CN114660235A - Non-contact type drug-suppressing detector and non-contact type drug-suppressing detection method - Google Patents
Non-contact type drug-suppressing detector and non-contact type drug-suppressing detection method Download PDFInfo
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- 239000007787 solid Substances 0.000 claims abstract description 40
- 238000004458 analytical method Methods 0.000 claims abstract description 10
- 230000001678 irradiating effect Effects 0.000 claims abstract description 8
- 239000003814 drug Substances 0.000 claims description 60
- 229940079593 drug Drugs 0.000 claims description 60
- 238000000034 method Methods 0.000 claims description 23
- 238000001914 filtration Methods 0.000 claims description 15
- 238000004891 communication Methods 0.000 claims description 12
- 230000005540 biological transmission Effects 0.000 claims description 10
- 238000010835 comparative analysis Methods 0.000 claims description 5
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/0004—Gaseous mixtures, e.g. polluted air
- G01N33/0009—General constructional details of gas analysers, e.g. portable test equipment
- G01N33/0027—General constructional details of gas analysers, e.g. portable test equipment concerning the detector
- G01N33/0036—Specially adapted to detect a particular component
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/02—Devices for withdrawing samples
- G01N1/22—Devices for withdrawing samples in the gaseous state
- G01N1/24—Suction devices
Abstract
The invention discloses a non-contact type drug-arresting detector and a non-contact type drug-arresting detection method, comprising the following steps: the device comprises an infrared lamp, an air pump, a smell chip, an early warning module and a display screen; the infrared lamp is used for irradiating the solid to be detected so that the solid to be detected is volatilized into corresponding gas to be detected; the air pump is used for absorbing the gas to be detected into the non-contact type drug-suppressing detector and transmitting the gas to be detected to the odor chip; the odor chip is used for identifying the gas to be detected and acquiring corresponding first odor data; the early warning module is used for determining the early warning grade of the solid to be detected and generating a corresponding early warning signal according to the comparison analysis result of the first odor data and a prestored odor database, and feeding the early warning signal back to the display screen; the display screen is used for displaying the early warning grade corresponding to the first smell data and the early warning signal in real time. According to the invention, the infrared lamp is used for irradiating the solid to be detected, so that the solid to be detected is accelerated to volatilize into the gas to be detected, which is convenient for the odor chip to detect, the detection efficiency is improved, and the detection result is quickly and intuitively presented.
Description
Technical Field
The invention relates to the field of drug-suppressing detection, in particular to a non-contact drug-suppressing detector and a non-contact drug-suppressing detection method.
Background
With the development of society, the living standard of people is continuously improved, and the life is diversified day by day. A small number of people are induced or mistakenly touch drugs due to excessive pursuit of 'spiritual civilization', harm physical and mental health, even go onto the road of illegal crime, and bring great influence on personal life, families and even society. Therefore, it is becoming increasingly important to monitor and wipe out drugs, suppress drug absorption and drug vending, etc. for people's happiness and social stability.
However, at present, most of the police dogs search drugs by using the sensitive smell of the police dogs to achieve the purpose of drug control, but the method of determining whether drugs exist in the surrounding area by the police dogs alone has the disadvantages of low stability of acquired data, high professional training difficulty of the police dogs, high cost and long period, and influences the drug control work process to a certain extent. Additionally, current anti-virus work usually relies on information collection or assault inspection of key sites, which is not only difficult to find, but also unable to achieve full coverage. Meanwhile, the current drug-arresting team is not high in specialization degree, a first-line drug-arresting policeman at the primary level is lack of a professional drug detection technology and a detection instrument which is high in reliability, rapid and convenient and can be used for identifying drugs on site, so that when a suspected drug is found, drug-arresting personnel can only judge the suspected drug by means of accumulated experience or bring the suspected drug back to a laboratory for detection, the drug judgment accuracy is difficult to guarantee, or the promptness is lacked, the difficulty and the danger of drug-arresting work are further increased, and the drug-arresting work efficiency is influenced.
Disclosure of Invention
The invention provides a non-contact type drug-arresting detector and a non-contact type drug-arresting detection method, which enlarge the coverage area of drug-arresting work to a certain extent, shorten the detection time and improve the overall detection accuracy.
