corresponding to the reagent card to a code scanner if the current number of times of scanning reaches the threshold value of the number of times of scanning.

As a preferable aspect of the present invention, the threshold value of the number of times of sweeping is 10 times.

As a preferred embodiment of the present invention, before establishing a communication connection with the detection apparatus and executing step S2, a virus inspection item writing process is further included, where the virus inspection item writing process is:

entering a detection item cloud reading interface of a drug detection APP running on the mobile terminal, and automatically acquiring drug detection items from the cloud by the mobile terminal and displaying the drug detection items to the detection personnel in a item list mode;

and after selecting and determining drug detection items to be written in from the item list in a left-sliding mode, writing the selected drug detection items into the detection equipment by the mobile terminal.

As a preferred scheme of the present invention, the only code of the reagent card is embedded with the labeled song information representing the type of labeled song data to be acquired, and after the labeled song information is scanned, the mobile terminal automatically acquires the labeled song data corresponding to the labeled song information from the cloud and writes the labeled song data into the detection device.

The invention also provides a drug detection system which can realize the drug detection method, the drug detection system comprises a mobile terminal, detection equipment and a cloud end, and the mobile terminal comprises:

the code scanning module is used for providing a detection person with a camera for scanning the unique code of the two-dimensional code or the reagent card of the detection equipment or the Bluetooth printer;

the authority verification module is connected with the code scanning module and used for verifying whether the detection personnel has the authority to operate the detection equipment or not after the equipment two-dimensional code of the detection equipment is scanned;

the device activation and network connection module is connected with the authority verification module and used for activating the detection device and connecting the detection device after the verification of the device operation authority of the detection personnel is passed;

the system comprises a virus-related personnel information input module, a virus-related personnel information input module and a virus-related personnel information input module, wherein the virus-related personnel information input module is used for providing the identity information of the virus-related personnel for the detection personnel to input;

the information binding module is respectively connected with the code scanning module and the information input module of the virus-related personnel and is used for binding the unique code of the reagent card with the input information of the virus-related personnel after the unique code of the reagent card is scanned;

the virus inspection item writing module is used for acquiring a virus inspection item from the cloud or an item ID card inserted into the detection equipment according to a virus inspection item writing instruction of the detection personnel and writing the virus inspection item into the detection equipment;

the mark song data writing module is used for acquiring mark song data corresponding to the reagent card from the cloud according to a mark song data writing instruction of the detection personnel and writing the mark song data into the detection equipment;

the drug detection instruction generating and sending module is used for generating a drug detection instruction and sending the drug detection instruction to the detection equipment;

and the detection equipment automatically acquires written-in virus detection project data and mark data after receiving the drug detection instruction, and outputs a drug detection result after performing card reading comparison on the reagent card.

As a preferred scheme of the present invention, the unique code of the reagent card is embedded with the labeled song information representing the type of the labeled song data to be acquired, and after the labeled song information is scanned, the mobile terminal automatically acquires the labeled song data corresponding to the labeled song information from the cloud and writes the labeled song data into the detection device.

As a preferred aspect of the present invention, the mobile terminal further includes:

the code storage module is connected with the information binding module and is used for storing the unique code corresponding to the reagent card with the binding record into a used code library;

the code comparison module is connected with the information binding module and the used code library and is used for comparing the unique code of the reagent card with the unique code stored in the used code library when the unique code of the reagent card and the information of the virus-related personnel are bound,

if the comparison is successful, the rebinding with the information of the virus-involved personnel is refused;

if the comparison fails, the binding with the information of the virus-related personnel is accepted;

preferably, the mobile terminal further comprises:

the code scanning frequency recording module is used for recording the frequency of scanning the unique code of the same reagent card;

the code scanning frequency threshold setting module is used for setting a frequency threshold for scanning the unique code of the reagent card for the detection personnel;

a module for judging whether to push the virus detection result, which is respectively connected with the code scanning frequency recording module and the code scanning frequency threshold value setting module and is used for judging whether the frequency of the unique code of the current scanning reagent card exceeds the preset frequency threshold value,

if yes, refusing to obtain a virus detection result corresponding to the reagent card;

and if not, acquiring a toxicity test result corresponding to the reagent card and displaying the toxicity test result to a code scanning person.