In order to solve the technical problem, an embodiment of the present invention provides a non-contact drug detecting instrument, including: the device comprises an infrared lamp, an air pump, an odor chip, an early warning module and a display screen;
the infrared lamp is used for irradiating the solid to be detected so that the solid to be detected is volatilized into corresponding first gas to be detected;
the air pump is used for absorbing the first gas to be detected into the non-contact type drug-detecting instrument and transmitting the first gas to be detected to the odor chip;
the odor chip is used for identifying the first gas to be detected and acquiring corresponding first odor data;
the early warning module is used for determining the early warning grade of the solid to be detected according to the comparison and analysis result of the first odor data and a pre-stored odor database, generating a corresponding early warning signal and feeding the early warning signal back to the display screen;
the display screen is used for displaying the first smell data and the early warning grade corresponding to the early warning signal in real time.
Implement this application embodiment, utilize non-contact to seize the infrared lamp of drug detector for the solid that awaits measuring volatilizees into gaseous state with higher speed, and inside the gas suction detector that will await measuring with the backing pump, detect the flow with higher speed, the smell chip of being convenient for carries out subsequent drugs and detects with this promotion detection efficiency. Meanwhile, through the portable non-contact type drug-arresting detector, the detected odor data result and the early warning grade are displayed on a display screen of the non-contact type drug-arresting detector in real time, so that the drug-arresting detection is rapid and visual, and rapid and accurate auxiliary information is provided for the development of drug-arresting work.
As a preferred scheme, the early warning module is further configured to associate with a plurality of different communication platforms, and transmit the early warning signal to the plurality of communication platforms, so as to notify a person in charge of anti-drug work and a related unit.
By implementing the preferred scheme of the embodiment of the application, the early warning signals can be fed back to the display screen and can be transmitted to a plurality of communication platforms, and the early warning levels corresponding to the early warning signals are timely notified to relevant responsible persons and relevant units through APPs such as QQ and WeChat or in communication modes such as mails, information and telephones, so that real-time monitoring of drug-arrest detection is realized.
Preferably, the odor chip is further configured to collect second odor data of various drugs in different scenes and at different drug concentrations in advance to establish the corresponding odor database.
By implementing the preferred scheme of the embodiment of the application, a standard drug odor database is formed and is used as an analysis basis in the development process of the subsequent drug-suppressing detection work, and the drug-suppressing detection efficiency is further improved.
As the preferred scheme, the non-contact type drug detector also comprises: the device comprises a filtering module, a transmission module, a constant temperature module, a battery and a switch button;
the filtering module is used for filtering the first gas to be detected to obtain a second filtered gas to be detected, and transmitting the second gas to be detected to the odor chip as the first gas to be detected;
the transmission module is used for transmitting and storing the first odor data and the odor database to a data platform, so that the data platform performs comparative analysis on the first odor data according to the odor database;
the constant temperature module is used for controlling the internal environment temperature of the non-contact type drug-arresting detector so as to keep the internal environment temperature of the non-contact type drug-arresting detector at a preset temperature;
the battery is used for providing electric energy for the non-contact drug-detecting instrument;
and the switch button is used for controlling the non-contact type drug-arresting detector to be started and closed.
By implementing the preferred scheme of the embodiment of the application, the gas to be detected entering the non-contact type drug-arresting detector is filtered, so that the influence of impurities in the gas to be detected on the detection precision of the non-contact type drug-arresting detector is avoided, and the drug-arresting detection accuracy is further improved. Secondly, in order to realize data sharing and facilitate tracing, the odor data result obtained by detection is stored in a data platform, national effective resource sharing is realized, a multi-directional linkage network is formed, and then real-time monitoring and rapid detection of drugs in public places such as customs detection centers, logistics outlets, high-speed rail stations, buses, KTVs, hotels and the like can be realized. The non-contact type drug-suppressing detector and the data platform are combined, a user is provided with a management platform for omnibearing intelligent supervision, early warning and forecasting, tracing, risk management, data analysis and display, rapid risk identification and decision assistance, and the drug-suppressing operation process is optimized.
Furthermore, the constant temperature module is used for controlling the internal environment temperature of the non-contact type drug-suppressing detector to be kept at a certain value, so that the odor chip can work normally to the maximum extent and is not influenced by the external temperature of the chip. In addition, the non-contact type drug detecting instrument is controlled to be started and closed through a switch button outside the non-contact type drug detecting instrument, and an internal battery is used for providing power for the non-contact type drug detecting instrument, so that the normal operation of the non-contact type drug detecting instrument is guaranteed.
Preferably, an exhaust port is connected behind the transmission module and used for exhausting the first gas to be detected after identification is completed.
By implementing the preferred scheme of the embodiment of the application, redundant gas in the non-contact type drug-arresting detector is discharged, and potential safety hazards caused by overhigh internal air pressure are avoided.
In order to solve the same technical problem, the invention also provides a non-contact type drug-arresting detection method, which comprises the following steps:
irradiating a solid to be detected by using an infrared lamp to volatilize the solid to be detected into corresponding first gas to be detected;
absorbing the first gas to be detected into the non-contact type drug-detecting detector through a suction pump, and transmitting the first gas to be detected to an odor chip;
identifying the first gas to be detected by using the odor chip, and acquiring corresponding first odor data;
and performing comparative analysis on the first odor data according to a pre-stored odor database to determine the early warning grade of the solid to be detected, generate a corresponding early warning signal, and display the first odor data and the early warning grade corresponding to the early warning signal in real time.
As a preferred scheme, after the comparing and analyzing the first odor data according to a pre-stored odor database to determine the early warning grade of the solid to be detected and generate a corresponding early warning signal, and displaying the first odor data and the early warning grade corresponding to the early warning signal in real time, the method further includes:
and discharging the first gas to be detected out of the non-contact type drug-suppressing detector, and transmitting the early warning signals to a plurality of communication platforms so as to inform a responsible person and related units of drug-suppressing work.
As a preferred scheme, before the irradiation of the solid to be measured by the infrared lamp to volatilize the solid to be measured into the corresponding first gas to be measured, the method further comprises:
second smell data of various drugs under different scenes and with different drug concentrations are collected in advance to establish a corresponding smell database, the smell database is transmitted to a data platform, and the smell database is stored;
and controlling the internal environment temperature of the non-contact type drug-suppressing detector to be kept at a preset temperature.
Preferably, before the first gas to be detected is delivered to the odor chip, the method further comprises:
and filtering the first gas to be detected to obtain a second gas to be detected after filtering, and transmitting the second gas to be detected to the odor chip as the first gas to be detected.
Preferably, after the identifying the first gas to be detected by using the odor chip and obtaining the corresponding first odor data, the method further includes:
and transmitting the first smell data to a data platform, and storing the first smell data.
Drawings
FIG. 1: the structure schematic diagram of the non-contact drug-detecting instrument provided by the embodiment of the invention is shown;
FIG. 2 is a schematic diagram: the invention provides a flow schematic diagram of a non-contact drug-suppressing detection method.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The first embodiment is as follows:
referring to fig. 1, fig. 1 is a schematic structural diagram of a non-contact drug-detecting instrument according to an embodiment of the present invention, which specifically includes: infrared lamp 1, aspiration pump 3, smell chip 5, early warning module 9 and display screen 10, wherein the concrete function of each structure is as follows:
the infrared lamp 1 is used for irradiating the solid to be detected, accelerating the speed of the solid to be detected to volatilize into the corresponding first gas to be detected, and facilitating subsequent detection.
The air pump 3 is used for absorbing a first gas to be detected into the non-contact type drug-seizing detector, transmitting the first gas to be detected to the odor chip 5, enabling the gas to be detected to be rapidly gathered, enriching the gas, accelerating the purpose of the whole detection process, and facilitating the odor chip 5 to perform subsequent drug detection, so that the overall drug-seizing detection efficiency is improved.
The odor chip 5 is configured to identify a first gas to be detected and obtain corresponding first odor data, where the first odor data includes, but is not limited to, data curves such as gas concentration and volatilization degree.
In addition, before the solid to be detected is detected, second odor data of various drugs in different scenes and at different drug concentrations can be collected through the odor chip 5 in advance to establish a corresponding odor database to serve as an analysis basis in the development process of subsequent drug-arrest detection work, the data platform is used for carrying out comparison processing and analysis, real-time feedback of an analysis result is fed back to the front end, the front end is made to give instructions according to feedback information in time, and the accuracy of drug-arrest detection is further improved.