The invention has the following beneficial effects:

1. each reagent card has a unique reagent card code, and cannot be bound again after the information of the virus-related personnel is bound for one time, so that the false detection of the virus is effectively avoided;

2. all the processes of the virus detection are integrated into a drug detection APP, and the detection equipment automatically acquires the label data from the cloud end when executing a drug detection instruction, so that a label card does not need to be manually inserted into the detection equipment, the virus detection process is simplified, and the intelligent level of the virus detection is improved;

3. before drug detection, the authority of detection personnel for operating the detection equipment is checked, so that detection messy images that any detection personnel can use different types of detection equipment in the past are effectively avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below. It is obvious that the drawings described below are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 is a flowchart illustrating an implementation of a drug detection method according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a drug detection system according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a mobile terminal connection detection device;

FIG. 4 is a schematic diagram of a mobile terminal connected to a Bluetooth printer;

FIG. 5a is a diagram illustrating a mobile terminal reading a drug detection item from an item card;

fig. 5b is a schematic diagram illustrating that the mobile terminal reads a drug detection item from the cloud;

FIG. 6 is a schematic diagram of a mobile terminal inputting information of a person involved in a virus by scanning an identity card or manually;

FIG. 7 is a diagram illustrating a method for setting a target music acquisition mode;

FIG. 8 is a schematic diagram of scanning a reagent card two-dimensional code and automatically filling label information through a mobile terminal;

FIG. 9 is a schematic diagram of scanning a reagent card two-dimensional code and manually selecting label information via a mobile terminal;

fig. 10 is a schematic diagram illustrating a drug detection result displayed in the mobile terminal;

fig. 11 is a schematic diagram of a stored drug detection record displayed on a mobile terminal.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar components; in the description of the present invention, it should be understood that if the terms "upper", "lower", "left", "right", "inner", "outer", etc. are used for indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not indicated or implied that the referred device or element must have a specific orientation, be constructed in a specific orientation and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limitations of the present patent, and the specific meanings of the terms may be understood by those skilled in the art according to specific situations.

In the description of the present invention, unless otherwise explicitly specified or limited, the term "connected" or the like, if appearing to indicate a connection relationship between the components, is to be understood broadly, for example, as being fixed or detachable or integral; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through one or more other components or may be in an interactive relationship with one another. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1, a method for detecting a drug according to an embodiment of the present invention includes:

s1, after the mobile terminal scans the two-dimensional code of the detection device, the mobile terminal verifies whether the detection personnel has the authority to operate the detection device,

if the verification is passed, activating and connecting the detection equipment;

if the verification fails, the connection of the detection equipment is refused;

s2, scanning the unique code of the reagent card through the mobile terminal, and binding the unique code with the recorded information of the virus-related personnel;

s3, inserting the reagent card loaded with the hair sample into the detection equipment, and then sending a drug detection instruction to the detection equipment through the mobile terminal;

and S4, after receiving the drug detection instruction, the detection equipment automatically acquires drug detection items and label data corresponding to the reagent card from the cloud, and then outputs a drug detection result after performing card reading comparison on the reagent card.

The drug detection method provided in this embodiment is described in detail below with reference to fig. 3 to 11:

when need carry out the drug and detect, first step, open the drug detection APP of operation on mobile terminal, the testing personnel uses the account number of oneself to log in the APP, then gets into the equipment that figure 3 shows and sweeps a yard connection page, clicks "sweep a yard connection detector" in the upper right corner and aim at the equipment two-dimensional code of check out test set, and APP automatic calling mobile terminal's camera sweeps the two-dimensional code of getting check out test set. In the code scanning process, the mobile terminal automatically verifies whether the currently logged-in detection personnel has the authority to operate the detection equipment, and the verification method comprises the following steps: after scanning the two-dimensional code of the detection equipment, the mobile terminal compares the equipment information contained in the two-dimensional code with the equipment information of each equipment with operation authority of the detection personnel stored in the database, if the comparison is successful, the mobile terminal indicates that the detection personnel has the authority of operating the current detection equipment, and then the mobile terminal activates and connects the detection equipment; if the comparison fails, the APP prompts the detection personnel that no equipment operation authority exists, and connection of the detection equipment is refused;

the drug detection APP developed by the invention also has the function of code scanning connection with the Bluetooth printer, the Bluetooth printer is used for printing drug result formed by the detection equipment, and the method for code scanning connection with the printer is the same as the method for code scanning connection with the detection equipment (the page of the code scanning connection with the Bluetooth printer is shown in fig. 4), and is not repeated herein.