And the early warning module 9 is used for determining the early warning grade of the solid to be detected and generating a corresponding early warning signal according to the comparison and analysis result of the first odor data and the pre-stored odor database, and feeding the early warning signal back to the display screen 10.
Specifically, the early warning grades are mainly classified into drugs, suspected drugs and non-drugs, and when the early warning grade of the detected solid to be detected is a drug, the acousto-optic early warning device on the early warning module 9 lights a red light and buzzes to remind the user; when the early warning grade of the solid to be detected is detected to be suspected drug, the acousto-optic early warning equipment lights a yellow lamp and buzzes; and if the early warning grade is non-drug, a green light is lightened to indicate that the solid to be detected has no doubtful place.
Additionally, the early warning module 9 may be further configured to associate with a plurality of different communication platforms, transmit the early warning signal to the plurality of communication platforms, and notify the early warning level corresponding to the early warning signal to the relevant responsible person and the relevant unit in time through the APP such as QQ, wechat, or in a communication manner such as mail, information, telephone, or the like, so as to implement real-time monitoring of drug-arrest detection.
The display screen 10 is used for displaying the early warning grade corresponding to the first smell data and the early warning signal in real time, learning the detection result of the solid to be detected except for the light signal and the buzzing condition of the acousto-optic early warning device, and acquiring the detection result of the solid to be detected in real time by checking the content displayed on the display screen 10.
By implementing the embodiment of the application, the odor data result and the early warning grade obtained by detection are displayed on the display screen 10 of the non-contact type drug-suppressing detector in real time through the portable non-contact type drug-suppressing detector, so that the rapid and visual drug-suppressing detection is realized, and the rapid and accurate auxiliary information is provided for the development of drug-suppressing work.
As the preferred scheme, non-contact type drug detector still includes: the device comprises a filtering module 2, a transmission module 6, a constant temperature module 4, a battery 7 and a switch button 8;
the filtering module 2 is used for filtering the first gas to be detected to obtain a second filtered gas to be detected, and transmitting the second gas to be detected to the odor chip 5 as the first gas to be detected;
the transmission module 6 is used for transmitting and storing the first odor data and the odor database to the data platform, so that the data platform performs comparative analysis on the first odor data according to the odor database;
the constant temperature module 4 is used for controlling the internal environment temperature of the non-contact type drug-arresting detector so as to keep the internal environment temperature of the non-contact type drug-arresting detector at a preset temperature;
the battery 7 is used for providing electric energy for the non-contact drug-detecting instrument;
and the switch button 8 is used for controlling the starting and the closing of the non-contact drug-suppressing detector.
By implementing the preferred scheme of the embodiment of the application, the gas to be detected entering the non-contact type drug-arresting detector is filtered, so that the influence of impurities in the gas to be detected on the detection precision of the non-contact type drug-arresting detector is avoided, and the drug-arresting detection accuracy is further improved. Secondly, in order to realize data sharing and facilitate tracing, the odor data result obtained by detection is stored in a data platform, national effective resource sharing is realized, a multi-azimuth linkage network is formed, and then real-time online drug monitoring and rapid dangerous position judgment can be carried out in various public places in the city, including customs detection centers, logistics outlets, high-speed rail stations, buses, KTVs, hotels and the like. The non-contact type drug-arresting detector and the data platform are combined, a management platform with comprehensive intelligent supervision, early warning and forecasting, tracing, risk management, data analysis and display, rapid risk identification and decision assistance is provided for a user, and the drug-arresting operation process is optimized.
Further, the constant temperature module 4 is utilized to control the internal environment temperature of the non-contact type drug-suppressing detector to be kept at a certain value, so that the odor chip can work normally to the maximum extent and is not influenced by the external temperature of the chip. In addition, the non-contact type drug detecting instrument is controlled to be started and closed through a switch button 8 outside the non-contact type drug detecting instrument, and an internal battery 7 is used for providing power for the non-contact type drug detecting instrument, so that the normal operation of the non-contact type drug detecting instrument is guaranteed.
Preferably, an exhaust port 12 is connected behind the transmission module and used for exhausting the first gas to be detected after the identification is completed.
By implementing the preferred scheme of the embodiment of the application, redundant gas in the non-contact type drug-arresting detector is discharged, and potential safety hazards caused by overhigh internal air pressure are avoided.
As an example, when a user presses the switch button 8 to start the non-contact drug detecting instrument, the infrared lamp 1 of the non-contact drug detecting instrument starts to irradiate the solid to be detected in the region to be detected, so that the solid to be detected is accelerated to volatilize into the corresponding first gas to be detected. Meanwhile, the constant temperature module 4 is utilized to keep the internal environment temperature of the non-contact drug-burning detector to be a preset temperature, so that the recognition and detection functions of the chip can normally operate.
Then, a first gas to be detected outside the non-contact type drug-arresting detector is sucked into the non-contact type drug-arresting detector through the air inlet 11 by the air pump 3, a second filtered gas to be detected is obtained by the filter module 2 to eliminate the influence of impurities in the first gas to be detected, and the second gas to be detected is used as the first gas to be detected and is transmitted to the AI odor chip 5 to obtain corresponding first odor data.
Then, the first odor data is transmitted to the data platform through the transmission module 6, and the first odor data is compared and analyzed by combining with an odor database prestored in the data platform, so as to obtain analysis results of odor characteristic curves including but not limited to odor difference, volatility difference, gas concentration difference and the like. And then, the early warning module 9 responds to the analysis result to determine the early warning grade of the solid to be detected and generate a corresponding early warning signal to feed back to the display screen 10, so that the current early warning grade and the first odor data of the solid to be detected are displayed in real time.
And finally, discharging the gas to be detected out of the non-contact type drug-suppressing detector through the exhaust port 12 to finish detection.
The foregoing has set forth in detail the apparatus associated with embodiments of the present invention, and the following provides methods of embodiments of the present application.
Example two:
referring to fig. 2, fig. 2 is a schematic flow chart of a non-contact drug-suppressing detection method according to an embodiment of the present invention, the method includes steps S1 to S4, and the steps are as follows:
step S1, the infrared lamp 1 is used to irradiate the solid to be measured, so that the solid to be measured is volatilized into the corresponding first gas to be measured.
Step S2, the air pump 3 absorbs the first gas to be detected into the non-contact type drug detecting instrument, and transmits the first gas to be detected to the odor chip 5.
Step S3, using the odor chip 5, identifies the first gas to be detected and obtains corresponding first odor data.
And step S4, comparing and analyzing the first odor data and the pre-stored odor database according to the pre-stored odor database to determine the early warning grade of the solid to be detected, generate a corresponding early warning signal, and display the early warning grade corresponding to the first odor data and the early warning signal in real time.
Preferably, after step S4, the method further includes:
and discharging the first gas to be detected out of the non-contact type drug-suppressing detector, and transmitting the early warning signals to a plurality of communication platforms so as to inform the responsible persons and related units of drug-suppressing work.
Preferably, before step S1, the method further includes:
collecting second smell data of various drugs in different scenes and at different drug concentrations in advance to establish a corresponding smell database, transmitting the smell database to a data platform, and storing the smell database;
and controlling the internal environment temperature of the non-contact type drug-detecting instrument to be kept at a preset temperature.
Preferably, before the step S2 of delivering the first gas to be detected to the odor chip 5, the method further comprises:
and filtering the first gas to be detected to obtain a second gas to be detected after filtering, and transmitting the second gas to be detected to the odor chip 5 as the first gas to be detected.
Preferably, after step S3, the method further includes:
and transmitting the first smell data to a data platform, and storing the first smell data.
It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working process of the method described above may refer to the corresponding process in the foregoing related apparatus embodiments, and is not described herein again.
The above-mentioned embodiments are provided to further explain the objects, technical solutions and advantages of the present invention in detail, and it should be understood that the above-mentioned embodiments are only examples of the present invention and are not intended to limit the scope of the present invention. It should be understood that any modifications, equivalents, improvements and the like, which come within the spirit and principle of the invention, may occur to those skilled in the art and are intended to be included within the scope of the invention.