After the code is scanned and the detection equipment is connected, in the second step, an item button below the operation page shown in fig. 3 is clicked to jump to the page shown in fig. 5, and the virus inspection item required to be performed at this time is written into the detection equipment. The invention provides two virus inspection project writing methods: firstly, inserting an item ID card into an item card slot of a detection device, wherein detection items corresponding to different toxicity detection samples are stored in the item ID card, for example, the toxicity detection items corresponding to hair samples are shown in fig. 5 (fig. 5a and 5b), such as 'methamphetamine', 'morphine', 'K powder', 'hemp' and the like, after the item ID card is inserted into the detection device, the item ID card can be pulled down to read toxicity detection item information stored in the item card inserted into the detection device and display the information on the page shown in fig. 5a, and the detection device automatically reads the toxicity detection item information in the item card when detecting the hair samples; and secondly, reading the virus inspection item information from the cloud and writing the virus inspection item information into the detection equipment in a manual selection mode, wherein the specific operation mode is that the page shown in the figure 5b is entered, the mobile terminal automatically acquires a drug inspection item from the cloud and displays the drug inspection item to detection personnel in a project list mode, and the detection personnel select the drug inspection item in a left sliding mode and then click the writing equipment on the right side to write the virus inspection item into the detection equipment.

After the virus inspection item is written into the detection equipment, the third step is to input the personal information (including name, gender, identification number, remark information and the like) of the virus-involved person on the information input interface of the virus-involved person shown in fig. 6, and the information of the virus-involved person supports manual input and automatic input in an identification card scanning mode.

After the information of the drug-related personnel is input, the fourth step is to bind the unique code of the reagent card with the information of the drug-related personnel, namely step S2 in the drug detection method provided by the embodiment of the invention, the binding process is automatically carried out by the drug detection APP, after the unique code of the reagent card is swept, the APP automatically binds with the information of the drug-related personnel, for example, the unique code of a certain reagent card is '123', the unique identity information of the drug-related personnel is 'ABC', a binding code '123 ABC' is formed after the APP sweeps the unique code of the reagent card, and after the binding, the reagent card with the number '123' cannot be bound with any information of the drug-related personnel again, so that the false detection that the detection personnel repeatedly use the same reagent card to bind different information of the drug-related personnel is prevented. It is emphasized that, in order to prevent multiple detection of one card, each reagent card can only be bound with the information of the virus-related personnel once, the mobile terminal stores the unique code corresponding to the reagent card with the binding record into the used code library, when the unique code of the reagent card and the information of the virus-related personnel are bound, the mobile terminal matches whether the unique code of the reagent card currently being bound has the binding record from the used code library,

if yes, refusing to bind again and terminating the drug detection process;

if not, the step five is entered after binding.

And fifthly, acquiring standard curve data of drug detection, wherein the standard curve is a standard curve and is a basis for judging whether drug detection indexes are abnormal. In the existing drug detection method, a label card recorded with label data is inserted into detection equipment, the detection equipment automatically acquires the label data on the label card when drugs are detected and compares the label data with the reading number of a reagent card to judge whether the drugs are inhaled or not, the label data acquisition mode needs to manually insert the label card into the detection equipment, one more step is needed for operation, and the operation is troublesome. To solve this problem, we adopt the following method: and the cloud acquires the data of the standard songs. In order to further simplify the process of obtaining the label data at the cloud, label information corresponding to the reagent card is embedded into the two-dimensional code of the reagent card (the label information records what label data is needed, such as a code of the label data), the label information corresponding to the reagent card is obtained while the unique code of the reagent card is obtained by scanning the two-dimensional code of the reagent card, and after the label information is obtained, the APP automatically obtains the label data corresponding to the reagent card from the cloud and automatically writes the label data into the detection device. As shown in fig. 8, after the "scan barcode" button on the mobile terminal is clicked to scan the two-dimensional code of the reagent card, the standard song data corresponding to the reagent card is automatically obtained from the cloud, and the standard song code or the standard song name is automatically filled in the "standard song" column in fig. 8.