Claims (10)
1. A non-contact drug-detecting instrument is characterized by comprising: the device comprises an infrared lamp, an air pump, an odor chip, an early warning module and a display screen;
the infrared lamp is used for irradiating the solid to be detected so that the solid to be detected is volatilized into corresponding first gas to be detected;
the air pump is used for absorbing the first gas to be detected into the non-contact type drug-detecting detector and transmitting the first gas to be detected to the odor chip;
the odor chip is used for identifying the first gas to be detected and acquiring corresponding first odor data;
the early warning module is used for determining the early warning grade of the solid to be detected according to the comparison and analysis result of the first odor data and a pre-stored odor database, generating a corresponding early warning signal and feeding the early warning signal back to the display screen;
the display screen is used for displaying the first smell data and the early warning grade corresponding to the early warning signal in real time.
2. The non-contact type anti-drug detector as claimed in claim 1, wherein the pre-warning module is further configured to be associated with a plurality of different communication platforms and transmit the pre-warning signals to the plurality of communication platforms to notify the responsible persons and related units of anti-drug works.
3. The non-contact anti-drug detector as claimed in claim 1, wherein the odor chip is further configured to collect in advance second odor data of each type of drugs under different scenes and at different drug concentrations to establish the corresponding odor database.
4. The non-contact anti-drug detector according to claim 1, further comprising: the device comprises a filtering module, a transmission module, a constant temperature module, a battery and a switch button;
the filtering module is used for filtering the first gas to be detected to obtain a second filtered gas to be detected, and transmitting the second gas to be detected to the odor chip as the first gas to be detected;
the transmission module is used for transmitting and storing the first smell data and the smell database to a data platform, so that the data platform performs comparative analysis on the first smell data according to the smell database;
the constant temperature module is used for controlling the internal environment temperature of the non-contact type drug-arresting detector so as to keep the internal environment temperature of the non-contact type drug-arresting detector at a preset temperature;
the battery is used for providing electric energy for the non-contact drug-detecting instrument;
and the switch button is used for controlling the non-contact type drug-arresting detector to be started and closed.
5. The non-contact drug-detecting instrument according to claim 4, wherein the transmission module is followed by an exhaust port for exhausting the identified first gas to be detected.
6. A non-contact type drug suppression detection method is characterized by comprising the following steps:
irradiating a solid to be detected by using an infrared lamp to volatilize the solid to be detected into corresponding first gas to be detected;
absorbing the first gas to be detected into the non-contact type drug-detecting detector through a suction pump, and transmitting the first gas to be detected to an odor chip;
identifying the first gas to be detected by using the odor chip, and acquiring corresponding first odor data;
and according to a pre-stored odor database, carrying out comparative analysis on the first odor data so as to determine the early warning grade of the solid to be detected, generate a corresponding early warning signal, and display the first odor data and the early warning grade corresponding to the early warning signal in real time.
7. The non-contact anti-drug detection method according to claim 6, wherein after the comparing and analyzing the first odor data according to the pre-stored odor database to determine the pre-warning grade of the solid to be detected and generate the corresponding pre-warning signal, and displaying the first odor data and the pre-warning grade corresponding to the pre-warning signal in real time, the method further comprises:
and discharging the first gas to be detected out of the non-contact type drug-suppression detector, and transmitting the early warning signal to a plurality of communication platforms so as to inform a responsible person and related units for drug-suppression work.
8. The non-contact type drug-detecting method as claimed in claim 6, further comprising, before irradiating the solid to be detected with an infrared lamp to volatilize the solid to be detected into the corresponding first gas to be detected:
second smell data of various drugs under different scenes and with different drug concentrations are collected in advance to establish a corresponding smell database, the smell database is transmitted to a data platform, and the smell database is stored;
and controlling the internal environment temperature of the non-contact type drug-suppressing detector to be kept at a preset temperature.
9. The non-contact type anti-drug detection method as claimed in claim 6, further comprising, before the delivering the first gas to be detected to the odor chip:
and filtering the first gas to be detected to obtain a second gas to be detected after filtering, and transmitting the second gas to be detected to the odor chip as the first gas to be detected.
10. The non-contact drug-detecting method as claimed in claim 6, further comprising, after said identifying the first gas to be detected by using the odor chip and obtaining corresponding first odor data:
and transmitting the first smell data to a data platform, and storing the first smell data.
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