The only code of part of the reagent card may not be embedded with the label data, and the label data cannot be automatically acquired from the cloud in a way of acquiring the label data by scanning the code. As shown in fig. 9, after the tester manually selects a standard song code (e.g., "C6510", "CE 5C 8", etc. in the "standard song" column in fig. 9) and clicks the "start test" button, the APP will automatically obtain the standard song data corresponding to the standard song code from the cloud and write the standard song data into the test device.

In order to prevent the conflict between the two standard song data acquisition modes and influence the subsequent virus detection process, the standard song data acquisition mode needs to be set in advance. The standard song data acquisition mode setting interface is as shown in fig. 7, and after a tester opens an "automatic selection standard song/manual selection standard song" button in fig. 7, the manual selection standard song mode is invalid, that is, the tester cannot acquire standard song data from the cloud by manually selecting a standard song code mode; after the button of 'automatically selecting standard music/manually selecting standard music' is turned off, the mode of automatically selecting the standard music fails, namely, the standard music data cannot be automatically acquired from the cloud in the mode of scanning the standard music information in the two-dimensional code of the reagent card.

Finally, the inspector clicks the "start detection" button in fig. 10, sends a drug detection instruction to the detection device, and the detection device receives the drug detection instruction, then automatically reads the written drug detection item and the labeled data, performs card reading comparison on the reagent card (detects the sample according to the drug detection item, and compares the detected index value with the labeled data), and then outputs the drug detection result.

In order to prevent the phenomenon that virus detection results of virus-related personnel are read in a confused mode, the invention is also provided with a reagent card reading frequency limiting mechanism, the mobile terminal automatically records the frequency of scanning the unique code of the reagent card, compares the current scanning frequency with a preset scanning frequency threshold (preferably 10 times) when the unique code of the reagent card is scanned every time, and refuses to show the virus detection result corresponding to the reagent card to a code scanner if the scanning frequency threshold is reached.

The invention also has a virus detection record query function, the mobile terminal stores all virus detection records in the cloud, and displays the virus detection records to the detection personnel in a list mode, and the detection personnel can click the record button in the page of figure 11 to query and print the detection records (after connecting the Bluetooth printer).

The invention also provides a drug detection system, which can realize the drug detection method, as shown in fig. 2, the drug detection system comprises a mobile terminal, a detection device and a cloud end, wherein the mobile terminal comprises:

the code scanning module is used for providing a unique code for a detection person to scan the two-dimensional code of the detection equipment or the equipment of the Bluetooth printer or the reagent card by using a camera;

the authority verification module is connected with the code scanning module and used for verifying whether the detection personnel has the authority to operate the detection equipment or not after the equipment two-dimensional code of the detection equipment is scanned;

the device activation and network connection module is connected with the authority verification module and used for activating the detection device and connecting the detection device after the verification of the device operation authority of the detection personnel is passed;

the system comprises a virus-related personnel information input module, a virus-related personnel information input module and a virus-related personnel information input module, wherein the virus-related personnel information input module is used for providing detection personnel with identity information for inputting the virus-related personnel;

the information binding module is respectively connected with the code scanning module and the information input module of the virus-related personnel and is used for binding the unique code of the reagent card with the input information of the virus-related personnel after the unique code of the reagent card is scanned;

the virus inspection item writing module is used for acquiring virus inspection items from a cloud or an item ID card inserted into the detection equipment according to a virus inspection item writing instruction of a detection person and writing the virus inspection items into the detection equipment;

the system comprises a standard song data writing module, a detection device and a data processing module, wherein the standard song data writing module is used for acquiring standard song data corresponding to a reagent card from a cloud according to a standard song data writing instruction of a detection person and writing the standard song data into the detection device;

the drug detection instruction generating and sending module is used for generating a drug detection instruction and sending the drug detection instruction to the detection equipment;

and after receiving the drug detection instruction, the detection equipment automatically acquires the written-in drug detection item data and the written-in label data, and outputs a drug detection result after performing card reading comparison on the reagent card.

In order to prevent multiple tests on one card, the unique code of the reagent card provided by the invention can not be bound or unbound again after being bound with the information of the virus-involved personnel once, and in order to realize the function, as shown in fig. 2, the mobile terminal further comprises:

the code storage module is connected with the information binding module and is used for storing the unique code corresponding to the reagent card with the binding record into a used code storage;

the code comparison module is connected with the information binding module and the used code library and is used for comparing the unique code of the reagent card with the unique code stored in the used code library when the unique code of the reagent card and the information of the virus-related personnel are bound,

if the comparison is successful, the rebinding of the information of the virus-involved personnel is refused;

if the comparison fails, the unique code of the reagent card is indicated to be never subjected to information binding, and the binding with the information of the virus-involved personnel is received.

In order to prevent the virus detection result of the virus-involved person from being viewed in a confused mode, the invention limits the number of times of scanning the unique code of the reagent card, and when the number of times of scanning the code reaches a preset threshold value, the mobile terminal does not obtain the virus detection result corresponding to the reagent card any more after the unique code of the reagent card is scanned and displays the virus detection result to the code scanning person. In order to implement this function, as shown in fig. 2, the mobile terminal further includes:

the code scanning frequency recording module is used for recording the frequency of scanning the unique code of the same reagent card (each reagent card has the unique code, the code scanning frequency corresponds to the unique code, and the recording form of the code scanning frequency is, for example, that the unique code of the reagent card is "%%", and the recorded code scanning frequency information is "& & 2" if the unique code is scanned for the second time currently);

the code scanning time threshold setting module is used for setting a time threshold for scanning the unique code of the reagent card for a detector;

whether the virus detection result judging module is pushed or not is connected with the code scanning frequency recording module and the code scanning frequency threshold setting module respectively and is used for judging whether the frequency of the unique code of the current scanned reagent card exceeds a preset frequency threshold (for example, the judging method is that the preset frequency threshold is 10, the unique code of the reagent card is scanned (for example, the code form of the code is identified to be "%") and then the unique code is compared with a database to obtain the code scanning record of the unique code, for example, the information expression mode of the code scanning frequency accumulation result recorded by the "%%", which is currently coded, is "%% 5", which represents that the "%", the code has been scanned for 5 times and does not exceed the preset 10 code scanning frequency threshold),

if yes, refusing to obtain a virus detection result corresponding to the reagent card;

if not, the corresponding toxicity test result of the reagent card is obtained and displayed to a code scanning person.

In conclusion, the invention firstly checks the authority of the detection personnel to operate the detection equipment before the drug detection, effectively avoids the drug detection trouble that any detection personnel can use different types of detection equipment in the past, and standardizes the drug detection process. In addition, all the processes of the virus detection are integrated into the drug detection APP, the detection equipment automatically acquires the label data from the cloud when executing a drug detection instruction, and a label card does not need to be manually inserted into the detection equipment, so that the virus detection process is simplified, and the intelligent level of the virus detection is improved. Most importantly, each reagent card provided by the invention has a unique reagent card code, and cannot be bound again after the information of virus-related personnel is bound once, so that the false detection of the virus is effectively avoided.

It should be understood that the above-described embodiments are merely preferred embodiments of the invention and the technical principles applied thereto. It will be understood by those skilled in the art that various modifications, equivalents, changes, and the like can be made to the present invention. However, such variations are within the scope of the invention as long as they do not depart from the spirit of the invention. In addition, certain terms used in the specification and claims of the present application are not limiting, but are used merely for convenience of description.

Claims (9)

1. A method for detecting a drug, comprising the steps of:

s1, after the mobile terminal scans the two-dimension code of the detection equipment, the operation authority of the detection equipment of a detection person is verified, and if the verification is passed, the detection equipment is activated and connected;

s2, scanning the unique code of the reagent card through the mobile terminal, and performing associated binding with the entered information of the virus-related personnel;

s3, inserting the reagent card loaded with the hair sample into the detection device, and then sending a drug detection instruction to the detection device through the mobile terminal;

and S4, the detection equipment receives the drug detection instruction, automatically acquires drug detection items and label data corresponding to the reagent card from the cloud, and then performs card reading comparison on the reagent card to output a drug detection result.

2. The drug detection method according to claim 1, wherein after each reagent card binds the information of the drug-related personnel once, the mobile terminal stores the unique code corresponding to the reagent card having the binding record into a used code library, and in step S2, the mobile terminal matches whether the unique code of the reagent card currently being bound has the binding record from the used code library when the unique code of the reagent card and the information of the drug-related personnel are bound,

if yes, refusing to bind again and terminating the drug detection process;

if not, the process proceeds to step S3 after binding.

3. The drug detection method according to claim 1, wherein the mobile terminal automatically records the number of times of scanning the unique code of the reagent card, compares the current number of times of scanning with a preset threshold value of the number of times of scanning each time the unique code of the reagent card is scanned, and refuses to show the drug test result corresponding to the reagent card to a code scanner if the threshold value of the number of times of scanning is reached.

4. The method according to claim 3, wherein the threshold number of swipes is 10.

5. The method according to claim 1, further comprising a virus check item writing process before establishing a communication connection with the detection device and performing step S2, wherein the virus check item writing process is:

entering a detection item cloud reading interface of a drug detection APP running on the mobile terminal, and automatically acquiring drug detection items from the cloud by the mobile terminal and displaying the drug detection items to the detection personnel in a item list mode;

and after selecting and determining drug detection items to be written in from the item list in a left-sliding mode, writing the selected drug detection items into the detection equipment by the mobile terminal.

6. The drug detection method according to claim 1, wherein the unique code of the reagent card is embedded with the label information representing the type of the label data to be acquired, and after the label information is scanned, the mobile terminal automatically acquires the label data corresponding to the label information from a cloud and writes the label data into the detection device.

7. A drug detection system capable of implementing the drug detection method according to any one of claims 1 to 6, comprising a mobile terminal, a detection device and a cloud, wherein the mobile terminal comprises:

the code scanning module is used for providing a detection person with a camera for scanning the unique code of the two-dimensional code or the reagent card of the detection equipment or the Bluetooth printer;

the authority verification module is connected with the code scanning module and used for verifying whether the detection personnel has the authority to operate the detection equipment or not after the equipment two-dimensional code of the detection equipment is scanned;

the device activation and network connection module is connected with the authority verification module and used for activating the detection device and connecting the detection device after the verification of the device operation authority of the detection personnel is passed;

the system comprises a virus-related personnel information input module, a virus-related personnel information input module and a virus-related personnel information input module, wherein the virus-related personnel information input module is used for providing the identity information of the virus-related personnel for the detection personnel to input;

the information binding module is respectively connected with the code scanning module and the information input module of the virus-related personnel and is used for binding the unique code of the reagent card with the input information of the virus-related personnel after the unique code of the reagent card is scanned;

the virus inspection item writing module is used for acquiring a virus inspection item from the cloud or an item ID card inserted into the detection equipment according to a virus inspection item writing instruction of the detection personnel and writing the virus inspection item into the detection equipment;

the mark song data writing module is used for acquiring mark song data corresponding to the reagent card from the cloud according to a mark song data writing instruction of the detection personnel and writing the mark song data into the detection equipment;

the drug detection instruction generating and sending module is used for generating a drug detection instruction and sending the drug detection instruction to the detection equipment;

and the detection equipment automatically acquires written-in virus detection project data and mark data after receiving the drug detection instruction, and outputs a drug detection result after performing card reading comparison on the reagent card.

8. The drug detection system of claim 7, wherein the unique code of the reagent card is embedded with label information representing a type of label data to be obtained, and after the label information is scanned, the mobile terminal automatically obtains label data corresponding to the label information from a cloud and writes the label data into the detection device.

9. The drug detection system according to claim 7 or 8, wherein the mobile terminal further comprises:

the code storage module is connected with the information binding module and is used for storing the unique code corresponding to the reagent card with the binding record into a used code library;

the code comparison module is connected with the information binding module and the used code library and is used for comparing the unique code of the reagent card with the unique code stored in the used code library when the unique code of the reagent card and the information of the virus-related personnel are bound,

if the comparison is successful, the rebinding with the information of the virus-involved personnel is refused;

if the comparison fails, the binding with the information of the virus-related personnel is accepted;

preferably, the mobile terminal further comprises:

the code scanning frequency recording module is connected with the code scanning module and is used for recording the frequency of scanning the unique code of the same reagent card;

the code scanning frequency threshold setting module is used for setting a frequency threshold for scanning the unique code of the reagent card for the detection personnel;

a module for judging whether to push the virus detection result, which is respectively connected with the code scanning frequency recording module and the code scanning frequency threshold value setting module and is used for judging whether the frequency of the unique code of the current scanning reagent card exceeds the preset frequency threshold value,

if yes, refusing to obtain a virus detection result corresponding to the reagent card;

and if not, acquiring a toxicity test result corresponding to the reagent card and displaying the toxicity test result to a code scanning person.

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